/*! ***************************************************************************** Copyright (c) Microsoft Corporation. All rights reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABLITY OR NON-INFRINGEMENT. See the Apache Version 2.0 License for specific language governing permissions and limitations under the License. ***************************************************************************** */ "use strict"; var __spreadArrays = (this && this.__spreadArrays) || function () { for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length; for (var r = Array(s), k = 0, i = 0; i < il; i++) for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++) r[k] = a[j]; return r; }; var __assign = (this && this.__assign) || function () { __assign = Object.assign || function(t) { for (var s, i = 1, n = arguments.length; i < n; i++) { s = arguments[i]; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p]; } return t; }; return __assign.apply(this, arguments); }; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __makeTemplateObject = (this && this.__makeTemplateObject) || function (cooked, raw) { if (Object.defineProperty) { Object.defineProperty(cooked, "raw", { value: raw }); } else { cooked.raw = raw; } return cooked; }; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var ts; (function (ts) { // WARNING: The script `configurePrerelease.ts` uses a regexp to parse out these values. // If changing the text in this section, be sure to test `configurePrerelease` too. ts.versionMajorMinor = "3.9"; /** The version of the TypeScript compiler release */ ts.version = "3.9.2"; /** * Returns the native Map implementation if it is available and compatible (i.e. supports iteration). */ /* @internal */ function tryGetNativeMap() { // eslint-disable-next-line no-in-operator return typeof Map !== "undefined" && "entries" in Map.prototype ? Map : undefined; } ts.tryGetNativeMap = tryGetNativeMap; /* @internal */ ts.Map = tryGetNativeMap() || (function () { // NOTE: createMapShim will be defined for typescriptServices.js but not for tsc.js, so we must test for it. if (typeof ts.createMapShim === "function") { return ts.createMapShim(); } throw new Error("TypeScript requires an environment that provides a compatible native Map implementation."); })(); /* @internal */ var Comparison; (function (Comparison) { Comparison[Comparison["LessThan"] = -1] = "LessThan"; Comparison[Comparison["EqualTo"] = 0] = "EqualTo"; Comparison[Comparison["GreaterThan"] = 1] = "GreaterThan"; })(Comparison = ts.Comparison || (ts.Comparison = {})); })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { ts.emptyArray = []; /** Create a new map. */ function createMap() { return new ts.Map(); } ts.createMap = createMap; /** Create a new map from an array of entries. */ function createMapFromEntries(entries) { var map = createMap(); for (var _i = 0, entries_1 = entries; _i < entries_1.length; _i++) { var _a = entries_1[_i], key = _a[0], value = _a[1]; map.set(key, value); } return map; } ts.createMapFromEntries = createMapFromEntries; /** Create a new map from a template object is provided, the map will copy entries from it. */ function createMapFromTemplate(template) { var map = new ts.Map(); // Copies keys/values from template. Note that for..in will not throw if // template is undefined, and instead will just exit the loop. for (var key in template) { if (hasOwnProperty.call(template, key)) { map.set(key, template[key]); } } return map; } ts.createMapFromTemplate = createMapFromTemplate; function length(array) { return array ? array.length : 0; } ts.length = length; /** * Iterates through 'array' by index and performs the callback on each element of array until the callback * returns a truthy value, then returns that value. * If no such value is found, the callback is applied to each element of array and undefined is returned. */ function forEach(array, callback) { if (array) { for (var i = 0; i < array.length; i++) { var result = callback(array[i], i); if (result) { return result; } } } return undefined; } ts.forEach = forEach; /** * Like `forEach`, but iterates in reverse order. */ function forEachRight(array, callback) { if (array) { for (var i = array.length - 1; i >= 0; i--) { var result = callback(array[i], i); if (result) { return result; } } } return undefined; } ts.forEachRight = forEachRight; /** Like `forEach`, but suitable for use with numbers and strings (which may be falsy). */ function firstDefined(array, callback) { if (array === undefined) { return undefined; } for (var i = 0; i < array.length; i++) { var result = callback(array[i], i); if (result !== undefined) { return result; } } return undefined; } ts.firstDefined = firstDefined; function firstDefinedIterator(iter, callback) { while (true) { var iterResult = iter.next(); if (iterResult.done) { return undefined; } var result = callback(iterResult.value); if (result !== undefined) { return result; } } } ts.firstDefinedIterator = firstDefinedIterator; function zipWith(arrayA, arrayB, callback) { var result = []; ts.Debug.assertEqual(arrayA.length, arrayB.length); for (var i = 0; i < arrayA.length; i++) { result.push(callback(arrayA[i], arrayB[i], i)); } return result; } ts.zipWith = zipWith; function zipToIterator(arrayA, arrayB) { ts.Debug.assertEqual(arrayA.length, arrayB.length); var i = 0; return { next: function () { if (i === arrayA.length) { return { value: undefined, done: true }; } i++; return { value: [arrayA[i - 1], arrayB[i - 1]], done: false }; } }; } ts.zipToIterator = zipToIterator; function zipToMap(keys, values) { ts.Debug.assert(keys.length === values.length); var map = createMap(); for (var i = 0; i < keys.length; ++i) { map.set(keys[i], values[i]); } return map; } ts.zipToMap = zipToMap; /** * Iterates through `array` by index and performs the callback on each element of array until the callback * returns a falsey value, then returns false. * If no such value is found, the callback is applied to each element of array and `true` is returned. */ function every(array, callback) { if (array) { for (var i = 0; i < array.length; i++) { if (!callback(array[i], i)) { return false; } } } return true; } ts.every = every; function find(array, predicate) { for (var i = 0; i < array.length; i++) { var value = array[i]; if (predicate(value, i)) { return value; } } return undefined; } ts.find = find; function findLast(array, predicate) { for (var i = array.length - 1; i >= 0; i--) { var value = array[i]; if (predicate(value, i)) { return value; } } return undefined; } ts.findLast = findLast; /** Works like Array.prototype.findIndex, returning `-1` if no element satisfying the predicate is found. */ function findIndex(array, predicate, startIndex) { for (var i = startIndex || 0; i < array.length; i++) { if (predicate(array[i], i)) { return i; } } return -1; } ts.findIndex = findIndex; function findLastIndex(array, predicate, startIndex) { for (var i = startIndex === undefined ? array.length - 1 : startIndex; i >= 0; i--) { if (predicate(array[i], i)) { return i; } } return -1; } ts.findLastIndex = findLastIndex; /** * Returns the first truthy result of `callback`, or else fails. * This is like `forEach`, but never returns undefined. */ function findMap(array, callback) { for (var i = 0; i < array.length; i++) { var result = callback(array[i], i); if (result) { return result; } } return ts.Debug.fail(); } ts.findMap = findMap; function contains(array, value, equalityComparer) { if (equalityComparer === void 0) { equalityComparer = equateValues; } if (array) { for (var _i = 0, array_1 = array; _i < array_1.length; _i++) { var v = array_1[_i]; if (equalityComparer(v, value)) { return true; } } } return false; } ts.contains = contains; function arraysEqual(a, b, equalityComparer) { if (equalityComparer === void 0) { equalityComparer = equateValues; } return a.length === b.length && a.every(function (x, i) { return equalityComparer(x, b[i]); }); } ts.arraysEqual = arraysEqual; function indexOfAnyCharCode(text, charCodes, start) { for (var i = start || 0; i < text.length; i++) { if (contains(charCodes, text.charCodeAt(i))) { return i; } } return -1; } ts.indexOfAnyCharCode = indexOfAnyCharCode; function countWhere(array, predicate) { var count = 0; if (array) { for (var i = 0; i < array.length; i++) { var v = array[i]; if (predicate(v, i)) { count++; } } } return count; } ts.countWhere = countWhere; function filter(array, f) { if (array) { var len = array.length; var i = 0; while (i < len && f(array[i])) i++; if (i < len) { var result = array.slice(0, i); i++; while (i < len) { var item = array[i]; if (f(item)) { result.push(item); } i++; } return result; } } return array; } ts.filter = filter; function filterMutate(array, f) { var outIndex = 0; for (var i = 0; i < array.length; i++) { if (f(array[i], i, array)) { array[outIndex] = array[i]; outIndex++; } } array.length = outIndex; } ts.filterMutate = filterMutate; function clear(array) { array.length = 0; } ts.clear = clear; function map(array, f) { var result; if (array) { result = []; for (var i = 0; i < array.length; i++) { result.push(f(array[i], i)); } } return result; } ts.map = map; function mapIterator(iter, mapFn) { return { next: function () { var iterRes = iter.next(); return iterRes.done ? iterRes : { value: mapFn(iterRes.value), done: false }; } }; } ts.mapIterator = mapIterator; function sameMap(array, f) { if (array) { for (var i = 0; i < array.length; i++) { var item = array[i]; var mapped = f(item, i); if (item !== mapped) { var result = array.slice(0, i); result.push(mapped); for (i++; i < array.length; i++) { result.push(f(array[i], i)); } return result; } } } return array; } ts.sameMap = sameMap; /** * Flattens an array containing a mix of array or non-array elements. * * @param array The array to flatten. */ function flatten(array) { var result = []; for (var _i = 0, array_2 = array; _i < array_2.length; _i++) { var v = array_2[_i]; if (v) { if (isArray(v)) { addRange(result, v); } else { result.push(v); } } } return result; } ts.flatten = flatten; /** * Maps an array. If the mapped value is an array, it is spread into the result. * * @param array The array to map. * @param mapfn The callback used to map the result into one or more values. */ function flatMap(array, mapfn) { var result; if (array) { for (var i = 0; i < array.length; i++) { var v = mapfn(array[i], i); if (v) { if (isArray(v)) { result = addRange(result, v); } else { result = append(result, v); } } } } return result || ts.emptyArray; } ts.flatMap = flatMap; function flatMapToMutable(array, mapfn) { var result = []; if (array) { for (var i = 0; i < array.length; i++) { var v = mapfn(array[i], i); if (v) { if (isArray(v)) { addRange(result, v); } else { result.push(v); } } } } return result; } ts.flatMapToMutable = flatMapToMutable; function flatMapIterator(iter, mapfn) { var first = iter.next(); if (first.done) { return ts.emptyIterator; } var currentIter = getIterator(first.value); return { next: function () { while (true) { var currentRes = currentIter.next(); if (!currentRes.done) { return currentRes; } var iterRes = iter.next(); if (iterRes.done) { return iterRes; } currentIter = getIterator(iterRes.value); } }, }; function getIterator(x) { var res = mapfn(x); return res === undefined ? ts.emptyIterator : isArray(res) ? arrayIterator(res) : res; } } ts.flatMapIterator = flatMapIterator; function sameFlatMap(array, mapfn) { var result; if (array) { for (var i = 0; i < array.length; i++) { var item = array[i]; var mapped = mapfn(item, i); if (result || item !== mapped || isArray(mapped)) { if (!result) { result = array.slice(0, i); } if (isArray(mapped)) { addRange(result, mapped); } else { result.push(mapped); } } } } return result || array; } ts.sameFlatMap = sameFlatMap; function mapAllOrFail(array, mapFn) { var result = []; for (var i = 0; i < array.length; i++) { var mapped = mapFn(array[i], i); if (mapped === undefined) { return undefined; } result.push(mapped); } return result; } ts.mapAllOrFail = mapAllOrFail; function mapDefined(array, mapFn) { var result = []; if (array) { for (var i = 0; i < array.length; i++) { var mapped = mapFn(array[i], i); if (mapped !== undefined) { result.push(mapped); } } } return result; } ts.mapDefined = mapDefined; function mapDefinedIterator(iter, mapFn) { return { next: function () { while (true) { var res = iter.next(); if (res.done) { return res; } var value = mapFn(res.value); if (value !== undefined) { return { value: value, done: false }; } } } }; } ts.mapDefinedIterator = mapDefinedIterator; function mapDefinedMap(map, mapValue, mapKey) { if (mapKey === void 0) { mapKey = identity; } var result = createMap(); map.forEach(function (value, key) { var mapped = mapValue(value, key); if (mapped !== undefined) { result.set(mapKey(key), mapped); } }); return result; } ts.mapDefinedMap = mapDefinedMap; ts.emptyIterator = { next: function () { return ({ value: undefined, done: true }); } }; function singleIterator(value) { var done = false; return { next: function () { var wasDone = done; done = true; return wasDone ? { value: undefined, done: true } : { value: value, done: false }; } }; } ts.singleIterator = singleIterator; function spanMap(array, keyfn, mapfn) { var result; if (array) { result = []; var len = array.length; var previousKey = void 0; var key = void 0; var start = 0; var pos = 0; while (start < len) { while (pos < len) { var value = array[pos]; key = keyfn(value, pos); if (pos === 0) { previousKey = key; } else if (key !== previousKey) { break; } pos++; } if (start < pos) { var v = mapfn(array.slice(start, pos), previousKey, start, pos); if (v) { result.push(v); } start = pos; } previousKey = key; pos++; } } return result; } ts.spanMap = spanMap; function mapEntries(map, f) { if (!map) { return undefined; } var result = createMap(); map.forEach(function (value, key) { var _a = f(key, value), newKey = _a[0], newValue = _a[1]; result.set(newKey, newValue); }); return result; } ts.mapEntries = mapEntries; function some(array, predicate) { if (array) { if (predicate) { for (var _i = 0, array_3 = array; _i < array_3.length; _i++) { var v = array_3[_i]; if (predicate(v)) { return true; } } } else { return array.length > 0; } } return false; } ts.some = some; /** Calls the callback with (start, afterEnd) index pairs for each range where 'pred' is true. */ function getRangesWhere(arr, pred, cb) { var start; for (var i = 0; i < arr.length; i++) { if (pred(arr[i])) { start = start === undefined ? i : start; } else { if (start !== undefined) { cb(start, i); start = undefined; } } } if (start !== undefined) cb(start, arr.length); } ts.getRangesWhere = getRangesWhere; function concatenate(array1, array2) { if (!some(array2)) return array1; if (!some(array1)) return array2; return __spreadArrays(array1, array2); } ts.concatenate = concatenate; function selectIndex(_, i) { return i; } function indicesOf(array) { return array.map(selectIndex); } ts.indicesOf = indicesOf; function deduplicateRelational(array, equalityComparer, comparer) { // Perform a stable sort of the array. This ensures the first entry in a list of // duplicates remains the first entry in the result. var indices = indicesOf(array); stableSortIndices(array, indices, comparer); var last = array[indices[0]]; var deduplicated = [indices[0]]; for (var i = 1; i < indices.length; i++) { var index = indices[i]; var item = array[index]; if (!equalityComparer(last, item)) { deduplicated.push(index); last = item; } } // restore original order deduplicated.sort(); return deduplicated.map(function (i) { return array[i]; }); } function deduplicateEquality(array, equalityComparer) { var result = []; for (var _i = 0, array_4 = array; _i < array_4.length; _i++) { var item = array_4[_i]; pushIfUnique(result, item, equalityComparer); } return result; } /** * Deduplicates an unsorted array. * @param equalityComparer An `EqualityComparer` used to determine if two values are duplicates. * @param comparer An optional `Comparer` used to sort entries before comparison, though the * result will remain in the original order in `array`. */ function deduplicate(array, equalityComparer, comparer) { return array.length === 0 ? [] : array.length === 1 ? array.slice() : comparer ? deduplicateRelational(array, equalityComparer, comparer) : deduplicateEquality(array, equalityComparer); } ts.deduplicate = deduplicate; /** * Deduplicates an array that has already been sorted. */ function deduplicateSorted(array, comparer) { if (array.length === 0) return ts.emptyArray; var last = array[0]; var deduplicated = [last]; for (var i = 1; i < array.length; i++) { var next = array[i]; switch (comparer(next, last)) { // equality comparison case true: // relational comparison // falls through case 0 /* EqualTo */: continue; case -1 /* LessThan */: // If `array` is sorted, `next` should **never** be less than `last`. return ts.Debug.fail("Array is unsorted."); } deduplicated.push(last = next); } return deduplicated; } function insertSorted(array, insert, compare) { if (array.length === 0) { array.push(insert); return; } var insertIndex = binarySearch(array, insert, identity, compare); if (insertIndex < 0) { array.splice(~insertIndex, 0, insert); } } ts.insertSorted = insertSorted; function sortAndDeduplicate(array, comparer, equalityComparer) { return deduplicateSorted(sort(array, comparer), equalityComparer || comparer || compareStringsCaseSensitive); } ts.sortAndDeduplicate = sortAndDeduplicate; function arrayIsEqualTo(array1, array2, equalityComparer) { if (equalityComparer === void 0) { equalityComparer = equateValues; } if (!array1 || !array2) { return array1 === array2; } if (array1.length !== array2.length) { return false; } for (var i = 0; i < array1.length; i++) { if (!equalityComparer(array1[i], array2[i], i)) { return false; } } return true; } ts.arrayIsEqualTo = arrayIsEqualTo; function compact(array) { var result; if (array) { for (var i = 0; i < array.length; i++) { var v = array[i]; if (result || !v) { if (!result) { result = array.slice(0, i); } if (v) { result.push(v); } } } } return result || array; } ts.compact = compact; /** * Gets the relative complement of `arrayA` with respect to `arrayB`, returning the elements that * are not present in `arrayA` but are present in `arrayB`. Assumes both arrays are sorted * based on the provided comparer. */ function relativeComplement(arrayA, arrayB, comparer) { if (!arrayB || !arrayA || arrayB.length === 0 || arrayA.length === 0) return arrayB; var result = []; loopB: for (var offsetA = 0, offsetB = 0; offsetB < arrayB.length; offsetB++) { if (offsetB > 0) { // Ensure `arrayB` is properly sorted. ts.Debug.assertGreaterThanOrEqual(comparer(arrayB[offsetB], arrayB[offsetB - 1]), 0 /* EqualTo */); } loopA: for (var startA = offsetA; offsetA < arrayA.length; offsetA++) { if (offsetA > startA) { // Ensure `arrayA` is properly sorted. We only need to perform this check if // `offsetA` has changed since we entered the loop. ts.Debug.assertGreaterThanOrEqual(comparer(arrayA[offsetA], arrayA[offsetA - 1]), 0 /* EqualTo */); } switch (comparer(arrayB[offsetB], arrayA[offsetA])) { case -1 /* LessThan */: // If B is less than A, B does not exist in arrayA. Add B to the result and // move to the next element in arrayB without changing the current position // in arrayA. result.push(arrayB[offsetB]); continue loopB; case 0 /* EqualTo */: // If B is equal to A, B exists in arrayA. Move to the next element in // arrayB without adding B to the result or changing the current position // in arrayA. continue loopB; case 1 /* GreaterThan */: // If B is greater than A, we need to keep looking for B in arrayA. Move to // the next element in arrayA and recheck. continue loopA; } } } return result; } ts.relativeComplement = relativeComplement; function sum(array, prop) { var result = 0; for (var _i = 0, array_5 = array; _i < array_5.length; _i++) { var v = array_5[_i]; result += v[prop]; } return result; } ts.sum = sum; function append(to, value) { if (value === undefined) return to; if (to === undefined) return [value]; to.push(value); return to; } ts.append = append; function combine(xs, ys) { if (xs === undefined) return ys; if (ys === undefined) return xs; if (isArray(xs)) return isArray(ys) ? concatenate(xs, ys) : append(xs, ys); if (isArray(ys)) return append(ys, xs); return [xs, ys]; } ts.combine = combine; /** * Gets the actual offset into an array for a relative offset. Negative offsets indicate a * position offset from the end of the array. */ function toOffset(array, offset) { return offset < 0 ? array.length + offset : offset; } function addRange(to, from, start, end) { if (from === undefined || from.length === 0) return to; if (to === undefined) return from.slice(start, end); start = start === undefined ? 0 : toOffset(from, start); end = end === undefined ? from.length : toOffset(from, end); for (var i = start; i < end && i < from.length; i++) { if (from[i] !== undefined) { to.push(from[i]); } } return to; } ts.addRange = addRange; /** * @return Whether the value was added. */ function pushIfUnique(array, toAdd, equalityComparer) { if (contains(array, toAdd, equalityComparer)) { return false; } else { array.push(toAdd); return true; } } ts.pushIfUnique = pushIfUnique; /** * Unlike `pushIfUnique`, this can take `undefined` as an input, and returns a new array. */ function appendIfUnique(array, toAdd, equalityComparer) { if (array) { pushIfUnique(array, toAdd, equalityComparer); return array; } else { return [toAdd]; } } ts.appendIfUnique = appendIfUnique; function stableSortIndices(array, indices, comparer) { // sort indices by value then position indices.sort(function (x, y) { return comparer(array[x], array[y]) || compareValues(x, y); }); } /** * Returns a new sorted array. */ function sort(array, comparer) { return (array.length === 0 ? array : array.slice().sort(comparer)); } ts.sort = sort; function arrayIterator(array) { var i = 0; return { next: function () { if (i === array.length) { return { value: undefined, done: true }; } else { i++; return { value: array[i - 1], done: false }; } } }; } ts.arrayIterator = arrayIterator; function arrayReverseIterator(array) { var i = array.length; return { next: function () { if (i === 0) { return { value: undefined, done: true }; } else { i--; return { value: array[i], done: false }; } } }; } ts.arrayReverseIterator = arrayReverseIterator; /** * Stable sort of an array. Elements equal to each other maintain their relative position in the array. */ function stableSort(array, comparer) { var indices = indicesOf(array); stableSortIndices(array, indices, comparer); return indices.map(function (i) { return array[i]; }); } ts.stableSort = stableSort; function rangeEquals(array1, array2, pos, end) { while (pos < end) { if (array1[pos] !== array2[pos]) { return false; } pos++; } return true; } ts.rangeEquals = rangeEquals; /** * Returns the element at a specific offset in an array if non-empty, `undefined` otherwise. * A negative offset indicates the element should be retrieved from the end of the array. */ function elementAt(array, offset) { if (array) { offset = toOffset(array, offset); if (offset < array.length) { return array[offset]; } } return undefined; } ts.elementAt = elementAt; /** * Returns the first element of an array if non-empty, `undefined` otherwise. */ function firstOrUndefined(array) { return array.length === 0 ? undefined : array[0]; } ts.firstOrUndefined = firstOrUndefined; function first(array) { ts.Debug.assert(array.length !== 0); return array[0]; } ts.first = first; /** * Returns the last element of an array if non-empty, `undefined` otherwise. */ function lastOrUndefined(array) { return array.length === 0 ? undefined : array[array.length - 1]; } ts.lastOrUndefined = lastOrUndefined; function last(array) { ts.Debug.assert(array.length !== 0); return array[array.length - 1]; } ts.last = last; /** * Returns the only element of an array if it contains only one element, `undefined` otherwise. */ function singleOrUndefined(array) { return array && array.length === 1 ? array[0] : undefined; } ts.singleOrUndefined = singleOrUndefined; function singleOrMany(array) { return array && array.length === 1 ? array[0] : array; } ts.singleOrMany = singleOrMany; function replaceElement(array, index, value) { var result = array.slice(0); result[index] = value; return result; } ts.replaceElement = replaceElement; /** * Performs a binary search, finding the index at which `value` occurs in `array`. * If no such index is found, returns the 2's-complement of first index at which * `array[index]` exceeds `value`. * @param array A sorted array whose first element must be no larger than number * @param value The value to be searched for in the array. * @param keySelector A callback used to select the search key from `value` and each element of * `array`. * @param keyComparer A callback used to compare two keys in a sorted array. * @param offset An offset into `array` at which to start the search. */ function binarySearch(array, value, keySelector, keyComparer, offset) { return binarySearchKey(array, keySelector(value), keySelector, keyComparer, offset); } ts.binarySearch = binarySearch; /** * Performs a binary search, finding the index at which an object with `key` occurs in `array`. * If no such index is found, returns the 2's-complement of first index at which * `array[index]` exceeds `key`. * @param array A sorted array whose first element must be no larger than number * @param key The key to be searched for in the array. * @param keySelector A callback used to select the search key from each element of `array`. * @param keyComparer A callback used to compare two keys in a sorted array. * @param offset An offset into `array` at which to start the search. */ function binarySearchKey(array, key, keySelector, keyComparer, offset) { if (!some(array)) { return -1; } var low = offset || 0; var high = array.length - 1; while (low <= high) { var middle = low + ((high - low) >> 1); var midKey = keySelector(array[middle]); switch (keyComparer(midKey, key)) { case -1 /* LessThan */: low = middle + 1; break; case 0 /* EqualTo */: return middle; case 1 /* GreaterThan */: high = middle - 1; break; } } return ~low; } ts.binarySearchKey = binarySearchKey; function reduceLeft(array, f, initial, start, count) { if (array && array.length > 0) { var size = array.length; if (size > 0) { var pos = start === undefined || start < 0 ? 0 : start; var end = count === undefined || pos + count > size - 1 ? size - 1 : pos + count; var result = void 0; if (arguments.length <= 2) { result = array[pos]; pos++; } else { result = initial; } while (pos <= end) { result = f(result, array[pos], pos); pos++; } return result; } } return initial; } ts.reduceLeft = reduceLeft; var hasOwnProperty = Object.prototype.hasOwnProperty; /** * Indicates whether a map-like contains an own property with the specified key. * * @param map A map-like. * @param key A property key. */ function hasProperty(map, key) { return hasOwnProperty.call(map, key); } ts.hasProperty = hasProperty; /** * Gets the value of an owned property in a map-like. * * @param map A map-like. * @param key A property key. */ function getProperty(map, key) { return hasOwnProperty.call(map, key) ? map[key] : undefined; } ts.getProperty = getProperty; /** * Gets the owned, enumerable property keys of a map-like. */ function getOwnKeys(map) { var keys = []; for (var key in map) { if (hasOwnProperty.call(map, key)) { keys.push(key); } } return keys; } ts.getOwnKeys = getOwnKeys; function getAllKeys(obj) { var result = []; do { var names = Object.getOwnPropertyNames(obj); for (var _i = 0, names_1 = names; _i < names_1.length; _i++) { var name = names_1[_i]; pushIfUnique(result, name); } } while (obj = Object.getPrototypeOf(obj)); return result; } ts.getAllKeys = getAllKeys; function getOwnValues(sparseArray) { var values = []; for (var key in sparseArray) { if (hasOwnProperty.call(sparseArray, key)) { values.push(sparseArray[key]); } } return values; } ts.getOwnValues = getOwnValues; function arrayFrom(iterator, map) { var result = []; for (var iterResult = iterator.next(); !iterResult.done; iterResult = iterator.next()) { result.push(map ? map(iterResult.value) : iterResult.value); } return result; } ts.arrayFrom = arrayFrom; function assign(t) { var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } for (var _a = 0, args_1 = args; _a < args_1.length; _a++) { var arg = args_1[_a]; if (arg === undefined) continue; for (var p in arg) { if (hasProperty(arg, p)) { t[p] = arg[p]; } } } return t; } ts.assign = assign; /** * Performs a shallow equality comparison of the contents of two map-likes. * * @param left A map-like whose properties should be compared. * @param right A map-like whose properties should be compared. */ function equalOwnProperties(left, right, equalityComparer) { if (equalityComparer === void 0) { equalityComparer = equateValues; } if (left === right) return true; if (!left || !right) return false; for (var key in left) { if (hasOwnProperty.call(left, key)) { if (!hasOwnProperty.call(right, key)) return false; if (!equalityComparer(left[key], right[key])) return false; } } for (var key in right) { if (hasOwnProperty.call(right, key)) { if (!hasOwnProperty.call(left, key)) return false; } } return true; } ts.equalOwnProperties = equalOwnProperties; function arrayToMap(array, makeKey, makeValue) { if (makeValue === void 0) { makeValue = identity; } var result = createMap(); for (var _i = 0, array_6 = array; _i < array_6.length; _i++) { var value = array_6[_i]; var key = makeKey(value); if (key !== undefined) result.set(key, makeValue(value)); } return result; } ts.arrayToMap = arrayToMap; function arrayToNumericMap(array, makeKey, makeValue) { if (makeValue === void 0) { makeValue = identity; } var result = []; for (var _i = 0, array_7 = array; _i < array_7.length; _i++) { var value = array_7[_i]; result[makeKey(value)] = makeValue(value); } return result; } ts.arrayToNumericMap = arrayToNumericMap; function arrayToMultiMap(values, makeKey, makeValue) { if (makeValue === void 0) { makeValue = identity; } var result = createMultiMap(); for (var _i = 0, values_1 = values; _i < values_1.length; _i++) { var value = values_1[_i]; result.add(makeKey(value), makeValue(value)); } return result; } ts.arrayToMultiMap = arrayToMultiMap; function group(values, getGroupId, resultSelector) { if (resultSelector === void 0) { resultSelector = identity; } return arrayFrom(arrayToMultiMap(values, getGroupId).values(), resultSelector); } ts.group = group; function clone(object) { var result = {}; for (var id in object) { if (hasOwnProperty.call(object, id)) { result[id] = object[id]; } } return result; } ts.clone = clone; /** * Creates a new object by adding the own properties of `second`, then the own properties of `first`. * * NOTE: This means that if a property exists in both `first` and `second`, the property in `first` will be chosen. */ function extend(first, second) { var result = {}; for (var id in second) { if (hasOwnProperty.call(second, id)) { result[id] = second[id]; } } for (var id in first) { if (hasOwnProperty.call(first, id)) { result[id] = first[id]; } } return result; } ts.extend = extend; function copyProperties(first, second) { for (var id in second) { if (hasOwnProperty.call(second, id)) { first[id] = second[id]; } } } ts.copyProperties = copyProperties; function maybeBind(obj, fn) { return fn ? fn.bind(obj) : undefined; } ts.maybeBind = maybeBind; function mapMap(map, f) { var result = createMap(); map.forEach(function (t, key) { return result.set.apply(result, (f(t, key))); }); return result; } ts.mapMap = mapMap; function createMultiMap() { var map = createMap(); map.add = multiMapAdd; map.remove = multiMapRemove; return map; } ts.createMultiMap = createMultiMap; function multiMapAdd(key, value) { var values = this.get(key); if (values) { values.push(value); } else { this.set(key, values = [value]); } return values; } function multiMapRemove(key, value) { var values = this.get(key); if (values) { unorderedRemoveItem(values, value); if (!values.length) { this.delete(key); } } } function createUnderscoreEscapedMultiMap() { return createMultiMap(); } ts.createUnderscoreEscapedMultiMap = createUnderscoreEscapedMultiMap; /** * Tests whether a value is an array. */ function isArray(value) { return Array.isArray ? Array.isArray(value) : value instanceof Array; } ts.isArray = isArray; function toArray(value) { return isArray(value) ? value : [value]; } ts.toArray = toArray; /** * Tests whether a value is string */ function isString(text) { return typeof text === "string"; } ts.isString = isString; function isNumber(x) { return typeof x === "number"; } ts.isNumber = isNumber; function tryCast(value, test) { return value !== undefined && test(value) ? value : undefined; } ts.tryCast = tryCast; function cast(value, test) { if (value !== undefined && test(value)) return value; return ts.Debug.fail("Invalid cast. The supplied value " + value + " did not pass the test '" + ts.Debug.getFunctionName(test) + "'."); } ts.cast = cast; /** Does nothing. */ function noop(_) { } ts.noop = noop; /** Do nothing and return false */ function returnFalse() { return false; } ts.returnFalse = returnFalse; /** Do nothing and return true */ function returnTrue() { return true; } ts.returnTrue = returnTrue; /** Do nothing and return undefined */ function returnUndefined() { return undefined; } ts.returnUndefined = returnUndefined; /** Returns its argument. */ function identity(x) { return x; } ts.identity = identity; /** Returns lower case string */ function toLowerCase(x) { return x.toLowerCase(); } ts.toLowerCase = toLowerCase; // We convert the file names to lower case as key for file name on case insensitive file system // While doing so we need to handle special characters (eg \u0130) to ensure that we dont convert // it to lower case, fileName with its lowercase form can exist along side it. // Handle special characters and make those case sensitive instead // // |-#--|-Unicode--|-Char code-|-Desc-------------------------------------------------------------------| // | 1. | i | 105 | Ascii i | // | 2. | I | 73 | Ascii I | // |-------- Special characters ------------------------------------------------------------------------| // | 3. | \u0130 | 304 | Uppper case I with dot above | // | 4. | i,\u0307 | 105,775 | i, followed by 775: Lower case of (3rd item) | // | 5. | I,\u0307 | 73,775 | I, followed by 775: Upper case of (4th item), lower case is (4th item) | // | 6. | \u0131 | 305 | Lower case i without dot, upper case is I (2nd item) | // | 7. | \u00DF | 223 | Lower case sharp s | // // Because item 3 is special where in its lowercase character has its own // upper case form we cant convert its case. // Rest special characters are either already in lower case format or // they have corresponding upper case character so they dont need special handling // // But to avoid having to do string building for most common cases, also ignore // a-z, 0-9, \u0131, \u00DF, \, /, ., : and space var fileNameLowerCaseRegExp = /[^\u0130\u0131\u00DFa-z0-9\\/:\-_\. ]+/g; /** * Case insensitive file systems have descripencies in how they handle some characters (eg. turkish Upper case I with dot on top - \u0130) * This function is used in places where we want to make file name as a key on these systems * It is possible on mac to be able to refer to file name with I with dot on top as a fileName with its lower case form * But on windows we cannot. Windows can have fileName with I with dot on top next to its lower case and they can not each be referred with the lowercase forms * Technically we would want this function to be platform sepcific as well but * our api has till now only taken caseSensitive as the only input and just for some characters we dont want to update API and ensure all customers use those api * We could use upper case and we would still need to deal with the descripencies but * we want to continue using lower case since in most cases filenames are lowercasewe and wont need any case changes and avoid having to store another string for the key * So for this function purpose, we go ahead and assume character I with dot on top it as case sensitive since its very unlikely to use lower case form of that special character */ function toFileNameLowerCase(x) { return fileNameLowerCaseRegExp.test(x) ? x.replace(fileNameLowerCaseRegExp, toLowerCase) : x; } ts.toFileNameLowerCase = toFileNameLowerCase; /** Throws an error because a function is not implemented. */ function notImplemented() { throw new Error("Not implemented"); } ts.notImplemented = notImplemented; function memoize(callback) { var value; return function () { if (callback) { value = callback(); callback = undefined; } return value; }; } ts.memoize = memoize; function compose(a, b, c, d, e) { if (!!e) { var args_2 = []; for (var i = 0; i < arguments.length; i++) { args_2[i] = arguments[i]; } return function (t) { return reduceLeft(args_2, function (u, f) { return f(u); }, t); }; } else if (d) { return function (t) { return d(c(b(a(t)))); }; } else if (c) { return function (t) { return c(b(a(t))); }; } else if (b) { return function (t) { return b(a(t)); }; } else if (a) { return function (t) { return a(t); }; } else { return function (t) { return t; }; } } ts.compose = compose; var AssertionLevel; (function (AssertionLevel) { AssertionLevel[AssertionLevel["None"] = 0] = "None"; AssertionLevel[AssertionLevel["Normal"] = 1] = "Normal"; AssertionLevel[AssertionLevel["Aggressive"] = 2] = "Aggressive"; AssertionLevel[AssertionLevel["VeryAggressive"] = 3] = "VeryAggressive"; })(AssertionLevel = ts.AssertionLevel || (ts.AssertionLevel = {})); function equateValues(a, b) { return a === b; } ts.equateValues = equateValues; /** * Compare the equality of two strings using a case-sensitive ordinal comparison. * * Case-sensitive comparisons compare both strings one code-point at a time using the integer * value of each code-point after applying `toUpperCase` to each string. We always map both * strings to their upper-case form as some unicode characters do not properly round-trip to * lowercase (such as `ẞ` (German sharp capital s)). */ function equateStringsCaseInsensitive(a, b) { return a === b || a !== undefined && b !== undefined && a.toUpperCase() === b.toUpperCase(); } ts.equateStringsCaseInsensitive = equateStringsCaseInsensitive; /** * Compare the equality of two strings using a case-sensitive ordinal comparison. * * Case-sensitive comparisons compare both strings one code-point at a time using the * integer value of each code-point. */ function equateStringsCaseSensitive(a, b) { return equateValues(a, b); } ts.equateStringsCaseSensitive = equateStringsCaseSensitive; function compareComparableValues(a, b) { return a === b ? 0 /* EqualTo */ : a === undefined ? -1 /* LessThan */ : b === undefined ? 1 /* GreaterThan */ : a < b ? -1 /* LessThan */ : 1 /* GreaterThan */; } /** * Compare two numeric values for their order relative to each other. * To compare strings, use any of the `compareStrings` functions. */ function compareValues(a, b) { return compareComparableValues(a, b); } ts.compareValues = compareValues; /** * Compare two TextSpans, first by `start`, then by `length`. */ function compareTextSpans(a, b) { return compareValues(a === null || a === void 0 ? void 0 : a.start, b === null || b === void 0 ? void 0 : b.start) || compareValues(a === null || a === void 0 ? void 0 : a.length, b === null || b === void 0 ? void 0 : b.length); } ts.compareTextSpans = compareTextSpans; function min(a, b, compare) { return compare(a, b) === -1 /* LessThan */ ? a : b; } ts.min = min; /** * Compare two strings using a case-insensitive ordinal comparison. * * Ordinal comparisons are based on the difference between the unicode code points of both * strings. Characters with multiple unicode representations are considered unequal. Ordinal * comparisons provide predictable ordering, but place "a" after "B". * * Case-insensitive comparisons compare both strings one code-point at a time using the integer * value of each code-point after applying `toUpperCase` to each string. We always map both * strings to their upper-case form as some unicode characters do not properly round-trip to * lowercase (such as `ẞ` (German sharp capital s)). */ function compareStringsCaseInsensitive(a, b) { if (a === b) return 0 /* EqualTo */; if (a === undefined) return -1 /* LessThan */; if (b === undefined) return 1 /* GreaterThan */; a = a.toUpperCase(); b = b.toUpperCase(); return a < b ? -1 /* LessThan */ : a > b ? 1 /* GreaterThan */ : 0 /* EqualTo */; } ts.compareStringsCaseInsensitive = compareStringsCaseInsensitive; /** * Compare two strings using a case-sensitive ordinal comparison. * * Ordinal comparisons are based on the difference between the unicode code points of both * strings. Characters with multiple unicode representations are considered unequal. Ordinal * comparisons provide predictable ordering, but place "a" after "B". * * Case-sensitive comparisons compare both strings one code-point at a time using the integer * value of each code-point. */ function compareStringsCaseSensitive(a, b) { return compareComparableValues(a, b); } ts.compareStringsCaseSensitive = compareStringsCaseSensitive; function getStringComparer(ignoreCase) { return ignoreCase ? compareStringsCaseInsensitive : compareStringsCaseSensitive; } ts.getStringComparer = getStringComparer; /** * Creates a string comparer for use with string collation in the UI. */ var createUIStringComparer = (function () { var defaultComparer; var enUSComparer; var stringComparerFactory = getStringComparerFactory(); return createStringComparer; function compareWithCallback(a, b, comparer) { if (a === b) return 0 /* EqualTo */; if (a === undefined) return -1 /* LessThan */; if (b === undefined) return 1 /* GreaterThan */; var value = comparer(a, b); return value < 0 ? -1 /* LessThan */ : value > 0 ? 1 /* GreaterThan */ : 0 /* EqualTo */; } function createIntlCollatorStringComparer(locale) { // Intl.Collator.prototype.compare is bound to the collator. See NOTE in // http://www.ecma-international.org/ecma-402/2.0/#sec-Intl.Collator.prototype.compare var comparer = new Intl.Collator(locale, { usage: "sort", sensitivity: "variant" }).compare; return function (a, b) { return compareWithCallback(a, b, comparer); }; } function createLocaleCompareStringComparer(locale) { // if the locale is not the default locale (`undefined`), use the fallback comparer. if (locale !== undefined) return createFallbackStringComparer(); return function (a, b) { return compareWithCallback(a, b, compareStrings); }; function compareStrings(a, b) { return a.localeCompare(b); } } function createFallbackStringComparer() { // An ordinal comparison puts "A" after "b", but for the UI we want "A" before "b". // We first sort case insensitively. So "Aaa" will come before "baa". // Then we sort case sensitively, so "aaa" will come before "Aaa". // // For case insensitive comparisons we always map both strings to their // upper-case form as some unicode characters do not properly round-trip to // lowercase (such as `ẞ` (German sharp capital s)). return function (a, b) { return compareWithCallback(a, b, compareDictionaryOrder); }; function compareDictionaryOrder(a, b) { return compareStrings(a.toUpperCase(), b.toUpperCase()) || compareStrings(a, b); } function compareStrings(a, b) { return a < b ? -1 /* LessThan */ : a > b ? 1 /* GreaterThan */ : 0 /* EqualTo */; } } function getStringComparerFactory() { // If the host supports Intl, we use it for comparisons using the default locale. if (typeof Intl === "object" && typeof Intl.Collator === "function") { return createIntlCollatorStringComparer; } // If the host does not support Intl, we fall back to localeCompare. // localeCompare in Node v0.10 is just an ordinal comparison, so don't use it. if (typeof String.prototype.localeCompare === "function" && typeof String.prototype.toLocaleUpperCase === "function" && "a".localeCompare("B") < 0) { return createLocaleCompareStringComparer; } // Otherwise, fall back to ordinal comparison: return createFallbackStringComparer; } function createStringComparer(locale) { // Hold onto common string comparers. This avoids constantly reallocating comparers during // tests. if (locale === undefined) { return defaultComparer || (defaultComparer = stringComparerFactory(locale)); } else if (locale === "en-US") { return enUSComparer || (enUSComparer = stringComparerFactory(locale)); } else { return stringComparerFactory(locale); } } })(); var uiComparerCaseSensitive; var uiLocale; function getUILocale() { return uiLocale; } ts.getUILocale = getUILocale; function setUILocale(value) { if (uiLocale !== value) { uiLocale = value; uiComparerCaseSensitive = undefined; } } ts.setUILocale = setUILocale; /** * Compare two strings in a using the case-sensitive sort behavior of the UI locale. * * Ordering is not predictable between different host locales, but is best for displaying * ordered data for UI presentation. Characters with multiple unicode representations may * be considered equal. * * Case-sensitive comparisons compare strings that differ in base characters, or * accents/diacritic marks, or case as unequal. */ function compareStringsCaseSensitiveUI(a, b) { var comparer = uiComparerCaseSensitive || (uiComparerCaseSensitive = createUIStringComparer(uiLocale)); return comparer(a, b); } ts.compareStringsCaseSensitiveUI = compareStringsCaseSensitiveUI; function compareProperties(a, b, key, comparer) { return a === b ? 0 /* EqualTo */ : a === undefined ? -1 /* LessThan */ : b === undefined ? 1 /* GreaterThan */ : comparer(a[key], b[key]); } ts.compareProperties = compareProperties; /** True is greater than false. */ function compareBooleans(a, b) { return compareValues(a ? 1 : 0, b ? 1 : 0); } ts.compareBooleans = compareBooleans; /** * Given a name and a list of names that are *not* equal to the name, return a spelling suggestion if there is one that is close enough. * Names less than length 3 only check for case-insensitive equality, not Levenshtein distance. * * If there is a candidate that's the same except for case, return that. * If there is a candidate that's within one edit of the name, return that. * Otherwise, return the candidate with the smallest Levenshtein distance, * except for candidates: * * With no name * * Whose length differs from the target name by more than 0.34 of the length of the name. * * Whose levenshtein distance is more than 0.4 of the length of the name * (0.4 allows 1 substitution/transposition for every 5 characters, * and 1 insertion/deletion at 3 characters) */ function getSpellingSuggestion(name, candidates, getName) { var maximumLengthDifference = Math.min(2, Math.floor(name.length * 0.34)); var bestDistance = Math.floor(name.length * 0.4) + 1; // If the best result isn't better than this, don't bother. var bestCandidate; var justCheckExactMatches = false; var nameLowerCase = name.toLowerCase(); for (var _i = 0, candidates_1 = candidates; _i < candidates_1.length; _i++) { var candidate = candidates_1[_i]; var candidateName = getName(candidate); if (candidateName !== undefined && Math.abs(candidateName.length - nameLowerCase.length) <= maximumLengthDifference) { var candidateNameLowerCase = candidateName.toLowerCase(); if (candidateNameLowerCase === nameLowerCase) { if (candidateName === name) { continue; } return candidate; } if (justCheckExactMatches) { continue; } if (candidateName.length < 3) { // Don't bother, user would have noticed a 2-character name having an extra character continue; } // Only care about a result better than the best so far. var distance = levenshteinWithMax(nameLowerCase, candidateNameLowerCase, bestDistance - 1); if (distance === undefined) { continue; } if (distance < 3) { justCheckExactMatches = true; bestCandidate = candidate; } else { ts.Debug.assert(distance < bestDistance); // Else `levenshteinWithMax` should return undefined bestDistance = distance; bestCandidate = candidate; } } } return bestCandidate; } ts.getSpellingSuggestion = getSpellingSuggestion; function levenshteinWithMax(s1, s2, max) { var previous = new Array(s2.length + 1); var current = new Array(s2.length + 1); /** Represents any value > max. We don't care about the particular value. */ var big = max + 1; for (var i = 0; i <= s2.length; i++) { previous[i] = i; } for (var i = 1; i <= s1.length; i++) { var c1 = s1.charCodeAt(i - 1); var minJ = i > max ? i - max : 1; var maxJ = s2.length > max + i ? max + i : s2.length; current[0] = i; /** Smallest value of the matrix in the ith column. */ var colMin = i; for (var j = 1; j < minJ; j++) { current[j] = big; } for (var j = minJ; j <= maxJ; j++) { var dist = c1 === s2.charCodeAt(j - 1) ? previous[j - 1] : Math.min(/*delete*/ previous[j] + 1, /*insert*/ current[j - 1] + 1, /*substitute*/ previous[j - 1] + 2); current[j] = dist; colMin = Math.min(colMin, dist); } for (var j = maxJ + 1; j <= s2.length; j++) { current[j] = big; } if (colMin > max) { // Give up -- everything in this column is > max and it can't get better in future columns. return undefined; } var temp = previous; previous = current; current = temp; } var res = previous[s2.length]; return res > max ? undefined : res; } function endsWith(str, suffix) { var expectedPos = str.length - suffix.length; return expectedPos >= 0 && str.indexOf(suffix, expectedPos) === expectedPos; } ts.endsWith = endsWith; function removeSuffix(str, suffix) { return endsWith(str, suffix) ? str.slice(0, str.length - suffix.length) : str; } ts.removeSuffix = removeSuffix; function tryRemoveSuffix(str, suffix) { return endsWith(str, suffix) ? str.slice(0, str.length - suffix.length) : undefined; } ts.tryRemoveSuffix = tryRemoveSuffix; function stringContains(str, substring) { return str.indexOf(substring) !== -1; } ts.stringContains = stringContains; /** * Takes a string like "jquery-min.4.2.3" and returns "jquery" */ function removeMinAndVersionNumbers(fileName) { // Match a "." or "-" followed by a version number or 'min' at the end of the name var trailingMinOrVersion = /[.-]((min)|(\d+(\.\d+)*))$/; // The "min" or version may both be present, in either order, so try applying the above twice. return fileName.replace(trailingMinOrVersion, "").replace(trailingMinOrVersion, ""); } ts.removeMinAndVersionNumbers = removeMinAndVersionNumbers; /** Remove an item from an array, moving everything to its right one space left. */ function orderedRemoveItem(array, item) { for (var i = 0; i < array.length; i++) { if (array[i] === item) { orderedRemoveItemAt(array, i); return true; } } return false; } ts.orderedRemoveItem = orderedRemoveItem; /** Remove an item by index from an array, moving everything to its right one space left. */ function orderedRemoveItemAt(array, index) { // This seems to be faster than either `array.splice(i, 1)` or `array.copyWithin(i, i+ 1)`. for (var i = index; i < array.length - 1; i++) { array[i] = array[i + 1]; } array.pop(); } ts.orderedRemoveItemAt = orderedRemoveItemAt; function unorderedRemoveItemAt(array, index) { // Fill in the "hole" left at `index`. array[index] = array[array.length - 1]; array.pop(); } ts.unorderedRemoveItemAt = unorderedRemoveItemAt; /** Remove the *first* occurrence of `item` from the array. */ function unorderedRemoveItem(array, item) { return unorderedRemoveFirstItemWhere(array, function (element) { return element === item; }); } ts.unorderedRemoveItem = unorderedRemoveItem; /** Remove the *first* element satisfying `predicate`. */ function unorderedRemoveFirstItemWhere(array, predicate) { for (var i = 0; i < array.length; i++) { if (predicate(array[i])) { unorderedRemoveItemAt(array, i); return true; } } return false; } function createGetCanonicalFileName(useCaseSensitiveFileNames) { return useCaseSensitiveFileNames ? identity : toFileNameLowerCase; } ts.createGetCanonicalFileName = createGetCanonicalFileName; function patternText(_a) { var prefix = _a.prefix, suffix = _a.suffix; return prefix + "*" + suffix; } ts.patternText = patternText; /** * Given that candidate matches pattern, returns the text matching the '*'. * E.g.: matchedText(tryParsePattern("foo*baz"), "foobarbaz") === "bar" */ function matchedText(pattern, candidate) { ts.Debug.assert(isPatternMatch(pattern, candidate)); return candidate.substring(pattern.prefix.length, candidate.length - pattern.suffix.length); } ts.matchedText = matchedText; /** Return the object corresponding to the best pattern to match `candidate`. */ function findBestPatternMatch(values, getPattern, candidate) { var matchedValue; // use length of prefix as betterness criteria var longestMatchPrefixLength = -1; for (var _i = 0, values_2 = values; _i < values_2.length; _i++) { var v = values_2[_i]; var pattern = getPattern(v); if (isPatternMatch(pattern, candidate) && pattern.prefix.length > longestMatchPrefixLength) { longestMatchPrefixLength = pattern.prefix.length; matchedValue = v; } } return matchedValue; } ts.findBestPatternMatch = findBestPatternMatch; function startsWith(str, prefix) { return str.lastIndexOf(prefix, 0) === 0; } ts.startsWith = startsWith; function removePrefix(str, prefix) { return startsWith(str, prefix) ? str.substr(prefix.length) : str; } ts.removePrefix = removePrefix; function tryRemovePrefix(str, prefix, getCanonicalFileName) { if (getCanonicalFileName === void 0) { getCanonicalFileName = identity; } return startsWith(getCanonicalFileName(str), getCanonicalFileName(prefix)) ? str.substring(prefix.length) : undefined; } ts.tryRemovePrefix = tryRemovePrefix; function isPatternMatch(_a, candidate) { var prefix = _a.prefix, suffix = _a.suffix; return candidate.length >= prefix.length + suffix.length && startsWith(candidate, prefix) && endsWith(candidate, suffix); } function and(f, g) { return function (arg) { return f(arg) && g(arg); }; } ts.and = and; function or() { var fs = []; for (var _i = 0; _i < arguments.length; _i++) { fs[_i] = arguments[_i]; } return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } for (var _a = 0, fs_1 = fs; _a < fs_1.length; _a++) { var f = fs_1[_a]; if (f.apply(void 0, args)) { return true; } } return false; }; } ts.or = or; function not(fn) { return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return !fn.apply(void 0, args); }; } ts.not = not; function assertType(_) { } ts.assertType = assertType; function singleElementArray(t) { return t === undefined ? undefined : [t]; } ts.singleElementArray = singleElementArray; function enumerateInsertsAndDeletes(newItems, oldItems, comparer, inserted, deleted, unchanged) { unchanged = unchanged || noop; var newIndex = 0; var oldIndex = 0; var newLen = newItems.length; var oldLen = oldItems.length; while (newIndex < newLen && oldIndex < oldLen) { var newItem = newItems[newIndex]; var oldItem = oldItems[oldIndex]; var compareResult = comparer(newItem, oldItem); if (compareResult === -1 /* LessThan */) { inserted(newItem); newIndex++; } else if (compareResult === 1 /* GreaterThan */) { deleted(oldItem); oldIndex++; } else { unchanged(oldItem, newItem); newIndex++; oldIndex++; } } while (newIndex < newLen) { inserted(newItems[newIndex++]); } while (oldIndex < oldLen) { deleted(oldItems[oldIndex++]); } } ts.enumerateInsertsAndDeletes = enumerateInsertsAndDeletes; function fill(length, cb) { var result = Array(length); for (var i = 0; i < length; i++) { result[i] = cb(i); } return result; } ts.fill = fill; function cartesianProduct(arrays) { var result = []; cartesianProductWorker(arrays, result, /*outer*/ undefined, 0); return result; } ts.cartesianProduct = cartesianProduct; function cartesianProductWorker(arrays, result, outer, index) { for (var _i = 0, _a = arrays[index]; _i < _a.length; _i++) { var element = _a[_i]; var inner = void 0; if (outer) { inner = outer.slice(); inner.push(element); } else { inner = [element]; } if (index === arrays.length - 1) { result.push(inner); } else { cartesianProductWorker(arrays, result, inner, index + 1); } } } function padLeft(s, length) { while (s.length < length) { s = " " + s; } return s; } ts.padLeft = padLeft; function padRight(s, length) { while (s.length < length) { s = s + " "; } return s; } ts.padRight = padRight; })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { var Debug; (function (Debug) { var currentAssertionLevel = 0 /* None */; // eslint-disable-next-line prefer-const Debug.isDebugging = false; var assertionCache = {}; function getAssertionLevel() { return currentAssertionLevel; } Debug.getAssertionLevel = getAssertionLevel; function setAssertionLevel(level) { var prevAssertionLevel = currentAssertionLevel; currentAssertionLevel = level; if (level > prevAssertionLevel) { // restore assertion functions for the current assertion level (see `shouldAssertFunction`). for (var _i = 0, _a = ts.getOwnKeys(assertionCache); _i < _a.length; _i++) { var key = _a[_i]; var cachedFunc = assertionCache[key]; if (cachedFunc !== undefined && Debug[key] !== cachedFunc.assertion && level >= cachedFunc.level) { Debug[key] = cachedFunc; assertionCache[key] = undefined; } } } } Debug.setAssertionLevel = setAssertionLevel; function shouldAssert(level) { return currentAssertionLevel >= level; } Debug.shouldAssert = shouldAssert; /** * Tests whether an assertion function should be executed. If it shouldn't, it is cached and replaced with `ts.noop`. * Replaced assertion functions are restored when `Debug.setAssertionLevel` is set to a high enough level. * @param level The minimum assertion level required. * @param name The name of the current assertion function. */ function shouldAssertFunction(level, name) { if (!shouldAssert(level)) { assertionCache[name] = { level: level, assertion: Debug[name] }; Debug[name] = ts.noop; return false; } return true; } function fail(message, stackCrawlMark) { debugger; var e = new Error(message ? "Debug Failure. " + message : "Debug Failure."); if (Error.captureStackTrace) { Error.captureStackTrace(e, stackCrawlMark || fail); } throw e; } Debug.fail = fail; function failBadSyntaxKind(node, message, stackCrawlMark) { return fail((message || "Unexpected node.") + "\r\nNode " + formatSyntaxKind(node.kind) + " was unexpected.", stackCrawlMark || failBadSyntaxKind); } Debug.failBadSyntaxKind = failBadSyntaxKind; function assert(expression, message, verboseDebugInfo, stackCrawlMark) { if (!expression) { message = message ? "False expression: " + message : "False expression."; if (verboseDebugInfo) { message += "\r\nVerbose Debug Information: " + (typeof verboseDebugInfo === "string" ? verboseDebugInfo : verboseDebugInfo()); } fail(message, stackCrawlMark || assert); } } Debug.assert = assert; function assertEqual(a, b, msg, msg2, stackCrawlMark) { if (a !== b) { var message = msg ? msg2 ? msg + " " + msg2 : msg : ""; fail("Expected " + a + " === " + b + ". " + message, stackCrawlMark || assertEqual); } } Debug.assertEqual = assertEqual; function assertLessThan(a, b, msg, stackCrawlMark) { if (a >= b) { fail("Expected " + a + " < " + b + ". " + (msg || ""), stackCrawlMark || assertLessThan); } } Debug.assertLessThan = assertLessThan; function assertLessThanOrEqual(a, b, stackCrawlMark) { if (a > b) { fail("Expected " + a + " <= " + b, stackCrawlMark || assertLessThanOrEqual); } } Debug.assertLessThanOrEqual = assertLessThanOrEqual; function assertGreaterThanOrEqual(a, b, stackCrawlMark) { if (a < b) { fail("Expected " + a + " >= " + b, stackCrawlMark || assertGreaterThanOrEqual); } } Debug.assertGreaterThanOrEqual = assertGreaterThanOrEqual; function assertIsDefined(value, message, stackCrawlMark) { // eslint-disable-next-line no-null/no-null if (value === undefined || value === null) { fail(message, stackCrawlMark || assertIsDefined); } } Debug.assertIsDefined = assertIsDefined; function checkDefined(value, message, stackCrawlMark) { assertIsDefined(value, message, stackCrawlMark || checkDefined); return value; } Debug.checkDefined = checkDefined; /** * @deprecated Use `checkDefined` to check whether a value is defined inline. Use `assertIsDefined` to check whether * a value is defined at the statement level. */ Debug.assertDefined = checkDefined; function assertEachIsDefined(value, message, stackCrawlMark) { for (var _i = 0, value_1 = value; _i < value_1.length; _i++) { var v = value_1[_i]; assertIsDefined(v, message, stackCrawlMark || assertEachIsDefined); } } Debug.assertEachIsDefined = assertEachIsDefined; function checkEachDefined(value, message, stackCrawlMark) { assertEachIsDefined(value, message, stackCrawlMark || checkEachDefined); return value; } Debug.checkEachDefined = checkEachDefined; /** * @deprecated Use `checkEachDefined` to check whether the elements of an array are defined inline. Use `assertEachIsDefined` to check whether * the elements of an array are defined at the statement level. */ Debug.assertEachDefined = checkEachDefined; function assertNever(member, message, stackCrawlMark) { if (message === void 0) { message = "Illegal value:"; } var detail = typeof member === "object" && ts.hasProperty(member, "kind") && ts.hasProperty(member, "pos") && formatSyntaxKind ? "SyntaxKind: " + formatSyntaxKind(member.kind) : JSON.stringify(member); return fail(message + " " + detail, stackCrawlMark || assertNever); } Debug.assertNever = assertNever; function assertEachNode(nodes, test, message, stackCrawlMark) { if (shouldAssertFunction(1 /* Normal */, "assertEachNode")) { assert(test === undefined || ts.every(nodes, test), message || "Unexpected node.", function () { return "Node array did not pass test '" + getFunctionName(test) + "'."; }, stackCrawlMark || assertEachNode); } } Debug.assertEachNode = assertEachNode; function assertNode(node, test, message, stackCrawlMark) { if (shouldAssertFunction(1 /* Normal */, "assertNode")) { assert(node !== undefined && (test === undefined || test(node)), message || "Unexpected node.", function () { return "Node " + formatSyntaxKind(node.kind) + " did not pass test '" + getFunctionName(test) + "'."; }, stackCrawlMark || assertNode); } } Debug.assertNode = assertNode; function assertNotNode(node, test, message, stackCrawlMark) { if (shouldAssertFunction(1 /* Normal */, "assertNotNode")) { assert(node === undefined || test === undefined || !test(node), message || "Unexpected node.", function () { return "Node " + formatSyntaxKind(node.kind) + " should not have passed test '" + getFunctionName(test) + "'."; }, stackCrawlMark || assertNotNode); } } Debug.assertNotNode = assertNotNode; function assertOptionalNode(node, test, message, stackCrawlMark) { if (shouldAssertFunction(1 /* Normal */, "assertOptionalNode")) { assert(test === undefined || node === undefined || test(node), message || "Unexpected node.", function () { return "Node " + formatSyntaxKind(node.kind) + " did not pass test '" + getFunctionName(test) + "'."; }, stackCrawlMark || assertOptionalNode); } } Debug.assertOptionalNode = assertOptionalNode; function assertOptionalToken(node, kind, message, stackCrawlMark) { if (shouldAssertFunction(1 /* Normal */, "assertOptionalToken")) { assert(kind === undefined || node === undefined || node.kind === kind, message || "Unexpected node.", function () { return "Node " + formatSyntaxKind(node.kind) + " was not a '" + formatSyntaxKind(kind) + "' token."; }, stackCrawlMark || assertOptionalToken); } } Debug.assertOptionalToken = assertOptionalToken; function assertMissingNode(node, message, stackCrawlMark) { if (shouldAssertFunction(1 /* Normal */, "assertMissingNode")) { assert(node === undefined, message || "Unexpected node.", function () { return "Node " + formatSyntaxKind(node.kind) + " was unexpected'."; }, stackCrawlMark || assertMissingNode); } } Debug.assertMissingNode = assertMissingNode; function getFunctionName(func) { if (typeof func !== "function") { return ""; } else if (func.hasOwnProperty("name")) { return func.name; } else { var text = Function.prototype.toString.call(func); var match = /^function\s+([\w\$]+)\s*\(/.exec(text); return match ? match[1] : ""; } } Debug.getFunctionName = getFunctionName; function formatSymbol(symbol) { return "{ name: " + ts.unescapeLeadingUnderscores(symbol.escapedName) + "; flags: " + formatSymbolFlags(symbol.flags) + "; declarations: " + ts.map(symbol.declarations, function (node) { return formatSyntaxKind(node.kind); }) + " }"; } Debug.formatSymbol = formatSymbol; /** * Formats an enum value as a string for debugging and debug assertions. */ function formatEnum(value, enumObject, isFlags) { if (value === void 0) { value = 0; } var members = getEnumMembers(enumObject); if (value === 0) { return members.length > 0 && members[0][0] === 0 ? members[0][1] : "0"; } if (isFlags) { var result = ""; var remainingFlags = value; for (var _i = 0, members_1 = members; _i < members_1.length; _i++) { var _a = members_1[_i], enumValue = _a[0], enumName = _a[1]; if (enumValue > value) { break; } if (enumValue !== 0 && enumValue & value) { result = "" + result + (result ? "|" : "") + enumName; remainingFlags &= ~enumValue; } } if (remainingFlags === 0) { return result; } } else { for (var _b = 0, members_2 = members; _b < members_2.length; _b++) { var _c = members_2[_b], enumValue = _c[0], enumName = _c[1]; if (enumValue === value) { return enumName; } } } return value.toString(); } Debug.formatEnum = formatEnum; function getEnumMembers(enumObject) { var result = []; for (var name in enumObject) { var value = enumObject[name]; if (typeof value === "number") { result.push([value, name]); } } return ts.stableSort(result, function (x, y) { return ts.compareValues(x[0], y[0]); }); } function formatSyntaxKind(kind) { return formatEnum(kind, ts.SyntaxKind, /*isFlags*/ false); } Debug.formatSyntaxKind = formatSyntaxKind; function formatNodeFlags(flags) { return formatEnum(flags, ts.NodeFlags, /*isFlags*/ true); } Debug.formatNodeFlags = formatNodeFlags; function formatModifierFlags(flags) { return formatEnum(flags, ts.ModifierFlags, /*isFlags*/ true); } Debug.formatModifierFlags = formatModifierFlags; function formatTransformFlags(flags) { return formatEnum(flags, ts.TransformFlags, /*isFlags*/ true); } Debug.formatTransformFlags = formatTransformFlags; function formatEmitFlags(flags) { return formatEnum(flags, ts.EmitFlags, /*isFlags*/ true); } Debug.formatEmitFlags = formatEmitFlags; function formatSymbolFlags(flags) { return formatEnum(flags, ts.SymbolFlags, /*isFlags*/ true); } Debug.formatSymbolFlags = formatSymbolFlags; function formatTypeFlags(flags) { return formatEnum(flags, ts.TypeFlags, /*isFlags*/ true); } Debug.formatTypeFlags = formatTypeFlags; function formatObjectFlags(flags) { return formatEnum(flags, ts.ObjectFlags, /*isFlags*/ true); } Debug.formatObjectFlags = formatObjectFlags; var isDebugInfoEnabled = false; var extendedDebugModule; function extendedDebug() { enableDebugInfo(); if (!extendedDebugModule) { throw new Error("Debugging helpers could not be loaded."); } return extendedDebugModule; } function printControlFlowGraph(flowNode) { return console.log(formatControlFlowGraph(flowNode)); } Debug.printControlFlowGraph = printControlFlowGraph; function formatControlFlowGraph(flowNode) { return extendedDebug().formatControlFlowGraph(flowNode); } Debug.formatControlFlowGraph = formatControlFlowGraph; function attachFlowNodeDebugInfo(flowNode) { if (isDebugInfoEnabled) { if (!("__debugFlowFlags" in flowNode)) { // eslint-disable-line no-in-operator Object.defineProperties(flowNode, { __debugFlowFlags: { get: function () { return formatEnum(this.flags, ts.FlowFlags, /*isFlags*/ true); } }, __debugToString: { value: function () { return formatControlFlowGraph(this); } } }); } } } Debug.attachFlowNodeDebugInfo = attachFlowNodeDebugInfo; /** * Injects debug information into frequently used types. */ function enableDebugInfo() { if (isDebugInfoEnabled) return; // Add additional properties in debug mode to assist with debugging. Object.defineProperties(ts.objectAllocator.getSymbolConstructor().prototype, { __debugFlags: { get: function () { return formatSymbolFlags(this.flags); } } }); Object.defineProperties(ts.objectAllocator.getTypeConstructor().prototype, { __debugFlags: { get: function () { return formatTypeFlags(this.flags); } }, __debugObjectFlags: { get: function () { return this.flags & 524288 /* Object */ ? formatObjectFlags(this.objectFlags) : ""; } }, __debugTypeToString: { value: function () { return this.checker.typeToString(this); } }, }); var nodeConstructors = [ ts.objectAllocator.getNodeConstructor(), ts.objectAllocator.getIdentifierConstructor(), ts.objectAllocator.getTokenConstructor(), ts.objectAllocator.getSourceFileConstructor() ]; for (var _i = 0, nodeConstructors_1 = nodeConstructors; _i < nodeConstructors_1.length; _i++) { var ctor = nodeConstructors_1[_i]; if (!ctor.prototype.hasOwnProperty("__debugKind")) { Object.defineProperties(ctor.prototype, { __debugKind: { get: function () { return formatSyntaxKind(this.kind); } }, __debugNodeFlags: { get: function () { return formatNodeFlags(this.flags); } }, __debugModifierFlags: { get: function () { return formatModifierFlags(ts.getModifierFlagsNoCache(this)); } }, __debugTransformFlags: { get: function () { return formatTransformFlags(this.transformFlags); } }, __debugIsParseTreeNode: { get: function () { return ts.isParseTreeNode(this); } }, __debugEmitFlags: { get: function () { return formatEmitFlags(ts.getEmitFlags(this)); } }, __debugGetText: { value: function (includeTrivia) { if (ts.nodeIsSynthesized(this)) return ""; var parseNode = ts.getParseTreeNode(this); var sourceFile = parseNode && ts.getSourceFileOfNode(parseNode); return sourceFile ? ts.getSourceTextOfNodeFromSourceFile(sourceFile, parseNode, includeTrivia) : ""; } } }); } } // attempt to load extended debugging information try { if (ts.sys && ts.sys.require) { var basePath = ts.getDirectoryPath(ts.resolvePath(ts.sys.getExecutingFilePath())); var result = ts.sys.require(basePath, "./compiler-debug"); if (!result.error) { result.module.init(ts); extendedDebugModule = result.module; } } } catch (_a) { // do nothing } isDebugInfoEnabled = true; } Debug.enableDebugInfo = enableDebugInfo; })(Debug = ts.Debug || (ts.Debug = {})); })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { /** Gets a timestamp with (at least) ms resolution */ ts.timestamp = typeof performance !== "undefined" && performance.now ? function () { return performance.now(); } : Date.now ? Date.now : function () { return +(new Date()); }; })(ts || (ts = {})); /*@internal*/ /** Performance measurements for the compiler. */ var ts; (function (ts) { var performance; (function (performance) { // NOTE: cannot use ts.noop as core.ts loads after this var profilerEvent = typeof onProfilerEvent === "function" && onProfilerEvent.profiler === true ? onProfilerEvent : function () { }; var enabled = false; var profilerStart = 0; var counts; var marks; var measures; function createTimerIf(condition, measureName, startMarkName, endMarkName) { return condition ? createTimer(measureName, startMarkName, endMarkName) : performance.nullTimer; } performance.createTimerIf = createTimerIf; function createTimer(measureName, startMarkName, endMarkName) { var enterCount = 0; return { enter: enter, exit: exit }; function enter() { if (++enterCount === 1) { mark(startMarkName); } } function exit() { if (--enterCount === 0) { mark(endMarkName); measure(measureName, startMarkName, endMarkName); } else if (enterCount < 0) { ts.Debug.fail("enter/exit count does not match."); } } } performance.createTimer = createTimer; performance.nullTimer = { enter: ts.noop, exit: ts.noop }; /** * Marks a performance event. * * @param markName The name of the mark. */ function mark(markName) { if (enabled) { marks.set(markName, ts.timestamp()); counts.set(markName, (counts.get(markName) || 0) + 1); profilerEvent(markName); } } performance.mark = mark; /** * Adds a performance measurement with the specified name. * * @param measureName The name of the performance measurement. * @param startMarkName The name of the starting mark. If not supplied, the point at which the * profiler was enabled is used. * @param endMarkName The name of the ending mark. If not supplied, the current timestamp is * used. */ function measure(measureName, startMarkName, endMarkName) { if (enabled) { var end = endMarkName && marks.get(endMarkName) || ts.timestamp(); var start = startMarkName && marks.get(startMarkName) || profilerStart; measures.set(measureName, (measures.get(measureName) || 0) + (end - start)); } } performance.measure = measure; /** * Gets the number of times a marker was encountered. * * @param markName The name of the mark. */ function getCount(markName) { return counts && counts.get(markName) || 0; } performance.getCount = getCount; /** * Gets the total duration of all measurements with the supplied name. * * @param measureName The name of the measure whose durations should be accumulated. */ function getDuration(measureName) { return measures && measures.get(measureName) || 0; } performance.getDuration = getDuration; /** * Iterate over each measure, performing some action * * @param cb The action to perform for each measure */ function forEachMeasure(cb) { measures.forEach(function (measure, key) { cb(key, measure); }); } performance.forEachMeasure = forEachMeasure; /** Enables (and resets) performance measurements for the compiler. */ function enable() { counts = ts.createMap(); marks = ts.createMap(); measures = ts.createMap(); enabled = true; profilerStart = ts.timestamp(); } performance.enable = enable; /** Disables performance measurements for the compiler. */ function disable() { enabled = false; } performance.disable = disable; })(performance = ts.performance || (ts.performance = {})); })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { var nullLogger = { logEvent: ts.noop, logErrEvent: ts.noop, logPerfEvent: ts.noop, logInfoEvent: ts.noop, logStartCommand: ts.noop, logStopCommand: ts.noop, logStartUpdateProgram: ts.noop, logStopUpdateProgram: ts.noop, logStartUpdateGraph: ts.noop, logStopUpdateGraph: ts.noop, logStartResolveModule: ts.noop, logStopResolveModule: ts.noop, logStartParseSourceFile: ts.noop, logStopParseSourceFile: ts.noop, logStartReadFile: ts.noop, logStopReadFile: ts.noop, logStartBindFile: ts.noop, logStopBindFile: ts.noop, logStartScheduledOperation: ts.noop, logStopScheduledOperation: ts.noop, }; // Load optional module to enable Event Tracing for Windows // See https://github.com/microsoft/typescript-etw for more information var etwModule; try { // require() will throw an exception if the module is not installed // It may also return undefined if not installed properly etwModule = require("@microsoft/typescript-etw"); } catch (e) { etwModule = undefined; } /** Performance logger that will generate ETW events if possible - check for `logEvent` member, as `etwModule` will be `{}` when browserified */ ts.perfLogger = etwModule && etwModule.logEvent ? etwModule : nullLogger; })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { // https://semver.org/#spec-item-2 // > A normal version number MUST take the form X.Y.Z where X, Y, and Z are non-negative // > integers, and MUST NOT contain leading zeroes. X is the major version, Y is the minor // > version, and Z is the patch version. Each element MUST increase numerically. // // NOTE: We differ here in that we allow X and X.Y, with missing parts having the default // value of `0`. var versionRegExp = /^(0|[1-9]\d*)(?:\.(0|[1-9]\d*)(?:\.(0|[1-9]\d*)(?:\-([a-z0-9-.]+))?(?:\+([a-z0-9-.]+))?)?)?$/i; // https://semver.org/#spec-item-9 // > A pre-release version MAY be denoted by appending a hyphen and a series of dot separated // > identifiers immediately following the patch version. Identifiers MUST comprise only ASCII // > alphanumerics and hyphen [0-9A-Za-z-]. Identifiers MUST NOT be empty. Numeric identifiers // > MUST NOT include leading zeroes. var prereleaseRegExp = /^(?:0|[1-9]\d*|[a-z-][a-z0-9-]*)(?:\.(?:0|[1-9]\d*|[a-z-][a-z0-9-]*))*$/i; // https://semver.org/#spec-item-10 // > Build metadata MAY be denoted by appending a plus sign and a series of dot separated // > identifiers immediately following the patch or pre-release version. Identifiers MUST // > comprise only ASCII alphanumerics and hyphen [0-9A-Za-z-]. Identifiers MUST NOT be empty. var buildRegExp = /^[a-z0-9-]+(?:\.[a-z0-9-]+)*$/i; // https://semver.org/#spec-item-9 // > Numeric identifiers MUST NOT include leading zeroes. var numericIdentifierRegExp = /^(0|[1-9]\d*)$/; /** * Describes a precise semantic version number, https://semver.org */ var Version = /** @class */ (function () { function Version(major, minor, patch, prerelease, build) { if (minor === void 0) { minor = 0; } if (patch === void 0) { patch = 0; } if (prerelease === void 0) { prerelease = ""; } if (build === void 0) { build = ""; } if (typeof major === "string") { var result = ts.Debug.checkDefined(tryParseComponents(major), "Invalid version"); (major = result.major, minor = result.minor, patch = result.patch, prerelease = result.prerelease, build = result.build); } ts.Debug.assert(major >= 0, "Invalid argument: major"); ts.Debug.assert(minor >= 0, "Invalid argument: minor"); ts.Debug.assert(patch >= 0, "Invalid argument: patch"); ts.Debug.assert(!prerelease || prereleaseRegExp.test(prerelease), "Invalid argument: prerelease"); ts.Debug.assert(!build || buildRegExp.test(build), "Invalid argument: build"); this.major = major; this.minor = minor; this.patch = patch; this.prerelease = prerelease ? prerelease.split(".") : ts.emptyArray; this.build = build ? build.split(".") : ts.emptyArray; } Version.tryParse = function (text) { var result = tryParseComponents(text); if (!result) return undefined; var major = result.major, minor = result.minor, patch = result.patch, prerelease = result.prerelease, build = result.build; return new Version(major, minor, patch, prerelease, build); }; Version.prototype.compareTo = function (other) { // https://semver.org/#spec-item-11 // > Precedence is determined by the first difference when comparing each of these // > identifiers from left to right as follows: Major, minor, and patch versions are // > always compared numerically. // // https://semver.org/#spec-item-11 // > Precedence for two pre-release versions with the same major, minor, and patch version // > MUST be determined by comparing each dot separated identifier from left to right until // > a difference is found [...] // // https://semver.org/#spec-item-11 // > Build metadata does not figure into precedence if (this === other) return 0 /* EqualTo */; if (other === undefined) return 1 /* GreaterThan */; return ts.compareValues(this.major, other.major) || ts.compareValues(this.minor, other.minor) || ts.compareValues(this.patch, other.patch) || comparePrerelaseIdentifiers(this.prerelease, other.prerelease); }; Version.prototype.increment = function (field) { switch (field) { case "major": return new Version(this.major + 1, 0, 0); case "minor": return new Version(this.major, this.minor + 1, 0); case "patch": return new Version(this.major, this.minor, this.patch + 1); default: return ts.Debug.assertNever(field); } }; Version.prototype.toString = function () { var result = this.major + "." + this.minor + "." + this.patch; if (ts.some(this.prerelease)) result += "-" + this.prerelease.join("."); if (ts.some(this.build)) result += "+" + this.build.join("."); return result; }; Version.zero = new Version(0, 0, 0); return Version; }()); ts.Version = Version; function tryParseComponents(text) { var match = versionRegExp.exec(text); if (!match) return undefined; var major = match[1], _a = match[2], minor = _a === void 0 ? "0" : _a, _b = match[3], patch = _b === void 0 ? "0" : _b, _c = match[4], prerelease = _c === void 0 ? "" : _c, _d = match[5], build = _d === void 0 ? "" : _d; if (prerelease && !prereleaseRegExp.test(prerelease)) return undefined; if (build && !buildRegExp.test(build)) return undefined; return { major: parseInt(major, 10), minor: parseInt(minor, 10), patch: parseInt(patch, 10), prerelease: prerelease, build: build }; } function comparePrerelaseIdentifiers(left, right) { // https://semver.org/#spec-item-11 // > When major, minor, and patch are equal, a pre-release version has lower precedence // > than a normal version. if (left === right) return 0 /* EqualTo */; if (left.length === 0) return right.length === 0 ? 0 /* EqualTo */ : 1 /* GreaterThan */; if (right.length === 0) return -1 /* LessThan */; // https://semver.org/#spec-item-11 // > Precedence for two pre-release versions with the same major, minor, and patch version // > MUST be determined by comparing each dot separated identifier from left to right until // > a difference is found [...] var length = Math.min(left.length, right.length); for (var i = 0; i < length; i++) { var leftIdentifier = left[i]; var rightIdentifier = right[i]; if (leftIdentifier === rightIdentifier) continue; var leftIsNumeric = numericIdentifierRegExp.test(leftIdentifier); var rightIsNumeric = numericIdentifierRegExp.test(rightIdentifier); if (leftIsNumeric || rightIsNumeric) { // https://semver.org/#spec-item-11 // > Numeric identifiers always have lower precedence than non-numeric identifiers. if (leftIsNumeric !== rightIsNumeric) return leftIsNumeric ? -1 /* LessThan */ : 1 /* GreaterThan */; // https://semver.org/#spec-item-11 // > identifiers consisting of only digits are compared numerically var result = ts.compareValues(+leftIdentifier, +rightIdentifier); if (result) return result; } else { // https://semver.org/#spec-item-11 // > identifiers with letters or hyphens are compared lexically in ASCII sort order. var result = ts.compareStringsCaseSensitive(leftIdentifier, rightIdentifier); if (result) return result; } } // https://semver.org/#spec-item-11 // > A larger set of pre-release fields has a higher precedence than a smaller set, if all // > of the preceding identifiers are equal. return ts.compareValues(left.length, right.length); } /** * Describes a semantic version range, per https://github.com/npm/node-semver#ranges */ var VersionRange = /** @class */ (function () { function VersionRange(spec) { this._alternatives = spec ? ts.Debug.checkDefined(parseRange(spec), "Invalid range spec.") : ts.emptyArray; } VersionRange.tryParse = function (text) { var sets = parseRange(text); if (sets) { var range = new VersionRange(""); range._alternatives = sets; return range; } return undefined; }; VersionRange.prototype.test = function (version) { if (typeof version === "string") version = new Version(version); return testDisjunction(version, this._alternatives); }; VersionRange.prototype.toString = function () { return formatDisjunction(this._alternatives); }; return VersionRange; }()); ts.VersionRange = VersionRange; // https://github.com/npm/node-semver#range-grammar // // range-set ::= range ( logical-or range ) * // range ::= hyphen | simple ( ' ' simple ) * | '' // logical-or ::= ( ' ' ) * '||' ( ' ' ) * var logicalOrRegExp = /\s*\|\|\s*/g; var whitespaceRegExp = /\s+/g; // https://github.com/npm/node-semver#range-grammar // // partial ::= xr ( '.' xr ( '.' xr qualifier ? )? )? // xr ::= 'x' | 'X' | '*' | nr // nr ::= '0' | ['1'-'9'] ( ['0'-'9'] ) * // qualifier ::= ( '-' pre )? ( '+' build )? // pre ::= parts // build ::= parts // parts ::= part ( '.' part ) * // part ::= nr | [-0-9A-Za-z]+ var partialRegExp = /^([xX*0]|[1-9]\d*)(?:\.([xX*0]|[1-9]\d*)(?:\.([xX*0]|[1-9]\d*)(?:-([a-z0-9-.]+))?(?:\+([a-z0-9-.]+))?)?)?$/i; // https://github.com/npm/node-semver#range-grammar // // hyphen ::= partial ' - ' partial var hyphenRegExp = /^\s*([a-z0-9-+.*]+)\s+-\s+([a-z0-9-+.*]+)\s*$/i; // https://github.com/npm/node-semver#range-grammar // // simple ::= primitive | partial | tilde | caret // primitive ::= ( '<' | '>' | '>=' | '<=' | '=' ) partial // tilde ::= '~' partial // caret ::= '^' partial var rangeRegExp = /^\s*(~|\^|<|<=|>|>=|=)?\s*([a-z0-9-+.*]+)$/i; function parseRange(text) { var alternatives = []; for (var _i = 0, _a = text.trim().split(logicalOrRegExp); _i < _a.length; _i++) { var range = _a[_i]; if (!range) continue; var comparators = []; var match = hyphenRegExp.exec(range); if (match) { if (!parseHyphen(match[1], match[2], comparators)) return undefined; } else { for (var _b = 0, _c = range.split(whitespaceRegExp); _b < _c.length; _b++) { var simple = _c[_b]; var match_1 = rangeRegExp.exec(simple); if (!match_1 || !parseComparator(match_1[1], match_1[2], comparators)) return undefined; } } alternatives.push(comparators); } return alternatives; } function parsePartial(text) { var match = partialRegExp.exec(text); if (!match) return undefined; var major = match[1], _a = match[2], minor = _a === void 0 ? "*" : _a, _b = match[3], patch = _b === void 0 ? "*" : _b, prerelease = match[4], build = match[5]; var version = new Version(isWildcard(major) ? 0 : parseInt(major, 10), isWildcard(major) || isWildcard(minor) ? 0 : parseInt(minor, 10), isWildcard(major) || isWildcard(minor) || isWildcard(patch) ? 0 : parseInt(patch, 10), prerelease, build); return { version: version, major: major, minor: minor, patch: patch }; } function parseHyphen(left, right, comparators) { var leftResult = parsePartial(left); if (!leftResult) return false; var rightResult = parsePartial(right); if (!rightResult) return false; if (!isWildcard(leftResult.major)) { comparators.push(createComparator(">=", leftResult.version)); } if (!isWildcard(rightResult.major)) { comparators.push(isWildcard(rightResult.minor) ? createComparator("<", rightResult.version.increment("major")) : isWildcard(rightResult.patch) ? createComparator("<", rightResult.version.increment("minor")) : createComparator("<=", rightResult.version)); } return true; } function parseComparator(operator, text, comparators) { var result = parsePartial(text); if (!result) return false; var version = result.version, major = result.major, minor = result.minor, patch = result.patch; if (!isWildcard(major)) { switch (operator) { case "~": comparators.push(createComparator(">=", version)); comparators.push(createComparator("<", version.increment(isWildcard(minor) ? "major" : "minor"))); break; case "^": comparators.push(createComparator(">=", version)); comparators.push(createComparator("<", version.increment(version.major > 0 || isWildcard(minor) ? "major" : version.minor > 0 || isWildcard(patch) ? "minor" : "patch"))); break; case "<": case ">=": comparators.push(createComparator(operator, version)); break; case "<=": case ">": comparators.push(isWildcard(minor) ? createComparator(operator === "<=" ? "<" : ">=", version.increment("major")) : isWildcard(patch) ? createComparator(operator === "<=" ? "<" : ">=", version.increment("minor")) : createComparator(operator, version)); break; case "=": case undefined: if (isWildcard(minor) || isWildcard(patch)) { comparators.push(createComparator(">=", version)); comparators.push(createComparator("<", version.increment(isWildcard(minor) ? "major" : "minor"))); } else { comparators.push(createComparator("=", version)); } break; default: // unrecognized return false; } } else if (operator === "<" || operator === ">") { comparators.push(createComparator("<", Version.zero)); } return true; } function isWildcard(part) { return part === "*" || part === "x" || part === "X"; } function createComparator(operator, operand) { return { operator: operator, operand: operand }; } function testDisjunction(version, alternatives) { // an empty disjunction is treated as "*" (all versions) if (alternatives.length === 0) return true; for (var _i = 0, alternatives_1 = alternatives; _i < alternatives_1.length; _i++) { var alternative = alternatives_1[_i]; if (testAlternative(version, alternative)) return true; } return false; } function testAlternative(version, comparators) { for (var _i = 0, comparators_1 = comparators; _i < comparators_1.length; _i++) { var comparator = comparators_1[_i]; if (!testComparator(version, comparator.operator, comparator.operand)) return false; } return true; } function testComparator(version, operator, operand) { var cmp = version.compareTo(operand); switch (operator) { case "<": return cmp < 0; case "<=": return cmp <= 0; case ">": return cmp > 0; case ">=": return cmp >= 0; case "=": return cmp === 0; default: return ts.Debug.assertNever(operator); } } function formatDisjunction(alternatives) { return ts.map(alternatives, formatAlternative).join(" || ") || "*"; } function formatAlternative(comparators) { return ts.map(comparators, formatComparator).join(" "); } function formatComparator(comparator) { return "" + comparator.operator + comparator.operand; } })(ts || (ts = {})); var ts; (function (ts) { // token > SyntaxKind.Identifier => token is a keyword // Also, If you add a new SyntaxKind be sure to keep the `Markers` section at the bottom in sync var SyntaxKind; (function (SyntaxKind) { SyntaxKind[SyntaxKind["Unknown"] = 0] = "Unknown"; SyntaxKind[SyntaxKind["EndOfFileToken"] = 1] = "EndOfFileToken"; SyntaxKind[SyntaxKind["SingleLineCommentTrivia"] = 2] = "SingleLineCommentTrivia"; SyntaxKind[SyntaxKind["MultiLineCommentTrivia"] = 3] = "MultiLineCommentTrivia"; SyntaxKind[SyntaxKind["NewLineTrivia"] = 4] = "NewLineTrivia"; SyntaxKind[SyntaxKind["WhitespaceTrivia"] = 5] = "WhitespaceTrivia"; // We detect and preserve #! on the first line SyntaxKind[SyntaxKind["ShebangTrivia"] = 6] = "ShebangTrivia"; // We detect and provide better error recovery when we encounter a git merge marker. This // allows us to edit files with git-conflict markers in them in a much more pleasant manner. SyntaxKind[SyntaxKind["ConflictMarkerTrivia"] = 7] = "ConflictMarkerTrivia"; // Literals SyntaxKind[SyntaxKind["NumericLiteral"] = 8] = "NumericLiteral"; SyntaxKind[SyntaxKind["BigIntLiteral"] = 9] = "BigIntLiteral"; SyntaxKind[SyntaxKind["StringLiteral"] = 10] = "StringLiteral"; SyntaxKind[SyntaxKind["JsxText"] = 11] = "JsxText"; SyntaxKind[SyntaxKind["JsxTextAllWhiteSpaces"] = 12] = "JsxTextAllWhiteSpaces"; SyntaxKind[SyntaxKind["RegularExpressionLiteral"] = 13] = "RegularExpressionLiteral"; SyntaxKind[SyntaxKind["NoSubstitutionTemplateLiteral"] = 14] = "NoSubstitutionTemplateLiteral"; // Pseudo-literals SyntaxKind[SyntaxKind["TemplateHead"] = 15] = "TemplateHead"; SyntaxKind[SyntaxKind["TemplateMiddle"] = 16] = "TemplateMiddle"; SyntaxKind[SyntaxKind["TemplateTail"] = 17] = "TemplateTail"; // Punctuation SyntaxKind[SyntaxKind["OpenBraceToken"] = 18] = "OpenBraceToken"; SyntaxKind[SyntaxKind["CloseBraceToken"] = 19] = "CloseBraceToken"; SyntaxKind[SyntaxKind["OpenParenToken"] = 20] = "OpenParenToken"; SyntaxKind[SyntaxKind["CloseParenToken"] = 21] = "CloseParenToken"; SyntaxKind[SyntaxKind["OpenBracketToken"] = 22] = "OpenBracketToken"; SyntaxKind[SyntaxKind["CloseBracketToken"] = 23] = "CloseBracketToken"; SyntaxKind[SyntaxKind["DotToken"] = 24] = "DotToken"; SyntaxKind[SyntaxKind["DotDotDotToken"] = 25] = "DotDotDotToken"; SyntaxKind[SyntaxKind["SemicolonToken"] = 26] = "SemicolonToken"; SyntaxKind[SyntaxKind["CommaToken"] = 27] = "CommaToken"; SyntaxKind[SyntaxKind["QuestionDotToken"] = 28] = "QuestionDotToken"; SyntaxKind[SyntaxKind["LessThanToken"] = 29] = "LessThanToken"; SyntaxKind[SyntaxKind["LessThanSlashToken"] = 30] = "LessThanSlashToken"; SyntaxKind[SyntaxKind["GreaterThanToken"] = 31] = "GreaterThanToken"; SyntaxKind[SyntaxKind["LessThanEqualsToken"] = 32] = "LessThanEqualsToken"; SyntaxKind[SyntaxKind["GreaterThanEqualsToken"] = 33] = "GreaterThanEqualsToken"; SyntaxKind[SyntaxKind["EqualsEqualsToken"] = 34] = "EqualsEqualsToken"; SyntaxKind[SyntaxKind["ExclamationEqualsToken"] = 35] = "ExclamationEqualsToken"; SyntaxKind[SyntaxKind["EqualsEqualsEqualsToken"] = 36] = "EqualsEqualsEqualsToken"; SyntaxKind[SyntaxKind["ExclamationEqualsEqualsToken"] = 37] = "ExclamationEqualsEqualsToken"; SyntaxKind[SyntaxKind["EqualsGreaterThanToken"] = 38] = "EqualsGreaterThanToken"; SyntaxKind[SyntaxKind["PlusToken"] = 39] = "PlusToken"; SyntaxKind[SyntaxKind["MinusToken"] = 40] = "MinusToken"; SyntaxKind[SyntaxKind["AsteriskToken"] = 41] = "AsteriskToken"; SyntaxKind[SyntaxKind["AsteriskAsteriskToken"] = 42] = "AsteriskAsteriskToken"; SyntaxKind[SyntaxKind["SlashToken"] = 43] = "SlashToken"; SyntaxKind[SyntaxKind["PercentToken"] = 44] = "PercentToken"; SyntaxKind[SyntaxKind["PlusPlusToken"] = 45] = "PlusPlusToken"; SyntaxKind[SyntaxKind["MinusMinusToken"] = 46] = "MinusMinusToken"; SyntaxKind[SyntaxKind["LessThanLessThanToken"] = 47] = "LessThanLessThanToken"; SyntaxKind[SyntaxKind["GreaterThanGreaterThanToken"] = 48] = "GreaterThanGreaterThanToken"; SyntaxKind[SyntaxKind["GreaterThanGreaterThanGreaterThanToken"] = 49] = "GreaterThanGreaterThanGreaterThanToken"; SyntaxKind[SyntaxKind["AmpersandToken"] = 50] = "AmpersandToken"; SyntaxKind[SyntaxKind["BarToken"] = 51] = "BarToken"; SyntaxKind[SyntaxKind["CaretToken"] = 52] = "CaretToken"; SyntaxKind[SyntaxKind["ExclamationToken"] = 53] = "ExclamationToken"; SyntaxKind[SyntaxKind["TildeToken"] = 54] = "TildeToken"; SyntaxKind[SyntaxKind["AmpersandAmpersandToken"] = 55] = "AmpersandAmpersandToken"; SyntaxKind[SyntaxKind["BarBarToken"] = 56] = "BarBarToken"; SyntaxKind[SyntaxKind["QuestionToken"] = 57] = "QuestionToken"; SyntaxKind[SyntaxKind["ColonToken"] = 58] = "ColonToken"; SyntaxKind[SyntaxKind["AtToken"] = 59] = "AtToken"; SyntaxKind[SyntaxKind["QuestionQuestionToken"] = 60] = "QuestionQuestionToken"; /** Only the JSDoc scanner produces BacktickToken. The normal scanner produces NoSubstitutionTemplateLiteral and related kinds. */ SyntaxKind[SyntaxKind["BacktickToken"] = 61] = "BacktickToken"; // Assignments SyntaxKind[SyntaxKind["EqualsToken"] = 62] = "EqualsToken"; SyntaxKind[SyntaxKind["PlusEqualsToken"] = 63] = "PlusEqualsToken"; SyntaxKind[SyntaxKind["MinusEqualsToken"] = 64] = "MinusEqualsToken"; SyntaxKind[SyntaxKind["AsteriskEqualsToken"] = 65] = "AsteriskEqualsToken"; SyntaxKind[SyntaxKind["AsteriskAsteriskEqualsToken"] = 66] = "AsteriskAsteriskEqualsToken"; SyntaxKind[SyntaxKind["SlashEqualsToken"] = 67] = "SlashEqualsToken"; SyntaxKind[SyntaxKind["PercentEqualsToken"] = 68] = "PercentEqualsToken"; SyntaxKind[SyntaxKind["LessThanLessThanEqualsToken"] = 69] = "LessThanLessThanEqualsToken"; SyntaxKind[SyntaxKind["GreaterThanGreaterThanEqualsToken"] = 70] = "GreaterThanGreaterThanEqualsToken"; SyntaxKind[SyntaxKind["GreaterThanGreaterThanGreaterThanEqualsToken"] = 71] = "GreaterThanGreaterThanGreaterThanEqualsToken"; SyntaxKind[SyntaxKind["AmpersandEqualsToken"] = 72] = "AmpersandEqualsToken"; SyntaxKind[SyntaxKind["BarEqualsToken"] = 73] = "BarEqualsToken"; SyntaxKind[SyntaxKind["CaretEqualsToken"] = 74] = "CaretEqualsToken"; // Identifiers and PrivateIdentifiers SyntaxKind[SyntaxKind["Identifier"] = 75] = "Identifier"; SyntaxKind[SyntaxKind["PrivateIdentifier"] = 76] = "PrivateIdentifier"; // Reserved words SyntaxKind[SyntaxKind["BreakKeyword"] = 77] = "BreakKeyword"; SyntaxKind[SyntaxKind["CaseKeyword"] = 78] = "CaseKeyword"; SyntaxKind[SyntaxKind["CatchKeyword"] = 79] = "CatchKeyword"; SyntaxKind[SyntaxKind["ClassKeyword"] = 80] = "ClassKeyword"; SyntaxKind[SyntaxKind["ConstKeyword"] = 81] = "ConstKeyword"; SyntaxKind[SyntaxKind["ContinueKeyword"] = 82] = "ContinueKeyword"; SyntaxKind[SyntaxKind["DebuggerKeyword"] = 83] = "DebuggerKeyword"; SyntaxKind[SyntaxKind["DefaultKeyword"] = 84] = "DefaultKeyword"; SyntaxKind[SyntaxKind["DeleteKeyword"] = 85] = "DeleteKeyword"; SyntaxKind[SyntaxKind["DoKeyword"] = 86] = "DoKeyword"; SyntaxKind[SyntaxKind["ElseKeyword"] = 87] = "ElseKeyword"; SyntaxKind[SyntaxKind["EnumKeyword"] = 88] = "EnumKeyword"; SyntaxKind[SyntaxKind["ExportKeyword"] = 89] = "ExportKeyword"; SyntaxKind[SyntaxKind["ExtendsKeyword"] = 90] = "ExtendsKeyword"; SyntaxKind[SyntaxKind["FalseKeyword"] = 91] = "FalseKeyword"; SyntaxKind[SyntaxKind["FinallyKeyword"] = 92] = "FinallyKeyword"; SyntaxKind[SyntaxKind["ForKeyword"] = 93] = "ForKeyword"; SyntaxKind[SyntaxKind["FunctionKeyword"] = 94] = "FunctionKeyword"; SyntaxKind[SyntaxKind["IfKeyword"] = 95] = "IfKeyword"; SyntaxKind[SyntaxKind["ImportKeyword"] = 96] = "ImportKeyword"; SyntaxKind[SyntaxKind["InKeyword"] = 97] = "InKeyword"; SyntaxKind[SyntaxKind["InstanceOfKeyword"] = 98] = "InstanceOfKeyword"; SyntaxKind[SyntaxKind["NewKeyword"] = 99] = "NewKeyword"; SyntaxKind[SyntaxKind["NullKeyword"] = 100] = "NullKeyword"; SyntaxKind[SyntaxKind["ReturnKeyword"] = 101] = "ReturnKeyword"; SyntaxKind[SyntaxKind["SuperKeyword"] = 102] = "SuperKeyword"; SyntaxKind[SyntaxKind["SwitchKeyword"] = 103] = "SwitchKeyword"; SyntaxKind[SyntaxKind["ThisKeyword"] = 104] = "ThisKeyword"; SyntaxKind[SyntaxKind["ThrowKeyword"] = 105] = "ThrowKeyword"; SyntaxKind[SyntaxKind["TrueKeyword"] = 106] = "TrueKeyword"; SyntaxKind[SyntaxKind["TryKeyword"] = 107] = "TryKeyword"; SyntaxKind[SyntaxKind["TypeOfKeyword"] = 108] = "TypeOfKeyword"; SyntaxKind[SyntaxKind["VarKeyword"] = 109] = "VarKeyword"; SyntaxKind[SyntaxKind["VoidKeyword"] = 110] = "VoidKeyword"; SyntaxKind[SyntaxKind["WhileKeyword"] = 111] = "WhileKeyword"; SyntaxKind[SyntaxKind["WithKeyword"] = 112] = "WithKeyword"; // Strict mode reserved words SyntaxKind[SyntaxKind["ImplementsKeyword"] = 113] = "ImplementsKeyword"; SyntaxKind[SyntaxKind["InterfaceKeyword"] = 114] = "InterfaceKeyword"; SyntaxKind[SyntaxKind["LetKeyword"] = 115] = "LetKeyword"; SyntaxKind[SyntaxKind["PackageKeyword"] = 116] = "PackageKeyword"; SyntaxKind[SyntaxKind["PrivateKeyword"] = 117] = "PrivateKeyword"; SyntaxKind[SyntaxKind["ProtectedKeyword"] = 118] = "ProtectedKeyword"; SyntaxKind[SyntaxKind["PublicKeyword"] = 119] = "PublicKeyword"; SyntaxKind[SyntaxKind["StaticKeyword"] = 120] = "StaticKeyword"; SyntaxKind[SyntaxKind["YieldKeyword"] = 121] = "YieldKeyword"; // Contextual keywords SyntaxKind[SyntaxKind["AbstractKeyword"] = 122] = "AbstractKeyword"; SyntaxKind[SyntaxKind["AsKeyword"] = 123] = "AsKeyword"; SyntaxKind[SyntaxKind["AssertsKeyword"] = 124] = "AssertsKeyword"; SyntaxKind[SyntaxKind["AnyKeyword"] = 125] = "AnyKeyword"; SyntaxKind[SyntaxKind["AsyncKeyword"] = 126] = "AsyncKeyword"; SyntaxKind[SyntaxKind["AwaitKeyword"] = 127] = "AwaitKeyword"; SyntaxKind[SyntaxKind["BooleanKeyword"] = 128] = "BooleanKeyword"; SyntaxKind[SyntaxKind["ConstructorKeyword"] = 129] = "ConstructorKeyword"; SyntaxKind[SyntaxKind["DeclareKeyword"] = 130] = "DeclareKeyword"; SyntaxKind[SyntaxKind["GetKeyword"] = 131] = "GetKeyword"; SyntaxKind[SyntaxKind["InferKeyword"] = 132] = "InferKeyword"; SyntaxKind[SyntaxKind["IsKeyword"] = 133] = "IsKeyword"; SyntaxKind[SyntaxKind["KeyOfKeyword"] = 134] = "KeyOfKeyword"; SyntaxKind[SyntaxKind["ModuleKeyword"] = 135] = "ModuleKeyword"; SyntaxKind[SyntaxKind["NamespaceKeyword"] = 136] = "NamespaceKeyword"; SyntaxKind[SyntaxKind["NeverKeyword"] = 137] = "NeverKeyword"; SyntaxKind[SyntaxKind["ReadonlyKeyword"] = 138] = "ReadonlyKeyword"; SyntaxKind[SyntaxKind["RequireKeyword"] = 139] = "RequireKeyword"; SyntaxKind[SyntaxKind["NumberKeyword"] = 140] = "NumberKeyword"; SyntaxKind[SyntaxKind["ObjectKeyword"] = 141] = "ObjectKeyword"; SyntaxKind[SyntaxKind["SetKeyword"] = 142] = "SetKeyword"; SyntaxKind[SyntaxKind["StringKeyword"] = 143] = "StringKeyword"; SyntaxKind[SyntaxKind["SymbolKeyword"] = 144] = "SymbolKeyword"; SyntaxKind[SyntaxKind["TypeKeyword"] = 145] = "TypeKeyword"; SyntaxKind[SyntaxKind["UndefinedKeyword"] = 146] = "UndefinedKeyword"; SyntaxKind[SyntaxKind["UniqueKeyword"] = 147] = "UniqueKeyword"; SyntaxKind[SyntaxKind["UnknownKeyword"] = 148] = "UnknownKeyword"; SyntaxKind[SyntaxKind["FromKeyword"] = 149] = "FromKeyword"; SyntaxKind[SyntaxKind["GlobalKeyword"] = 150] = "GlobalKeyword"; SyntaxKind[SyntaxKind["BigIntKeyword"] = 151] = "BigIntKeyword"; SyntaxKind[SyntaxKind["OfKeyword"] = 152] = "OfKeyword"; // Parse tree nodes // Names SyntaxKind[SyntaxKind["QualifiedName"] = 153] = "QualifiedName"; SyntaxKind[SyntaxKind["ComputedPropertyName"] = 154] = "ComputedPropertyName"; // Signature elements SyntaxKind[SyntaxKind["TypeParameter"] = 155] = "TypeParameter"; SyntaxKind[SyntaxKind["Parameter"] = 156] = "Parameter"; SyntaxKind[SyntaxKind["Decorator"] = 157] = "Decorator"; // TypeMember SyntaxKind[SyntaxKind["PropertySignature"] = 158] = "PropertySignature"; SyntaxKind[SyntaxKind["PropertyDeclaration"] = 159] = "PropertyDeclaration"; SyntaxKind[SyntaxKind["MethodSignature"] = 160] = "MethodSignature"; SyntaxKind[SyntaxKind["MethodDeclaration"] = 161] = "MethodDeclaration"; SyntaxKind[SyntaxKind["Constructor"] = 162] = "Constructor"; SyntaxKind[SyntaxKind["GetAccessor"] = 163] = "GetAccessor"; SyntaxKind[SyntaxKind["SetAccessor"] = 164] = "SetAccessor"; SyntaxKind[SyntaxKind["CallSignature"] = 165] = "CallSignature"; SyntaxKind[SyntaxKind["ConstructSignature"] = 166] = "ConstructSignature"; SyntaxKind[SyntaxKind["IndexSignature"] = 167] = "IndexSignature"; // Type SyntaxKind[SyntaxKind["TypePredicate"] = 168] = "TypePredicate"; SyntaxKind[SyntaxKind["TypeReference"] = 169] = "TypeReference"; SyntaxKind[SyntaxKind["FunctionType"] = 170] = "FunctionType"; SyntaxKind[SyntaxKind["ConstructorType"] = 171] = "ConstructorType"; SyntaxKind[SyntaxKind["TypeQuery"] = 172] = "TypeQuery"; SyntaxKind[SyntaxKind["TypeLiteral"] = 173] = "TypeLiteral"; SyntaxKind[SyntaxKind["ArrayType"] = 174] = "ArrayType"; SyntaxKind[SyntaxKind["TupleType"] = 175] = "TupleType"; SyntaxKind[SyntaxKind["OptionalType"] = 176] = "OptionalType"; SyntaxKind[SyntaxKind["RestType"] = 177] = "RestType"; SyntaxKind[SyntaxKind["UnionType"] = 178] = "UnionType"; SyntaxKind[SyntaxKind["IntersectionType"] = 179] = "IntersectionType"; SyntaxKind[SyntaxKind["ConditionalType"] = 180] = "ConditionalType"; SyntaxKind[SyntaxKind["InferType"] = 181] = "InferType"; SyntaxKind[SyntaxKind["ParenthesizedType"] = 182] = "ParenthesizedType"; SyntaxKind[SyntaxKind["ThisType"] = 183] = "ThisType"; SyntaxKind[SyntaxKind["TypeOperator"] = 184] = "TypeOperator"; SyntaxKind[SyntaxKind["IndexedAccessType"] = 185] = "IndexedAccessType"; SyntaxKind[SyntaxKind["MappedType"] = 186] = "MappedType"; SyntaxKind[SyntaxKind["LiteralType"] = 187] = "LiteralType"; SyntaxKind[SyntaxKind["ImportType"] = 188] = "ImportType"; // Binding patterns SyntaxKind[SyntaxKind["ObjectBindingPattern"] = 189] = "ObjectBindingPattern"; SyntaxKind[SyntaxKind["ArrayBindingPattern"] = 190] = "ArrayBindingPattern"; SyntaxKind[SyntaxKind["BindingElement"] = 191] = "BindingElement"; // Expression SyntaxKind[SyntaxKind["ArrayLiteralExpression"] = 192] = "ArrayLiteralExpression"; SyntaxKind[SyntaxKind["ObjectLiteralExpression"] = 193] = "ObjectLiteralExpression"; SyntaxKind[SyntaxKind["PropertyAccessExpression"] = 194] = "PropertyAccessExpression"; SyntaxKind[SyntaxKind["ElementAccessExpression"] = 195] = "ElementAccessExpression"; SyntaxKind[SyntaxKind["CallExpression"] = 196] = "CallExpression"; SyntaxKind[SyntaxKind["NewExpression"] = 197] = "NewExpression"; SyntaxKind[SyntaxKind["TaggedTemplateExpression"] = 198] = "TaggedTemplateExpression"; SyntaxKind[SyntaxKind["TypeAssertionExpression"] = 199] = "TypeAssertionExpression"; SyntaxKind[SyntaxKind["ParenthesizedExpression"] = 200] = "ParenthesizedExpression"; SyntaxKind[SyntaxKind["FunctionExpression"] = 201] = "FunctionExpression"; SyntaxKind[SyntaxKind["ArrowFunction"] = 202] = "ArrowFunction"; SyntaxKind[SyntaxKind["DeleteExpression"] = 203] = "DeleteExpression"; SyntaxKind[SyntaxKind["TypeOfExpression"] = 204] = "TypeOfExpression"; SyntaxKind[SyntaxKind["VoidExpression"] = 205] = "VoidExpression"; SyntaxKind[SyntaxKind["AwaitExpression"] = 206] = "AwaitExpression"; SyntaxKind[SyntaxKind["PrefixUnaryExpression"] = 207] = "PrefixUnaryExpression"; SyntaxKind[SyntaxKind["PostfixUnaryExpression"] = 208] = "PostfixUnaryExpression"; SyntaxKind[SyntaxKind["BinaryExpression"] = 209] = "BinaryExpression"; SyntaxKind[SyntaxKind["ConditionalExpression"] = 210] = "ConditionalExpression"; SyntaxKind[SyntaxKind["TemplateExpression"] = 211] = "TemplateExpression"; SyntaxKind[SyntaxKind["YieldExpression"] = 212] = "YieldExpression"; SyntaxKind[SyntaxKind["SpreadElement"] = 213] = "SpreadElement"; SyntaxKind[SyntaxKind["ClassExpression"] = 214] = "ClassExpression"; SyntaxKind[SyntaxKind["OmittedExpression"] = 215] = "OmittedExpression"; SyntaxKind[SyntaxKind["ExpressionWithTypeArguments"] = 216] = "ExpressionWithTypeArguments"; SyntaxKind[SyntaxKind["AsExpression"] = 217] = "AsExpression"; SyntaxKind[SyntaxKind["NonNullExpression"] = 218] = "NonNullExpression"; SyntaxKind[SyntaxKind["MetaProperty"] = 219] = "MetaProperty"; SyntaxKind[SyntaxKind["SyntheticExpression"] = 220] = "SyntheticExpression"; // Misc SyntaxKind[SyntaxKind["TemplateSpan"] = 221] = "TemplateSpan"; SyntaxKind[SyntaxKind["SemicolonClassElement"] = 222] = "SemicolonClassElement"; // Element SyntaxKind[SyntaxKind["Block"] = 223] = "Block"; SyntaxKind[SyntaxKind["EmptyStatement"] = 224] = "EmptyStatement"; SyntaxKind[SyntaxKind["VariableStatement"] = 225] = "VariableStatement"; SyntaxKind[SyntaxKind["ExpressionStatement"] = 226] = "ExpressionStatement"; SyntaxKind[SyntaxKind["IfStatement"] = 227] = "IfStatement"; SyntaxKind[SyntaxKind["DoStatement"] = 228] = "DoStatement"; SyntaxKind[SyntaxKind["WhileStatement"] = 229] = "WhileStatement"; SyntaxKind[SyntaxKind["ForStatement"] = 230] = "ForStatement"; SyntaxKind[SyntaxKind["ForInStatement"] = 231] = "ForInStatement"; SyntaxKind[SyntaxKind["ForOfStatement"] = 232] = "ForOfStatement"; SyntaxKind[SyntaxKind["ContinueStatement"] = 233] = "ContinueStatement"; SyntaxKind[SyntaxKind["BreakStatement"] = 234] = "BreakStatement"; SyntaxKind[SyntaxKind["ReturnStatement"] = 235] = "ReturnStatement"; SyntaxKind[SyntaxKind["WithStatement"] = 236] = "WithStatement"; SyntaxKind[SyntaxKind["SwitchStatement"] = 237] = "SwitchStatement"; SyntaxKind[SyntaxKind["LabeledStatement"] = 238] = "LabeledStatement"; SyntaxKind[SyntaxKind["ThrowStatement"] = 239] = "ThrowStatement"; SyntaxKind[SyntaxKind["TryStatement"] = 240] = "TryStatement"; SyntaxKind[SyntaxKind["DebuggerStatement"] = 241] = "DebuggerStatement"; SyntaxKind[SyntaxKind["VariableDeclaration"] = 242] = "VariableDeclaration"; SyntaxKind[SyntaxKind["VariableDeclarationList"] = 243] = "VariableDeclarationList"; SyntaxKind[SyntaxKind["FunctionDeclaration"] = 244] = "FunctionDeclaration"; SyntaxKind[SyntaxKind["ClassDeclaration"] = 245] = "ClassDeclaration"; SyntaxKind[SyntaxKind["InterfaceDeclaration"] = 246] = "InterfaceDeclaration"; SyntaxKind[SyntaxKind["TypeAliasDeclaration"] = 247] = "TypeAliasDeclaration"; SyntaxKind[SyntaxKind["EnumDeclaration"] = 248] = "EnumDeclaration"; SyntaxKind[SyntaxKind["ModuleDeclaration"] = 249] = "ModuleDeclaration"; SyntaxKind[SyntaxKind["ModuleBlock"] = 250] = "ModuleBlock"; SyntaxKind[SyntaxKind["CaseBlock"] = 251] = "CaseBlock"; SyntaxKind[SyntaxKind["NamespaceExportDeclaration"] = 252] = "NamespaceExportDeclaration"; SyntaxKind[SyntaxKind["ImportEqualsDeclaration"] = 253] = "ImportEqualsDeclaration"; SyntaxKind[SyntaxKind["ImportDeclaration"] = 254] = "ImportDeclaration"; SyntaxKind[SyntaxKind["ImportClause"] = 255] = "ImportClause"; SyntaxKind[SyntaxKind["NamespaceImport"] = 256] = "NamespaceImport"; SyntaxKind[SyntaxKind["NamedImports"] = 257] = "NamedImports"; SyntaxKind[SyntaxKind["ImportSpecifier"] = 258] = "ImportSpecifier"; SyntaxKind[SyntaxKind["ExportAssignment"] = 259] = "ExportAssignment"; SyntaxKind[SyntaxKind["ExportDeclaration"] = 260] = "ExportDeclaration"; SyntaxKind[SyntaxKind["NamedExports"] = 261] = "NamedExports"; SyntaxKind[SyntaxKind["NamespaceExport"] = 262] = "NamespaceExport"; SyntaxKind[SyntaxKind["ExportSpecifier"] = 263] = "ExportSpecifier"; SyntaxKind[SyntaxKind["MissingDeclaration"] = 264] = "MissingDeclaration"; // Module references SyntaxKind[SyntaxKind["ExternalModuleReference"] = 265] = "ExternalModuleReference"; // JSX SyntaxKind[SyntaxKind["JsxElement"] = 266] = "JsxElement"; SyntaxKind[SyntaxKind["JsxSelfClosingElement"] = 267] = "JsxSelfClosingElement"; SyntaxKind[SyntaxKind["JsxOpeningElement"] = 268] = "JsxOpeningElement"; SyntaxKind[SyntaxKind["JsxClosingElement"] = 269] = "JsxClosingElement"; SyntaxKind[SyntaxKind["JsxFragment"] = 270] = "JsxFragment"; SyntaxKind[SyntaxKind["JsxOpeningFragment"] = 271] = "JsxOpeningFragment"; SyntaxKind[SyntaxKind["JsxClosingFragment"] = 272] = "JsxClosingFragment"; SyntaxKind[SyntaxKind["JsxAttribute"] = 273] = "JsxAttribute"; SyntaxKind[SyntaxKind["JsxAttributes"] = 274] = "JsxAttributes"; SyntaxKind[SyntaxKind["JsxSpreadAttribute"] = 275] = "JsxSpreadAttribute"; SyntaxKind[SyntaxKind["JsxExpression"] = 276] = "JsxExpression"; // Clauses SyntaxKind[SyntaxKind["CaseClause"] = 277] = "CaseClause"; SyntaxKind[SyntaxKind["DefaultClause"] = 278] = "DefaultClause"; SyntaxKind[SyntaxKind["HeritageClause"] = 279] = "HeritageClause"; SyntaxKind[SyntaxKind["CatchClause"] = 280] = "CatchClause"; // Property assignments SyntaxKind[SyntaxKind["PropertyAssignment"] = 281] = "PropertyAssignment"; SyntaxKind[SyntaxKind["ShorthandPropertyAssignment"] = 282] = "ShorthandPropertyAssignment"; SyntaxKind[SyntaxKind["SpreadAssignment"] = 283] = "SpreadAssignment"; // Enum SyntaxKind[SyntaxKind["EnumMember"] = 284] = "EnumMember"; // Unparsed SyntaxKind[SyntaxKind["UnparsedPrologue"] = 285] = "UnparsedPrologue"; SyntaxKind[SyntaxKind["UnparsedPrepend"] = 286] = "UnparsedPrepend"; SyntaxKind[SyntaxKind["UnparsedText"] = 287] = "UnparsedText"; SyntaxKind[SyntaxKind["UnparsedInternalText"] = 288] = "UnparsedInternalText"; SyntaxKind[SyntaxKind["UnparsedSyntheticReference"] = 289] = "UnparsedSyntheticReference"; // Top-level nodes SyntaxKind[SyntaxKind["SourceFile"] = 290] = "SourceFile"; SyntaxKind[SyntaxKind["Bundle"] = 291] = "Bundle"; SyntaxKind[SyntaxKind["UnparsedSource"] = 292] = "UnparsedSource"; SyntaxKind[SyntaxKind["InputFiles"] = 293] = "InputFiles"; // JSDoc nodes SyntaxKind[SyntaxKind["JSDocTypeExpression"] = 294] = "JSDocTypeExpression"; // The * type SyntaxKind[SyntaxKind["JSDocAllType"] = 295] = "JSDocAllType"; // The ? type SyntaxKind[SyntaxKind["JSDocUnknownType"] = 296] = "JSDocUnknownType"; SyntaxKind[SyntaxKind["JSDocNullableType"] = 297] = "JSDocNullableType"; SyntaxKind[SyntaxKind["JSDocNonNullableType"] = 298] = "JSDocNonNullableType"; SyntaxKind[SyntaxKind["JSDocOptionalType"] = 299] = "JSDocOptionalType"; SyntaxKind[SyntaxKind["JSDocFunctionType"] = 300] = "JSDocFunctionType"; SyntaxKind[SyntaxKind["JSDocVariadicType"] = 301] = "JSDocVariadicType"; // https://jsdoc.app/about-namepaths.html SyntaxKind[SyntaxKind["JSDocNamepathType"] = 302] = "JSDocNamepathType"; SyntaxKind[SyntaxKind["JSDocComment"] = 303] = "JSDocComment"; SyntaxKind[SyntaxKind["JSDocTypeLiteral"] = 304] = "JSDocTypeLiteral"; SyntaxKind[SyntaxKind["JSDocSignature"] = 305] = "JSDocSignature"; SyntaxKind[SyntaxKind["JSDocTag"] = 306] = "JSDocTag"; SyntaxKind[SyntaxKind["JSDocAugmentsTag"] = 307] = "JSDocAugmentsTag"; SyntaxKind[SyntaxKind["JSDocImplementsTag"] = 308] = "JSDocImplementsTag"; SyntaxKind[SyntaxKind["JSDocAuthorTag"] = 309] = "JSDocAuthorTag"; SyntaxKind[SyntaxKind["JSDocClassTag"] = 310] = "JSDocClassTag"; SyntaxKind[SyntaxKind["JSDocPublicTag"] = 311] = "JSDocPublicTag"; SyntaxKind[SyntaxKind["JSDocPrivateTag"] = 312] = "JSDocPrivateTag"; SyntaxKind[SyntaxKind["JSDocProtectedTag"] = 313] = "JSDocProtectedTag"; SyntaxKind[SyntaxKind["JSDocReadonlyTag"] = 314] = "JSDocReadonlyTag"; SyntaxKind[SyntaxKind["JSDocCallbackTag"] = 315] = "JSDocCallbackTag"; SyntaxKind[SyntaxKind["JSDocEnumTag"] = 316] = "JSDocEnumTag"; SyntaxKind[SyntaxKind["JSDocParameterTag"] = 317] = "JSDocParameterTag"; SyntaxKind[SyntaxKind["JSDocReturnTag"] = 318] = "JSDocReturnTag"; SyntaxKind[SyntaxKind["JSDocThisTag"] = 319] = "JSDocThisTag"; SyntaxKind[SyntaxKind["JSDocTypeTag"] = 320] = "JSDocTypeTag"; SyntaxKind[SyntaxKind["JSDocTemplateTag"] = 321] = "JSDocTemplateTag"; SyntaxKind[SyntaxKind["JSDocTypedefTag"] = 322] = "JSDocTypedefTag"; SyntaxKind[SyntaxKind["JSDocPropertyTag"] = 323] = "JSDocPropertyTag"; // Synthesized list SyntaxKind[SyntaxKind["SyntaxList"] = 324] = "SyntaxList"; // Transformation nodes SyntaxKind[SyntaxKind["NotEmittedStatement"] = 325] = "NotEmittedStatement"; SyntaxKind[SyntaxKind["PartiallyEmittedExpression"] = 326] = "PartiallyEmittedExpression"; SyntaxKind[SyntaxKind["CommaListExpression"] = 327] = "CommaListExpression"; SyntaxKind[SyntaxKind["MergeDeclarationMarker"] = 328] = "MergeDeclarationMarker"; SyntaxKind[SyntaxKind["EndOfDeclarationMarker"] = 329] = "EndOfDeclarationMarker"; SyntaxKind[SyntaxKind["SyntheticReferenceExpression"] = 330] = "SyntheticReferenceExpression"; // Enum value count SyntaxKind[SyntaxKind["Count"] = 331] = "Count"; // Markers SyntaxKind[SyntaxKind["FirstAssignment"] = 62] = "FirstAssignment"; SyntaxKind[SyntaxKind["LastAssignment"] = 74] = "LastAssignment"; SyntaxKind[SyntaxKind["FirstCompoundAssignment"] = 63] = "FirstCompoundAssignment"; SyntaxKind[SyntaxKind["LastCompoundAssignment"] = 74] = "LastCompoundAssignment"; SyntaxKind[SyntaxKind["FirstReservedWord"] = 77] = "FirstReservedWord"; SyntaxKind[SyntaxKind["LastReservedWord"] = 112] = "LastReservedWord"; SyntaxKind[SyntaxKind["FirstKeyword"] = 77] = "FirstKeyword"; SyntaxKind[SyntaxKind["LastKeyword"] = 152] = "LastKeyword"; SyntaxKind[SyntaxKind["FirstFutureReservedWord"] = 113] = "FirstFutureReservedWord"; SyntaxKind[SyntaxKind["LastFutureReservedWord"] = 121] = "LastFutureReservedWord"; SyntaxKind[SyntaxKind["FirstTypeNode"] = 168] = "FirstTypeNode"; SyntaxKind[SyntaxKind["LastTypeNode"] = 188] = "LastTypeNode"; SyntaxKind[SyntaxKind["FirstPunctuation"] = 18] = "FirstPunctuation"; SyntaxKind[SyntaxKind["LastPunctuation"] = 74] = "LastPunctuation"; SyntaxKind[SyntaxKind["FirstToken"] = 0] = "FirstToken"; SyntaxKind[SyntaxKind["LastToken"] = 152] = "LastToken"; SyntaxKind[SyntaxKind["FirstTriviaToken"] = 2] = "FirstTriviaToken"; SyntaxKind[SyntaxKind["LastTriviaToken"] = 7] = "LastTriviaToken"; SyntaxKind[SyntaxKind["FirstLiteralToken"] = 8] = "FirstLiteralToken"; SyntaxKind[SyntaxKind["LastLiteralToken"] = 14] = "LastLiteralToken"; SyntaxKind[SyntaxKind["FirstTemplateToken"] = 14] = "FirstTemplateToken"; SyntaxKind[SyntaxKind["LastTemplateToken"] = 17] = "LastTemplateToken"; SyntaxKind[SyntaxKind["FirstBinaryOperator"] = 29] = "FirstBinaryOperator"; SyntaxKind[SyntaxKind["LastBinaryOperator"] = 74] = "LastBinaryOperator"; SyntaxKind[SyntaxKind["FirstStatement"] = 225] = "FirstStatement"; SyntaxKind[SyntaxKind["LastStatement"] = 241] = "LastStatement"; SyntaxKind[SyntaxKind["FirstNode"] = 153] = "FirstNode"; SyntaxKind[SyntaxKind["FirstJSDocNode"] = 294] = "FirstJSDocNode"; SyntaxKind[SyntaxKind["LastJSDocNode"] = 323] = "LastJSDocNode"; SyntaxKind[SyntaxKind["FirstJSDocTagNode"] = 306] = "FirstJSDocTagNode"; SyntaxKind[SyntaxKind["LastJSDocTagNode"] = 323] = "LastJSDocTagNode"; /* @internal */ SyntaxKind[SyntaxKind["FirstContextualKeyword"] = 122] = "FirstContextualKeyword"; /* @internal */ SyntaxKind[SyntaxKind["LastContextualKeyword"] = 152] = "LastContextualKeyword"; })(SyntaxKind = ts.SyntaxKind || (ts.SyntaxKind = {})); var NodeFlags; (function (NodeFlags) { NodeFlags[NodeFlags["None"] = 0] = "None"; NodeFlags[NodeFlags["Let"] = 1] = "Let"; NodeFlags[NodeFlags["Const"] = 2] = "Const"; NodeFlags[NodeFlags["NestedNamespace"] = 4] = "NestedNamespace"; NodeFlags[NodeFlags["Synthesized"] = 8] = "Synthesized"; NodeFlags[NodeFlags["Namespace"] = 16] = "Namespace"; NodeFlags[NodeFlags["OptionalChain"] = 32] = "OptionalChain"; NodeFlags[NodeFlags["ExportContext"] = 64] = "ExportContext"; NodeFlags[NodeFlags["ContainsThis"] = 128] = "ContainsThis"; NodeFlags[NodeFlags["HasImplicitReturn"] = 256] = "HasImplicitReturn"; NodeFlags[NodeFlags["HasExplicitReturn"] = 512] = "HasExplicitReturn"; NodeFlags[NodeFlags["GlobalAugmentation"] = 1024] = "GlobalAugmentation"; NodeFlags[NodeFlags["HasAsyncFunctions"] = 2048] = "HasAsyncFunctions"; NodeFlags[NodeFlags["DisallowInContext"] = 4096] = "DisallowInContext"; NodeFlags[NodeFlags["YieldContext"] = 8192] = "YieldContext"; NodeFlags[NodeFlags["DecoratorContext"] = 16384] = "DecoratorContext"; NodeFlags[NodeFlags["AwaitContext"] = 32768] = "AwaitContext"; NodeFlags[NodeFlags["ThisNodeHasError"] = 65536] = "ThisNodeHasError"; NodeFlags[NodeFlags["JavaScriptFile"] = 131072] = "JavaScriptFile"; NodeFlags[NodeFlags["ThisNodeOrAnySubNodesHasError"] = 262144] = "ThisNodeOrAnySubNodesHasError"; NodeFlags[NodeFlags["HasAggregatedChildData"] = 524288] = "HasAggregatedChildData"; // These flags will be set when the parser encounters a dynamic import expression or 'import.meta' to avoid // walking the tree if the flags are not set. However, these flags are just a approximation // (hence why it's named "PossiblyContainsDynamicImport") because once set, the flags never get cleared. // During editing, if a dynamic import is removed, incremental parsing will *NOT* clear this flag. // This means that the tree will always be traversed during module resolution, or when looking for external module indicators. // However, the removal operation should not occur often and in the case of the // removal, it is likely that users will add the import anyway. // The advantage of this approach is its simplicity. For the case of batch compilation, // we guarantee that users won't have to pay the price of walking the tree if a dynamic import isn't used. /* @internal */ NodeFlags[NodeFlags["PossiblyContainsDynamicImport"] = 1048576] = "PossiblyContainsDynamicImport"; /* @internal */ NodeFlags[NodeFlags["PossiblyContainsImportMeta"] = 2097152] = "PossiblyContainsImportMeta"; NodeFlags[NodeFlags["JSDoc"] = 4194304] = "JSDoc"; /* @internal */ NodeFlags[NodeFlags["Ambient"] = 8388608] = "Ambient"; /* @internal */ NodeFlags[NodeFlags["InWithStatement"] = 16777216] = "InWithStatement"; NodeFlags[NodeFlags["JsonFile"] = 33554432] = "JsonFile"; /* @internal */ NodeFlags[NodeFlags["TypeCached"] = 67108864] = "TypeCached"; NodeFlags[NodeFlags["BlockScoped"] = 3] = "BlockScoped"; NodeFlags[NodeFlags["ReachabilityCheckFlags"] = 768] = "ReachabilityCheckFlags"; NodeFlags[NodeFlags["ReachabilityAndEmitFlags"] = 2816] = "ReachabilityAndEmitFlags"; // Parsing context flags NodeFlags[NodeFlags["ContextFlags"] = 25358336] = "ContextFlags"; // Exclude these flags when parsing a Type NodeFlags[NodeFlags["TypeExcludesFlags"] = 40960] = "TypeExcludesFlags"; // Represents all flags that are potentially set once and // never cleared on SourceFiles which get re-used in between incremental parses. // See the comment above on `PossiblyContainsDynamicImport` and `PossiblyContainsImportMeta`. /* @internal */ NodeFlags[NodeFlags["PermanentlySetIncrementalFlags"] = 3145728] = "PermanentlySetIncrementalFlags"; })(NodeFlags = ts.NodeFlags || (ts.NodeFlags = {})); var ModifierFlags; (function (ModifierFlags) { ModifierFlags[ModifierFlags["None"] = 0] = "None"; ModifierFlags[ModifierFlags["Export"] = 1] = "Export"; ModifierFlags[ModifierFlags["Ambient"] = 2] = "Ambient"; ModifierFlags[ModifierFlags["Public"] = 4] = "Public"; ModifierFlags[ModifierFlags["Private"] = 8] = "Private"; ModifierFlags[ModifierFlags["Protected"] = 16] = "Protected"; ModifierFlags[ModifierFlags["Static"] = 32] = "Static"; ModifierFlags[ModifierFlags["Readonly"] = 64] = "Readonly"; ModifierFlags[ModifierFlags["Abstract"] = 128] = "Abstract"; ModifierFlags[ModifierFlags["Async"] = 256] = "Async"; ModifierFlags[ModifierFlags["Default"] = 512] = "Default"; ModifierFlags[ModifierFlags["Const"] = 2048] = "Const"; ModifierFlags[ModifierFlags["HasComputedFlags"] = 536870912] = "HasComputedFlags"; ModifierFlags[ModifierFlags["AccessibilityModifier"] = 28] = "AccessibilityModifier"; // Accessibility modifiers and 'readonly' can be attached to a parameter in a constructor to make it a property. ModifierFlags[ModifierFlags["ParameterPropertyModifier"] = 92] = "ParameterPropertyModifier"; ModifierFlags[ModifierFlags["NonPublicAccessibilityModifier"] = 24] = "NonPublicAccessibilityModifier"; ModifierFlags[ModifierFlags["TypeScriptModifier"] = 2270] = "TypeScriptModifier"; ModifierFlags[ModifierFlags["ExportDefault"] = 513] = "ExportDefault"; ModifierFlags[ModifierFlags["All"] = 3071] = "All"; })(ModifierFlags = ts.ModifierFlags || (ts.ModifierFlags = {})); var JsxFlags; (function (JsxFlags) { JsxFlags[JsxFlags["None"] = 0] = "None"; /** An element from a named property of the JSX.IntrinsicElements interface */ JsxFlags[JsxFlags["IntrinsicNamedElement"] = 1] = "IntrinsicNamedElement"; /** An element inferred from the string index signature of the JSX.IntrinsicElements interface */ JsxFlags[JsxFlags["IntrinsicIndexedElement"] = 2] = "IntrinsicIndexedElement"; JsxFlags[JsxFlags["IntrinsicElement"] = 3] = "IntrinsicElement"; })(JsxFlags = ts.JsxFlags || (ts.JsxFlags = {})); /* @internal */ var RelationComparisonResult; (function (RelationComparisonResult) { RelationComparisonResult[RelationComparisonResult["Succeeded"] = 1] = "Succeeded"; RelationComparisonResult[RelationComparisonResult["Failed"] = 2] = "Failed"; RelationComparisonResult[RelationComparisonResult["Reported"] = 4] = "Reported"; RelationComparisonResult[RelationComparisonResult["ReportsUnmeasurable"] = 8] = "ReportsUnmeasurable"; RelationComparisonResult[RelationComparisonResult["ReportsUnreliable"] = 16] = "ReportsUnreliable"; RelationComparisonResult[RelationComparisonResult["ReportsMask"] = 24] = "ReportsMask"; })(RelationComparisonResult = ts.RelationComparisonResult || (ts.RelationComparisonResult = {})); /*@internal*/ var GeneratedIdentifierFlags; (function (GeneratedIdentifierFlags) { // Kinds GeneratedIdentifierFlags[GeneratedIdentifierFlags["None"] = 0] = "None"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["Auto"] = 1] = "Auto"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["Loop"] = 2] = "Loop"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["Unique"] = 3] = "Unique"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["Node"] = 4] = "Node"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["KindMask"] = 7] = "KindMask"; // Flags GeneratedIdentifierFlags[GeneratedIdentifierFlags["ReservedInNestedScopes"] = 8] = "ReservedInNestedScopes"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["Optimistic"] = 16] = "Optimistic"; GeneratedIdentifierFlags[GeneratedIdentifierFlags["FileLevel"] = 32] = "FileLevel"; })(GeneratedIdentifierFlags = ts.GeneratedIdentifierFlags || (ts.GeneratedIdentifierFlags = {})); var TokenFlags; (function (TokenFlags) { TokenFlags[TokenFlags["None"] = 0] = "None"; /* @internal */ TokenFlags[TokenFlags["PrecedingLineBreak"] = 1] = "PrecedingLineBreak"; /* @internal */ TokenFlags[TokenFlags["PrecedingJSDocComment"] = 2] = "PrecedingJSDocComment"; /* @internal */ TokenFlags[TokenFlags["Unterminated"] = 4] = "Unterminated"; /* @internal */ TokenFlags[TokenFlags["ExtendedUnicodeEscape"] = 8] = "ExtendedUnicodeEscape"; TokenFlags[TokenFlags["Scientific"] = 16] = "Scientific"; TokenFlags[TokenFlags["Octal"] = 32] = "Octal"; TokenFlags[TokenFlags["HexSpecifier"] = 64] = "HexSpecifier"; TokenFlags[TokenFlags["BinarySpecifier"] = 128] = "BinarySpecifier"; TokenFlags[TokenFlags["OctalSpecifier"] = 256] = "OctalSpecifier"; /* @internal */ TokenFlags[TokenFlags["ContainsSeparator"] = 512] = "ContainsSeparator"; /* @internal */ TokenFlags[TokenFlags["UnicodeEscape"] = 1024] = "UnicodeEscape"; /* @internal */ TokenFlags[TokenFlags["ContainsInvalidEscape"] = 2048] = "ContainsInvalidEscape"; /* @internal */ TokenFlags[TokenFlags["BinaryOrOctalSpecifier"] = 384] = "BinaryOrOctalSpecifier"; /* @internal */ TokenFlags[TokenFlags["NumericLiteralFlags"] = 1008] = "NumericLiteralFlags"; })(TokenFlags = ts.TokenFlags || (ts.TokenFlags = {})); // NOTE: Ensure this is up-to-date with src/debug/debug.ts var FlowFlags; (function (FlowFlags) { FlowFlags[FlowFlags["Unreachable"] = 1] = "Unreachable"; FlowFlags[FlowFlags["Start"] = 2] = "Start"; FlowFlags[FlowFlags["BranchLabel"] = 4] = "BranchLabel"; FlowFlags[FlowFlags["LoopLabel"] = 8] = "LoopLabel"; FlowFlags[FlowFlags["Assignment"] = 16] = "Assignment"; FlowFlags[FlowFlags["TrueCondition"] = 32] = "TrueCondition"; FlowFlags[FlowFlags["FalseCondition"] = 64] = "FalseCondition"; FlowFlags[FlowFlags["SwitchClause"] = 128] = "SwitchClause"; FlowFlags[FlowFlags["ArrayMutation"] = 256] = "ArrayMutation"; FlowFlags[FlowFlags["Call"] = 512] = "Call"; FlowFlags[FlowFlags["ReduceLabel"] = 1024] = "ReduceLabel"; FlowFlags[FlowFlags["Referenced"] = 2048] = "Referenced"; FlowFlags[FlowFlags["Shared"] = 4096] = "Shared"; FlowFlags[FlowFlags["Label"] = 12] = "Label"; FlowFlags[FlowFlags["Condition"] = 96] = "Condition"; })(FlowFlags = ts.FlowFlags || (ts.FlowFlags = {})); /* @internal */ var CommentDirectiveType; (function (CommentDirectiveType) { CommentDirectiveType[CommentDirectiveType["ExpectError"] = 0] = "ExpectError"; CommentDirectiveType[CommentDirectiveType["Ignore"] = 1] = "Ignore"; })(CommentDirectiveType = ts.CommentDirectiveType || (ts.CommentDirectiveType = {})); var OperationCanceledException = /** @class */ (function () { function OperationCanceledException() { } return OperationCanceledException; }()); ts.OperationCanceledException = OperationCanceledException; /*@internal*/ var RefFileKind; (function (RefFileKind) { RefFileKind[RefFileKind["Import"] = 0] = "Import"; RefFileKind[RefFileKind["ReferenceFile"] = 1] = "ReferenceFile"; RefFileKind[RefFileKind["TypeReferenceDirective"] = 2] = "TypeReferenceDirective"; })(RefFileKind = ts.RefFileKind || (ts.RefFileKind = {})); /* @internal */ var StructureIsReused; (function (StructureIsReused) { StructureIsReused[StructureIsReused["Not"] = 0] = "Not"; StructureIsReused[StructureIsReused["SafeModules"] = 1] = "SafeModules"; StructureIsReused[StructureIsReused["Completely"] = 2] = "Completely"; })(StructureIsReused = ts.StructureIsReused || (ts.StructureIsReused = {})); /** Return code used by getEmitOutput function to indicate status of the function */ var ExitStatus; (function (ExitStatus) { // Compiler ran successfully. Either this was a simple do-nothing compilation (for example, // when -version or -help was provided, or this was a normal compilation, no diagnostics // were produced, and all outputs were generated successfully. ExitStatus[ExitStatus["Success"] = 0] = "Success"; // Diagnostics were produced and because of them no code was generated. ExitStatus[ExitStatus["DiagnosticsPresent_OutputsSkipped"] = 1] = "DiagnosticsPresent_OutputsSkipped"; // Diagnostics were produced and outputs were generated in spite of them. ExitStatus[ExitStatus["DiagnosticsPresent_OutputsGenerated"] = 2] = "DiagnosticsPresent_OutputsGenerated"; // When build skipped because passed in project is invalid ExitStatus[ExitStatus["InvalidProject_OutputsSkipped"] = 3] = "InvalidProject_OutputsSkipped"; // When build is skipped because project references form cycle ExitStatus[ExitStatus["ProjectReferenceCycle_OutputsSkipped"] = 4] = "ProjectReferenceCycle_OutputsSkipped"; /** @deprecated Use ProjectReferenceCycle_OutputsSkipped instead. */ ExitStatus[ExitStatus["ProjectReferenceCycle_OutputsSkupped"] = 4] = "ProjectReferenceCycle_OutputsSkupped"; })(ExitStatus = ts.ExitStatus || (ts.ExitStatus = {})); /* @internal */ var UnionReduction; (function (UnionReduction) { UnionReduction[UnionReduction["None"] = 0] = "None"; UnionReduction[UnionReduction["Literal"] = 1] = "Literal"; UnionReduction[UnionReduction["Subtype"] = 2] = "Subtype"; })(UnionReduction = ts.UnionReduction || (ts.UnionReduction = {})); /* @internal */ var ContextFlags; (function (ContextFlags) { ContextFlags[ContextFlags["None"] = 0] = "None"; ContextFlags[ContextFlags["Signature"] = 1] = "Signature"; ContextFlags[ContextFlags["NoConstraints"] = 2] = "NoConstraints"; ContextFlags[ContextFlags["Completions"] = 4] = "Completions"; })(ContextFlags = ts.ContextFlags || (ts.ContextFlags = {})); // NOTE: If modifying this enum, must modify `TypeFormatFlags` too! var NodeBuilderFlags; (function (NodeBuilderFlags) { NodeBuilderFlags[NodeBuilderFlags["None"] = 0] = "None"; // Options NodeBuilderFlags[NodeBuilderFlags["NoTruncation"] = 1] = "NoTruncation"; NodeBuilderFlags[NodeBuilderFlags["WriteArrayAsGenericType"] = 2] = "WriteArrayAsGenericType"; NodeBuilderFlags[NodeBuilderFlags["GenerateNamesForShadowedTypeParams"] = 4] = "GenerateNamesForShadowedTypeParams"; NodeBuilderFlags[NodeBuilderFlags["UseStructuralFallback"] = 8] = "UseStructuralFallback"; NodeBuilderFlags[NodeBuilderFlags["ForbidIndexedAccessSymbolReferences"] = 16] = "ForbidIndexedAccessSymbolReferences"; NodeBuilderFlags[NodeBuilderFlags["WriteTypeArgumentsOfSignature"] = 32] = "WriteTypeArgumentsOfSignature"; NodeBuilderFlags[NodeBuilderFlags["UseFullyQualifiedType"] = 64] = "UseFullyQualifiedType"; NodeBuilderFlags[NodeBuilderFlags["UseOnlyExternalAliasing"] = 128] = "UseOnlyExternalAliasing"; NodeBuilderFlags[NodeBuilderFlags["SuppressAnyReturnType"] = 256] = "SuppressAnyReturnType"; NodeBuilderFlags[NodeBuilderFlags["WriteTypeParametersInQualifiedName"] = 512] = "WriteTypeParametersInQualifiedName"; NodeBuilderFlags[NodeBuilderFlags["MultilineObjectLiterals"] = 1024] = "MultilineObjectLiterals"; NodeBuilderFlags[NodeBuilderFlags["WriteClassExpressionAsTypeLiteral"] = 2048] = "WriteClassExpressionAsTypeLiteral"; NodeBuilderFlags[NodeBuilderFlags["UseTypeOfFunction"] = 4096] = "UseTypeOfFunction"; NodeBuilderFlags[NodeBuilderFlags["OmitParameterModifiers"] = 8192] = "OmitParameterModifiers"; NodeBuilderFlags[NodeBuilderFlags["UseAliasDefinedOutsideCurrentScope"] = 16384] = "UseAliasDefinedOutsideCurrentScope"; NodeBuilderFlags[NodeBuilderFlags["UseSingleQuotesForStringLiteralType"] = 268435456] = "UseSingleQuotesForStringLiteralType"; NodeBuilderFlags[NodeBuilderFlags["NoTypeReduction"] = 536870912] = "NoTypeReduction"; // Error handling NodeBuilderFlags[NodeBuilderFlags["AllowThisInObjectLiteral"] = 32768] = "AllowThisInObjectLiteral"; NodeBuilderFlags[NodeBuilderFlags["AllowQualifedNameInPlaceOfIdentifier"] = 65536] = "AllowQualifedNameInPlaceOfIdentifier"; NodeBuilderFlags[NodeBuilderFlags["AllowAnonymousIdentifier"] = 131072] = "AllowAnonymousIdentifier"; NodeBuilderFlags[NodeBuilderFlags["AllowEmptyUnionOrIntersection"] = 262144] = "AllowEmptyUnionOrIntersection"; NodeBuilderFlags[NodeBuilderFlags["AllowEmptyTuple"] = 524288] = "AllowEmptyTuple"; NodeBuilderFlags[NodeBuilderFlags["AllowUniqueESSymbolType"] = 1048576] = "AllowUniqueESSymbolType"; NodeBuilderFlags[NodeBuilderFlags["AllowEmptyIndexInfoType"] = 2097152] = "AllowEmptyIndexInfoType"; // Errors (cont.) NodeBuilderFlags[NodeBuilderFlags["AllowNodeModulesRelativePaths"] = 67108864] = "AllowNodeModulesRelativePaths"; /* @internal */ NodeBuilderFlags[NodeBuilderFlags["DoNotIncludeSymbolChain"] = 134217728] = "DoNotIncludeSymbolChain"; NodeBuilderFlags[NodeBuilderFlags["IgnoreErrors"] = 70221824] = "IgnoreErrors"; // State NodeBuilderFlags[NodeBuilderFlags["InObjectTypeLiteral"] = 4194304] = "InObjectTypeLiteral"; NodeBuilderFlags[NodeBuilderFlags["InTypeAlias"] = 8388608] = "InTypeAlias"; NodeBuilderFlags[NodeBuilderFlags["InInitialEntityName"] = 16777216] = "InInitialEntityName"; NodeBuilderFlags[NodeBuilderFlags["InReverseMappedType"] = 33554432] = "InReverseMappedType"; })(NodeBuilderFlags = ts.NodeBuilderFlags || (ts.NodeBuilderFlags = {})); // Ensure the shared flags between this and `NodeBuilderFlags` stay in alignment var TypeFormatFlags; (function (TypeFormatFlags) { TypeFormatFlags[TypeFormatFlags["None"] = 0] = "None"; TypeFormatFlags[TypeFormatFlags["NoTruncation"] = 1] = "NoTruncation"; TypeFormatFlags[TypeFormatFlags["WriteArrayAsGenericType"] = 2] = "WriteArrayAsGenericType"; // hole because there's a hole in node builder flags TypeFormatFlags[TypeFormatFlags["UseStructuralFallback"] = 8] = "UseStructuralFallback"; // hole because there's a hole in node builder flags TypeFormatFlags[TypeFormatFlags["WriteTypeArgumentsOfSignature"] = 32] = "WriteTypeArgumentsOfSignature"; TypeFormatFlags[TypeFormatFlags["UseFullyQualifiedType"] = 64] = "UseFullyQualifiedType"; // hole because `UseOnlyExternalAliasing` is here in node builder flags, but functions which take old flags use `SymbolFormatFlags` instead TypeFormatFlags[TypeFormatFlags["SuppressAnyReturnType"] = 256] = "SuppressAnyReturnType"; // hole because `WriteTypeParametersInQualifiedName` is here in node builder flags, but functions which take old flags use `SymbolFormatFlags` for this instead TypeFormatFlags[TypeFormatFlags["MultilineObjectLiterals"] = 1024] = "MultilineObjectLiterals"; TypeFormatFlags[TypeFormatFlags["WriteClassExpressionAsTypeLiteral"] = 2048] = "WriteClassExpressionAsTypeLiteral"; TypeFormatFlags[TypeFormatFlags["UseTypeOfFunction"] = 4096] = "UseTypeOfFunction"; TypeFormatFlags[TypeFormatFlags["OmitParameterModifiers"] = 8192] = "OmitParameterModifiers"; TypeFormatFlags[TypeFormatFlags["UseAliasDefinedOutsideCurrentScope"] = 16384] = "UseAliasDefinedOutsideCurrentScope"; TypeFormatFlags[TypeFormatFlags["UseSingleQuotesForStringLiteralType"] = 268435456] = "UseSingleQuotesForStringLiteralType"; TypeFormatFlags[TypeFormatFlags["NoTypeReduction"] = 536870912] = "NoTypeReduction"; // Error Handling TypeFormatFlags[TypeFormatFlags["AllowUniqueESSymbolType"] = 1048576] = "AllowUniqueESSymbolType"; // TypeFormatFlags exclusive TypeFormatFlags[TypeFormatFlags["AddUndefined"] = 131072] = "AddUndefined"; TypeFormatFlags[TypeFormatFlags["WriteArrowStyleSignature"] = 262144] = "WriteArrowStyleSignature"; // State TypeFormatFlags[TypeFormatFlags["InArrayType"] = 524288] = "InArrayType"; TypeFormatFlags[TypeFormatFlags["InElementType"] = 2097152] = "InElementType"; TypeFormatFlags[TypeFormatFlags["InFirstTypeArgument"] = 4194304] = "InFirstTypeArgument"; TypeFormatFlags[TypeFormatFlags["InTypeAlias"] = 8388608] = "InTypeAlias"; /** @deprecated */ TypeFormatFlags[TypeFormatFlags["WriteOwnNameForAnyLike"] = 0] = "WriteOwnNameForAnyLike"; TypeFormatFlags[TypeFormatFlags["NodeBuilderFlagsMask"] = 814775659] = "NodeBuilderFlagsMask"; })(TypeFormatFlags = ts.TypeFormatFlags || (ts.TypeFormatFlags = {})); var SymbolFormatFlags; (function (SymbolFormatFlags) { SymbolFormatFlags[SymbolFormatFlags["None"] = 0] = "None"; // Write symbols's type argument if it is instantiated symbol // eg. class C { p: T } <-- Show p as C.p here // var a: C; // var p = a.p; <--- Here p is property of C so show it as C.p instead of just C.p SymbolFormatFlags[SymbolFormatFlags["WriteTypeParametersOrArguments"] = 1] = "WriteTypeParametersOrArguments"; // Use only external alias information to get the symbol name in the given context // eg. module m { export class c { } } import x = m.c; // When this flag is specified m.c will be used to refer to the class instead of alias symbol x SymbolFormatFlags[SymbolFormatFlags["UseOnlyExternalAliasing"] = 2] = "UseOnlyExternalAliasing"; // Build symbol name using any nodes needed, instead of just components of an entity name SymbolFormatFlags[SymbolFormatFlags["AllowAnyNodeKind"] = 4] = "AllowAnyNodeKind"; // Prefer aliases which are not directly visible SymbolFormatFlags[SymbolFormatFlags["UseAliasDefinedOutsideCurrentScope"] = 8] = "UseAliasDefinedOutsideCurrentScope"; // Skip building an accessible symbol chain /* @internal */ SymbolFormatFlags[SymbolFormatFlags["DoNotIncludeSymbolChain"] = 16] = "DoNotIncludeSymbolChain"; })(SymbolFormatFlags = ts.SymbolFormatFlags || (ts.SymbolFormatFlags = {})); /* @internal */ var SymbolAccessibility; (function (SymbolAccessibility) { SymbolAccessibility[SymbolAccessibility["Accessible"] = 0] = "Accessible"; SymbolAccessibility[SymbolAccessibility["NotAccessible"] = 1] = "NotAccessible"; SymbolAccessibility[SymbolAccessibility["CannotBeNamed"] = 2] = "CannotBeNamed"; })(SymbolAccessibility = ts.SymbolAccessibility || (ts.SymbolAccessibility = {})); /* @internal */ var SyntheticSymbolKind; (function (SyntheticSymbolKind) { SyntheticSymbolKind[SyntheticSymbolKind["UnionOrIntersection"] = 0] = "UnionOrIntersection"; SyntheticSymbolKind[SyntheticSymbolKind["Spread"] = 1] = "Spread"; })(SyntheticSymbolKind = ts.SyntheticSymbolKind || (ts.SyntheticSymbolKind = {})); var TypePredicateKind; (function (TypePredicateKind) { TypePredicateKind[TypePredicateKind["This"] = 0] = "This"; TypePredicateKind[TypePredicateKind["Identifier"] = 1] = "Identifier"; TypePredicateKind[TypePredicateKind["AssertsThis"] = 2] = "AssertsThis"; TypePredicateKind[TypePredicateKind["AssertsIdentifier"] = 3] = "AssertsIdentifier"; })(TypePredicateKind = ts.TypePredicateKind || (ts.TypePredicateKind = {})); /** Indicates how to serialize the name for a TypeReferenceNode when emitting decorator metadata */ /* @internal */ var TypeReferenceSerializationKind; (function (TypeReferenceSerializationKind) { // The TypeReferenceNode could not be resolved. // The type name should be emitted using a safe fallback. TypeReferenceSerializationKind[TypeReferenceSerializationKind["Unknown"] = 0] = "Unknown"; // The TypeReferenceNode resolves to a type with a constructor // function that can be reached at runtime (e.g. a `class` // declaration or a `var` declaration for the static side // of a type, such as the global `Promise` type in lib.d.ts). TypeReferenceSerializationKind[TypeReferenceSerializationKind["TypeWithConstructSignatureAndValue"] = 1] = "TypeWithConstructSignatureAndValue"; // The TypeReferenceNode resolves to a Void-like, Nullable, or Never type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["VoidNullableOrNeverType"] = 2] = "VoidNullableOrNeverType"; // The TypeReferenceNode resolves to a Number-like type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["NumberLikeType"] = 3] = "NumberLikeType"; // The TypeReferenceNode resolves to a BigInt-like type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["BigIntLikeType"] = 4] = "BigIntLikeType"; // The TypeReferenceNode resolves to a String-like type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["StringLikeType"] = 5] = "StringLikeType"; // The TypeReferenceNode resolves to a Boolean-like type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["BooleanType"] = 6] = "BooleanType"; // The TypeReferenceNode resolves to an Array-like type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["ArrayLikeType"] = 7] = "ArrayLikeType"; // The TypeReferenceNode resolves to the ESSymbol type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["ESSymbolType"] = 8] = "ESSymbolType"; // The TypeReferenceNode resolved to the global Promise constructor symbol. TypeReferenceSerializationKind[TypeReferenceSerializationKind["Promise"] = 9] = "Promise"; // The TypeReferenceNode resolves to a Function type or a type with call signatures. TypeReferenceSerializationKind[TypeReferenceSerializationKind["TypeWithCallSignature"] = 10] = "TypeWithCallSignature"; // The TypeReferenceNode resolves to any other type. TypeReferenceSerializationKind[TypeReferenceSerializationKind["ObjectType"] = 11] = "ObjectType"; })(TypeReferenceSerializationKind = ts.TypeReferenceSerializationKind || (ts.TypeReferenceSerializationKind = {})); var SymbolFlags; (function (SymbolFlags) { SymbolFlags[SymbolFlags["None"] = 0] = "None"; SymbolFlags[SymbolFlags["FunctionScopedVariable"] = 1] = "FunctionScopedVariable"; SymbolFlags[SymbolFlags["BlockScopedVariable"] = 2] = "BlockScopedVariable"; SymbolFlags[SymbolFlags["Property"] = 4] = "Property"; SymbolFlags[SymbolFlags["EnumMember"] = 8] = "EnumMember"; SymbolFlags[SymbolFlags["Function"] = 16] = "Function"; SymbolFlags[SymbolFlags["Class"] = 32] = "Class"; SymbolFlags[SymbolFlags["Interface"] = 64] = "Interface"; SymbolFlags[SymbolFlags["ConstEnum"] = 128] = "ConstEnum"; SymbolFlags[SymbolFlags["RegularEnum"] = 256] = "RegularEnum"; SymbolFlags[SymbolFlags["ValueModule"] = 512] = "ValueModule"; SymbolFlags[SymbolFlags["NamespaceModule"] = 1024] = "NamespaceModule"; SymbolFlags[SymbolFlags["TypeLiteral"] = 2048] = "TypeLiteral"; SymbolFlags[SymbolFlags["ObjectLiteral"] = 4096] = "ObjectLiteral"; SymbolFlags[SymbolFlags["Method"] = 8192] = "Method"; SymbolFlags[SymbolFlags["Constructor"] = 16384] = "Constructor"; SymbolFlags[SymbolFlags["GetAccessor"] = 32768] = "GetAccessor"; SymbolFlags[SymbolFlags["SetAccessor"] = 65536] = "SetAccessor"; SymbolFlags[SymbolFlags["Signature"] = 131072] = "Signature"; SymbolFlags[SymbolFlags["TypeParameter"] = 262144] = "TypeParameter"; SymbolFlags[SymbolFlags["TypeAlias"] = 524288] = "TypeAlias"; SymbolFlags[SymbolFlags["ExportValue"] = 1048576] = "ExportValue"; SymbolFlags[SymbolFlags["Alias"] = 2097152] = "Alias"; SymbolFlags[SymbolFlags["Prototype"] = 4194304] = "Prototype"; SymbolFlags[SymbolFlags["ExportStar"] = 8388608] = "ExportStar"; SymbolFlags[SymbolFlags["Optional"] = 16777216] = "Optional"; SymbolFlags[SymbolFlags["Transient"] = 33554432] = "Transient"; SymbolFlags[SymbolFlags["Assignment"] = 67108864] = "Assignment"; SymbolFlags[SymbolFlags["ModuleExports"] = 134217728] = "ModuleExports"; /* @internal */ SymbolFlags[SymbolFlags["All"] = 67108863] = "All"; SymbolFlags[SymbolFlags["Enum"] = 384] = "Enum"; SymbolFlags[SymbolFlags["Variable"] = 3] = "Variable"; SymbolFlags[SymbolFlags["Value"] = 111551] = "Value"; SymbolFlags[SymbolFlags["Type"] = 788968] = "Type"; SymbolFlags[SymbolFlags["Namespace"] = 1920] = "Namespace"; SymbolFlags[SymbolFlags["Module"] = 1536] = "Module"; SymbolFlags[SymbolFlags["Accessor"] = 98304] = "Accessor"; // Variables can be redeclared, but can not redeclare a block-scoped declaration with the // same name, or any other value that is not a variable, e.g. ValueModule or Class SymbolFlags[SymbolFlags["FunctionScopedVariableExcludes"] = 111550] = "FunctionScopedVariableExcludes"; // Block-scoped declarations are not allowed to be re-declared // they can not merge with anything in the value space SymbolFlags[SymbolFlags["BlockScopedVariableExcludes"] = 111551] = "BlockScopedVariableExcludes"; SymbolFlags[SymbolFlags["ParameterExcludes"] = 111551] = "ParameterExcludes"; SymbolFlags[SymbolFlags["PropertyExcludes"] = 0] = "PropertyExcludes"; SymbolFlags[SymbolFlags["EnumMemberExcludes"] = 900095] = "EnumMemberExcludes"; SymbolFlags[SymbolFlags["FunctionExcludes"] = 110991] = "FunctionExcludes"; SymbolFlags[SymbolFlags["ClassExcludes"] = 899503] = "ClassExcludes"; SymbolFlags[SymbolFlags["InterfaceExcludes"] = 788872] = "InterfaceExcludes"; SymbolFlags[SymbolFlags["RegularEnumExcludes"] = 899327] = "RegularEnumExcludes"; SymbolFlags[SymbolFlags["ConstEnumExcludes"] = 899967] = "ConstEnumExcludes"; SymbolFlags[SymbolFlags["ValueModuleExcludes"] = 110735] = "ValueModuleExcludes"; SymbolFlags[SymbolFlags["NamespaceModuleExcludes"] = 0] = "NamespaceModuleExcludes"; SymbolFlags[SymbolFlags["MethodExcludes"] = 103359] = "MethodExcludes"; SymbolFlags[SymbolFlags["GetAccessorExcludes"] = 46015] = "GetAccessorExcludes"; SymbolFlags[SymbolFlags["SetAccessorExcludes"] = 78783] = "SetAccessorExcludes"; SymbolFlags[SymbolFlags["TypeParameterExcludes"] = 526824] = "TypeParameterExcludes"; SymbolFlags[SymbolFlags["TypeAliasExcludes"] = 788968] = "TypeAliasExcludes"; SymbolFlags[SymbolFlags["AliasExcludes"] = 2097152] = "AliasExcludes"; SymbolFlags[SymbolFlags["ModuleMember"] = 2623475] = "ModuleMember"; SymbolFlags[SymbolFlags["ExportHasLocal"] = 944] = "ExportHasLocal"; SymbolFlags[SymbolFlags["BlockScoped"] = 418] = "BlockScoped"; SymbolFlags[SymbolFlags["PropertyOrAccessor"] = 98308] = "PropertyOrAccessor"; SymbolFlags[SymbolFlags["ClassMember"] = 106500] = "ClassMember"; /* @internal */ SymbolFlags[SymbolFlags["ExportSupportsDefaultModifier"] = 112] = "ExportSupportsDefaultModifier"; /* @internal */ SymbolFlags[SymbolFlags["ExportDoesNotSupportDefaultModifier"] = -113] = "ExportDoesNotSupportDefaultModifier"; /* @internal */ // The set of things we consider semantically classifiable. Used to speed up the LS during // classification. SymbolFlags[SymbolFlags["Classifiable"] = 2885600] = "Classifiable"; /* @internal */ SymbolFlags[SymbolFlags["LateBindingContainer"] = 6256] = "LateBindingContainer"; })(SymbolFlags = ts.SymbolFlags || (ts.SymbolFlags = {})); /* @internal */ var EnumKind; (function (EnumKind) { EnumKind[EnumKind["Numeric"] = 0] = "Numeric"; EnumKind[EnumKind["Literal"] = 1] = "Literal"; // Literal enum (each member has a TypeFlags.EnumLiteral type) })(EnumKind = ts.EnumKind || (ts.EnumKind = {})); /* @internal */ var CheckFlags; (function (CheckFlags) { CheckFlags[CheckFlags["Instantiated"] = 1] = "Instantiated"; CheckFlags[CheckFlags["SyntheticProperty"] = 2] = "SyntheticProperty"; CheckFlags[CheckFlags["SyntheticMethod"] = 4] = "SyntheticMethod"; CheckFlags[CheckFlags["Readonly"] = 8] = "Readonly"; CheckFlags[CheckFlags["ReadPartial"] = 16] = "ReadPartial"; CheckFlags[CheckFlags["WritePartial"] = 32] = "WritePartial"; CheckFlags[CheckFlags["HasNonUniformType"] = 64] = "HasNonUniformType"; CheckFlags[CheckFlags["HasLiteralType"] = 128] = "HasLiteralType"; CheckFlags[CheckFlags["ContainsPublic"] = 256] = "ContainsPublic"; CheckFlags[CheckFlags["ContainsProtected"] = 512] = "ContainsProtected"; CheckFlags[CheckFlags["ContainsPrivate"] = 1024] = "ContainsPrivate"; CheckFlags[CheckFlags["ContainsStatic"] = 2048] = "ContainsStatic"; CheckFlags[CheckFlags["Late"] = 4096] = "Late"; CheckFlags[CheckFlags["ReverseMapped"] = 8192] = "ReverseMapped"; CheckFlags[CheckFlags["OptionalParameter"] = 16384] = "OptionalParameter"; CheckFlags[CheckFlags["RestParameter"] = 32768] = "RestParameter"; CheckFlags[CheckFlags["DeferredType"] = 65536] = "DeferredType"; CheckFlags[CheckFlags["HasNeverType"] = 131072] = "HasNeverType"; CheckFlags[CheckFlags["Mapped"] = 262144] = "Mapped"; CheckFlags[CheckFlags["StripOptional"] = 524288] = "StripOptional"; CheckFlags[CheckFlags["Synthetic"] = 6] = "Synthetic"; CheckFlags[CheckFlags["Discriminant"] = 192] = "Discriminant"; CheckFlags[CheckFlags["Partial"] = 48] = "Partial"; })(CheckFlags = ts.CheckFlags || (ts.CheckFlags = {})); var InternalSymbolName; (function (InternalSymbolName) { InternalSymbolName["Call"] = "__call"; InternalSymbolName["Constructor"] = "__constructor"; InternalSymbolName["New"] = "__new"; InternalSymbolName["Index"] = "__index"; InternalSymbolName["ExportStar"] = "__export"; InternalSymbolName["Global"] = "__global"; InternalSymbolName["Missing"] = "__missing"; InternalSymbolName["Type"] = "__type"; InternalSymbolName["Object"] = "__object"; InternalSymbolName["JSXAttributes"] = "__jsxAttributes"; InternalSymbolName["Class"] = "__class"; InternalSymbolName["Function"] = "__function"; InternalSymbolName["Computed"] = "__computed"; InternalSymbolName["Resolving"] = "__resolving__"; InternalSymbolName["ExportEquals"] = "export="; InternalSymbolName["Default"] = "default"; InternalSymbolName["This"] = "this"; })(InternalSymbolName = ts.InternalSymbolName || (ts.InternalSymbolName = {})); /* @internal */ var NodeCheckFlags; (function (NodeCheckFlags) { NodeCheckFlags[NodeCheckFlags["TypeChecked"] = 1] = "TypeChecked"; NodeCheckFlags[NodeCheckFlags["LexicalThis"] = 2] = "LexicalThis"; NodeCheckFlags[NodeCheckFlags["CaptureThis"] = 4] = "CaptureThis"; NodeCheckFlags[NodeCheckFlags["CaptureNewTarget"] = 8] = "CaptureNewTarget"; NodeCheckFlags[NodeCheckFlags["SuperInstance"] = 256] = "SuperInstance"; NodeCheckFlags[NodeCheckFlags["SuperStatic"] = 512] = "SuperStatic"; NodeCheckFlags[NodeCheckFlags["ContextChecked"] = 1024] = "ContextChecked"; NodeCheckFlags[NodeCheckFlags["AsyncMethodWithSuper"] = 2048] = "AsyncMethodWithSuper"; NodeCheckFlags[NodeCheckFlags["AsyncMethodWithSuperBinding"] = 4096] = "AsyncMethodWithSuperBinding"; NodeCheckFlags[NodeCheckFlags["CaptureArguments"] = 8192] = "CaptureArguments"; NodeCheckFlags[NodeCheckFlags["EnumValuesComputed"] = 16384] = "EnumValuesComputed"; NodeCheckFlags[NodeCheckFlags["LexicalModuleMergesWithClass"] = 32768] = "LexicalModuleMergesWithClass"; NodeCheckFlags[NodeCheckFlags["LoopWithCapturedBlockScopedBinding"] = 65536] = "LoopWithCapturedBlockScopedBinding"; NodeCheckFlags[NodeCheckFlags["ContainsCapturedBlockScopeBinding"] = 131072] = "ContainsCapturedBlockScopeBinding"; NodeCheckFlags[NodeCheckFlags["CapturedBlockScopedBinding"] = 262144] = "CapturedBlockScopedBinding"; NodeCheckFlags[NodeCheckFlags["BlockScopedBindingInLoop"] = 524288] = "BlockScopedBindingInLoop"; NodeCheckFlags[NodeCheckFlags["ClassWithBodyScopedClassBinding"] = 1048576] = "ClassWithBodyScopedClassBinding"; NodeCheckFlags[NodeCheckFlags["BodyScopedClassBinding"] = 2097152] = "BodyScopedClassBinding"; NodeCheckFlags[NodeCheckFlags["NeedsLoopOutParameter"] = 4194304] = "NeedsLoopOutParameter"; NodeCheckFlags[NodeCheckFlags["AssignmentsMarked"] = 8388608] = "AssignmentsMarked"; NodeCheckFlags[NodeCheckFlags["ClassWithConstructorReference"] = 16777216] = "ClassWithConstructorReference"; NodeCheckFlags[NodeCheckFlags["ConstructorReferenceInClass"] = 33554432] = "ConstructorReferenceInClass"; NodeCheckFlags[NodeCheckFlags["ContainsClassWithPrivateIdentifiers"] = 67108864] = "ContainsClassWithPrivateIdentifiers"; })(NodeCheckFlags = ts.NodeCheckFlags || (ts.NodeCheckFlags = {})); var TypeFlags; (function (TypeFlags) { TypeFlags[TypeFlags["Any"] = 1] = "Any"; TypeFlags[TypeFlags["Unknown"] = 2] = "Unknown"; TypeFlags[TypeFlags["String"] = 4] = "String"; TypeFlags[TypeFlags["Number"] = 8] = "Number"; TypeFlags[TypeFlags["Boolean"] = 16] = "Boolean"; TypeFlags[TypeFlags["Enum"] = 32] = "Enum"; TypeFlags[TypeFlags["BigInt"] = 64] = "BigInt"; TypeFlags[TypeFlags["StringLiteral"] = 128] = "StringLiteral"; TypeFlags[TypeFlags["NumberLiteral"] = 256] = "NumberLiteral"; TypeFlags[TypeFlags["BooleanLiteral"] = 512] = "BooleanLiteral"; TypeFlags[TypeFlags["EnumLiteral"] = 1024] = "EnumLiteral"; TypeFlags[TypeFlags["BigIntLiteral"] = 2048] = "BigIntLiteral"; TypeFlags[TypeFlags["ESSymbol"] = 4096] = "ESSymbol"; TypeFlags[TypeFlags["UniqueESSymbol"] = 8192] = "UniqueESSymbol"; TypeFlags[TypeFlags["Void"] = 16384] = "Void"; TypeFlags[TypeFlags["Undefined"] = 32768] = "Undefined"; TypeFlags[TypeFlags["Null"] = 65536] = "Null"; TypeFlags[TypeFlags["Never"] = 131072] = "Never"; TypeFlags[TypeFlags["TypeParameter"] = 262144] = "TypeParameter"; TypeFlags[TypeFlags["Object"] = 524288] = "Object"; TypeFlags[TypeFlags["Union"] = 1048576] = "Union"; TypeFlags[TypeFlags["Intersection"] = 2097152] = "Intersection"; TypeFlags[TypeFlags["Index"] = 4194304] = "Index"; TypeFlags[TypeFlags["IndexedAccess"] = 8388608] = "IndexedAccess"; TypeFlags[TypeFlags["Conditional"] = 16777216] = "Conditional"; TypeFlags[TypeFlags["Substitution"] = 33554432] = "Substitution"; TypeFlags[TypeFlags["NonPrimitive"] = 67108864] = "NonPrimitive"; /* @internal */ TypeFlags[TypeFlags["AnyOrUnknown"] = 3] = "AnyOrUnknown"; /* @internal */ TypeFlags[TypeFlags["Nullable"] = 98304] = "Nullable"; TypeFlags[TypeFlags["Literal"] = 2944] = "Literal"; TypeFlags[TypeFlags["Unit"] = 109440] = "Unit"; TypeFlags[TypeFlags["StringOrNumberLiteral"] = 384] = "StringOrNumberLiteral"; /* @internal */ TypeFlags[TypeFlags["StringOrNumberLiteralOrUnique"] = 8576] = "StringOrNumberLiteralOrUnique"; /* @internal */ TypeFlags[TypeFlags["DefinitelyFalsy"] = 117632] = "DefinitelyFalsy"; TypeFlags[TypeFlags["PossiblyFalsy"] = 117724] = "PossiblyFalsy"; /* @internal */ TypeFlags[TypeFlags["Intrinsic"] = 67359327] = "Intrinsic"; /* @internal */ TypeFlags[TypeFlags["Primitive"] = 131068] = "Primitive"; TypeFlags[TypeFlags["StringLike"] = 132] = "StringLike"; TypeFlags[TypeFlags["NumberLike"] = 296] = "NumberLike"; TypeFlags[TypeFlags["BigIntLike"] = 2112] = "BigIntLike"; TypeFlags[TypeFlags["BooleanLike"] = 528] = "BooleanLike"; TypeFlags[TypeFlags["EnumLike"] = 1056] = "EnumLike"; TypeFlags[TypeFlags["ESSymbolLike"] = 12288] = "ESSymbolLike"; TypeFlags[TypeFlags["VoidLike"] = 49152] = "VoidLike"; /* @internal */ TypeFlags[TypeFlags["DisjointDomains"] = 67238908] = "DisjointDomains"; TypeFlags[TypeFlags["UnionOrIntersection"] = 3145728] = "UnionOrIntersection"; TypeFlags[TypeFlags["StructuredType"] = 3670016] = "StructuredType"; TypeFlags[TypeFlags["TypeVariable"] = 8650752] = "TypeVariable"; TypeFlags[TypeFlags["InstantiableNonPrimitive"] = 58982400] = "InstantiableNonPrimitive"; TypeFlags[TypeFlags["InstantiablePrimitive"] = 4194304] = "InstantiablePrimitive"; TypeFlags[TypeFlags["Instantiable"] = 63176704] = "Instantiable"; TypeFlags[TypeFlags["StructuredOrInstantiable"] = 66846720] = "StructuredOrInstantiable"; /* @internal */ TypeFlags[TypeFlags["ObjectFlagsType"] = 3899393] = "ObjectFlagsType"; /* @internal */ TypeFlags[TypeFlags["Simplifiable"] = 25165824] = "Simplifiable"; /* @internal */ TypeFlags[TypeFlags["Substructure"] = 66584576] = "Substructure"; // 'Narrowable' types are types where narrowing actually narrows. // This *should* be every type other than null, undefined, void, and never TypeFlags[TypeFlags["Narrowable"] = 133970943] = "Narrowable"; TypeFlags[TypeFlags["NotUnionOrUnit"] = 67637251] = "NotUnionOrUnit"; /* @internal */ TypeFlags[TypeFlags["NotPrimitiveUnion"] = 66994211] = "NotPrimitiveUnion"; // The following flags are aggregated during union and intersection type construction /* @internal */ TypeFlags[TypeFlags["IncludesMask"] = 71041023] = "IncludesMask"; // The following flags are used for different purposes during union and intersection type construction /* @internal */ TypeFlags[TypeFlags["IncludesStructuredOrInstantiable"] = 262144] = "IncludesStructuredOrInstantiable"; /* @internal */ TypeFlags[TypeFlags["IncludesNonWideningType"] = 4194304] = "IncludesNonWideningType"; /* @internal */ TypeFlags[TypeFlags["IncludesWildcard"] = 8388608] = "IncludesWildcard"; /* @internal */ TypeFlags[TypeFlags["IncludesEmptyObject"] = 16777216] = "IncludesEmptyObject"; })(TypeFlags = ts.TypeFlags || (ts.TypeFlags = {})); var ObjectFlags; (function (ObjectFlags) { ObjectFlags[ObjectFlags["Class"] = 1] = "Class"; ObjectFlags[ObjectFlags["Interface"] = 2] = "Interface"; ObjectFlags[ObjectFlags["Reference"] = 4] = "Reference"; ObjectFlags[ObjectFlags["Tuple"] = 8] = "Tuple"; ObjectFlags[ObjectFlags["Anonymous"] = 16] = "Anonymous"; ObjectFlags[ObjectFlags["Mapped"] = 32] = "Mapped"; ObjectFlags[ObjectFlags["Instantiated"] = 64] = "Instantiated"; ObjectFlags[ObjectFlags["ObjectLiteral"] = 128] = "ObjectLiteral"; ObjectFlags[ObjectFlags["EvolvingArray"] = 256] = "EvolvingArray"; ObjectFlags[ObjectFlags["ObjectLiteralPatternWithComputedProperties"] = 512] = "ObjectLiteralPatternWithComputedProperties"; ObjectFlags[ObjectFlags["ContainsSpread"] = 1024] = "ContainsSpread"; ObjectFlags[ObjectFlags["ReverseMapped"] = 2048] = "ReverseMapped"; ObjectFlags[ObjectFlags["JsxAttributes"] = 4096] = "JsxAttributes"; ObjectFlags[ObjectFlags["MarkerType"] = 8192] = "MarkerType"; ObjectFlags[ObjectFlags["JSLiteral"] = 16384] = "JSLiteral"; ObjectFlags[ObjectFlags["FreshLiteral"] = 32768] = "FreshLiteral"; ObjectFlags[ObjectFlags["ArrayLiteral"] = 65536] = "ArrayLiteral"; ObjectFlags[ObjectFlags["ObjectRestType"] = 131072] = "ObjectRestType"; /* @internal */ ObjectFlags[ObjectFlags["PrimitiveUnion"] = 262144] = "PrimitiveUnion"; /* @internal */ ObjectFlags[ObjectFlags["ContainsWideningType"] = 524288] = "ContainsWideningType"; /* @internal */ ObjectFlags[ObjectFlags["ContainsObjectOrArrayLiteral"] = 1048576] = "ContainsObjectOrArrayLiteral"; /* @internal */ ObjectFlags[ObjectFlags["NonInferrableType"] = 2097152] = "NonInferrableType"; /* @internal */ ObjectFlags[ObjectFlags["IsGenericObjectTypeComputed"] = 4194304] = "IsGenericObjectTypeComputed"; /* @internal */ ObjectFlags[ObjectFlags["IsGenericObjectType"] = 8388608] = "IsGenericObjectType"; /* @internal */ ObjectFlags[ObjectFlags["IsGenericIndexTypeComputed"] = 16777216] = "IsGenericIndexTypeComputed"; /* @internal */ ObjectFlags[ObjectFlags["IsGenericIndexType"] = 33554432] = "IsGenericIndexType"; /* @internal */ ObjectFlags[ObjectFlags["CouldContainTypeVariablesComputed"] = 67108864] = "CouldContainTypeVariablesComputed"; /* @internal */ ObjectFlags[ObjectFlags["CouldContainTypeVariables"] = 134217728] = "CouldContainTypeVariables"; /* @internal */ ObjectFlags[ObjectFlags["ContainsIntersections"] = 268435456] = "ContainsIntersections"; /* @internal */ ObjectFlags[ObjectFlags["IsNeverIntersectionComputed"] = 268435456] = "IsNeverIntersectionComputed"; /* @internal */ ObjectFlags[ObjectFlags["IsNeverIntersection"] = 536870912] = "IsNeverIntersection"; ObjectFlags[ObjectFlags["ClassOrInterface"] = 3] = "ClassOrInterface"; /* @internal */ ObjectFlags[ObjectFlags["RequiresWidening"] = 1572864] = "RequiresWidening"; /* @internal */ ObjectFlags[ObjectFlags["PropagatingFlags"] = 3670016] = "PropagatingFlags"; })(ObjectFlags = ts.ObjectFlags || (ts.ObjectFlags = {})); /* @internal */ var VarianceFlags; (function (VarianceFlags) { VarianceFlags[VarianceFlags["Invariant"] = 0] = "Invariant"; VarianceFlags[VarianceFlags["Covariant"] = 1] = "Covariant"; VarianceFlags[VarianceFlags["Contravariant"] = 2] = "Contravariant"; VarianceFlags[VarianceFlags["Bivariant"] = 3] = "Bivariant"; VarianceFlags[VarianceFlags["Independent"] = 4] = "Independent"; VarianceFlags[VarianceFlags["VarianceMask"] = 7] = "VarianceMask"; VarianceFlags[VarianceFlags["Unmeasurable"] = 8] = "Unmeasurable"; VarianceFlags[VarianceFlags["Unreliable"] = 16] = "Unreliable"; VarianceFlags[VarianceFlags["AllowsStructuralFallback"] = 24] = "AllowsStructuralFallback"; })(VarianceFlags = ts.VarianceFlags || (ts.VarianceFlags = {})); /* @internal */ var JsxReferenceKind; (function (JsxReferenceKind) { JsxReferenceKind[JsxReferenceKind["Component"] = 0] = "Component"; JsxReferenceKind[JsxReferenceKind["Function"] = 1] = "Function"; JsxReferenceKind[JsxReferenceKind["Mixed"] = 2] = "Mixed"; })(JsxReferenceKind = ts.JsxReferenceKind || (ts.JsxReferenceKind = {})); var SignatureKind; (function (SignatureKind) { SignatureKind[SignatureKind["Call"] = 0] = "Call"; SignatureKind[SignatureKind["Construct"] = 1] = "Construct"; })(SignatureKind = ts.SignatureKind || (ts.SignatureKind = {})); /* @internal */ var SignatureFlags; (function (SignatureFlags) { SignatureFlags[SignatureFlags["None"] = 0] = "None"; SignatureFlags[SignatureFlags["HasRestParameter"] = 1] = "HasRestParameter"; SignatureFlags[SignatureFlags["HasLiteralTypes"] = 2] = "HasLiteralTypes"; SignatureFlags[SignatureFlags["IsInnerCallChain"] = 4] = "IsInnerCallChain"; SignatureFlags[SignatureFlags["IsOuterCallChain"] = 8] = "IsOuterCallChain"; SignatureFlags[SignatureFlags["IsUntypedSignatureInJSFile"] = 16] = "IsUntypedSignatureInJSFile"; // We do not propagate `IsInnerCallChain` to instantiated signatures, as that would result in us // attempting to add `| undefined` on each recursive call to `getReturnTypeOfSignature` when // instantiating the return type. SignatureFlags[SignatureFlags["PropagatingFlags"] = 3] = "PropagatingFlags"; SignatureFlags[SignatureFlags["CallChainFlags"] = 12] = "CallChainFlags"; })(SignatureFlags = ts.SignatureFlags || (ts.SignatureFlags = {})); var IndexKind; (function (IndexKind) { IndexKind[IndexKind["String"] = 0] = "String"; IndexKind[IndexKind["Number"] = 1] = "Number"; })(IndexKind = ts.IndexKind || (ts.IndexKind = {})); /* @internal */ var TypeMapKind; (function (TypeMapKind) { TypeMapKind[TypeMapKind["Simple"] = 0] = "Simple"; TypeMapKind[TypeMapKind["Array"] = 1] = "Array"; TypeMapKind[TypeMapKind["Function"] = 2] = "Function"; TypeMapKind[TypeMapKind["Composite"] = 3] = "Composite"; TypeMapKind[TypeMapKind["Merged"] = 4] = "Merged"; })(TypeMapKind = ts.TypeMapKind || (ts.TypeMapKind = {})); var InferencePriority; (function (InferencePriority) { InferencePriority[InferencePriority["NakedTypeVariable"] = 1] = "NakedTypeVariable"; InferencePriority[InferencePriority["HomomorphicMappedType"] = 2] = "HomomorphicMappedType"; InferencePriority[InferencePriority["PartialHomomorphicMappedType"] = 4] = "PartialHomomorphicMappedType"; InferencePriority[InferencePriority["MappedTypeConstraint"] = 8] = "MappedTypeConstraint"; InferencePriority[InferencePriority["ContravariantConditional"] = 16] = "ContravariantConditional"; InferencePriority[InferencePriority["ReturnType"] = 32] = "ReturnType"; InferencePriority[InferencePriority["LiteralKeyof"] = 64] = "LiteralKeyof"; InferencePriority[InferencePriority["NoConstraints"] = 128] = "NoConstraints"; InferencePriority[InferencePriority["AlwaysStrict"] = 256] = "AlwaysStrict"; InferencePriority[InferencePriority["MaxValue"] = 512] = "MaxValue"; InferencePriority[InferencePriority["PriorityImpliesCombination"] = 104] = "PriorityImpliesCombination"; InferencePriority[InferencePriority["Circularity"] = -1] = "Circularity"; })(InferencePriority = ts.InferencePriority || (ts.InferencePriority = {})); /* @internal */ var InferenceFlags; (function (InferenceFlags) { InferenceFlags[InferenceFlags["None"] = 0] = "None"; InferenceFlags[InferenceFlags["NoDefault"] = 1] = "NoDefault"; InferenceFlags[InferenceFlags["AnyDefault"] = 2] = "AnyDefault"; InferenceFlags[InferenceFlags["SkippedGenericFunction"] = 4] = "SkippedGenericFunction"; })(InferenceFlags = ts.InferenceFlags || (ts.InferenceFlags = {})); /** * Ternary values are defined such that * x & y is False if either x or y is False. * x & y is Maybe if either x or y is Maybe, but neither x or y is False. * x & y is True if both x and y are True. * x | y is False if both x and y are False. * x | y is Maybe if either x or y is Maybe, but neither x or y is True. * x | y is True if either x or y is True. */ /* @internal */ var Ternary; (function (Ternary) { Ternary[Ternary["False"] = 0] = "False"; Ternary[Ternary["Maybe"] = 1] = "Maybe"; Ternary[Ternary["True"] = -1] = "True"; })(Ternary = ts.Ternary || (ts.Ternary = {})); /* @internal */ var AssignmentDeclarationKind; (function (AssignmentDeclarationKind) { AssignmentDeclarationKind[AssignmentDeclarationKind["None"] = 0] = "None"; /// exports.name = expr AssignmentDeclarationKind[AssignmentDeclarationKind["ExportsProperty"] = 1] = "ExportsProperty"; /// module.exports = expr AssignmentDeclarationKind[AssignmentDeclarationKind["ModuleExports"] = 2] = "ModuleExports"; /// className.prototype.name = expr AssignmentDeclarationKind[AssignmentDeclarationKind["PrototypeProperty"] = 3] = "PrototypeProperty"; /// this.name = expr AssignmentDeclarationKind[AssignmentDeclarationKind["ThisProperty"] = 4] = "ThisProperty"; // F.name = expr AssignmentDeclarationKind[AssignmentDeclarationKind["Property"] = 5] = "Property"; // F.prototype = { ... } AssignmentDeclarationKind[AssignmentDeclarationKind["Prototype"] = 6] = "Prototype"; // Object.defineProperty(x, 'name', { value: any, writable?: boolean (false by default) }); // Object.defineProperty(x, 'name', { get: Function, set: Function }); // Object.defineProperty(x, 'name', { get: Function }); // Object.defineProperty(x, 'name', { set: Function }); AssignmentDeclarationKind[AssignmentDeclarationKind["ObjectDefinePropertyValue"] = 7] = "ObjectDefinePropertyValue"; // Object.defineProperty(exports || module.exports, 'name', ...); AssignmentDeclarationKind[AssignmentDeclarationKind["ObjectDefinePropertyExports"] = 8] = "ObjectDefinePropertyExports"; // Object.defineProperty(Foo.prototype, 'name', ...); AssignmentDeclarationKind[AssignmentDeclarationKind["ObjectDefinePrototypeProperty"] = 9] = "ObjectDefinePrototypeProperty"; })(AssignmentDeclarationKind = ts.AssignmentDeclarationKind || (ts.AssignmentDeclarationKind = {})); var DiagnosticCategory; (function (DiagnosticCategory) { DiagnosticCategory[DiagnosticCategory["Warning"] = 0] = "Warning"; DiagnosticCategory[DiagnosticCategory["Error"] = 1] = "Error"; DiagnosticCategory[DiagnosticCategory["Suggestion"] = 2] = "Suggestion"; DiagnosticCategory[DiagnosticCategory["Message"] = 3] = "Message"; })(DiagnosticCategory = ts.DiagnosticCategory || (ts.DiagnosticCategory = {})); /* @internal */ function diagnosticCategoryName(d, lowerCase) { if (lowerCase === void 0) { lowerCase = true; } var name = DiagnosticCategory[d.category]; return lowerCase ? name.toLowerCase() : name; } ts.diagnosticCategoryName = diagnosticCategoryName; var ModuleResolutionKind; (function (ModuleResolutionKind) { ModuleResolutionKind[ModuleResolutionKind["Classic"] = 1] = "Classic"; ModuleResolutionKind[ModuleResolutionKind["NodeJs"] = 2] = "NodeJs"; })(ModuleResolutionKind = ts.ModuleResolutionKind || (ts.ModuleResolutionKind = {})); var WatchFileKind; (function (WatchFileKind) { WatchFileKind[WatchFileKind["FixedPollingInterval"] = 0] = "FixedPollingInterval"; WatchFileKind[WatchFileKind["PriorityPollingInterval"] = 1] = "PriorityPollingInterval"; WatchFileKind[WatchFileKind["DynamicPriorityPolling"] = 2] = "DynamicPriorityPolling"; WatchFileKind[WatchFileKind["UseFsEvents"] = 3] = "UseFsEvents"; WatchFileKind[WatchFileKind["UseFsEventsOnParentDirectory"] = 4] = "UseFsEventsOnParentDirectory"; })(WatchFileKind = ts.WatchFileKind || (ts.WatchFileKind = {})); var WatchDirectoryKind; (function (WatchDirectoryKind) { WatchDirectoryKind[WatchDirectoryKind["UseFsEvents"] = 0] = "UseFsEvents"; WatchDirectoryKind[WatchDirectoryKind["FixedPollingInterval"] = 1] = "FixedPollingInterval"; WatchDirectoryKind[WatchDirectoryKind["DynamicPriorityPolling"] = 2] = "DynamicPriorityPolling"; })(WatchDirectoryKind = ts.WatchDirectoryKind || (ts.WatchDirectoryKind = {})); var PollingWatchKind; (function (PollingWatchKind) { PollingWatchKind[PollingWatchKind["FixedInterval"] = 0] = "FixedInterval"; PollingWatchKind[PollingWatchKind["PriorityInterval"] = 1] = "PriorityInterval"; PollingWatchKind[PollingWatchKind["DynamicPriority"] = 2] = "DynamicPriority"; })(PollingWatchKind = ts.PollingWatchKind || (ts.PollingWatchKind = {})); var ModuleKind; (function (ModuleKind) { ModuleKind[ModuleKind["None"] = 0] = "None"; ModuleKind[ModuleKind["CommonJS"] = 1] = "CommonJS"; ModuleKind[ModuleKind["AMD"] = 2] = "AMD"; ModuleKind[ModuleKind["UMD"] = 3] = "UMD"; ModuleKind[ModuleKind["System"] = 4] = "System"; // NOTE: ES module kinds should be contiguous to more easily check whether a module kind is *any* ES module kind. // Non-ES module kinds should not come between ES2015 (the earliest ES module kind) and ESNext (the last ES // module kind). ModuleKind[ModuleKind["ES2015"] = 5] = "ES2015"; ModuleKind[ModuleKind["ES2020"] = 6] = "ES2020"; ModuleKind[ModuleKind["ESNext"] = 99] = "ESNext"; })(ModuleKind = ts.ModuleKind || (ts.ModuleKind = {})); var JsxEmit; (function (JsxEmit) { JsxEmit[JsxEmit["None"] = 0] = "None"; JsxEmit[JsxEmit["Preserve"] = 1] = "Preserve"; JsxEmit[JsxEmit["React"] = 2] = "React"; JsxEmit[JsxEmit["ReactNative"] = 3] = "ReactNative"; })(JsxEmit = ts.JsxEmit || (ts.JsxEmit = {})); var ImportsNotUsedAsValues; (function (ImportsNotUsedAsValues) { ImportsNotUsedAsValues[ImportsNotUsedAsValues["Remove"] = 0] = "Remove"; ImportsNotUsedAsValues[ImportsNotUsedAsValues["Preserve"] = 1] = "Preserve"; ImportsNotUsedAsValues[ImportsNotUsedAsValues["Error"] = 2] = "Error"; })(ImportsNotUsedAsValues = ts.ImportsNotUsedAsValues || (ts.ImportsNotUsedAsValues = {})); var NewLineKind; (function (NewLineKind) { NewLineKind[NewLineKind["CarriageReturnLineFeed"] = 0] = "CarriageReturnLineFeed"; NewLineKind[NewLineKind["LineFeed"] = 1] = "LineFeed"; })(NewLineKind = ts.NewLineKind || (ts.NewLineKind = {})); var ScriptKind; (function (ScriptKind) { ScriptKind[ScriptKind["Unknown"] = 0] = "Unknown"; ScriptKind[ScriptKind["JS"] = 1] = "JS"; ScriptKind[ScriptKind["JSX"] = 2] = "JSX"; ScriptKind[ScriptKind["TS"] = 3] = "TS"; ScriptKind[ScriptKind["TSX"] = 4] = "TSX"; ScriptKind[ScriptKind["External"] = 5] = "External"; ScriptKind[ScriptKind["JSON"] = 6] = "JSON"; /** * Used on extensions that doesn't define the ScriptKind but the content defines it. * Deferred extensions are going to be included in all project contexts. */ ScriptKind[ScriptKind["Deferred"] = 7] = "Deferred"; })(ScriptKind = ts.ScriptKind || (ts.ScriptKind = {})); var ScriptTarget; (function (ScriptTarget) { ScriptTarget[ScriptTarget["ES3"] = 0] = "ES3"; ScriptTarget[ScriptTarget["ES5"] = 1] = "ES5"; ScriptTarget[ScriptTarget["ES2015"] = 2] = "ES2015"; ScriptTarget[ScriptTarget["ES2016"] = 3] = "ES2016"; ScriptTarget[ScriptTarget["ES2017"] = 4] = "ES2017"; ScriptTarget[ScriptTarget["ES2018"] = 5] = "ES2018"; ScriptTarget[ScriptTarget["ES2019"] = 6] = "ES2019"; ScriptTarget[ScriptTarget["ES2020"] = 7] = "ES2020"; ScriptTarget[ScriptTarget["ESNext"] = 99] = "ESNext"; ScriptTarget[ScriptTarget["JSON"] = 100] = "JSON"; ScriptTarget[ScriptTarget["Latest"] = 99] = "Latest"; })(ScriptTarget = ts.ScriptTarget || (ts.ScriptTarget = {})); var LanguageVariant; (function (LanguageVariant) { LanguageVariant[LanguageVariant["Standard"] = 0] = "Standard"; LanguageVariant[LanguageVariant["JSX"] = 1] = "JSX"; })(LanguageVariant = ts.LanguageVariant || (ts.LanguageVariant = {})); var WatchDirectoryFlags; (function (WatchDirectoryFlags) { WatchDirectoryFlags[WatchDirectoryFlags["None"] = 0] = "None"; WatchDirectoryFlags[WatchDirectoryFlags["Recursive"] = 1] = "Recursive"; })(WatchDirectoryFlags = ts.WatchDirectoryFlags || (ts.WatchDirectoryFlags = {})); /* @internal */ var CharacterCodes; (function (CharacterCodes) { CharacterCodes[CharacterCodes["nullCharacter"] = 0] = "nullCharacter"; CharacterCodes[CharacterCodes["maxAsciiCharacter"] = 127] = "maxAsciiCharacter"; CharacterCodes[CharacterCodes["lineFeed"] = 10] = "lineFeed"; CharacterCodes[CharacterCodes["carriageReturn"] = 13] = "carriageReturn"; CharacterCodes[CharacterCodes["lineSeparator"] = 8232] = "lineSeparator"; CharacterCodes[CharacterCodes["paragraphSeparator"] = 8233] = "paragraphSeparator"; CharacterCodes[CharacterCodes["nextLine"] = 133] = "nextLine"; // Unicode 3.0 space characters CharacterCodes[CharacterCodes["space"] = 32] = "space"; CharacterCodes[CharacterCodes["nonBreakingSpace"] = 160] = "nonBreakingSpace"; CharacterCodes[CharacterCodes["enQuad"] = 8192] = "enQuad"; CharacterCodes[CharacterCodes["emQuad"] = 8193] = "emQuad"; CharacterCodes[CharacterCodes["enSpace"] = 8194] = "enSpace"; CharacterCodes[CharacterCodes["emSpace"] = 8195] = "emSpace"; CharacterCodes[CharacterCodes["threePerEmSpace"] = 8196] = "threePerEmSpace"; CharacterCodes[CharacterCodes["fourPerEmSpace"] = 8197] = "fourPerEmSpace"; CharacterCodes[CharacterCodes["sixPerEmSpace"] = 8198] = "sixPerEmSpace"; CharacterCodes[CharacterCodes["figureSpace"] = 8199] = "figureSpace"; CharacterCodes[CharacterCodes["punctuationSpace"] = 8200] = "punctuationSpace"; CharacterCodes[CharacterCodes["thinSpace"] = 8201] = "thinSpace"; CharacterCodes[CharacterCodes["hairSpace"] = 8202] = "hairSpace"; CharacterCodes[CharacterCodes["zeroWidthSpace"] = 8203] = "zeroWidthSpace"; CharacterCodes[CharacterCodes["narrowNoBreakSpace"] = 8239] = "narrowNoBreakSpace"; CharacterCodes[CharacterCodes["ideographicSpace"] = 12288] = "ideographicSpace"; CharacterCodes[CharacterCodes["mathematicalSpace"] = 8287] = "mathematicalSpace"; CharacterCodes[CharacterCodes["ogham"] = 5760] = "ogham"; CharacterCodes[CharacterCodes["_"] = 95] = "_"; CharacterCodes[CharacterCodes["$"] = 36] = "$"; CharacterCodes[CharacterCodes["_0"] = 48] = "_0"; CharacterCodes[CharacterCodes["_1"] = 49] = "_1"; CharacterCodes[CharacterCodes["_2"] = 50] = "_2"; CharacterCodes[CharacterCodes["_3"] = 51] = "_3"; CharacterCodes[CharacterCodes["_4"] = 52] = "_4"; CharacterCodes[CharacterCodes["_5"] = 53] = "_5"; CharacterCodes[CharacterCodes["_6"] = 54] = "_6"; CharacterCodes[CharacterCodes["_7"] = 55] = "_7"; CharacterCodes[CharacterCodes["_8"] = 56] = "_8"; CharacterCodes[CharacterCodes["_9"] = 57] = "_9"; CharacterCodes[CharacterCodes["a"] = 97] = "a"; CharacterCodes[CharacterCodes["b"] = 98] = "b"; CharacterCodes[CharacterCodes["c"] = 99] = "c"; CharacterCodes[CharacterCodes["d"] = 100] = "d"; CharacterCodes[CharacterCodes["e"] = 101] = "e"; CharacterCodes[CharacterCodes["f"] = 102] = "f"; CharacterCodes[CharacterCodes["g"] = 103] = "g"; CharacterCodes[CharacterCodes["h"] = 104] = "h"; CharacterCodes[CharacterCodes["i"] = 105] = "i"; CharacterCodes[CharacterCodes["j"] = 106] = "j"; CharacterCodes[CharacterCodes["k"] = 107] = "k"; CharacterCodes[CharacterCodes["l"] = 108] = "l"; CharacterCodes[CharacterCodes["m"] = 109] = "m"; CharacterCodes[CharacterCodes["n"] = 110] = "n"; CharacterCodes[CharacterCodes["o"] = 111] = "o"; CharacterCodes[CharacterCodes["p"] = 112] = "p"; CharacterCodes[CharacterCodes["q"] = 113] = "q"; CharacterCodes[CharacterCodes["r"] = 114] = "r"; CharacterCodes[CharacterCodes["s"] = 115] = "s"; CharacterCodes[CharacterCodes["t"] = 116] = "t"; CharacterCodes[CharacterCodes["u"] = 117] = "u"; CharacterCodes[CharacterCodes["v"] = 118] = "v"; CharacterCodes[CharacterCodes["w"] = 119] = "w"; CharacterCodes[CharacterCodes["x"] = 120] = "x"; CharacterCodes[CharacterCodes["y"] = 121] = "y"; CharacterCodes[CharacterCodes["z"] = 122] = "z"; CharacterCodes[CharacterCodes["A"] = 65] = "A"; CharacterCodes[CharacterCodes["B"] = 66] = "B"; CharacterCodes[CharacterCodes["C"] = 67] = "C"; CharacterCodes[CharacterCodes["D"] = 68] = "D"; CharacterCodes[CharacterCodes["E"] = 69] = "E"; CharacterCodes[CharacterCodes["F"] = 70] = "F"; CharacterCodes[CharacterCodes["G"] = 71] = "G"; CharacterCodes[CharacterCodes["H"] = 72] = "H"; CharacterCodes[CharacterCodes["I"] = 73] = "I"; CharacterCodes[CharacterCodes["J"] = 74] = "J"; CharacterCodes[CharacterCodes["K"] = 75] = "K"; CharacterCodes[CharacterCodes["L"] = 76] = "L"; CharacterCodes[CharacterCodes["M"] = 77] = "M"; CharacterCodes[CharacterCodes["N"] = 78] = "N"; CharacterCodes[CharacterCodes["O"] = 79] = "O"; CharacterCodes[CharacterCodes["P"] = 80] = "P"; CharacterCodes[CharacterCodes["Q"] = 81] = "Q"; CharacterCodes[CharacterCodes["R"] = 82] = "R"; CharacterCodes[CharacterCodes["S"] = 83] = "S"; CharacterCodes[CharacterCodes["T"] = 84] = "T"; CharacterCodes[CharacterCodes["U"] = 85] = "U"; CharacterCodes[CharacterCodes["V"] = 86] = "V"; CharacterCodes[CharacterCodes["W"] = 87] = "W"; CharacterCodes[CharacterCodes["X"] = 88] = "X"; CharacterCodes[CharacterCodes["Y"] = 89] = "Y"; CharacterCodes[CharacterCodes["Z"] = 90] = "Z"; CharacterCodes[CharacterCodes["ampersand"] = 38] = "ampersand"; CharacterCodes[CharacterCodes["asterisk"] = 42] = "asterisk"; CharacterCodes[CharacterCodes["at"] = 64] = "at"; CharacterCodes[CharacterCodes["backslash"] = 92] = "backslash"; CharacterCodes[CharacterCodes["backtick"] = 96] = "backtick"; CharacterCodes[CharacterCodes["bar"] = 124] = "bar"; CharacterCodes[CharacterCodes["caret"] = 94] = "caret"; CharacterCodes[CharacterCodes["closeBrace"] = 125] = "closeBrace"; CharacterCodes[CharacterCodes["closeBracket"] = 93] = "closeBracket"; CharacterCodes[CharacterCodes["closeParen"] = 41] = "closeParen"; CharacterCodes[CharacterCodes["colon"] = 58] = "colon"; CharacterCodes[CharacterCodes["comma"] = 44] = "comma"; CharacterCodes[CharacterCodes["dot"] = 46] = "dot"; CharacterCodes[CharacterCodes["doubleQuote"] = 34] = "doubleQuote"; CharacterCodes[CharacterCodes["equals"] = 61] = "equals"; CharacterCodes[CharacterCodes["exclamation"] = 33] = "exclamation"; CharacterCodes[CharacterCodes["greaterThan"] = 62] = "greaterThan"; CharacterCodes[CharacterCodes["hash"] = 35] = "hash"; CharacterCodes[CharacterCodes["lessThan"] = 60] = "lessThan"; CharacterCodes[CharacterCodes["minus"] = 45] = "minus"; CharacterCodes[CharacterCodes["openBrace"] = 123] = "openBrace"; CharacterCodes[CharacterCodes["openBracket"] = 91] = "openBracket"; CharacterCodes[CharacterCodes["openParen"] = 40] = "openParen"; CharacterCodes[CharacterCodes["percent"] = 37] = "percent"; CharacterCodes[CharacterCodes["plus"] = 43] = "plus"; CharacterCodes[CharacterCodes["question"] = 63] = "question"; CharacterCodes[CharacterCodes["semicolon"] = 59] = "semicolon"; CharacterCodes[CharacterCodes["singleQuote"] = 39] = "singleQuote"; CharacterCodes[CharacterCodes["slash"] = 47] = "slash"; CharacterCodes[CharacterCodes["tilde"] = 126] = "tilde"; CharacterCodes[CharacterCodes["backspace"] = 8] = "backspace"; CharacterCodes[CharacterCodes["formFeed"] = 12] = "formFeed"; CharacterCodes[CharacterCodes["byteOrderMark"] = 65279] = "byteOrderMark"; CharacterCodes[CharacterCodes["tab"] = 9] = "tab"; CharacterCodes[CharacterCodes["verticalTab"] = 11] = "verticalTab"; })(CharacterCodes = ts.CharacterCodes || (ts.CharacterCodes = {})); var Extension; (function (Extension) { Extension["Ts"] = ".ts"; Extension["Tsx"] = ".tsx"; Extension["Dts"] = ".d.ts"; Extension["Js"] = ".js"; Extension["Jsx"] = ".jsx"; Extension["Json"] = ".json"; Extension["TsBuildInfo"] = ".tsbuildinfo"; })(Extension = ts.Extension || (ts.Extension = {})); /* @internal */ var TransformFlags; (function (TransformFlags) { TransformFlags[TransformFlags["None"] = 0] = "None"; // Facts // - Flags used to indicate that a node or subtree contains syntax that requires transformation. TransformFlags[TransformFlags["ContainsTypeScript"] = 1] = "ContainsTypeScript"; TransformFlags[TransformFlags["ContainsJsx"] = 2] = "ContainsJsx"; TransformFlags[TransformFlags["ContainsESNext"] = 4] = "ContainsESNext"; TransformFlags[TransformFlags["ContainsES2020"] = 8] = "ContainsES2020"; TransformFlags[TransformFlags["ContainsES2019"] = 16] = "ContainsES2019"; TransformFlags[TransformFlags["ContainsES2018"] = 32] = "ContainsES2018"; TransformFlags[TransformFlags["ContainsES2017"] = 64] = "ContainsES2017"; TransformFlags[TransformFlags["ContainsES2016"] = 128] = "ContainsES2016"; TransformFlags[TransformFlags["ContainsES2015"] = 256] = "ContainsES2015"; TransformFlags[TransformFlags["ContainsGenerator"] = 512] = "ContainsGenerator"; TransformFlags[TransformFlags["ContainsDestructuringAssignment"] = 1024] = "ContainsDestructuringAssignment"; // Markers // - Flags used to indicate that a subtree contains a specific transformation. TransformFlags[TransformFlags["ContainsTypeScriptClassSyntax"] = 2048] = "ContainsTypeScriptClassSyntax"; TransformFlags[TransformFlags["ContainsLexicalThis"] = 4096] = "ContainsLexicalThis"; TransformFlags[TransformFlags["ContainsRestOrSpread"] = 8192] = "ContainsRestOrSpread"; TransformFlags[TransformFlags["ContainsObjectRestOrSpread"] = 16384] = "ContainsObjectRestOrSpread"; TransformFlags[TransformFlags["ContainsComputedPropertyName"] = 32768] = "ContainsComputedPropertyName"; TransformFlags[TransformFlags["ContainsBlockScopedBinding"] = 65536] = "ContainsBlockScopedBinding"; TransformFlags[TransformFlags["ContainsBindingPattern"] = 131072] = "ContainsBindingPattern"; TransformFlags[TransformFlags["ContainsYield"] = 262144] = "ContainsYield"; TransformFlags[TransformFlags["ContainsAwait"] = 524288] = "ContainsAwait"; TransformFlags[TransformFlags["ContainsHoistedDeclarationOrCompletion"] = 1048576] = "ContainsHoistedDeclarationOrCompletion"; TransformFlags[TransformFlags["ContainsDynamicImport"] = 2097152] = "ContainsDynamicImport"; TransformFlags[TransformFlags["ContainsClassFields"] = 4194304] = "ContainsClassFields"; // Please leave this as 1 << 29. // It is the maximum bit we can set before we outgrow the size of a v8 small integer (SMI) on an x86 system. // It is a good reminder of how much room we have left TransformFlags[TransformFlags["HasComputedFlags"] = 536870912] = "HasComputedFlags"; // Assertions // - Bitmasks that are used to assert facts about the syntax of a node and its subtree. TransformFlags[TransformFlags["AssertTypeScript"] = 1] = "AssertTypeScript"; TransformFlags[TransformFlags["AssertJsx"] = 2] = "AssertJsx"; TransformFlags[TransformFlags["AssertESNext"] = 4] = "AssertESNext"; TransformFlags[TransformFlags["AssertES2020"] = 8] = "AssertES2020"; TransformFlags[TransformFlags["AssertES2019"] = 16] = "AssertES2019"; TransformFlags[TransformFlags["AssertES2018"] = 32] = "AssertES2018"; TransformFlags[TransformFlags["AssertES2017"] = 64] = "AssertES2017"; TransformFlags[TransformFlags["AssertES2016"] = 128] = "AssertES2016"; TransformFlags[TransformFlags["AssertES2015"] = 256] = "AssertES2015"; TransformFlags[TransformFlags["AssertGenerator"] = 512] = "AssertGenerator"; TransformFlags[TransformFlags["AssertDestructuringAssignment"] = 1024] = "AssertDestructuringAssignment"; // Scope Exclusions // - Bitmasks that exclude flags from propagating out of a specific context // into the subtree flags of their container. TransformFlags[TransformFlags["OuterExpressionExcludes"] = 536870912] = "OuterExpressionExcludes"; TransformFlags[TransformFlags["PropertyAccessExcludes"] = 536870912] = "PropertyAccessExcludes"; TransformFlags[TransformFlags["NodeExcludes"] = 536870912] = "NodeExcludes"; TransformFlags[TransformFlags["ArrowFunctionExcludes"] = 538920960] = "ArrowFunctionExcludes"; TransformFlags[TransformFlags["FunctionExcludes"] = 538925056] = "FunctionExcludes"; TransformFlags[TransformFlags["ConstructorExcludes"] = 538923008] = "ConstructorExcludes"; TransformFlags[TransformFlags["MethodOrAccessorExcludes"] = 538923008] = "MethodOrAccessorExcludes"; TransformFlags[TransformFlags["PropertyExcludes"] = 536875008] = "PropertyExcludes"; TransformFlags[TransformFlags["ClassExcludes"] = 536905728] = "ClassExcludes"; TransformFlags[TransformFlags["ModuleExcludes"] = 537991168] = "ModuleExcludes"; TransformFlags[TransformFlags["TypeExcludes"] = -2] = "TypeExcludes"; TransformFlags[TransformFlags["ObjectLiteralExcludes"] = 536922112] = "ObjectLiteralExcludes"; TransformFlags[TransformFlags["ArrayLiteralOrCallOrNewExcludes"] = 536879104] = "ArrayLiteralOrCallOrNewExcludes"; TransformFlags[TransformFlags["VariableDeclarationListExcludes"] = 537018368] = "VariableDeclarationListExcludes"; TransformFlags[TransformFlags["ParameterExcludes"] = 536870912] = "ParameterExcludes"; TransformFlags[TransformFlags["CatchClauseExcludes"] = 536887296] = "CatchClauseExcludes"; TransformFlags[TransformFlags["BindingPatternExcludes"] = 536879104] = "BindingPatternExcludes"; // Propagating flags // - Bitmasks for flags that should propagate from a child TransformFlags[TransformFlags["PropertyNamePropagatingFlags"] = 4096] = "PropertyNamePropagatingFlags"; // Masks // - Additional bitmasks })(TransformFlags = ts.TransformFlags || (ts.TransformFlags = {})); var EmitFlags; (function (EmitFlags) { EmitFlags[EmitFlags["None"] = 0] = "None"; EmitFlags[EmitFlags["SingleLine"] = 1] = "SingleLine"; EmitFlags[EmitFlags["AdviseOnEmitNode"] = 2] = "AdviseOnEmitNode"; EmitFlags[EmitFlags["NoSubstitution"] = 4] = "NoSubstitution"; EmitFlags[EmitFlags["CapturesThis"] = 8] = "CapturesThis"; EmitFlags[EmitFlags["NoLeadingSourceMap"] = 16] = "NoLeadingSourceMap"; EmitFlags[EmitFlags["NoTrailingSourceMap"] = 32] = "NoTrailingSourceMap"; EmitFlags[EmitFlags["NoSourceMap"] = 48] = "NoSourceMap"; EmitFlags[EmitFlags["NoNestedSourceMaps"] = 64] = "NoNestedSourceMaps"; EmitFlags[EmitFlags["NoTokenLeadingSourceMaps"] = 128] = "NoTokenLeadingSourceMaps"; EmitFlags[EmitFlags["NoTokenTrailingSourceMaps"] = 256] = "NoTokenTrailingSourceMaps"; EmitFlags[EmitFlags["NoTokenSourceMaps"] = 384] = "NoTokenSourceMaps"; EmitFlags[EmitFlags["NoLeadingComments"] = 512] = "NoLeadingComments"; EmitFlags[EmitFlags["NoTrailingComments"] = 1024] = "NoTrailingComments"; EmitFlags[EmitFlags["NoComments"] = 1536] = "NoComments"; EmitFlags[EmitFlags["NoNestedComments"] = 2048] = "NoNestedComments"; EmitFlags[EmitFlags["HelperName"] = 4096] = "HelperName"; EmitFlags[EmitFlags["ExportName"] = 8192] = "ExportName"; EmitFlags[EmitFlags["LocalName"] = 16384] = "LocalName"; EmitFlags[EmitFlags["InternalName"] = 32768] = "InternalName"; EmitFlags[EmitFlags["Indented"] = 65536] = "Indented"; EmitFlags[EmitFlags["NoIndentation"] = 131072] = "NoIndentation"; EmitFlags[EmitFlags["AsyncFunctionBody"] = 262144] = "AsyncFunctionBody"; EmitFlags[EmitFlags["ReuseTempVariableScope"] = 524288] = "ReuseTempVariableScope"; EmitFlags[EmitFlags["CustomPrologue"] = 1048576] = "CustomPrologue"; EmitFlags[EmitFlags["NoHoisting"] = 2097152] = "NoHoisting"; EmitFlags[EmitFlags["HasEndOfDeclarationMarker"] = 4194304] = "HasEndOfDeclarationMarker"; EmitFlags[EmitFlags["Iterator"] = 8388608] = "Iterator"; EmitFlags[EmitFlags["NoAsciiEscaping"] = 16777216] = "NoAsciiEscaping"; /*@internal*/ EmitFlags[EmitFlags["TypeScriptClassWrapper"] = 33554432] = "TypeScriptClassWrapper"; /*@internal*/ EmitFlags[EmitFlags["NeverApplyImportHelper"] = 67108864] = "NeverApplyImportHelper"; /*@internal*/ EmitFlags[EmitFlags["IgnoreSourceNewlines"] = 134217728] = "IgnoreSourceNewlines"; })(EmitFlags = ts.EmitFlags || (ts.EmitFlags = {})); /** * Used by the checker, this enum keeps track of external emit helpers that should be type * checked. */ /* @internal */ var ExternalEmitHelpers; (function (ExternalEmitHelpers) { ExternalEmitHelpers[ExternalEmitHelpers["Extends"] = 1] = "Extends"; ExternalEmitHelpers[ExternalEmitHelpers["Assign"] = 2] = "Assign"; ExternalEmitHelpers[ExternalEmitHelpers["Rest"] = 4] = "Rest"; ExternalEmitHelpers[ExternalEmitHelpers["Decorate"] = 8] = "Decorate"; ExternalEmitHelpers[ExternalEmitHelpers["Metadata"] = 16] = "Metadata"; ExternalEmitHelpers[ExternalEmitHelpers["Param"] = 32] = "Param"; ExternalEmitHelpers[ExternalEmitHelpers["Awaiter"] = 64] = "Awaiter"; ExternalEmitHelpers[ExternalEmitHelpers["Generator"] = 128] = "Generator"; ExternalEmitHelpers[ExternalEmitHelpers["Values"] = 256] = "Values"; ExternalEmitHelpers[ExternalEmitHelpers["Read"] = 512] = "Read"; ExternalEmitHelpers[ExternalEmitHelpers["Spread"] = 1024] = "Spread"; ExternalEmitHelpers[ExternalEmitHelpers["SpreadArrays"] = 2048] = "SpreadArrays"; ExternalEmitHelpers[ExternalEmitHelpers["Await"] = 4096] = "Await"; ExternalEmitHelpers[ExternalEmitHelpers["AsyncGenerator"] = 8192] = "AsyncGenerator"; ExternalEmitHelpers[ExternalEmitHelpers["AsyncDelegator"] = 16384] = "AsyncDelegator"; ExternalEmitHelpers[ExternalEmitHelpers["AsyncValues"] = 32768] = "AsyncValues"; ExternalEmitHelpers[ExternalEmitHelpers["ExportStar"] = 65536] = "ExportStar"; ExternalEmitHelpers[ExternalEmitHelpers["MakeTemplateObject"] = 131072] = "MakeTemplateObject"; ExternalEmitHelpers[ExternalEmitHelpers["ClassPrivateFieldGet"] = 262144] = "ClassPrivateFieldGet"; ExternalEmitHelpers[ExternalEmitHelpers["ClassPrivateFieldSet"] = 524288] = "ClassPrivateFieldSet"; ExternalEmitHelpers[ExternalEmitHelpers["CreateBinding"] = 1048576] = "CreateBinding"; ExternalEmitHelpers[ExternalEmitHelpers["FirstEmitHelper"] = 1] = "FirstEmitHelper"; ExternalEmitHelpers[ExternalEmitHelpers["LastEmitHelper"] = 1048576] = "LastEmitHelper"; // Helpers included by ES2015 for..of ExternalEmitHelpers[ExternalEmitHelpers["ForOfIncludes"] = 256] = "ForOfIncludes"; // Helpers included by ES2017 for..await..of ExternalEmitHelpers[ExternalEmitHelpers["ForAwaitOfIncludes"] = 32768] = "ForAwaitOfIncludes"; // Helpers included by ES2017 async generators ExternalEmitHelpers[ExternalEmitHelpers["AsyncGeneratorIncludes"] = 12288] = "AsyncGeneratorIncludes"; // Helpers included by yield* in ES2017 async generators ExternalEmitHelpers[ExternalEmitHelpers["AsyncDelegatorIncludes"] = 53248] = "AsyncDelegatorIncludes"; // Helpers included by ES2015 spread ExternalEmitHelpers[ExternalEmitHelpers["SpreadIncludes"] = 1536] = "SpreadIncludes"; })(ExternalEmitHelpers = ts.ExternalEmitHelpers || (ts.ExternalEmitHelpers = {})); var EmitHint; (function (EmitHint) { EmitHint[EmitHint["SourceFile"] = 0] = "SourceFile"; EmitHint[EmitHint["Expression"] = 1] = "Expression"; EmitHint[EmitHint["IdentifierName"] = 2] = "IdentifierName"; EmitHint[EmitHint["MappedTypeParameter"] = 3] = "MappedTypeParameter"; EmitHint[EmitHint["Unspecified"] = 4] = "Unspecified"; EmitHint[EmitHint["EmbeddedStatement"] = 5] = "EmbeddedStatement"; EmitHint[EmitHint["JsxAttributeValue"] = 6] = "JsxAttributeValue"; })(EmitHint = ts.EmitHint || (ts.EmitHint = {})); /* @internal */ var LexicalEnvironmentFlags; (function (LexicalEnvironmentFlags) { LexicalEnvironmentFlags[LexicalEnvironmentFlags["None"] = 0] = "None"; LexicalEnvironmentFlags[LexicalEnvironmentFlags["InParameters"] = 1] = "InParameters"; LexicalEnvironmentFlags[LexicalEnvironmentFlags["VariablesHoistedInParameters"] = 2] = "VariablesHoistedInParameters"; // a temp variable was hoisted while visiting a parameter list })(LexicalEnvironmentFlags = ts.LexicalEnvironmentFlags || (ts.LexicalEnvironmentFlags = {})); /*@internal*/ var BundleFileSectionKind; (function (BundleFileSectionKind) { BundleFileSectionKind["Prologue"] = "prologue"; BundleFileSectionKind["EmitHelpers"] = "emitHelpers"; BundleFileSectionKind["NoDefaultLib"] = "no-default-lib"; BundleFileSectionKind["Reference"] = "reference"; BundleFileSectionKind["Type"] = "type"; BundleFileSectionKind["Lib"] = "lib"; BundleFileSectionKind["Prepend"] = "prepend"; BundleFileSectionKind["Text"] = "text"; BundleFileSectionKind["Internal"] = "internal"; // comments? })(BundleFileSectionKind = ts.BundleFileSectionKind || (ts.BundleFileSectionKind = {})); var ListFormat; (function (ListFormat) { ListFormat[ListFormat["None"] = 0] = "None"; // Line separators ListFormat[ListFormat["SingleLine"] = 0] = "SingleLine"; ListFormat[ListFormat["MultiLine"] = 1] = "MultiLine"; ListFormat[ListFormat["PreserveLines"] = 2] = "PreserveLines"; ListFormat[ListFormat["LinesMask"] = 3] = "LinesMask"; // Delimiters ListFormat[ListFormat["NotDelimited"] = 0] = "NotDelimited"; ListFormat[ListFormat["BarDelimited"] = 4] = "BarDelimited"; ListFormat[ListFormat["AmpersandDelimited"] = 8] = "AmpersandDelimited"; ListFormat[ListFormat["CommaDelimited"] = 16] = "CommaDelimited"; ListFormat[ListFormat["AsteriskDelimited"] = 32] = "AsteriskDelimited"; ListFormat[ListFormat["DelimitersMask"] = 60] = "DelimitersMask"; ListFormat[ListFormat["AllowTrailingComma"] = 64] = "AllowTrailingComma"; // Whitespace ListFormat[ListFormat["Indented"] = 128] = "Indented"; ListFormat[ListFormat["SpaceBetweenBraces"] = 256] = "SpaceBetweenBraces"; ListFormat[ListFormat["SpaceBetweenSiblings"] = 512] = "SpaceBetweenSiblings"; // Brackets/Braces ListFormat[ListFormat["Braces"] = 1024] = "Braces"; ListFormat[ListFormat["Parenthesis"] = 2048] = "Parenthesis"; ListFormat[ListFormat["AngleBrackets"] = 4096] = "AngleBrackets"; ListFormat[ListFormat["SquareBrackets"] = 8192] = "SquareBrackets"; ListFormat[ListFormat["BracketsMask"] = 15360] = "BracketsMask"; ListFormat[ListFormat["OptionalIfUndefined"] = 16384] = "OptionalIfUndefined"; ListFormat[ListFormat["OptionalIfEmpty"] = 32768] = "OptionalIfEmpty"; ListFormat[ListFormat["Optional"] = 49152] = "Optional"; // Other ListFormat[ListFormat["PreferNewLine"] = 65536] = "PreferNewLine"; ListFormat[ListFormat["NoTrailingNewLine"] = 131072] = "NoTrailingNewLine"; ListFormat[ListFormat["NoInterveningComments"] = 262144] = "NoInterveningComments"; ListFormat[ListFormat["NoSpaceIfEmpty"] = 524288] = "NoSpaceIfEmpty"; ListFormat[ListFormat["SingleElement"] = 1048576] = "SingleElement"; ListFormat[ListFormat["SpaceAfterList"] = 2097152] = "SpaceAfterList"; // Precomputed Formats ListFormat[ListFormat["Modifiers"] = 262656] = "Modifiers"; ListFormat[ListFormat["HeritageClauses"] = 512] = "HeritageClauses"; ListFormat[ListFormat["SingleLineTypeLiteralMembers"] = 768] = "SingleLineTypeLiteralMembers"; ListFormat[ListFormat["MultiLineTypeLiteralMembers"] = 32897] = "MultiLineTypeLiteralMembers"; ListFormat[ListFormat["TupleTypeElements"] = 528] = "TupleTypeElements"; ListFormat[ListFormat["UnionTypeConstituents"] = 516] = "UnionTypeConstituents"; ListFormat[ListFormat["IntersectionTypeConstituents"] = 520] = "IntersectionTypeConstituents"; ListFormat[ListFormat["ObjectBindingPatternElements"] = 525136] = "ObjectBindingPatternElements"; ListFormat[ListFormat["ArrayBindingPatternElements"] = 524880] = "ArrayBindingPatternElements"; ListFormat[ListFormat["ObjectLiteralExpressionProperties"] = 526226] = "ObjectLiteralExpressionProperties"; ListFormat[ListFormat["ArrayLiteralExpressionElements"] = 8914] = "ArrayLiteralExpressionElements"; ListFormat[ListFormat["CommaListElements"] = 528] = "CommaListElements"; ListFormat[ListFormat["CallExpressionArguments"] = 2576] = "CallExpressionArguments"; ListFormat[ListFormat["NewExpressionArguments"] = 18960] = "NewExpressionArguments"; ListFormat[ListFormat["TemplateExpressionSpans"] = 262144] = "TemplateExpressionSpans"; ListFormat[ListFormat["SingleLineBlockStatements"] = 768] = "SingleLineBlockStatements"; ListFormat[ListFormat["MultiLineBlockStatements"] = 129] = "MultiLineBlockStatements"; ListFormat[ListFormat["VariableDeclarationList"] = 528] = "VariableDeclarationList"; ListFormat[ListFormat["SingleLineFunctionBodyStatements"] = 768] = "SingleLineFunctionBodyStatements"; ListFormat[ListFormat["MultiLineFunctionBodyStatements"] = 1] = "MultiLineFunctionBodyStatements"; ListFormat[ListFormat["ClassHeritageClauses"] = 0] = "ClassHeritageClauses"; ListFormat[ListFormat["ClassMembers"] = 129] = "ClassMembers"; ListFormat[ListFormat["InterfaceMembers"] = 129] = "InterfaceMembers"; ListFormat[ListFormat["EnumMembers"] = 145] = "EnumMembers"; ListFormat[ListFormat["CaseBlockClauses"] = 129] = "CaseBlockClauses"; ListFormat[ListFormat["NamedImportsOrExportsElements"] = 525136] = "NamedImportsOrExportsElements"; ListFormat[ListFormat["JsxElementOrFragmentChildren"] = 262144] = "JsxElementOrFragmentChildren"; ListFormat[ListFormat["JsxElementAttributes"] = 262656] = "JsxElementAttributes"; ListFormat[ListFormat["CaseOrDefaultClauseStatements"] = 163969] = "CaseOrDefaultClauseStatements"; ListFormat[ListFormat["HeritageClauseTypes"] = 528] = "HeritageClauseTypes"; ListFormat[ListFormat["SourceFileStatements"] = 131073] = "SourceFileStatements"; ListFormat[ListFormat["Decorators"] = 2146305] = "Decorators"; ListFormat[ListFormat["TypeArguments"] = 53776] = "TypeArguments"; ListFormat[ListFormat["TypeParameters"] = 53776] = "TypeParameters"; ListFormat[ListFormat["Parameters"] = 2576] = "Parameters"; ListFormat[ListFormat["IndexSignatureParameters"] = 8848] = "IndexSignatureParameters"; ListFormat[ListFormat["JSDocComment"] = 33] = "JSDocComment"; })(ListFormat = ts.ListFormat || (ts.ListFormat = {})); /* @internal */ var PragmaKindFlags; (function (PragmaKindFlags) { PragmaKindFlags[PragmaKindFlags["None"] = 0] = "None"; /** * Triple slash comment of the form * /// */ PragmaKindFlags[PragmaKindFlags["TripleSlashXML"] = 1] = "TripleSlashXML"; /** * Single line comment of the form * // @pragma-name argval1 argval2 * or * /// @pragma-name argval1 argval2 */ PragmaKindFlags[PragmaKindFlags["SingleLine"] = 2] = "SingleLine"; /** * Multiline non-jsdoc pragma of the form * /* @pragma-name argval1 argval2 * / */ PragmaKindFlags[PragmaKindFlags["MultiLine"] = 4] = "MultiLine"; PragmaKindFlags[PragmaKindFlags["All"] = 7] = "All"; PragmaKindFlags[PragmaKindFlags["Default"] = 7] = "Default"; })(PragmaKindFlags = ts.PragmaKindFlags || (ts.PragmaKindFlags = {})); // While not strictly a type, this is here because `PragmaMap` needs to be here to be used with `SourceFile`, and we don't // fancy effectively defining it twice, once in value-space and once in type-space /* @internal */ ts.commentPragmas = { "reference": { args: [ { name: "types", optional: true, captureSpan: true }, { name: "lib", optional: true, captureSpan: true }, { name: "path", optional: true, captureSpan: true }, { name: "no-default-lib", optional: true } ], kind: 1 /* TripleSlashXML */ }, "amd-dependency": { args: [{ name: "path" }, { name: "name", optional: true }], kind: 1 /* TripleSlashXML */ }, "amd-module": { args: [{ name: "name" }], kind: 1 /* TripleSlashXML */ }, "ts-check": { kind: 2 /* SingleLine */ }, "ts-nocheck": { kind: 2 /* SingleLine */ }, "jsx": { args: [{ name: "factory" }], kind: 4 /* MultiLine */ }, }; })(ts || (ts = {})); var ts; (function (ts) { /** * djb2 hashing algorithm * http://www.cse.yorku.ca/~oz/hash.html */ /* @internal */ function generateDjb2Hash(data) { var acc = 5381; for (var i = 0; i < data.length; i++) { acc = ((acc << 5) + acc) + data.charCodeAt(i); } return acc.toString(); } ts.generateDjb2Hash = generateDjb2Hash; /** * Set a high stack trace limit to provide more information in case of an error. * Called for command-line and server use cases. * Not called if TypeScript is used as a library. */ /* @internal */ function setStackTraceLimit() { if (Error.stackTraceLimit < 100) { // Also tests that we won't set the property if it doesn't exist. Error.stackTraceLimit = 100; } } ts.setStackTraceLimit = setStackTraceLimit; var FileWatcherEventKind; (function (FileWatcherEventKind) { FileWatcherEventKind[FileWatcherEventKind["Created"] = 0] = "Created"; FileWatcherEventKind[FileWatcherEventKind["Changed"] = 1] = "Changed"; FileWatcherEventKind[FileWatcherEventKind["Deleted"] = 2] = "Deleted"; })(FileWatcherEventKind = ts.FileWatcherEventKind || (ts.FileWatcherEventKind = {})); /* @internal */ var PollingInterval; (function (PollingInterval) { PollingInterval[PollingInterval["High"] = 2000] = "High"; PollingInterval[PollingInterval["Medium"] = 500] = "Medium"; PollingInterval[PollingInterval["Low"] = 250] = "Low"; })(PollingInterval = ts.PollingInterval || (ts.PollingInterval = {})); /* @internal */ ts.missingFileModifiedTime = new Date(0); // Any subsequent modification will occur after this time function createPollingIntervalBasedLevels(levels) { var _a; return _a = {}, _a[PollingInterval.Low] = levels.Low, _a[PollingInterval.Medium] = levels.Medium, _a[PollingInterval.High] = levels.High, _a; } var defaultChunkLevels = { Low: 32, Medium: 64, High: 256 }; var pollingChunkSize = createPollingIntervalBasedLevels(defaultChunkLevels); /* @internal */ ts.unchangedPollThresholds = createPollingIntervalBasedLevels(defaultChunkLevels); /* @internal */ function setCustomPollingValues(system) { if (!system.getEnvironmentVariable) { return; } var pollingIntervalChanged = setCustomLevels("TSC_WATCH_POLLINGINTERVAL", PollingInterval); pollingChunkSize = getCustomPollingBasedLevels("TSC_WATCH_POLLINGCHUNKSIZE", defaultChunkLevels) || pollingChunkSize; ts.unchangedPollThresholds = getCustomPollingBasedLevels("TSC_WATCH_UNCHANGEDPOLLTHRESHOLDS", defaultChunkLevels) || ts.unchangedPollThresholds; function getLevel(envVar, level) { return system.getEnvironmentVariable(envVar + "_" + level.toUpperCase()); } function getCustomLevels(baseVariable) { var customLevels; setCustomLevel("Low"); setCustomLevel("Medium"); setCustomLevel("High"); return customLevels; function setCustomLevel(level) { var customLevel = getLevel(baseVariable, level); if (customLevel) { (customLevels || (customLevels = {}))[level] = Number(customLevel); } } } function setCustomLevels(baseVariable, levels) { var customLevels = getCustomLevels(baseVariable); if (customLevels) { setLevel("Low"); setLevel("Medium"); setLevel("High"); return true; } return false; function setLevel(level) { levels[level] = customLevels[level] || levels[level]; } } function getCustomPollingBasedLevels(baseVariable, defaultLevels) { var customLevels = getCustomLevels(baseVariable); return (pollingIntervalChanged || customLevels) && createPollingIntervalBasedLevels(customLevels ? __assign(__assign({}, defaultLevels), customLevels) : defaultLevels); } } ts.setCustomPollingValues = setCustomPollingValues; /* @internal */ function createDynamicPriorityPollingWatchFile(host) { var watchedFiles = []; var changedFilesInLastPoll = []; var lowPollingIntervalQueue = createPollingIntervalQueue(PollingInterval.Low); var mediumPollingIntervalQueue = createPollingIntervalQueue(PollingInterval.Medium); var highPollingIntervalQueue = createPollingIntervalQueue(PollingInterval.High); return watchFile; function watchFile(fileName, callback, defaultPollingInterval) { var file = { fileName: fileName, callback: callback, unchangedPolls: 0, mtime: getModifiedTime(fileName) }; watchedFiles.push(file); addToPollingIntervalQueue(file, defaultPollingInterval); return { close: function () { file.isClosed = true; // Remove from watchedFiles ts.unorderedRemoveItem(watchedFiles, file); // Do not update polling interval queue since that will happen as part of polling } }; } function createPollingIntervalQueue(pollingInterval) { var queue = []; queue.pollingInterval = pollingInterval; queue.pollIndex = 0; queue.pollScheduled = false; return queue; } function pollPollingIntervalQueue(queue) { queue.pollIndex = pollQueue(queue, queue.pollingInterval, queue.pollIndex, pollingChunkSize[queue.pollingInterval]); // Set the next polling index and timeout if (queue.length) { scheduleNextPoll(queue.pollingInterval); } else { ts.Debug.assert(queue.pollIndex === 0); queue.pollScheduled = false; } } function pollLowPollingIntervalQueue(queue) { // Always poll complete list of changedFilesInLastPoll pollQueue(changedFilesInLastPoll, PollingInterval.Low, /*pollIndex*/ 0, changedFilesInLastPoll.length); // Finally do the actual polling of the queue pollPollingIntervalQueue(queue); // Schedule poll if there are files in changedFilesInLastPoll but no files in the actual queue // as pollPollingIntervalQueue wont schedule for next poll if (!queue.pollScheduled && changedFilesInLastPoll.length) { scheduleNextPoll(PollingInterval.Low); } } function pollQueue(queue, pollingInterval, pollIndex, chunkSize) { // Max visit would be all elements of the queue var needsVisit = queue.length; var definedValueCopyToIndex = pollIndex; for (var polled = 0; polled < chunkSize && needsVisit > 0; nextPollIndex(), needsVisit--) { var watchedFile = queue[pollIndex]; if (!watchedFile) { continue; } else if (watchedFile.isClosed) { queue[pollIndex] = undefined; continue; } polled++; var fileChanged = onWatchedFileStat(watchedFile, getModifiedTime(watchedFile.fileName)); if (watchedFile.isClosed) { // Closed watcher as part of callback queue[pollIndex] = undefined; } else if (fileChanged) { watchedFile.unchangedPolls = 0; // Changed files go to changedFilesInLastPoll queue if (queue !== changedFilesInLastPoll) { queue[pollIndex] = undefined; addChangedFileToLowPollingIntervalQueue(watchedFile); } } else if (watchedFile.unchangedPolls !== ts.unchangedPollThresholds[pollingInterval]) { watchedFile.unchangedPolls++; } else if (queue === changedFilesInLastPoll) { // Restart unchangedPollCount for unchanged file and move to low polling interval queue watchedFile.unchangedPolls = 1; queue[pollIndex] = undefined; addToPollingIntervalQueue(watchedFile, PollingInterval.Low); } else if (pollingInterval !== PollingInterval.High) { watchedFile.unchangedPolls++; queue[pollIndex] = undefined; addToPollingIntervalQueue(watchedFile, pollingInterval === PollingInterval.Low ? PollingInterval.Medium : PollingInterval.High); } if (queue[pollIndex]) { // Copy this file to the non hole location if (definedValueCopyToIndex < pollIndex) { queue[definedValueCopyToIndex] = watchedFile; queue[pollIndex] = undefined; } definedValueCopyToIndex++; } } // Return next poll index return pollIndex; function nextPollIndex() { pollIndex++; if (pollIndex === queue.length) { if (definedValueCopyToIndex < pollIndex) { // There are holes from nextDefinedValueIndex to end of queue, change queue size queue.length = definedValueCopyToIndex; } pollIndex = 0; definedValueCopyToIndex = 0; } } } function pollingIntervalQueue(pollingInterval) { switch (pollingInterval) { case PollingInterval.Low: return lowPollingIntervalQueue; case PollingInterval.Medium: return mediumPollingIntervalQueue; case PollingInterval.High: return highPollingIntervalQueue; } } function addToPollingIntervalQueue(file, pollingInterval) { pollingIntervalQueue(pollingInterval).push(file); scheduleNextPollIfNotAlreadyScheduled(pollingInterval); } function addChangedFileToLowPollingIntervalQueue(file) { changedFilesInLastPoll.push(file); scheduleNextPollIfNotAlreadyScheduled(PollingInterval.Low); } function scheduleNextPollIfNotAlreadyScheduled(pollingInterval) { if (!pollingIntervalQueue(pollingInterval).pollScheduled) { scheduleNextPoll(pollingInterval); } } function scheduleNextPoll(pollingInterval) { pollingIntervalQueue(pollingInterval).pollScheduled = host.setTimeout(pollingInterval === PollingInterval.Low ? pollLowPollingIntervalQueue : pollPollingIntervalQueue, pollingInterval, pollingIntervalQueue(pollingInterval)); } function getModifiedTime(fileName) { return host.getModifiedTime(fileName) || ts.missingFileModifiedTime; } } ts.createDynamicPriorityPollingWatchFile = createDynamicPriorityPollingWatchFile; function createUseFsEventsOnParentDirectoryWatchFile(fsWatch, useCaseSensitiveFileNames) { // One file can have multiple watchers var fileWatcherCallbacks = ts.createMultiMap(); var dirWatchers = ts.createMap(); var toCanonicalName = ts.createGetCanonicalFileName(useCaseSensitiveFileNames); return nonPollingWatchFile; function nonPollingWatchFile(fileName, callback, _pollingInterval, fallbackOptions) { var filePath = toCanonicalName(fileName); fileWatcherCallbacks.add(filePath, callback); var dirPath = ts.getDirectoryPath(filePath) || "."; var watcher = dirWatchers.get(dirPath) || createDirectoryWatcher(ts.getDirectoryPath(fileName) || ".", dirPath, fallbackOptions); watcher.referenceCount++; return { close: function () { if (watcher.referenceCount === 1) { watcher.close(); dirWatchers.delete(dirPath); } else { watcher.referenceCount--; } fileWatcherCallbacks.remove(filePath, callback); } }; } function createDirectoryWatcher(dirName, dirPath, fallbackOptions) { var watcher = fsWatch(dirName, 1 /* Directory */, function (_eventName, relativeFileName) { // When files are deleted from disk, the triggered "rename" event would have a relativefileName of "undefined" if (!ts.isString(relativeFileName)) { return; } var fileName = ts.getNormalizedAbsolutePath(relativeFileName, dirName); // Some applications save a working file via rename operations var callbacks = fileName && fileWatcherCallbacks.get(toCanonicalName(fileName)); if (callbacks) { for (var _i = 0, callbacks_1 = callbacks; _i < callbacks_1.length; _i++) { var fileCallback = callbacks_1[_i]; fileCallback(fileName, FileWatcherEventKind.Changed); } } }, /*recursive*/ false, PollingInterval.Medium, fallbackOptions); watcher.referenceCount = 0; dirWatchers.set(dirPath, watcher); return watcher; } } /* @internal */ function createSingleFileWatcherPerName(watchFile, useCaseSensitiveFileNames) { var cache = ts.createMap(); var callbacksCache = ts.createMultiMap(); var toCanonicalFileName = ts.createGetCanonicalFileName(useCaseSensitiveFileNames); return function (fileName, callback, pollingInterval, options) { var path = toCanonicalFileName(fileName); var existing = cache.get(path); if (existing) { existing.refCount++; } else { cache.set(path, { watcher: watchFile(fileName, function (fileName, eventKind) { return ts.forEach(callbacksCache.get(path), function (cb) { return cb(fileName, eventKind); }); }, pollingInterval, options), refCount: 1 }); } callbacksCache.add(path, callback); return { close: function () { var watcher = ts.Debug.checkDefined(cache.get(path)); callbacksCache.remove(path, callback); watcher.refCount--; if (watcher.refCount) return; cache.delete(path); ts.closeFileWatcherOf(watcher); } }; }; } ts.createSingleFileWatcherPerName = createSingleFileWatcherPerName; /** * Returns true if file status changed */ /*@internal*/ function onWatchedFileStat(watchedFile, modifiedTime) { var oldTime = watchedFile.mtime.getTime(); var newTime = modifiedTime.getTime(); if (oldTime !== newTime) { watchedFile.mtime = modifiedTime; watchedFile.callback(watchedFile.fileName, getFileWatcherEventKind(oldTime, newTime)); return true; } return false; } ts.onWatchedFileStat = onWatchedFileStat; /*@internal*/ function getFileWatcherEventKind(oldTime, newTime) { return oldTime === 0 ? FileWatcherEventKind.Created : newTime === 0 ? FileWatcherEventKind.Deleted : FileWatcherEventKind.Changed; } ts.getFileWatcherEventKind = getFileWatcherEventKind; /*@internal*/ ts.ignoredPaths = ["/node_modules/.", "/.git", "/.#"]; /*@internal*/ ts.sysLog = ts.noop; // eslint-disable-line prefer-const /*@internal*/ function setSysLog(logger) { ts.sysLog = logger; } ts.setSysLog = setSysLog; /** * Watch the directory recursively using host provided method to watch child directories * that means if this is recursive watcher, watch the children directories as well * (eg on OS that dont support recursive watch using fs.watch use fs.watchFile) */ /*@internal*/ function createDirectoryWatcherSupportingRecursive(host) { var cache = ts.createMap(); var callbackCache = ts.createMultiMap(); var cacheToUpdateChildWatches = ts.createMap(); var timerToUpdateChildWatches; var filePathComparer = ts.getStringComparer(!host.useCaseSensitiveFileNames); var toCanonicalFilePath = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames); return function (dirName, callback, recursive, options) { return recursive ? createDirectoryWatcher(dirName, options, callback) : host.watchDirectory(dirName, callback, recursive, options); }; /** * Create the directory watcher for the dirPath. */ function createDirectoryWatcher(dirName, options, callback) { var dirPath = toCanonicalFilePath(dirName); var directoryWatcher = cache.get(dirPath); if (directoryWatcher) { directoryWatcher.refCount++; } else { directoryWatcher = { watcher: host.watchDirectory(dirName, function (fileName) { if (isIgnoredPath(fileName)) return; if (options === null || options === void 0 ? void 0 : options.synchronousWatchDirectory) { // Call the actual callback invokeCallbacks(dirPath, fileName); // Iterate through existing children and update the watches if needed updateChildWatches(dirName, dirPath, options); } else { nonSyncUpdateChildWatches(dirName, dirPath, fileName, options); } }, /*recursive*/ false, options), refCount: 1, childWatches: ts.emptyArray }; cache.set(dirPath, directoryWatcher); updateChildWatches(dirName, dirPath, options); } var callbackToAdd = callback && { dirName: dirName, callback: callback }; if (callbackToAdd) { callbackCache.add(dirPath, callbackToAdd); } return { dirName: dirName, close: function () { var directoryWatcher = ts.Debug.checkDefined(cache.get(dirPath)); if (callbackToAdd) callbackCache.remove(dirPath, callbackToAdd); directoryWatcher.refCount--; if (directoryWatcher.refCount) return; cache.delete(dirPath); ts.closeFileWatcherOf(directoryWatcher); directoryWatcher.childWatches.forEach(ts.closeFileWatcher); } }; } function invokeCallbacks(dirPath, fileNameOrInvokeMap) { var fileName; var invokeMap; if (ts.isString(fileNameOrInvokeMap)) { fileName = fileNameOrInvokeMap; } else { invokeMap = fileNameOrInvokeMap; } // Call the actual callback callbackCache.forEach(function (callbacks, rootDirName) { if (invokeMap && invokeMap.has(rootDirName)) return; if (rootDirName === dirPath || (ts.startsWith(dirPath, rootDirName) && dirPath[rootDirName.length] === ts.directorySeparator)) { if (invokeMap) { invokeMap.set(rootDirName, true); } else { callbacks.forEach(function (_a) { var callback = _a.callback; return callback(fileName); }); } } }); } function nonSyncUpdateChildWatches(dirName, dirPath, fileName, options) { // Iterate through existing children and update the watches if needed var parentWatcher = cache.get(dirPath); if (parentWatcher && host.directoryExists(dirName)) { // Schedule the update and postpone invoke for callbacks scheduleUpdateChildWatches(dirName, dirPath, options); return; } // Call the actual callbacks and remove child watches invokeCallbacks(dirPath, fileName); removeChildWatches(parentWatcher); } function scheduleUpdateChildWatches(dirName, dirPath, options) { if (!cacheToUpdateChildWatches.has(dirPath)) { cacheToUpdateChildWatches.set(dirPath, { dirName: dirName, options: options }); } if (timerToUpdateChildWatches) { host.clearTimeout(timerToUpdateChildWatches); timerToUpdateChildWatches = undefined; } timerToUpdateChildWatches = host.setTimeout(onTimerToUpdateChildWatches, 1000); } function onTimerToUpdateChildWatches() { timerToUpdateChildWatches = undefined; ts.sysLog("sysLog:: onTimerToUpdateChildWatches:: " + cacheToUpdateChildWatches.size); var start = ts.timestamp(); var invokeMap = ts.createMap(); while (!timerToUpdateChildWatches && cacheToUpdateChildWatches.size) { var _a = cacheToUpdateChildWatches.entries().next(), _b = _a.value, dirPath = _b[0], _c = _b[1], dirName = _c.dirName, options = _c.options, done = _a.done; ts.Debug.assert(!done); cacheToUpdateChildWatches.delete(dirPath); // Because the child refresh is fresh, we would need to invalidate whole root directory being watched // to ensure that all the changes are reflected at this time invokeCallbacks(dirPath, invokeMap); updateChildWatches(dirName, dirPath, options); } ts.sysLog("sysLog:: invokingWatchers:: " + (ts.timestamp() - start) + "ms:: " + cacheToUpdateChildWatches.size); callbackCache.forEach(function (callbacks, rootDirName) { if (invokeMap.has(rootDirName)) { callbacks.forEach(function (_a) { var callback = _a.callback, dirName = _a.dirName; return callback(dirName); }); } }); var elapsed = ts.timestamp() - start; ts.sysLog("sysLog:: Elapsed " + elapsed + "ms:: onTimerToUpdateChildWatches:: " + cacheToUpdateChildWatches.size + " " + timerToUpdateChildWatches); } function removeChildWatches(parentWatcher) { if (!parentWatcher) return; var existingChildWatches = parentWatcher.childWatches; parentWatcher.childWatches = ts.emptyArray; for (var _i = 0, existingChildWatches_1 = existingChildWatches; _i < existingChildWatches_1.length; _i++) { var childWatcher = existingChildWatches_1[_i]; childWatcher.close(); removeChildWatches(cache.get(toCanonicalFilePath(childWatcher.dirName))); } } function updateChildWatches(dirName, dirPath, options) { // Iterate through existing children and update the watches if needed var parentWatcher = cache.get(dirPath); if (parentWatcher) { parentWatcher.childWatches = watchChildDirectories(dirName, parentWatcher.childWatches, options); } } /** * Watch the directories in the parentDir */ function watchChildDirectories(parentDir, existingChildWatches, options) { var newChildWatches; ts.enumerateInsertsAndDeletes(host.directoryExists(parentDir) ? ts.mapDefined(host.getAccessibleSortedChildDirectories(parentDir), function (child) { var childFullName = ts.getNormalizedAbsolutePath(child, parentDir); // Filter our the symbolic link directories since those arent included in recursive watch // which is same behaviour when recursive: true is passed to fs.watch return !isIgnoredPath(childFullName) && filePathComparer(childFullName, ts.normalizePath(host.realpath(childFullName))) === 0 /* EqualTo */ ? childFullName : undefined; }) : ts.emptyArray, existingChildWatches, function (child, childWatcher) { return filePathComparer(child, childWatcher.dirName); }, createAndAddChildDirectoryWatcher, ts.closeFileWatcher, addChildDirectoryWatcher); return newChildWatches || ts.emptyArray; /** * Create new childDirectoryWatcher and add it to the new ChildDirectoryWatcher list */ function createAndAddChildDirectoryWatcher(childName) { var result = createDirectoryWatcher(childName, options); addChildDirectoryWatcher(result); } /** * Add child directory watcher to the new ChildDirectoryWatcher list */ function addChildDirectoryWatcher(childWatcher) { (newChildWatches || (newChildWatches = [])).push(childWatcher); } } function isIgnoredPath(path) { return ts.some(ts.ignoredPaths, function (searchPath) { return isInPath(path, searchPath); }); } function isInPath(path, searchPath) { if (ts.stringContains(path, searchPath)) return true; if (host.useCaseSensitiveFileNames) return false; return ts.stringContains(toCanonicalFilePath(path), searchPath); } } ts.createDirectoryWatcherSupportingRecursive = createDirectoryWatcherSupportingRecursive; /*@internal*/ var FileSystemEntryKind; (function (FileSystemEntryKind) { FileSystemEntryKind[FileSystemEntryKind["File"] = 0] = "File"; FileSystemEntryKind[FileSystemEntryKind["Directory"] = 1] = "Directory"; })(FileSystemEntryKind = ts.FileSystemEntryKind || (ts.FileSystemEntryKind = {})); /*@internal*/ function createFileWatcherCallback(callback) { return function (_fileName, eventKind) { return callback(eventKind === FileWatcherEventKind.Changed ? "change" : "rename", ""); }; } ts.createFileWatcherCallback = createFileWatcherCallback; function createFsWatchCallbackForFileWatcherCallback(fileName, callback, fileExists) { return function (eventName) { if (eventName === "rename") { callback(fileName, fileExists(fileName) ? FileWatcherEventKind.Created : FileWatcherEventKind.Deleted); } else { // Change callback(fileName, FileWatcherEventKind.Changed); } }; } function createFsWatchCallbackForDirectoryWatcherCallback(directoryName, callback) { return function (eventName, relativeFileName) { // In watchDirectory we only care about adding and removing files (when event name is // "rename"); changes made within files are handled by corresponding fileWatchers (when // event name is "change") if (eventName === "rename") { // When deleting a file, the passed baseFileName is null callback(!relativeFileName ? directoryName : ts.normalizePath(ts.combinePaths(directoryName, relativeFileName))); } }; } /*@internal*/ function createSystemWatchFunctions(_a) { var pollingWatchFile = _a.pollingWatchFile, getModifiedTime = _a.getModifiedTime, setTimeout = _a.setTimeout, clearTimeout = _a.clearTimeout, fsWatch = _a.fsWatch, fileExists = _a.fileExists, useCaseSensitiveFileNames = _a.useCaseSensitiveFileNames, fsSupportsRecursiveFsWatch = _a.fsSupportsRecursiveFsWatch, directoryExists = _a.directoryExists, getAccessibleSortedChildDirectories = _a.getAccessibleSortedChildDirectories, realpath = _a.realpath, tscWatchFile = _a.tscWatchFile, useNonPollingWatchers = _a.useNonPollingWatchers, tscWatchDirectory = _a.tscWatchDirectory; var dynamicPollingWatchFile; var nonPollingWatchFile; var hostRecursiveDirectoryWatcher; return { watchFile: watchFile, watchDirectory: watchDirectory }; function watchFile(fileName, callback, pollingInterval, options) { options = updateOptionsForWatchFile(options, useNonPollingWatchers); var watchFileKind = ts.Debug.checkDefined(options.watchFile); switch (watchFileKind) { case ts.WatchFileKind.FixedPollingInterval: return pollingWatchFile(fileName, callback, PollingInterval.Low, /*options*/ undefined); case ts.WatchFileKind.PriorityPollingInterval: return pollingWatchFile(fileName, callback, pollingInterval, /*options*/ undefined); case ts.WatchFileKind.DynamicPriorityPolling: return ensureDynamicPollingWatchFile()(fileName, callback, pollingInterval, /*options*/ undefined); case ts.WatchFileKind.UseFsEvents: return fsWatch(fileName, 0 /* File */, createFsWatchCallbackForFileWatcherCallback(fileName, callback, fileExists), /*recursive*/ false, pollingInterval, ts.getFallbackOptions(options)); case ts.WatchFileKind.UseFsEventsOnParentDirectory: if (!nonPollingWatchFile) { nonPollingWatchFile = createUseFsEventsOnParentDirectoryWatchFile(fsWatch, useCaseSensitiveFileNames); } return nonPollingWatchFile(fileName, callback, pollingInterval, ts.getFallbackOptions(options)); default: ts.Debug.assertNever(watchFileKind); } } function ensureDynamicPollingWatchFile() { return dynamicPollingWatchFile || (dynamicPollingWatchFile = createDynamicPriorityPollingWatchFile({ getModifiedTime: getModifiedTime, setTimeout: setTimeout })); } function updateOptionsForWatchFile(options, useNonPollingWatchers) { if (options && options.watchFile !== undefined) return options; switch (tscWatchFile) { case "PriorityPollingInterval": // Use polling interval based on priority when create watch using host.watchFile return { watchFile: ts.WatchFileKind.PriorityPollingInterval }; case "DynamicPriorityPolling": // Use polling interval but change the interval depending on file changes and their default polling interval return { watchFile: ts.WatchFileKind.DynamicPriorityPolling }; case "UseFsEvents": // Use notifications from FS to watch with falling back to fs.watchFile return generateWatchFileOptions(ts.WatchFileKind.UseFsEvents, ts.PollingWatchKind.PriorityInterval, options); case "UseFsEventsWithFallbackDynamicPolling": // Use notifications from FS to watch with falling back to dynamic watch file return generateWatchFileOptions(ts.WatchFileKind.UseFsEvents, ts.PollingWatchKind.DynamicPriority, options); case "UseFsEventsOnParentDirectory": useNonPollingWatchers = true; // fall through default: return useNonPollingWatchers ? // Use notifications from FS to watch with falling back to fs.watchFile generateWatchFileOptions(ts.WatchFileKind.UseFsEventsOnParentDirectory, ts.PollingWatchKind.PriorityInterval, options) : // Default to do not use fixed polling interval { watchFile: ts.WatchFileKind.FixedPollingInterval }; } } function generateWatchFileOptions(watchFile, fallbackPolling, options) { var defaultFallbackPolling = options === null || options === void 0 ? void 0 : options.fallbackPolling; return { watchFile: watchFile, fallbackPolling: defaultFallbackPolling === undefined ? fallbackPolling : defaultFallbackPolling }; } function watchDirectory(directoryName, callback, recursive, options) { if (fsSupportsRecursiveFsWatch) { return fsWatch(directoryName, 1 /* Directory */, createFsWatchCallbackForDirectoryWatcherCallback(directoryName, callback), recursive, PollingInterval.Medium, ts.getFallbackOptions(options)); } if (!hostRecursiveDirectoryWatcher) { hostRecursiveDirectoryWatcher = createDirectoryWatcherSupportingRecursive({ useCaseSensitiveFileNames: useCaseSensitiveFileNames, directoryExists: directoryExists, getAccessibleSortedChildDirectories: getAccessibleSortedChildDirectories, watchDirectory: nonRecursiveWatchDirectory, realpath: realpath, setTimeout: setTimeout, clearTimeout: clearTimeout }); } return hostRecursiveDirectoryWatcher(directoryName, callback, recursive, options); } function nonRecursiveWatchDirectory(directoryName, callback, recursive, options) { ts.Debug.assert(!recursive); options = updateOptionsForWatchDirectory(options); var watchDirectoryKind = ts.Debug.checkDefined(options.watchDirectory); switch (watchDirectoryKind) { case ts.WatchDirectoryKind.FixedPollingInterval: return pollingWatchFile(directoryName, function () { return callback(directoryName); }, PollingInterval.Medium, /*options*/ undefined); case ts.WatchDirectoryKind.DynamicPriorityPolling: return ensureDynamicPollingWatchFile()(directoryName, function () { return callback(directoryName); }, PollingInterval.Medium, /*options*/ undefined); case ts.WatchDirectoryKind.UseFsEvents: return fsWatch(directoryName, 1 /* Directory */, createFsWatchCallbackForDirectoryWatcherCallback(directoryName, callback), recursive, PollingInterval.Medium, ts.getFallbackOptions(options)); default: ts.Debug.assertNever(watchDirectoryKind); } } function updateOptionsForWatchDirectory(options) { if (options && options.watchDirectory !== undefined) return options; switch (tscWatchDirectory) { case "RecursiveDirectoryUsingFsWatchFile": // Use polling interval based on priority when create watch using host.watchFile return { watchDirectory: ts.WatchDirectoryKind.FixedPollingInterval }; case "RecursiveDirectoryUsingDynamicPriorityPolling": // Use polling interval but change the interval depending on file changes and their default polling interval return { watchDirectory: ts.WatchDirectoryKind.DynamicPriorityPolling }; default: var defaultFallbackPolling = options === null || options === void 0 ? void 0 : options.fallbackPolling; return { watchDirectory: ts.WatchDirectoryKind.UseFsEvents, fallbackPolling: defaultFallbackPolling !== undefined ? defaultFallbackPolling : undefined }; } } } ts.createSystemWatchFunctions = createSystemWatchFunctions; /** * patch writefile to create folder before writing the file */ /*@internal*/ function patchWriteFileEnsuringDirectory(sys) { // patch writefile to create folder before writing the file var originalWriteFile = sys.writeFile; sys.writeFile = function (path, data, writeBom) { return ts.writeFileEnsuringDirectories(path, data, !!writeBom, function (path, data, writeByteOrderMark) { return originalWriteFile.call(sys, path, data, writeByteOrderMark); }, function (path) { return sys.createDirectory(path); }, function (path) { return sys.directoryExists(path); }); }; } ts.patchWriteFileEnsuringDirectory = patchWriteFileEnsuringDirectory; function getNodeMajorVersion() { if (typeof process === "undefined") { return undefined; } var version = process.version; if (!version) { return undefined; } var dot = version.indexOf("."); if (dot === -1) { return undefined; } return parseInt(version.substring(1, dot)); } ts.getNodeMajorVersion = getNodeMajorVersion; // TODO: GH#18217 this is used as if it's certainly defined in many places. // eslint-disable-next-line prefer-const ts.sys = (function () { // NodeJS detects "\uFEFF" at the start of the string and *replaces* it with the actual // byte order mark from the specified encoding. Using any other byte order mark does // not actually work. var byteOrderMarkIndicator = "\uFEFF"; function getNodeSystem() { var nativePattern = /^native |^\([^)]+\)$|^(internal[\\/]|[a-zA-Z0-9_\s]+(\.js)?$)/; var _fs = require("fs"); var _path = require("path"); var _os = require("os"); // crypto can be absent on reduced node installations var _crypto; try { _crypto = require("crypto"); } catch (_a) { _crypto = undefined; } var activeSession; var profilePath = "./profile.cpuprofile"; var Buffer = require("buffer").Buffer; var nodeVersion = getNodeMajorVersion(); var isNode4OrLater = nodeVersion >= 4; var isLinuxOrMacOs = process.platform === "linux" || process.platform === "darwin"; var platform = _os.platform(); var useCaseSensitiveFileNames = isFileSystemCaseSensitive(); var fsSupportsRecursiveFsWatch = isNode4OrLater && (process.platform === "win32" || process.platform === "darwin"); var _b = createSystemWatchFunctions({ pollingWatchFile: createSingleFileWatcherPerName(fsWatchFileWorker, useCaseSensitiveFileNames), getModifiedTime: getModifiedTime, setTimeout: setTimeout, clearTimeout: clearTimeout, fsWatch: fsWatch, useCaseSensitiveFileNames: useCaseSensitiveFileNames, fileExists: fileExists, // Node 4.0 `fs.watch` function supports the "recursive" option on both OSX and Windows // (ref: https://github.com/nodejs/node/pull/2649 and https://github.com/Microsoft/TypeScript/issues/4643) fsSupportsRecursiveFsWatch: fsSupportsRecursiveFsWatch, directoryExists: directoryExists, getAccessibleSortedChildDirectories: function (path) { return getAccessibleFileSystemEntries(path).directories; }, realpath: realpath, tscWatchFile: process.env.TSC_WATCHFILE, useNonPollingWatchers: process.env.TSC_NONPOLLING_WATCHER, tscWatchDirectory: process.env.TSC_WATCHDIRECTORY, }), watchFile = _b.watchFile, watchDirectory = _b.watchDirectory; var nodeSystem = { args: process.argv.slice(2), newLine: _os.EOL, useCaseSensitiveFileNames: useCaseSensitiveFileNames, write: function (s) { process.stdout.write(s); }, writeOutputIsTTY: function () { return process.stdout.isTTY; }, readFile: readFile, writeFile: writeFile, watchFile: watchFile, watchDirectory: watchDirectory, resolvePath: function (path) { return _path.resolve(path); }, fileExists: fileExists, directoryExists: directoryExists, createDirectory: function (directoryName) { if (!nodeSystem.directoryExists(directoryName)) { // Wrapped in a try-catch to prevent crashing if we are in a race // with another copy of ourselves to create the same directory try { _fs.mkdirSync(directoryName); } catch (e) { if (e.code !== "EEXIST") { // Failed for some other reason (access denied?); still throw throw e; } } } }, getExecutingFilePath: function () { return __filename; }, getCurrentDirectory: function () { return process.cwd(); }, getDirectories: getDirectories, getEnvironmentVariable: function (name) { return process.env[name] || ""; }, readDirectory: readDirectory, getModifiedTime: getModifiedTime, setModifiedTime: setModifiedTime, deleteFile: deleteFile, createHash: _crypto ? createSHA256Hash : generateDjb2Hash, createSHA256Hash: _crypto ? createSHA256Hash : undefined, getMemoryUsage: function () { if (global.gc) { global.gc(); } return process.memoryUsage().heapUsed; }, getFileSize: function (path) { try { var stat = _fs.statSync(path); if (stat.isFile()) { return stat.size; } } catch ( /*ignore*/_a) { /*ignore*/ } return 0; }, exit: function (exitCode) { disableCPUProfiler(function () { return process.exit(exitCode); }); }, enableCPUProfiler: enableCPUProfiler, disableCPUProfiler: disableCPUProfiler, realpath: realpath, debugMode: !!process.env.NODE_INSPECTOR_IPC || ts.some(process.execArgv, function (arg) { return /^--(inspect|debug)(-brk)?(=\d+)?$/i.test(arg); }), tryEnableSourceMapsForHost: function () { try { require("source-map-support").install(); } catch (_a) { // Could not enable source maps. } }, setTimeout: setTimeout, clearTimeout: clearTimeout, clearScreen: function () { process.stdout.write("\x1Bc"); }, setBlocking: function () { if (process.stdout && process.stdout._handle && process.stdout._handle.setBlocking) { process.stdout._handle.setBlocking(true); } }, bufferFrom: bufferFrom, base64decode: function (input) { return bufferFrom(input, "base64").toString("utf8"); }, base64encode: function (input) { return bufferFrom(input).toString("base64"); }, require: function (baseDir, moduleName) { try { var modulePath = ts.resolveJSModule(moduleName, baseDir, nodeSystem); return { module: require(modulePath), modulePath: modulePath, error: undefined }; } catch (error) { return { module: undefined, modulePath: undefined, error: error }; } } }; return nodeSystem; /** * Uses the builtin inspector APIs to capture a CPU profile * See https://nodejs.org/api/inspector.html#inspector_example_usage for details */ function enableCPUProfiler(path, cb) { if (activeSession) { cb(); return false; } var inspector = require("inspector"); if (!inspector || !inspector.Session) { cb(); return false; } var session = new inspector.Session(); session.connect(); session.post("Profiler.enable", function () { session.post("Profiler.start", function () { activeSession = session; profilePath = path; cb(); }); }); return true; } /** * Strips non-TS paths from the profile, so users with private projects shouldn't * need to worry about leaking paths by submitting a cpu profile to us */ function cleanupPaths(profile) { var externalFileCounter = 0; var remappedPaths = ts.createMap(); var normalizedDir = ts.normalizeSlashes(__dirname); // Windows rooted dir names need an extra `/` prepended to be valid file:/// urls var fileUrlRoot = "file://" + (ts.getRootLength(normalizedDir) === 1 ? "" : "/") + normalizedDir; for (var _i = 0, _a = profile.nodes; _i < _a.length; _i++) { var node = _a[_i]; if (node.callFrame.url) { var url = ts.normalizeSlashes(node.callFrame.url); if (ts.containsPath(fileUrlRoot, url, useCaseSensitiveFileNames)) { node.callFrame.url = ts.getRelativePathToDirectoryOrUrl(fileUrlRoot, url, fileUrlRoot, ts.createGetCanonicalFileName(useCaseSensitiveFileNames), /*isAbsolutePathAnUrl*/ true); } else if (!nativePattern.test(url)) { node.callFrame.url = (remappedPaths.has(url) ? remappedPaths : remappedPaths.set(url, "external" + externalFileCounter + ".js")).get(url); externalFileCounter++; } } } return profile; } function disableCPUProfiler(cb) { if (activeSession && activeSession !== "stopping") { var s_1 = activeSession; activeSession.post("Profiler.stop", function (err, _a) { var profile = _a.profile; if (!err) { try { if (_fs.statSync(profilePath).isDirectory()) { profilePath = _path.join(profilePath, (new Date()).toISOString().replace(/:/g, "-") + "+P" + process.pid + ".cpuprofile"); } } catch (_b) { // do nothing and ignore fallible fs operation } try { _fs.mkdirSync(_path.dirname(profilePath), { recursive: true }); } catch (_c) { // do nothing and ignore fallible fs operation } _fs.writeFileSync(profilePath, JSON.stringify(cleanupPaths(profile))); } activeSession = undefined; s_1.disconnect(); cb(); }); activeSession = "stopping"; return true; } else { cb(); return false; } } function bufferFrom(input, encoding) { // See https://github.com/Microsoft/TypeScript/issues/25652 return Buffer.from && Buffer.from !== Int8Array.from ? Buffer.from(input, encoding) : new Buffer(input, encoding); } function isFileSystemCaseSensitive() { // win32\win64 are case insensitive platforms if (platform === "win32" || platform === "win64") { return false; } // If this file exists under a different case, we must be case-insensitve. return !fileExists(swapCase(__filename)); } /** Convert all lowercase chars to uppercase, and vice-versa */ function swapCase(s) { return s.replace(/\w/g, function (ch) { var up = ch.toUpperCase(); return ch === up ? ch.toLowerCase() : up; }); } function fsWatchFileWorker(fileName, callback, pollingInterval) { _fs.watchFile(fileName, { persistent: true, interval: pollingInterval }, fileChanged); var eventKind; return { close: function () { return _fs.unwatchFile(fileName, fileChanged); } }; function fileChanged(curr, prev) { // previous event kind check is to ensure we recongnize the file as previously also missing when it is restored or renamed twice (that is it disappears and reappears) // In such case, prevTime returned is same as prev time of event when file was deleted as per node documentation var isPreviouslyDeleted = +prev.mtime === 0 || eventKind === FileWatcherEventKind.Deleted; if (+curr.mtime === 0) { if (isPreviouslyDeleted) { // Already deleted file, no need to callback again return; } eventKind = FileWatcherEventKind.Deleted; } else if (isPreviouslyDeleted) { eventKind = FileWatcherEventKind.Created; } // If there is no change in modified time, ignore the event else if (+curr.mtime === +prev.mtime) { return; } else { // File changed eventKind = FileWatcherEventKind.Changed; } callback(fileName, eventKind); } } function fsWatch(fileOrDirectory, entryKind, callback, recursive, fallbackPollingInterval, fallbackOptions) { var options; var lastDirectoryPartWithDirectorySeparator; var lastDirectoryPart; if (isLinuxOrMacOs) { lastDirectoryPartWithDirectorySeparator = fileOrDirectory.substr(fileOrDirectory.lastIndexOf(ts.directorySeparator)); lastDirectoryPart = lastDirectoryPartWithDirectorySeparator.slice(ts.directorySeparator.length); } /** Watcher for the file system entry depending on whether it is missing or present */ var watcher = !fileSystemEntryExists(fileOrDirectory, entryKind) ? watchMissingFileSystemEntry() : watchPresentFileSystemEntry(); return { close: function () { // Close the watcher (either existing file system entry watcher or missing file system entry watcher) watcher.close(); watcher = undefined; } }; /** * Invoke the callback with rename and update the watcher if not closed * @param createWatcher */ function invokeCallbackAndUpdateWatcher(createWatcher) { ts.sysLog("sysLog:: " + fileOrDirectory + ":: Changing watcher to " + (createWatcher === watchPresentFileSystemEntry ? "Present" : "Missing") + "FileSystemEntryWatcher"); // Call the callback for current directory callback("rename", ""); // If watcher is not closed, update it if (watcher) { watcher.close(); watcher = createWatcher(); } } /** * Watch the file or directory that is currently present * and when the watched file or directory is deleted, switch to missing file system entry watcher */ function watchPresentFileSystemEntry() { // Node 4.0 `fs.watch` function supports the "recursive" option on both OSX and Windows // (ref: https://github.com/nodejs/node/pull/2649 and https://github.com/Microsoft/TypeScript/issues/4643) if (options === undefined) { if (fsSupportsRecursiveFsWatch) { options = { persistent: true, recursive: !!recursive }; } else { options = { persistent: true }; } } try { var presentWatcher = _fs.watch(fileOrDirectory, options, isLinuxOrMacOs ? callbackChangingToMissingFileSystemEntry : callback); // Watch the missing file or directory or error presentWatcher.on("error", function () { return invokeCallbackAndUpdateWatcher(watchMissingFileSystemEntry); }); return presentWatcher; } catch (e) { // Catch the exception and use polling instead // Eg. on linux the number of watches are limited and one could easily exhaust watches and the exception ENOSPC is thrown when creating watcher at that point // so instead of throwing error, use fs.watchFile return watchPresentFileSystemEntryWithFsWatchFile(); } } function callbackChangingToMissingFileSystemEntry(event, relativeName) { // because relativeName is not guaranteed to be correct we need to check on each rename with few combinations // Eg on ubuntu while watching app/node_modules the relativeName is "node_modules" which is neither relative nor full path return event === "rename" && (!relativeName || relativeName === lastDirectoryPart || relativeName.lastIndexOf(lastDirectoryPartWithDirectorySeparator) === relativeName.length - lastDirectoryPartWithDirectorySeparator.length) && !fileSystemEntryExists(fileOrDirectory, entryKind) ? invokeCallbackAndUpdateWatcher(watchMissingFileSystemEntry) : callback(event, relativeName); } /** * Watch the file or directory using fs.watchFile since fs.watch threw exception * Eg. on linux the number of watches are limited and one could easily exhaust watches and the exception ENOSPC is thrown when creating watcher at that point */ function watchPresentFileSystemEntryWithFsWatchFile() { ts.sysLog("sysLog:: " + fileOrDirectory + ":: Changing to fsWatchFile"); return watchFile(fileOrDirectory, createFileWatcherCallback(callback), fallbackPollingInterval, fallbackOptions); } /** * Watch the file or directory that is missing * and switch to existing file or directory when the missing filesystem entry is created */ function watchMissingFileSystemEntry() { return watchFile(fileOrDirectory, function (_fileName, eventKind) { if (eventKind === FileWatcherEventKind.Created && fileSystemEntryExists(fileOrDirectory, entryKind)) { // Call the callback for current file or directory // For now it could be callback for the inner directory creation, // but just return current directory, better than current no-op invokeCallbackAndUpdateWatcher(watchPresentFileSystemEntry); } }, fallbackPollingInterval, fallbackOptions); } } function readFileWorker(fileName, _encoding) { var buffer; try { buffer = _fs.readFileSync(fileName); } catch (e) { return undefined; } var len = buffer.length; if (len >= 2 && buffer[0] === 0xFE && buffer[1] === 0xFF) { // Big endian UTF-16 byte order mark detected. Since big endian is not supported by node.js, // flip all byte pairs and treat as little endian. len &= ~1; // Round down to a multiple of 2 for (var i = 0; i < len; i += 2) { var temp = buffer[i]; buffer[i] = buffer[i + 1]; buffer[i + 1] = temp; } return buffer.toString("utf16le", 2); } if (len >= 2 && buffer[0] === 0xFF && buffer[1] === 0xFE) { // Little endian UTF-16 byte order mark detected return buffer.toString("utf16le", 2); } if (len >= 3 && buffer[0] === 0xEF && buffer[1] === 0xBB && buffer[2] === 0xBF) { // UTF-8 byte order mark detected return buffer.toString("utf8", 3); } // Default is UTF-8 with no byte order mark return buffer.toString("utf8"); } function readFile(fileName, _encoding) { ts.perfLogger.logStartReadFile(fileName); var file = readFileWorker(fileName, _encoding); ts.perfLogger.logStopReadFile(); return file; } function writeFile(fileName, data, writeByteOrderMark) { ts.perfLogger.logEvent("WriteFile: " + fileName); // If a BOM is required, emit one if (writeByteOrderMark) { data = byteOrderMarkIndicator + data; } var fd; try { fd = _fs.openSync(fileName, "w"); _fs.writeSync(fd, data, /*position*/ undefined, "utf8"); } finally { if (fd !== undefined) { _fs.closeSync(fd); } } } function getAccessibleFileSystemEntries(path) { ts.perfLogger.logEvent("ReadDir: " + (path || ".")); try { var entries = _fs.readdirSync(path || ".", { withFileTypes: true }); var files = []; var directories = []; for (var _i = 0, entries_2 = entries; _i < entries_2.length; _i++) { var dirent = entries_2[_i]; // withFileTypes is not supported before Node 10.10. var entry = typeof dirent === "string" ? dirent : dirent.name; // This is necessary because on some file system node fails to exclude // "." and "..". See https://github.com/nodejs/node/issues/4002 if (entry === "." || entry === "..") { continue; } var stat = void 0; if (typeof dirent === "string" || dirent.isSymbolicLink()) { var name = ts.combinePaths(path, entry); try { stat = _fs.statSync(name); } catch (e) { continue; } } else { stat = dirent; } if (stat.isFile()) { files.push(entry); } else if (stat.isDirectory()) { directories.push(entry); } } files.sort(); directories.sort(); return { files: files, directories: directories }; } catch (e) { return ts.emptyFileSystemEntries; } } function readDirectory(path, extensions, excludes, includes, depth) { return ts.matchFiles(path, extensions, excludes, includes, useCaseSensitiveFileNames, process.cwd(), depth, getAccessibleFileSystemEntries, realpath); } function fileSystemEntryExists(path, entryKind) { try { var stat = _fs.statSync(path); switch (entryKind) { case 0 /* File */: return stat.isFile(); case 1 /* Directory */: return stat.isDirectory(); default: return false; } } catch (e) { return false; } } function fileExists(path) { return fileSystemEntryExists(path, 0 /* File */); } function directoryExists(path) { return fileSystemEntryExists(path, 1 /* Directory */); } function getDirectories(path) { return getAccessibleFileSystemEntries(path).directories.slice(); } function realpath(path) { try { return _fs.realpathSync(path); } catch (_a) { return path; } } function getModifiedTime(path) { try { return _fs.statSync(path).mtime; } catch (e) { return undefined; } } function setModifiedTime(path, time) { try { _fs.utimesSync(path, time, time); } catch (e) { return; } } function deleteFile(path) { try { return _fs.unlinkSync(path); } catch (e) { return; } } function createSHA256Hash(data) { var hash = _crypto.createHash("sha256"); hash.update(data); return hash.digest("hex"); } } var sys; if (typeof process !== "undefined" && process.nextTick && !process.browser && typeof require !== "undefined") { // process and process.nextTick checks if current environment is node-like // process.browser check excludes webpack and browserify sys = getNodeSystem(); } if (sys) { // patch writefile to create folder before writing the file patchWriteFileEnsuringDirectory(sys); } return sys; })(); if (ts.sys && ts.sys.getEnvironmentVariable) { setCustomPollingValues(ts.sys); ts.Debug.setAssertionLevel(/^development$/i.test(ts.sys.getEnvironmentVariable("NODE_ENV")) ? 1 /* Normal */ : 0 /* None */); } if (ts.sys && ts.sys.debugMode) { ts.Debug.isDebugging = true; } })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { /** * Internally, we represent paths as strings with '/' as the directory separator. * When we make system calls (eg: LanguageServiceHost.getDirectory()), * we expect the host to correctly handle paths in our specified format. */ ts.directorySeparator = "/"; var altDirectorySeparator = "\\"; var urlSchemeSeparator = "://"; var backslashRegExp = /\\/g; //// Path Tests /** * Determines whether a charCode corresponds to `/` or `\`. */ function isAnyDirectorySeparator(charCode) { return charCode === 47 /* slash */ || charCode === 92 /* backslash */; } ts.isAnyDirectorySeparator = isAnyDirectorySeparator; /** * Determines whether a path starts with a URL scheme (e.g. starts with `http://`, `ftp://`, `file://`, etc.). */ function isUrl(path) { return getEncodedRootLength(path) < 0; } ts.isUrl = isUrl; /** * Determines whether a path is an absolute disk path (e.g. starts with `/`, or a dos path * like `c:`, `c:\` or `c:/`). */ function isRootedDiskPath(path) { return getEncodedRootLength(path) > 0; } ts.isRootedDiskPath = isRootedDiskPath; /** * Determines whether a path consists only of a path root. */ function isDiskPathRoot(path) { var rootLength = getEncodedRootLength(path); return rootLength > 0 && rootLength === path.length; } ts.isDiskPathRoot = isDiskPathRoot; /** * Determines whether a path starts with an absolute path component (i.e. `/`, `c:/`, `file://`, etc.). * * ```ts * // POSIX * pathIsAbsolute("/path/to/file.ext") === true * // DOS * pathIsAbsolute("c:/path/to/file.ext") === true * // URL * pathIsAbsolute("file:///path/to/file.ext") === true * // Non-absolute * pathIsAbsolute("path/to/file.ext") === false * pathIsAbsolute("./path/to/file.ext") === false * ``` */ function pathIsAbsolute(path) { return getEncodedRootLength(path) !== 0; } ts.pathIsAbsolute = pathIsAbsolute; /** * Determines whether a path starts with a relative path component (i.e. `.` or `..`). */ function pathIsRelative(path) { return /^\.\.?($|[\\/])/.test(path); } ts.pathIsRelative = pathIsRelative; function hasExtension(fileName) { return ts.stringContains(getBaseFileName(fileName), "."); } ts.hasExtension = hasExtension; function fileExtensionIs(path, extension) { return path.length > extension.length && ts.endsWith(path, extension); } ts.fileExtensionIs = fileExtensionIs; function fileExtensionIsOneOf(path, extensions) { for (var _i = 0, extensions_1 = extensions; _i < extensions_1.length; _i++) { var extension = extensions_1[_i]; if (fileExtensionIs(path, extension)) { return true; } } return false; } ts.fileExtensionIsOneOf = fileExtensionIsOneOf; /** * Determines whether a path has a trailing separator (`/` or `\\`). */ function hasTrailingDirectorySeparator(path) { return path.length > 0 && isAnyDirectorySeparator(path.charCodeAt(path.length - 1)); } ts.hasTrailingDirectorySeparator = hasTrailingDirectorySeparator; //// Path Parsing function isVolumeCharacter(charCode) { return (charCode >= 97 /* a */ && charCode <= 122 /* z */) || (charCode >= 65 /* A */ && charCode <= 90 /* Z */); } function getFileUrlVolumeSeparatorEnd(url, start) { var ch0 = url.charCodeAt(start); if (ch0 === 58 /* colon */) return start + 1; if (ch0 === 37 /* percent */ && url.charCodeAt(start + 1) === 51 /* _3 */) { var ch2 = url.charCodeAt(start + 2); if (ch2 === 97 /* a */ || ch2 === 65 /* A */) return start + 3; } return -1; } /** * Returns length of the root part of a path or URL (i.e. length of "/", "x:/", "//server/share/, file:///user/files"). * If the root is part of a URL, the twos-complement of the root length is returned. */ function getEncodedRootLength(path) { if (!path) return 0; var ch0 = path.charCodeAt(0); // POSIX or UNC if (ch0 === 47 /* slash */ || ch0 === 92 /* backslash */) { if (path.charCodeAt(1) !== ch0) return 1; // POSIX: "/" (or non-normalized "\") var p1 = path.indexOf(ch0 === 47 /* slash */ ? ts.directorySeparator : altDirectorySeparator, 2); if (p1 < 0) return path.length; // UNC: "//server" or "\\server" return p1 + 1; // UNC: "//server/" or "\\server\" } // DOS if (isVolumeCharacter(ch0) && path.charCodeAt(1) === 58 /* colon */) { var ch2 = path.charCodeAt(2); if (ch2 === 47 /* slash */ || ch2 === 92 /* backslash */) return 3; // DOS: "c:/" or "c:\" if (path.length === 2) return 2; // DOS: "c:" (but not "c:d") } // URL var schemeEnd = path.indexOf(urlSchemeSeparator); if (schemeEnd !== -1) { var authorityStart = schemeEnd + urlSchemeSeparator.length; var authorityEnd = path.indexOf(ts.directorySeparator, authorityStart); if (authorityEnd !== -1) { // URL: "file:///", "file://server/", "file://server/path" // For local "file" URLs, include the leading DOS volume (if present). // Per https://www.ietf.org/rfc/rfc1738.txt, a host of "" or "localhost" is a // special case interpreted as "the machine from which the URL is being interpreted". var scheme = path.slice(0, schemeEnd); var authority = path.slice(authorityStart, authorityEnd); if (scheme === "file" && (authority === "" || authority === "localhost") && isVolumeCharacter(path.charCodeAt(authorityEnd + 1))) { var volumeSeparatorEnd = getFileUrlVolumeSeparatorEnd(path, authorityEnd + 2); if (volumeSeparatorEnd !== -1) { if (path.charCodeAt(volumeSeparatorEnd) === 47 /* slash */) { // URL: "file:///c:/", "file://localhost/c:/", "file:///c%3a/", "file://localhost/c%3a/" return ~(volumeSeparatorEnd + 1); } if (volumeSeparatorEnd === path.length) { // URL: "file:///c:", "file://localhost/c:", "file:///c$3a", "file://localhost/c%3a" // but not "file:///c:d" or "file:///c%3ad" return ~volumeSeparatorEnd; } } } return ~(authorityEnd + 1); // URL: "file://server/", "http://server/" } return ~path.length; // URL: "file://server", "http://server" } // relative return 0; } /** * Returns length of the root part of a path or URL (i.e. length of "/", "x:/", "//server/share/, file:///user/files"). * * For example: * ```ts * getRootLength("a") === 0 // "" * getRootLength("/") === 1 // "/" * getRootLength("c:") === 2 // "c:" * getRootLength("c:d") === 0 // "" * getRootLength("c:/") === 3 // "c:/" * getRootLength("c:\\") === 3 // "c:\\" * getRootLength("//server") === 7 // "//server" * getRootLength("//server/share") === 8 // "//server/" * getRootLength("\\\\server") === 7 // "\\\\server" * getRootLength("\\\\server\\share") === 8 // "\\\\server\\" * getRootLength("file:///path") === 8 // "file:///" * getRootLength("file:///c:") === 10 // "file:///c:" * getRootLength("file:///c:d") === 8 // "file:///" * getRootLength("file:///c:/path") === 11 // "file:///c:/" * getRootLength("file://server") === 13 // "file://server" * getRootLength("file://server/path") === 14 // "file://server/" * getRootLength("http://server") === 13 // "http://server" * getRootLength("http://server/path") === 14 // "http://server/" * ``` */ function getRootLength(path) { var rootLength = getEncodedRootLength(path); return rootLength < 0 ? ~rootLength : rootLength; } ts.getRootLength = getRootLength; function getDirectoryPath(path) { path = normalizeSlashes(path); // If the path provided is itself the root, then return it. var rootLength = getRootLength(path); if (rootLength === path.length) return path; // return the leading portion of the path up to the last (non-terminal) directory separator // but not including any trailing directory separator. path = removeTrailingDirectorySeparator(path); return path.slice(0, Math.max(rootLength, path.lastIndexOf(ts.directorySeparator))); } ts.getDirectoryPath = getDirectoryPath; function getBaseFileName(path, extensions, ignoreCase) { path = normalizeSlashes(path); // if the path provided is itself the root, then it has not file name. var rootLength = getRootLength(path); if (rootLength === path.length) return ""; // return the trailing portion of the path starting after the last (non-terminal) directory // separator but not including any trailing directory separator. path = removeTrailingDirectorySeparator(path); var name = path.slice(Math.max(getRootLength(path), path.lastIndexOf(ts.directorySeparator) + 1)); var extension = extensions !== undefined && ignoreCase !== undefined ? getAnyExtensionFromPath(name, extensions, ignoreCase) : undefined; return extension ? name.slice(0, name.length - extension.length) : name; } ts.getBaseFileName = getBaseFileName; function tryGetExtensionFromPath(path, extension, stringEqualityComparer) { if (!ts.startsWith(extension, ".")) extension = "." + extension; if (path.length >= extension.length && path.charCodeAt(path.length - extension.length) === 46 /* dot */) { var pathExtension = path.slice(path.length - extension.length); if (stringEqualityComparer(pathExtension, extension)) { return pathExtension; } } } function getAnyExtensionFromPathWorker(path, extensions, stringEqualityComparer) { if (typeof extensions === "string") { return tryGetExtensionFromPath(path, extensions, stringEqualityComparer) || ""; } for (var _i = 0, extensions_2 = extensions; _i < extensions_2.length; _i++) { var extension = extensions_2[_i]; var result = tryGetExtensionFromPath(path, extension, stringEqualityComparer); if (result) return result; } return ""; } function getAnyExtensionFromPath(path, extensions, ignoreCase) { // Retrieves any string from the final "." onwards from a base file name. // Unlike extensionFromPath, which throws an exception on unrecognized extensions. if (extensions) { return getAnyExtensionFromPathWorker(removeTrailingDirectorySeparator(path), extensions, ignoreCase ? ts.equateStringsCaseInsensitive : ts.equateStringsCaseSensitive); } var baseFileName = getBaseFileName(path); var extensionIndex = baseFileName.lastIndexOf("."); if (extensionIndex >= 0) { return baseFileName.substring(extensionIndex); } return ""; } ts.getAnyExtensionFromPath = getAnyExtensionFromPath; function pathComponents(path, rootLength) { var root = path.substring(0, rootLength); var rest = path.substring(rootLength).split(ts.directorySeparator); if (rest.length && !ts.lastOrUndefined(rest)) rest.pop(); return __spreadArrays([root], rest); } /** * Parse a path into an array containing a root component (at index 0) and zero or more path * components (at indices > 0). The result is not normalized. * If the path is relative, the root component is `""`. * If the path is absolute, the root component includes the first path separator (`/`). * * ```ts * // POSIX * getPathComponents("/path/to/file.ext") === ["/", "path", "to", "file.ext"] * getPathComponents("/path/to/") === ["/", "path", "to"] * getPathComponents("/") === ["/"] * // DOS * getPathComponents("c:/path/to/file.ext") === ["c:/", "path", "to", "file.ext"] * getPathComponents("c:/path/to/") === ["c:/", "path", "to"] * getPathComponents("c:/") === ["c:/"] * getPathComponents("c:") === ["c:"] * // URL * getPathComponents("http://typescriptlang.org/path/to/file.ext") === ["http://typescriptlang.org/", "path", "to", "file.ext"] * getPathComponents("http://typescriptlang.org/path/to/") === ["http://typescriptlang.org/", "path", "to"] * getPathComponents("http://typescriptlang.org/") === ["http://typescriptlang.org/"] * getPathComponents("http://typescriptlang.org") === ["http://typescriptlang.org"] * getPathComponents("file://server/path/to/file.ext") === ["file://server/", "path", "to", "file.ext"] * getPathComponents("file://server/path/to/") === ["file://server/", "path", "to"] * getPathComponents("file://server/") === ["file://server/"] * getPathComponents("file://server") === ["file://server"] * getPathComponents("file:///path/to/file.ext") === ["file:///", "path", "to", "file.ext"] * getPathComponents("file:///path/to/") === ["file:///", "path", "to"] * getPathComponents("file:///") === ["file:///"] * getPathComponents("file://") === ["file://"] */ function getPathComponents(path, currentDirectory) { if (currentDirectory === void 0) { currentDirectory = ""; } path = combinePaths(currentDirectory, path); return pathComponents(path, getRootLength(path)); } ts.getPathComponents = getPathComponents; //// Path Formatting /** * Formats a parsed path consisting of a root component (at index 0) and zero or more path * segments (at indices > 0). * * ```ts * getPathFromPathComponents(["/", "path", "to", "file.ext"]) === "/path/to/file.ext" * ``` */ function getPathFromPathComponents(pathComponents) { if (pathComponents.length === 0) return ""; var root = pathComponents[0] && ensureTrailingDirectorySeparator(pathComponents[0]); return root + pathComponents.slice(1).join(ts.directorySeparator); } ts.getPathFromPathComponents = getPathFromPathComponents; //// Path Normalization /** * Normalize path separators, converting `\` into `/`. */ function normalizeSlashes(path) { return path.replace(backslashRegExp, ts.directorySeparator); } ts.normalizeSlashes = normalizeSlashes; /** * Reduce an array of path components to a more simplified path by navigating any * `"."` or `".."` entries in the path. */ function reducePathComponents(components) { if (!ts.some(components)) return []; var reduced = [components[0]]; for (var i = 1; i < components.length; i++) { var component = components[i]; if (!component) continue; if (component === ".") continue; if (component === "..") { if (reduced.length > 1) { if (reduced[reduced.length - 1] !== "..") { reduced.pop(); continue; } } else if (reduced[0]) continue; } reduced.push(component); } return reduced; } ts.reducePathComponents = reducePathComponents; /** * Combines paths. If a path is absolute, it replaces any previous path. Relative paths are not simplified. * * ```ts * // Non-rooted * combinePaths("path", "to", "file.ext") === "path/to/file.ext" * combinePaths("path", "dir", "..", "to", "file.ext") === "path/dir/../to/file.ext" * // POSIX * combinePaths("/path", "to", "file.ext") === "/path/to/file.ext" * combinePaths("/path", "/to", "file.ext") === "/to/file.ext" * // DOS * combinePaths("c:/path", "to", "file.ext") === "c:/path/to/file.ext" * combinePaths("c:/path", "c:/to", "file.ext") === "c:/to/file.ext" * // URL * combinePaths("file:///path", "to", "file.ext") === "file:///path/to/file.ext" * combinePaths("file:///path", "file:///to", "file.ext") === "file:///to/file.ext" * ``` */ function combinePaths(path) { var paths = []; for (var _i = 1; _i < arguments.length; _i++) { paths[_i - 1] = arguments[_i]; } if (path) path = normalizeSlashes(path); for (var _a = 0, paths_1 = paths; _a < paths_1.length; _a++) { var relativePath = paths_1[_a]; if (!relativePath) continue; relativePath = normalizeSlashes(relativePath); if (!path || getRootLength(relativePath) !== 0) { path = relativePath; } else { path = ensureTrailingDirectorySeparator(path) + relativePath; } } return path; } ts.combinePaths = combinePaths; /** * Combines and resolves paths. If a path is absolute, it replaces any previous path. Any * `.` and `..` path components are resolved. Trailing directory separators are preserved. * * ```ts * resolvePath("/path", "to", "file.ext") === "path/to/file.ext" * resolvePath("/path", "to", "file.ext/") === "path/to/file.ext/" * resolvePath("/path", "dir", "..", "to", "file.ext") === "path/to/file.ext" * ``` */ function resolvePath(path) { var paths = []; for (var _i = 1; _i < arguments.length; _i++) { paths[_i - 1] = arguments[_i]; } return normalizePath(ts.some(paths) ? combinePaths.apply(void 0, __spreadArrays([path], paths)) : normalizeSlashes(path)); } ts.resolvePath = resolvePath; /** * Parse a path into an array containing a root component (at index 0) and zero or more path * components (at indices > 0). The result is normalized. * If the path is relative, the root component is `""`. * If the path is absolute, the root component includes the first path separator (`/`). * * ```ts * getNormalizedPathComponents("to/dir/../file.ext", "/path/") === ["/", "path", "to", "file.ext"] * ``` */ function getNormalizedPathComponents(path, currentDirectory) { return reducePathComponents(getPathComponents(path, currentDirectory)); } ts.getNormalizedPathComponents = getNormalizedPathComponents; function getNormalizedAbsolutePath(fileName, currentDirectory) { return getPathFromPathComponents(getNormalizedPathComponents(fileName, currentDirectory)); } ts.getNormalizedAbsolutePath = getNormalizedAbsolutePath; function normalizePath(path) { path = normalizeSlashes(path); var normalized = getPathFromPathComponents(reducePathComponents(getPathComponents(path))); return normalized && hasTrailingDirectorySeparator(path) ? ensureTrailingDirectorySeparator(normalized) : normalized; } ts.normalizePath = normalizePath; function getPathWithoutRoot(pathComponents) { if (pathComponents.length === 0) return ""; return pathComponents.slice(1).join(ts.directorySeparator); } function getNormalizedAbsolutePathWithoutRoot(fileName, currentDirectory) { return getPathWithoutRoot(getNormalizedPathComponents(fileName, currentDirectory)); } ts.getNormalizedAbsolutePathWithoutRoot = getNormalizedAbsolutePathWithoutRoot; function toPath(fileName, basePath, getCanonicalFileName) { var nonCanonicalizedPath = isRootedDiskPath(fileName) ? normalizePath(fileName) : getNormalizedAbsolutePath(fileName, basePath); return getCanonicalFileName(nonCanonicalizedPath); } ts.toPath = toPath; function normalizePathAndParts(path) { path = normalizeSlashes(path); var _a = reducePathComponents(getPathComponents(path)), root = _a[0], parts = _a.slice(1); if (parts.length) { var joinedParts = root + parts.join(ts.directorySeparator); return { path: hasTrailingDirectorySeparator(path) ? ensureTrailingDirectorySeparator(joinedParts) : joinedParts, parts: parts }; } else { return { path: root, parts: parts }; } } ts.normalizePathAndParts = normalizePathAndParts; function removeTrailingDirectorySeparator(path) { if (hasTrailingDirectorySeparator(path)) { return path.substr(0, path.length - 1); } return path; } ts.removeTrailingDirectorySeparator = removeTrailingDirectorySeparator; function ensureTrailingDirectorySeparator(path) { if (!hasTrailingDirectorySeparator(path)) { return path + ts.directorySeparator; } return path; } ts.ensureTrailingDirectorySeparator = ensureTrailingDirectorySeparator; /** * Ensures a path is either absolute (prefixed with `/` or `c:`) or dot-relative (prefixed * with `./` or `../`) so as not to be confused with an unprefixed module name. * * ```ts * ensurePathIsNonModuleName("/path/to/file.ext") === "/path/to/file.ext" * ensurePathIsNonModuleName("./path/to/file.ext") === "./path/to/file.ext" * ensurePathIsNonModuleName("../path/to/file.ext") === "../path/to/file.ext" * ensurePathIsNonModuleName("path/to/file.ext") === "./path/to/file.ext" * ``` */ function ensurePathIsNonModuleName(path) { return !pathIsAbsolute(path) && !pathIsRelative(path) ? "./" + path : path; } ts.ensurePathIsNonModuleName = ensurePathIsNonModuleName; function changeAnyExtension(path, ext, extensions, ignoreCase) { var pathext = extensions !== undefined && ignoreCase !== undefined ? getAnyExtensionFromPath(path, extensions, ignoreCase) : getAnyExtensionFromPath(path); return pathext ? path.slice(0, path.length - pathext.length) + (ts.startsWith(ext, ".") ? ext : "." + ext) : path; } ts.changeAnyExtension = changeAnyExtension; //// Path Comparisons // check path for these segments: '', '.'. '..' var relativePathSegmentRegExp = /(^|\/)\.{0,2}($|\/)/; function comparePathsWorker(a, b, componentComparer) { if (a === b) return 0 /* EqualTo */; if (a === undefined) return -1 /* LessThan */; if (b === undefined) return 1 /* GreaterThan */; // NOTE: Performance optimization - shortcut if the root segments differ as there would be no // need to perform path reduction. var aRoot = a.substring(0, getRootLength(a)); var bRoot = b.substring(0, getRootLength(b)); var result = ts.compareStringsCaseInsensitive(aRoot, bRoot); if (result !== 0 /* EqualTo */) { return result; } // NOTE: Performance optimization - shortcut if there are no relative path segments in // the non-root portion of the path var aRest = a.substring(aRoot.length); var bRest = b.substring(bRoot.length); if (!relativePathSegmentRegExp.test(aRest) && !relativePathSegmentRegExp.test(bRest)) { return componentComparer(aRest, bRest); } // The path contains a relative path segment. Normalize the paths and perform a slower component // by component comparison. var aComponents = reducePathComponents(getPathComponents(a)); var bComponents = reducePathComponents(getPathComponents(b)); var sharedLength = Math.min(aComponents.length, bComponents.length); for (var i = 1; i < sharedLength; i++) { var result_1 = componentComparer(aComponents[i], bComponents[i]); if (result_1 !== 0 /* EqualTo */) { return result_1; } } return ts.compareValues(aComponents.length, bComponents.length); } /** * Performs a case-sensitive comparison of two paths. Path roots are always compared case-insensitively. */ function comparePathsCaseSensitive(a, b) { return comparePathsWorker(a, b, ts.compareStringsCaseSensitive); } ts.comparePathsCaseSensitive = comparePathsCaseSensitive; /** * Performs a case-insensitive comparison of two paths. */ function comparePathsCaseInsensitive(a, b) { return comparePathsWorker(a, b, ts.compareStringsCaseInsensitive); } ts.comparePathsCaseInsensitive = comparePathsCaseInsensitive; function comparePaths(a, b, currentDirectory, ignoreCase) { if (typeof currentDirectory === "string") { a = combinePaths(currentDirectory, a); b = combinePaths(currentDirectory, b); } else if (typeof currentDirectory === "boolean") { ignoreCase = currentDirectory; } return comparePathsWorker(a, b, ts.getStringComparer(ignoreCase)); } ts.comparePaths = comparePaths; function containsPath(parent, child, currentDirectory, ignoreCase) { if (typeof currentDirectory === "string") { parent = combinePaths(currentDirectory, parent); child = combinePaths(currentDirectory, child); } else if (typeof currentDirectory === "boolean") { ignoreCase = currentDirectory; } if (parent === undefined || child === undefined) return false; if (parent === child) return true; var parentComponents = reducePathComponents(getPathComponents(parent)); var childComponents = reducePathComponents(getPathComponents(child)); if (childComponents.length < parentComponents.length) { return false; } var componentEqualityComparer = ignoreCase ? ts.equateStringsCaseInsensitive : ts.equateStringsCaseSensitive; for (var i = 0; i < parentComponents.length; i++) { var equalityComparer = i === 0 ? ts.equateStringsCaseInsensitive : componentEqualityComparer; if (!equalityComparer(parentComponents[i], childComponents[i])) { return false; } } return true; } ts.containsPath = containsPath; /** * Determines whether `fileName` starts with the specified `directoryName` using the provided path canonicalization callback. * Comparison is case-sensitive between the canonical paths. * * @deprecated Use `containsPath` if possible. */ function startsWithDirectory(fileName, directoryName, getCanonicalFileName) { var canonicalFileName = getCanonicalFileName(fileName); var canonicalDirectoryName = getCanonicalFileName(directoryName); return ts.startsWith(canonicalFileName, canonicalDirectoryName + "/") || ts.startsWith(canonicalFileName, canonicalDirectoryName + "\\"); } ts.startsWithDirectory = startsWithDirectory; //// Relative Paths function getPathComponentsRelativeTo(from, to, stringEqualityComparer, getCanonicalFileName) { var fromComponents = reducePathComponents(getPathComponents(from)); var toComponents = reducePathComponents(getPathComponents(to)); var start; for (start = 0; start < fromComponents.length && start < toComponents.length; start++) { var fromComponent = getCanonicalFileName(fromComponents[start]); var toComponent = getCanonicalFileName(toComponents[start]); var comparer = start === 0 ? ts.equateStringsCaseInsensitive : stringEqualityComparer; if (!comparer(fromComponent, toComponent)) break; } if (start === 0) { return toComponents; } var components = toComponents.slice(start); var relative = []; for (; start < fromComponents.length; start++) { relative.push(".."); } return __spreadArrays([""], relative, components); } ts.getPathComponentsRelativeTo = getPathComponentsRelativeTo; function getRelativePathFromDirectory(fromDirectory, to, getCanonicalFileNameOrIgnoreCase) { ts.Debug.assert((getRootLength(fromDirectory) > 0) === (getRootLength(to) > 0), "Paths must either both be absolute or both be relative"); var getCanonicalFileName = typeof getCanonicalFileNameOrIgnoreCase === "function" ? getCanonicalFileNameOrIgnoreCase : ts.identity; var ignoreCase = typeof getCanonicalFileNameOrIgnoreCase === "boolean" ? getCanonicalFileNameOrIgnoreCase : false; var pathComponents = getPathComponentsRelativeTo(fromDirectory, to, ignoreCase ? ts.equateStringsCaseInsensitive : ts.equateStringsCaseSensitive, getCanonicalFileName); return getPathFromPathComponents(pathComponents); } ts.getRelativePathFromDirectory = getRelativePathFromDirectory; function convertToRelativePath(absoluteOrRelativePath, basePath, getCanonicalFileName) { return !isRootedDiskPath(absoluteOrRelativePath) ? absoluteOrRelativePath : getRelativePathToDirectoryOrUrl(basePath, absoluteOrRelativePath, basePath, getCanonicalFileName, /*isAbsolutePathAnUrl*/ false); } ts.convertToRelativePath = convertToRelativePath; function getRelativePathFromFile(from, to, getCanonicalFileName) { return ensurePathIsNonModuleName(getRelativePathFromDirectory(getDirectoryPath(from), to, getCanonicalFileName)); } ts.getRelativePathFromFile = getRelativePathFromFile; function getRelativePathToDirectoryOrUrl(directoryPathOrUrl, relativeOrAbsolutePath, currentDirectory, getCanonicalFileName, isAbsolutePathAnUrl) { var pathComponents = getPathComponentsRelativeTo(resolvePath(currentDirectory, directoryPathOrUrl), resolvePath(currentDirectory, relativeOrAbsolutePath), ts.equateStringsCaseSensitive, getCanonicalFileName); var firstComponent = pathComponents[0]; if (isAbsolutePathAnUrl && isRootedDiskPath(firstComponent)) { var prefix = firstComponent.charAt(0) === ts.directorySeparator ? "file://" : "file:///"; pathComponents[0] = prefix + firstComponent; } return getPathFromPathComponents(pathComponents); } ts.getRelativePathToDirectoryOrUrl = getRelativePathToDirectoryOrUrl; function forEachAncestorDirectory(directory, callback) { while (true) { var result = callback(directory); if (result !== undefined) { return result; } var parentPath = getDirectoryPath(directory); if (parentPath === directory) { return undefined; } directory = parentPath; } } ts.forEachAncestorDirectory = forEachAncestorDirectory; function isNodeModulesDirectory(dirPath) { return ts.endsWith(dirPath, "/node_modules"); } ts.isNodeModulesDirectory = isNodeModulesDirectory; })(ts || (ts = {})); // // generated from './diagnosticInformationMap.generated.ts' by 'src/compiler' /* @internal */ var ts; (function (ts) { function diag(code, category, key, message, reportsUnnecessary, elidedInCompatabilityPyramid) { return { code: code, category: category, key: key, message: message, reportsUnnecessary: reportsUnnecessary, elidedInCompatabilityPyramid: elidedInCompatabilityPyramid }; } ts.Diagnostics = { Unterminated_string_literal: diag(1002, ts.DiagnosticCategory.Error, "Unterminated_string_literal_1002", "Unterminated string literal."), Identifier_expected: diag(1003, ts.DiagnosticCategory.Error, "Identifier_expected_1003", "Identifier expected."), _0_expected: diag(1005, ts.DiagnosticCategory.Error, "_0_expected_1005", "'{0}' expected."), A_file_cannot_have_a_reference_to_itself: diag(1006, ts.DiagnosticCategory.Error, "A_file_cannot_have_a_reference_to_itself_1006", "A file cannot have a reference to itself."), The_parser_expected_to_find_a_to_match_the_token_here: diag(1007, ts.DiagnosticCategory.Error, "The_parser_expected_to_find_a_to_match_the_token_here_1007", "The parser expected to find a '}' to match the '{' token here."), Trailing_comma_not_allowed: diag(1009, ts.DiagnosticCategory.Error, "Trailing_comma_not_allowed_1009", "Trailing comma not allowed."), Asterisk_Slash_expected: diag(1010, ts.DiagnosticCategory.Error, "Asterisk_Slash_expected_1010", "'*/' expected."), An_element_access_expression_should_take_an_argument: diag(1011, ts.DiagnosticCategory.Error, "An_element_access_expression_should_take_an_argument_1011", "An element access expression should take an argument."), Unexpected_token: diag(1012, ts.DiagnosticCategory.Error, "Unexpected_token_1012", "Unexpected token."), A_rest_parameter_or_binding_pattern_may_not_have_a_trailing_comma: diag(1013, ts.DiagnosticCategory.Error, "A_rest_parameter_or_binding_pattern_may_not_have_a_trailing_comma_1013", "A rest parameter or binding pattern may not have a trailing comma."), A_rest_parameter_must_be_last_in_a_parameter_list: diag(1014, ts.DiagnosticCategory.Error, "A_rest_parameter_must_be_last_in_a_parameter_list_1014", "A rest parameter must be last in a parameter list."), Parameter_cannot_have_question_mark_and_initializer: diag(1015, ts.DiagnosticCategory.Error, "Parameter_cannot_have_question_mark_and_initializer_1015", "Parameter cannot have question mark and initializer."), A_required_parameter_cannot_follow_an_optional_parameter: diag(1016, ts.DiagnosticCategory.Error, "A_required_parameter_cannot_follow_an_optional_parameter_1016", "A required parameter cannot follow an optional parameter."), An_index_signature_cannot_have_a_rest_parameter: diag(1017, ts.DiagnosticCategory.Error, "An_index_signature_cannot_have_a_rest_parameter_1017", "An index signature cannot have a rest parameter."), An_index_signature_parameter_cannot_have_an_accessibility_modifier: diag(1018, ts.DiagnosticCategory.Error, "An_index_signature_parameter_cannot_have_an_accessibility_modifier_1018", "An index signature parameter cannot have an accessibility modifier."), An_index_signature_parameter_cannot_have_a_question_mark: diag(1019, ts.DiagnosticCategory.Error, "An_index_signature_parameter_cannot_have_a_question_mark_1019", "An index signature parameter cannot have a question mark."), An_index_signature_parameter_cannot_have_an_initializer: diag(1020, ts.DiagnosticCategory.Error, "An_index_signature_parameter_cannot_have_an_initializer_1020", "An index signature parameter cannot have an initializer."), An_index_signature_must_have_a_type_annotation: diag(1021, ts.DiagnosticCategory.Error, "An_index_signature_must_have_a_type_annotation_1021", "An index signature must have a type annotation."), An_index_signature_parameter_must_have_a_type_annotation: diag(1022, ts.DiagnosticCategory.Error, "An_index_signature_parameter_must_have_a_type_annotation_1022", "An index signature parameter must have a type annotation."), An_index_signature_parameter_type_must_be_either_string_or_number: diag(1023, ts.DiagnosticCategory.Error, "An_index_signature_parameter_type_must_be_either_string_or_number_1023", "An index signature parameter type must be either 'string' or 'number'."), readonly_modifier_can_only_appear_on_a_property_declaration_or_index_signature: diag(1024, ts.DiagnosticCategory.Error, "readonly_modifier_can_only_appear_on_a_property_declaration_or_index_signature_1024", "'readonly' modifier can only appear on a property declaration or index signature."), An_index_signature_cannot_have_a_trailing_comma: diag(1025, ts.DiagnosticCategory.Error, "An_index_signature_cannot_have_a_trailing_comma_1025", "An index signature cannot have a trailing comma."), Accessibility_modifier_already_seen: diag(1028, ts.DiagnosticCategory.Error, "Accessibility_modifier_already_seen_1028", "Accessibility modifier already seen."), _0_modifier_must_precede_1_modifier: diag(1029, ts.DiagnosticCategory.Error, "_0_modifier_must_precede_1_modifier_1029", "'{0}' modifier must precede '{1}' modifier."), _0_modifier_already_seen: diag(1030, ts.DiagnosticCategory.Error, "_0_modifier_already_seen_1030", "'{0}' modifier already seen."), _0_modifier_cannot_appear_on_a_class_element: diag(1031, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_a_class_element_1031", "'{0}' modifier cannot appear on a class element."), super_must_be_followed_by_an_argument_list_or_member_access: diag(1034, ts.DiagnosticCategory.Error, "super_must_be_followed_by_an_argument_list_or_member_access_1034", "'super' must be followed by an argument list or member access."), Only_ambient_modules_can_use_quoted_names: diag(1035, ts.DiagnosticCategory.Error, "Only_ambient_modules_can_use_quoted_names_1035", "Only ambient modules can use quoted names."), Statements_are_not_allowed_in_ambient_contexts: diag(1036, ts.DiagnosticCategory.Error, "Statements_are_not_allowed_in_ambient_contexts_1036", "Statements are not allowed in ambient contexts."), A_declare_modifier_cannot_be_used_in_an_already_ambient_context: diag(1038, ts.DiagnosticCategory.Error, "A_declare_modifier_cannot_be_used_in_an_already_ambient_context_1038", "A 'declare' modifier cannot be used in an already ambient context."), Initializers_are_not_allowed_in_ambient_contexts: diag(1039, ts.DiagnosticCategory.Error, "Initializers_are_not_allowed_in_ambient_contexts_1039", "Initializers are not allowed in ambient contexts."), _0_modifier_cannot_be_used_in_an_ambient_context: diag(1040, ts.DiagnosticCategory.Error, "_0_modifier_cannot_be_used_in_an_ambient_context_1040", "'{0}' modifier cannot be used in an ambient context."), _0_modifier_cannot_be_used_with_a_class_declaration: diag(1041, ts.DiagnosticCategory.Error, "_0_modifier_cannot_be_used_with_a_class_declaration_1041", "'{0}' modifier cannot be used with a class declaration."), _0_modifier_cannot_be_used_here: diag(1042, ts.DiagnosticCategory.Error, "_0_modifier_cannot_be_used_here_1042", "'{0}' modifier cannot be used here."), _0_modifier_cannot_appear_on_a_data_property: diag(1043, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_a_data_property_1043", "'{0}' modifier cannot appear on a data property."), _0_modifier_cannot_appear_on_a_module_or_namespace_element: diag(1044, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_a_module_or_namespace_element_1044", "'{0}' modifier cannot appear on a module or namespace element."), A_0_modifier_cannot_be_used_with_an_interface_declaration: diag(1045, ts.DiagnosticCategory.Error, "A_0_modifier_cannot_be_used_with_an_interface_declaration_1045", "A '{0}' modifier cannot be used with an interface declaration."), Top_level_declarations_in_d_ts_files_must_start_with_either_a_declare_or_export_modifier: diag(1046, ts.DiagnosticCategory.Error, "Top_level_declarations_in_d_ts_files_must_start_with_either_a_declare_or_export_modifier_1046", "Top-level declarations in .d.ts files must start with either a 'declare' or 'export' modifier."), A_rest_parameter_cannot_be_optional: diag(1047, ts.DiagnosticCategory.Error, "A_rest_parameter_cannot_be_optional_1047", "A rest parameter cannot be optional."), A_rest_parameter_cannot_have_an_initializer: diag(1048, ts.DiagnosticCategory.Error, "A_rest_parameter_cannot_have_an_initializer_1048", "A rest parameter cannot have an initializer."), A_set_accessor_must_have_exactly_one_parameter: diag(1049, ts.DiagnosticCategory.Error, "A_set_accessor_must_have_exactly_one_parameter_1049", "A 'set' accessor must have exactly one parameter."), A_set_accessor_cannot_have_an_optional_parameter: diag(1051, ts.DiagnosticCategory.Error, "A_set_accessor_cannot_have_an_optional_parameter_1051", "A 'set' accessor cannot have an optional parameter."), A_set_accessor_parameter_cannot_have_an_initializer: diag(1052, ts.DiagnosticCategory.Error, "A_set_accessor_parameter_cannot_have_an_initializer_1052", "A 'set' accessor parameter cannot have an initializer."), A_set_accessor_cannot_have_rest_parameter: diag(1053, ts.DiagnosticCategory.Error, "A_set_accessor_cannot_have_rest_parameter_1053", "A 'set' accessor cannot have rest parameter."), A_get_accessor_cannot_have_parameters: diag(1054, ts.DiagnosticCategory.Error, "A_get_accessor_cannot_have_parameters_1054", "A 'get' accessor cannot have parameters."), Type_0_is_not_a_valid_async_function_return_type_in_ES5_SlashES3_because_it_does_not_refer_to_a_Promise_compatible_constructor_value: diag(1055, ts.DiagnosticCategory.Error, "Type_0_is_not_a_valid_async_function_return_type_in_ES5_SlashES3_because_it_does_not_refer_to_a_Prom_1055", "Type '{0}' is not a valid async function return type in ES5/ES3 because it does not refer to a Promise-compatible constructor value."), Accessors_are_only_available_when_targeting_ECMAScript_5_and_higher: diag(1056, ts.DiagnosticCategory.Error, "Accessors_are_only_available_when_targeting_ECMAScript_5_and_higher_1056", "Accessors are only available when targeting ECMAScript 5 and higher."), An_async_function_or_method_must_have_a_valid_awaitable_return_type: diag(1057, ts.DiagnosticCategory.Error, "An_async_function_or_method_must_have_a_valid_awaitable_return_type_1057", "An async function or method must have a valid awaitable return type."), The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member: diag(1058, ts.DiagnosticCategory.Error, "The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_t_1058", "The return type of an async function must either be a valid promise or must not contain a callable 'then' member."), A_promise_must_have_a_then_method: diag(1059, ts.DiagnosticCategory.Error, "A_promise_must_have_a_then_method_1059", "A promise must have a 'then' method."), The_first_parameter_of_the_then_method_of_a_promise_must_be_a_callback: diag(1060, ts.DiagnosticCategory.Error, "The_first_parameter_of_the_then_method_of_a_promise_must_be_a_callback_1060", "The first parameter of the 'then' method of a promise must be a callback."), Enum_member_must_have_initializer: diag(1061, ts.DiagnosticCategory.Error, "Enum_member_must_have_initializer_1061", "Enum member must have initializer."), Type_is_referenced_directly_or_indirectly_in_the_fulfillment_callback_of_its_own_then_method: diag(1062, ts.DiagnosticCategory.Error, "Type_is_referenced_directly_or_indirectly_in_the_fulfillment_callback_of_its_own_then_method_1062", "Type is referenced directly or indirectly in the fulfillment callback of its own 'then' method."), An_export_assignment_cannot_be_used_in_a_namespace: diag(1063, ts.DiagnosticCategory.Error, "An_export_assignment_cannot_be_used_in_a_namespace_1063", "An export assignment cannot be used in a namespace."), The_return_type_of_an_async_function_or_method_must_be_the_global_Promise_T_type: diag(1064, ts.DiagnosticCategory.Error, "The_return_type_of_an_async_function_or_method_must_be_the_global_Promise_T_type_1064", "The return type of an async function or method must be the global Promise type."), In_ambient_enum_declarations_member_initializer_must_be_constant_expression: diag(1066, ts.DiagnosticCategory.Error, "In_ambient_enum_declarations_member_initializer_must_be_constant_expression_1066", "In ambient enum declarations member initializer must be constant expression."), Unexpected_token_A_constructor_method_accessor_or_property_was_expected: diag(1068, ts.DiagnosticCategory.Error, "Unexpected_token_A_constructor_method_accessor_or_property_was_expected_1068", "Unexpected token. A constructor, method, accessor, or property was expected."), Unexpected_token_A_type_parameter_name_was_expected_without_curly_braces: diag(1069, ts.DiagnosticCategory.Error, "Unexpected_token_A_type_parameter_name_was_expected_without_curly_braces_1069", "Unexpected token. A type parameter name was expected without curly braces."), _0_modifier_cannot_appear_on_a_type_member: diag(1070, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_a_type_member_1070", "'{0}' modifier cannot appear on a type member."), _0_modifier_cannot_appear_on_an_index_signature: diag(1071, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_an_index_signature_1071", "'{0}' modifier cannot appear on an index signature."), A_0_modifier_cannot_be_used_with_an_import_declaration: diag(1079, ts.DiagnosticCategory.Error, "A_0_modifier_cannot_be_used_with_an_import_declaration_1079", "A '{0}' modifier cannot be used with an import declaration."), Invalid_reference_directive_syntax: diag(1084, ts.DiagnosticCategory.Error, "Invalid_reference_directive_syntax_1084", "Invalid 'reference' directive syntax."), Octal_literals_are_not_available_when_targeting_ECMAScript_5_and_higher_Use_the_syntax_0: diag(1085, ts.DiagnosticCategory.Error, "Octal_literals_are_not_available_when_targeting_ECMAScript_5_and_higher_Use_the_syntax_0_1085", "Octal literals are not available when targeting ECMAScript 5 and higher. Use the syntax '{0}'."), _0_modifier_cannot_appear_on_a_constructor_declaration: diag(1089, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_a_constructor_declaration_1089", "'{0}' modifier cannot appear on a constructor declaration."), _0_modifier_cannot_appear_on_a_parameter: diag(1090, ts.DiagnosticCategory.Error, "_0_modifier_cannot_appear_on_a_parameter_1090", "'{0}' modifier cannot appear on a parameter."), Only_a_single_variable_declaration_is_allowed_in_a_for_in_statement: diag(1091, ts.DiagnosticCategory.Error, "Only_a_single_variable_declaration_is_allowed_in_a_for_in_statement_1091", "Only a single variable declaration is allowed in a 'for...in' statement."), Type_parameters_cannot_appear_on_a_constructor_declaration: diag(1092, ts.DiagnosticCategory.Error, "Type_parameters_cannot_appear_on_a_constructor_declaration_1092", "Type parameters cannot appear on a constructor declaration."), Type_annotation_cannot_appear_on_a_constructor_declaration: diag(1093, ts.DiagnosticCategory.Error, "Type_annotation_cannot_appear_on_a_constructor_declaration_1093", "Type annotation cannot appear on a constructor declaration."), An_accessor_cannot_have_type_parameters: diag(1094, ts.DiagnosticCategory.Error, "An_accessor_cannot_have_type_parameters_1094", "An accessor cannot have type parameters."), A_set_accessor_cannot_have_a_return_type_annotation: diag(1095, ts.DiagnosticCategory.Error, "A_set_accessor_cannot_have_a_return_type_annotation_1095", "A 'set' accessor cannot have a return type annotation."), An_index_signature_must_have_exactly_one_parameter: diag(1096, ts.DiagnosticCategory.Error, "An_index_signature_must_have_exactly_one_parameter_1096", "An index signature must have exactly one parameter."), _0_list_cannot_be_empty: diag(1097, ts.DiagnosticCategory.Error, "_0_list_cannot_be_empty_1097", "'{0}' list cannot be empty."), Type_parameter_list_cannot_be_empty: diag(1098, ts.DiagnosticCategory.Error, "Type_parameter_list_cannot_be_empty_1098", "Type parameter list cannot be empty."), Type_argument_list_cannot_be_empty: diag(1099, ts.DiagnosticCategory.Error, "Type_argument_list_cannot_be_empty_1099", "Type argument list cannot be empty."), Invalid_use_of_0_in_strict_mode: diag(1100, ts.DiagnosticCategory.Error, "Invalid_use_of_0_in_strict_mode_1100", "Invalid use of '{0}' in strict mode."), with_statements_are_not_allowed_in_strict_mode: diag(1101, ts.DiagnosticCategory.Error, "with_statements_are_not_allowed_in_strict_mode_1101", "'with' statements are not allowed in strict mode."), delete_cannot_be_called_on_an_identifier_in_strict_mode: diag(1102, ts.DiagnosticCategory.Error, "delete_cannot_be_called_on_an_identifier_in_strict_mode_1102", "'delete' cannot be called on an identifier in strict mode."), A_for_await_of_statement_is_only_allowed_within_an_async_function_or_async_generator: diag(1103, ts.DiagnosticCategory.Error, "A_for_await_of_statement_is_only_allowed_within_an_async_function_or_async_generator_1103", "A 'for-await-of' statement is only allowed within an async function or async generator."), A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement: diag(1104, ts.DiagnosticCategory.Error, "A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement_1104", "A 'continue' statement can only be used within an enclosing iteration statement."), A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement: diag(1105, ts.DiagnosticCategory.Error, "A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement_1105", "A 'break' statement can only be used within an enclosing iteration or switch statement."), Jump_target_cannot_cross_function_boundary: diag(1107, ts.DiagnosticCategory.Error, "Jump_target_cannot_cross_function_boundary_1107", "Jump target cannot cross function boundary."), A_return_statement_can_only_be_used_within_a_function_body: diag(1108, ts.DiagnosticCategory.Error, "A_return_statement_can_only_be_used_within_a_function_body_1108", "A 'return' statement can only be used within a function body."), Expression_expected: diag(1109, ts.DiagnosticCategory.Error, "Expression_expected_1109", "Expression expected."), Type_expected: diag(1110, ts.DiagnosticCategory.Error, "Type_expected_1110", "Type expected."), A_default_clause_cannot_appear_more_than_once_in_a_switch_statement: diag(1113, ts.DiagnosticCategory.Error, "A_default_clause_cannot_appear_more_than_once_in_a_switch_statement_1113", "A 'default' clause cannot appear more than once in a 'switch' statement."), Duplicate_label_0: diag(1114, ts.DiagnosticCategory.Error, "Duplicate_label_0_1114", "Duplicate label '{0}'."), A_continue_statement_can_only_jump_to_a_label_of_an_enclosing_iteration_statement: diag(1115, ts.DiagnosticCategory.Error, "A_continue_statement_can_only_jump_to_a_label_of_an_enclosing_iteration_statement_1115", "A 'continue' statement can only jump to a label of an enclosing iteration statement."), A_break_statement_can_only_jump_to_a_label_of_an_enclosing_statement: diag(1116, ts.DiagnosticCategory.Error, "A_break_statement_can_only_jump_to_a_label_of_an_enclosing_statement_1116", "A 'break' statement can only jump to a label of an enclosing statement."), An_object_literal_cannot_have_multiple_properties_with_the_same_name_in_strict_mode: diag(1117, ts.DiagnosticCategory.Error, "An_object_literal_cannot_have_multiple_properties_with_the_same_name_in_strict_mode_1117", "An object literal cannot have multiple properties with the same name in strict mode."), An_object_literal_cannot_have_multiple_get_Slashset_accessors_with_the_same_name: diag(1118, ts.DiagnosticCategory.Error, "An_object_literal_cannot_have_multiple_get_Slashset_accessors_with_the_same_name_1118", "An object literal cannot have multiple get/set accessors with the same name."), An_object_literal_cannot_have_property_and_accessor_with_the_same_name: diag(1119, ts.DiagnosticCategory.Error, "An_object_literal_cannot_have_property_and_accessor_with_the_same_name_1119", "An object literal cannot have property and accessor with the same name."), An_export_assignment_cannot_have_modifiers: diag(1120, ts.DiagnosticCategory.Error, "An_export_assignment_cannot_have_modifiers_1120", "An export assignment cannot have modifiers."), Octal_literals_are_not_allowed_in_strict_mode: diag(1121, ts.DiagnosticCategory.Error, "Octal_literals_are_not_allowed_in_strict_mode_1121", "Octal literals are not allowed in strict mode."), Variable_declaration_list_cannot_be_empty: diag(1123, ts.DiagnosticCategory.Error, "Variable_declaration_list_cannot_be_empty_1123", "Variable declaration list cannot be empty."), Digit_expected: diag(1124, ts.DiagnosticCategory.Error, "Digit_expected_1124", "Digit expected."), Hexadecimal_digit_expected: diag(1125, ts.DiagnosticCategory.Error, "Hexadecimal_digit_expected_1125", "Hexadecimal digit expected."), Unexpected_end_of_text: diag(1126, ts.DiagnosticCategory.Error, "Unexpected_end_of_text_1126", "Unexpected end of text."), Invalid_character: diag(1127, ts.DiagnosticCategory.Error, "Invalid_character_1127", "Invalid character."), Declaration_or_statement_expected: diag(1128, ts.DiagnosticCategory.Error, "Declaration_or_statement_expected_1128", "Declaration or statement expected."), Statement_expected: diag(1129, ts.DiagnosticCategory.Error, "Statement_expected_1129", "Statement expected."), case_or_default_expected: diag(1130, ts.DiagnosticCategory.Error, "case_or_default_expected_1130", "'case' or 'default' expected."), Property_or_signature_expected: diag(1131, ts.DiagnosticCategory.Error, "Property_or_signature_expected_1131", "Property or signature expected."), Enum_member_expected: diag(1132, ts.DiagnosticCategory.Error, "Enum_member_expected_1132", "Enum member expected."), Variable_declaration_expected: diag(1134, ts.DiagnosticCategory.Error, "Variable_declaration_expected_1134", "Variable declaration expected."), Argument_expression_expected: diag(1135, ts.DiagnosticCategory.Error, "Argument_expression_expected_1135", "Argument expression expected."), Property_assignment_expected: diag(1136, ts.DiagnosticCategory.Error, "Property_assignment_expected_1136", "Property assignment expected."), Expression_or_comma_expected: diag(1137, ts.DiagnosticCategory.Error, "Expression_or_comma_expected_1137", "Expression or comma expected."), Parameter_declaration_expected: diag(1138, ts.DiagnosticCategory.Error, "Parameter_declaration_expected_1138", "Parameter declaration expected."), Type_parameter_declaration_expected: diag(1139, ts.DiagnosticCategory.Error, "Type_parameter_declaration_expected_1139", "Type parameter declaration expected."), Type_argument_expected: diag(1140, ts.DiagnosticCategory.Error, "Type_argument_expected_1140", "Type argument expected."), String_literal_expected: diag(1141, ts.DiagnosticCategory.Error, "String_literal_expected_1141", "String literal expected."), Line_break_not_permitted_here: diag(1142, ts.DiagnosticCategory.Error, "Line_break_not_permitted_here_1142", "Line break not permitted here."), or_expected: diag(1144, ts.DiagnosticCategory.Error, "or_expected_1144", "'{' or ';' expected."), Declaration_expected: diag(1146, ts.DiagnosticCategory.Error, "Declaration_expected_1146", "Declaration expected."), Import_declarations_in_a_namespace_cannot_reference_a_module: diag(1147, ts.DiagnosticCategory.Error, "Import_declarations_in_a_namespace_cannot_reference_a_module_1147", "Import declarations in a namespace cannot reference a module."), Cannot_use_imports_exports_or_module_augmentations_when_module_is_none: diag(1148, ts.DiagnosticCategory.Error, "Cannot_use_imports_exports_or_module_augmentations_when_module_is_none_1148", "Cannot use imports, exports, or module augmentations when '--module' is 'none'."), File_name_0_differs_from_already_included_file_name_1_only_in_casing: diag(1149, ts.DiagnosticCategory.Error, "File_name_0_differs_from_already_included_file_name_1_only_in_casing_1149", "File name '{0}' differs from already included file name '{1}' only in casing."), const_declarations_must_be_initialized: diag(1155, ts.DiagnosticCategory.Error, "const_declarations_must_be_initialized_1155", "'const' declarations must be initialized."), const_declarations_can_only_be_declared_inside_a_block: diag(1156, ts.DiagnosticCategory.Error, "const_declarations_can_only_be_declared_inside_a_block_1156", "'const' declarations can only be declared inside a block."), let_declarations_can_only_be_declared_inside_a_block: diag(1157, ts.DiagnosticCategory.Error, "let_declarations_can_only_be_declared_inside_a_block_1157", "'let' declarations can only be declared inside a block."), Unterminated_template_literal: diag(1160, ts.DiagnosticCategory.Error, "Unterminated_template_literal_1160", "Unterminated template literal."), Unterminated_regular_expression_literal: diag(1161, ts.DiagnosticCategory.Error, "Unterminated_regular_expression_literal_1161", "Unterminated regular expression literal."), An_object_member_cannot_be_declared_optional: diag(1162, ts.DiagnosticCategory.Error, "An_object_member_cannot_be_declared_optional_1162", "An object member cannot be declared optional."), A_yield_expression_is_only_allowed_in_a_generator_body: diag(1163, ts.DiagnosticCategory.Error, "A_yield_expression_is_only_allowed_in_a_generator_body_1163", "A 'yield' expression is only allowed in a generator body."), Computed_property_names_are_not_allowed_in_enums: diag(1164, ts.DiagnosticCategory.Error, "Computed_property_names_are_not_allowed_in_enums_1164", "Computed property names are not allowed in enums."), A_computed_property_name_in_an_ambient_context_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type: diag(1165, ts.DiagnosticCategory.Error, "A_computed_property_name_in_an_ambient_context_must_refer_to_an_expression_whose_type_is_a_literal_t_1165", "A computed property name in an ambient context must refer to an expression whose type is a literal type or a 'unique symbol' type."), A_computed_property_name_in_a_class_property_declaration_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type: diag(1166, ts.DiagnosticCategory.Error, "A_computed_property_name_in_a_class_property_declaration_must_refer_to_an_expression_whose_type_is_a_1166", "A computed property name in a class property declaration must refer to an expression whose type is a literal type or a 'unique symbol' type."), A_computed_property_name_in_a_method_overload_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type: diag(1168, ts.DiagnosticCategory.Error, "A_computed_property_name_in_a_method_overload_must_refer_to_an_expression_whose_type_is_a_literal_ty_1168", "A computed property name in a method overload must refer to an expression whose type is a literal type or a 'unique symbol' type."), A_computed_property_name_in_an_interface_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type: diag(1169, ts.DiagnosticCategory.Error, "A_computed_property_name_in_an_interface_must_refer_to_an_expression_whose_type_is_a_literal_type_or_1169", "A computed property name in an interface must refer to an expression whose type is a literal type or a 'unique symbol' type."), A_computed_property_name_in_a_type_literal_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type: diag(1170, ts.DiagnosticCategory.Error, "A_computed_property_name_in_a_type_literal_must_refer_to_an_expression_whose_type_is_a_literal_type__1170", "A computed property name in a type literal must refer to an expression whose type is a literal type or a 'unique symbol' type."), A_comma_expression_is_not_allowed_in_a_computed_property_name: diag(1171, ts.DiagnosticCategory.Error, "A_comma_expression_is_not_allowed_in_a_computed_property_name_1171", "A comma expression is not allowed in a computed property name."), extends_clause_already_seen: diag(1172, ts.DiagnosticCategory.Error, "extends_clause_already_seen_1172", "'extends' clause already seen."), extends_clause_must_precede_implements_clause: diag(1173, ts.DiagnosticCategory.Error, "extends_clause_must_precede_implements_clause_1173", "'extends' clause must precede 'implements' clause."), Classes_can_only_extend_a_single_class: diag(1174, ts.DiagnosticCategory.Error, "Classes_can_only_extend_a_single_class_1174", "Classes can only extend a single class."), implements_clause_already_seen: diag(1175, ts.DiagnosticCategory.Error, "implements_clause_already_seen_1175", "'implements' clause already seen."), Interface_declaration_cannot_have_implements_clause: diag(1176, ts.DiagnosticCategory.Error, "Interface_declaration_cannot_have_implements_clause_1176", "Interface declaration cannot have 'implements' clause."), Binary_digit_expected: diag(1177, ts.DiagnosticCategory.Error, "Binary_digit_expected_1177", "Binary digit expected."), Octal_digit_expected: diag(1178, ts.DiagnosticCategory.Error, "Octal_digit_expected_1178", "Octal digit expected."), Unexpected_token_expected: diag(1179, ts.DiagnosticCategory.Error, "Unexpected_token_expected_1179", "Unexpected token. '{' expected."), Property_destructuring_pattern_expected: diag(1180, ts.DiagnosticCategory.Error, "Property_destructuring_pattern_expected_1180", "Property destructuring pattern expected."), Array_element_destructuring_pattern_expected: diag(1181, ts.DiagnosticCategory.Error, "Array_element_destructuring_pattern_expected_1181", "Array element destructuring pattern expected."), A_destructuring_declaration_must_have_an_initializer: diag(1182, ts.DiagnosticCategory.Error, "A_destructuring_declaration_must_have_an_initializer_1182", "A destructuring declaration must have an initializer."), An_implementation_cannot_be_declared_in_ambient_contexts: diag(1183, ts.DiagnosticCategory.Error, "An_implementation_cannot_be_declared_in_ambient_contexts_1183", "An implementation cannot be declared in ambient contexts."), Modifiers_cannot_appear_here: diag(1184, ts.DiagnosticCategory.Error, "Modifiers_cannot_appear_here_1184", "Modifiers cannot appear here."), Merge_conflict_marker_encountered: diag(1185, ts.DiagnosticCategory.Error, "Merge_conflict_marker_encountered_1185", "Merge conflict marker encountered."), A_rest_element_cannot_have_an_initializer: diag(1186, ts.DiagnosticCategory.Error, "A_rest_element_cannot_have_an_initializer_1186", "A rest element cannot have an initializer."), A_parameter_property_may_not_be_declared_using_a_binding_pattern: diag(1187, ts.DiagnosticCategory.Error, "A_parameter_property_may_not_be_declared_using_a_binding_pattern_1187", "A parameter property may not be declared using a binding pattern."), Only_a_single_variable_declaration_is_allowed_in_a_for_of_statement: diag(1188, ts.DiagnosticCategory.Error, "Only_a_single_variable_declaration_is_allowed_in_a_for_of_statement_1188", "Only a single variable declaration is allowed in a 'for...of' statement."), The_variable_declaration_of_a_for_in_statement_cannot_have_an_initializer: diag(1189, ts.DiagnosticCategory.Error, "The_variable_declaration_of_a_for_in_statement_cannot_have_an_initializer_1189", "The variable declaration of a 'for...in' statement cannot have an initializer."), The_variable_declaration_of_a_for_of_statement_cannot_have_an_initializer: diag(1190, ts.DiagnosticCategory.Error, "The_variable_declaration_of_a_for_of_statement_cannot_have_an_initializer_1190", "The variable declaration of a 'for...of' statement cannot have an initializer."), An_import_declaration_cannot_have_modifiers: diag(1191, ts.DiagnosticCategory.Error, "An_import_declaration_cannot_have_modifiers_1191", "An import declaration cannot have modifiers."), Module_0_has_no_default_export: diag(1192, ts.DiagnosticCategory.Error, "Module_0_has_no_default_export_1192", "Module '{0}' has no default export."), An_export_declaration_cannot_have_modifiers: diag(1193, ts.DiagnosticCategory.Error, "An_export_declaration_cannot_have_modifiers_1193", "An export declaration cannot have modifiers."), Export_declarations_are_not_permitted_in_a_namespace: diag(1194, ts.DiagnosticCategory.Error, "Export_declarations_are_not_permitted_in_a_namespace_1194", "Export declarations are not permitted in a namespace."), export_Asterisk_does_not_re_export_a_default: diag(1195, ts.DiagnosticCategory.Error, "export_Asterisk_does_not_re_export_a_default_1195", "'export *' does not re-export a default."), Catch_clause_variable_cannot_have_a_type_annotation: diag(1196, ts.DiagnosticCategory.Error, "Catch_clause_variable_cannot_have_a_type_annotation_1196", "Catch clause variable cannot have a type annotation."), Catch_clause_variable_cannot_have_an_initializer: diag(1197, ts.DiagnosticCategory.Error, "Catch_clause_variable_cannot_have_an_initializer_1197", "Catch clause variable cannot have an initializer."), An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive: diag(1198, ts.DiagnosticCategory.Error, "An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive_1198", "An extended Unicode escape value must be between 0x0 and 0x10FFFF inclusive."), Unterminated_Unicode_escape_sequence: diag(1199, ts.DiagnosticCategory.Error, "Unterminated_Unicode_escape_sequence_1199", "Unterminated Unicode escape sequence."), Line_terminator_not_permitted_before_arrow: diag(1200, ts.DiagnosticCategory.Error, "Line_terminator_not_permitted_before_arrow_1200", "Line terminator not permitted before arrow."), Import_assignment_cannot_be_used_when_targeting_ECMAScript_modules_Consider_using_import_Asterisk_as_ns_from_mod_import_a_from_mod_import_d_from_mod_or_another_module_format_instead: diag(1202, ts.DiagnosticCategory.Error, "Import_assignment_cannot_be_used_when_targeting_ECMAScript_modules_Consider_using_import_Asterisk_as_1202", "Import assignment cannot be used when targeting ECMAScript modules. Consider using 'import * as ns from \"mod\"', 'import {a} from \"mod\"', 'import d from \"mod\"', or another module format instead."), Export_assignment_cannot_be_used_when_targeting_ECMAScript_modules_Consider_using_export_default_or_another_module_format_instead: diag(1203, ts.DiagnosticCategory.Error, "Export_assignment_cannot_be_used_when_targeting_ECMAScript_modules_Consider_using_export_default_or__1203", "Export assignment cannot be used when targeting ECMAScript modules. Consider using 'export default' or another module format instead."), Re_exporting_a_type_when_the_isolatedModules_flag_is_provided_requires_using_export_type: diag(1205, ts.DiagnosticCategory.Error, "Re_exporting_a_type_when_the_isolatedModules_flag_is_provided_requires_using_export_type_1205", "Re-exporting a type when the '--isolatedModules' flag is provided requires using 'export type'."), Decorators_are_not_valid_here: diag(1206, ts.DiagnosticCategory.Error, "Decorators_are_not_valid_here_1206", "Decorators are not valid here."), Decorators_cannot_be_applied_to_multiple_get_Slashset_accessors_of_the_same_name: diag(1207, ts.DiagnosticCategory.Error, "Decorators_cannot_be_applied_to_multiple_get_Slashset_accessors_of_the_same_name_1207", "Decorators cannot be applied to multiple get/set accessors of the same name."), All_files_must_be_modules_when_the_isolatedModules_flag_is_provided: diag(1208, ts.DiagnosticCategory.Error, "All_files_must_be_modules_when_the_isolatedModules_flag_is_provided_1208", "All files must be modules when the '--isolatedModules' flag is provided."), Invalid_use_of_0_Class_definitions_are_automatically_in_strict_mode: diag(1210, ts.DiagnosticCategory.Error, "Invalid_use_of_0_Class_definitions_are_automatically_in_strict_mode_1210", "Invalid use of '{0}'. Class definitions are automatically in strict mode."), A_class_declaration_without_the_default_modifier_must_have_a_name: diag(1211, ts.DiagnosticCategory.Error, "A_class_declaration_without_the_default_modifier_must_have_a_name_1211", "A class declaration without the 'default' modifier must have a name."), Identifier_expected_0_is_a_reserved_word_in_strict_mode: diag(1212, ts.DiagnosticCategory.Error, "Identifier_expected_0_is_a_reserved_word_in_strict_mode_1212", "Identifier expected. '{0}' is a reserved word in strict mode."), Identifier_expected_0_is_a_reserved_word_in_strict_mode_Class_definitions_are_automatically_in_strict_mode: diag(1213, ts.DiagnosticCategory.Error, "Identifier_expected_0_is_a_reserved_word_in_strict_mode_Class_definitions_are_automatically_in_stric_1213", "Identifier expected. '{0}' is a reserved word in strict mode. Class definitions are automatically in strict mode."), Identifier_expected_0_is_a_reserved_word_in_strict_mode_Modules_are_automatically_in_strict_mode: diag(1214, ts.DiagnosticCategory.Error, "Identifier_expected_0_is_a_reserved_word_in_strict_mode_Modules_are_automatically_in_strict_mode_1214", "Identifier expected. '{0}' is a reserved word in strict mode. Modules are automatically in strict mode."), Invalid_use_of_0_Modules_are_automatically_in_strict_mode: diag(1215, ts.DiagnosticCategory.Error, "Invalid_use_of_0_Modules_are_automatically_in_strict_mode_1215", "Invalid use of '{0}'. Modules are automatically in strict mode."), Identifier_expected_esModule_is_reserved_as_an_exported_marker_when_transforming_ECMAScript_modules: diag(1216, ts.DiagnosticCategory.Error, "Identifier_expected_esModule_is_reserved_as_an_exported_marker_when_transforming_ECMAScript_modules_1216", "Identifier expected. '__esModule' is reserved as an exported marker when transforming ECMAScript modules."), Export_assignment_is_not_supported_when_module_flag_is_system: diag(1218, ts.DiagnosticCategory.Error, "Export_assignment_is_not_supported_when_module_flag_is_system_1218", "Export assignment is not supported when '--module' flag is 'system'."), Experimental_support_for_decorators_is_a_feature_that_is_subject_to_change_in_a_future_release_Set_the_experimentalDecorators_option_in_your_tsconfig_or_jsconfig_to_remove_this_warning: diag(1219, ts.DiagnosticCategory.Error, "Experimental_support_for_decorators_is_a_feature_that_is_subject_to_change_in_a_future_release_Set_t_1219", "Experimental support for decorators is a feature that is subject to change in a future release. Set the 'experimentalDecorators' option in your 'tsconfig' or 'jsconfig' to remove this warning."), Generators_are_only_available_when_targeting_ECMAScript_2015_or_higher: diag(1220, ts.DiagnosticCategory.Error, "Generators_are_only_available_when_targeting_ECMAScript_2015_or_higher_1220", "Generators are only available when targeting ECMAScript 2015 or higher."), Generators_are_not_allowed_in_an_ambient_context: diag(1221, ts.DiagnosticCategory.Error, "Generators_are_not_allowed_in_an_ambient_context_1221", "Generators are not allowed in an ambient context."), An_overload_signature_cannot_be_declared_as_a_generator: diag(1222, ts.DiagnosticCategory.Error, "An_overload_signature_cannot_be_declared_as_a_generator_1222", "An overload signature cannot be declared as a generator."), _0_tag_already_specified: diag(1223, ts.DiagnosticCategory.Error, "_0_tag_already_specified_1223", "'{0}' tag already specified."), Signature_0_must_be_a_type_predicate: diag(1224, ts.DiagnosticCategory.Error, "Signature_0_must_be_a_type_predicate_1224", "Signature '{0}' must be a type predicate."), Cannot_find_parameter_0: diag(1225, ts.DiagnosticCategory.Error, "Cannot_find_parameter_0_1225", "Cannot find parameter '{0}'."), Type_predicate_0_is_not_assignable_to_1: diag(1226, ts.DiagnosticCategory.Error, "Type_predicate_0_is_not_assignable_to_1_1226", "Type predicate '{0}' is not assignable to '{1}'."), Parameter_0_is_not_in_the_same_position_as_parameter_1: diag(1227, ts.DiagnosticCategory.Error, "Parameter_0_is_not_in_the_same_position_as_parameter_1_1227", "Parameter '{0}' is not in the same position as parameter '{1}'."), A_type_predicate_is_only_allowed_in_return_type_position_for_functions_and_methods: diag(1228, ts.DiagnosticCategory.Error, "A_type_predicate_is_only_allowed_in_return_type_position_for_functions_and_methods_1228", "A type predicate is only allowed in return type position for functions and methods."), A_type_predicate_cannot_reference_a_rest_parameter: diag(1229, ts.DiagnosticCategory.Error, "A_type_predicate_cannot_reference_a_rest_parameter_1229", "A type predicate cannot reference a rest parameter."), A_type_predicate_cannot_reference_element_0_in_a_binding_pattern: diag(1230, ts.DiagnosticCategory.Error, "A_type_predicate_cannot_reference_element_0_in_a_binding_pattern_1230", "A type predicate cannot reference element '{0}' in a binding pattern."), An_export_assignment_can_only_be_used_in_a_module: diag(1231, ts.DiagnosticCategory.Error, "An_export_assignment_can_only_be_used_in_a_module_1231", "An export assignment can only be used in a module."), An_import_declaration_can_only_be_used_in_a_namespace_or_module: diag(1232, ts.DiagnosticCategory.Error, "An_import_declaration_can_only_be_used_in_a_namespace_or_module_1232", "An import declaration can only be used in a namespace or module."), An_export_declaration_can_only_be_used_in_a_module: diag(1233, ts.DiagnosticCategory.Error, "An_export_declaration_can_only_be_used_in_a_module_1233", "An export declaration can only be used in a module."), An_ambient_module_declaration_is_only_allowed_at_the_top_level_in_a_file: diag(1234, ts.DiagnosticCategory.Error, "An_ambient_module_declaration_is_only_allowed_at_the_top_level_in_a_file_1234", "An ambient module declaration is only allowed at the top level in a file."), A_namespace_declaration_is_only_allowed_in_a_namespace_or_module: diag(1235, ts.DiagnosticCategory.Error, "A_namespace_declaration_is_only_allowed_in_a_namespace_or_module_1235", "A namespace declaration is only allowed in a namespace or module."), The_return_type_of_a_property_decorator_function_must_be_either_void_or_any: diag(1236, ts.DiagnosticCategory.Error, "The_return_type_of_a_property_decorator_function_must_be_either_void_or_any_1236", "The return type of a property decorator function must be either 'void' or 'any'."), The_return_type_of_a_parameter_decorator_function_must_be_either_void_or_any: diag(1237, ts.DiagnosticCategory.Error, "The_return_type_of_a_parameter_decorator_function_must_be_either_void_or_any_1237", "The return type of a parameter decorator function must be either 'void' or 'any'."), Unable_to_resolve_signature_of_class_decorator_when_called_as_an_expression: diag(1238, ts.DiagnosticCategory.Error, "Unable_to_resolve_signature_of_class_decorator_when_called_as_an_expression_1238", "Unable to resolve signature of class decorator when called as an expression."), Unable_to_resolve_signature_of_parameter_decorator_when_called_as_an_expression: diag(1239, ts.DiagnosticCategory.Error, "Unable_to_resolve_signature_of_parameter_decorator_when_called_as_an_expression_1239", "Unable to resolve signature of parameter decorator when called as an expression."), Unable_to_resolve_signature_of_property_decorator_when_called_as_an_expression: diag(1240, ts.DiagnosticCategory.Error, "Unable_to_resolve_signature_of_property_decorator_when_called_as_an_expression_1240", "Unable to resolve signature of property decorator when called as an expression."), Unable_to_resolve_signature_of_method_decorator_when_called_as_an_expression: diag(1241, ts.DiagnosticCategory.Error, "Unable_to_resolve_signature_of_method_decorator_when_called_as_an_expression_1241", "Unable to resolve signature of method decorator when called as an expression."), abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration: diag(1242, ts.DiagnosticCategory.Error, "abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration_1242", "'abstract' modifier can only appear on a class, method, or property declaration."), _0_modifier_cannot_be_used_with_1_modifier: diag(1243, ts.DiagnosticCategory.Error, "_0_modifier_cannot_be_used_with_1_modifier_1243", "'{0}' modifier cannot be used with '{1}' modifier."), Abstract_methods_can_only_appear_within_an_abstract_class: diag(1244, ts.DiagnosticCategory.Error, "Abstract_methods_can_only_appear_within_an_abstract_class_1244", "Abstract methods can only appear within an abstract class."), Method_0_cannot_have_an_implementation_because_it_is_marked_abstract: diag(1245, ts.DiagnosticCategory.Error, "Method_0_cannot_have_an_implementation_because_it_is_marked_abstract_1245", "Method '{0}' cannot have an implementation because it is marked abstract."), An_interface_property_cannot_have_an_initializer: diag(1246, ts.DiagnosticCategory.Error, "An_interface_property_cannot_have_an_initializer_1246", "An interface property cannot have an initializer."), A_type_literal_property_cannot_have_an_initializer: diag(1247, ts.DiagnosticCategory.Error, "A_type_literal_property_cannot_have_an_initializer_1247", "A type literal property cannot have an initializer."), A_class_member_cannot_have_the_0_keyword: diag(1248, ts.DiagnosticCategory.Error, "A_class_member_cannot_have_the_0_keyword_1248", "A class member cannot have the '{0}' keyword."), A_decorator_can_only_decorate_a_method_implementation_not_an_overload: diag(1249, ts.DiagnosticCategory.Error, "A_decorator_can_only_decorate_a_method_implementation_not_an_overload_1249", "A decorator can only decorate a method implementation, not an overload."), Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5: diag(1250, ts.DiagnosticCategory.Error, "Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_1250", "Function declarations are not allowed inside blocks in strict mode when targeting 'ES3' or 'ES5'."), Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_Class_definitions_are_automatically_in_strict_mode: diag(1251, ts.DiagnosticCategory.Error, "Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_Class_d_1251", "Function declarations are not allowed inside blocks in strict mode when targeting 'ES3' or 'ES5'. Class definitions are automatically in strict mode."), Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_Modules_are_automatically_in_strict_mode: diag(1252, ts.DiagnosticCategory.Error, "Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_Modules_1252", "Function declarations are not allowed inside blocks in strict mode when targeting 'ES3' or 'ES5'. Modules are automatically in strict mode."), _0_tag_cannot_be_used_independently_as_a_top_level_JSDoc_tag: diag(1253, ts.DiagnosticCategory.Error, "_0_tag_cannot_be_used_independently_as_a_top_level_JSDoc_tag_1253", "'{0}' tag cannot be used independently as a top level JSDoc tag."), A_const_initializer_in_an_ambient_context_must_be_a_string_or_numeric_literal_or_literal_enum_reference: diag(1254, ts.DiagnosticCategory.Error, "A_const_initializer_in_an_ambient_context_must_be_a_string_or_numeric_literal_or_literal_enum_refere_1254", "A 'const' initializer in an ambient context must be a string or numeric literal or literal enum reference."), A_definite_assignment_assertion_is_not_permitted_in_this_context: diag(1255, ts.DiagnosticCategory.Error, "A_definite_assignment_assertion_is_not_permitted_in_this_context_1255", "A definite assignment assertion '!' is not permitted in this context."), A_rest_element_must_be_last_in_a_tuple_type: diag(1256, ts.DiagnosticCategory.Error, "A_rest_element_must_be_last_in_a_tuple_type_1256", "A rest element must be last in a tuple type."), A_required_element_cannot_follow_an_optional_element: diag(1257, ts.DiagnosticCategory.Error, "A_required_element_cannot_follow_an_optional_element_1257", "A required element cannot follow an optional element."), Definite_assignment_assertions_can_only_be_used_along_with_a_type_annotation: diag(1258, ts.DiagnosticCategory.Error, "Definite_assignment_assertions_can_only_be_used_along_with_a_type_annotation_1258", "Definite assignment assertions can only be used along with a type annotation."), Module_0_can_only_be_default_imported_using_the_1_flag: diag(1259, ts.DiagnosticCategory.Error, "Module_0_can_only_be_default_imported_using_the_1_flag_1259", "Module '{0}' can only be default-imported using the '{1}' flag"), Keywords_cannot_contain_escape_characters: diag(1260, ts.DiagnosticCategory.Error, "Keywords_cannot_contain_escape_characters_1260", "Keywords cannot contain escape characters."), Already_included_file_name_0_differs_from_file_name_1_only_in_casing: diag(1261, ts.DiagnosticCategory.Error, "Already_included_file_name_0_differs_from_file_name_1_only_in_casing_1261", "Already included file name '{0}' differs from file name '{1}' only in casing."), with_statements_are_not_allowed_in_an_async_function_block: diag(1300, ts.DiagnosticCategory.Error, "with_statements_are_not_allowed_in_an_async_function_block_1300", "'with' statements are not allowed in an async function block."), await_expressions_are_only_allowed_within_async_functions_and_at_the_top_levels_of_modules: diag(1308, ts.DiagnosticCategory.Error, "await_expressions_are_only_allowed_within_async_functions_and_at_the_top_levels_of_modules_1308", "'await' expressions are only allowed within async functions and at the top levels of modules."), can_only_be_used_in_an_object_literal_property_inside_a_destructuring_assignment: diag(1312, ts.DiagnosticCategory.Error, "can_only_be_used_in_an_object_literal_property_inside_a_destructuring_assignment_1312", "'=' can only be used in an object literal property inside a destructuring assignment."), The_body_of_an_if_statement_cannot_be_the_empty_statement: diag(1313, ts.DiagnosticCategory.Error, "The_body_of_an_if_statement_cannot_be_the_empty_statement_1313", "The body of an 'if' statement cannot be the empty statement."), Global_module_exports_may_only_appear_in_module_files: diag(1314, ts.DiagnosticCategory.Error, "Global_module_exports_may_only_appear_in_module_files_1314", "Global module exports may only appear in module files."), Global_module_exports_may_only_appear_in_declaration_files: diag(1315, ts.DiagnosticCategory.Error, "Global_module_exports_may_only_appear_in_declaration_files_1315", "Global module exports may only appear in declaration files."), Global_module_exports_may_only_appear_at_top_level: diag(1316, ts.DiagnosticCategory.Error, "Global_module_exports_may_only_appear_at_top_level_1316", "Global module exports may only appear at top level."), A_parameter_property_cannot_be_declared_using_a_rest_parameter: diag(1317, ts.DiagnosticCategory.Error, "A_parameter_property_cannot_be_declared_using_a_rest_parameter_1317", "A parameter property cannot be declared using a rest parameter."), An_abstract_accessor_cannot_have_an_implementation: diag(1318, ts.DiagnosticCategory.Error, "An_abstract_accessor_cannot_have_an_implementation_1318", "An abstract accessor cannot have an implementation."), A_default_export_can_only_be_used_in_an_ECMAScript_style_module: diag(1319, ts.DiagnosticCategory.Error, "A_default_export_can_only_be_used_in_an_ECMAScript_style_module_1319", "A default export can only be used in an ECMAScript-style module."), Type_of_await_operand_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member: diag(1320, ts.DiagnosticCategory.Error, "Type_of_await_operand_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member_1320", "Type of 'await' operand must either be a valid promise or must not contain a callable 'then' member."), Type_of_yield_operand_in_an_async_generator_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member: diag(1321, ts.DiagnosticCategory.Error, "Type_of_yield_operand_in_an_async_generator_must_either_be_a_valid_promise_or_must_not_contain_a_cal_1321", "Type of 'yield' operand in an async generator must either be a valid promise or must not contain a callable 'then' member."), Type_of_iterated_elements_of_a_yield_Asterisk_operand_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member: diag(1322, ts.DiagnosticCategory.Error, "Type_of_iterated_elements_of_a_yield_Asterisk_operand_must_either_be_a_valid_promise_or_must_not_con_1322", "Type of iterated elements of a 'yield*' operand must either be a valid promise or must not contain a callable 'then' member."), Dynamic_imports_are_only_supported_when_the_module_flag_is_set_to_es2020_esnext_commonjs_amd_system_or_umd: diag(1323, ts.DiagnosticCategory.Error, "Dynamic_imports_are_only_supported_when_the_module_flag_is_set_to_es2020_esnext_commonjs_amd_system__1323", "Dynamic imports are only supported when the '--module' flag is set to 'es2020', 'esnext', 'commonjs', 'amd', 'system', or 'umd'."), Dynamic_import_must_have_one_specifier_as_an_argument: diag(1324, ts.DiagnosticCategory.Error, "Dynamic_import_must_have_one_specifier_as_an_argument_1324", "Dynamic import must have one specifier as an argument."), Specifier_of_dynamic_import_cannot_be_spread_element: diag(1325, ts.DiagnosticCategory.Error, "Specifier_of_dynamic_import_cannot_be_spread_element_1325", "Specifier of dynamic import cannot be spread element."), Dynamic_import_cannot_have_type_arguments: diag(1326, ts.DiagnosticCategory.Error, "Dynamic_import_cannot_have_type_arguments_1326", "Dynamic import cannot have type arguments"), String_literal_with_double_quotes_expected: diag(1327, ts.DiagnosticCategory.Error, "String_literal_with_double_quotes_expected_1327", "String literal with double quotes expected."), Property_value_can_only_be_string_literal_numeric_literal_true_false_null_object_literal_or_array_literal: diag(1328, ts.DiagnosticCategory.Error, "Property_value_can_only_be_string_literal_numeric_literal_true_false_null_object_literal_or_array_li_1328", "Property value can only be string literal, numeric literal, 'true', 'false', 'null', object literal or array literal."), _0_accepts_too_few_arguments_to_be_used_as_a_decorator_here_Did_you_mean_to_call_it_first_and_write_0: diag(1329, ts.DiagnosticCategory.Error, "_0_accepts_too_few_arguments_to_be_used_as_a_decorator_here_Did_you_mean_to_call_it_first_and_write__1329", "'{0}' accepts too few arguments to be used as a decorator here. Did you mean to call it first and write '@{0}()'?"), A_property_of_an_interface_or_type_literal_whose_type_is_a_unique_symbol_type_must_be_readonly: diag(1330, ts.DiagnosticCategory.Error, "A_property_of_an_interface_or_type_literal_whose_type_is_a_unique_symbol_type_must_be_readonly_1330", "A property of an interface or type literal whose type is a 'unique symbol' type must be 'readonly'."), A_property_of_a_class_whose_type_is_a_unique_symbol_type_must_be_both_static_and_readonly: diag(1331, ts.DiagnosticCategory.Error, "A_property_of_a_class_whose_type_is_a_unique_symbol_type_must_be_both_static_and_readonly_1331", "A property of a class whose type is a 'unique symbol' type must be both 'static' and 'readonly'."), A_variable_whose_type_is_a_unique_symbol_type_must_be_const: diag(1332, ts.DiagnosticCategory.Error, "A_variable_whose_type_is_a_unique_symbol_type_must_be_const_1332", "A variable whose type is a 'unique symbol' type must be 'const'."), unique_symbol_types_may_not_be_used_on_a_variable_declaration_with_a_binding_name: diag(1333, ts.DiagnosticCategory.Error, "unique_symbol_types_may_not_be_used_on_a_variable_declaration_with_a_binding_name_1333", "'unique symbol' types may not be used on a variable declaration with a binding name."), unique_symbol_types_are_only_allowed_on_variables_in_a_variable_statement: diag(1334, ts.DiagnosticCategory.Error, "unique_symbol_types_are_only_allowed_on_variables_in_a_variable_statement_1334", "'unique symbol' types are only allowed on variables in a variable statement."), unique_symbol_types_are_not_allowed_here: diag(1335, ts.DiagnosticCategory.Error, "unique_symbol_types_are_not_allowed_here_1335", "'unique symbol' types are not allowed here."), An_index_signature_parameter_type_cannot_be_a_type_alias_Consider_writing_0_Colon_1_Colon_2_instead: diag(1336, ts.DiagnosticCategory.Error, "An_index_signature_parameter_type_cannot_be_a_type_alias_Consider_writing_0_Colon_1_Colon_2_instead_1336", "An index signature parameter type cannot be a type alias. Consider writing '[{0}: {1}]: {2}' instead."), An_index_signature_parameter_type_cannot_be_a_union_type_Consider_using_a_mapped_object_type_instead: diag(1337, ts.DiagnosticCategory.Error, "An_index_signature_parameter_type_cannot_be_a_union_type_Consider_using_a_mapped_object_type_instead_1337", "An index signature parameter type cannot be a union type. Consider using a mapped object type instead."), infer_declarations_are_only_permitted_in_the_extends_clause_of_a_conditional_type: diag(1338, ts.DiagnosticCategory.Error, "infer_declarations_are_only_permitted_in_the_extends_clause_of_a_conditional_type_1338", "'infer' declarations are only permitted in the 'extends' clause of a conditional type."), Module_0_does_not_refer_to_a_value_but_is_used_as_a_value_here: diag(1339, ts.DiagnosticCategory.Error, "Module_0_does_not_refer_to_a_value_but_is_used_as_a_value_here_1339", "Module '{0}' does not refer to a value, but is used as a value here."), Module_0_does_not_refer_to_a_type_but_is_used_as_a_type_here_Did_you_mean_typeof_import_0: diag(1340, ts.DiagnosticCategory.Error, "Module_0_does_not_refer_to_a_type_but_is_used_as_a_type_here_Did_you_mean_typeof_import_0_1340", "Module '{0}' does not refer to a type, but is used as a type here. Did you mean 'typeof import('{0}')'?"), Type_arguments_cannot_be_used_here: diag(1342, ts.DiagnosticCategory.Error, "Type_arguments_cannot_be_used_here_1342", "Type arguments cannot be used here."), The_import_meta_meta_property_is_only_allowed_when_the_module_option_is_esnext_or_system: diag(1343, ts.DiagnosticCategory.Error, "The_import_meta_meta_property_is_only_allowed_when_the_module_option_is_esnext_or_system_1343", "The 'import.meta' meta-property is only allowed when the '--module' option is 'esnext' or 'system'."), A_label_is_not_allowed_here: diag(1344, ts.DiagnosticCategory.Error, "A_label_is_not_allowed_here_1344", "'A label is not allowed here."), An_expression_of_type_void_cannot_be_tested_for_truthiness: diag(1345, ts.DiagnosticCategory.Error, "An_expression_of_type_void_cannot_be_tested_for_truthiness_1345", "An expression of type 'void' cannot be tested for truthiness"), This_parameter_is_not_allowed_with_use_strict_directive: diag(1346, ts.DiagnosticCategory.Error, "This_parameter_is_not_allowed_with_use_strict_directive_1346", "This parameter is not allowed with 'use strict' directive."), use_strict_directive_cannot_be_used_with_non_simple_parameter_list: diag(1347, ts.DiagnosticCategory.Error, "use_strict_directive_cannot_be_used_with_non_simple_parameter_list_1347", "'use strict' directive cannot be used with non-simple parameter list."), Non_simple_parameter_declared_here: diag(1348, ts.DiagnosticCategory.Error, "Non_simple_parameter_declared_here_1348", "Non-simple parameter declared here."), use_strict_directive_used_here: diag(1349, ts.DiagnosticCategory.Error, "use_strict_directive_used_here_1349", "'use strict' directive used here."), Print_the_final_configuration_instead_of_building: diag(1350, ts.DiagnosticCategory.Message, "Print_the_final_configuration_instead_of_building_1350", "Print the final configuration instead of building."), An_identifier_or_keyword_cannot_immediately_follow_a_numeric_literal: diag(1351, ts.DiagnosticCategory.Error, "An_identifier_or_keyword_cannot_immediately_follow_a_numeric_literal_1351", "An identifier or keyword cannot immediately follow a numeric literal."), A_bigint_literal_cannot_use_exponential_notation: diag(1352, ts.DiagnosticCategory.Error, "A_bigint_literal_cannot_use_exponential_notation_1352", "A bigint literal cannot use exponential notation."), A_bigint_literal_must_be_an_integer: diag(1353, ts.DiagnosticCategory.Error, "A_bigint_literal_must_be_an_integer_1353", "A bigint literal must be an integer."), readonly_type_modifier_is_only_permitted_on_array_and_tuple_literal_types: diag(1354, ts.DiagnosticCategory.Error, "readonly_type_modifier_is_only_permitted_on_array_and_tuple_literal_types_1354", "'readonly' type modifier is only permitted on array and tuple literal types."), A_const_assertions_can_only_be_applied_to_references_to_enum_members_or_string_number_boolean_array_or_object_literals: diag(1355, ts.DiagnosticCategory.Error, "A_const_assertions_can_only_be_applied_to_references_to_enum_members_or_string_number_boolean_array__1355", "A 'const' assertions can only be applied to references to enum members, or string, number, boolean, array, or object literals."), Did_you_mean_to_mark_this_function_as_async: diag(1356, ts.DiagnosticCategory.Error, "Did_you_mean_to_mark_this_function_as_async_1356", "Did you mean to mark this function as 'async'?"), An_enum_member_name_must_be_followed_by_a_or: diag(1357, ts.DiagnosticCategory.Error, "An_enum_member_name_must_be_followed_by_a_or_1357", "An enum member name must be followed by a ',', '=', or '}'."), Tagged_template_expressions_are_not_permitted_in_an_optional_chain: diag(1358, ts.DiagnosticCategory.Error, "Tagged_template_expressions_are_not_permitted_in_an_optional_chain_1358", "Tagged template expressions are not permitted in an optional chain."), Identifier_expected_0_is_a_reserved_word_that_cannot_be_used_here: diag(1359, ts.DiagnosticCategory.Error, "Identifier_expected_0_is_a_reserved_word_that_cannot_be_used_here_1359", "Identifier expected. '{0}' is a reserved word that cannot be used here."), Did_you_mean_to_parenthesize_this_function_type: diag(1360, ts.DiagnosticCategory.Error, "Did_you_mean_to_parenthesize_this_function_type_1360", "Did you mean to parenthesize this function type?"), _0_cannot_be_used_as_a_value_because_it_was_imported_using_import_type: diag(1361, ts.DiagnosticCategory.Error, "_0_cannot_be_used_as_a_value_because_it_was_imported_using_import_type_1361", "'{0}' cannot be used as a value because it was imported using 'import type'."), _0_cannot_be_used_as_a_value_because_it_was_exported_using_export_type: diag(1362, ts.DiagnosticCategory.Error, "_0_cannot_be_used_as_a_value_because_it_was_exported_using_export_type_1362", "'{0}' cannot be used as a value because it was exported using 'export type'."), A_type_only_import_can_specify_a_default_import_or_named_bindings_but_not_both: diag(1363, ts.DiagnosticCategory.Error, "A_type_only_import_can_specify_a_default_import_or_named_bindings_but_not_both_1363", "A type-only import can specify a default import or named bindings, but not both."), Convert_to_type_only_export: diag(1364, ts.DiagnosticCategory.Message, "Convert_to_type_only_export_1364", "Convert to type-only export"), Convert_all_re_exported_types_to_type_only_exports: diag(1365, ts.DiagnosticCategory.Message, "Convert_all_re_exported_types_to_type_only_exports_1365", "Convert all re-exported types to type-only exports"), Split_into_two_separate_import_declarations: diag(1366, ts.DiagnosticCategory.Message, "Split_into_two_separate_import_declarations_1366", "Split into two separate import declarations"), Split_all_invalid_type_only_imports: diag(1367, ts.DiagnosticCategory.Message, "Split_all_invalid_type_only_imports_1367", "Split all invalid type-only imports"), Specify_emit_Slashchecking_behavior_for_imports_that_are_only_used_for_types: diag(1368, ts.DiagnosticCategory.Message, "Specify_emit_Slashchecking_behavior_for_imports_that_are_only_used_for_types_1368", "Specify emit/checking behavior for imports that are only used for types"), Did_you_mean_0: diag(1369, ts.DiagnosticCategory.Message, "Did_you_mean_0_1369", "Did you mean '{0}'?"), Only_ECMAScript_imports_may_use_import_type: diag(1370, ts.DiagnosticCategory.Error, "Only_ECMAScript_imports_may_use_import_type_1370", "Only ECMAScript imports may use 'import type'."), This_import_is_never_used_as_a_value_and_must_use_import_type_because_the_importsNotUsedAsValues_is_set_to_error: diag(1371, ts.DiagnosticCategory.Error, "This_import_is_never_used_as_a_value_and_must_use_import_type_because_the_importsNotUsedAsValues_is__1371", "This import is never used as a value and must use 'import type' because the 'importsNotUsedAsValues' is set to 'error'."), Convert_to_type_only_import: diag(1373, ts.DiagnosticCategory.Message, "Convert_to_type_only_import_1373", "Convert to type-only import"), Convert_all_imports_not_used_as_a_value_to_type_only_imports: diag(1374, ts.DiagnosticCategory.Message, "Convert_all_imports_not_used_as_a_value_to_type_only_imports_1374", "Convert all imports not used as a value to type-only imports"), await_expressions_are_only_allowed_at_the_top_level_of_a_file_when_that_file_is_a_module_but_this_file_has_no_imports_or_exports_Consider_adding_an_empty_export_to_make_this_file_a_module: diag(1375, ts.DiagnosticCategory.Error, "await_expressions_are_only_allowed_at_the_top_level_of_a_file_when_that_file_is_a_module_but_this_fi_1375", "'await' expressions are only allowed at the top level of a file when that file is a module, but this file has no imports or exports. Consider adding an empty 'export {}' to make this file a module."), _0_was_imported_here: diag(1376, ts.DiagnosticCategory.Message, "_0_was_imported_here_1376", "'{0}' was imported here."), _0_was_exported_here: diag(1377, ts.DiagnosticCategory.Message, "_0_was_exported_here_1377", "'{0}' was exported here."), Top_level_await_expressions_are_only_allowed_when_the_module_option_is_set_to_esnext_or_system_and_the_target_option_is_set_to_es2017_or_higher: diag(1378, ts.DiagnosticCategory.Error, "Top_level_await_expressions_are_only_allowed_when_the_module_option_is_set_to_esnext_or_system_and_t_1378", "Top-level 'await' expressions are only allowed when the 'module' option is set to 'esnext' or 'system', and the 'target' option is set to 'es2017' or higher."), An_import_alias_cannot_reference_a_declaration_that_was_exported_using_export_type: diag(1379, ts.DiagnosticCategory.Error, "An_import_alias_cannot_reference_a_declaration_that_was_exported_using_export_type_1379", "An import alias cannot reference a declaration that was exported using 'export type'."), An_import_alias_cannot_reference_a_declaration_that_was_imported_using_import_type: diag(1380, ts.DiagnosticCategory.Error, "An_import_alias_cannot_reference_a_declaration_that_was_imported_using_import_type_1380", "An import alias cannot reference a declaration that was imported using 'import type'."), Unexpected_token_Did_you_mean_or_rbrace: diag(1381, ts.DiagnosticCategory.Error, "Unexpected_token_Did_you_mean_or_rbrace_1381", "Unexpected token. Did you mean `{'}'}` or `}`?"), Unexpected_token_Did_you_mean_or_gt: diag(1382, ts.DiagnosticCategory.Error, "Unexpected_token_Did_you_mean_or_gt_1382", "Unexpected token. Did you mean `{'>'}` or `>`?"), Only_named_exports_may_use_export_type: diag(1383, ts.DiagnosticCategory.Error, "Only_named_exports_may_use_export_type_1383", "Only named exports may use 'export type'."), A_new_expression_with_type_arguments_must_always_be_followed_by_a_parenthesized_argument_list: diag(1384, ts.DiagnosticCategory.Error, "A_new_expression_with_type_arguments_must_always_be_followed_by_a_parenthesized_argument_list_1384", "A 'new' expression with type arguments must always be followed by a parenthesized argument list."), The_types_of_0_are_incompatible_between_these_types: diag(2200, ts.DiagnosticCategory.Error, "The_types_of_0_are_incompatible_between_these_types_2200", "The types of '{0}' are incompatible between these types."), The_types_returned_by_0_are_incompatible_between_these_types: diag(2201, ts.DiagnosticCategory.Error, "The_types_returned_by_0_are_incompatible_between_these_types_2201", "The types returned by '{0}' are incompatible between these types."), Call_signature_return_types_0_and_1_are_incompatible: diag(2202, ts.DiagnosticCategory.Error, "Call_signature_return_types_0_and_1_are_incompatible_2202", "Call signature return types '{0}' and '{1}' are incompatible.", /*reportsUnnecessary*/ undefined, /*elidedInCompatabilityPyramid*/ true), Construct_signature_return_types_0_and_1_are_incompatible: diag(2203, ts.DiagnosticCategory.Error, "Construct_signature_return_types_0_and_1_are_incompatible_2203", "Construct signature return types '{0}' and '{1}' are incompatible.", /*reportsUnnecessary*/ undefined, /*elidedInCompatabilityPyramid*/ true), Call_signatures_with_no_arguments_have_incompatible_return_types_0_and_1: diag(2204, ts.DiagnosticCategory.Error, "Call_signatures_with_no_arguments_have_incompatible_return_types_0_and_1_2204", "Call signatures with no arguments have incompatible return types '{0}' and '{1}'.", /*reportsUnnecessary*/ undefined, /*elidedInCompatabilityPyramid*/ true), Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1: diag(2205, ts.DiagnosticCategory.Error, "Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1_2205", "Construct signatures with no arguments have incompatible return types '{0}' and '{1}'.", /*reportsUnnecessary*/ undefined, /*elidedInCompatabilityPyramid*/ true), Duplicate_identifier_0: diag(2300, ts.DiagnosticCategory.Error, "Duplicate_identifier_0_2300", "Duplicate identifier '{0}'."), Initializer_of_instance_member_variable_0_cannot_reference_identifier_1_declared_in_the_constructor: diag(2301, ts.DiagnosticCategory.Error, "Initializer_of_instance_member_variable_0_cannot_reference_identifier_1_declared_in_the_constructor_2301", "Initializer of instance member variable '{0}' cannot reference identifier '{1}' declared in the constructor."), Static_members_cannot_reference_class_type_parameters: diag(2302, ts.DiagnosticCategory.Error, "Static_members_cannot_reference_class_type_parameters_2302", "Static members cannot reference class type parameters."), Circular_definition_of_import_alias_0: diag(2303, ts.DiagnosticCategory.Error, "Circular_definition_of_import_alias_0_2303", "Circular definition of import alias '{0}'."), Cannot_find_name_0: diag(2304, ts.DiagnosticCategory.Error, "Cannot_find_name_0_2304", "Cannot find name '{0}'."), Module_0_has_no_exported_member_1: diag(2305, ts.DiagnosticCategory.Error, "Module_0_has_no_exported_member_1_2305", "Module '{0}' has no exported member '{1}'."), File_0_is_not_a_module: diag(2306, ts.DiagnosticCategory.Error, "File_0_is_not_a_module_2306", "File '{0}' is not a module."), Cannot_find_module_0_or_its_corresponding_type_declarations: diag(2307, ts.DiagnosticCategory.Error, "Cannot_find_module_0_or_its_corresponding_type_declarations_2307", "Cannot find module '{0}' or its corresponding type declarations."), Module_0_has_already_exported_a_member_named_1_Consider_explicitly_re_exporting_to_resolve_the_ambiguity: diag(2308, ts.DiagnosticCategory.Error, "Module_0_has_already_exported_a_member_named_1_Consider_explicitly_re_exporting_to_resolve_the_ambig_2308", "Module {0} has already exported a member named '{1}'. Consider explicitly re-exporting to resolve the ambiguity."), An_export_assignment_cannot_be_used_in_a_module_with_other_exported_elements: diag(2309, ts.DiagnosticCategory.Error, "An_export_assignment_cannot_be_used_in_a_module_with_other_exported_elements_2309", "An export assignment cannot be used in a module with other exported elements."), Type_0_recursively_references_itself_as_a_base_type: diag(2310, ts.DiagnosticCategory.Error, "Type_0_recursively_references_itself_as_a_base_type_2310", "Type '{0}' recursively references itself as a base type."), A_class_may_only_extend_another_class: diag(2311, ts.DiagnosticCategory.Error, "A_class_may_only_extend_another_class_2311", "A class may only extend another class."), An_interface_can_only_extend_an_object_type_or_intersection_of_object_types_with_statically_known_members: diag(2312, ts.DiagnosticCategory.Error, "An_interface_can_only_extend_an_object_type_or_intersection_of_object_types_with_statically_known_me_2312", "An interface can only extend an object type or intersection of object types with statically known members."), Type_parameter_0_has_a_circular_constraint: diag(2313, ts.DiagnosticCategory.Error, "Type_parameter_0_has_a_circular_constraint_2313", "Type parameter '{0}' has a circular constraint."), Generic_type_0_requires_1_type_argument_s: diag(2314, ts.DiagnosticCategory.Error, "Generic_type_0_requires_1_type_argument_s_2314", "Generic type '{0}' requires {1} type argument(s)."), Type_0_is_not_generic: diag(2315, ts.DiagnosticCategory.Error, "Type_0_is_not_generic_2315", "Type '{0}' is not generic."), Global_type_0_must_be_a_class_or_interface_type: diag(2316, ts.DiagnosticCategory.Error, "Global_type_0_must_be_a_class_or_interface_type_2316", "Global type '{0}' must be a class or interface type."), Global_type_0_must_have_1_type_parameter_s: diag(2317, ts.DiagnosticCategory.Error, "Global_type_0_must_have_1_type_parameter_s_2317", "Global type '{0}' must have {1} type parameter(s)."), Cannot_find_global_type_0: diag(2318, ts.DiagnosticCategory.Error, "Cannot_find_global_type_0_2318", "Cannot find global type '{0}'."), Named_property_0_of_types_1_and_2_are_not_identical: diag(2319, ts.DiagnosticCategory.Error, "Named_property_0_of_types_1_and_2_are_not_identical_2319", "Named property '{0}' of types '{1}' and '{2}' are not identical."), Interface_0_cannot_simultaneously_extend_types_1_and_2: diag(2320, ts.DiagnosticCategory.Error, "Interface_0_cannot_simultaneously_extend_types_1_and_2_2320", "Interface '{0}' cannot simultaneously extend types '{1}' and '{2}'."), Excessive_stack_depth_comparing_types_0_and_1: diag(2321, ts.DiagnosticCategory.Error, "Excessive_stack_depth_comparing_types_0_and_1_2321", "Excessive stack depth comparing types '{0}' and '{1}'."), Type_0_is_not_assignable_to_type_1: diag(2322, ts.DiagnosticCategory.Error, "Type_0_is_not_assignable_to_type_1_2322", "Type '{0}' is not assignable to type '{1}'."), Cannot_redeclare_exported_variable_0: diag(2323, ts.DiagnosticCategory.Error, "Cannot_redeclare_exported_variable_0_2323", "Cannot redeclare exported variable '{0}'."), Property_0_is_missing_in_type_1: diag(2324, ts.DiagnosticCategory.Error, "Property_0_is_missing_in_type_1_2324", "Property '{0}' is missing in type '{1}'."), Property_0_is_private_in_type_1_but_not_in_type_2: diag(2325, ts.DiagnosticCategory.Error, "Property_0_is_private_in_type_1_but_not_in_type_2_2325", "Property '{0}' is private in type '{1}' but not in type '{2}'."), Types_of_property_0_are_incompatible: diag(2326, ts.DiagnosticCategory.Error, "Types_of_property_0_are_incompatible_2326", "Types of property '{0}' are incompatible."), Property_0_is_optional_in_type_1_but_required_in_type_2: diag(2327, ts.DiagnosticCategory.Error, "Property_0_is_optional_in_type_1_but_required_in_type_2_2327", "Property '{0}' is optional in type '{1}' but required in type '{2}'."), Types_of_parameters_0_and_1_are_incompatible: diag(2328, ts.DiagnosticCategory.Error, "Types_of_parameters_0_and_1_are_incompatible_2328", "Types of parameters '{0}' and '{1}' are incompatible."), Index_signature_is_missing_in_type_0: diag(2329, ts.DiagnosticCategory.Error, "Index_signature_is_missing_in_type_0_2329", "Index signature is missing in type '{0}'."), Index_signatures_are_incompatible: diag(2330, ts.DiagnosticCategory.Error, "Index_signatures_are_incompatible_2330", "Index signatures are incompatible."), this_cannot_be_referenced_in_a_module_or_namespace_body: diag(2331, ts.DiagnosticCategory.Error, "this_cannot_be_referenced_in_a_module_or_namespace_body_2331", "'this' cannot be referenced in a module or namespace body."), this_cannot_be_referenced_in_current_location: diag(2332, ts.DiagnosticCategory.Error, "this_cannot_be_referenced_in_current_location_2332", "'this' cannot be referenced in current location."), this_cannot_be_referenced_in_constructor_arguments: diag(2333, ts.DiagnosticCategory.Error, "this_cannot_be_referenced_in_constructor_arguments_2333", "'this' cannot be referenced in constructor arguments."), this_cannot_be_referenced_in_a_static_property_initializer: diag(2334, ts.DiagnosticCategory.Error, "this_cannot_be_referenced_in_a_static_property_initializer_2334", "'this' cannot be referenced in a static property initializer."), super_can_only_be_referenced_in_a_derived_class: diag(2335, ts.DiagnosticCategory.Error, "super_can_only_be_referenced_in_a_derived_class_2335", "'super' can only be referenced in a derived class."), super_cannot_be_referenced_in_constructor_arguments: diag(2336, ts.DiagnosticCategory.Error, "super_cannot_be_referenced_in_constructor_arguments_2336", "'super' cannot be referenced in constructor arguments."), Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors: diag(2337, ts.DiagnosticCategory.Error, "Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors_2337", "Super calls are not permitted outside constructors or in nested functions inside constructors."), super_property_access_is_permitted_only_in_a_constructor_member_function_or_member_accessor_of_a_derived_class: diag(2338, ts.DiagnosticCategory.Error, "super_property_access_is_permitted_only_in_a_constructor_member_function_or_member_accessor_of_a_der_2338", "'super' property access is permitted only in a constructor, member function, or member accessor of a derived class."), Property_0_does_not_exist_on_type_1: diag(2339, ts.DiagnosticCategory.Error, "Property_0_does_not_exist_on_type_1_2339", "Property '{0}' does not exist on type '{1}'."), Only_public_and_protected_methods_of_the_base_class_are_accessible_via_the_super_keyword: diag(2340, ts.DiagnosticCategory.Error, "Only_public_and_protected_methods_of_the_base_class_are_accessible_via_the_super_keyword_2340", "Only public and protected methods of the base class are accessible via the 'super' keyword."), Property_0_is_private_and_only_accessible_within_class_1: diag(2341, ts.DiagnosticCategory.Error, "Property_0_is_private_and_only_accessible_within_class_1_2341", "Property '{0}' is private and only accessible within class '{1}'."), An_index_expression_argument_must_be_of_type_string_number_symbol_or_any: diag(2342, ts.DiagnosticCategory.Error, "An_index_expression_argument_must_be_of_type_string_number_symbol_or_any_2342", "An index expression argument must be of type 'string', 'number', 'symbol', or 'any'."), This_syntax_requires_an_imported_helper_named_1_which_does_not_exist_in_0_Consider_upgrading_your_version_of_0: diag(2343, ts.DiagnosticCategory.Error, "This_syntax_requires_an_imported_helper_named_1_which_does_not_exist_in_0_Consider_upgrading_your_ve_2343", "This syntax requires an imported helper named '{1}' which does not exist in '{0}'. Consider upgrading your version of '{0}'."), Type_0_does_not_satisfy_the_constraint_1: diag(2344, ts.DiagnosticCategory.Error, "Type_0_does_not_satisfy_the_constraint_1_2344", "Type '{0}' does not satisfy the constraint '{1}'."), Argument_of_type_0_is_not_assignable_to_parameter_of_type_1: diag(2345, ts.DiagnosticCategory.Error, "Argument_of_type_0_is_not_assignable_to_parameter_of_type_1_2345", "Argument of type '{0}' is not assignable to parameter of type '{1}'."), Call_target_does_not_contain_any_signatures: diag(2346, ts.DiagnosticCategory.Error, "Call_target_does_not_contain_any_signatures_2346", "Call target does not contain any signatures."), Untyped_function_calls_may_not_accept_type_arguments: diag(2347, ts.DiagnosticCategory.Error, "Untyped_function_calls_may_not_accept_type_arguments_2347", "Untyped function calls may not accept type arguments."), Value_of_type_0_is_not_callable_Did_you_mean_to_include_new: diag(2348, ts.DiagnosticCategory.Error, "Value_of_type_0_is_not_callable_Did_you_mean_to_include_new_2348", "Value of type '{0}' is not callable. Did you mean to include 'new'?"), This_expression_is_not_callable: diag(2349, ts.DiagnosticCategory.Error, "This_expression_is_not_callable_2349", "This expression is not callable."), Only_a_void_function_can_be_called_with_the_new_keyword: diag(2350, ts.DiagnosticCategory.Error, "Only_a_void_function_can_be_called_with_the_new_keyword_2350", "Only a void function can be called with the 'new' keyword."), This_expression_is_not_constructable: diag(2351, ts.DiagnosticCategory.Error, "This_expression_is_not_constructable_2351", "This expression is not constructable."), Conversion_of_type_0_to_type_1_may_be_a_mistake_because_neither_type_sufficiently_overlaps_with_the_other_If_this_was_intentional_convert_the_expression_to_unknown_first: diag(2352, ts.DiagnosticCategory.Error, "Conversion_of_type_0_to_type_1_may_be_a_mistake_because_neither_type_sufficiently_overlaps_with_the__2352", "Conversion of type '{0}' to type '{1}' may be a mistake because neither type sufficiently overlaps with the other. If this was intentional, convert the expression to 'unknown' first."), Object_literal_may_only_specify_known_properties_and_0_does_not_exist_in_type_1: diag(2353, ts.DiagnosticCategory.Error, "Object_literal_may_only_specify_known_properties_and_0_does_not_exist_in_type_1_2353", "Object literal may only specify known properties, and '{0}' does not exist in type '{1}'."), This_syntax_requires_an_imported_helper_but_module_0_cannot_be_found: diag(2354, ts.DiagnosticCategory.Error, "This_syntax_requires_an_imported_helper_but_module_0_cannot_be_found_2354", "This syntax requires an imported helper but module '{0}' cannot be found."), A_function_whose_declared_type_is_neither_void_nor_any_must_return_a_value: diag(2355, ts.DiagnosticCategory.Error, "A_function_whose_declared_type_is_neither_void_nor_any_must_return_a_value_2355", "A function whose declared type is neither 'void' nor 'any' must return a value."), An_arithmetic_operand_must_be_of_type_any_number_bigint_or_an_enum_type: diag(2356, ts.DiagnosticCategory.Error, "An_arithmetic_operand_must_be_of_type_any_number_bigint_or_an_enum_type_2356", "An arithmetic operand must be of type 'any', 'number', 'bigint' or an enum type."), The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access: diag(2357, ts.DiagnosticCategory.Error, "The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access_2357", "The operand of an increment or decrement operator must be a variable or a property access."), The_left_hand_side_of_an_instanceof_expression_must_be_of_type_any_an_object_type_or_a_type_parameter: diag(2358, ts.DiagnosticCategory.Error, "The_left_hand_side_of_an_instanceof_expression_must_be_of_type_any_an_object_type_or_a_type_paramete_2358", "The left-hand side of an 'instanceof' expression must be of type 'any', an object type or a type parameter."), The_right_hand_side_of_an_instanceof_expression_must_be_of_type_any_or_of_a_type_assignable_to_the_Function_interface_type: diag(2359, ts.DiagnosticCategory.Error, "The_right_hand_side_of_an_instanceof_expression_must_be_of_type_any_or_of_a_type_assignable_to_the_F_2359", "The right-hand side of an 'instanceof' expression must be of type 'any' or of a type assignable to the 'Function' interface type."), The_left_hand_side_of_an_in_expression_must_be_of_type_any_string_number_or_symbol: diag(2360, ts.DiagnosticCategory.Error, "The_left_hand_side_of_an_in_expression_must_be_of_type_any_string_number_or_symbol_2360", "The left-hand side of an 'in' expression must be of type 'any', 'string', 'number', or 'symbol'."), The_right_hand_side_of_an_in_expression_must_be_of_type_any_an_object_type_or_a_type_parameter: diag(2361, ts.DiagnosticCategory.Error, "The_right_hand_side_of_an_in_expression_must_be_of_type_any_an_object_type_or_a_type_parameter_2361", "The right-hand side of an 'in' expression must be of type 'any', an object type or a type parameter."), The_left_hand_side_of_an_arithmetic_operation_must_be_of_type_any_number_bigint_or_an_enum_type: diag(2362, ts.DiagnosticCategory.Error, "The_left_hand_side_of_an_arithmetic_operation_must_be_of_type_any_number_bigint_or_an_enum_type_2362", "The left-hand side of an arithmetic operation must be of type 'any', 'number', 'bigint' or an enum type."), The_right_hand_side_of_an_arithmetic_operation_must_be_of_type_any_number_bigint_or_an_enum_type: diag(2363, ts.DiagnosticCategory.Error, "The_right_hand_side_of_an_arithmetic_operation_must_be_of_type_any_number_bigint_or_an_enum_type_2363", "The right-hand side of an arithmetic operation must be of type 'any', 'number', 'bigint' or an enum type."), The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access: diag(2364, ts.DiagnosticCategory.Error, "The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access_2364", "The left-hand side of an assignment expression must be a variable or a property access."), Operator_0_cannot_be_applied_to_types_1_and_2: diag(2365, ts.DiagnosticCategory.Error, "Operator_0_cannot_be_applied_to_types_1_and_2_2365", "Operator '{0}' cannot be applied to types '{1}' and '{2}'."), Function_lacks_ending_return_statement_and_return_type_does_not_include_undefined: diag(2366, ts.DiagnosticCategory.Error, "Function_lacks_ending_return_statement_and_return_type_does_not_include_undefined_2366", "Function lacks ending return statement and return type does not include 'undefined'."), This_condition_will_always_return_0_since_the_types_1_and_2_have_no_overlap: diag(2367, ts.DiagnosticCategory.Error, "This_condition_will_always_return_0_since_the_types_1_and_2_have_no_overlap_2367", "This condition will always return '{0}' since the types '{1}' and '{2}' have no overlap."), Type_parameter_name_cannot_be_0: diag(2368, ts.DiagnosticCategory.Error, "Type_parameter_name_cannot_be_0_2368", "Type parameter name cannot be '{0}'."), A_parameter_property_is_only_allowed_in_a_constructor_implementation: diag(2369, ts.DiagnosticCategory.Error, "A_parameter_property_is_only_allowed_in_a_constructor_implementation_2369", "A parameter property is only allowed in a constructor implementation."), A_rest_parameter_must_be_of_an_array_type: diag(2370, ts.DiagnosticCategory.Error, "A_rest_parameter_must_be_of_an_array_type_2370", "A rest parameter must be of an array type."), A_parameter_initializer_is_only_allowed_in_a_function_or_constructor_implementation: diag(2371, ts.DiagnosticCategory.Error, "A_parameter_initializer_is_only_allowed_in_a_function_or_constructor_implementation_2371", "A parameter initializer is only allowed in a function or constructor implementation."), Parameter_0_cannot_reference_itself: diag(2372, ts.DiagnosticCategory.Error, "Parameter_0_cannot_reference_itself_2372", "Parameter '{0}' cannot reference itself."), Parameter_0_cannot_reference_identifier_1_declared_after_it: diag(2373, ts.DiagnosticCategory.Error, "Parameter_0_cannot_reference_identifier_1_declared_after_it_2373", "Parameter '{0}' cannot reference identifier '{1}' declared after it."), Duplicate_string_index_signature: diag(2374, ts.DiagnosticCategory.Error, "Duplicate_string_index_signature_2374", "Duplicate string index signature."), Duplicate_number_index_signature: diag(2375, ts.DiagnosticCategory.Error, "Duplicate_number_index_signature_2375", "Duplicate number index signature."), A_super_call_must_be_the_first_statement_in_the_constructor_when_a_class_contains_initialized_properties_parameter_properties_or_private_identifiers: diag(2376, ts.DiagnosticCategory.Error, "A_super_call_must_be_the_first_statement_in_the_constructor_when_a_class_contains_initialized_proper_2376", "A 'super' call must be the first statement in the constructor when a class contains initialized properties, parameter properties, or private identifiers."), Constructors_for_derived_classes_must_contain_a_super_call: diag(2377, ts.DiagnosticCategory.Error, "Constructors_for_derived_classes_must_contain_a_super_call_2377", "Constructors for derived classes must contain a 'super' call."), A_get_accessor_must_return_a_value: diag(2378, ts.DiagnosticCategory.Error, "A_get_accessor_must_return_a_value_2378", "A 'get' accessor must return a value."), Getter_and_setter_accessors_do_not_agree_in_visibility: diag(2379, ts.DiagnosticCategory.Error, "Getter_and_setter_accessors_do_not_agree_in_visibility_2379", "Getter and setter accessors do not agree in visibility."), get_and_set_accessor_must_have_the_same_type: diag(2380, ts.DiagnosticCategory.Error, "get_and_set_accessor_must_have_the_same_type_2380", "'get' and 'set' accessor must have the same type."), A_signature_with_an_implementation_cannot_use_a_string_literal_type: diag(2381, ts.DiagnosticCategory.Error, "A_signature_with_an_implementation_cannot_use_a_string_literal_type_2381", "A signature with an implementation cannot use a string literal type."), Specialized_overload_signature_is_not_assignable_to_any_non_specialized_signature: diag(2382, ts.DiagnosticCategory.Error, "Specialized_overload_signature_is_not_assignable_to_any_non_specialized_signature_2382", "Specialized overload signature is not assignable to any non-specialized signature."), Overload_signatures_must_all_be_exported_or_non_exported: diag(2383, ts.DiagnosticCategory.Error, "Overload_signatures_must_all_be_exported_or_non_exported_2383", "Overload signatures must all be exported or non-exported."), Overload_signatures_must_all_be_ambient_or_non_ambient: diag(2384, ts.DiagnosticCategory.Error, "Overload_signatures_must_all_be_ambient_or_non_ambient_2384", "Overload signatures must all be ambient or non-ambient."), Overload_signatures_must_all_be_public_private_or_protected: diag(2385, ts.DiagnosticCategory.Error, "Overload_signatures_must_all_be_public_private_or_protected_2385", "Overload signatures must all be public, private or protected."), Overload_signatures_must_all_be_optional_or_required: diag(2386, ts.DiagnosticCategory.Error, "Overload_signatures_must_all_be_optional_or_required_2386", "Overload signatures must all be optional or required."), Function_overload_must_be_static: diag(2387, ts.DiagnosticCategory.Error, "Function_overload_must_be_static_2387", "Function overload must be static."), Function_overload_must_not_be_static: diag(2388, ts.DiagnosticCategory.Error, "Function_overload_must_not_be_static_2388", "Function overload must not be static."), Function_implementation_name_must_be_0: diag(2389, ts.DiagnosticCategory.Error, "Function_implementation_name_must_be_0_2389", "Function implementation name must be '{0}'."), Constructor_implementation_is_missing: diag(2390, ts.DiagnosticCategory.Error, "Constructor_implementation_is_missing_2390", "Constructor implementation is missing."), Function_implementation_is_missing_or_not_immediately_following_the_declaration: diag(2391, ts.DiagnosticCategory.Error, "Function_implementation_is_missing_or_not_immediately_following_the_declaration_2391", "Function implementation is missing or not immediately following the declaration."), Multiple_constructor_implementations_are_not_allowed: diag(2392, ts.DiagnosticCategory.Error, "Multiple_constructor_implementations_are_not_allowed_2392", "Multiple constructor implementations are not allowed."), Duplicate_function_implementation: diag(2393, ts.DiagnosticCategory.Error, "Duplicate_function_implementation_2393", "Duplicate function implementation."), This_overload_signature_is_not_compatible_with_its_implementation_signature: diag(2394, ts.DiagnosticCategory.Error, "This_overload_signature_is_not_compatible_with_its_implementation_signature_2394", "This overload signature is not compatible with its implementation signature."), Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local: diag(2395, ts.DiagnosticCategory.Error, "Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local_2395", "Individual declarations in merged declaration '{0}' must be all exported or all local."), Duplicate_identifier_arguments_Compiler_uses_arguments_to_initialize_rest_parameters: diag(2396, ts.DiagnosticCategory.Error, "Duplicate_identifier_arguments_Compiler_uses_arguments_to_initialize_rest_parameters_2396", "Duplicate identifier 'arguments'. Compiler uses 'arguments' to initialize rest parameters."), Declaration_name_conflicts_with_built_in_global_identifier_0: diag(2397, ts.DiagnosticCategory.Error, "Declaration_name_conflicts_with_built_in_global_identifier_0_2397", "Declaration name conflicts with built-in global identifier '{0}'."), constructor_cannot_be_used_as_a_parameter_property_name: diag(2398, ts.DiagnosticCategory.Error, "constructor_cannot_be_used_as_a_parameter_property_name_2398", "'constructor' cannot be used as a parameter property name."), Duplicate_identifier_this_Compiler_uses_variable_declaration_this_to_capture_this_reference: diag(2399, ts.DiagnosticCategory.Error, "Duplicate_identifier_this_Compiler_uses_variable_declaration_this_to_capture_this_reference_2399", "Duplicate identifier '_this'. Compiler uses variable declaration '_this' to capture 'this' reference."), Expression_resolves_to_variable_declaration_this_that_compiler_uses_to_capture_this_reference: diag(2400, ts.DiagnosticCategory.Error, "Expression_resolves_to_variable_declaration_this_that_compiler_uses_to_capture_this_reference_2400", "Expression resolves to variable declaration '_this' that compiler uses to capture 'this' reference."), Duplicate_identifier_super_Compiler_uses_super_to_capture_base_class_reference: diag(2401, ts.DiagnosticCategory.Error, "Duplicate_identifier_super_Compiler_uses_super_to_capture_base_class_reference_2401", "Duplicate identifier '_super'. Compiler uses '_super' to capture base class reference."), Expression_resolves_to_super_that_compiler_uses_to_capture_base_class_reference: diag(2402, ts.DiagnosticCategory.Error, "Expression_resolves_to_super_that_compiler_uses_to_capture_base_class_reference_2402", "Expression resolves to '_super' that compiler uses to capture base class reference."), Subsequent_variable_declarations_must_have_the_same_type_Variable_0_must_be_of_type_1_but_here_has_type_2: diag(2403, ts.DiagnosticCategory.Error, "Subsequent_variable_declarations_must_have_the_same_type_Variable_0_must_be_of_type_1_but_here_has_t_2403", "Subsequent variable declarations must have the same type. Variable '{0}' must be of type '{1}', but here has type '{2}'."), The_left_hand_side_of_a_for_in_statement_cannot_use_a_type_annotation: diag(2404, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_in_statement_cannot_use_a_type_annotation_2404", "The left-hand side of a 'for...in' statement cannot use a type annotation."), The_left_hand_side_of_a_for_in_statement_must_be_of_type_string_or_any: diag(2405, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_in_statement_must_be_of_type_string_or_any_2405", "The left-hand side of a 'for...in' statement must be of type 'string' or 'any'."), The_left_hand_side_of_a_for_in_statement_must_be_a_variable_or_a_property_access: diag(2406, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_in_statement_must_be_a_variable_or_a_property_access_2406", "The left-hand side of a 'for...in' statement must be a variable or a property access."), The_right_hand_side_of_a_for_in_statement_must_be_of_type_any_an_object_type_or_a_type_parameter_but_here_has_type_0: diag(2407, ts.DiagnosticCategory.Error, "The_right_hand_side_of_a_for_in_statement_must_be_of_type_any_an_object_type_or_a_type_parameter_but_2407", "The right-hand side of a 'for...in' statement must be of type 'any', an object type or a type parameter, but here has type '{0}'."), Setters_cannot_return_a_value: diag(2408, ts.DiagnosticCategory.Error, "Setters_cannot_return_a_value_2408", "Setters cannot return a value."), Return_type_of_constructor_signature_must_be_assignable_to_the_instance_type_of_the_class: diag(2409, ts.DiagnosticCategory.Error, "Return_type_of_constructor_signature_must_be_assignable_to_the_instance_type_of_the_class_2409", "Return type of constructor signature must be assignable to the instance type of the class."), The_with_statement_is_not_supported_All_symbols_in_a_with_block_will_have_type_any: diag(2410, ts.DiagnosticCategory.Error, "The_with_statement_is_not_supported_All_symbols_in_a_with_block_will_have_type_any_2410", "The 'with' statement is not supported. All symbols in a 'with' block will have type 'any'."), Property_0_of_type_1_is_not_assignable_to_string_index_type_2: diag(2411, ts.DiagnosticCategory.Error, "Property_0_of_type_1_is_not_assignable_to_string_index_type_2_2411", "Property '{0}' of type '{1}' is not assignable to string index type '{2}'."), Property_0_of_type_1_is_not_assignable_to_numeric_index_type_2: diag(2412, ts.DiagnosticCategory.Error, "Property_0_of_type_1_is_not_assignable_to_numeric_index_type_2_2412", "Property '{0}' of type '{1}' is not assignable to numeric index type '{2}'."), Numeric_index_type_0_is_not_assignable_to_string_index_type_1: diag(2413, ts.DiagnosticCategory.Error, "Numeric_index_type_0_is_not_assignable_to_string_index_type_1_2413", "Numeric index type '{0}' is not assignable to string index type '{1}'."), Class_name_cannot_be_0: diag(2414, ts.DiagnosticCategory.Error, "Class_name_cannot_be_0_2414", "Class name cannot be '{0}'."), Class_0_incorrectly_extends_base_class_1: diag(2415, ts.DiagnosticCategory.Error, "Class_0_incorrectly_extends_base_class_1_2415", "Class '{0}' incorrectly extends base class '{1}'."), Property_0_in_type_1_is_not_assignable_to_the_same_property_in_base_type_2: diag(2416, ts.DiagnosticCategory.Error, "Property_0_in_type_1_is_not_assignable_to_the_same_property_in_base_type_2_2416", "Property '{0}' in type '{1}' is not assignable to the same property in base type '{2}'."), Class_static_side_0_incorrectly_extends_base_class_static_side_1: diag(2417, ts.DiagnosticCategory.Error, "Class_static_side_0_incorrectly_extends_base_class_static_side_1_2417", "Class static side '{0}' incorrectly extends base class static side '{1}'."), Type_of_computed_property_s_value_is_0_which_is_not_assignable_to_type_1: diag(2418, ts.DiagnosticCategory.Error, "Type_of_computed_property_s_value_is_0_which_is_not_assignable_to_type_1_2418", "Type of computed property's value is '{0}', which is not assignable to type '{1}'."), Class_0_incorrectly_implements_interface_1: diag(2420, ts.DiagnosticCategory.Error, "Class_0_incorrectly_implements_interface_1_2420", "Class '{0}' incorrectly implements interface '{1}'."), A_class_can_only_implement_an_object_type_or_intersection_of_object_types_with_statically_known_members: diag(2422, ts.DiagnosticCategory.Error, "A_class_can_only_implement_an_object_type_or_intersection_of_object_types_with_statically_known_memb_2422", "A class can only implement an object type or intersection of object types with statically known members."), Class_0_defines_instance_member_function_1_but_extended_class_2_defines_it_as_instance_member_accessor: diag(2423, ts.DiagnosticCategory.Error, "Class_0_defines_instance_member_function_1_but_extended_class_2_defines_it_as_instance_member_access_2423", "Class '{0}' defines instance member function '{1}', but extended class '{2}' defines it as instance member accessor."), Class_0_defines_instance_member_property_1_but_extended_class_2_defines_it_as_instance_member_function: diag(2425, ts.DiagnosticCategory.Error, "Class_0_defines_instance_member_property_1_but_extended_class_2_defines_it_as_instance_member_functi_2425", "Class '{0}' defines instance member property '{1}', but extended class '{2}' defines it as instance member function."), Class_0_defines_instance_member_accessor_1_but_extended_class_2_defines_it_as_instance_member_function: diag(2426, ts.DiagnosticCategory.Error, "Class_0_defines_instance_member_accessor_1_but_extended_class_2_defines_it_as_instance_member_functi_2426", "Class '{0}' defines instance member accessor '{1}', but extended class '{2}' defines it as instance member function."), Interface_name_cannot_be_0: diag(2427, ts.DiagnosticCategory.Error, "Interface_name_cannot_be_0_2427", "Interface name cannot be '{0}'."), All_declarations_of_0_must_have_identical_type_parameters: diag(2428, ts.DiagnosticCategory.Error, "All_declarations_of_0_must_have_identical_type_parameters_2428", "All declarations of '{0}' must have identical type parameters."), Interface_0_incorrectly_extends_interface_1: diag(2430, ts.DiagnosticCategory.Error, "Interface_0_incorrectly_extends_interface_1_2430", "Interface '{0}' incorrectly extends interface '{1}'."), Enum_name_cannot_be_0: diag(2431, ts.DiagnosticCategory.Error, "Enum_name_cannot_be_0_2431", "Enum name cannot be '{0}'."), In_an_enum_with_multiple_declarations_only_one_declaration_can_omit_an_initializer_for_its_first_enum_element: diag(2432, ts.DiagnosticCategory.Error, "In_an_enum_with_multiple_declarations_only_one_declaration_can_omit_an_initializer_for_its_first_enu_2432", "In an enum with multiple declarations, only one declaration can omit an initializer for its first enum element."), A_namespace_declaration_cannot_be_in_a_different_file_from_a_class_or_function_with_which_it_is_merged: diag(2433, ts.DiagnosticCategory.Error, "A_namespace_declaration_cannot_be_in_a_different_file_from_a_class_or_function_with_which_it_is_merg_2433", "A namespace declaration cannot be in a different file from a class or function with which it is merged."), A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged: diag(2434, ts.DiagnosticCategory.Error, "A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged_2434", "A namespace declaration cannot be located prior to a class or function with which it is merged."), Ambient_modules_cannot_be_nested_in_other_modules_or_namespaces: diag(2435, ts.DiagnosticCategory.Error, "Ambient_modules_cannot_be_nested_in_other_modules_or_namespaces_2435", "Ambient modules cannot be nested in other modules or namespaces."), Ambient_module_declaration_cannot_specify_relative_module_name: diag(2436, ts.DiagnosticCategory.Error, "Ambient_module_declaration_cannot_specify_relative_module_name_2436", "Ambient module declaration cannot specify relative module name."), Module_0_is_hidden_by_a_local_declaration_with_the_same_name: diag(2437, ts.DiagnosticCategory.Error, "Module_0_is_hidden_by_a_local_declaration_with_the_same_name_2437", "Module '{0}' is hidden by a local declaration with the same name."), Import_name_cannot_be_0: diag(2438, ts.DiagnosticCategory.Error, "Import_name_cannot_be_0_2438", "Import name cannot be '{0}'."), Import_or_export_declaration_in_an_ambient_module_declaration_cannot_reference_module_through_relative_module_name: diag(2439, ts.DiagnosticCategory.Error, "Import_or_export_declaration_in_an_ambient_module_declaration_cannot_reference_module_through_relati_2439", "Import or export declaration in an ambient module declaration cannot reference module through relative module name."), Import_declaration_conflicts_with_local_declaration_of_0: diag(2440, ts.DiagnosticCategory.Error, "Import_declaration_conflicts_with_local_declaration_of_0_2440", "Import declaration conflicts with local declaration of '{0}'."), Duplicate_identifier_0_Compiler_reserves_name_1_in_top_level_scope_of_a_module: diag(2441, ts.DiagnosticCategory.Error, "Duplicate_identifier_0_Compiler_reserves_name_1_in_top_level_scope_of_a_module_2441", "Duplicate identifier '{0}'. Compiler reserves name '{1}' in top level scope of a module."), Types_have_separate_declarations_of_a_private_property_0: diag(2442, ts.DiagnosticCategory.Error, "Types_have_separate_declarations_of_a_private_property_0_2442", "Types have separate declarations of a private property '{0}'."), Property_0_is_protected_but_type_1_is_not_a_class_derived_from_2: diag(2443, ts.DiagnosticCategory.Error, "Property_0_is_protected_but_type_1_is_not_a_class_derived_from_2_2443", "Property '{0}' is protected but type '{1}' is not a class derived from '{2}'."), Property_0_is_protected_in_type_1_but_public_in_type_2: diag(2444, ts.DiagnosticCategory.Error, "Property_0_is_protected_in_type_1_but_public_in_type_2_2444", "Property '{0}' is protected in type '{1}' but public in type '{2}'."), Property_0_is_protected_and_only_accessible_within_class_1_and_its_subclasses: diag(2445, ts.DiagnosticCategory.Error, "Property_0_is_protected_and_only_accessible_within_class_1_and_its_subclasses_2445", "Property '{0}' is protected and only accessible within class '{1}' and its subclasses."), Property_0_is_protected_and_only_accessible_through_an_instance_of_class_1: diag(2446, ts.DiagnosticCategory.Error, "Property_0_is_protected_and_only_accessible_through_an_instance_of_class_1_2446", "Property '{0}' is protected and only accessible through an instance of class '{1}'."), The_0_operator_is_not_allowed_for_boolean_types_Consider_using_1_instead: diag(2447, ts.DiagnosticCategory.Error, "The_0_operator_is_not_allowed_for_boolean_types_Consider_using_1_instead_2447", "The '{0}' operator is not allowed for boolean types. Consider using '{1}' instead."), Block_scoped_variable_0_used_before_its_declaration: diag(2448, ts.DiagnosticCategory.Error, "Block_scoped_variable_0_used_before_its_declaration_2448", "Block-scoped variable '{0}' used before its declaration."), Class_0_used_before_its_declaration: diag(2449, ts.DiagnosticCategory.Error, "Class_0_used_before_its_declaration_2449", "Class '{0}' used before its declaration."), Enum_0_used_before_its_declaration: diag(2450, ts.DiagnosticCategory.Error, "Enum_0_used_before_its_declaration_2450", "Enum '{0}' used before its declaration."), Cannot_redeclare_block_scoped_variable_0: diag(2451, ts.DiagnosticCategory.Error, "Cannot_redeclare_block_scoped_variable_0_2451", "Cannot redeclare block-scoped variable '{0}'."), An_enum_member_cannot_have_a_numeric_name: diag(2452, ts.DiagnosticCategory.Error, "An_enum_member_cannot_have_a_numeric_name_2452", "An enum member cannot have a numeric name."), The_type_argument_for_type_parameter_0_cannot_be_inferred_from_the_usage_Consider_specifying_the_type_arguments_explicitly: diag(2453, ts.DiagnosticCategory.Error, "The_type_argument_for_type_parameter_0_cannot_be_inferred_from_the_usage_Consider_specifying_the_typ_2453", "The type argument for type parameter '{0}' cannot be inferred from the usage. Consider specifying the type arguments explicitly."), Variable_0_is_used_before_being_assigned: diag(2454, ts.DiagnosticCategory.Error, "Variable_0_is_used_before_being_assigned_2454", "Variable '{0}' is used before being assigned."), Type_argument_candidate_1_is_not_a_valid_type_argument_because_it_is_not_a_supertype_of_candidate_0: diag(2455, ts.DiagnosticCategory.Error, "Type_argument_candidate_1_is_not_a_valid_type_argument_because_it_is_not_a_supertype_of_candidate_0_2455", "Type argument candidate '{1}' is not a valid type argument because it is not a supertype of candidate '{0}'."), Type_alias_0_circularly_references_itself: diag(2456, ts.DiagnosticCategory.Error, "Type_alias_0_circularly_references_itself_2456", "Type alias '{0}' circularly references itself."), Type_alias_name_cannot_be_0: diag(2457, ts.DiagnosticCategory.Error, "Type_alias_name_cannot_be_0_2457", "Type alias name cannot be '{0}'."), An_AMD_module_cannot_have_multiple_name_assignments: diag(2458, ts.DiagnosticCategory.Error, "An_AMD_module_cannot_have_multiple_name_assignments_2458", "An AMD module cannot have multiple name assignments."), Module_0_declares_1_locally_but_it_is_not_exported: diag(2459, ts.DiagnosticCategory.Error, "Module_0_declares_1_locally_but_it_is_not_exported_2459", "Module '{0}' declares '{1}' locally, but it is not exported."), Module_0_declares_1_locally_but_it_is_exported_as_2: diag(2460, ts.DiagnosticCategory.Error, "Module_0_declares_1_locally_but_it_is_exported_as_2_2460", "Module '{0}' declares '{1}' locally, but it is exported as '{2}'."), Type_0_is_not_an_array_type: diag(2461, ts.DiagnosticCategory.Error, "Type_0_is_not_an_array_type_2461", "Type '{0}' is not an array type."), A_rest_element_must_be_last_in_a_destructuring_pattern: diag(2462, ts.DiagnosticCategory.Error, "A_rest_element_must_be_last_in_a_destructuring_pattern_2462", "A rest element must be last in a destructuring pattern."), A_binding_pattern_parameter_cannot_be_optional_in_an_implementation_signature: diag(2463, ts.DiagnosticCategory.Error, "A_binding_pattern_parameter_cannot_be_optional_in_an_implementation_signature_2463", "A binding pattern parameter cannot be optional in an implementation signature."), A_computed_property_name_must_be_of_type_string_number_symbol_or_any: diag(2464, ts.DiagnosticCategory.Error, "A_computed_property_name_must_be_of_type_string_number_symbol_or_any_2464", "A computed property name must be of type 'string', 'number', 'symbol', or 'any'."), this_cannot_be_referenced_in_a_computed_property_name: diag(2465, ts.DiagnosticCategory.Error, "this_cannot_be_referenced_in_a_computed_property_name_2465", "'this' cannot be referenced in a computed property name."), super_cannot_be_referenced_in_a_computed_property_name: diag(2466, ts.DiagnosticCategory.Error, "super_cannot_be_referenced_in_a_computed_property_name_2466", "'super' cannot be referenced in a computed property name."), A_computed_property_name_cannot_reference_a_type_parameter_from_its_containing_type: diag(2467, ts.DiagnosticCategory.Error, "A_computed_property_name_cannot_reference_a_type_parameter_from_its_containing_type_2467", "A computed property name cannot reference a type parameter from its containing type."), Cannot_find_global_value_0: diag(2468, ts.DiagnosticCategory.Error, "Cannot_find_global_value_0_2468", "Cannot find global value '{0}'."), The_0_operator_cannot_be_applied_to_type_symbol: diag(2469, ts.DiagnosticCategory.Error, "The_0_operator_cannot_be_applied_to_type_symbol_2469", "The '{0}' operator cannot be applied to type 'symbol'."), Symbol_reference_does_not_refer_to_the_global_Symbol_constructor_object: diag(2470, ts.DiagnosticCategory.Error, "Symbol_reference_does_not_refer_to_the_global_Symbol_constructor_object_2470", "'Symbol' reference does not refer to the global Symbol constructor object."), A_computed_property_name_of_the_form_0_must_be_of_type_symbol: diag(2471, ts.DiagnosticCategory.Error, "A_computed_property_name_of_the_form_0_must_be_of_type_symbol_2471", "A computed property name of the form '{0}' must be of type 'symbol'."), Spread_operator_in_new_expressions_is_only_available_when_targeting_ECMAScript_5_and_higher: diag(2472, ts.DiagnosticCategory.Error, "Spread_operator_in_new_expressions_is_only_available_when_targeting_ECMAScript_5_and_higher_2472", "Spread operator in 'new' expressions is only available when targeting ECMAScript 5 and higher."), Enum_declarations_must_all_be_const_or_non_const: diag(2473, ts.DiagnosticCategory.Error, "Enum_declarations_must_all_be_const_or_non_const_2473", "Enum declarations must all be const or non-const."), const_enum_member_initializers_can_only_contain_literal_values_and_other_computed_enum_values: diag(2474, ts.DiagnosticCategory.Error, "const_enum_member_initializers_can_only_contain_literal_values_and_other_computed_enum_values_2474", "const enum member initializers can only contain literal values and other computed enum values."), const_enums_can_only_be_used_in_property_or_index_access_expressions_or_the_right_hand_side_of_an_import_declaration_or_export_assignment_or_type_query: diag(2475, ts.DiagnosticCategory.Error, "const_enums_can_only_be_used_in_property_or_index_access_expressions_or_the_right_hand_side_of_an_im_2475", "'const' enums can only be used in property or index access expressions or the right hand side of an import declaration or export assignment or type query."), A_const_enum_member_can_only_be_accessed_using_a_string_literal: diag(2476, ts.DiagnosticCategory.Error, "A_const_enum_member_can_only_be_accessed_using_a_string_literal_2476", "A const enum member can only be accessed using a string literal."), const_enum_member_initializer_was_evaluated_to_a_non_finite_value: diag(2477, ts.DiagnosticCategory.Error, "const_enum_member_initializer_was_evaluated_to_a_non_finite_value_2477", "'const' enum member initializer was evaluated to a non-finite value."), const_enum_member_initializer_was_evaluated_to_disallowed_value_NaN: diag(2478, ts.DiagnosticCategory.Error, "const_enum_member_initializer_was_evaluated_to_disallowed_value_NaN_2478", "'const' enum member initializer was evaluated to disallowed value 'NaN'."), Property_0_does_not_exist_on_const_enum_1: diag(2479, ts.DiagnosticCategory.Error, "Property_0_does_not_exist_on_const_enum_1_2479", "Property '{0}' does not exist on 'const' enum '{1}'."), let_is_not_allowed_to_be_used_as_a_name_in_let_or_const_declarations: diag(2480, ts.DiagnosticCategory.Error, "let_is_not_allowed_to_be_used_as_a_name_in_let_or_const_declarations_2480", "'let' is not allowed to be used as a name in 'let' or 'const' declarations."), Cannot_initialize_outer_scoped_variable_0_in_the_same_scope_as_block_scoped_declaration_1: diag(2481, ts.DiagnosticCategory.Error, "Cannot_initialize_outer_scoped_variable_0_in_the_same_scope_as_block_scoped_declaration_1_2481", "Cannot initialize outer scoped variable '{0}' in the same scope as block scoped declaration '{1}'."), The_left_hand_side_of_a_for_of_statement_cannot_use_a_type_annotation: diag(2483, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_of_statement_cannot_use_a_type_annotation_2483", "The left-hand side of a 'for...of' statement cannot use a type annotation."), Export_declaration_conflicts_with_exported_declaration_of_0: diag(2484, ts.DiagnosticCategory.Error, "Export_declaration_conflicts_with_exported_declaration_of_0_2484", "Export declaration conflicts with exported declaration of '{0}'."), The_left_hand_side_of_a_for_of_statement_must_be_a_variable_or_a_property_access: diag(2487, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_of_statement_must_be_a_variable_or_a_property_access_2487", "The left-hand side of a 'for...of' statement must be a variable or a property access."), Type_0_must_have_a_Symbol_iterator_method_that_returns_an_iterator: diag(2488, ts.DiagnosticCategory.Error, "Type_0_must_have_a_Symbol_iterator_method_that_returns_an_iterator_2488", "Type '{0}' must have a '[Symbol.iterator]()' method that returns an iterator."), An_iterator_must_have_a_next_method: diag(2489, ts.DiagnosticCategory.Error, "An_iterator_must_have_a_next_method_2489", "An iterator must have a 'next()' method."), The_type_returned_by_the_0_method_of_an_iterator_must_have_a_value_property: diag(2490, ts.DiagnosticCategory.Error, "The_type_returned_by_the_0_method_of_an_iterator_must_have_a_value_property_2490", "The type returned by the '{0}()' method of an iterator must have a 'value' property."), The_left_hand_side_of_a_for_in_statement_cannot_be_a_destructuring_pattern: diag(2491, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_in_statement_cannot_be_a_destructuring_pattern_2491", "The left-hand side of a 'for...in' statement cannot be a destructuring pattern."), Cannot_redeclare_identifier_0_in_catch_clause: diag(2492, ts.DiagnosticCategory.Error, "Cannot_redeclare_identifier_0_in_catch_clause_2492", "Cannot redeclare identifier '{0}' in catch clause."), Tuple_type_0_of_length_1_has_no_element_at_index_2: diag(2493, ts.DiagnosticCategory.Error, "Tuple_type_0_of_length_1_has_no_element_at_index_2_2493", "Tuple type '{0}' of length '{1}' has no element at index '{2}'."), Using_a_string_in_a_for_of_statement_is_only_supported_in_ECMAScript_5_and_higher: diag(2494, ts.DiagnosticCategory.Error, "Using_a_string_in_a_for_of_statement_is_only_supported_in_ECMAScript_5_and_higher_2494", "Using a string in a 'for...of' statement is only supported in ECMAScript 5 and higher."), Type_0_is_not_an_array_type_or_a_string_type: diag(2495, ts.DiagnosticCategory.Error, "Type_0_is_not_an_array_type_or_a_string_type_2495", "Type '{0}' is not an array type or a string type."), The_arguments_object_cannot_be_referenced_in_an_arrow_function_in_ES3_and_ES5_Consider_using_a_standard_function_expression: diag(2496, ts.DiagnosticCategory.Error, "The_arguments_object_cannot_be_referenced_in_an_arrow_function_in_ES3_and_ES5_Consider_using_a_stand_2496", "The 'arguments' object cannot be referenced in an arrow function in ES3 and ES5. Consider using a standard function expression."), This_module_can_only_be_referenced_with_ECMAScript_imports_Slashexports_by_turning_on_the_0_flag_and_referencing_its_default_export: diag(2497, ts.DiagnosticCategory.Error, "This_module_can_only_be_referenced_with_ECMAScript_imports_Slashexports_by_turning_on_the_0_flag_and_2497", "This module can only be referenced with ECMAScript imports/exports by turning on the '{0}' flag and referencing its default export."), Module_0_uses_export_and_cannot_be_used_with_export_Asterisk: diag(2498, ts.DiagnosticCategory.Error, "Module_0_uses_export_and_cannot_be_used_with_export_Asterisk_2498", "Module '{0}' uses 'export =' and cannot be used with 'export *'."), An_interface_can_only_extend_an_identifier_Slashqualified_name_with_optional_type_arguments: diag(2499, ts.DiagnosticCategory.Error, "An_interface_can_only_extend_an_identifier_Slashqualified_name_with_optional_type_arguments_2499", "An interface can only extend an identifier/qualified-name with optional type arguments."), A_class_can_only_implement_an_identifier_Slashqualified_name_with_optional_type_arguments: diag(2500, ts.DiagnosticCategory.Error, "A_class_can_only_implement_an_identifier_Slashqualified_name_with_optional_type_arguments_2500", "A class can only implement an identifier/qualified-name with optional type arguments."), A_rest_element_cannot_contain_a_binding_pattern: diag(2501, ts.DiagnosticCategory.Error, "A_rest_element_cannot_contain_a_binding_pattern_2501", "A rest element cannot contain a binding pattern."), _0_is_referenced_directly_or_indirectly_in_its_own_type_annotation: diag(2502, ts.DiagnosticCategory.Error, "_0_is_referenced_directly_or_indirectly_in_its_own_type_annotation_2502", "'{0}' is referenced directly or indirectly in its own type annotation."), Cannot_find_namespace_0: diag(2503, ts.DiagnosticCategory.Error, "Cannot_find_namespace_0_2503", "Cannot find namespace '{0}'."), Type_0_must_have_a_Symbol_asyncIterator_method_that_returns_an_async_iterator: diag(2504, ts.DiagnosticCategory.Error, "Type_0_must_have_a_Symbol_asyncIterator_method_that_returns_an_async_iterator_2504", "Type '{0}' must have a '[Symbol.asyncIterator]()' method that returns an async iterator."), A_generator_cannot_have_a_void_type_annotation: diag(2505, ts.DiagnosticCategory.Error, "A_generator_cannot_have_a_void_type_annotation_2505", "A generator cannot have a 'void' type annotation."), _0_is_referenced_directly_or_indirectly_in_its_own_base_expression: diag(2506, ts.DiagnosticCategory.Error, "_0_is_referenced_directly_or_indirectly_in_its_own_base_expression_2506", "'{0}' is referenced directly or indirectly in its own base expression."), Type_0_is_not_a_constructor_function_type: diag(2507, ts.DiagnosticCategory.Error, "Type_0_is_not_a_constructor_function_type_2507", "Type '{0}' is not a constructor function type."), No_base_constructor_has_the_specified_number_of_type_arguments: diag(2508, ts.DiagnosticCategory.Error, "No_base_constructor_has_the_specified_number_of_type_arguments_2508", "No base constructor has the specified number of type arguments."), Base_constructor_return_type_0_is_not_an_object_type_or_intersection_of_object_types_with_statically_known_members: diag(2509, ts.DiagnosticCategory.Error, "Base_constructor_return_type_0_is_not_an_object_type_or_intersection_of_object_types_with_statically_2509", "Base constructor return type '{0}' is not an object type or intersection of object types with statically known members."), Base_constructors_must_all_have_the_same_return_type: diag(2510, ts.DiagnosticCategory.Error, "Base_constructors_must_all_have_the_same_return_type_2510", "Base constructors must all have the same return type."), Cannot_create_an_instance_of_an_abstract_class: diag(2511, ts.DiagnosticCategory.Error, "Cannot_create_an_instance_of_an_abstract_class_2511", "Cannot create an instance of an abstract class."), Overload_signatures_must_all_be_abstract_or_non_abstract: diag(2512, ts.DiagnosticCategory.Error, "Overload_signatures_must_all_be_abstract_or_non_abstract_2512", "Overload signatures must all be abstract or non-abstract."), Abstract_method_0_in_class_1_cannot_be_accessed_via_super_expression: diag(2513, ts.DiagnosticCategory.Error, "Abstract_method_0_in_class_1_cannot_be_accessed_via_super_expression_2513", "Abstract method '{0}' in class '{1}' cannot be accessed via super expression."), Classes_containing_abstract_methods_must_be_marked_abstract: diag(2514, ts.DiagnosticCategory.Error, "Classes_containing_abstract_methods_must_be_marked_abstract_2514", "Classes containing abstract methods must be marked abstract."), Non_abstract_class_0_does_not_implement_inherited_abstract_member_1_from_class_2: diag(2515, ts.DiagnosticCategory.Error, "Non_abstract_class_0_does_not_implement_inherited_abstract_member_1_from_class_2_2515", "Non-abstract class '{0}' does not implement inherited abstract member '{1}' from class '{2}'."), All_declarations_of_an_abstract_method_must_be_consecutive: diag(2516, ts.DiagnosticCategory.Error, "All_declarations_of_an_abstract_method_must_be_consecutive_2516", "All declarations of an abstract method must be consecutive."), Cannot_assign_an_abstract_constructor_type_to_a_non_abstract_constructor_type: diag(2517, ts.DiagnosticCategory.Error, "Cannot_assign_an_abstract_constructor_type_to_a_non_abstract_constructor_type_2517", "Cannot assign an abstract constructor type to a non-abstract constructor type."), A_this_based_type_guard_is_not_compatible_with_a_parameter_based_type_guard: diag(2518, ts.DiagnosticCategory.Error, "A_this_based_type_guard_is_not_compatible_with_a_parameter_based_type_guard_2518", "A 'this'-based type guard is not compatible with a parameter-based type guard."), An_async_iterator_must_have_a_next_method: diag(2519, ts.DiagnosticCategory.Error, "An_async_iterator_must_have_a_next_method_2519", "An async iterator must have a 'next()' method."), Duplicate_identifier_0_Compiler_uses_declaration_1_to_support_async_functions: diag(2520, ts.DiagnosticCategory.Error, "Duplicate_identifier_0_Compiler_uses_declaration_1_to_support_async_functions_2520", "Duplicate identifier '{0}'. Compiler uses declaration '{1}' to support async functions."), Expression_resolves_to_variable_declaration_0_that_compiler_uses_to_support_async_functions: diag(2521, ts.DiagnosticCategory.Error, "Expression_resolves_to_variable_declaration_0_that_compiler_uses_to_support_async_functions_2521", "Expression resolves to variable declaration '{0}' that compiler uses to support async functions."), The_arguments_object_cannot_be_referenced_in_an_async_function_or_method_in_ES3_and_ES5_Consider_using_a_standard_function_or_method: diag(2522, ts.DiagnosticCategory.Error, "The_arguments_object_cannot_be_referenced_in_an_async_function_or_method_in_ES3_and_ES5_Consider_usi_2522", "The 'arguments' object cannot be referenced in an async function or method in ES3 and ES5. Consider using a standard function or method."), yield_expressions_cannot_be_used_in_a_parameter_initializer: diag(2523, ts.DiagnosticCategory.Error, "yield_expressions_cannot_be_used_in_a_parameter_initializer_2523", "'yield' expressions cannot be used in a parameter initializer."), await_expressions_cannot_be_used_in_a_parameter_initializer: diag(2524, ts.DiagnosticCategory.Error, "await_expressions_cannot_be_used_in_a_parameter_initializer_2524", "'await' expressions cannot be used in a parameter initializer."), Initializer_provides_no_value_for_this_binding_element_and_the_binding_element_has_no_default_value: diag(2525, ts.DiagnosticCategory.Error, "Initializer_provides_no_value_for_this_binding_element_and_the_binding_element_has_no_default_value_2525", "Initializer provides no value for this binding element and the binding element has no default value."), A_this_type_is_available_only_in_a_non_static_member_of_a_class_or_interface: diag(2526, ts.DiagnosticCategory.Error, "A_this_type_is_available_only_in_a_non_static_member_of_a_class_or_interface_2526", "A 'this' type is available only in a non-static member of a class or interface."), The_inferred_type_of_0_references_an_inaccessible_1_type_A_type_annotation_is_necessary: diag(2527, ts.DiagnosticCategory.Error, "The_inferred_type_of_0_references_an_inaccessible_1_type_A_type_annotation_is_necessary_2527", "The inferred type of '{0}' references an inaccessible '{1}' type. A type annotation is necessary."), A_module_cannot_have_multiple_default_exports: diag(2528, ts.DiagnosticCategory.Error, "A_module_cannot_have_multiple_default_exports_2528", "A module cannot have multiple default exports."), Duplicate_identifier_0_Compiler_reserves_name_1_in_top_level_scope_of_a_module_containing_async_functions: diag(2529, ts.DiagnosticCategory.Error, "Duplicate_identifier_0_Compiler_reserves_name_1_in_top_level_scope_of_a_module_containing_async_func_2529", "Duplicate identifier '{0}'. Compiler reserves name '{1}' in top level scope of a module containing async functions."), Property_0_is_incompatible_with_index_signature: diag(2530, ts.DiagnosticCategory.Error, "Property_0_is_incompatible_with_index_signature_2530", "Property '{0}' is incompatible with index signature."), Object_is_possibly_null: diag(2531, ts.DiagnosticCategory.Error, "Object_is_possibly_null_2531", "Object is possibly 'null'."), Object_is_possibly_undefined: diag(2532, ts.DiagnosticCategory.Error, "Object_is_possibly_undefined_2532", "Object is possibly 'undefined'."), Object_is_possibly_null_or_undefined: diag(2533, ts.DiagnosticCategory.Error, "Object_is_possibly_null_or_undefined_2533", "Object is possibly 'null' or 'undefined'."), A_function_returning_never_cannot_have_a_reachable_end_point: diag(2534, ts.DiagnosticCategory.Error, "A_function_returning_never_cannot_have_a_reachable_end_point_2534", "A function returning 'never' cannot have a reachable end point."), Enum_type_0_has_members_with_initializers_that_are_not_literals: diag(2535, ts.DiagnosticCategory.Error, "Enum_type_0_has_members_with_initializers_that_are_not_literals_2535", "Enum type '{0}' has members with initializers that are not literals."), Type_0_cannot_be_used_to_index_type_1: diag(2536, ts.DiagnosticCategory.Error, "Type_0_cannot_be_used_to_index_type_1_2536", "Type '{0}' cannot be used to index type '{1}'."), Type_0_has_no_matching_index_signature_for_type_1: diag(2537, ts.DiagnosticCategory.Error, "Type_0_has_no_matching_index_signature_for_type_1_2537", "Type '{0}' has no matching index signature for type '{1}'."), Type_0_cannot_be_used_as_an_index_type: diag(2538, ts.DiagnosticCategory.Error, "Type_0_cannot_be_used_as_an_index_type_2538", "Type '{0}' cannot be used as an index type."), Cannot_assign_to_0_because_it_is_not_a_variable: diag(2539, ts.DiagnosticCategory.Error, "Cannot_assign_to_0_because_it_is_not_a_variable_2539", "Cannot assign to '{0}' because it is not a variable."), Cannot_assign_to_0_because_it_is_a_read_only_property: diag(2540, ts.DiagnosticCategory.Error, "Cannot_assign_to_0_because_it_is_a_read_only_property_2540", "Cannot assign to '{0}' because it is a read-only property."), The_target_of_an_assignment_must_be_a_variable_or_a_property_access: diag(2541, ts.DiagnosticCategory.Error, "The_target_of_an_assignment_must_be_a_variable_or_a_property_access_2541", "The target of an assignment must be a variable or a property access."), Index_signature_in_type_0_only_permits_reading: diag(2542, ts.DiagnosticCategory.Error, "Index_signature_in_type_0_only_permits_reading_2542", "Index signature in type '{0}' only permits reading."), Duplicate_identifier_newTarget_Compiler_uses_variable_declaration_newTarget_to_capture_new_target_meta_property_reference: diag(2543, ts.DiagnosticCategory.Error, "Duplicate_identifier_newTarget_Compiler_uses_variable_declaration_newTarget_to_capture_new_target_me_2543", "Duplicate identifier '_newTarget'. Compiler uses variable declaration '_newTarget' to capture 'new.target' meta-property reference."), Expression_resolves_to_variable_declaration_newTarget_that_compiler_uses_to_capture_new_target_meta_property_reference: diag(2544, ts.DiagnosticCategory.Error, "Expression_resolves_to_variable_declaration_newTarget_that_compiler_uses_to_capture_new_target_meta__2544", "Expression resolves to variable declaration '_newTarget' that compiler uses to capture 'new.target' meta-property reference."), A_mixin_class_must_have_a_constructor_with_a_single_rest_parameter_of_type_any: diag(2545, ts.DiagnosticCategory.Error, "A_mixin_class_must_have_a_constructor_with_a_single_rest_parameter_of_type_any_2545", "A mixin class must have a constructor with a single rest parameter of type 'any[]'."), The_type_returned_by_the_0_method_of_an_async_iterator_must_be_a_promise_for_a_type_with_a_value_property: diag(2547, ts.DiagnosticCategory.Error, "The_type_returned_by_the_0_method_of_an_async_iterator_must_be_a_promise_for_a_type_with_a_value_pro_2547", "The type returned by the '{0}()' method of an async iterator must be a promise for a type with a 'value' property."), Type_0_is_not_an_array_type_or_does_not_have_a_Symbol_iterator_method_that_returns_an_iterator: diag(2548, ts.DiagnosticCategory.Error, "Type_0_is_not_an_array_type_or_does_not_have_a_Symbol_iterator_method_that_returns_an_iterator_2548", "Type '{0}' is not an array type or does not have a '[Symbol.iterator]()' method that returns an iterator."), Type_0_is_not_an_array_type_or_a_string_type_or_does_not_have_a_Symbol_iterator_method_that_returns_an_iterator: diag(2549, ts.DiagnosticCategory.Error, "Type_0_is_not_an_array_type_or_a_string_type_or_does_not_have_a_Symbol_iterator_method_that_returns__2549", "Type '{0}' is not an array type or a string type or does not have a '[Symbol.iterator]()' method that returns an iterator."), Property_0_does_not_exist_on_type_1_Did_you_mean_2: diag(2551, ts.DiagnosticCategory.Error, "Property_0_does_not_exist_on_type_1_Did_you_mean_2_2551", "Property '{0}' does not exist on type '{1}'. Did you mean '{2}'?"), Cannot_find_name_0_Did_you_mean_1: diag(2552, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Did_you_mean_1_2552", "Cannot find name '{0}'. Did you mean '{1}'?"), Computed_values_are_not_permitted_in_an_enum_with_string_valued_members: diag(2553, ts.DiagnosticCategory.Error, "Computed_values_are_not_permitted_in_an_enum_with_string_valued_members_2553", "Computed values are not permitted in an enum with string valued members."), Expected_0_arguments_but_got_1: diag(2554, ts.DiagnosticCategory.Error, "Expected_0_arguments_but_got_1_2554", "Expected {0} arguments, but got {1}."), Expected_at_least_0_arguments_but_got_1: diag(2555, ts.DiagnosticCategory.Error, "Expected_at_least_0_arguments_but_got_1_2555", "Expected at least {0} arguments, but got {1}."), Expected_0_arguments_but_got_1_or_more: diag(2556, ts.DiagnosticCategory.Error, "Expected_0_arguments_but_got_1_or_more_2556", "Expected {0} arguments, but got {1} or more."), Expected_at_least_0_arguments_but_got_1_or_more: diag(2557, ts.DiagnosticCategory.Error, "Expected_at_least_0_arguments_but_got_1_or_more_2557", "Expected at least {0} arguments, but got {1} or more."), Expected_0_type_arguments_but_got_1: diag(2558, ts.DiagnosticCategory.Error, "Expected_0_type_arguments_but_got_1_2558", "Expected {0} type arguments, but got {1}."), Type_0_has_no_properties_in_common_with_type_1: diag(2559, ts.DiagnosticCategory.Error, "Type_0_has_no_properties_in_common_with_type_1_2559", "Type '{0}' has no properties in common with type '{1}'."), Value_of_type_0_has_no_properties_in_common_with_type_1_Did_you_mean_to_call_it: diag(2560, ts.DiagnosticCategory.Error, "Value_of_type_0_has_no_properties_in_common_with_type_1_Did_you_mean_to_call_it_2560", "Value of type '{0}' has no properties in common with type '{1}'. Did you mean to call it?"), Object_literal_may_only_specify_known_properties_but_0_does_not_exist_in_type_1_Did_you_mean_to_write_2: diag(2561, ts.DiagnosticCategory.Error, "Object_literal_may_only_specify_known_properties_but_0_does_not_exist_in_type_1_Did_you_mean_to_writ_2561", "Object literal may only specify known properties, but '{0}' does not exist in type '{1}'. Did you mean to write '{2}'?"), Base_class_expressions_cannot_reference_class_type_parameters: diag(2562, ts.DiagnosticCategory.Error, "Base_class_expressions_cannot_reference_class_type_parameters_2562", "Base class expressions cannot reference class type parameters."), The_containing_function_or_module_body_is_too_large_for_control_flow_analysis: diag(2563, ts.DiagnosticCategory.Error, "The_containing_function_or_module_body_is_too_large_for_control_flow_analysis_2563", "The containing function or module body is too large for control flow analysis."), Property_0_has_no_initializer_and_is_not_definitely_assigned_in_the_constructor: diag(2564, ts.DiagnosticCategory.Error, "Property_0_has_no_initializer_and_is_not_definitely_assigned_in_the_constructor_2564", "Property '{0}' has no initializer and is not definitely assigned in the constructor."), Property_0_is_used_before_being_assigned: diag(2565, ts.DiagnosticCategory.Error, "Property_0_is_used_before_being_assigned_2565", "Property '{0}' is used before being assigned."), A_rest_element_cannot_have_a_property_name: diag(2566, ts.DiagnosticCategory.Error, "A_rest_element_cannot_have_a_property_name_2566", "A rest element cannot have a property name."), Enum_declarations_can_only_merge_with_namespace_or_other_enum_declarations: diag(2567, ts.DiagnosticCategory.Error, "Enum_declarations_can_only_merge_with_namespace_or_other_enum_declarations_2567", "Enum declarations can only merge with namespace or other enum declarations."), Type_0_is_not_an_array_type_or_a_string_type_Use_compiler_option_downlevelIteration_to_allow_iterating_of_iterators: diag(2569, ts.DiagnosticCategory.Error, "Type_0_is_not_an_array_type_or_a_string_type_Use_compiler_option_downlevelIteration_to_allow_iterati_2569", "Type '{0}' is not an array type or a string type. Use compiler option '--downlevelIteration' to allow iterating of iterators."), Object_is_of_type_unknown: diag(2571, ts.DiagnosticCategory.Error, "Object_is_of_type_unknown_2571", "Object is of type 'unknown'."), Rest_signatures_are_incompatible: diag(2572, ts.DiagnosticCategory.Error, "Rest_signatures_are_incompatible_2572", "Rest signatures are incompatible."), Property_0_is_incompatible_with_rest_element_type: diag(2573, ts.DiagnosticCategory.Error, "Property_0_is_incompatible_with_rest_element_type_2573", "Property '{0}' is incompatible with rest element type."), A_rest_element_type_must_be_an_array_type: diag(2574, ts.DiagnosticCategory.Error, "A_rest_element_type_must_be_an_array_type_2574", "A rest element type must be an array type."), No_overload_expects_0_arguments_but_overloads_do_exist_that_expect_either_1_or_2_arguments: diag(2575, ts.DiagnosticCategory.Error, "No_overload_expects_0_arguments_but_overloads_do_exist_that_expect_either_1_or_2_arguments_2575", "No overload expects {0} arguments, but overloads do exist that expect either {1} or {2} arguments."), Property_0_is_a_static_member_of_type_1: diag(2576, ts.DiagnosticCategory.Error, "Property_0_is_a_static_member_of_type_1_2576", "Property '{0}' is a static member of type '{1}'"), Return_type_annotation_circularly_references_itself: diag(2577, ts.DiagnosticCategory.Error, "Return_type_annotation_circularly_references_itself_2577", "Return type annotation circularly references itself."), Unused_ts_expect_error_directive: diag(2578, ts.DiagnosticCategory.Error, "Unused_ts_expect_error_directive_2578", "Unused '@ts-expect-error' directive."), Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_types_Slashnode: diag(2580, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_types_Slashnode_2580", "Cannot find name '{0}'. Do you need to install type definitions for node? Try `npm i @types/node`."), Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_types_Slashjquery: diag(2581, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_types_Slashjquery_2581", "Cannot find name '{0}'. Do you need to install type definitions for jQuery? Try `npm i @types/jquery`."), Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_a_test_runner_Try_npm_i_types_Slashjest_or_npm_i_types_Slashmocha: diag(2582, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_a_test_runner_Try_npm_i_types_Slashje_2582", "Cannot find name '{0}'. Do you need to install type definitions for a test runner? Try `npm i @types/jest` or `npm i @types/mocha`."), Cannot_find_name_0_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_es2015_or_later: diag(2583, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_2583", "Cannot find name '{0}'. Do you need to change your target library? Try changing the `lib` compiler option to es2015 or later."), Cannot_find_name_0_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_include_dom: diag(2584, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_2584", "Cannot find name '{0}'. Do you need to change your target library? Try changing the `lib` compiler option to include 'dom'."), _0_only_refers_to_a_type_but_is_being_used_as_a_value_here_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_es2015_or_later: diag(2585, ts.DiagnosticCategory.Error, "_0_only_refers_to_a_type_but_is_being_used_as_a_value_here_Do_you_need_to_change_your_target_library_2585", "'{0}' only refers to a type, but is being used as a value here. Do you need to change your target library? Try changing the `lib` compiler option to es2015 or later."), Enum_type_0_circularly_references_itself: diag(2586, ts.DiagnosticCategory.Error, "Enum_type_0_circularly_references_itself_2586", "Enum type '{0}' circularly references itself."), JSDoc_type_0_circularly_references_itself: diag(2587, ts.DiagnosticCategory.Error, "JSDoc_type_0_circularly_references_itself_2587", "JSDoc type '{0}' circularly references itself."), Cannot_assign_to_0_because_it_is_a_constant: diag(2588, ts.DiagnosticCategory.Error, "Cannot_assign_to_0_because_it_is_a_constant_2588", "Cannot assign to '{0}' because it is a constant."), Type_instantiation_is_excessively_deep_and_possibly_infinite: diag(2589, ts.DiagnosticCategory.Error, "Type_instantiation_is_excessively_deep_and_possibly_infinite_2589", "Type instantiation is excessively deep and possibly infinite."), Expression_produces_a_union_type_that_is_too_complex_to_represent: diag(2590, ts.DiagnosticCategory.Error, "Expression_produces_a_union_type_that_is_too_complex_to_represent_2590", "Expression produces a union type that is too complex to represent."), Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_types_Slashnode_and_then_add_node_to_the_types_field_in_your_tsconfig: diag(2591, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_types_Slashnode_and_th_2591", "Cannot find name '{0}'. Do you need to install type definitions for node? Try `npm i @types/node` and then add `node` to the types field in your tsconfig."), Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_types_Slashjquery_and_then_add_jquery_to_the_types_field_in_your_tsconfig: diag(2592, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_types_Slashjquery_an_2592", "Cannot find name '{0}'. Do you need to install type definitions for jQuery? Try `npm i @types/jquery` and then add `jquery` to the types field in your tsconfig."), Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_a_test_runner_Try_npm_i_types_Slashjest_or_npm_i_types_Slashmocha_and_then_add_jest_or_mocha_to_the_types_field_in_your_tsconfig: diag(2593, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_a_test_runner_Try_npm_i_types_Slashje_2593", "Cannot find name '{0}'. Do you need to install type definitions for a test runner? Try `npm i @types/jest` or `npm i @types/mocha` and then add `jest` or `mocha` to the types field in your tsconfig."), This_module_is_declared_with_using_export_and_can_only_be_used_with_a_default_import_when_using_the_0_flag: diag(2594, ts.DiagnosticCategory.Error, "This_module_is_declared_with_using_export_and_can_only_be_used_with_a_default_import_when_using_the__2594", "This module is declared with using 'export =', and can only be used with a default import when using the '{0}' flag."), _0_can_only_be_imported_by_using_a_default_import: diag(2595, ts.DiagnosticCategory.Error, "_0_can_only_be_imported_by_using_a_default_import_2595", "'{0}' can only be imported by using a default import."), _0_can_only_be_imported_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import: diag(2596, ts.DiagnosticCategory.Error, "_0_can_only_be_imported_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import_2596", "'{0}' can only be imported by turning on the 'esModuleInterop' flag and using a default import."), _0_can_only_be_imported_by_using_a_require_call_or_by_using_a_default_import: diag(2597, ts.DiagnosticCategory.Error, "_0_can_only_be_imported_by_using_a_require_call_or_by_using_a_default_import_2597", "'{0}' can only be imported by using a 'require' call or by using a default import."), _0_can_only_be_imported_by_using_a_require_call_or_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import: diag(2598, ts.DiagnosticCategory.Error, "_0_can_only_be_imported_by_using_a_require_call_or_by_turning_on_the_esModuleInterop_flag_and_using__2598", "'{0}' can only be imported by using a 'require' call or by turning on the 'esModuleInterop' flag and using a default import."), JSX_element_attributes_type_0_may_not_be_a_union_type: diag(2600, ts.DiagnosticCategory.Error, "JSX_element_attributes_type_0_may_not_be_a_union_type_2600", "JSX element attributes type '{0}' may not be a union type."), The_return_type_of_a_JSX_element_constructor_must_return_an_object_type: diag(2601, ts.DiagnosticCategory.Error, "The_return_type_of_a_JSX_element_constructor_must_return_an_object_type_2601", "The return type of a JSX element constructor must return an object type."), JSX_element_implicitly_has_type_any_because_the_global_type_JSX_Element_does_not_exist: diag(2602, ts.DiagnosticCategory.Error, "JSX_element_implicitly_has_type_any_because_the_global_type_JSX_Element_does_not_exist_2602", "JSX element implicitly has type 'any' because the global type 'JSX.Element' does not exist."), Property_0_in_type_1_is_not_assignable_to_type_2: diag(2603, ts.DiagnosticCategory.Error, "Property_0_in_type_1_is_not_assignable_to_type_2_2603", "Property '{0}' in type '{1}' is not assignable to type '{2}'."), JSX_element_type_0_does_not_have_any_construct_or_call_signatures: diag(2604, ts.DiagnosticCategory.Error, "JSX_element_type_0_does_not_have_any_construct_or_call_signatures_2604", "JSX element type '{0}' does not have any construct or call signatures."), JSX_element_type_0_is_not_a_constructor_function_for_JSX_elements: diag(2605, ts.DiagnosticCategory.Error, "JSX_element_type_0_is_not_a_constructor_function_for_JSX_elements_2605", "JSX element type '{0}' is not a constructor function for JSX elements."), Property_0_of_JSX_spread_attribute_is_not_assignable_to_target_property: diag(2606, ts.DiagnosticCategory.Error, "Property_0_of_JSX_spread_attribute_is_not_assignable_to_target_property_2606", "Property '{0}' of JSX spread attribute is not assignable to target property."), JSX_element_class_does_not_support_attributes_because_it_does_not_have_a_0_property: diag(2607, ts.DiagnosticCategory.Error, "JSX_element_class_does_not_support_attributes_because_it_does_not_have_a_0_property_2607", "JSX element class does not support attributes because it does not have a '{0}' property."), The_global_type_JSX_0_may_not_have_more_than_one_property: diag(2608, ts.DiagnosticCategory.Error, "The_global_type_JSX_0_may_not_have_more_than_one_property_2608", "The global type 'JSX.{0}' may not have more than one property."), JSX_spread_child_must_be_an_array_type: diag(2609, ts.DiagnosticCategory.Error, "JSX_spread_child_must_be_an_array_type_2609", "JSX spread child must be an array type."), _0_is_defined_as_an_accessor_in_class_1_but_is_overridden_here_in_2_as_an_instance_property: diag(2610, ts.DiagnosticCategory.Error, "_0_is_defined_as_an_accessor_in_class_1_but_is_overridden_here_in_2_as_an_instance_property_2610", "'{0}' is defined as an accessor in class '{1}', but is overridden here in '{2}' as an instance property."), _0_is_defined_as_a_property_in_class_1_but_is_overridden_here_in_2_as_an_accessor: diag(2611, ts.DiagnosticCategory.Error, "_0_is_defined_as_a_property_in_class_1_but_is_overridden_here_in_2_as_an_accessor_2611", "'{0}' is defined as a property in class '{1}', but is overridden here in '{2}' as an accessor."), Property_0_will_overwrite_the_base_property_in_1_If_this_is_intentional_add_an_initializer_Otherwise_add_a_declare_modifier_or_remove_the_redundant_declaration: diag(2612, ts.DiagnosticCategory.Error, "Property_0_will_overwrite_the_base_property_in_1_If_this_is_intentional_add_an_initializer_Otherwise_2612", "Property '{0}' will overwrite the base property in '{1}'. If this is intentional, add an initializer. Otherwise, add a 'declare' modifier or remove the redundant declaration."), Module_0_has_no_default_export_Did_you_mean_to_use_import_1_from_0_instead: diag(2613, ts.DiagnosticCategory.Error, "Module_0_has_no_default_export_Did_you_mean_to_use_import_1_from_0_instead_2613", "Module '{0}' has no default export. Did you mean to use 'import { {1} } from {0}' instead?"), Module_0_has_no_exported_member_1_Did_you_mean_to_use_import_1_from_0_instead: diag(2614, ts.DiagnosticCategory.Error, "Module_0_has_no_exported_member_1_Did_you_mean_to_use_import_1_from_0_instead_2614", "Module '{0}' has no exported member '{1}'. Did you mean to use 'import {1} from {0}' instead?"), Type_of_property_0_circularly_references_itself_in_mapped_type_1: diag(2615, ts.DiagnosticCategory.Error, "Type_of_property_0_circularly_references_itself_in_mapped_type_1_2615", "Type of property '{0}' circularly references itself in mapped type '{1}'."), _0_can_only_be_imported_by_using_import_1_require_2_or_a_default_import: diag(2616, ts.DiagnosticCategory.Error, "_0_can_only_be_imported_by_using_import_1_require_2_or_a_default_import_2616", "'{0}' can only be imported by using 'import {1} = require({2})' or a default import."), _0_can_only_be_imported_by_using_import_1_require_2_or_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import: diag(2617, ts.DiagnosticCategory.Error, "_0_can_only_be_imported_by_using_import_1_require_2_or_by_turning_on_the_esModuleInterop_flag_and_us_2617", "'{0}' can only be imported by using 'import {1} = require({2})' or by turning on the 'esModuleInterop' flag and using a default import."), Cannot_augment_module_0_with_value_exports_because_it_resolves_to_a_non_module_entity: diag(2649, ts.DiagnosticCategory.Error, "Cannot_augment_module_0_with_value_exports_because_it_resolves_to_a_non_module_entity_2649", "Cannot augment module '{0}' with value exports because it resolves to a non-module entity."), A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums: diag(2651, ts.DiagnosticCategory.Error, "A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_memb_2651", "A member initializer in a enum declaration cannot reference members declared after it, including members defined in other enums."), Merged_declaration_0_cannot_include_a_default_export_declaration_Consider_adding_a_separate_export_default_0_declaration_instead: diag(2652, ts.DiagnosticCategory.Error, "Merged_declaration_0_cannot_include_a_default_export_declaration_Consider_adding_a_separate_export_d_2652", "Merged declaration '{0}' cannot include a default export declaration. Consider adding a separate 'export default {0}' declaration instead."), Non_abstract_class_expression_does_not_implement_inherited_abstract_member_0_from_class_1: diag(2653, ts.DiagnosticCategory.Error, "Non_abstract_class_expression_does_not_implement_inherited_abstract_member_0_from_class_1_2653", "Non-abstract class expression does not implement inherited abstract member '{0}' from class '{1}'."), Exported_external_package_typings_file_cannot_contain_tripleslash_references_Please_contact_the_package_author_to_update_the_package_definition: diag(2654, ts.DiagnosticCategory.Error, "Exported_external_package_typings_file_cannot_contain_tripleslash_references_Please_contact_the_pack_2654", "Exported external package typings file cannot contain tripleslash references. Please contact the package author to update the package definition."), Exported_external_package_typings_file_0_is_not_a_module_Please_contact_the_package_author_to_update_the_package_definition: diag(2656, ts.DiagnosticCategory.Error, "Exported_external_package_typings_file_0_is_not_a_module_Please_contact_the_package_author_to_update_2656", "Exported external package typings file '{0}' is not a module. Please contact the package author to update the package definition."), JSX_expressions_must_have_one_parent_element: diag(2657, ts.DiagnosticCategory.Error, "JSX_expressions_must_have_one_parent_element_2657", "JSX expressions must have one parent element."), Type_0_provides_no_match_for_the_signature_1: diag(2658, ts.DiagnosticCategory.Error, "Type_0_provides_no_match_for_the_signature_1_2658", "Type '{0}' provides no match for the signature '{1}'."), super_is_only_allowed_in_members_of_object_literal_expressions_when_option_target_is_ES2015_or_higher: diag(2659, ts.DiagnosticCategory.Error, "super_is_only_allowed_in_members_of_object_literal_expressions_when_option_target_is_ES2015_or_highe_2659", "'super' is only allowed in members of object literal expressions when option 'target' is 'ES2015' or higher."), super_can_only_be_referenced_in_members_of_derived_classes_or_object_literal_expressions: diag(2660, ts.DiagnosticCategory.Error, "super_can_only_be_referenced_in_members_of_derived_classes_or_object_literal_expressions_2660", "'super' can only be referenced in members of derived classes or object literal expressions."), Cannot_export_0_Only_local_declarations_can_be_exported_from_a_module: diag(2661, ts.DiagnosticCategory.Error, "Cannot_export_0_Only_local_declarations_can_be_exported_from_a_module_2661", "Cannot export '{0}'. Only local declarations can be exported from a module."), Cannot_find_name_0_Did_you_mean_the_static_member_1_0: diag(2662, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Did_you_mean_the_static_member_1_0_2662", "Cannot find name '{0}'. Did you mean the static member '{1}.{0}'?"), Cannot_find_name_0_Did_you_mean_the_instance_member_this_0: diag(2663, ts.DiagnosticCategory.Error, "Cannot_find_name_0_Did_you_mean_the_instance_member_this_0_2663", "Cannot find name '{0}'. Did you mean the instance member 'this.{0}'?"), Invalid_module_name_in_augmentation_module_0_cannot_be_found: diag(2664, ts.DiagnosticCategory.Error, "Invalid_module_name_in_augmentation_module_0_cannot_be_found_2664", "Invalid module name in augmentation, module '{0}' cannot be found."), Invalid_module_name_in_augmentation_Module_0_resolves_to_an_untyped_module_at_1_which_cannot_be_augmented: diag(2665, ts.DiagnosticCategory.Error, "Invalid_module_name_in_augmentation_Module_0_resolves_to_an_untyped_module_at_1_which_cannot_be_augm_2665", "Invalid module name in augmentation. Module '{0}' resolves to an untyped module at '{1}', which cannot be augmented."), Exports_and_export_assignments_are_not_permitted_in_module_augmentations: diag(2666, ts.DiagnosticCategory.Error, "Exports_and_export_assignments_are_not_permitted_in_module_augmentations_2666", "Exports and export assignments are not permitted in module augmentations."), Imports_are_not_permitted_in_module_augmentations_Consider_moving_them_to_the_enclosing_external_module: diag(2667, ts.DiagnosticCategory.Error, "Imports_are_not_permitted_in_module_augmentations_Consider_moving_them_to_the_enclosing_external_mod_2667", "Imports are not permitted in module augmentations. Consider moving them to the enclosing external module."), export_modifier_cannot_be_applied_to_ambient_modules_and_module_augmentations_since_they_are_always_visible: diag(2668, ts.DiagnosticCategory.Error, "export_modifier_cannot_be_applied_to_ambient_modules_and_module_augmentations_since_they_are_always__2668", "'export' modifier cannot be applied to ambient modules and module augmentations since they are always visible."), Augmentations_for_the_global_scope_can_only_be_directly_nested_in_external_modules_or_ambient_module_declarations: diag(2669, ts.DiagnosticCategory.Error, "Augmentations_for_the_global_scope_can_only_be_directly_nested_in_external_modules_or_ambient_module_2669", "Augmentations for the global scope can only be directly nested in external modules or ambient module declarations."), Augmentations_for_the_global_scope_should_have_declare_modifier_unless_they_appear_in_already_ambient_context: diag(2670, ts.DiagnosticCategory.Error, "Augmentations_for_the_global_scope_should_have_declare_modifier_unless_they_appear_in_already_ambien_2670", "Augmentations for the global scope should have 'declare' modifier unless they appear in already ambient context."), Cannot_augment_module_0_because_it_resolves_to_a_non_module_entity: diag(2671, ts.DiagnosticCategory.Error, "Cannot_augment_module_0_because_it_resolves_to_a_non_module_entity_2671", "Cannot augment module '{0}' because it resolves to a non-module entity."), Cannot_assign_a_0_constructor_type_to_a_1_constructor_type: diag(2672, ts.DiagnosticCategory.Error, "Cannot_assign_a_0_constructor_type_to_a_1_constructor_type_2672", "Cannot assign a '{0}' constructor type to a '{1}' constructor type."), Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration: diag(2673, ts.DiagnosticCategory.Error, "Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration_2673", "Constructor of class '{0}' is private and only accessible within the class declaration."), Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration: diag(2674, ts.DiagnosticCategory.Error, "Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration_2674", "Constructor of class '{0}' is protected and only accessible within the class declaration."), Cannot_extend_a_class_0_Class_constructor_is_marked_as_private: diag(2675, ts.DiagnosticCategory.Error, "Cannot_extend_a_class_0_Class_constructor_is_marked_as_private_2675", "Cannot extend a class '{0}'. Class constructor is marked as private."), Accessors_must_both_be_abstract_or_non_abstract: diag(2676, ts.DiagnosticCategory.Error, "Accessors_must_both_be_abstract_or_non_abstract_2676", "Accessors must both be abstract or non-abstract."), A_type_predicate_s_type_must_be_assignable_to_its_parameter_s_type: diag(2677, ts.DiagnosticCategory.Error, "A_type_predicate_s_type_must_be_assignable_to_its_parameter_s_type_2677", "A type predicate's type must be assignable to its parameter's type."), Type_0_is_not_comparable_to_type_1: diag(2678, ts.DiagnosticCategory.Error, "Type_0_is_not_comparable_to_type_1_2678", "Type '{0}' is not comparable to type '{1}'."), A_function_that_is_called_with_the_new_keyword_cannot_have_a_this_type_that_is_void: diag(2679, ts.DiagnosticCategory.Error, "A_function_that_is_called_with_the_new_keyword_cannot_have_a_this_type_that_is_void_2679", "A function that is called with the 'new' keyword cannot have a 'this' type that is 'void'."), A_0_parameter_must_be_the_first_parameter: diag(2680, ts.DiagnosticCategory.Error, "A_0_parameter_must_be_the_first_parameter_2680", "A '{0}' parameter must be the first parameter."), A_constructor_cannot_have_a_this_parameter: diag(2681, ts.DiagnosticCategory.Error, "A_constructor_cannot_have_a_this_parameter_2681", "A constructor cannot have a 'this' parameter."), get_and_set_accessor_must_have_the_same_this_type: diag(2682, ts.DiagnosticCategory.Error, "get_and_set_accessor_must_have_the_same_this_type_2682", "'get' and 'set' accessor must have the same 'this' type."), this_implicitly_has_type_any_because_it_does_not_have_a_type_annotation: diag(2683, ts.DiagnosticCategory.Error, "this_implicitly_has_type_any_because_it_does_not_have_a_type_annotation_2683", "'this' implicitly has type 'any' because it does not have a type annotation."), The_this_context_of_type_0_is_not_assignable_to_method_s_this_of_type_1: diag(2684, ts.DiagnosticCategory.Error, "The_this_context_of_type_0_is_not_assignable_to_method_s_this_of_type_1_2684", "The 'this' context of type '{0}' is not assignable to method's 'this' of type '{1}'."), The_this_types_of_each_signature_are_incompatible: diag(2685, ts.DiagnosticCategory.Error, "The_this_types_of_each_signature_are_incompatible_2685", "The 'this' types of each signature are incompatible."), _0_refers_to_a_UMD_global_but_the_current_file_is_a_module_Consider_adding_an_import_instead: diag(2686, ts.DiagnosticCategory.Error, "_0_refers_to_a_UMD_global_but_the_current_file_is_a_module_Consider_adding_an_import_instead_2686", "'{0}' refers to a UMD global, but the current file is a module. Consider adding an import instead."), All_declarations_of_0_must_have_identical_modifiers: diag(2687, ts.DiagnosticCategory.Error, "All_declarations_of_0_must_have_identical_modifiers_2687", "All declarations of '{0}' must have identical modifiers."), Cannot_find_type_definition_file_for_0: diag(2688, ts.DiagnosticCategory.Error, "Cannot_find_type_definition_file_for_0_2688", "Cannot find type definition file for '{0}'."), Cannot_extend_an_interface_0_Did_you_mean_implements: diag(2689, ts.DiagnosticCategory.Error, "Cannot_extend_an_interface_0_Did_you_mean_implements_2689", "Cannot extend an interface '{0}'. Did you mean 'implements'?"), An_import_path_cannot_end_with_a_0_extension_Consider_importing_1_instead: diag(2691, ts.DiagnosticCategory.Error, "An_import_path_cannot_end_with_a_0_extension_Consider_importing_1_instead_2691", "An import path cannot end with a '{0}' extension. Consider importing '{1}' instead."), _0_is_a_primitive_but_1_is_a_wrapper_object_Prefer_using_0_when_possible: diag(2692, ts.DiagnosticCategory.Error, "_0_is_a_primitive_but_1_is_a_wrapper_object_Prefer_using_0_when_possible_2692", "'{0}' is a primitive, but '{1}' is a wrapper object. Prefer using '{0}' when possible."), _0_only_refers_to_a_type_but_is_being_used_as_a_value_here: diag(2693, ts.DiagnosticCategory.Error, "_0_only_refers_to_a_type_but_is_being_used_as_a_value_here_2693", "'{0}' only refers to a type, but is being used as a value here."), Namespace_0_has_no_exported_member_1: diag(2694, ts.DiagnosticCategory.Error, "Namespace_0_has_no_exported_member_1_2694", "Namespace '{0}' has no exported member '{1}'."), Left_side_of_comma_operator_is_unused_and_has_no_side_effects: diag(2695, ts.DiagnosticCategory.Error, "Left_side_of_comma_operator_is_unused_and_has_no_side_effects_2695", "Left side of comma operator is unused and has no side effects.", /*reportsUnnecessary*/ true), The_Object_type_is_assignable_to_very_few_other_types_Did_you_mean_to_use_the_any_type_instead: diag(2696, ts.DiagnosticCategory.Error, "The_Object_type_is_assignable_to_very_few_other_types_Did_you_mean_to_use_the_any_type_instead_2696", "The 'Object' type is assignable to very few other types. Did you mean to use the 'any' type instead?"), An_async_function_or_method_must_return_a_Promise_Make_sure_you_have_a_declaration_for_Promise_or_include_ES2015_in_your_lib_option: diag(2697, ts.DiagnosticCategory.Error, "An_async_function_or_method_must_return_a_Promise_Make_sure_you_have_a_declaration_for_Promise_or_in_2697", "An async function or method must return a 'Promise'. Make sure you have a declaration for 'Promise' or include 'ES2015' in your `--lib` option."), Spread_types_may_only_be_created_from_object_types: diag(2698, ts.DiagnosticCategory.Error, "Spread_types_may_only_be_created_from_object_types_2698", "Spread types may only be created from object types."), Static_property_0_conflicts_with_built_in_property_Function_0_of_constructor_function_1: diag(2699, ts.DiagnosticCategory.Error, "Static_property_0_conflicts_with_built_in_property_Function_0_of_constructor_function_1_2699", "Static property '{0}' conflicts with built-in property 'Function.{0}' of constructor function '{1}'."), Rest_types_may_only_be_created_from_object_types: diag(2700, ts.DiagnosticCategory.Error, "Rest_types_may_only_be_created_from_object_types_2700", "Rest types may only be created from object types."), The_target_of_an_object_rest_assignment_must_be_a_variable_or_a_property_access: diag(2701, ts.DiagnosticCategory.Error, "The_target_of_an_object_rest_assignment_must_be_a_variable_or_a_property_access_2701", "The target of an object rest assignment must be a variable or a property access."), _0_only_refers_to_a_type_but_is_being_used_as_a_namespace_here: diag(2702, ts.DiagnosticCategory.Error, "_0_only_refers_to_a_type_but_is_being_used_as_a_namespace_here_2702", "'{0}' only refers to a type, but is being used as a namespace here."), The_operand_of_a_delete_operator_must_be_a_property_reference: diag(2703, ts.DiagnosticCategory.Error, "The_operand_of_a_delete_operator_must_be_a_property_reference_2703", "The operand of a 'delete' operator must be a property reference."), The_operand_of_a_delete_operator_cannot_be_a_read_only_property: diag(2704, ts.DiagnosticCategory.Error, "The_operand_of_a_delete_operator_cannot_be_a_read_only_property_2704", "The operand of a 'delete' operator cannot be a read-only property."), An_async_function_or_method_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_declaration_for_the_Promise_constructor_or_include_ES2015_in_your_lib_option: diag(2705, ts.DiagnosticCategory.Error, "An_async_function_or_method_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_de_2705", "An async function or method in ES5/ES3 requires the 'Promise' constructor. Make sure you have a declaration for the 'Promise' constructor or include 'ES2015' in your `--lib` option."), Required_type_parameters_may_not_follow_optional_type_parameters: diag(2706, ts.DiagnosticCategory.Error, "Required_type_parameters_may_not_follow_optional_type_parameters_2706", "Required type parameters may not follow optional type parameters."), Generic_type_0_requires_between_1_and_2_type_arguments: diag(2707, ts.DiagnosticCategory.Error, "Generic_type_0_requires_between_1_and_2_type_arguments_2707", "Generic type '{0}' requires between {1} and {2} type arguments."), Cannot_use_namespace_0_as_a_value: diag(2708, ts.DiagnosticCategory.Error, "Cannot_use_namespace_0_as_a_value_2708", "Cannot use namespace '{0}' as a value."), Cannot_use_namespace_0_as_a_type: diag(2709, ts.DiagnosticCategory.Error, "Cannot_use_namespace_0_as_a_type_2709", "Cannot use namespace '{0}' as a type."), _0_are_specified_twice_The_attribute_named_0_will_be_overwritten: diag(2710, ts.DiagnosticCategory.Error, "_0_are_specified_twice_The_attribute_named_0_will_be_overwritten_2710", "'{0}' are specified twice. The attribute named '{0}' will be overwritten."), A_dynamic_import_call_returns_a_Promise_Make_sure_you_have_a_declaration_for_Promise_or_include_ES2015_in_your_lib_option: diag(2711, ts.DiagnosticCategory.Error, "A_dynamic_import_call_returns_a_Promise_Make_sure_you_have_a_declaration_for_Promise_or_include_ES20_2711", "A dynamic import call returns a 'Promise'. Make sure you have a declaration for 'Promise' or include 'ES2015' in your `--lib` option."), A_dynamic_import_call_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_declaration_for_the_Promise_constructor_or_include_ES2015_in_your_lib_option: diag(2712, ts.DiagnosticCategory.Error, "A_dynamic_import_call_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_declarat_2712", "A dynamic import call in ES5/ES3 requires the 'Promise' constructor. Make sure you have a declaration for the 'Promise' constructor or include 'ES2015' in your `--lib` option."), Cannot_access_0_1_because_0_is_a_type_but_not_a_namespace_Did_you_mean_to_retrieve_the_type_of_the_property_1_in_0_with_0_1: diag(2713, ts.DiagnosticCategory.Error, "Cannot_access_0_1_because_0_is_a_type_but_not_a_namespace_Did_you_mean_to_retrieve_the_type_of_the_p_2713", "Cannot access '{0}.{1}' because '{0}' is a type, but not a namespace. Did you mean to retrieve the type of the property '{1}' in '{0}' with '{0}[\"{1}\"]'?"), The_expression_of_an_export_assignment_must_be_an_identifier_or_qualified_name_in_an_ambient_context: diag(2714, ts.DiagnosticCategory.Error, "The_expression_of_an_export_assignment_must_be_an_identifier_or_qualified_name_in_an_ambient_context_2714", "The expression of an export assignment must be an identifier or qualified name in an ambient context."), Abstract_property_0_in_class_1_cannot_be_accessed_in_the_constructor: diag(2715, ts.DiagnosticCategory.Error, "Abstract_property_0_in_class_1_cannot_be_accessed_in_the_constructor_2715", "Abstract property '{0}' in class '{1}' cannot be accessed in the constructor."), Type_parameter_0_has_a_circular_default: diag(2716, ts.DiagnosticCategory.Error, "Type_parameter_0_has_a_circular_default_2716", "Type parameter '{0}' has a circular default."), Subsequent_property_declarations_must_have_the_same_type_Property_0_must_be_of_type_1_but_here_has_type_2: diag(2717, ts.DiagnosticCategory.Error, "Subsequent_property_declarations_must_have_the_same_type_Property_0_must_be_of_type_1_but_here_has_t_2717", "Subsequent property declarations must have the same type. Property '{0}' must be of type '{1}', but here has type '{2}'."), Duplicate_property_0: diag(2718, ts.DiagnosticCategory.Error, "Duplicate_property_0_2718", "Duplicate property '{0}'."), Type_0_is_not_assignable_to_type_1_Two_different_types_with_this_name_exist_but_they_are_unrelated: diag(2719, ts.DiagnosticCategory.Error, "Type_0_is_not_assignable_to_type_1_Two_different_types_with_this_name_exist_but_they_are_unrelated_2719", "Type '{0}' is not assignable to type '{1}'. Two different types with this name exist, but they are unrelated."), Class_0_incorrectly_implements_class_1_Did_you_mean_to_extend_1_and_inherit_its_members_as_a_subclass: diag(2720, ts.DiagnosticCategory.Error, "Class_0_incorrectly_implements_class_1_Did_you_mean_to_extend_1_and_inherit_its_members_as_a_subclas_2720", "Class '{0}' incorrectly implements class '{1}'. Did you mean to extend '{1}' and inherit its members as a subclass?"), Cannot_invoke_an_object_which_is_possibly_null: diag(2721, ts.DiagnosticCategory.Error, "Cannot_invoke_an_object_which_is_possibly_null_2721", "Cannot invoke an object which is possibly 'null'."), Cannot_invoke_an_object_which_is_possibly_undefined: diag(2722, ts.DiagnosticCategory.Error, "Cannot_invoke_an_object_which_is_possibly_undefined_2722", "Cannot invoke an object which is possibly 'undefined'."), Cannot_invoke_an_object_which_is_possibly_null_or_undefined: diag(2723, ts.DiagnosticCategory.Error, "Cannot_invoke_an_object_which_is_possibly_null_or_undefined_2723", "Cannot invoke an object which is possibly 'null' or 'undefined'."), Module_0_has_no_exported_member_1_Did_you_mean_2: diag(2724, ts.DiagnosticCategory.Error, "Module_0_has_no_exported_member_1_Did_you_mean_2_2724", "Module '{0}' has no exported member '{1}'. Did you mean '{2}'?"), Class_name_cannot_be_Object_when_targeting_ES5_with_module_0: diag(2725, ts.DiagnosticCategory.Error, "Class_name_cannot_be_Object_when_targeting_ES5_with_module_0_2725", "Class name cannot be 'Object' when targeting ES5 with module {0}."), Cannot_find_lib_definition_for_0: diag(2726, ts.DiagnosticCategory.Error, "Cannot_find_lib_definition_for_0_2726", "Cannot find lib definition for '{0}'."), Cannot_find_lib_definition_for_0_Did_you_mean_1: diag(2727, ts.DiagnosticCategory.Error, "Cannot_find_lib_definition_for_0_Did_you_mean_1_2727", "Cannot find lib definition for '{0}'. Did you mean '{1}'?"), _0_is_declared_here: diag(2728, ts.DiagnosticCategory.Message, "_0_is_declared_here_2728", "'{0}' is declared here."), Property_0_is_used_before_its_initialization: diag(2729, ts.DiagnosticCategory.Error, "Property_0_is_used_before_its_initialization_2729", "Property '{0}' is used before its initialization."), An_arrow_function_cannot_have_a_this_parameter: diag(2730, ts.DiagnosticCategory.Error, "An_arrow_function_cannot_have_a_this_parameter_2730", "An arrow function cannot have a 'this' parameter."), Implicit_conversion_of_a_symbol_to_a_string_will_fail_at_runtime_Consider_wrapping_this_expression_in_String: diag(2731, ts.DiagnosticCategory.Error, "Implicit_conversion_of_a_symbol_to_a_string_will_fail_at_runtime_Consider_wrapping_this_expression_i_2731", "Implicit conversion of a 'symbol' to a 'string' will fail at runtime. Consider wrapping this expression in 'String(...)'."), Cannot_find_module_0_Consider_using_resolveJsonModule_to_import_module_with_json_extension: diag(2732, ts.DiagnosticCategory.Error, "Cannot_find_module_0_Consider_using_resolveJsonModule_to_import_module_with_json_extension_2732", "Cannot find module '{0}'. Consider using '--resolveJsonModule' to import module with '.json' extension"), Property_0_was_also_declared_here: diag(2733, ts.DiagnosticCategory.Error, "Property_0_was_also_declared_here_2733", "Property '{0}' was also declared here."), Are_you_missing_a_semicolon: diag(2734, ts.DiagnosticCategory.Error, "Are_you_missing_a_semicolon_2734", "Are you missing a semicolon?"), Did_you_mean_for_0_to_be_constrained_to_type_new_args_Colon_any_1: diag(2735, ts.DiagnosticCategory.Error, "Did_you_mean_for_0_to_be_constrained_to_type_new_args_Colon_any_1_2735", "Did you mean for '{0}' to be constrained to type 'new (...args: any[]) => {1}'?"), Operator_0_cannot_be_applied_to_type_1: diag(2736, ts.DiagnosticCategory.Error, "Operator_0_cannot_be_applied_to_type_1_2736", "Operator '{0}' cannot be applied to type '{1}'."), BigInt_literals_are_not_available_when_targeting_lower_than_ES2020: diag(2737, ts.DiagnosticCategory.Error, "BigInt_literals_are_not_available_when_targeting_lower_than_ES2020_2737", "BigInt literals are not available when targeting lower than ES2020."), An_outer_value_of_this_is_shadowed_by_this_container: diag(2738, ts.DiagnosticCategory.Message, "An_outer_value_of_this_is_shadowed_by_this_container_2738", "An outer value of 'this' is shadowed by this container."), Type_0_is_missing_the_following_properties_from_type_1_Colon_2: diag(2739, ts.DiagnosticCategory.Error, "Type_0_is_missing_the_following_properties_from_type_1_Colon_2_2739", "Type '{0}' is missing the following properties from type '{1}': {2}"), Type_0_is_missing_the_following_properties_from_type_1_Colon_2_and_3_more: diag(2740, ts.DiagnosticCategory.Error, "Type_0_is_missing_the_following_properties_from_type_1_Colon_2_and_3_more_2740", "Type '{0}' is missing the following properties from type '{1}': {2}, and {3} more."), Property_0_is_missing_in_type_1_but_required_in_type_2: diag(2741, ts.DiagnosticCategory.Error, "Property_0_is_missing_in_type_1_but_required_in_type_2_2741", "Property '{0}' is missing in type '{1}' but required in type '{2}'."), The_inferred_type_of_0_cannot_be_named_without_a_reference_to_1_This_is_likely_not_portable_A_type_annotation_is_necessary: diag(2742, ts.DiagnosticCategory.Error, "The_inferred_type_of_0_cannot_be_named_without_a_reference_to_1_This_is_likely_not_portable_A_type_a_2742", "The inferred type of '{0}' cannot be named without a reference to '{1}'. This is likely not portable. A type annotation is necessary."), No_overload_expects_0_type_arguments_but_overloads_do_exist_that_expect_either_1_or_2_type_arguments: diag(2743, ts.DiagnosticCategory.Error, "No_overload_expects_0_type_arguments_but_overloads_do_exist_that_expect_either_1_or_2_type_arguments_2743", "No overload expects {0} type arguments, but overloads do exist that expect either {1} or {2} type arguments."), Type_parameter_defaults_can_only_reference_previously_declared_type_parameters: diag(2744, ts.DiagnosticCategory.Error, "Type_parameter_defaults_can_only_reference_previously_declared_type_parameters_2744", "Type parameter defaults can only reference previously declared type parameters."), This_JSX_tag_s_0_prop_expects_type_1_which_requires_multiple_children_but_only_a_single_child_was_provided: diag(2745, ts.DiagnosticCategory.Error, "This_JSX_tag_s_0_prop_expects_type_1_which_requires_multiple_children_but_only_a_single_child_was_pr_2745", "This JSX tag's '{0}' prop expects type '{1}' which requires multiple children, but only a single child was provided."), This_JSX_tag_s_0_prop_expects_a_single_child_of_type_1_but_multiple_children_were_provided: diag(2746, ts.DiagnosticCategory.Error, "This_JSX_tag_s_0_prop_expects_a_single_child_of_type_1_but_multiple_children_were_provided_2746", "This JSX tag's '{0}' prop expects a single child of type '{1}', but multiple children were provided."), _0_components_don_t_accept_text_as_child_elements_Text_in_JSX_has_the_type_string_but_the_expected_type_of_1_is_2: diag(2747, ts.DiagnosticCategory.Error, "_0_components_don_t_accept_text_as_child_elements_Text_in_JSX_has_the_type_string_but_the_expected_t_2747", "'{0}' components don't accept text as child elements. Text in JSX has the type 'string', but the expected type of '{1}' is '{2}'."), Cannot_access_ambient_const_enums_when_the_isolatedModules_flag_is_provided: diag(2748, ts.DiagnosticCategory.Error, "Cannot_access_ambient_const_enums_when_the_isolatedModules_flag_is_provided_2748", "Cannot access ambient const enums when the '--isolatedModules' flag is provided."), _0_refers_to_a_value_but_is_being_used_as_a_type_here_Did_you_mean_typeof_0: diag(2749, ts.DiagnosticCategory.Error, "_0_refers_to_a_value_but_is_being_used_as_a_type_here_Did_you_mean_typeof_0_2749", "'{0}' refers to a value, but is being used as a type here. Did you mean 'typeof {0}'?"), The_implementation_signature_is_declared_here: diag(2750, ts.DiagnosticCategory.Error, "The_implementation_signature_is_declared_here_2750", "The implementation signature is declared here."), Circularity_originates_in_type_at_this_location: diag(2751, ts.DiagnosticCategory.Error, "Circularity_originates_in_type_at_this_location_2751", "Circularity originates in type at this location."), The_first_export_default_is_here: diag(2752, ts.DiagnosticCategory.Error, "The_first_export_default_is_here_2752", "The first export default is here."), Another_export_default_is_here: diag(2753, ts.DiagnosticCategory.Error, "Another_export_default_is_here_2753", "Another export default is here."), super_may_not_use_type_arguments: diag(2754, ts.DiagnosticCategory.Error, "super_may_not_use_type_arguments_2754", "'super' may not use type arguments."), No_constituent_of_type_0_is_callable: diag(2755, ts.DiagnosticCategory.Error, "No_constituent_of_type_0_is_callable_2755", "No constituent of type '{0}' is callable."), Not_all_constituents_of_type_0_are_callable: diag(2756, ts.DiagnosticCategory.Error, "Not_all_constituents_of_type_0_are_callable_2756", "Not all constituents of type '{0}' are callable."), Type_0_has_no_call_signatures: diag(2757, ts.DiagnosticCategory.Error, "Type_0_has_no_call_signatures_2757", "Type '{0}' has no call signatures."), Each_member_of_the_union_type_0_has_signatures_but_none_of_those_signatures_are_compatible_with_each_other: diag(2758, ts.DiagnosticCategory.Error, "Each_member_of_the_union_type_0_has_signatures_but_none_of_those_signatures_are_compatible_with_each_2758", "Each member of the union type '{0}' has signatures, but none of those signatures are compatible with each other."), No_constituent_of_type_0_is_constructable: diag(2759, ts.DiagnosticCategory.Error, "No_constituent_of_type_0_is_constructable_2759", "No constituent of type '{0}' is constructable."), Not_all_constituents_of_type_0_are_constructable: diag(2760, ts.DiagnosticCategory.Error, "Not_all_constituents_of_type_0_are_constructable_2760", "Not all constituents of type '{0}' are constructable."), Type_0_has_no_construct_signatures: diag(2761, ts.DiagnosticCategory.Error, "Type_0_has_no_construct_signatures_2761", "Type '{0}' has no construct signatures."), Each_member_of_the_union_type_0_has_construct_signatures_but_none_of_those_signatures_are_compatible_with_each_other: diag(2762, ts.DiagnosticCategory.Error, "Each_member_of_the_union_type_0_has_construct_signatures_but_none_of_those_signatures_are_compatible_2762", "Each member of the union type '{0}' has construct signatures, but none of those signatures are compatible with each other."), Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_for_of_will_always_send_0: diag(2763, ts.DiagnosticCategory.Error, "Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_for_of_will_always_s_2763", "Cannot iterate value because the 'next' method of its iterator expects type '{1}', but for-of will always send '{0}'."), Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_array_spread_will_always_send_0: diag(2764, ts.DiagnosticCategory.Error, "Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_array_spread_will_al_2764", "Cannot iterate value because the 'next' method of its iterator expects type '{1}', but array spread will always send '{0}'."), Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_array_destructuring_will_always_send_0: diag(2765, ts.DiagnosticCategory.Error, "Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_array_destructuring__2765", "Cannot iterate value because the 'next' method of its iterator expects type '{1}', but array destructuring will always send '{0}'."), Cannot_delegate_iteration_to_value_because_the_next_method_of_its_iterator_expects_type_1_but_the_containing_generator_will_always_send_0: diag(2766, ts.DiagnosticCategory.Error, "Cannot_delegate_iteration_to_value_because_the_next_method_of_its_iterator_expects_type_1_but_the_co_2766", "Cannot delegate iteration to value because the 'next' method of its iterator expects type '{1}', but the containing generator will always send '{0}'."), The_0_property_of_an_iterator_must_be_a_method: diag(2767, ts.DiagnosticCategory.Error, "The_0_property_of_an_iterator_must_be_a_method_2767", "The '{0}' property of an iterator must be a method."), The_0_property_of_an_async_iterator_must_be_a_method: diag(2768, ts.DiagnosticCategory.Error, "The_0_property_of_an_async_iterator_must_be_a_method_2768", "The '{0}' property of an async iterator must be a method."), No_overload_matches_this_call: diag(2769, ts.DiagnosticCategory.Error, "No_overload_matches_this_call_2769", "No overload matches this call."), The_last_overload_gave_the_following_error: diag(2770, ts.DiagnosticCategory.Error, "The_last_overload_gave_the_following_error_2770", "The last overload gave the following error."), The_last_overload_is_declared_here: diag(2771, ts.DiagnosticCategory.Error, "The_last_overload_is_declared_here_2771", "The last overload is declared here."), Overload_0_of_1_2_gave_the_following_error: diag(2772, ts.DiagnosticCategory.Error, "Overload_0_of_1_2_gave_the_following_error_2772", "Overload {0} of {1}, '{2}', gave the following error."), Did_you_forget_to_use_await: diag(2773, ts.DiagnosticCategory.Error, "Did_you_forget_to_use_await_2773", "Did you forget to use 'await'?"), This_condition_will_always_return_true_since_the_function_is_always_defined_Did_you_mean_to_call_it_instead: diag(2774, ts.DiagnosticCategory.Error, "This_condition_will_always_return_true_since_the_function_is_always_defined_Did_you_mean_to_call_it__2774", "This condition will always return true since the function is always defined. Did you mean to call it instead?"), Assertions_require_every_name_in_the_call_target_to_be_declared_with_an_explicit_type_annotation: diag(2775, ts.DiagnosticCategory.Error, "Assertions_require_every_name_in_the_call_target_to_be_declared_with_an_explicit_type_annotation_2775", "Assertions require every name in the call target to be declared with an explicit type annotation."), Assertions_require_the_call_target_to_be_an_identifier_or_qualified_name: diag(2776, ts.DiagnosticCategory.Error, "Assertions_require_the_call_target_to_be_an_identifier_or_qualified_name_2776", "Assertions require the call target to be an identifier or qualified name."), The_operand_of_an_increment_or_decrement_operator_may_not_be_an_optional_property_access: diag(2777, ts.DiagnosticCategory.Error, "The_operand_of_an_increment_or_decrement_operator_may_not_be_an_optional_property_access_2777", "The operand of an increment or decrement operator may not be an optional property access."), The_target_of_an_object_rest_assignment_may_not_be_an_optional_property_access: diag(2778, ts.DiagnosticCategory.Error, "The_target_of_an_object_rest_assignment_may_not_be_an_optional_property_access_2778", "The target of an object rest assignment may not be an optional property access."), The_left_hand_side_of_an_assignment_expression_may_not_be_an_optional_property_access: diag(2779, ts.DiagnosticCategory.Error, "The_left_hand_side_of_an_assignment_expression_may_not_be_an_optional_property_access_2779", "The left-hand side of an assignment expression may not be an optional property access."), The_left_hand_side_of_a_for_in_statement_may_not_be_an_optional_property_access: diag(2780, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_in_statement_may_not_be_an_optional_property_access_2780", "The left-hand side of a 'for...in' statement may not be an optional property access."), The_left_hand_side_of_a_for_of_statement_may_not_be_an_optional_property_access: diag(2781, ts.DiagnosticCategory.Error, "The_left_hand_side_of_a_for_of_statement_may_not_be_an_optional_property_access_2781", "The left-hand side of a 'for...of' statement may not be an optional property access."), _0_needs_an_explicit_type_annotation: diag(2782, ts.DiagnosticCategory.Message, "_0_needs_an_explicit_type_annotation_2782", "'{0}' needs an explicit type annotation."), _0_is_specified_more_than_once_so_this_usage_will_be_overwritten: diag(2783, ts.DiagnosticCategory.Error, "_0_is_specified_more_than_once_so_this_usage_will_be_overwritten_2783", "'{0}' is specified more than once, so this usage will be overwritten."), get_and_set_accessors_cannot_declare_this_parameters: diag(2784, ts.DiagnosticCategory.Error, "get_and_set_accessors_cannot_declare_this_parameters_2784", "'get' and 'set' accessors cannot declare 'this' parameters."), This_spread_always_overwrites_this_property: diag(2785, ts.DiagnosticCategory.Error, "This_spread_always_overwrites_this_property_2785", "This spread always overwrites this property."), _0_cannot_be_used_as_a_JSX_component: diag(2786, ts.DiagnosticCategory.Error, "_0_cannot_be_used_as_a_JSX_component_2786", "'{0}' cannot be used as a JSX component."), Its_return_type_0_is_not_a_valid_JSX_element: diag(2787, ts.DiagnosticCategory.Error, "Its_return_type_0_is_not_a_valid_JSX_element_2787", "Its return type '{0}' is not a valid JSX element."), Its_instance_type_0_is_not_a_valid_JSX_element: diag(2788, ts.DiagnosticCategory.Error, "Its_instance_type_0_is_not_a_valid_JSX_element_2788", "Its instance type '{0}' is not a valid JSX element."), Its_element_type_0_is_not_a_valid_JSX_element: diag(2789, ts.DiagnosticCategory.Error, "Its_element_type_0_is_not_a_valid_JSX_element_2789", "Its element type '{0}' is not a valid JSX element."), Import_declaration_0_is_using_private_name_1: diag(4000, ts.DiagnosticCategory.Error, "Import_declaration_0_is_using_private_name_1_4000", "Import declaration '{0}' is using private name '{1}'."), Type_parameter_0_of_exported_class_has_or_is_using_private_name_1: diag(4002, ts.DiagnosticCategory.Error, "Type_parameter_0_of_exported_class_has_or_is_using_private_name_1_4002", "Type parameter '{0}' of exported class has or is using private name '{1}'."), Type_parameter_0_of_exported_interface_has_or_is_using_private_name_1: diag(4004, ts.DiagnosticCategory.Error, "Type_parameter_0_of_exported_interface_has_or_is_using_private_name_1_4004", "Type parameter '{0}' of exported interface has or is using private name '{1}'."), Type_parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_1: diag(4006, ts.DiagnosticCategory.Error, "Type_parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_1_4006", "Type parameter '{0}' of constructor signature from exported interface has or is using private name '{1}'."), Type_parameter_0_of_call_signature_from_exported_interface_has_or_is_using_private_name_1: diag(4008, ts.DiagnosticCategory.Error, "Type_parameter_0_of_call_signature_from_exported_interface_has_or_is_using_private_name_1_4008", "Type parameter '{0}' of call signature from exported interface has or is using private name '{1}'."), Type_parameter_0_of_public_static_method_from_exported_class_has_or_is_using_private_name_1: diag(4010, ts.DiagnosticCategory.Error, "Type_parameter_0_of_public_static_method_from_exported_class_has_or_is_using_private_name_1_4010", "Type parameter '{0}' of public static method from exported class has or is using private name '{1}'."), Type_parameter_0_of_public_method_from_exported_class_has_or_is_using_private_name_1: diag(4012, ts.DiagnosticCategory.Error, "Type_parameter_0_of_public_method_from_exported_class_has_or_is_using_private_name_1_4012", "Type parameter '{0}' of public method from exported class has or is using private name '{1}'."), Type_parameter_0_of_method_from_exported_interface_has_or_is_using_private_name_1: diag(4014, ts.DiagnosticCategory.Error, "Type_parameter_0_of_method_from_exported_interface_has_or_is_using_private_name_1_4014", "Type parameter '{0}' of method from exported interface has or is using private name '{1}'."), Type_parameter_0_of_exported_function_has_or_is_using_private_name_1: diag(4016, ts.DiagnosticCategory.Error, "Type_parameter_0_of_exported_function_has_or_is_using_private_name_1_4016", "Type parameter '{0}' of exported function has or is using private name '{1}'."), Implements_clause_of_exported_class_0_has_or_is_using_private_name_1: diag(4019, ts.DiagnosticCategory.Error, "Implements_clause_of_exported_class_0_has_or_is_using_private_name_1_4019", "Implements clause of exported class '{0}' has or is using private name '{1}'."), extends_clause_of_exported_class_0_has_or_is_using_private_name_1: diag(4020, ts.DiagnosticCategory.Error, "extends_clause_of_exported_class_0_has_or_is_using_private_name_1_4020", "'extends' clause of exported class '{0}' has or is using private name '{1}'."), extends_clause_of_exported_interface_0_has_or_is_using_private_name_1: diag(4022, ts.DiagnosticCategory.Error, "extends_clause_of_exported_interface_0_has_or_is_using_private_name_1_4022", "'extends' clause of exported interface '{0}' has or is using private name '{1}'."), Exported_variable_0_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4023, ts.DiagnosticCategory.Error, "Exported_variable_0_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named_4023", "Exported variable '{0}' has or is using name '{1}' from external module {2} but cannot be named."), Exported_variable_0_has_or_is_using_name_1_from_private_module_2: diag(4024, ts.DiagnosticCategory.Error, "Exported_variable_0_has_or_is_using_name_1_from_private_module_2_4024", "Exported variable '{0}' has or is using name '{1}' from private module '{2}'."), Exported_variable_0_has_or_is_using_private_name_1: diag(4025, ts.DiagnosticCategory.Error, "Exported_variable_0_has_or_is_using_private_name_1_4025", "Exported variable '{0}' has or is using private name '{1}'."), Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4026, ts.DiagnosticCategory.Error, "Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot__4026", "Public static property '{0}' of exported class has or is using name '{1}' from external module {2} but cannot be named."), Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4027, ts.DiagnosticCategory.Error, "Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2_4027", "Public static property '{0}' of exported class has or is using name '{1}' from private module '{2}'."), Public_static_property_0_of_exported_class_has_or_is_using_private_name_1: diag(4028, ts.DiagnosticCategory.Error, "Public_static_property_0_of_exported_class_has_or_is_using_private_name_1_4028", "Public static property '{0}' of exported class has or is using private name '{1}'."), Public_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4029, ts.DiagnosticCategory.Error, "Public_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_name_4029", "Public property '{0}' of exported class has or is using name '{1}' from external module {2} but cannot be named."), Public_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4030, ts.DiagnosticCategory.Error, "Public_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2_4030", "Public property '{0}' of exported class has or is using name '{1}' from private module '{2}'."), Public_property_0_of_exported_class_has_or_is_using_private_name_1: diag(4031, ts.DiagnosticCategory.Error, "Public_property_0_of_exported_class_has_or_is_using_private_name_1_4031", "Public property '{0}' of exported class has or is using private name '{1}'."), Property_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2: diag(4032, ts.DiagnosticCategory.Error, "Property_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2_4032", "Property '{0}' of exported interface has or is using name '{1}' from private module '{2}'."), Property_0_of_exported_interface_has_or_is_using_private_name_1: diag(4033, ts.DiagnosticCategory.Error, "Property_0_of_exported_interface_has_or_is_using_private_name_1_4033", "Property '{0}' of exported interface has or is using private name '{1}'."), Parameter_type_of_public_static_setter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4034, ts.DiagnosticCategory.Error, "Parameter_type_of_public_static_setter_0_from_exported_class_has_or_is_using_name_1_from_private_mod_4034", "Parameter type of public static setter '{0}' from exported class has or is using name '{1}' from private module '{2}'."), Parameter_type_of_public_static_setter_0_from_exported_class_has_or_is_using_private_name_1: diag(4035, ts.DiagnosticCategory.Error, "Parameter_type_of_public_static_setter_0_from_exported_class_has_or_is_using_private_name_1_4035", "Parameter type of public static setter '{0}' from exported class has or is using private name '{1}'."), Parameter_type_of_public_setter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4036, ts.DiagnosticCategory.Error, "Parameter_type_of_public_setter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2_4036", "Parameter type of public setter '{0}' from exported class has or is using name '{1}' from private module '{2}'."), Parameter_type_of_public_setter_0_from_exported_class_has_or_is_using_private_name_1: diag(4037, ts.DiagnosticCategory.Error, "Parameter_type_of_public_setter_0_from_exported_class_has_or_is_using_private_name_1_4037", "Parameter type of public setter '{0}' from exported class has or is using private name '{1}'."), Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4038, ts.DiagnosticCategory.Error, "Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_name_1_from_external_modul_4038", "Return type of public static getter '{0}' from exported class has or is using name '{1}' from external module {2} but cannot be named."), Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4039, ts.DiagnosticCategory.Error, "Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_name_1_from_private_module_4039", "Return type of public static getter '{0}' from exported class has or is using name '{1}' from private module '{2}'."), Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_private_name_1: diag(4040, ts.DiagnosticCategory.Error, "Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_private_name_1_4040", "Return type of public static getter '{0}' from exported class has or is using private name '{1}'."), Return_type_of_public_getter_0_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4041, ts.DiagnosticCategory.Error, "Return_type_of_public_getter_0_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_4041", "Return type of public getter '{0}' from exported class has or is using name '{1}' from external module {2} but cannot be named."), Return_type_of_public_getter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4042, ts.DiagnosticCategory.Error, "Return_type_of_public_getter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2_4042", "Return type of public getter '{0}' from exported class has or is using name '{1}' from private module '{2}'."), Return_type_of_public_getter_0_from_exported_class_has_or_is_using_private_name_1: diag(4043, ts.DiagnosticCategory.Error, "Return_type_of_public_getter_0_from_exported_class_has_or_is_using_private_name_1_4043", "Return type of public getter '{0}' from exported class has or is using private name '{1}'."), Return_type_of_constructor_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1: diag(4044, ts.DiagnosticCategory.Error, "Return_type_of_constructor_signature_from_exported_interface_has_or_is_using_name_0_from_private_mod_4044", "Return type of constructor signature from exported interface has or is using name '{0}' from private module '{1}'."), Return_type_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_0: diag(4045, ts.DiagnosticCategory.Error, "Return_type_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_0_4045", "Return type of constructor signature from exported interface has or is using private name '{0}'."), Return_type_of_call_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1: diag(4046, ts.DiagnosticCategory.Error, "Return_type_of_call_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1_4046", "Return type of call signature from exported interface has or is using name '{0}' from private module '{1}'."), Return_type_of_call_signature_from_exported_interface_has_or_is_using_private_name_0: diag(4047, ts.DiagnosticCategory.Error, "Return_type_of_call_signature_from_exported_interface_has_or_is_using_private_name_0_4047", "Return type of call signature from exported interface has or is using private name '{0}'."), Return_type_of_index_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1: diag(4048, ts.DiagnosticCategory.Error, "Return_type_of_index_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1_4048", "Return type of index signature from exported interface has or is using name '{0}' from private module '{1}'."), Return_type_of_index_signature_from_exported_interface_has_or_is_using_private_name_0: diag(4049, ts.DiagnosticCategory.Error, "Return_type_of_index_signature_from_exported_interface_has_or_is_using_private_name_0_4049", "Return type of index signature from exported interface has or is using private name '{0}'."), Return_type_of_public_static_method_from_exported_class_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named: diag(4050, ts.DiagnosticCategory.Error, "Return_type_of_public_static_method_from_exported_class_has_or_is_using_name_0_from_external_module__4050", "Return type of public static method from exported class has or is using name '{0}' from external module {1} but cannot be named."), Return_type_of_public_static_method_from_exported_class_has_or_is_using_name_0_from_private_module_1: diag(4051, ts.DiagnosticCategory.Error, "Return_type_of_public_static_method_from_exported_class_has_or_is_using_name_0_from_private_module_1_4051", "Return type of public static method from exported class has or is using name '{0}' from private module '{1}'."), Return_type_of_public_static_method_from_exported_class_has_or_is_using_private_name_0: diag(4052, ts.DiagnosticCategory.Error, "Return_type_of_public_static_method_from_exported_class_has_or_is_using_private_name_0_4052", "Return type of public static method from exported class has or is using private name '{0}'."), Return_type_of_public_method_from_exported_class_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named: diag(4053, ts.DiagnosticCategory.Error, "Return_type_of_public_method_from_exported_class_has_or_is_using_name_0_from_external_module_1_but_c_4053", "Return type of public method from exported class has or is using name '{0}' from external module {1} but cannot be named."), Return_type_of_public_method_from_exported_class_has_or_is_using_name_0_from_private_module_1: diag(4054, ts.DiagnosticCategory.Error, "Return_type_of_public_method_from_exported_class_has_or_is_using_name_0_from_private_module_1_4054", "Return type of public method from exported class has or is using name '{0}' from private module '{1}'."), Return_type_of_public_method_from_exported_class_has_or_is_using_private_name_0: diag(4055, ts.DiagnosticCategory.Error, "Return_type_of_public_method_from_exported_class_has_or_is_using_private_name_0_4055", "Return type of public method from exported class has or is using private name '{0}'."), Return_type_of_method_from_exported_interface_has_or_is_using_name_0_from_private_module_1: diag(4056, ts.DiagnosticCategory.Error, "Return_type_of_method_from_exported_interface_has_or_is_using_name_0_from_private_module_1_4056", "Return type of method from exported interface has or is using name '{0}' from private module '{1}'."), Return_type_of_method_from_exported_interface_has_or_is_using_private_name_0: diag(4057, ts.DiagnosticCategory.Error, "Return_type_of_method_from_exported_interface_has_or_is_using_private_name_0_4057", "Return type of method from exported interface has or is using private name '{0}'."), Return_type_of_exported_function_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named: diag(4058, ts.DiagnosticCategory.Error, "Return_type_of_exported_function_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named_4058", "Return type of exported function has or is using name '{0}' from external module {1} but cannot be named."), Return_type_of_exported_function_has_or_is_using_name_0_from_private_module_1: diag(4059, ts.DiagnosticCategory.Error, "Return_type_of_exported_function_has_or_is_using_name_0_from_private_module_1_4059", "Return type of exported function has or is using name '{0}' from private module '{1}'."), Return_type_of_exported_function_has_or_is_using_private_name_0: diag(4060, ts.DiagnosticCategory.Error, "Return_type_of_exported_function_has_or_is_using_private_name_0_4060", "Return type of exported function has or is using private name '{0}'."), Parameter_0_of_constructor_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4061, ts.DiagnosticCategory.Error, "Parameter_0_of_constructor_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_can_4061", "Parameter '{0}' of constructor from exported class has or is using name '{1}' from external module {2} but cannot be named."), Parameter_0_of_constructor_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4062, ts.DiagnosticCategory.Error, "Parameter_0_of_constructor_from_exported_class_has_or_is_using_name_1_from_private_module_2_4062", "Parameter '{0}' of constructor from exported class has or is using name '{1}' from private module '{2}'."), Parameter_0_of_constructor_from_exported_class_has_or_is_using_private_name_1: diag(4063, ts.DiagnosticCategory.Error, "Parameter_0_of_constructor_from_exported_class_has_or_is_using_private_name_1_4063", "Parameter '{0}' of constructor from exported class has or is using private name '{1}'."), Parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2: diag(4064, ts.DiagnosticCategory.Error, "Parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_name_1_from_private_mod_4064", "Parameter '{0}' of constructor signature from exported interface has or is using name '{1}' from private module '{2}'."), Parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_1: diag(4065, ts.DiagnosticCategory.Error, "Parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_1_4065", "Parameter '{0}' of constructor signature from exported interface has or is using private name '{1}'."), Parameter_0_of_call_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2: diag(4066, ts.DiagnosticCategory.Error, "Parameter_0_of_call_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2_4066", "Parameter '{0}' of call signature from exported interface has or is using name '{1}' from private module '{2}'."), Parameter_0_of_call_signature_from_exported_interface_has_or_is_using_private_name_1: diag(4067, ts.DiagnosticCategory.Error, "Parameter_0_of_call_signature_from_exported_interface_has_or_is_using_private_name_1_4067", "Parameter '{0}' of call signature from exported interface has or is using private name '{1}'."), Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4068, ts.DiagnosticCategory.Error, "Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_name_1_from_external_module__4068", "Parameter '{0}' of public static method from exported class has or is using name '{1}' from external module {2} but cannot be named."), Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4069, ts.DiagnosticCategory.Error, "Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_name_1_from_private_module_2_4069", "Parameter '{0}' of public static method from exported class has or is using name '{1}' from private module '{2}'."), Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_private_name_1: diag(4070, ts.DiagnosticCategory.Error, "Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_private_name_1_4070", "Parameter '{0}' of public static method from exported class has or is using private name '{1}'."), Parameter_0_of_public_method_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4071, ts.DiagnosticCategory.Error, "Parameter_0_of_public_method_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_c_4071", "Parameter '{0}' of public method from exported class has or is using name '{1}' from external module {2} but cannot be named."), Parameter_0_of_public_method_from_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4072, ts.DiagnosticCategory.Error, "Parameter_0_of_public_method_from_exported_class_has_or_is_using_name_1_from_private_module_2_4072", "Parameter '{0}' of public method from exported class has or is using name '{1}' from private module '{2}'."), Parameter_0_of_public_method_from_exported_class_has_or_is_using_private_name_1: diag(4073, ts.DiagnosticCategory.Error, "Parameter_0_of_public_method_from_exported_class_has_or_is_using_private_name_1_4073", "Parameter '{0}' of public method from exported class has or is using private name '{1}'."), Parameter_0_of_method_from_exported_interface_has_or_is_using_name_1_from_private_module_2: diag(4074, ts.DiagnosticCategory.Error, "Parameter_0_of_method_from_exported_interface_has_or_is_using_name_1_from_private_module_2_4074", "Parameter '{0}' of method from exported interface has or is using name '{1}' from private module '{2}'."), Parameter_0_of_method_from_exported_interface_has_or_is_using_private_name_1: diag(4075, ts.DiagnosticCategory.Error, "Parameter_0_of_method_from_exported_interface_has_or_is_using_private_name_1_4075", "Parameter '{0}' of method from exported interface has or is using private name '{1}'."), Parameter_0_of_exported_function_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4076, ts.DiagnosticCategory.Error, "Parameter_0_of_exported_function_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named_4076", "Parameter '{0}' of exported function has or is using name '{1}' from external module {2} but cannot be named."), Parameter_0_of_exported_function_has_or_is_using_name_1_from_private_module_2: diag(4077, ts.DiagnosticCategory.Error, "Parameter_0_of_exported_function_has_or_is_using_name_1_from_private_module_2_4077", "Parameter '{0}' of exported function has or is using name '{1}' from private module '{2}'."), Parameter_0_of_exported_function_has_or_is_using_private_name_1: diag(4078, ts.DiagnosticCategory.Error, "Parameter_0_of_exported_function_has_or_is_using_private_name_1_4078", "Parameter '{0}' of exported function has or is using private name '{1}'."), Exported_type_alias_0_has_or_is_using_private_name_1: diag(4081, ts.DiagnosticCategory.Error, "Exported_type_alias_0_has_or_is_using_private_name_1_4081", "Exported type alias '{0}' has or is using private name '{1}'."), Default_export_of_the_module_has_or_is_using_private_name_0: diag(4082, ts.DiagnosticCategory.Error, "Default_export_of_the_module_has_or_is_using_private_name_0_4082", "Default export of the module has or is using private name '{0}'."), Type_parameter_0_of_exported_type_alias_has_or_is_using_private_name_1: diag(4083, ts.DiagnosticCategory.Error, "Type_parameter_0_of_exported_type_alias_has_or_is_using_private_name_1_4083", "Type parameter '{0}' of exported type alias has or is using private name '{1}'."), Conflicting_definitions_for_0_found_at_1_and_2_Consider_installing_a_specific_version_of_this_library_to_resolve_the_conflict: diag(4090, ts.DiagnosticCategory.Error, "Conflicting_definitions_for_0_found_at_1_and_2_Consider_installing_a_specific_version_of_this_librar_4090", "Conflicting definitions for '{0}' found at '{1}' and '{2}'. Consider installing a specific version of this library to resolve the conflict."), Parameter_0_of_index_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2: diag(4091, ts.DiagnosticCategory.Error, "Parameter_0_of_index_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2_4091", "Parameter '{0}' of index signature from exported interface has or is using name '{1}' from private module '{2}'."), Parameter_0_of_index_signature_from_exported_interface_has_or_is_using_private_name_1: diag(4092, ts.DiagnosticCategory.Error, "Parameter_0_of_index_signature_from_exported_interface_has_or_is_using_private_name_1_4092", "Parameter '{0}' of index signature from exported interface has or is using private name '{1}'."), Property_0_of_exported_class_expression_may_not_be_private_or_protected: diag(4094, ts.DiagnosticCategory.Error, "Property_0_of_exported_class_expression_may_not_be_private_or_protected_4094", "Property '{0}' of exported class expression may not be private or protected."), Public_static_method_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4095, ts.DiagnosticCategory.Error, "Public_static_method_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_4095", "Public static method '{0}' of exported class has or is using name '{1}' from external module {2} but cannot be named."), Public_static_method_0_of_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4096, ts.DiagnosticCategory.Error, "Public_static_method_0_of_exported_class_has_or_is_using_name_1_from_private_module_2_4096", "Public static method '{0}' of exported class has or is using name '{1}' from private module '{2}'."), Public_static_method_0_of_exported_class_has_or_is_using_private_name_1: diag(4097, ts.DiagnosticCategory.Error, "Public_static_method_0_of_exported_class_has_or_is_using_private_name_1_4097", "Public static method '{0}' of exported class has or is using private name '{1}'."), Public_method_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4098, ts.DiagnosticCategory.Error, "Public_method_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named_4098", "Public method '{0}' of exported class has or is using name '{1}' from external module {2} but cannot be named."), Public_method_0_of_exported_class_has_or_is_using_name_1_from_private_module_2: diag(4099, ts.DiagnosticCategory.Error, "Public_method_0_of_exported_class_has_or_is_using_name_1_from_private_module_2_4099", "Public method '{0}' of exported class has or is using name '{1}' from private module '{2}'."), Public_method_0_of_exported_class_has_or_is_using_private_name_1: diag(4100, ts.DiagnosticCategory.Error, "Public_method_0_of_exported_class_has_or_is_using_private_name_1_4100", "Public method '{0}' of exported class has or is using private name '{1}'."), Method_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2: diag(4101, ts.DiagnosticCategory.Error, "Method_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2_4101", "Method '{0}' of exported interface has or is using name '{1}' from private module '{2}'."), Method_0_of_exported_interface_has_or_is_using_private_name_1: diag(4102, ts.DiagnosticCategory.Error, "Method_0_of_exported_interface_has_or_is_using_private_name_1_4102", "Method '{0}' of exported interface has or is using private name '{1}'."), Type_parameter_0_of_exported_mapped_object_type_is_using_private_name_1: diag(4103, ts.DiagnosticCategory.Error, "Type_parameter_0_of_exported_mapped_object_type_is_using_private_name_1_4103", "Type parameter '{0}' of exported mapped object type is using private name '{1}'."), The_type_0_is_readonly_and_cannot_be_assigned_to_the_mutable_type_1: diag(4104, ts.DiagnosticCategory.Error, "The_type_0_is_readonly_and_cannot_be_assigned_to_the_mutable_type_1_4104", "The type '{0}' is 'readonly' and cannot be assigned to the mutable type '{1}'."), Private_or_protected_member_0_cannot_be_accessed_on_a_type_parameter: diag(4105, ts.DiagnosticCategory.Error, "Private_or_protected_member_0_cannot_be_accessed_on_a_type_parameter_4105", "Private or protected member '{0}' cannot be accessed on a type parameter."), Parameter_0_of_accessor_has_or_is_using_private_name_1: diag(4106, ts.DiagnosticCategory.Error, "Parameter_0_of_accessor_has_or_is_using_private_name_1_4106", "Parameter '{0}' of accessor has or is using private name '{1}'."), Parameter_0_of_accessor_has_or_is_using_name_1_from_private_module_2: diag(4107, ts.DiagnosticCategory.Error, "Parameter_0_of_accessor_has_or_is_using_name_1_from_private_module_2_4107", "Parameter '{0}' of accessor has or is using name '{1}' from private module '{2}'."), Parameter_0_of_accessor_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named: diag(4108, ts.DiagnosticCategory.Error, "Parameter_0_of_accessor_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named_4108", "Parameter '{0}' of accessor has or is using name '{1}' from external module '{2}' but cannot be named."), Type_arguments_for_0_circularly_reference_themselves: diag(4109, ts.DiagnosticCategory.Error, "Type_arguments_for_0_circularly_reference_themselves_4109", "Type arguments for '{0}' circularly reference themselves."), Tuple_type_arguments_circularly_reference_themselves: diag(4110, ts.DiagnosticCategory.Error, "Tuple_type_arguments_circularly_reference_themselves_4110", "Tuple type arguments circularly reference themselves."), The_current_host_does_not_support_the_0_option: diag(5001, ts.DiagnosticCategory.Error, "The_current_host_does_not_support_the_0_option_5001", "The current host does not support the '{0}' option."), Cannot_find_the_common_subdirectory_path_for_the_input_files: diag(5009, ts.DiagnosticCategory.Error, "Cannot_find_the_common_subdirectory_path_for_the_input_files_5009", "Cannot find the common subdirectory path for the input files."), File_specification_cannot_end_in_a_recursive_directory_wildcard_Asterisk_Asterisk_Colon_0: diag(5010, ts.DiagnosticCategory.Error, "File_specification_cannot_end_in_a_recursive_directory_wildcard_Asterisk_Asterisk_Colon_0_5010", "File specification cannot end in a recursive directory wildcard ('**'): '{0}'."), Cannot_read_file_0_Colon_1: diag(5012, ts.DiagnosticCategory.Error, "Cannot_read_file_0_Colon_1_5012", "Cannot read file '{0}': {1}."), Failed_to_parse_file_0_Colon_1: diag(5014, ts.DiagnosticCategory.Error, "Failed_to_parse_file_0_Colon_1_5014", "Failed to parse file '{0}': {1}."), Unknown_compiler_option_0: diag(5023, ts.DiagnosticCategory.Error, "Unknown_compiler_option_0_5023", "Unknown compiler option '{0}'."), Compiler_option_0_requires_a_value_of_type_1: diag(5024, ts.DiagnosticCategory.Error, "Compiler_option_0_requires_a_value_of_type_1_5024", "Compiler option '{0}' requires a value of type {1}."), Unknown_compiler_option_0_Did_you_mean_1: diag(5025, ts.DiagnosticCategory.Error, "Unknown_compiler_option_0_Did_you_mean_1_5025", "Unknown compiler option '{0}'. Did you mean '{1}'?"), Could_not_write_file_0_Colon_1: diag(5033, ts.DiagnosticCategory.Error, "Could_not_write_file_0_Colon_1_5033", "Could not write file '{0}': {1}."), Option_project_cannot_be_mixed_with_source_files_on_a_command_line: diag(5042, ts.DiagnosticCategory.Error, "Option_project_cannot_be_mixed_with_source_files_on_a_command_line_5042", "Option 'project' cannot be mixed with source files on a command line."), Option_isolatedModules_can_only_be_used_when_either_option_module_is_provided_or_option_target_is_ES2015_or_higher: diag(5047, ts.DiagnosticCategory.Error, "Option_isolatedModules_can_only_be_used_when_either_option_module_is_provided_or_option_target_is_ES_5047", "Option 'isolatedModules' can only be used when either option '--module' is provided or option 'target' is 'ES2015' or higher."), Option_0_cannot_be_specified_when_option_target_is_ES3: diag(5048, ts.DiagnosticCategory.Error, "Option_0_cannot_be_specified_when_option_target_is_ES3_5048", "Option '{0}' cannot be specified when option 'target' is 'ES3'."), Option_0_can_only_be_used_when_either_option_inlineSourceMap_or_option_sourceMap_is_provided: diag(5051, ts.DiagnosticCategory.Error, "Option_0_can_only_be_used_when_either_option_inlineSourceMap_or_option_sourceMap_is_provided_5051", "Option '{0} can only be used when either option '--inlineSourceMap' or option '--sourceMap' is provided."), Option_0_cannot_be_specified_without_specifying_option_1: diag(5052, ts.DiagnosticCategory.Error, "Option_0_cannot_be_specified_without_specifying_option_1_5052", "Option '{0}' cannot be specified without specifying option '{1}'."), Option_0_cannot_be_specified_with_option_1: diag(5053, ts.DiagnosticCategory.Error, "Option_0_cannot_be_specified_with_option_1_5053", "Option '{0}' cannot be specified with option '{1}'."), A_tsconfig_json_file_is_already_defined_at_Colon_0: diag(5054, ts.DiagnosticCategory.Error, "A_tsconfig_json_file_is_already_defined_at_Colon_0_5054", "A 'tsconfig.json' file is already defined at: '{0}'."), Cannot_write_file_0_because_it_would_overwrite_input_file: diag(5055, ts.DiagnosticCategory.Error, "Cannot_write_file_0_because_it_would_overwrite_input_file_5055", "Cannot write file '{0}' because it would overwrite input file."), Cannot_write_file_0_because_it_would_be_overwritten_by_multiple_input_files: diag(5056, ts.DiagnosticCategory.Error, "Cannot_write_file_0_because_it_would_be_overwritten_by_multiple_input_files_5056", "Cannot write file '{0}' because it would be overwritten by multiple input files."), Cannot_find_a_tsconfig_json_file_at_the_specified_directory_Colon_0: diag(5057, ts.DiagnosticCategory.Error, "Cannot_find_a_tsconfig_json_file_at_the_specified_directory_Colon_0_5057", "Cannot find a tsconfig.json file at the specified directory: '{0}'."), The_specified_path_does_not_exist_Colon_0: diag(5058, ts.DiagnosticCategory.Error, "The_specified_path_does_not_exist_Colon_0_5058", "The specified path does not exist: '{0}'."), Invalid_value_for_reactNamespace_0_is_not_a_valid_identifier: diag(5059, ts.DiagnosticCategory.Error, "Invalid_value_for_reactNamespace_0_is_not_a_valid_identifier_5059", "Invalid value for '--reactNamespace'. '{0}' is not a valid identifier."), Option_paths_cannot_be_used_without_specifying_baseUrl_option: diag(5060, ts.DiagnosticCategory.Error, "Option_paths_cannot_be_used_without_specifying_baseUrl_option_5060", "Option 'paths' cannot be used without specifying '--baseUrl' option."), Pattern_0_can_have_at_most_one_Asterisk_character: diag(5061, ts.DiagnosticCategory.Error, "Pattern_0_can_have_at_most_one_Asterisk_character_5061", "Pattern '{0}' can have at most one '*' character."), Substitution_0_in_pattern_1_can_have_at_most_one_Asterisk_character: diag(5062, ts.DiagnosticCategory.Error, "Substitution_0_in_pattern_1_can_have_at_most_one_Asterisk_character_5062", "Substitution '{0}' in pattern '{1}' can have at most one '*' character."), Substitutions_for_pattern_0_should_be_an_array: diag(5063, ts.DiagnosticCategory.Error, "Substitutions_for_pattern_0_should_be_an_array_5063", "Substitutions for pattern '{0}' should be an array."), Substitution_0_for_pattern_1_has_incorrect_type_expected_string_got_2: diag(5064, ts.DiagnosticCategory.Error, "Substitution_0_for_pattern_1_has_incorrect_type_expected_string_got_2_5064", "Substitution '{0}' for pattern '{1}' has incorrect type, expected 'string', got '{2}'."), File_specification_cannot_contain_a_parent_directory_that_appears_after_a_recursive_directory_wildcard_Asterisk_Asterisk_Colon_0: diag(5065, ts.DiagnosticCategory.Error, "File_specification_cannot_contain_a_parent_directory_that_appears_after_a_recursive_directory_wildca_5065", "File specification cannot contain a parent directory ('..') that appears after a recursive directory wildcard ('**'): '{0}'."), Substitutions_for_pattern_0_shouldn_t_be_an_empty_array: diag(5066, ts.DiagnosticCategory.Error, "Substitutions_for_pattern_0_shouldn_t_be_an_empty_array_5066", "Substitutions for pattern '{0}' shouldn't be an empty array."), Invalid_value_for_jsxFactory_0_is_not_a_valid_identifier_or_qualified_name: diag(5067, ts.DiagnosticCategory.Error, "Invalid_value_for_jsxFactory_0_is_not_a_valid_identifier_or_qualified_name_5067", "Invalid value for 'jsxFactory'. '{0}' is not a valid identifier or qualified-name."), Adding_a_tsconfig_json_file_will_help_organize_projects_that_contain_both_TypeScript_and_JavaScript_files_Learn_more_at_https_Colon_Slash_Slashaka_ms_Slashtsconfig: diag(5068, ts.DiagnosticCategory.Error, "Adding_a_tsconfig_json_file_will_help_organize_projects_that_contain_both_TypeScript_and_JavaScript__5068", "Adding a tsconfig.json file will help organize projects that contain both TypeScript and JavaScript files. Learn more at https://aka.ms/tsconfig."), Option_0_cannot_be_specified_without_specifying_option_1_or_option_2: diag(5069, ts.DiagnosticCategory.Error, "Option_0_cannot_be_specified_without_specifying_option_1_or_option_2_5069", "Option '{0}' cannot be specified without specifying option '{1}' or option '{2}'."), Option_resolveJsonModule_cannot_be_specified_without_node_module_resolution_strategy: diag(5070, ts.DiagnosticCategory.Error, "Option_resolveJsonModule_cannot_be_specified_without_node_module_resolution_strategy_5070", "Option '--resolveJsonModule' cannot be specified without 'node' module resolution strategy."), Option_resolveJsonModule_can_only_be_specified_when_module_code_generation_is_commonjs_amd_es2015_or_esNext: diag(5071, ts.DiagnosticCategory.Error, "Option_resolveJsonModule_can_only_be_specified_when_module_code_generation_is_commonjs_amd_es2015_or_5071", "Option '--resolveJsonModule' can only be specified when module code generation is 'commonjs', 'amd', 'es2015' or 'esNext'."), Unknown_build_option_0: diag(5072, ts.DiagnosticCategory.Error, "Unknown_build_option_0_5072", "Unknown build option '{0}'."), Build_option_0_requires_a_value_of_type_1: diag(5073, ts.DiagnosticCategory.Error, "Build_option_0_requires_a_value_of_type_1_5073", "Build option '{0}' requires a value of type {1}."), Option_incremental_can_only_be_specified_using_tsconfig_emitting_to_single_file_or_when_option_tsBuildInfoFile_is_specified: diag(5074, ts.DiagnosticCategory.Error, "Option_incremental_can_only_be_specified_using_tsconfig_emitting_to_single_file_or_when_option_tsBui_5074", "Option '--incremental' can only be specified using tsconfig, emitting to single file or when option `--tsBuildInfoFile` is specified."), _0_is_assignable_to_the_constraint_of_type_1_but_1_could_be_instantiated_with_a_different_subtype_of_constraint_2: diag(5075, ts.DiagnosticCategory.Error, "_0_is_assignable_to_the_constraint_of_type_1_but_1_could_be_instantiated_with_a_different_subtype_of_5075", "'{0}' is assignable to the constraint of type '{1}', but '{1}' could be instantiated with a different subtype of constraint '{2}'."), _0_and_1_operations_cannot_be_mixed_without_parentheses: diag(5076, ts.DiagnosticCategory.Error, "_0_and_1_operations_cannot_be_mixed_without_parentheses_5076", "'{0}' and '{1}' operations cannot be mixed without parentheses."), Unknown_build_option_0_Did_you_mean_1: diag(5077, ts.DiagnosticCategory.Error, "Unknown_build_option_0_Did_you_mean_1_5077", "Unknown build option '{0}'. Did you mean '{1}'?"), Unknown_watch_option_0: diag(5078, ts.DiagnosticCategory.Error, "Unknown_watch_option_0_5078", "Unknown watch option '{0}'."), Unknown_watch_option_0_Did_you_mean_1: diag(5079, ts.DiagnosticCategory.Error, "Unknown_watch_option_0_Did_you_mean_1_5079", "Unknown watch option '{0}'. Did you mean '{1}'?"), Watch_option_0_requires_a_value_of_type_1: diag(5080, ts.DiagnosticCategory.Error, "Watch_option_0_requires_a_value_of_type_1_5080", "Watch option '{0}' requires a value of type {1}."), Cannot_find_a_tsconfig_json_file_at_the_current_directory_Colon_0: diag(5081, ts.DiagnosticCategory.Error, "Cannot_find_a_tsconfig_json_file_at_the_current_directory_Colon_0_5081", "Cannot find a tsconfig.json file at the current directory: {0}."), _0_could_be_instantiated_with_an_arbitrary_type_which_could_be_unrelated_to_1: diag(5082, ts.DiagnosticCategory.Error, "_0_could_be_instantiated_with_an_arbitrary_type_which_could_be_unrelated_to_1_5082", "'{0}' could be instantiated with an arbitrary type which could be unrelated to '{1}'."), Cannot_read_file_0: diag(5083, ts.DiagnosticCategory.Error, "Cannot_read_file_0_5083", "Cannot read file '{0}'."), Generates_a_sourcemap_for_each_corresponding_d_ts_file: diag(6000, ts.DiagnosticCategory.Message, "Generates_a_sourcemap_for_each_corresponding_d_ts_file_6000", "Generates a sourcemap for each corresponding '.d.ts' file."), Concatenate_and_emit_output_to_single_file: diag(6001, ts.DiagnosticCategory.Message, "Concatenate_and_emit_output_to_single_file_6001", "Concatenate and emit output to single file."), Generates_corresponding_d_ts_file: diag(6002, ts.DiagnosticCategory.Message, "Generates_corresponding_d_ts_file_6002", "Generates corresponding '.d.ts' file."), Specify_the_location_where_debugger_should_locate_map_files_instead_of_generated_locations: diag(6003, ts.DiagnosticCategory.Message, "Specify_the_location_where_debugger_should_locate_map_files_instead_of_generated_locations_6003", "Specify the location where debugger should locate map files instead of generated locations."), Specify_the_location_where_debugger_should_locate_TypeScript_files_instead_of_source_locations: diag(6004, ts.DiagnosticCategory.Message, "Specify_the_location_where_debugger_should_locate_TypeScript_files_instead_of_source_locations_6004", "Specify the location where debugger should locate TypeScript files instead of source locations."), Watch_input_files: diag(6005, ts.DiagnosticCategory.Message, "Watch_input_files_6005", "Watch input files."), Redirect_output_structure_to_the_directory: diag(6006, ts.DiagnosticCategory.Message, "Redirect_output_structure_to_the_directory_6006", "Redirect output structure to the directory."), Do_not_erase_const_enum_declarations_in_generated_code: diag(6007, ts.DiagnosticCategory.Message, "Do_not_erase_const_enum_declarations_in_generated_code_6007", "Do not erase const enum declarations in generated code."), Do_not_emit_outputs_if_any_errors_were_reported: diag(6008, ts.DiagnosticCategory.Message, "Do_not_emit_outputs_if_any_errors_were_reported_6008", "Do not emit outputs if any errors were reported."), Do_not_emit_comments_to_output: diag(6009, ts.DiagnosticCategory.Message, "Do_not_emit_comments_to_output_6009", "Do not emit comments to output."), Do_not_emit_outputs: diag(6010, ts.DiagnosticCategory.Message, "Do_not_emit_outputs_6010", "Do not emit outputs."), Allow_default_imports_from_modules_with_no_default_export_This_does_not_affect_code_emit_just_typechecking: diag(6011, ts.DiagnosticCategory.Message, "Allow_default_imports_from_modules_with_no_default_export_This_does_not_affect_code_emit_just_typech_6011", "Allow default imports from modules with no default export. This does not affect code emit, just typechecking."), Skip_type_checking_of_declaration_files: diag(6012, ts.DiagnosticCategory.Message, "Skip_type_checking_of_declaration_files_6012", "Skip type checking of declaration files."), Do_not_resolve_the_real_path_of_symlinks: diag(6013, ts.DiagnosticCategory.Message, "Do_not_resolve_the_real_path_of_symlinks_6013", "Do not resolve the real path of symlinks."), Only_emit_d_ts_declaration_files: diag(6014, ts.DiagnosticCategory.Message, "Only_emit_d_ts_declaration_files_6014", "Only emit '.d.ts' declaration files."), Specify_ECMAScript_target_version_Colon_ES3_default_ES5_ES2015_ES2016_ES2017_ES2018_ES2019_ES2020_or_ESNEXT: diag(6015, ts.DiagnosticCategory.Message, "Specify_ECMAScript_target_version_Colon_ES3_default_ES5_ES2015_ES2016_ES2017_ES2018_ES2019_ES2020_or_6015", "Specify ECMAScript target version: 'ES3' (default), 'ES5', 'ES2015', 'ES2016', 'ES2017', 'ES2018', 'ES2019', 'ES2020', or 'ESNEXT'."), Specify_module_code_generation_Colon_none_commonjs_amd_system_umd_es2015_es2020_or_ESNext: diag(6016, ts.DiagnosticCategory.Message, "Specify_module_code_generation_Colon_none_commonjs_amd_system_umd_es2015_es2020_or_ESNext_6016", "Specify module code generation: 'none', 'commonjs', 'amd', 'system', 'umd', 'es2015', 'es2020', or 'ESNext'."), Print_this_message: diag(6017, ts.DiagnosticCategory.Message, "Print_this_message_6017", "Print this message."), Print_the_compiler_s_version: diag(6019, ts.DiagnosticCategory.Message, "Print_the_compiler_s_version_6019", "Print the compiler's version."), Compile_the_project_given_the_path_to_its_configuration_file_or_to_a_folder_with_a_tsconfig_json: diag(6020, ts.DiagnosticCategory.Message, "Compile_the_project_given_the_path_to_its_configuration_file_or_to_a_folder_with_a_tsconfig_json_6020", "Compile the project given the path to its configuration file, or to a folder with a 'tsconfig.json'."), Syntax_Colon_0: diag(6023, ts.DiagnosticCategory.Message, "Syntax_Colon_0_6023", "Syntax: {0}"), options: diag(6024, ts.DiagnosticCategory.Message, "options_6024", "options"), file: diag(6025, ts.DiagnosticCategory.Message, "file_6025", "file"), Examples_Colon_0: diag(6026, ts.DiagnosticCategory.Message, "Examples_Colon_0_6026", "Examples: {0}"), Options_Colon: diag(6027, ts.DiagnosticCategory.Message, "Options_Colon_6027", "Options:"), Version_0: diag(6029, ts.DiagnosticCategory.Message, "Version_0_6029", "Version {0}"), Insert_command_line_options_and_files_from_a_file: diag(6030, ts.DiagnosticCategory.Message, "Insert_command_line_options_and_files_from_a_file_6030", "Insert command line options and files from a file."), Starting_compilation_in_watch_mode: diag(6031, ts.DiagnosticCategory.Message, "Starting_compilation_in_watch_mode_6031", "Starting compilation in watch mode..."), File_change_detected_Starting_incremental_compilation: diag(6032, ts.DiagnosticCategory.Message, "File_change_detected_Starting_incremental_compilation_6032", "File change detected. Starting incremental compilation..."), KIND: diag(6034, ts.DiagnosticCategory.Message, "KIND_6034", "KIND"), FILE: diag(6035, ts.DiagnosticCategory.Message, "FILE_6035", "FILE"), VERSION: diag(6036, ts.DiagnosticCategory.Message, "VERSION_6036", "VERSION"), LOCATION: diag(6037, ts.DiagnosticCategory.Message, "LOCATION_6037", "LOCATION"), DIRECTORY: diag(6038, ts.DiagnosticCategory.Message, "DIRECTORY_6038", "DIRECTORY"), STRATEGY: diag(6039, ts.DiagnosticCategory.Message, "STRATEGY_6039", "STRATEGY"), FILE_OR_DIRECTORY: diag(6040, ts.DiagnosticCategory.Message, "FILE_OR_DIRECTORY_6040", "FILE OR DIRECTORY"), Generates_corresponding_map_file: diag(6043, ts.DiagnosticCategory.Message, "Generates_corresponding_map_file_6043", "Generates corresponding '.map' file."), Compiler_option_0_expects_an_argument: diag(6044, ts.DiagnosticCategory.Error, "Compiler_option_0_expects_an_argument_6044", "Compiler option '{0}' expects an argument."), Unterminated_quoted_string_in_response_file_0: diag(6045, ts.DiagnosticCategory.Error, "Unterminated_quoted_string_in_response_file_0_6045", "Unterminated quoted string in response file '{0}'."), Argument_for_0_option_must_be_Colon_1: diag(6046, ts.DiagnosticCategory.Error, "Argument_for_0_option_must_be_Colon_1_6046", "Argument for '{0}' option must be: {1}."), Locale_must_be_of_the_form_language_or_language_territory_For_example_0_or_1: diag(6048, ts.DiagnosticCategory.Error, "Locale_must_be_of_the_form_language_or_language_territory_For_example_0_or_1_6048", "Locale must be of the form or -. For example '{0}' or '{1}'."), Unsupported_locale_0: diag(6049, ts.DiagnosticCategory.Error, "Unsupported_locale_0_6049", "Unsupported locale '{0}'."), Unable_to_open_file_0: diag(6050, ts.DiagnosticCategory.Error, "Unable_to_open_file_0_6050", "Unable to open file '{0}'."), Corrupted_locale_file_0: diag(6051, ts.DiagnosticCategory.Error, "Corrupted_locale_file_0_6051", "Corrupted locale file {0}."), Raise_error_on_expressions_and_declarations_with_an_implied_any_type: diag(6052, ts.DiagnosticCategory.Message, "Raise_error_on_expressions_and_declarations_with_an_implied_any_type_6052", "Raise error on expressions and declarations with an implied 'any' type."), File_0_not_found: diag(6053, ts.DiagnosticCategory.Error, "File_0_not_found_6053", "File '{0}' not found."), File_0_has_an_unsupported_extension_The_only_supported_extensions_are_1: diag(6054, ts.DiagnosticCategory.Error, "File_0_has_an_unsupported_extension_The_only_supported_extensions_are_1_6054", "File '{0}' has an unsupported extension. The only supported extensions are {1}."), Suppress_noImplicitAny_errors_for_indexing_objects_lacking_index_signatures: diag(6055, ts.DiagnosticCategory.Message, "Suppress_noImplicitAny_errors_for_indexing_objects_lacking_index_signatures_6055", "Suppress noImplicitAny errors for indexing objects lacking index signatures."), Do_not_emit_declarations_for_code_that_has_an_internal_annotation: diag(6056, ts.DiagnosticCategory.Message, "Do_not_emit_declarations_for_code_that_has_an_internal_annotation_6056", "Do not emit declarations for code that has an '@internal' annotation."), Specify_the_root_directory_of_input_files_Use_to_control_the_output_directory_structure_with_outDir: diag(6058, ts.DiagnosticCategory.Message, "Specify_the_root_directory_of_input_files_Use_to_control_the_output_directory_structure_with_outDir_6058", "Specify the root directory of input files. Use to control the output directory structure with --outDir."), File_0_is_not_under_rootDir_1_rootDir_is_expected_to_contain_all_source_files: diag(6059, ts.DiagnosticCategory.Error, "File_0_is_not_under_rootDir_1_rootDir_is_expected_to_contain_all_source_files_6059", "File '{0}' is not under 'rootDir' '{1}'. 'rootDir' is expected to contain all source files."), Specify_the_end_of_line_sequence_to_be_used_when_emitting_files_Colon_CRLF_dos_or_LF_unix: diag(6060, ts.DiagnosticCategory.Message, "Specify_the_end_of_line_sequence_to_be_used_when_emitting_files_Colon_CRLF_dos_or_LF_unix_6060", "Specify the end of line sequence to be used when emitting files: 'CRLF' (dos) or 'LF' (unix)."), NEWLINE: diag(6061, ts.DiagnosticCategory.Message, "NEWLINE_6061", "NEWLINE"), Option_0_can_only_be_specified_in_tsconfig_json_file_or_set_to_null_on_command_line: diag(6064, ts.DiagnosticCategory.Error, "Option_0_can_only_be_specified_in_tsconfig_json_file_or_set_to_null_on_command_line_6064", "Option '{0}' can only be specified in 'tsconfig.json' file or set to 'null' on command line."), Enables_experimental_support_for_ES7_decorators: diag(6065, ts.DiagnosticCategory.Message, "Enables_experimental_support_for_ES7_decorators_6065", "Enables experimental support for ES7 decorators."), Enables_experimental_support_for_emitting_type_metadata_for_decorators: diag(6066, ts.DiagnosticCategory.Message, "Enables_experimental_support_for_emitting_type_metadata_for_decorators_6066", "Enables experimental support for emitting type metadata for decorators."), Enables_experimental_support_for_ES7_async_functions: diag(6068, ts.DiagnosticCategory.Message, "Enables_experimental_support_for_ES7_async_functions_6068", "Enables experimental support for ES7 async functions."), Specify_module_resolution_strategy_Colon_node_Node_js_or_classic_TypeScript_pre_1_6: diag(6069, ts.DiagnosticCategory.Message, "Specify_module_resolution_strategy_Colon_node_Node_js_or_classic_TypeScript_pre_1_6_6069", "Specify module resolution strategy: 'node' (Node.js) or 'classic' (TypeScript pre-1.6)."), Initializes_a_TypeScript_project_and_creates_a_tsconfig_json_file: diag(6070, ts.DiagnosticCategory.Message, "Initializes_a_TypeScript_project_and_creates_a_tsconfig_json_file_6070", "Initializes a TypeScript project and creates a tsconfig.json file."), Successfully_created_a_tsconfig_json_file: diag(6071, ts.DiagnosticCategory.Message, "Successfully_created_a_tsconfig_json_file_6071", "Successfully created a tsconfig.json file."), Suppress_excess_property_checks_for_object_literals: diag(6072, ts.DiagnosticCategory.Message, "Suppress_excess_property_checks_for_object_literals_6072", "Suppress excess property checks for object literals."), Stylize_errors_and_messages_using_color_and_context_experimental: diag(6073, ts.DiagnosticCategory.Message, "Stylize_errors_and_messages_using_color_and_context_experimental_6073", "Stylize errors and messages using color and context (experimental)."), Do_not_report_errors_on_unused_labels: diag(6074, ts.DiagnosticCategory.Message, "Do_not_report_errors_on_unused_labels_6074", "Do not report errors on unused labels."), Report_error_when_not_all_code_paths_in_function_return_a_value: diag(6075, ts.DiagnosticCategory.Message, "Report_error_when_not_all_code_paths_in_function_return_a_value_6075", "Report error when not all code paths in function return a value."), Report_errors_for_fallthrough_cases_in_switch_statement: diag(6076, ts.DiagnosticCategory.Message, "Report_errors_for_fallthrough_cases_in_switch_statement_6076", "Report errors for fallthrough cases in switch statement."), Do_not_report_errors_on_unreachable_code: diag(6077, ts.DiagnosticCategory.Message, "Do_not_report_errors_on_unreachable_code_6077", "Do not report errors on unreachable code."), Disallow_inconsistently_cased_references_to_the_same_file: diag(6078, ts.DiagnosticCategory.Message, "Disallow_inconsistently_cased_references_to_the_same_file_6078", "Disallow inconsistently-cased references to the same file."), Specify_library_files_to_be_included_in_the_compilation: diag(6079, ts.DiagnosticCategory.Message, "Specify_library_files_to_be_included_in_the_compilation_6079", "Specify library files to be included in the compilation."), Specify_JSX_code_generation_Colon_preserve_react_native_or_react: diag(6080, ts.DiagnosticCategory.Message, "Specify_JSX_code_generation_Colon_preserve_react_native_or_react_6080", "Specify JSX code generation: 'preserve', 'react-native', or 'react'."), File_0_has_an_unsupported_extension_so_skipping_it: diag(6081, ts.DiagnosticCategory.Message, "File_0_has_an_unsupported_extension_so_skipping_it_6081", "File '{0}' has an unsupported extension, so skipping it."), Only_amd_and_system_modules_are_supported_alongside_0: diag(6082, ts.DiagnosticCategory.Error, "Only_amd_and_system_modules_are_supported_alongside_0_6082", "Only 'amd' and 'system' modules are supported alongside --{0}."), Base_directory_to_resolve_non_absolute_module_names: diag(6083, ts.DiagnosticCategory.Message, "Base_directory_to_resolve_non_absolute_module_names_6083", "Base directory to resolve non-absolute module names."), Deprecated_Use_jsxFactory_instead_Specify_the_object_invoked_for_createElement_when_targeting_react_JSX_emit: diag(6084, ts.DiagnosticCategory.Message, "Deprecated_Use_jsxFactory_instead_Specify_the_object_invoked_for_createElement_when_targeting_react__6084", "[Deprecated] Use '--jsxFactory' instead. Specify the object invoked for createElement when targeting 'react' JSX emit"), Enable_tracing_of_the_name_resolution_process: diag(6085, ts.DiagnosticCategory.Message, "Enable_tracing_of_the_name_resolution_process_6085", "Enable tracing of the name resolution process."), Resolving_module_0_from_1: diag(6086, ts.DiagnosticCategory.Message, "Resolving_module_0_from_1_6086", "======== Resolving module '{0}' from '{1}'. ========"), Explicitly_specified_module_resolution_kind_Colon_0: diag(6087, ts.DiagnosticCategory.Message, "Explicitly_specified_module_resolution_kind_Colon_0_6087", "Explicitly specified module resolution kind: '{0}'."), Module_resolution_kind_is_not_specified_using_0: diag(6088, ts.DiagnosticCategory.Message, "Module_resolution_kind_is_not_specified_using_0_6088", "Module resolution kind is not specified, using '{0}'."), Module_name_0_was_successfully_resolved_to_1: diag(6089, ts.DiagnosticCategory.Message, "Module_name_0_was_successfully_resolved_to_1_6089", "======== Module name '{0}' was successfully resolved to '{1}'. ========"), Module_name_0_was_not_resolved: diag(6090, ts.DiagnosticCategory.Message, "Module_name_0_was_not_resolved_6090", "======== Module name '{0}' was not resolved. ========"), paths_option_is_specified_looking_for_a_pattern_to_match_module_name_0: diag(6091, ts.DiagnosticCategory.Message, "paths_option_is_specified_looking_for_a_pattern_to_match_module_name_0_6091", "'paths' option is specified, looking for a pattern to match module name '{0}'."), Module_name_0_matched_pattern_1: diag(6092, ts.DiagnosticCategory.Message, "Module_name_0_matched_pattern_1_6092", "Module name '{0}', matched pattern '{1}'."), Trying_substitution_0_candidate_module_location_Colon_1: diag(6093, ts.DiagnosticCategory.Message, "Trying_substitution_0_candidate_module_location_Colon_1_6093", "Trying substitution '{0}', candidate module location: '{1}'."), Resolving_module_name_0_relative_to_base_url_1_2: diag(6094, ts.DiagnosticCategory.Message, "Resolving_module_name_0_relative_to_base_url_1_2_6094", "Resolving module name '{0}' relative to base url '{1}' - '{2}'."), Loading_module_as_file_Slash_folder_candidate_module_location_0_target_file_type_1: diag(6095, ts.DiagnosticCategory.Message, "Loading_module_as_file_Slash_folder_candidate_module_location_0_target_file_type_1_6095", "Loading module as file / folder, candidate module location '{0}', target file type '{1}'."), File_0_does_not_exist: diag(6096, ts.DiagnosticCategory.Message, "File_0_does_not_exist_6096", "File '{0}' does not exist."), File_0_exist_use_it_as_a_name_resolution_result: diag(6097, ts.DiagnosticCategory.Message, "File_0_exist_use_it_as_a_name_resolution_result_6097", "File '{0}' exist - use it as a name resolution result."), Loading_module_0_from_node_modules_folder_target_file_type_1: diag(6098, ts.DiagnosticCategory.Message, "Loading_module_0_from_node_modules_folder_target_file_type_1_6098", "Loading module '{0}' from 'node_modules' folder, target file type '{1}'."), Found_package_json_at_0: diag(6099, ts.DiagnosticCategory.Message, "Found_package_json_at_0_6099", "Found 'package.json' at '{0}'."), package_json_does_not_have_a_0_field: diag(6100, ts.DiagnosticCategory.Message, "package_json_does_not_have_a_0_field_6100", "'package.json' does not have a '{0}' field."), package_json_has_0_field_1_that_references_2: diag(6101, ts.DiagnosticCategory.Message, "package_json_has_0_field_1_that_references_2_6101", "'package.json' has '{0}' field '{1}' that references '{2}'."), Allow_javascript_files_to_be_compiled: diag(6102, ts.DiagnosticCategory.Message, "Allow_javascript_files_to_be_compiled_6102", "Allow javascript files to be compiled."), Option_0_should_have_array_of_strings_as_a_value: diag(6103, ts.DiagnosticCategory.Error, "Option_0_should_have_array_of_strings_as_a_value_6103", "Option '{0}' should have array of strings as a value."), Checking_if_0_is_the_longest_matching_prefix_for_1_2: diag(6104, ts.DiagnosticCategory.Message, "Checking_if_0_is_the_longest_matching_prefix_for_1_2_6104", "Checking if '{0}' is the longest matching prefix for '{1}' - '{2}'."), Expected_type_of_0_field_in_package_json_to_be_1_got_2: diag(6105, ts.DiagnosticCategory.Message, "Expected_type_of_0_field_in_package_json_to_be_1_got_2_6105", "Expected type of '{0}' field in 'package.json' to be '{1}', got '{2}'."), baseUrl_option_is_set_to_0_using_this_value_to_resolve_non_relative_module_name_1: diag(6106, ts.DiagnosticCategory.Message, "baseUrl_option_is_set_to_0_using_this_value_to_resolve_non_relative_module_name_1_6106", "'baseUrl' option is set to '{0}', using this value to resolve non-relative module name '{1}'."), rootDirs_option_is_set_using_it_to_resolve_relative_module_name_0: diag(6107, ts.DiagnosticCategory.Message, "rootDirs_option_is_set_using_it_to_resolve_relative_module_name_0_6107", "'rootDirs' option is set, using it to resolve relative module name '{0}'."), Longest_matching_prefix_for_0_is_1: diag(6108, ts.DiagnosticCategory.Message, "Longest_matching_prefix_for_0_is_1_6108", "Longest matching prefix for '{0}' is '{1}'."), Loading_0_from_the_root_dir_1_candidate_location_2: diag(6109, ts.DiagnosticCategory.Message, "Loading_0_from_the_root_dir_1_candidate_location_2_6109", "Loading '{0}' from the root dir '{1}', candidate location '{2}'."), Trying_other_entries_in_rootDirs: diag(6110, ts.DiagnosticCategory.Message, "Trying_other_entries_in_rootDirs_6110", "Trying other entries in 'rootDirs'."), Module_resolution_using_rootDirs_has_failed: diag(6111, ts.DiagnosticCategory.Message, "Module_resolution_using_rootDirs_has_failed_6111", "Module resolution using 'rootDirs' has failed."), Do_not_emit_use_strict_directives_in_module_output: diag(6112, ts.DiagnosticCategory.Message, "Do_not_emit_use_strict_directives_in_module_output_6112", "Do not emit 'use strict' directives in module output."), Enable_strict_null_checks: diag(6113, ts.DiagnosticCategory.Message, "Enable_strict_null_checks_6113", "Enable strict null checks."), Unknown_option_excludes_Did_you_mean_exclude: diag(6114, ts.DiagnosticCategory.Error, "Unknown_option_excludes_Did_you_mean_exclude_6114", "Unknown option 'excludes'. Did you mean 'exclude'?"), Raise_error_on_this_expressions_with_an_implied_any_type: diag(6115, ts.DiagnosticCategory.Message, "Raise_error_on_this_expressions_with_an_implied_any_type_6115", "Raise error on 'this' expressions with an implied 'any' type."), Resolving_type_reference_directive_0_containing_file_1_root_directory_2: diag(6116, ts.DiagnosticCategory.Message, "Resolving_type_reference_directive_0_containing_file_1_root_directory_2_6116", "======== Resolving type reference directive '{0}', containing file '{1}', root directory '{2}'. ========"), Resolving_using_primary_search_paths: diag(6117, ts.DiagnosticCategory.Message, "Resolving_using_primary_search_paths_6117", "Resolving using primary search paths..."), Resolving_from_node_modules_folder: diag(6118, ts.DiagnosticCategory.Message, "Resolving_from_node_modules_folder_6118", "Resolving from node_modules folder..."), Type_reference_directive_0_was_successfully_resolved_to_1_primary_Colon_2: diag(6119, ts.DiagnosticCategory.Message, "Type_reference_directive_0_was_successfully_resolved_to_1_primary_Colon_2_6119", "======== Type reference directive '{0}' was successfully resolved to '{1}', primary: {2}. ========"), Type_reference_directive_0_was_not_resolved: diag(6120, ts.DiagnosticCategory.Message, "Type_reference_directive_0_was_not_resolved_6120", "======== Type reference directive '{0}' was not resolved. ========"), Resolving_with_primary_search_path_0: diag(6121, ts.DiagnosticCategory.Message, "Resolving_with_primary_search_path_0_6121", "Resolving with primary search path '{0}'."), Root_directory_cannot_be_determined_skipping_primary_search_paths: diag(6122, ts.DiagnosticCategory.Message, "Root_directory_cannot_be_determined_skipping_primary_search_paths_6122", "Root directory cannot be determined, skipping primary search paths."), Resolving_type_reference_directive_0_containing_file_1_root_directory_not_set: diag(6123, ts.DiagnosticCategory.Message, "Resolving_type_reference_directive_0_containing_file_1_root_directory_not_set_6123", "======== Resolving type reference directive '{0}', containing file '{1}', root directory not set. ========"), Type_declaration_files_to_be_included_in_compilation: diag(6124, ts.DiagnosticCategory.Message, "Type_declaration_files_to_be_included_in_compilation_6124", "Type declaration files to be included in compilation."), Looking_up_in_node_modules_folder_initial_location_0: diag(6125, ts.DiagnosticCategory.Message, "Looking_up_in_node_modules_folder_initial_location_0_6125", "Looking up in 'node_modules' folder, initial location '{0}'."), Containing_file_is_not_specified_and_root_directory_cannot_be_determined_skipping_lookup_in_node_modules_folder: diag(6126, ts.DiagnosticCategory.Message, "Containing_file_is_not_specified_and_root_directory_cannot_be_determined_skipping_lookup_in_node_mod_6126", "Containing file is not specified and root directory cannot be determined, skipping lookup in 'node_modules' folder."), Resolving_type_reference_directive_0_containing_file_not_set_root_directory_1: diag(6127, ts.DiagnosticCategory.Message, "Resolving_type_reference_directive_0_containing_file_not_set_root_directory_1_6127", "======== Resolving type reference directive '{0}', containing file not set, root directory '{1}'. ========"), Resolving_type_reference_directive_0_containing_file_not_set_root_directory_not_set: diag(6128, ts.DiagnosticCategory.Message, "Resolving_type_reference_directive_0_containing_file_not_set_root_directory_not_set_6128", "======== Resolving type reference directive '{0}', containing file not set, root directory not set. ========"), Resolving_real_path_for_0_result_1: diag(6130, ts.DiagnosticCategory.Message, "Resolving_real_path_for_0_result_1_6130", "Resolving real path for '{0}', result '{1}'."), Cannot_compile_modules_using_option_0_unless_the_module_flag_is_amd_or_system: diag(6131, ts.DiagnosticCategory.Error, "Cannot_compile_modules_using_option_0_unless_the_module_flag_is_amd_or_system_6131", "Cannot compile modules using option '{0}' unless the '--module' flag is 'amd' or 'system'."), File_name_0_has_a_1_extension_stripping_it: diag(6132, ts.DiagnosticCategory.Message, "File_name_0_has_a_1_extension_stripping_it_6132", "File name '{0}' has a '{1}' extension - stripping it."), _0_is_declared_but_its_value_is_never_read: diag(6133, ts.DiagnosticCategory.Error, "_0_is_declared_but_its_value_is_never_read_6133", "'{0}' is declared but its value is never read.", /*reportsUnnecessary*/ true), Report_errors_on_unused_locals: diag(6134, ts.DiagnosticCategory.Message, "Report_errors_on_unused_locals_6134", "Report errors on unused locals."), Report_errors_on_unused_parameters: diag(6135, ts.DiagnosticCategory.Message, "Report_errors_on_unused_parameters_6135", "Report errors on unused parameters."), The_maximum_dependency_depth_to_search_under_node_modules_and_load_JavaScript_files: diag(6136, ts.DiagnosticCategory.Message, "The_maximum_dependency_depth_to_search_under_node_modules_and_load_JavaScript_files_6136", "The maximum dependency depth to search under node_modules and load JavaScript files."), Cannot_import_type_declaration_files_Consider_importing_0_instead_of_1: diag(6137, ts.DiagnosticCategory.Error, "Cannot_import_type_declaration_files_Consider_importing_0_instead_of_1_6137", "Cannot import type declaration files. Consider importing '{0}' instead of '{1}'."), Property_0_is_declared_but_its_value_is_never_read: diag(6138, ts.DiagnosticCategory.Error, "Property_0_is_declared_but_its_value_is_never_read_6138", "Property '{0}' is declared but its value is never read.", /*reportsUnnecessary*/ true), Import_emit_helpers_from_tslib: diag(6139, ts.DiagnosticCategory.Message, "Import_emit_helpers_from_tslib_6139", "Import emit helpers from 'tslib'."), Auto_discovery_for_typings_is_enabled_in_project_0_Running_extra_resolution_pass_for_module_1_using_cache_location_2: diag(6140, ts.DiagnosticCategory.Error, "Auto_discovery_for_typings_is_enabled_in_project_0_Running_extra_resolution_pass_for_module_1_using__6140", "Auto discovery for typings is enabled in project '{0}'. Running extra resolution pass for module '{1}' using cache location '{2}'."), Parse_in_strict_mode_and_emit_use_strict_for_each_source_file: diag(6141, ts.DiagnosticCategory.Message, "Parse_in_strict_mode_and_emit_use_strict_for_each_source_file_6141", "Parse in strict mode and emit \"use strict\" for each source file."), Module_0_was_resolved_to_1_but_jsx_is_not_set: diag(6142, ts.DiagnosticCategory.Error, "Module_0_was_resolved_to_1_but_jsx_is_not_set_6142", "Module '{0}' was resolved to '{1}', but '--jsx' is not set."), Module_0_was_resolved_as_locally_declared_ambient_module_in_file_1: diag(6144, ts.DiagnosticCategory.Message, "Module_0_was_resolved_as_locally_declared_ambient_module_in_file_1_6144", "Module '{0}' was resolved as locally declared ambient module in file '{1}'."), Module_0_was_resolved_as_ambient_module_declared_in_1_since_this_file_was_not_modified: diag(6145, ts.DiagnosticCategory.Message, "Module_0_was_resolved_as_ambient_module_declared_in_1_since_this_file_was_not_modified_6145", "Module '{0}' was resolved as ambient module declared in '{1}' since this file was not modified."), Specify_the_JSX_factory_function_to_use_when_targeting_react_JSX_emit_e_g_React_createElement_or_h: diag(6146, ts.DiagnosticCategory.Message, "Specify_the_JSX_factory_function_to_use_when_targeting_react_JSX_emit_e_g_React_createElement_or_h_6146", "Specify the JSX factory function to use when targeting 'react' JSX emit, e.g. 'React.createElement' or 'h'."), Resolution_for_module_0_was_found_in_cache_from_location_1: diag(6147, ts.DiagnosticCategory.Message, "Resolution_for_module_0_was_found_in_cache_from_location_1_6147", "Resolution for module '{0}' was found in cache from location '{1}'."), Directory_0_does_not_exist_skipping_all_lookups_in_it: diag(6148, ts.DiagnosticCategory.Message, "Directory_0_does_not_exist_skipping_all_lookups_in_it_6148", "Directory '{0}' does not exist, skipping all lookups in it."), Show_diagnostic_information: diag(6149, ts.DiagnosticCategory.Message, "Show_diagnostic_information_6149", "Show diagnostic information."), Show_verbose_diagnostic_information: diag(6150, ts.DiagnosticCategory.Message, "Show_verbose_diagnostic_information_6150", "Show verbose diagnostic information."), Emit_a_single_file_with_source_maps_instead_of_having_a_separate_file: diag(6151, ts.DiagnosticCategory.Message, "Emit_a_single_file_with_source_maps_instead_of_having_a_separate_file_6151", "Emit a single file with source maps instead of having a separate file."), Emit_the_source_alongside_the_sourcemaps_within_a_single_file_requires_inlineSourceMap_or_sourceMap_to_be_set: diag(6152, ts.DiagnosticCategory.Message, "Emit_the_source_alongside_the_sourcemaps_within_a_single_file_requires_inlineSourceMap_or_sourceMap__6152", "Emit the source alongside the sourcemaps within a single file; requires '--inlineSourceMap' or '--sourceMap' to be set."), Transpile_each_file_as_a_separate_module_similar_to_ts_transpileModule: diag(6153, ts.DiagnosticCategory.Message, "Transpile_each_file_as_a_separate_module_similar_to_ts_transpileModule_6153", "Transpile each file as a separate module (similar to 'ts.transpileModule')."), Print_names_of_generated_files_part_of_the_compilation: diag(6154, ts.DiagnosticCategory.Message, "Print_names_of_generated_files_part_of_the_compilation_6154", "Print names of generated files part of the compilation."), Print_names_of_files_part_of_the_compilation: diag(6155, ts.DiagnosticCategory.Message, "Print_names_of_files_part_of_the_compilation_6155", "Print names of files part of the compilation."), The_locale_used_when_displaying_messages_to_the_user_e_g_en_us: diag(6156, ts.DiagnosticCategory.Message, "The_locale_used_when_displaying_messages_to_the_user_e_g_en_us_6156", "The locale used when displaying messages to the user (e.g. 'en-us')"), Do_not_generate_custom_helper_functions_like_extends_in_compiled_output: diag(6157, ts.DiagnosticCategory.Message, "Do_not_generate_custom_helper_functions_like_extends_in_compiled_output_6157", "Do not generate custom helper functions like '__extends' in compiled output."), Do_not_include_the_default_library_file_lib_d_ts: diag(6158, ts.DiagnosticCategory.Message, "Do_not_include_the_default_library_file_lib_d_ts_6158", "Do not include the default library file (lib.d.ts)."), Do_not_add_triple_slash_references_or_imported_modules_to_the_list_of_compiled_files: diag(6159, ts.DiagnosticCategory.Message, "Do_not_add_triple_slash_references_or_imported_modules_to_the_list_of_compiled_files_6159", "Do not add triple-slash references or imported modules to the list of compiled files."), Deprecated_Use_skipLibCheck_instead_Skip_type_checking_of_default_library_declaration_files: diag(6160, ts.DiagnosticCategory.Message, "Deprecated_Use_skipLibCheck_instead_Skip_type_checking_of_default_library_declaration_files_6160", "[Deprecated] Use '--skipLibCheck' instead. Skip type checking of default library declaration files."), List_of_folders_to_include_type_definitions_from: diag(6161, ts.DiagnosticCategory.Message, "List_of_folders_to_include_type_definitions_from_6161", "List of folders to include type definitions from."), Disable_size_limitations_on_JavaScript_projects: diag(6162, ts.DiagnosticCategory.Message, "Disable_size_limitations_on_JavaScript_projects_6162", "Disable size limitations on JavaScript projects."), The_character_set_of_the_input_files: diag(6163, ts.DiagnosticCategory.Message, "The_character_set_of_the_input_files_6163", "The character set of the input files."), Emit_a_UTF_8_Byte_Order_Mark_BOM_in_the_beginning_of_output_files: diag(6164, ts.DiagnosticCategory.Message, "Emit_a_UTF_8_Byte_Order_Mark_BOM_in_the_beginning_of_output_files_6164", "Emit a UTF-8 Byte Order Mark (BOM) in the beginning of output files."), Do_not_truncate_error_messages: diag(6165, ts.DiagnosticCategory.Message, "Do_not_truncate_error_messages_6165", "Do not truncate error messages."), Output_directory_for_generated_declaration_files: diag(6166, ts.DiagnosticCategory.Message, "Output_directory_for_generated_declaration_files_6166", "Output directory for generated declaration files."), A_series_of_entries_which_re_map_imports_to_lookup_locations_relative_to_the_baseUrl: diag(6167, ts.DiagnosticCategory.Message, "A_series_of_entries_which_re_map_imports_to_lookup_locations_relative_to_the_baseUrl_6167", "A series of entries which re-map imports to lookup locations relative to the 'baseUrl'."), List_of_root_folders_whose_combined_content_represents_the_structure_of_the_project_at_runtime: diag(6168, ts.DiagnosticCategory.Message, "List_of_root_folders_whose_combined_content_represents_the_structure_of_the_project_at_runtime_6168", "List of root folders whose combined content represents the structure of the project at runtime."), Show_all_compiler_options: diag(6169, ts.DiagnosticCategory.Message, "Show_all_compiler_options_6169", "Show all compiler options."), Deprecated_Use_outFile_instead_Concatenate_and_emit_output_to_single_file: diag(6170, ts.DiagnosticCategory.Message, "Deprecated_Use_outFile_instead_Concatenate_and_emit_output_to_single_file_6170", "[Deprecated] Use '--outFile' instead. Concatenate and emit output to single file"), Command_line_Options: diag(6171, ts.DiagnosticCategory.Message, "Command_line_Options_6171", "Command-line Options"), Basic_Options: diag(6172, ts.DiagnosticCategory.Message, "Basic_Options_6172", "Basic Options"), Strict_Type_Checking_Options: diag(6173, ts.DiagnosticCategory.Message, "Strict_Type_Checking_Options_6173", "Strict Type-Checking Options"), Module_Resolution_Options: diag(6174, ts.DiagnosticCategory.Message, "Module_Resolution_Options_6174", "Module Resolution Options"), Source_Map_Options: diag(6175, ts.DiagnosticCategory.Message, "Source_Map_Options_6175", "Source Map Options"), Additional_Checks: diag(6176, ts.DiagnosticCategory.Message, "Additional_Checks_6176", "Additional Checks"), Experimental_Options: diag(6177, ts.DiagnosticCategory.Message, "Experimental_Options_6177", "Experimental Options"), Advanced_Options: diag(6178, ts.DiagnosticCategory.Message, "Advanced_Options_6178", "Advanced Options"), Provide_full_support_for_iterables_in_for_of_spread_and_destructuring_when_targeting_ES5_or_ES3: diag(6179, ts.DiagnosticCategory.Message, "Provide_full_support_for_iterables_in_for_of_spread_and_destructuring_when_targeting_ES5_or_ES3_6179", "Provide full support for iterables in 'for-of', spread, and destructuring when targeting 'ES5' or 'ES3'."), Enable_all_strict_type_checking_options: diag(6180, ts.DiagnosticCategory.Message, "Enable_all_strict_type_checking_options_6180", "Enable all strict type-checking options."), List_of_language_service_plugins: diag(6181, ts.DiagnosticCategory.Message, "List_of_language_service_plugins_6181", "List of language service plugins."), Scoped_package_detected_looking_in_0: diag(6182, ts.DiagnosticCategory.Message, "Scoped_package_detected_looking_in_0_6182", "Scoped package detected, looking in '{0}'"), Reusing_resolution_of_module_0_to_file_1_from_old_program: diag(6183, ts.DiagnosticCategory.Message, "Reusing_resolution_of_module_0_to_file_1_from_old_program_6183", "Reusing resolution of module '{0}' to file '{1}' from old program."), Reusing_module_resolutions_originating_in_0_since_resolutions_are_unchanged_from_old_program: diag(6184, ts.DiagnosticCategory.Message, "Reusing_module_resolutions_originating_in_0_since_resolutions_are_unchanged_from_old_program_6184", "Reusing module resolutions originating in '{0}' since resolutions are unchanged from old program."), Disable_strict_checking_of_generic_signatures_in_function_types: diag(6185, ts.DiagnosticCategory.Message, "Disable_strict_checking_of_generic_signatures_in_function_types_6185", "Disable strict checking of generic signatures in function types."), Enable_strict_checking_of_function_types: diag(6186, ts.DiagnosticCategory.Message, "Enable_strict_checking_of_function_types_6186", "Enable strict checking of function types."), Enable_strict_checking_of_property_initialization_in_classes: diag(6187, ts.DiagnosticCategory.Message, "Enable_strict_checking_of_property_initialization_in_classes_6187", "Enable strict checking of property initialization in classes."), Numeric_separators_are_not_allowed_here: diag(6188, ts.DiagnosticCategory.Error, "Numeric_separators_are_not_allowed_here_6188", "Numeric separators are not allowed here."), Multiple_consecutive_numeric_separators_are_not_permitted: diag(6189, ts.DiagnosticCategory.Error, "Multiple_consecutive_numeric_separators_are_not_permitted_6189", "Multiple consecutive numeric separators are not permitted."), Whether_to_keep_outdated_console_output_in_watch_mode_instead_of_clearing_the_screen: diag(6191, ts.DiagnosticCategory.Message, "Whether_to_keep_outdated_console_output_in_watch_mode_instead_of_clearing_the_screen_6191", "Whether to keep outdated console output in watch mode instead of clearing the screen."), All_imports_in_import_declaration_are_unused: diag(6192, ts.DiagnosticCategory.Error, "All_imports_in_import_declaration_are_unused_6192", "All imports in import declaration are unused.", /*reportsUnnecessary*/ true), Found_1_error_Watching_for_file_changes: diag(6193, ts.DiagnosticCategory.Message, "Found_1_error_Watching_for_file_changes_6193", "Found 1 error. Watching for file changes."), Found_0_errors_Watching_for_file_changes: diag(6194, ts.DiagnosticCategory.Message, "Found_0_errors_Watching_for_file_changes_6194", "Found {0} errors. Watching for file changes."), Resolve_keyof_to_string_valued_property_names_only_no_numbers_or_symbols: diag(6195, ts.DiagnosticCategory.Message, "Resolve_keyof_to_string_valued_property_names_only_no_numbers_or_symbols_6195", "Resolve 'keyof' to string valued property names only (no numbers or symbols)."), _0_is_declared_but_never_used: diag(6196, ts.DiagnosticCategory.Error, "_0_is_declared_but_never_used_6196", "'{0}' is declared but never used.", /*reportsUnnecessary*/ true), Include_modules_imported_with_json_extension: diag(6197, ts.DiagnosticCategory.Message, "Include_modules_imported_with_json_extension_6197", "Include modules imported with '.json' extension"), All_destructured_elements_are_unused: diag(6198, ts.DiagnosticCategory.Error, "All_destructured_elements_are_unused_6198", "All destructured elements are unused.", /*reportsUnnecessary*/ true), All_variables_are_unused: diag(6199, ts.DiagnosticCategory.Error, "All_variables_are_unused_6199", "All variables are unused.", /*reportsUnnecessary*/ true), Definitions_of_the_following_identifiers_conflict_with_those_in_another_file_Colon_0: diag(6200, ts.DiagnosticCategory.Error, "Definitions_of_the_following_identifiers_conflict_with_those_in_another_file_Colon_0_6200", "Definitions of the following identifiers conflict with those in another file: {0}"), Conflicts_are_in_this_file: diag(6201, ts.DiagnosticCategory.Message, "Conflicts_are_in_this_file_6201", "Conflicts are in this file."), Project_references_may_not_form_a_circular_graph_Cycle_detected_Colon_0: diag(6202, ts.DiagnosticCategory.Error, "Project_references_may_not_form_a_circular_graph_Cycle_detected_Colon_0_6202", "Project references may not form a circular graph. Cycle detected: {0}"), _0_was_also_declared_here: diag(6203, ts.DiagnosticCategory.Message, "_0_was_also_declared_here_6203", "'{0}' was also declared here."), and_here: diag(6204, ts.DiagnosticCategory.Message, "and_here_6204", "and here."), All_type_parameters_are_unused: diag(6205, ts.DiagnosticCategory.Error, "All_type_parameters_are_unused_6205", "All type parameters are unused"), package_json_has_a_typesVersions_field_with_version_specific_path_mappings: diag(6206, ts.DiagnosticCategory.Message, "package_json_has_a_typesVersions_field_with_version_specific_path_mappings_6206", "'package.json' has a 'typesVersions' field with version-specific path mappings."), package_json_does_not_have_a_typesVersions_entry_that_matches_version_0: diag(6207, ts.DiagnosticCategory.Message, "package_json_does_not_have_a_typesVersions_entry_that_matches_version_0_6207", "'package.json' does not have a 'typesVersions' entry that matches version '{0}'."), package_json_has_a_typesVersions_entry_0_that_matches_compiler_version_1_looking_for_a_pattern_to_match_module_name_2: diag(6208, ts.DiagnosticCategory.Message, "package_json_has_a_typesVersions_entry_0_that_matches_compiler_version_1_looking_for_a_pattern_to_ma_6208", "'package.json' has a 'typesVersions' entry '{0}' that matches compiler version '{1}', looking for a pattern to match module name '{2}'."), package_json_has_a_typesVersions_entry_0_that_is_not_a_valid_semver_range: diag(6209, ts.DiagnosticCategory.Message, "package_json_has_a_typesVersions_entry_0_that_is_not_a_valid_semver_range_6209", "'package.json' has a 'typesVersions' entry '{0}' that is not a valid semver range."), An_argument_for_0_was_not_provided: diag(6210, ts.DiagnosticCategory.Message, "An_argument_for_0_was_not_provided_6210", "An argument for '{0}' was not provided."), An_argument_matching_this_binding_pattern_was_not_provided: diag(6211, ts.DiagnosticCategory.Message, "An_argument_matching_this_binding_pattern_was_not_provided_6211", "An argument matching this binding pattern was not provided."), Did_you_mean_to_call_this_expression: diag(6212, ts.DiagnosticCategory.Message, "Did_you_mean_to_call_this_expression_6212", "Did you mean to call this expression?"), Did_you_mean_to_use_new_with_this_expression: diag(6213, ts.DiagnosticCategory.Message, "Did_you_mean_to_use_new_with_this_expression_6213", "Did you mean to use 'new' with this expression?"), Enable_strict_bind_call_and_apply_methods_on_functions: diag(6214, ts.DiagnosticCategory.Message, "Enable_strict_bind_call_and_apply_methods_on_functions_6214", "Enable strict 'bind', 'call', and 'apply' methods on functions."), Using_compiler_options_of_project_reference_redirect_0: diag(6215, ts.DiagnosticCategory.Message, "Using_compiler_options_of_project_reference_redirect_0_6215", "Using compiler options of project reference redirect '{0}'."), Found_1_error: diag(6216, ts.DiagnosticCategory.Message, "Found_1_error_6216", "Found 1 error."), Found_0_errors: diag(6217, ts.DiagnosticCategory.Message, "Found_0_errors_6217", "Found {0} errors."), Module_name_0_was_successfully_resolved_to_1_with_Package_ID_2: diag(6218, ts.DiagnosticCategory.Message, "Module_name_0_was_successfully_resolved_to_1_with_Package_ID_2_6218", "======== Module name '{0}' was successfully resolved to '{1}' with Package ID '{2}'. ========"), Type_reference_directive_0_was_successfully_resolved_to_1_with_Package_ID_2_primary_Colon_3: diag(6219, ts.DiagnosticCategory.Message, "Type_reference_directive_0_was_successfully_resolved_to_1_with_Package_ID_2_primary_Colon_3_6219", "======== Type reference directive '{0}' was successfully resolved to '{1}' with Package ID '{2}', primary: {3}. ========"), package_json_had_a_falsy_0_field: diag(6220, ts.DiagnosticCategory.Message, "package_json_had_a_falsy_0_field_6220", "'package.json' had a falsy '{0}' field."), Disable_use_of_source_files_instead_of_declaration_files_from_referenced_projects: diag(6221, ts.DiagnosticCategory.Message, "Disable_use_of_source_files_instead_of_declaration_files_from_referenced_projects_6221", "Disable use of source files instead of declaration files from referenced projects."), Emit_class_fields_with_Define_instead_of_Set: diag(6222, ts.DiagnosticCategory.Message, "Emit_class_fields_with_Define_instead_of_Set_6222", "Emit class fields with Define instead of Set."), Generates_a_CPU_profile: diag(6223, ts.DiagnosticCategory.Message, "Generates_a_CPU_profile_6223", "Generates a CPU profile."), Disable_solution_searching_for_this_project: diag(6224, ts.DiagnosticCategory.Message, "Disable_solution_searching_for_this_project_6224", "Disable solution searching for this project."), Specify_strategy_for_watching_file_Colon_FixedPollingInterval_default_PriorityPollingInterval_DynamicPriorityPolling_UseFsEvents_UseFsEventsOnParentDirectory: diag(6225, ts.DiagnosticCategory.Message, "Specify_strategy_for_watching_file_Colon_FixedPollingInterval_default_PriorityPollingInterval_Dynami_6225", "Specify strategy for watching file: 'FixedPollingInterval' (default), 'PriorityPollingInterval', 'DynamicPriorityPolling', 'UseFsEvents', 'UseFsEventsOnParentDirectory'."), Specify_strategy_for_watching_directory_on_platforms_that_don_t_support_recursive_watching_natively_Colon_UseFsEvents_default_FixedPollingInterval_DynamicPriorityPolling: diag(6226, ts.DiagnosticCategory.Message, "Specify_strategy_for_watching_directory_on_platforms_that_don_t_support_recursive_watching_natively__6226", "Specify strategy for watching directory on platforms that don't support recursive watching natively: 'UseFsEvents' (default), 'FixedPollingInterval', 'DynamicPriorityPolling'."), Specify_strategy_for_creating_a_polling_watch_when_it_fails_to_create_using_file_system_events_Colon_FixedInterval_default_PriorityInterval_DynamicPriority: diag(6227, ts.DiagnosticCategory.Message, "Specify_strategy_for_creating_a_polling_watch_when_it_fails_to_create_using_file_system_events_Colon_6227", "Specify strategy for creating a polling watch when it fails to create using file system events: 'FixedInterval' (default), 'PriorityInterval', 'DynamicPriority'."), Synchronously_call_callbacks_and_update_the_state_of_directory_watchers_on_platforms_that_don_t_support_recursive_watching_natively: diag(6228, ts.DiagnosticCategory.Message, "Synchronously_call_callbacks_and_update_the_state_of_directory_watchers_on_platforms_that_don_t_supp_6228", "Synchronously call callbacks and update the state of directory watchers on platforms that don't support recursive watching natively."), Tag_0_expects_at_least_1_arguments_but_the_JSX_factory_2_provides_at_most_3: diag(6229, ts.DiagnosticCategory.Error, "Tag_0_expects_at_least_1_arguments_but_the_JSX_factory_2_provides_at_most_3_6229", "Tag '{0}' expects at least '{1}' arguments, but the JSX factory '{2}' provides at most '{3}'."), Option_0_can_only_be_specified_in_tsconfig_json_file_or_set_to_false_or_null_on_command_line: diag(6230, ts.DiagnosticCategory.Error, "Option_0_can_only_be_specified_in_tsconfig_json_file_or_set_to_false_or_null_on_command_line_6230", "Option '{0}' can only be specified in 'tsconfig.json' file or set to 'false' or 'null' on command line."), Could_not_resolve_the_path_0_with_the_extensions_Colon_1: diag(6231, ts.DiagnosticCategory.Error, "Could_not_resolve_the_path_0_with_the_extensions_Colon_1_6231", "Could not resolve the path '{0}' with the extensions: {1}."), Declaration_augments_declaration_in_another_file_This_cannot_be_serialized: diag(6232, ts.DiagnosticCategory.Error, "Declaration_augments_declaration_in_another_file_This_cannot_be_serialized_6232", "Declaration augments declaration in another file. This cannot be serialized."), This_is_the_declaration_being_augmented_Consider_moving_the_augmenting_declaration_into_the_same_file: diag(6233, ts.DiagnosticCategory.Error, "This_is_the_declaration_being_augmented_Consider_moving_the_augmenting_declaration_into_the_same_fil_6233", "This is the declaration being augmented. Consider moving the augmenting declaration into the same file."), Projects_to_reference: diag(6300, ts.DiagnosticCategory.Message, "Projects_to_reference_6300", "Projects to reference"), Enable_project_compilation: diag(6302, ts.DiagnosticCategory.Message, "Enable_project_compilation_6302", "Enable project compilation"), Composite_projects_may_not_disable_declaration_emit: diag(6304, ts.DiagnosticCategory.Error, "Composite_projects_may_not_disable_declaration_emit_6304", "Composite projects may not disable declaration emit."), Output_file_0_has_not_been_built_from_source_file_1: diag(6305, ts.DiagnosticCategory.Error, "Output_file_0_has_not_been_built_from_source_file_1_6305", "Output file '{0}' has not been built from source file '{1}'."), Referenced_project_0_must_have_setting_composite_Colon_true: diag(6306, ts.DiagnosticCategory.Error, "Referenced_project_0_must_have_setting_composite_Colon_true_6306", "Referenced project '{0}' must have setting \"composite\": true."), File_0_is_not_listed_within_the_file_list_of_project_1_Projects_must_list_all_files_or_use_an_include_pattern: diag(6307, ts.DiagnosticCategory.Error, "File_0_is_not_listed_within_the_file_list_of_project_1_Projects_must_list_all_files_or_use_an_includ_6307", "File '{0}' is not listed within the file list of project '{1}'. Projects must list all files or use an 'include' pattern."), Cannot_prepend_project_0_because_it_does_not_have_outFile_set: diag(6308, ts.DiagnosticCategory.Error, "Cannot_prepend_project_0_because_it_does_not_have_outFile_set_6308", "Cannot prepend project '{0}' because it does not have 'outFile' set"), Output_file_0_from_project_1_does_not_exist: diag(6309, ts.DiagnosticCategory.Error, "Output_file_0_from_project_1_does_not_exist_6309", "Output file '{0}' from project '{1}' does not exist"), Project_0_is_out_of_date_because_oldest_output_1_is_older_than_newest_input_2: diag(6350, ts.DiagnosticCategory.Message, "Project_0_is_out_of_date_because_oldest_output_1_is_older_than_newest_input_2_6350", "Project '{0}' is out of date because oldest output '{1}' is older than newest input '{2}'"), Project_0_is_up_to_date_because_newest_input_1_is_older_than_oldest_output_2: diag(6351, ts.DiagnosticCategory.Message, "Project_0_is_up_to_date_because_newest_input_1_is_older_than_oldest_output_2_6351", "Project '{0}' is up to date because newest input '{1}' is older than oldest output '{2}'"), Project_0_is_out_of_date_because_output_file_1_does_not_exist: diag(6352, ts.DiagnosticCategory.Message, "Project_0_is_out_of_date_because_output_file_1_does_not_exist_6352", "Project '{0}' is out of date because output file '{1}' does not exist"), Project_0_is_out_of_date_because_its_dependency_1_is_out_of_date: diag(6353, ts.DiagnosticCategory.Message, "Project_0_is_out_of_date_because_its_dependency_1_is_out_of_date_6353", "Project '{0}' is out of date because its dependency '{1}' is out of date"), Project_0_is_up_to_date_with_d_ts_files_from_its_dependencies: diag(6354, ts.DiagnosticCategory.Message, "Project_0_is_up_to_date_with_d_ts_files_from_its_dependencies_6354", "Project '{0}' is up to date with .d.ts files from its dependencies"), Projects_in_this_build_Colon_0: diag(6355, ts.DiagnosticCategory.Message, "Projects_in_this_build_Colon_0_6355", "Projects in this build: {0}"), A_non_dry_build_would_delete_the_following_files_Colon_0: diag(6356, ts.DiagnosticCategory.Message, "A_non_dry_build_would_delete_the_following_files_Colon_0_6356", "A non-dry build would delete the following files: {0}"), A_non_dry_build_would_build_project_0: diag(6357, ts.DiagnosticCategory.Message, "A_non_dry_build_would_build_project_0_6357", "A non-dry build would build project '{0}'"), Building_project_0: diag(6358, ts.DiagnosticCategory.Message, "Building_project_0_6358", "Building project '{0}'..."), Updating_output_timestamps_of_project_0: diag(6359, ts.DiagnosticCategory.Message, "Updating_output_timestamps_of_project_0_6359", "Updating output timestamps of project '{0}'..."), delete_this_Project_0_is_up_to_date_because_it_was_previously_built: diag(6360, ts.DiagnosticCategory.Message, "delete_this_Project_0_is_up_to_date_because_it_was_previously_built_6360", "delete this - Project '{0}' is up to date because it was previously built"), Project_0_is_up_to_date: diag(6361, ts.DiagnosticCategory.Message, "Project_0_is_up_to_date_6361", "Project '{0}' is up to date"), Skipping_build_of_project_0_because_its_dependency_1_has_errors: diag(6362, ts.DiagnosticCategory.Message, "Skipping_build_of_project_0_because_its_dependency_1_has_errors_6362", "Skipping build of project '{0}' because its dependency '{1}' has errors"), Project_0_can_t_be_built_because_its_dependency_1_has_errors: diag(6363, ts.DiagnosticCategory.Message, "Project_0_can_t_be_built_because_its_dependency_1_has_errors_6363", "Project '{0}' can't be built because its dependency '{1}' has errors"), Build_one_or_more_projects_and_their_dependencies_if_out_of_date: diag(6364, ts.DiagnosticCategory.Message, "Build_one_or_more_projects_and_their_dependencies_if_out_of_date_6364", "Build one or more projects and their dependencies, if out of date"), Delete_the_outputs_of_all_projects: diag(6365, ts.DiagnosticCategory.Message, "Delete_the_outputs_of_all_projects_6365", "Delete the outputs of all projects"), Enable_verbose_logging: diag(6366, ts.DiagnosticCategory.Message, "Enable_verbose_logging_6366", "Enable verbose logging"), Show_what_would_be_built_or_deleted_if_specified_with_clean: diag(6367, ts.DiagnosticCategory.Message, "Show_what_would_be_built_or_deleted_if_specified_with_clean_6367", "Show what would be built (or deleted, if specified with '--clean')"), Build_all_projects_including_those_that_appear_to_be_up_to_date: diag(6368, ts.DiagnosticCategory.Message, "Build_all_projects_including_those_that_appear_to_be_up_to_date_6368", "Build all projects, including those that appear to be up to date"), Option_build_must_be_the_first_command_line_argument: diag(6369, ts.DiagnosticCategory.Error, "Option_build_must_be_the_first_command_line_argument_6369", "Option '--build' must be the first command line argument."), Options_0_and_1_cannot_be_combined: diag(6370, ts.DiagnosticCategory.Error, "Options_0_and_1_cannot_be_combined_6370", "Options '{0}' and '{1}' cannot be combined."), Updating_unchanged_output_timestamps_of_project_0: diag(6371, ts.DiagnosticCategory.Message, "Updating_unchanged_output_timestamps_of_project_0_6371", "Updating unchanged output timestamps of project '{0}'..."), Project_0_is_out_of_date_because_output_of_its_dependency_1_has_changed: diag(6372, ts.DiagnosticCategory.Message, "Project_0_is_out_of_date_because_output_of_its_dependency_1_has_changed_6372", "Project '{0}' is out of date because output of its dependency '{1}' has changed"), Updating_output_of_project_0: diag(6373, ts.DiagnosticCategory.Message, "Updating_output_of_project_0_6373", "Updating output of project '{0}'..."), A_non_dry_build_would_update_timestamps_for_output_of_project_0: diag(6374, ts.DiagnosticCategory.Message, "A_non_dry_build_would_update_timestamps_for_output_of_project_0_6374", "A non-dry build would update timestamps for output of project '{0}'"), A_non_dry_build_would_update_output_of_project_0: diag(6375, ts.DiagnosticCategory.Message, "A_non_dry_build_would_update_output_of_project_0_6375", "A non-dry build would update output of project '{0}'"), Cannot_update_output_of_project_0_because_there_was_error_reading_file_1: diag(6376, ts.DiagnosticCategory.Message, "Cannot_update_output_of_project_0_because_there_was_error_reading_file_1_6376", "Cannot update output of project '{0}' because there was error reading file '{1}'"), Cannot_write_file_0_because_it_will_overwrite_tsbuildinfo_file_generated_by_referenced_project_1: diag(6377, ts.DiagnosticCategory.Error, "Cannot_write_file_0_because_it_will_overwrite_tsbuildinfo_file_generated_by_referenced_project_1_6377", "Cannot write file '{0}' because it will overwrite '.tsbuildinfo' file generated by referenced project '{1}'"), Enable_incremental_compilation: diag(6378, ts.DiagnosticCategory.Message, "Enable_incremental_compilation_6378", "Enable incremental compilation"), Composite_projects_may_not_disable_incremental_compilation: diag(6379, ts.DiagnosticCategory.Error, "Composite_projects_may_not_disable_incremental_compilation_6379", "Composite projects may not disable incremental compilation."), Specify_file_to_store_incremental_compilation_information: diag(6380, ts.DiagnosticCategory.Message, "Specify_file_to_store_incremental_compilation_information_6380", "Specify file to store incremental compilation information"), Project_0_is_out_of_date_because_output_for_it_was_generated_with_version_1_that_differs_with_current_version_2: diag(6381, ts.DiagnosticCategory.Message, "Project_0_is_out_of_date_because_output_for_it_was_generated_with_version_1_that_differs_with_curren_6381", "Project '{0}' is out of date because output for it was generated with version '{1}' that differs with current version '{2}'"), Skipping_build_of_project_0_because_its_dependency_1_was_not_built: diag(6382, ts.DiagnosticCategory.Message, "Skipping_build_of_project_0_because_its_dependency_1_was_not_built_6382", "Skipping build of project '{0}' because its dependency '{1}' was not built"), Project_0_can_t_be_built_because_its_dependency_1_was_not_built: diag(6383, ts.DiagnosticCategory.Message, "Project_0_can_t_be_built_because_its_dependency_1_was_not_built_6383", "Project '{0}' can't be built because its dependency '{1}' was not built"), Have_recompiles_in_incremental_and_watch_assume_that_changes_within_a_file_will_only_affect_files_directly_depending_on_it: diag(6384, ts.DiagnosticCategory.Message, "Have_recompiles_in_incremental_and_watch_assume_that_changes_within_a_file_will_only_affect_files_di_6384", "Have recompiles in '--incremental' and '--watch' assume that changes within a file will only affect files directly depending on it."), The_expected_type_comes_from_property_0_which_is_declared_here_on_type_1: diag(6500, ts.DiagnosticCategory.Message, "The_expected_type_comes_from_property_0_which_is_declared_here_on_type_1_6500", "The expected type comes from property '{0}' which is declared here on type '{1}'"), The_expected_type_comes_from_this_index_signature: diag(6501, ts.DiagnosticCategory.Message, "The_expected_type_comes_from_this_index_signature_6501", "The expected type comes from this index signature."), The_expected_type_comes_from_the_return_type_of_this_signature: diag(6502, ts.DiagnosticCategory.Message, "The_expected_type_comes_from_the_return_type_of_this_signature_6502", "The expected type comes from the return type of this signature."), Print_names_of_files_that_are_part_of_the_compilation_and_then_stop_processing: diag(6503, ts.DiagnosticCategory.Message, "Print_names_of_files_that_are_part_of_the_compilation_and_then_stop_processing_6503", "Print names of files that are part of the compilation and then stop processing."), File_0_is_a_JavaScript_file_Did_you_mean_to_enable_the_allowJs_option: diag(6504, ts.DiagnosticCategory.Error, "File_0_is_a_JavaScript_file_Did_you_mean_to_enable_the_allowJs_option_6504", "File '{0}' is a JavaScript file. Did you mean to enable the 'allowJs' option?"), Variable_0_implicitly_has_an_1_type: diag(7005, ts.DiagnosticCategory.Error, "Variable_0_implicitly_has_an_1_type_7005", "Variable '{0}' implicitly has an '{1}' type."), Parameter_0_implicitly_has_an_1_type: diag(7006, ts.DiagnosticCategory.Error, "Parameter_0_implicitly_has_an_1_type_7006", "Parameter '{0}' implicitly has an '{1}' type."), Member_0_implicitly_has_an_1_type: diag(7008, ts.DiagnosticCategory.Error, "Member_0_implicitly_has_an_1_type_7008", "Member '{0}' implicitly has an '{1}' type."), new_expression_whose_target_lacks_a_construct_signature_implicitly_has_an_any_type: diag(7009, ts.DiagnosticCategory.Error, "new_expression_whose_target_lacks_a_construct_signature_implicitly_has_an_any_type_7009", "'new' expression, whose target lacks a construct signature, implicitly has an 'any' type."), _0_which_lacks_return_type_annotation_implicitly_has_an_1_return_type: diag(7010, ts.DiagnosticCategory.Error, "_0_which_lacks_return_type_annotation_implicitly_has_an_1_return_type_7010", "'{0}', which lacks return-type annotation, implicitly has an '{1}' return type."), Function_expression_which_lacks_return_type_annotation_implicitly_has_an_0_return_type: diag(7011, ts.DiagnosticCategory.Error, "Function_expression_which_lacks_return_type_annotation_implicitly_has_an_0_return_type_7011", "Function expression, which lacks return-type annotation, implicitly has an '{0}' return type."), Construct_signature_which_lacks_return_type_annotation_implicitly_has_an_any_return_type: diag(7013, ts.DiagnosticCategory.Error, "Construct_signature_which_lacks_return_type_annotation_implicitly_has_an_any_return_type_7013", "Construct signature, which lacks return-type annotation, implicitly has an 'any' return type."), Function_type_which_lacks_return_type_annotation_implicitly_has_an_0_return_type: diag(7014, ts.DiagnosticCategory.Error, "Function_type_which_lacks_return_type_annotation_implicitly_has_an_0_return_type_7014", "Function type, which lacks return-type annotation, implicitly has an '{0}' return type."), Element_implicitly_has_an_any_type_because_index_expression_is_not_of_type_number: diag(7015, ts.DiagnosticCategory.Error, "Element_implicitly_has_an_any_type_because_index_expression_is_not_of_type_number_7015", "Element implicitly has an 'any' type because index expression is not of type 'number'."), Could_not_find_a_declaration_file_for_module_0_1_implicitly_has_an_any_type: diag(7016, ts.DiagnosticCategory.Error, "Could_not_find_a_declaration_file_for_module_0_1_implicitly_has_an_any_type_7016", "Could not find a declaration file for module '{0}'. '{1}' implicitly has an 'any' type."), Element_implicitly_has_an_any_type_because_type_0_has_no_index_signature: diag(7017, ts.DiagnosticCategory.Error, "Element_implicitly_has_an_any_type_because_type_0_has_no_index_signature_7017", "Element implicitly has an 'any' type because type '{0}' has no index signature."), Object_literal_s_property_0_implicitly_has_an_1_type: diag(7018, ts.DiagnosticCategory.Error, "Object_literal_s_property_0_implicitly_has_an_1_type_7018", "Object literal's property '{0}' implicitly has an '{1}' type."), Rest_parameter_0_implicitly_has_an_any_type: diag(7019, ts.DiagnosticCategory.Error, "Rest_parameter_0_implicitly_has_an_any_type_7019", "Rest parameter '{0}' implicitly has an 'any[]' type."), Call_signature_which_lacks_return_type_annotation_implicitly_has_an_any_return_type: diag(7020, ts.DiagnosticCategory.Error, "Call_signature_which_lacks_return_type_annotation_implicitly_has_an_any_return_type_7020", "Call signature, which lacks return-type annotation, implicitly has an 'any' return type."), _0_implicitly_has_type_any_because_it_does_not_have_a_type_annotation_and_is_referenced_directly_or_indirectly_in_its_own_initializer: diag(7022, ts.DiagnosticCategory.Error, "_0_implicitly_has_type_any_because_it_does_not_have_a_type_annotation_and_is_referenced_directly_or__7022", "'{0}' implicitly has type 'any' because it does not have a type annotation and is referenced directly or indirectly in its own initializer."), _0_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_referenced_directly_or_indirectly_in_one_of_its_return_expressions: diag(7023, ts.DiagnosticCategory.Error, "_0_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_reference_7023", "'{0}' implicitly has return type 'any' because it does not have a return type annotation and is referenced directly or indirectly in one of its return expressions."), Function_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_referenced_directly_or_indirectly_in_one_of_its_return_expressions: diag(7024, ts.DiagnosticCategory.Error, "Function_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_ref_7024", "Function implicitly has return type 'any' because it does not have a return type annotation and is referenced directly or indirectly in one of its return expressions."), Generator_implicitly_has_yield_type_0_because_it_does_not_yield_any_values_Consider_supplying_a_return_type_annotation: diag(7025, ts.DiagnosticCategory.Error, "Generator_implicitly_has_yield_type_0_because_it_does_not_yield_any_values_Consider_supplying_a_retu_7025", "Generator implicitly has yield type '{0}' because it does not yield any values. Consider supplying a return type annotation."), JSX_element_implicitly_has_type_any_because_no_interface_JSX_0_exists: diag(7026, ts.DiagnosticCategory.Error, "JSX_element_implicitly_has_type_any_because_no_interface_JSX_0_exists_7026", "JSX element implicitly has type 'any' because no interface 'JSX.{0}' exists."), Unreachable_code_detected: diag(7027, ts.DiagnosticCategory.Error, "Unreachable_code_detected_7027", "Unreachable code detected.", /*reportsUnnecessary*/ true), Unused_label: diag(7028, ts.DiagnosticCategory.Error, "Unused_label_7028", "Unused label.", /*reportsUnnecessary*/ true), Fallthrough_case_in_switch: diag(7029, ts.DiagnosticCategory.Error, "Fallthrough_case_in_switch_7029", "Fallthrough case in switch."), Not_all_code_paths_return_a_value: diag(7030, ts.DiagnosticCategory.Error, "Not_all_code_paths_return_a_value_7030", "Not all code paths return a value."), Binding_element_0_implicitly_has_an_1_type: diag(7031, ts.DiagnosticCategory.Error, "Binding_element_0_implicitly_has_an_1_type_7031", "Binding element '{0}' implicitly has an '{1}' type."), Property_0_implicitly_has_type_any_because_its_set_accessor_lacks_a_parameter_type_annotation: diag(7032, ts.DiagnosticCategory.Error, "Property_0_implicitly_has_type_any_because_its_set_accessor_lacks_a_parameter_type_annotation_7032", "Property '{0}' implicitly has type 'any', because its set accessor lacks a parameter type annotation."), Property_0_implicitly_has_type_any_because_its_get_accessor_lacks_a_return_type_annotation: diag(7033, ts.DiagnosticCategory.Error, "Property_0_implicitly_has_type_any_because_its_get_accessor_lacks_a_return_type_annotation_7033", "Property '{0}' implicitly has type 'any', because its get accessor lacks a return type annotation."), Variable_0_implicitly_has_type_1_in_some_locations_where_its_type_cannot_be_determined: diag(7034, ts.DiagnosticCategory.Error, "Variable_0_implicitly_has_type_1_in_some_locations_where_its_type_cannot_be_determined_7034", "Variable '{0}' implicitly has type '{1}' in some locations where its type cannot be determined."), Try_npm_install_types_Slash_1_if_it_exists_or_add_a_new_declaration_d_ts_file_containing_declare_module_0: diag(7035, ts.DiagnosticCategory.Error, "Try_npm_install_types_Slash_1_if_it_exists_or_add_a_new_declaration_d_ts_file_containing_declare_mod_7035", "Try `npm install @types/{1}` if it exists or add a new declaration (.d.ts) file containing `declare module '{0}';`"), Dynamic_import_s_specifier_must_be_of_type_string_but_here_has_type_0: diag(7036, ts.DiagnosticCategory.Error, "Dynamic_import_s_specifier_must_be_of_type_string_but_here_has_type_0_7036", "Dynamic import's specifier must be of type 'string', but here has type '{0}'."), Enables_emit_interoperability_between_CommonJS_and_ES_Modules_via_creation_of_namespace_objects_for_all_imports_Implies_allowSyntheticDefaultImports: diag(7037, ts.DiagnosticCategory.Message, "Enables_emit_interoperability_between_CommonJS_and_ES_Modules_via_creation_of_namespace_objects_for__7037", "Enables emit interoperability between CommonJS and ES Modules via creation of namespace objects for all imports. Implies 'allowSyntheticDefaultImports'."), Type_originates_at_this_import_A_namespace_style_import_cannot_be_called_or_constructed_and_will_cause_a_failure_at_runtime_Consider_using_a_default_import_or_import_require_here_instead: diag(7038, ts.DiagnosticCategory.Message, "Type_originates_at_this_import_A_namespace_style_import_cannot_be_called_or_constructed_and_will_cau_7038", "Type originates at this import. A namespace-style import cannot be called or constructed, and will cause a failure at runtime. Consider using a default import or import require here instead."), Mapped_object_type_implicitly_has_an_any_template_type: diag(7039, ts.DiagnosticCategory.Error, "Mapped_object_type_implicitly_has_an_any_template_type_7039", "Mapped object type implicitly has an 'any' template type."), If_the_0_package_actually_exposes_this_module_consider_sending_a_pull_request_to_amend_https_Colon_Slash_Slashgithub_com_SlashDefinitelyTyped_SlashDefinitelyTyped_Slashtree_Slashmaster_Slashtypes_Slash_1: diag(7040, ts.DiagnosticCategory.Error, "If_the_0_package_actually_exposes_this_module_consider_sending_a_pull_request_to_amend_https_Colon_S_7040", "If the '{0}' package actually exposes this module, consider sending a pull request to amend 'https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/{1}`"), The_containing_arrow_function_captures_the_global_value_of_this: diag(7041, ts.DiagnosticCategory.Error, "The_containing_arrow_function_captures_the_global_value_of_this_7041", "The containing arrow function captures the global value of 'this'."), Module_0_was_resolved_to_1_but_resolveJsonModule_is_not_used: diag(7042, ts.DiagnosticCategory.Error, "Module_0_was_resolved_to_1_but_resolveJsonModule_is_not_used_7042", "Module '{0}' was resolved to '{1}', but '--resolveJsonModule' is not used."), Variable_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage: diag(7043, ts.DiagnosticCategory.Suggestion, "Variable_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage_7043", "Variable '{0}' implicitly has an '{1}' type, but a better type may be inferred from usage."), Parameter_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage: diag(7044, ts.DiagnosticCategory.Suggestion, "Parameter_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage_7044", "Parameter '{0}' implicitly has an '{1}' type, but a better type may be inferred from usage."), Member_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage: diag(7045, ts.DiagnosticCategory.Suggestion, "Member_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage_7045", "Member '{0}' implicitly has an '{1}' type, but a better type may be inferred from usage."), Variable_0_implicitly_has_type_1_in_some_locations_but_a_better_type_may_be_inferred_from_usage: diag(7046, ts.DiagnosticCategory.Suggestion, "Variable_0_implicitly_has_type_1_in_some_locations_but_a_better_type_may_be_inferred_from_usage_7046", "Variable '{0}' implicitly has type '{1}' in some locations, but a better type may be inferred from usage."), Rest_parameter_0_implicitly_has_an_any_type_but_a_better_type_may_be_inferred_from_usage: diag(7047, ts.DiagnosticCategory.Suggestion, "Rest_parameter_0_implicitly_has_an_any_type_but_a_better_type_may_be_inferred_from_usage_7047", "Rest parameter '{0}' implicitly has an 'any[]' type, but a better type may be inferred from usage."), Property_0_implicitly_has_type_any_but_a_better_type_for_its_get_accessor_may_be_inferred_from_usage: diag(7048, ts.DiagnosticCategory.Suggestion, "Property_0_implicitly_has_type_any_but_a_better_type_for_its_get_accessor_may_be_inferred_from_usage_7048", "Property '{0}' implicitly has type 'any', but a better type for its get accessor may be inferred from usage."), Property_0_implicitly_has_type_any_but_a_better_type_for_its_set_accessor_may_be_inferred_from_usage: diag(7049, ts.DiagnosticCategory.Suggestion, "Property_0_implicitly_has_type_any_but_a_better_type_for_its_set_accessor_may_be_inferred_from_usage_7049", "Property '{0}' implicitly has type 'any', but a better type for its set accessor may be inferred from usage."), _0_implicitly_has_an_1_return_type_but_a_better_type_may_be_inferred_from_usage: diag(7050, ts.DiagnosticCategory.Suggestion, "_0_implicitly_has_an_1_return_type_but_a_better_type_may_be_inferred_from_usage_7050", "'{0}' implicitly has an '{1}' return type, but a better type may be inferred from usage."), Parameter_has_a_name_but_no_type_Did_you_mean_0_Colon_1: diag(7051, ts.DiagnosticCategory.Error, "Parameter_has_a_name_but_no_type_Did_you_mean_0_Colon_1_7051", "Parameter has a name but no type. Did you mean '{0}: {1}'?"), Element_implicitly_has_an_any_type_because_type_0_has_no_index_signature_Did_you_mean_to_call_1: diag(7052, ts.DiagnosticCategory.Error, "Element_implicitly_has_an_any_type_because_type_0_has_no_index_signature_Did_you_mean_to_call_1_7052", "Element implicitly has an 'any' type because type '{0}' has no index signature. Did you mean to call '{1}'?"), Element_implicitly_has_an_any_type_because_expression_of_type_0_can_t_be_used_to_index_type_1: diag(7053, ts.DiagnosticCategory.Error, "Element_implicitly_has_an_any_type_because_expression_of_type_0_can_t_be_used_to_index_type_1_7053", "Element implicitly has an 'any' type because expression of type '{0}' can't be used to index type '{1}'."), No_index_signature_with_a_parameter_of_type_0_was_found_on_type_1: diag(7054, ts.DiagnosticCategory.Error, "No_index_signature_with_a_parameter_of_type_0_was_found_on_type_1_7054", "No index signature with a parameter of type '{0}' was found on type '{1}'."), _0_which_lacks_return_type_annotation_implicitly_has_an_1_yield_type: diag(7055, ts.DiagnosticCategory.Error, "_0_which_lacks_return_type_annotation_implicitly_has_an_1_yield_type_7055", "'{0}', which lacks return-type annotation, implicitly has an '{1}' yield type."), You_cannot_rename_this_element: diag(8000, ts.DiagnosticCategory.Error, "You_cannot_rename_this_element_8000", "You cannot rename this element."), You_cannot_rename_elements_that_are_defined_in_the_standard_TypeScript_library: diag(8001, ts.DiagnosticCategory.Error, "You_cannot_rename_elements_that_are_defined_in_the_standard_TypeScript_library_8001", "You cannot rename elements that are defined in the standard TypeScript library."), import_can_only_be_used_in_TypeScript_files: diag(8002, ts.DiagnosticCategory.Error, "import_can_only_be_used_in_TypeScript_files_8002", "'import ... =' can only be used in TypeScript files."), export_can_only_be_used_in_TypeScript_files: diag(8003, ts.DiagnosticCategory.Error, "export_can_only_be_used_in_TypeScript_files_8003", "'export =' can only be used in TypeScript files."), Type_parameter_declarations_can_only_be_used_in_TypeScript_files: diag(8004, ts.DiagnosticCategory.Error, "Type_parameter_declarations_can_only_be_used_in_TypeScript_files_8004", "Type parameter declarations can only be used in TypeScript files."), implements_clauses_can_only_be_used_in_TypeScript_files: diag(8005, ts.DiagnosticCategory.Error, "implements_clauses_can_only_be_used_in_TypeScript_files_8005", "'implements' clauses can only be used in TypeScript files."), _0_declarations_can_only_be_used_in_TypeScript_files: diag(8006, ts.DiagnosticCategory.Error, "_0_declarations_can_only_be_used_in_TypeScript_files_8006", "'{0}' declarations can only be used in TypeScript files."), Type_aliases_can_only_be_used_in_TypeScript_files: diag(8008, ts.DiagnosticCategory.Error, "Type_aliases_can_only_be_used_in_TypeScript_files_8008", "Type aliases can only be used in TypeScript files."), The_0_modifier_can_only_be_used_in_TypeScript_files: diag(8009, ts.DiagnosticCategory.Error, "The_0_modifier_can_only_be_used_in_TypeScript_files_8009", "The '{0}' modifier can only be used in TypeScript files."), Type_annotations_can_only_be_used_in_TypeScript_files: diag(8010, ts.DiagnosticCategory.Error, "Type_annotations_can_only_be_used_in_TypeScript_files_8010", "Type annotations can only be used in TypeScript files."), Type_arguments_can_only_be_used_in_TypeScript_files: diag(8011, ts.DiagnosticCategory.Error, "Type_arguments_can_only_be_used_in_TypeScript_files_8011", "Type arguments can only be used in TypeScript files."), Parameter_modifiers_can_only_be_used_in_TypeScript_files: diag(8012, ts.DiagnosticCategory.Error, "Parameter_modifiers_can_only_be_used_in_TypeScript_files_8012", "Parameter modifiers can only be used in TypeScript files."), Non_null_assertions_can_only_be_used_in_TypeScript_files: diag(8013, ts.DiagnosticCategory.Error, "Non_null_assertions_can_only_be_used_in_TypeScript_files_8013", "Non-null assertions can only be used in TypeScript files."), Type_assertion_expressions_can_only_be_used_in_TypeScript_files: diag(8016, ts.DiagnosticCategory.Error, "Type_assertion_expressions_can_only_be_used_in_TypeScript_files_8016", "Type assertion expressions can only be used in TypeScript files."), Octal_literal_types_must_use_ES2015_syntax_Use_the_syntax_0: diag(8017, ts.DiagnosticCategory.Error, "Octal_literal_types_must_use_ES2015_syntax_Use_the_syntax_0_8017", "Octal literal types must use ES2015 syntax. Use the syntax '{0}'."), Octal_literals_are_not_allowed_in_enums_members_initializer_Use_the_syntax_0: diag(8018, ts.DiagnosticCategory.Error, "Octal_literals_are_not_allowed_in_enums_members_initializer_Use_the_syntax_0_8018", "Octal literals are not allowed in enums members initializer. Use the syntax '{0}'."), Report_errors_in_js_files: diag(8019, ts.DiagnosticCategory.Message, "Report_errors_in_js_files_8019", "Report errors in .js files."), JSDoc_types_can_only_be_used_inside_documentation_comments: diag(8020, ts.DiagnosticCategory.Error, "JSDoc_types_can_only_be_used_inside_documentation_comments_8020", "JSDoc types can only be used inside documentation comments."), JSDoc_typedef_tag_should_either_have_a_type_annotation_or_be_followed_by_property_or_member_tags: diag(8021, ts.DiagnosticCategory.Error, "JSDoc_typedef_tag_should_either_have_a_type_annotation_or_be_followed_by_property_or_member_tags_8021", "JSDoc '@typedef' tag should either have a type annotation or be followed by '@property' or '@member' tags."), JSDoc_0_is_not_attached_to_a_class: diag(8022, ts.DiagnosticCategory.Error, "JSDoc_0_is_not_attached_to_a_class_8022", "JSDoc '@{0}' is not attached to a class."), JSDoc_0_1_does_not_match_the_extends_2_clause: diag(8023, ts.DiagnosticCategory.Error, "JSDoc_0_1_does_not_match_the_extends_2_clause_8023", "JSDoc '@{0} {1}' does not match the 'extends {2}' clause."), JSDoc_param_tag_has_name_0_but_there_is_no_parameter_with_that_name: diag(8024, ts.DiagnosticCategory.Error, "JSDoc_param_tag_has_name_0_but_there_is_no_parameter_with_that_name_8024", "JSDoc '@param' tag has name '{0}', but there is no parameter with that name."), Class_declarations_cannot_have_more_than_one_augments_or_extends_tag: diag(8025, ts.DiagnosticCategory.Error, "Class_declarations_cannot_have_more_than_one_augments_or_extends_tag_8025", "Class declarations cannot have more than one `@augments` or `@extends` tag."), Expected_0_type_arguments_provide_these_with_an_extends_tag: diag(8026, ts.DiagnosticCategory.Error, "Expected_0_type_arguments_provide_these_with_an_extends_tag_8026", "Expected {0} type arguments; provide these with an '@extends' tag."), Expected_0_1_type_arguments_provide_these_with_an_extends_tag: diag(8027, ts.DiagnosticCategory.Error, "Expected_0_1_type_arguments_provide_these_with_an_extends_tag_8027", "Expected {0}-{1} type arguments; provide these with an '@extends' tag."), JSDoc_may_only_appear_in_the_last_parameter_of_a_signature: diag(8028, ts.DiagnosticCategory.Error, "JSDoc_may_only_appear_in_the_last_parameter_of_a_signature_8028", "JSDoc '...' may only appear in the last parameter of a signature."), JSDoc_param_tag_has_name_0_but_there_is_no_parameter_with_that_name_It_would_match_arguments_if_it_had_an_array_type: diag(8029, ts.DiagnosticCategory.Error, "JSDoc_param_tag_has_name_0_but_there_is_no_parameter_with_that_name_It_would_match_arguments_if_it_h_8029", "JSDoc '@param' tag has name '{0}', but there is no parameter with that name. It would match 'arguments' if it had an array type."), The_type_of_a_function_declaration_must_match_the_function_s_signature: diag(8030, ts.DiagnosticCategory.Error, "The_type_of_a_function_declaration_must_match_the_function_s_signature_8030", "The type of a function declaration must match the function's signature."), You_cannot_rename_a_module_via_a_global_import: diag(8031, ts.DiagnosticCategory.Error, "You_cannot_rename_a_module_via_a_global_import_8031", "You cannot rename a module via a global import."), Qualified_name_0_is_not_allowed_without_a_leading_param_object_1: diag(8032, ts.DiagnosticCategory.Error, "Qualified_name_0_is_not_allowed_without_a_leading_param_object_1_8032", "Qualified name '{0}' is not allowed without a leading '@param {object} {1}'."), Only_identifiers_Slashqualified_names_with_optional_type_arguments_are_currently_supported_in_a_class_extends_clause: diag(9002, ts.DiagnosticCategory.Error, "Only_identifiers_Slashqualified_names_with_optional_type_arguments_are_currently_supported_in_a_clas_9002", "Only identifiers/qualified-names with optional type arguments are currently supported in a class 'extends' clause."), class_expressions_are_not_currently_supported: diag(9003, ts.DiagnosticCategory.Error, "class_expressions_are_not_currently_supported_9003", "'class' expressions are not currently supported."), Language_service_is_disabled: diag(9004, ts.DiagnosticCategory.Error, "Language_service_is_disabled_9004", "Language service is disabled."), Declaration_emit_for_this_file_requires_using_private_name_0_An_explicit_type_annotation_may_unblock_declaration_emit: diag(9005, ts.DiagnosticCategory.Error, "Declaration_emit_for_this_file_requires_using_private_name_0_An_explicit_type_annotation_may_unblock_9005", "Declaration emit for this file requires using private name '{0}'. An explicit type annotation may unblock declaration emit."), Declaration_emit_for_this_file_requires_using_private_name_0_from_module_1_An_explicit_type_annotation_may_unblock_declaration_emit: diag(9006, ts.DiagnosticCategory.Error, "Declaration_emit_for_this_file_requires_using_private_name_0_from_module_1_An_explicit_type_annotati_9006", "Declaration emit for this file requires using private name '{0}' from module '{1}'. An explicit type annotation may unblock declaration emit."), JSX_attributes_must_only_be_assigned_a_non_empty_expression: diag(17000, ts.DiagnosticCategory.Error, "JSX_attributes_must_only_be_assigned_a_non_empty_expression_17000", "JSX attributes must only be assigned a non-empty 'expression'."), JSX_elements_cannot_have_multiple_attributes_with_the_same_name: diag(17001, ts.DiagnosticCategory.Error, "JSX_elements_cannot_have_multiple_attributes_with_the_same_name_17001", "JSX elements cannot have multiple attributes with the same name."), Expected_corresponding_JSX_closing_tag_for_0: diag(17002, ts.DiagnosticCategory.Error, "Expected_corresponding_JSX_closing_tag_for_0_17002", "Expected corresponding JSX closing tag for '{0}'."), JSX_attribute_expected: diag(17003, ts.DiagnosticCategory.Error, "JSX_attribute_expected_17003", "JSX attribute expected."), Cannot_use_JSX_unless_the_jsx_flag_is_provided: diag(17004, ts.DiagnosticCategory.Error, "Cannot_use_JSX_unless_the_jsx_flag_is_provided_17004", "Cannot use JSX unless the '--jsx' flag is provided."), A_constructor_cannot_contain_a_super_call_when_its_class_extends_null: diag(17005, ts.DiagnosticCategory.Error, "A_constructor_cannot_contain_a_super_call_when_its_class_extends_null_17005", "A constructor cannot contain a 'super' call when its class extends 'null'."), An_unary_expression_with_the_0_operator_is_not_allowed_in_the_left_hand_side_of_an_exponentiation_expression_Consider_enclosing_the_expression_in_parentheses: diag(17006, ts.DiagnosticCategory.Error, "An_unary_expression_with_the_0_operator_is_not_allowed_in_the_left_hand_side_of_an_exponentiation_ex_17006", "An unary expression with the '{0}' operator is not allowed in the left-hand side of an exponentiation expression. Consider enclosing the expression in parentheses."), A_type_assertion_expression_is_not_allowed_in_the_left_hand_side_of_an_exponentiation_expression_Consider_enclosing_the_expression_in_parentheses: diag(17007, ts.DiagnosticCategory.Error, "A_type_assertion_expression_is_not_allowed_in_the_left_hand_side_of_an_exponentiation_expression_Con_17007", "A type assertion expression is not allowed in the left-hand side of an exponentiation expression. Consider enclosing the expression in parentheses."), JSX_element_0_has_no_corresponding_closing_tag: diag(17008, ts.DiagnosticCategory.Error, "JSX_element_0_has_no_corresponding_closing_tag_17008", "JSX element '{0}' has no corresponding closing tag."), super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class: diag(17009, ts.DiagnosticCategory.Error, "super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class_17009", "'super' must be called before accessing 'this' in the constructor of a derived class."), Unknown_type_acquisition_option_0: diag(17010, ts.DiagnosticCategory.Error, "Unknown_type_acquisition_option_0_17010", "Unknown type acquisition option '{0}'."), super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class: diag(17011, ts.DiagnosticCategory.Error, "super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class_17011", "'super' must be called before accessing a property of 'super' in the constructor of a derived class."), _0_is_not_a_valid_meta_property_for_keyword_1_Did_you_mean_2: diag(17012, ts.DiagnosticCategory.Error, "_0_is_not_a_valid_meta_property_for_keyword_1_Did_you_mean_2_17012", "'{0}' is not a valid meta-property for keyword '{1}'. Did you mean '{2}'?"), Meta_property_0_is_only_allowed_in_the_body_of_a_function_declaration_function_expression_or_constructor: diag(17013, ts.DiagnosticCategory.Error, "Meta_property_0_is_only_allowed_in_the_body_of_a_function_declaration_function_expression_or_constru_17013", "Meta-property '{0}' is only allowed in the body of a function declaration, function expression, or constructor."), JSX_fragment_has_no_corresponding_closing_tag: diag(17014, ts.DiagnosticCategory.Error, "JSX_fragment_has_no_corresponding_closing_tag_17014", "JSX fragment has no corresponding closing tag."), Expected_corresponding_closing_tag_for_JSX_fragment: diag(17015, ts.DiagnosticCategory.Error, "Expected_corresponding_closing_tag_for_JSX_fragment_17015", "Expected corresponding closing tag for JSX fragment."), JSX_fragment_is_not_supported_when_using_jsxFactory: diag(17016, ts.DiagnosticCategory.Error, "JSX_fragment_is_not_supported_when_using_jsxFactory_17016", "JSX fragment is not supported when using --jsxFactory"), JSX_fragment_is_not_supported_when_using_an_inline_JSX_factory_pragma: diag(17017, ts.DiagnosticCategory.Error, "JSX_fragment_is_not_supported_when_using_an_inline_JSX_factory_pragma_17017", "JSX fragment is not supported when using an inline JSX factory pragma"), Unknown_type_acquisition_option_0_Did_you_mean_1: diag(17018, ts.DiagnosticCategory.Error, "Unknown_type_acquisition_option_0_Did_you_mean_1_17018", "Unknown type acquisition option '{0}'. Did you mean '{1}'?"), Circularity_detected_while_resolving_configuration_Colon_0: diag(18000, ts.DiagnosticCategory.Error, "Circularity_detected_while_resolving_configuration_Colon_0_18000", "Circularity detected while resolving configuration: {0}"), A_path_in_an_extends_option_must_be_relative_or_rooted_but_0_is_not: diag(18001, ts.DiagnosticCategory.Error, "A_path_in_an_extends_option_must_be_relative_or_rooted_but_0_is_not_18001", "A path in an 'extends' option must be relative or rooted, but '{0}' is not."), The_files_list_in_config_file_0_is_empty: diag(18002, ts.DiagnosticCategory.Error, "The_files_list_in_config_file_0_is_empty_18002", "The 'files' list in config file '{0}' is empty."), No_inputs_were_found_in_config_file_0_Specified_include_paths_were_1_and_exclude_paths_were_2: diag(18003, ts.DiagnosticCategory.Error, "No_inputs_were_found_in_config_file_0_Specified_include_paths_were_1_and_exclude_paths_were_2_18003", "No inputs were found in config file '{0}'. Specified 'include' paths were '{1}' and 'exclude' paths were '{2}'."), File_is_a_CommonJS_module_it_may_be_converted_to_an_ES6_module: diag(80001, ts.DiagnosticCategory.Suggestion, "File_is_a_CommonJS_module_it_may_be_converted_to_an_ES6_module_80001", "File is a CommonJS module; it may be converted to an ES6 module."), This_constructor_function_may_be_converted_to_a_class_declaration: diag(80002, ts.DiagnosticCategory.Suggestion, "This_constructor_function_may_be_converted_to_a_class_declaration_80002", "This constructor function may be converted to a class declaration."), Import_may_be_converted_to_a_default_import: diag(80003, ts.DiagnosticCategory.Suggestion, "Import_may_be_converted_to_a_default_import_80003", "Import may be converted to a default import."), JSDoc_types_may_be_moved_to_TypeScript_types: diag(80004, ts.DiagnosticCategory.Suggestion, "JSDoc_types_may_be_moved_to_TypeScript_types_80004", "JSDoc types may be moved to TypeScript types."), require_call_may_be_converted_to_an_import: diag(80005, ts.DiagnosticCategory.Suggestion, "require_call_may_be_converted_to_an_import_80005", "'require' call may be converted to an import."), This_may_be_converted_to_an_async_function: diag(80006, ts.DiagnosticCategory.Suggestion, "This_may_be_converted_to_an_async_function_80006", "This may be converted to an async function."), await_has_no_effect_on_the_type_of_this_expression: diag(80007, ts.DiagnosticCategory.Suggestion, "await_has_no_effect_on_the_type_of_this_expression_80007", "'await' has no effect on the type of this expression."), Numeric_literals_with_absolute_values_equal_to_2_53_or_greater_are_too_large_to_be_represented_accurately_as_integers: diag(80008, ts.DiagnosticCategory.Suggestion, "Numeric_literals_with_absolute_values_equal_to_2_53_or_greater_are_too_large_to_be_represented_accur_80008", "Numeric literals with absolute values equal to 2^53 or greater are too large to be represented accurately as integers."), Add_missing_super_call: diag(90001, ts.DiagnosticCategory.Message, "Add_missing_super_call_90001", "Add missing 'super()' call"), Make_super_call_the_first_statement_in_the_constructor: diag(90002, ts.DiagnosticCategory.Message, "Make_super_call_the_first_statement_in_the_constructor_90002", "Make 'super()' call the first statement in the constructor"), Change_extends_to_implements: diag(90003, ts.DiagnosticCategory.Message, "Change_extends_to_implements_90003", "Change 'extends' to 'implements'"), Remove_unused_declaration_for_Colon_0: diag(90004, ts.DiagnosticCategory.Message, "Remove_unused_declaration_for_Colon_0_90004", "Remove unused declaration for: '{0}'"), Remove_import_from_0: diag(90005, ts.DiagnosticCategory.Message, "Remove_import_from_0_90005", "Remove import from '{0}'"), Implement_interface_0: diag(90006, ts.DiagnosticCategory.Message, "Implement_interface_0_90006", "Implement interface '{0}'"), Implement_inherited_abstract_class: diag(90007, ts.DiagnosticCategory.Message, "Implement_inherited_abstract_class_90007", "Implement inherited abstract class"), Add_0_to_unresolved_variable: diag(90008, ts.DiagnosticCategory.Message, "Add_0_to_unresolved_variable_90008", "Add '{0}.' to unresolved variable"), Remove_destructuring: diag(90009, ts.DiagnosticCategory.Message, "Remove_destructuring_90009", "Remove destructuring"), Remove_variable_statement: diag(90010, ts.DiagnosticCategory.Message, "Remove_variable_statement_90010", "Remove variable statement"), Remove_template_tag: diag(90011, ts.DiagnosticCategory.Message, "Remove_template_tag_90011", "Remove template tag"), Remove_type_parameters: diag(90012, ts.DiagnosticCategory.Message, "Remove_type_parameters_90012", "Remove type parameters"), Import_0_from_module_1: diag(90013, ts.DiagnosticCategory.Message, "Import_0_from_module_1_90013", "Import '{0}' from module \"{1}\""), Change_0_to_1: diag(90014, ts.DiagnosticCategory.Message, "Change_0_to_1_90014", "Change '{0}' to '{1}'"), Add_0_to_existing_import_declaration_from_1: diag(90015, ts.DiagnosticCategory.Message, "Add_0_to_existing_import_declaration_from_1_90015", "Add '{0}' to existing import declaration from \"{1}\""), Declare_property_0: diag(90016, ts.DiagnosticCategory.Message, "Declare_property_0_90016", "Declare property '{0}'"), Add_index_signature_for_property_0: diag(90017, ts.DiagnosticCategory.Message, "Add_index_signature_for_property_0_90017", "Add index signature for property '{0}'"), Disable_checking_for_this_file: diag(90018, ts.DiagnosticCategory.Message, "Disable_checking_for_this_file_90018", "Disable checking for this file"), Ignore_this_error_message: diag(90019, ts.DiagnosticCategory.Message, "Ignore_this_error_message_90019", "Ignore this error message"), Initialize_property_0_in_the_constructor: diag(90020, ts.DiagnosticCategory.Message, "Initialize_property_0_in_the_constructor_90020", "Initialize property '{0}' in the constructor"), Initialize_static_property_0: diag(90021, ts.DiagnosticCategory.Message, "Initialize_static_property_0_90021", "Initialize static property '{0}'"), Change_spelling_to_0: diag(90022, ts.DiagnosticCategory.Message, "Change_spelling_to_0_90022", "Change spelling to '{0}'"), Declare_method_0: diag(90023, ts.DiagnosticCategory.Message, "Declare_method_0_90023", "Declare method '{0}'"), Declare_static_method_0: diag(90024, ts.DiagnosticCategory.Message, "Declare_static_method_0_90024", "Declare static method '{0}'"), Prefix_0_with_an_underscore: diag(90025, ts.DiagnosticCategory.Message, "Prefix_0_with_an_underscore_90025", "Prefix '{0}' with an underscore"), Rewrite_as_the_indexed_access_type_0: diag(90026, ts.DiagnosticCategory.Message, "Rewrite_as_the_indexed_access_type_0_90026", "Rewrite as the indexed access type '{0}'"), Declare_static_property_0: diag(90027, ts.DiagnosticCategory.Message, "Declare_static_property_0_90027", "Declare static property '{0}'"), Call_decorator_expression: diag(90028, ts.DiagnosticCategory.Message, "Call_decorator_expression_90028", "Call decorator expression"), Add_async_modifier_to_containing_function: diag(90029, ts.DiagnosticCategory.Message, "Add_async_modifier_to_containing_function_90029", "Add async modifier to containing function"), Replace_infer_0_with_unknown: diag(90030, ts.DiagnosticCategory.Message, "Replace_infer_0_with_unknown_90030", "Replace 'infer {0}' with 'unknown'"), Replace_all_unused_infer_with_unknown: diag(90031, ts.DiagnosticCategory.Message, "Replace_all_unused_infer_with_unknown_90031", "Replace all unused 'infer' with 'unknown'"), Import_default_0_from_module_1: diag(90032, ts.DiagnosticCategory.Message, "Import_default_0_from_module_1_90032", "Import default '{0}' from module \"{1}\""), Add_default_import_0_to_existing_import_declaration_from_1: diag(90033, ts.DiagnosticCategory.Message, "Add_default_import_0_to_existing_import_declaration_from_1_90033", "Add default import '{0}' to existing import declaration from \"{1}\""), Add_parameter_name: diag(90034, ts.DiagnosticCategory.Message, "Add_parameter_name_90034", "Add parameter name"), Declare_private_property_0: diag(90035, ts.DiagnosticCategory.Message, "Declare_private_property_0_90035", "Declare private property '{0}'"), Declare_a_private_field_named_0: diag(90053, ts.DiagnosticCategory.Message, "Declare_a_private_field_named_0_90053", "Declare a private field named '{0}'."), Convert_function_to_an_ES2015_class: diag(95001, ts.DiagnosticCategory.Message, "Convert_function_to_an_ES2015_class_95001", "Convert function to an ES2015 class"), Convert_function_0_to_class: diag(95002, ts.DiagnosticCategory.Message, "Convert_function_0_to_class_95002", "Convert function '{0}' to class"), Extract_to_0_in_1: diag(95004, ts.DiagnosticCategory.Message, "Extract_to_0_in_1_95004", "Extract to {0} in {1}"), Extract_function: diag(95005, ts.DiagnosticCategory.Message, "Extract_function_95005", "Extract function"), Extract_constant: diag(95006, ts.DiagnosticCategory.Message, "Extract_constant_95006", "Extract constant"), Extract_to_0_in_enclosing_scope: diag(95007, ts.DiagnosticCategory.Message, "Extract_to_0_in_enclosing_scope_95007", "Extract to {0} in enclosing scope"), Extract_to_0_in_1_scope: diag(95008, ts.DiagnosticCategory.Message, "Extract_to_0_in_1_scope_95008", "Extract to {0} in {1} scope"), Annotate_with_type_from_JSDoc: diag(95009, ts.DiagnosticCategory.Message, "Annotate_with_type_from_JSDoc_95009", "Annotate with type from JSDoc"), Annotate_with_types_from_JSDoc: diag(95010, ts.DiagnosticCategory.Message, "Annotate_with_types_from_JSDoc_95010", "Annotate with types from JSDoc"), Infer_type_of_0_from_usage: diag(95011, ts.DiagnosticCategory.Message, "Infer_type_of_0_from_usage_95011", "Infer type of '{0}' from usage"), Infer_parameter_types_from_usage: diag(95012, ts.DiagnosticCategory.Message, "Infer_parameter_types_from_usage_95012", "Infer parameter types from usage"), Convert_to_default_import: diag(95013, ts.DiagnosticCategory.Message, "Convert_to_default_import_95013", "Convert to default import"), Install_0: diag(95014, ts.DiagnosticCategory.Message, "Install_0_95014", "Install '{0}'"), Replace_import_with_0: diag(95015, ts.DiagnosticCategory.Message, "Replace_import_with_0_95015", "Replace import with '{0}'."), Use_synthetic_default_member: diag(95016, ts.DiagnosticCategory.Message, "Use_synthetic_default_member_95016", "Use synthetic 'default' member."), Convert_to_ES6_module: diag(95017, ts.DiagnosticCategory.Message, "Convert_to_ES6_module_95017", "Convert to ES6 module"), Add_undefined_type_to_property_0: diag(95018, ts.DiagnosticCategory.Message, "Add_undefined_type_to_property_0_95018", "Add 'undefined' type to property '{0}'"), Add_initializer_to_property_0: diag(95019, ts.DiagnosticCategory.Message, "Add_initializer_to_property_0_95019", "Add initializer to property '{0}'"), Add_definite_assignment_assertion_to_property_0: diag(95020, ts.DiagnosticCategory.Message, "Add_definite_assignment_assertion_to_property_0_95020", "Add definite assignment assertion to property '{0}'"), Add_all_missing_members: diag(95022, ts.DiagnosticCategory.Message, "Add_all_missing_members_95022", "Add all missing members"), Infer_all_types_from_usage: diag(95023, ts.DiagnosticCategory.Message, "Infer_all_types_from_usage_95023", "Infer all types from usage"), Delete_all_unused_declarations: diag(95024, ts.DiagnosticCategory.Message, "Delete_all_unused_declarations_95024", "Delete all unused declarations"), Prefix_all_unused_declarations_with_where_possible: diag(95025, ts.DiagnosticCategory.Message, "Prefix_all_unused_declarations_with_where_possible_95025", "Prefix all unused declarations with '_' where possible"), Fix_all_detected_spelling_errors: diag(95026, ts.DiagnosticCategory.Message, "Fix_all_detected_spelling_errors_95026", "Fix all detected spelling errors"), Add_initializers_to_all_uninitialized_properties: diag(95027, ts.DiagnosticCategory.Message, "Add_initializers_to_all_uninitialized_properties_95027", "Add initializers to all uninitialized properties"), Add_definite_assignment_assertions_to_all_uninitialized_properties: diag(95028, ts.DiagnosticCategory.Message, "Add_definite_assignment_assertions_to_all_uninitialized_properties_95028", "Add definite assignment assertions to all uninitialized properties"), Add_undefined_type_to_all_uninitialized_properties: diag(95029, ts.DiagnosticCategory.Message, "Add_undefined_type_to_all_uninitialized_properties_95029", "Add undefined type to all uninitialized properties"), Change_all_jsdoc_style_types_to_TypeScript: diag(95030, ts.DiagnosticCategory.Message, "Change_all_jsdoc_style_types_to_TypeScript_95030", "Change all jsdoc-style types to TypeScript"), Change_all_jsdoc_style_types_to_TypeScript_and_add_undefined_to_nullable_types: diag(95031, ts.DiagnosticCategory.Message, "Change_all_jsdoc_style_types_to_TypeScript_and_add_undefined_to_nullable_types_95031", "Change all jsdoc-style types to TypeScript (and add '| undefined' to nullable types)"), Implement_all_unimplemented_interfaces: diag(95032, ts.DiagnosticCategory.Message, "Implement_all_unimplemented_interfaces_95032", "Implement all unimplemented interfaces"), Install_all_missing_types_packages: diag(95033, ts.DiagnosticCategory.Message, "Install_all_missing_types_packages_95033", "Install all missing types packages"), Rewrite_all_as_indexed_access_types: diag(95034, ts.DiagnosticCategory.Message, "Rewrite_all_as_indexed_access_types_95034", "Rewrite all as indexed access types"), Convert_all_to_default_imports: diag(95035, ts.DiagnosticCategory.Message, "Convert_all_to_default_imports_95035", "Convert all to default imports"), Make_all_super_calls_the_first_statement_in_their_constructor: diag(95036, ts.DiagnosticCategory.Message, "Make_all_super_calls_the_first_statement_in_their_constructor_95036", "Make all 'super()' calls the first statement in their constructor"), Add_qualifier_to_all_unresolved_variables_matching_a_member_name: diag(95037, ts.DiagnosticCategory.Message, "Add_qualifier_to_all_unresolved_variables_matching_a_member_name_95037", "Add qualifier to all unresolved variables matching a member name"), Change_all_extended_interfaces_to_implements: diag(95038, ts.DiagnosticCategory.Message, "Change_all_extended_interfaces_to_implements_95038", "Change all extended interfaces to 'implements'"), Add_all_missing_super_calls: diag(95039, ts.DiagnosticCategory.Message, "Add_all_missing_super_calls_95039", "Add all missing super calls"), Implement_all_inherited_abstract_classes: diag(95040, ts.DiagnosticCategory.Message, "Implement_all_inherited_abstract_classes_95040", "Implement all inherited abstract classes"), Add_all_missing_async_modifiers: diag(95041, ts.DiagnosticCategory.Message, "Add_all_missing_async_modifiers_95041", "Add all missing 'async' modifiers"), Add_ts_ignore_to_all_error_messages: diag(95042, ts.DiagnosticCategory.Message, "Add_ts_ignore_to_all_error_messages_95042", "Add '@ts-ignore' to all error messages"), Annotate_everything_with_types_from_JSDoc: diag(95043, ts.DiagnosticCategory.Message, "Annotate_everything_with_types_from_JSDoc_95043", "Annotate everything with types from JSDoc"), Add_to_all_uncalled_decorators: diag(95044, ts.DiagnosticCategory.Message, "Add_to_all_uncalled_decorators_95044", "Add '()' to all uncalled decorators"), Convert_all_constructor_functions_to_classes: diag(95045, ts.DiagnosticCategory.Message, "Convert_all_constructor_functions_to_classes_95045", "Convert all constructor functions to classes"), Generate_get_and_set_accessors: diag(95046, ts.DiagnosticCategory.Message, "Generate_get_and_set_accessors_95046", "Generate 'get' and 'set' accessors"), Convert_require_to_import: diag(95047, ts.DiagnosticCategory.Message, "Convert_require_to_import_95047", "Convert 'require' to 'import'"), Convert_all_require_to_import: diag(95048, ts.DiagnosticCategory.Message, "Convert_all_require_to_import_95048", "Convert all 'require' to 'import'"), Move_to_a_new_file: diag(95049, ts.DiagnosticCategory.Message, "Move_to_a_new_file_95049", "Move to a new file"), Remove_unreachable_code: diag(95050, ts.DiagnosticCategory.Message, "Remove_unreachable_code_95050", "Remove unreachable code"), Remove_all_unreachable_code: diag(95051, ts.DiagnosticCategory.Message, "Remove_all_unreachable_code_95051", "Remove all unreachable code"), Add_missing_typeof: diag(95052, ts.DiagnosticCategory.Message, "Add_missing_typeof_95052", "Add missing 'typeof'"), Remove_unused_label: diag(95053, ts.DiagnosticCategory.Message, "Remove_unused_label_95053", "Remove unused label"), Remove_all_unused_labels: diag(95054, ts.DiagnosticCategory.Message, "Remove_all_unused_labels_95054", "Remove all unused labels"), Convert_0_to_mapped_object_type: diag(95055, ts.DiagnosticCategory.Message, "Convert_0_to_mapped_object_type_95055", "Convert '{0}' to mapped object type"), Convert_namespace_import_to_named_imports: diag(95056, ts.DiagnosticCategory.Message, "Convert_namespace_import_to_named_imports_95056", "Convert namespace import to named imports"), Convert_named_imports_to_namespace_import: diag(95057, ts.DiagnosticCategory.Message, "Convert_named_imports_to_namespace_import_95057", "Convert named imports to namespace import"), Add_or_remove_braces_in_an_arrow_function: diag(95058, ts.DiagnosticCategory.Message, "Add_or_remove_braces_in_an_arrow_function_95058", "Add or remove braces in an arrow function"), Add_braces_to_arrow_function: diag(95059, ts.DiagnosticCategory.Message, "Add_braces_to_arrow_function_95059", "Add braces to arrow function"), Remove_braces_from_arrow_function: diag(95060, ts.DiagnosticCategory.Message, "Remove_braces_from_arrow_function_95060", "Remove braces from arrow function"), Convert_default_export_to_named_export: diag(95061, ts.DiagnosticCategory.Message, "Convert_default_export_to_named_export_95061", "Convert default export to named export"), Convert_named_export_to_default_export: diag(95062, ts.DiagnosticCategory.Message, "Convert_named_export_to_default_export_95062", "Convert named export to default export"), Add_missing_enum_member_0: diag(95063, ts.DiagnosticCategory.Message, "Add_missing_enum_member_0_95063", "Add missing enum member '{0}'"), Add_all_missing_imports: diag(95064, ts.DiagnosticCategory.Message, "Add_all_missing_imports_95064", "Add all missing imports"), Convert_to_async_function: diag(95065, ts.DiagnosticCategory.Message, "Convert_to_async_function_95065", "Convert to async function"), Convert_all_to_async_functions: diag(95066, ts.DiagnosticCategory.Message, "Convert_all_to_async_functions_95066", "Convert all to async functions"), Add_missing_call_parentheses: diag(95067, ts.DiagnosticCategory.Message, "Add_missing_call_parentheses_95067", "Add missing call parentheses"), Add_all_missing_call_parentheses: diag(95068, ts.DiagnosticCategory.Message, "Add_all_missing_call_parentheses_95068", "Add all missing call parentheses"), Add_unknown_conversion_for_non_overlapping_types: diag(95069, ts.DiagnosticCategory.Message, "Add_unknown_conversion_for_non_overlapping_types_95069", "Add 'unknown' conversion for non-overlapping types"), Add_unknown_to_all_conversions_of_non_overlapping_types: diag(95070, ts.DiagnosticCategory.Message, "Add_unknown_to_all_conversions_of_non_overlapping_types_95070", "Add 'unknown' to all conversions of non-overlapping types"), Add_missing_new_operator_to_call: diag(95071, ts.DiagnosticCategory.Message, "Add_missing_new_operator_to_call_95071", "Add missing 'new' operator to call"), Add_missing_new_operator_to_all_calls: diag(95072, ts.DiagnosticCategory.Message, "Add_missing_new_operator_to_all_calls_95072", "Add missing 'new' operator to all calls"), Add_names_to_all_parameters_without_names: diag(95073, ts.DiagnosticCategory.Message, "Add_names_to_all_parameters_without_names_95073", "Add names to all parameters without names"), Enable_the_experimentalDecorators_option_in_your_configuration_file: diag(95074, ts.DiagnosticCategory.Message, "Enable_the_experimentalDecorators_option_in_your_configuration_file_95074", "Enable the 'experimentalDecorators' option in your configuration file"), Convert_parameters_to_destructured_object: diag(95075, ts.DiagnosticCategory.Message, "Convert_parameters_to_destructured_object_95075", "Convert parameters to destructured object"), Allow_accessing_UMD_globals_from_modules: diag(95076, ts.DiagnosticCategory.Message, "Allow_accessing_UMD_globals_from_modules_95076", "Allow accessing UMD globals from modules."), Extract_type: diag(95077, ts.DiagnosticCategory.Message, "Extract_type_95077", "Extract type"), Extract_to_type_alias: diag(95078, ts.DiagnosticCategory.Message, "Extract_to_type_alias_95078", "Extract to type alias"), Extract_to_typedef: diag(95079, ts.DiagnosticCategory.Message, "Extract_to_typedef_95079", "Extract to typedef"), Infer_this_type_of_0_from_usage: diag(95080, ts.DiagnosticCategory.Message, "Infer_this_type_of_0_from_usage_95080", "Infer 'this' type of '{0}' from usage"), Add_const_to_unresolved_variable: diag(95081, ts.DiagnosticCategory.Message, "Add_const_to_unresolved_variable_95081", "Add 'const' to unresolved variable"), Add_const_to_all_unresolved_variables: diag(95082, ts.DiagnosticCategory.Message, "Add_const_to_all_unresolved_variables_95082", "Add 'const' to all unresolved variables"), Add_await: diag(95083, ts.DiagnosticCategory.Message, "Add_await_95083", "Add 'await'"), Add_await_to_initializer_for_0: diag(95084, ts.DiagnosticCategory.Message, "Add_await_to_initializer_for_0_95084", "Add 'await' to initializer for '{0}'"), Fix_all_expressions_possibly_missing_await: diag(95085, ts.DiagnosticCategory.Message, "Fix_all_expressions_possibly_missing_await_95085", "Fix all expressions possibly missing 'await'"), Remove_unnecessary_await: diag(95086, ts.DiagnosticCategory.Message, "Remove_unnecessary_await_95086", "Remove unnecessary 'await'"), Remove_all_unnecessary_uses_of_await: diag(95087, ts.DiagnosticCategory.Message, "Remove_all_unnecessary_uses_of_await_95087", "Remove all unnecessary uses of 'await'"), Enable_the_jsx_flag_in_your_configuration_file: diag(95088, ts.DiagnosticCategory.Message, "Enable_the_jsx_flag_in_your_configuration_file_95088", "Enable the '--jsx' flag in your configuration file"), Add_await_to_initializers: diag(95089, ts.DiagnosticCategory.Message, "Add_await_to_initializers_95089", "Add 'await' to initializers"), Extract_to_interface: diag(95090, ts.DiagnosticCategory.Message, "Extract_to_interface_95090", "Extract to interface"), Convert_to_a_bigint_numeric_literal: diag(95091, ts.DiagnosticCategory.Message, "Convert_to_a_bigint_numeric_literal_95091", "Convert to a bigint numeric literal"), Convert_all_to_bigint_numeric_literals: diag(95092, ts.DiagnosticCategory.Message, "Convert_all_to_bigint_numeric_literals_95092", "Convert all to bigint numeric literals"), Convert_const_to_let: diag(95093, ts.DiagnosticCategory.Message, "Convert_const_to_let_95093", "Convert 'const' to 'let'"), Prefix_with_declare: diag(95094, ts.DiagnosticCategory.Message, "Prefix_with_declare_95094", "Prefix with 'declare'"), Prefix_all_incorrect_property_declarations_with_declare: diag(95095, ts.DiagnosticCategory.Message, "Prefix_all_incorrect_property_declarations_with_declare_95095", "Prefix all incorrect property declarations with 'declare'"), Convert_to_template_string: diag(95096, ts.DiagnosticCategory.Message, "Convert_to_template_string_95096", "Convert to template string"), Add_export_to_make_this_file_into_a_module: diag(95097, ts.DiagnosticCategory.Message, "Add_export_to_make_this_file_into_a_module_95097", "Add 'export {}' to make this file into a module"), Set_the_target_option_in_your_configuration_file_to_0: diag(95098, ts.DiagnosticCategory.Message, "Set_the_target_option_in_your_configuration_file_to_0_95098", "Set the 'target' option in your configuration file to '{0}'"), Set_the_module_option_in_your_configuration_file_to_0: diag(95099, ts.DiagnosticCategory.Message, "Set_the_module_option_in_your_configuration_file_to_0_95099", "Set the 'module' option in your configuration file to '{0}'"), Convert_invalid_character_to_its_html_entity_code: diag(95100, ts.DiagnosticCategory.Message, "Convert_invalid_character_to_its_html_entity_code_95100", "Convert invalid character to its html entity code"), Convert_all_invalid_characters_to_HTML_entity_code: diag(95101, ts.DiagnosticCategory.Message, "Convert_all_invalid_characters_to_HTML_entity_code_95101", "Convert all invalid characters to HTML entity code"), Add_class_tag: diag(95102, ts.DiagnosticCategory.Message, "Add_class_tag_95102", "Add '@class' tag"), Add_this_tag: diag(95103, ts.DiagnosticCategory.Message, "Add_this_tag_95103", "Add '@this' tag"), Add_this_parameter: diag(95104, ts.DiagnosticCategory.Message, "Add_this_parameter_95104", "Add 'this' parameter."), Convert_function_expression_0_to_arrow_function: diag(95105, ts.DiagnosticCategory.Message, "Convert_function_expression_0_to_arrow_function_95105", "Convert function expression '{0}' to arrow function"), Convert_function_declaration_0_to_arrow_function: diag(95106, ts.DiagnosticCategory.Message, "Convert_function_declaration_0_to_arrow_function_95106", "Convert function declaration '{0}' to arrow function"), Fix_all_implicit_this_errors: diag(95107, ts.DiagnosticCategory.Message, "Fix_all_implicit_this_errors_95107", "Fix all implicit-'this' errors"), Wrap_invalid_character_in_an_expression_container: diag(95108, ts.DiagnosticCategory.Message, "Wrap_invalid_character_in_an_expression_container_95108", "Wrap invalid character in an expression container"), Wrap_all_invalid_characters_in_an_expression_container: diag(95109, ts.DiagnosticCategory.Message, "Wrap_all_invalid_characters_in_an_expression_container_95109", "Wrap all invalid characters in an expression container"), Visit_https_Colon_Slash_Slashaka_ms_Slashtsconfig_json_to_read_more_about_this_file: diag(95110, ts.DiagnosticCategory.Message, "Visit_https_Colon_Slash_Slashaka_ms_Slashtsconfig_json_to_read_more_about_this_file_95110", "Visit https://aka.ms/tsconfig.json to read more about this file"), Add_a_return_statement: diag(95111, ts.DiagnosticCategory.Message, "Add_a_return_statement_95111", "Add a return statement"), Remove_block_body_braces: diag(95112, ts.DiagnosticCategory.Message, "Remove_block_body_braces_95112", "Remove block body braces"), Wrap_the_following_body_with_parentheses_which_should_be_an_object_literal: diag(95113, ts.DiagnosticCategory.Message, "Wrap_the_following_body_with_parentheses_which_should_be_an_object_literal_95113", "Wrap the following body with parentheses which should be an object literal"), Add_all_missing_return_statement: diag(95114, ts.DiagnosticCategory.Message, "Add_all_missing_return_statement_95114", "Add all missing return statement"), Remove_all_incorrect_body_block_braces: diag(95115, ts.DiagnosticCategory.Message, "Remove_all_incorrect_body_block_braces_95115", "Remove all incorrect body block braces"), Wrap_all_object_literal_with_parentheses: diag(95116, ts.DiagnosticCategory.Message, "Wrap_all_object_literal_with_parentheses_95116", "Wrap all object literal with parentheses"), No_value_exists_in_scope_for_the_shorthand_property_0_Either_declare_one_or_provide_an_initializer: diag(18004, ts.DiagnosticCategory.Error, "No_value_exists_in_scope_for_the_shorthand_property_0_Either_declare_one_or_provide_an_initializer_18004", "No value exists in scope for the shorthand property '{0}'. Either declare one or provide an initializer."), Classes_may_not_have_a_field_named_constructor: diag(18006, ts.DiagnosticCategory.Error, "Classes_may_not_have_a_field_named_constructor_18006", "Classes may not have a field named 'constructor'."), JSX_expressions_may_not_use_the_comma_operator_Did_you_mean_to_write_an_array: diag(18007, ts.DiagnosticCategory.Error, "JSX_expressions_may_not_use_the_comma_operator_Did_you_mean_to_write_an_array_18007", "JSX expressions may not use the comma operator. Did you mean to write an array?"), Private_identifiers_cannot_be_used_as_parameters: diag(18009, ts.DiagnosticCategory.Error, "Private_identifiers_cannot_be_used_as_parameters_18009", "Private identifiers cannot be used as parameters"), An_accessibility_modifier_cannot_be_used_with_a_private_identifier: diag(18010, ts.DiagnosticCategory.Error, "An_accessibility_modifier_cannot_be_used_with_a_private_identifier_18010", "An accessibility modifier cannot be used with a private identifier."), The_operand_of_a_delete_operator_cannot_be_a_private_identifier: diag(18011, ts.DiagnosticCategory.Error, "The_operand_of_a_delete_operator_cannot_be_a_private_identifier_18011", "The operand of a 'delete' operator cannot be a private identifier."), constructor_is_a_reserved_word: diag(18012, ts.DiagnosticCategory.Error, "constructor_is_a_reserved_word_18012", "'#constructor' is a reserved word."), Property_0_is_not_accessible_outside_class_1_because_it_has_a_private_identifier: diag(18013, ts.DiagnosticCategory.Error, "Property_0_is_not_accessible_outside_class_1_because_it_has_a_private_identifier_18013", "Property '{0}' is not accessible outside class '{1}' because it has a private identifier."), The_property_0_cannot_be_accessed_on_type_1_within_this_class_because_it_is_shadowed_by_another_private_identifier_with_the_same_spelling: diag(18014, ts.DiagnosticCategory.Error, "The_property_0_cannot_be_accessed_on_type_1_within_this_class_because_it_is_shadowed_by_another_priv_18014", "The property '{0}' cannot be accessed on type '{1}' within this class because it is shadowed by another private identifier with the same spelling."), Property_0_in_type_1_refers_to_a_different_member_that_cannot_be_accessed_from_within_type_2: diag(18015, ts.DiagnosticCategory.Error, "Property_0_in_type_1_refers_to_a_different_member_that_cannot_be_accessed_from_within_type_2_18015", "Property '{0}' in type '{1}' refers to a different member that cannot be accessed from within type '{2}'."), Private_identifiers_are_not_allowed_outside_class_bodies: diag(18016, ts.DiagnosticCategory.Error, "Private_identifiers_are_not_allowed_outside_class_bodies_18016", "Private identifiers are not allowed outside class bodies."), The_shadowing_declaration_of_0_is_defined_here: diag(18017, ts.DiagnosticCategory.Error, "The_shadowing_declaration_of_0_is_defined_here_18017", "The shadowing declaration of '{0}' is defined here"), The_declaration_of_0_that_you_probably_intended_to_use_is_defined_here: diag(18018, ts.DiagnosticCategory.Error, "The_declaration_of_0_that_you_probably_intended_to_use_is_defined_here_18018", "The declaration of '{0}' that you probably intended to use is defined here"), _0_modifier_cannot_be_used_with_a_private_identifier: diag(18019, ts.DiagnosticCategory.Error, "_0_modifier_cannot_be_used_with_a_private_identifier_18019", "'{0}' modifier cannot be used with a private identifier"), A_method_cannot_be_named_with_a_private_identifier: diag(18022, ts.DiagnosticCategory.Error, "A_method_cannot_be_named_with_a_private_identifier_18022", "A method cannot be named with a private identifier."), An_accessor_cannot_be_named_with_a_private_identifier: diag(18023, ts.DiagnosticCategory.Error, "An_accessor_cannot_be_named_with_a_private_identifier_18023", "An accessor cannot be named with a private identifier."), An_enum_member_cannot_be_named_with_a_private_identifier: diag(18024, ts.DiagnosticCategory.Error, "An_enum_member_cannot_be_named_with_a_private_identifier_18024", "An enum member cannot be named with a private identifier."), can_only_be_used_at_the_start_of_a_file: diag(18026, ts.DiagnosticCategory.Error, "can_only_be_used_at_the_start_of_a_file_18026", "'#!' can only be used at the start of a file."), Compiler_reserves_name_0_when_emitting_private_identifier_downlevel: diag(18027, ts.DiagnosticCategory.Error, "Compiler_reserves_name_0_when_emitting_private_identifier_downlevel_18027", "Compiler reserves name '{0}' when emitting private identifier downlevel."), Private_identifiers_are_only_available_when_targeting_ECMAScript_2015_and_higher: diag(18028, ts.DiagnosticCategory.Error, "Private_identifiers_are_only_available_when_targeting_ECMAScript_2015_and_higher_18028", "Private identifiers are only available when targeting ECMAScript 2015 and higher."), Private_identifiers_are_not_allowed_in_variable_declarations: diag(18029, ts.DiagnosticCategory.Error, "Private_identifiers_are_not_allowed_in_variable_declarations_18029", "Private identifiers are not allowed in variable declarations."), An_optional_chain_cannot_contain_private_identifiers: diag(18030, ts.DiagnosticCategory.Error, "An_optional_chain_cannot_contain_private_identifiers_18030", "An optional chain cannot contain private identifiers."), The_intersection_0_was_reduced_to_never_because_property_1_has_conflicting_types_in_some_constituents: diag(18031, ts.DiagnosticCategory.Error, "The_intersection_0_was_reduced_to_never_because_property_1_has_conflicting_types_in_some_constituent_18031", "The intersection '{0}' was reduced to 'never' because property '{1}' has conflicting types in some constituents."), The_intersection_0_was_reduced_to_never_because_property_1_exists_in_multiple_constituents_and_is_private_in_some: diag(18032, ts.DiagnosticCategory.Error, "The_intersection_0_was_reduced_to_never_because_property_1_exists_in_multiple_constituents_and_is_pr_18032", "The intersection '{0}' was reduced to 'never' because property '{1}' exists in multiple constituents and is private in some."), Only_numeric_enums_can_have_computed_members_but_this_expression_has_type_0_If_you_do_not_need_exhaustiveness_checks_consider_using_an_object_literal_instead: diag(18033, ts.DiagnosticCategory.Error, "Only_numeric_enums_can_have_computed_members_but_this_expression_has_type_0_If_you_do_not_need_exhau_18033", "Only numeric enums can have computed members, but this expression has type '{0}'. If you do not need exhaustiveness checks, consider using an object literal instead."), }; })(ts || (ts = {})); var ts; (function (ts) { var _a; /* @internal */ function tokenIsIdentifierOrKeyword(token) { return token >= 75 /* Identifier */; } ts.tokenIsIdentifierOrKeyword = tokenIsIdentifierOrKeyword; /* @internal */ function tokenIsIdentifierOrKeywordOrGreaterThan(token) { return token === 31 /* GreaterThanToken */ || tokenIsIdentifierOrKeyword(token); } ts.tokenIsIdentifierOrKeywordOrGreaterThan = tokenIsIdentifierOrKeywordOrGreaterThan; var textToKeywordObj = (_a = { abstract: 122 /* AbstractKeyword */, any: 125 /* AnyKeyword */, as: 123 /* AsKeyword */, asserts: 124 /* AssertsKeyword */, bigint: 151 /* BigIntKeyword */, boolean: 128 /* BooleanKeyword */, break: 77 /* BreakKeyword */, case: 78 /* CaseKeyword */, catch: 79 /* CatchKeyword */, class: 80 /* ClassKeyword */, continue: 82 /* ContinueKeyword */, const: 81 /* ConstKeyword */ }, _a["" + "constructor"] = 129 /* ConstructorKeyword */, _a.debugger = 83 /* DebuggerKeyword */, _a.declare = 130 /* DeclareKeyword */, _a.default = 84 /* DefaultKeyword */, _a.delete = 85 /* DeleteKeyword */, _a.do = 86 /* DoKeyword */, _a.else = 87 /* ElseKeyword */, _a.enum = 88 /* EnumKeyword */, _a.export = 89 /* ExportKeyword */, _a.extends = 90 /* ExtendsKeyword */, _a.false = 91 /* FalseKeyword */, _a.finally = 92 /* FinallyKeyword */, _a.for = 93 /* ForKeyword */, _a.from = 149 /* FromKeyword */, _a.function = 94 /* FunctionKeyword */, _a.get = 131 /* GetKeyword */, _a.if = 95 /* IfKeyword */, _a.implements = 113 /* ImplementsKeyword */, _a.import = 96 /* ImportKeyword */, _a.in = 97 /* InKeyword */, _a.infer = 132 /* InferKeyword */, _a.instanceof = 98 /* InstanceOfKeyword */, _a.interface = 114 /* InterfaceKeyword */, _a.is = 133 /* IsKeyword */, _a.keyof = 134 /* KeyOfKeyword */, _a.let = 115 /* LetKeyword */, _a.module = 135 /* ModuleKeyword */, _a.namespace = 136 /* NamespaceKeyword */, _a.never = 137 /* NeverKeyword */, _a.new = 99 /* NewKeyword */, _a.null = 100 /* NullKeyword */, _a.number = 140 /* NumberKeyword */, _a.object = 141 /* ObjectKeyword */, _a.package = 116 /* PackageKeyword */, _a.private = 117 /* PrivateKeyword */, _a.protected = 118 /* ProtectedKeyword */, _a.public = 119 /* PublicKeyword */, _a.readonly = 138 /* ReadonlyKeyword */, _a.require = 139 /* RequireKeyword */, _a.global = 150 /* GlobalKeyword */, _a.return = 101 /* ReturnKeyword */, _a.set = 142 /* SetKeyword */, _a.static = 120 /* StaticKeyword */, _a.string = 143 /* StringKeyword */, _a.super = 102 /* SuperKeyword */, _a.switch = 103 /* SwitchKeyword */, _a.symbol = 144 /* SymbolKeyword */, _a.this = 104 /* ThisKeyword */, _a.throw = 105 /* ThrowKeyword */, _a.true = 106 /* TrueKeyword */, _a.try = 107 /* TryKeyword */, _a.type = 145 /* TypeKeyword */, _a.typeof = 108 /* TypeOfKeyword */, _a.undefined = 146 /* UndefinedKeyword */, _a.unique = 147 /* UniqueKeyword */, _a.unknown = 148 /* UnknownKeyword */, _a.var = 109 /* VarKeyword */, _a.void = 110 /* VoidKeyword */, _a.while = 111 /* WhileKeyword */, _a.with = 112 /* WithKeyword */, _a.yield = 121 /* YieldKeyword */, _a.async = 126 /* AsyncKeyword */, _a.await = 127 /* AwaitKeyword */, _a.of = 152 /* OfKeyword */, _a); var textToKeyword = ts.createMapFromTemplate(textToKeywordObj); var textToToken = ts.createMapFromTemplate(__assign(__assign({}, textToKeywordObj), { "{": 18 /* OpenBraceToken */, "}": 19 /* CloseBraceToken */, "(": 20 /* OpenParenToken */, ")": 21 /* CloseParenToken */, "[": 22 /* OpenBracketToken */, "]": 23 /* CloseBracketToken */, ".": 24 /* DotToken */, "...": 25 /* DotDotDotToken */, ";": 26 /* SemicolonToken */, ",": 27 /* CommaToken */, "<": 29 /* LessThanToken */, ">": 31 /* GreaterThanToken */, "<=": 32 /* LessThanEqualsToken */, ">=": 33 /* GreaterThanEqualsToken */, "==": 34 /* EqualsEqualsToken */, "!=": 35 /* ExclamationEqualsToken */, "===": 36 /* EqualsEqualsEqualsToken */, "!==": 37 /* ExclamationEqualsEqualsToken */, "=>": 38 /* EqualsGreaterThanToken */, "+": 39 /* PlusToken */, "-": 40 /* MinusToken */, "**": 42 /* AsteriskAsteriskToken */, "*": 41 /* AsteriskToken */, "/": 43 /* SlashToken */, "%": 44 /* PercentToken */, "++": 45 /* PlusPlusToken */, "--": 46 /* MinusMinusToken */, "<<": 47 /* LessThanLessThanToken */, ">": 48 /* GreaterThanGreaterThanToken */, ">>>": 49 /* GreaterThanGreaterThanGreaterThanToken */, "&": 50 /* AmpersandToken */, "|": 51 /* BarToken */, "^": 52 /* CaretToken */, "!": 53 /* ExclamationToken */, "~": 54 /* TildeToken */, "&&": 55 /* AmpersandAmpersandToken */, "||": 56 /* BarBarToken */, "?": 57 /* QuestionToken */, "??": 60 /* QuestionQuestionToken */, "?.": 28 /* QuestionDotToken */, ":": 58 /* ColonToken */, "=": 62 /* EqualsToken */, "+=": 63 /* PlusEqualsToken */, "-=": 64 /* MinusEqualsToken */, "*=": 65 /* AsteriskEqualsToken */, "**=": 66 /* AsteriskAsteriskEqualsToken */, "/=": 67 /* SlashEqualsToken */, "%=": 68 /* PercentEqualsToken */, "<<=": 69 /* LessThanLessThanEqualsToken */, ">>=": 70 /* GreaterThanGreaterThanEqualsToken */, ">>>=": 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */, "&=": 72 /* AmpersandEqualsToken */, "|=": 73 /* BarEqualsToken */, "^=": 74 /* CaretEqualsToken */, "@": 59 /* AtToken */, "`": 61 /* BacktickToken */ })); /* As per ECMAScript Language Specification 3th Edition, Section 7.6: Identifiers IdentifierStart :: Can contain Unicode 3.0.0 categories: Uppercase letter (Lu), Lowercase letter (Ll), Titlecase letter (Lt), Modifier letter (Lm), Other letter (Lo), or Letter number (Nl). IdentifierPart :: = Can contain IdentifierStart + Unicode 3.0.0 categories: Non-spacing mark (Mn), Combining spacing mark (Mc), Decimal number (Nd), or Connector punctuation (Pc). Codepoint ranges for ES3 Identifiers are extracted from the Unicode 3.0.0 specification at: http://www.unicode.org/Public/3.0-Update/UnicodeData-3.0.0.txt */ var unicodeES3IdentifierStart = [170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 543, 546, 563, 592, 685, 688, 696, 699, 705, 720, 721, 736, 740, 750, 750, 890, 890, 902, 902, 904, 906, 908, 908, 910, 929, 931, 974, 976, 983, 986, 1011, 1024, 1153, 1164, 1220, 1223, 1224, 1227, 1228, 1232, 1269, 1272, 1273, 1329, 1366, 1369, 1369, 1377, 1415, 1488, 1514, 1520, 1522, 1569, 1594, 1600, 1610, 1649, 1747, 1749, 1749, 1765, 1766, 1786, 1788, 1808, 1808, 1810, 1836, 1920, 1957, 2309, 2361, 2365, 2365, 2384, 2384, 2392, 2401, 2437, 2444, 2447, 2448, 2451, 2472, 2474, 2480, 2482, 2482, 2486, 2489, 2524, 2525, 2527, 2529, 2544, 2545, 2565, 2570, 2575, 2576, 2579, 2600, 2602, 2608, 2610, 2611, 2613, 2614, 2616, 2617, 2649, 2652, 2654, 2654, 2674, 2676, 2693, 2699, 2701, 2701, 2703, 2705, 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2749, 2749, 2768, 2768, 2784, 2784, 2821, 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2870, 2873, 2877, 2877, 2908, 2909, 2911, 2913, 2949, 2954, 2958, 2960, 2962, 2965, 2969, 2970, 2972, 2972, 2974, 2975, 2979, 2980, 2984, 2986, 2990, 2997, 2999, 3001, 3077, 3084, 3086, 3088, 3090, 3112, 3114, 3123, 3125, 3129, 3168, 3169, 3205, 3212, 3214, 3216, 3218, 3240, 3242, 3251, 3253, 3257, 3294, 3294, 3296, 3297, 3333, 3340, 3342, 3344, 3346, 3368, 3370, 3385, 3424, 3425, 3461, 3478, 3482, 3505, 3507, 3515, 3517, 3517, 3520, 3526, 3585, 3632, 3634, 3635, 3648, 3654, 3713, 3714, 3716, 3716, 3719, 3720, 3722, 3722, 3725, 3725, 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751, 3751, 3754, 3755, 3757, 3760, 3762, 3763, 3773, 3773, 3776, 3780, 3782, 3782, 3804, 3805, 3840, 3840, 3904, 3911, 3913, 3946, 3976, 3979, 4096, 4129, 4131, 4135, 4137, 4138, 4176, 4181, 4256, 4293, 4304, 4342, 4352, 4441, 4447, 4514, 4520, 4601, 4608, 4614, 4616, 4678, 4680, 4680, 4682, 4685, 4688, 4694, 4696, 4696, 4698, 4701, 4704, 4742, 4744, 4744, 4746, 4749, 4752, 4782, 4784, 4784, 4786, 4789, 4792, 4798, 4800, 4800, 4802, 4805, 4808, 4814, 4816, 4822, 4824, 4846, 4848, 4878, 4880, 4880, 4882, 4885, 4888, 4894, 4896, 4934, 4936, 4954, 5024, 5108, 5121, 5740, 5743, 5750, 5761, 5786, 5792, 5866, 6016, 6067, 6176, 6263, 6272, 6312, 7680, 7835, 7840, 7929, 7936, 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025, 8027, 8027, 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130, 8132, 8134, 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188, 8319, 8319, 8450, 8450, 8455, 8455, 8458, 8467, 8469, 8469, 8473, 8477, 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8497, 8499, 8505, 8544, 8579, 12293, 12295, 12321, 12329, 12337, 12341, 12344, 12346, 12353, 12436, 12445, 12446, 12449, 12538, 12540, 12542, 12549, 12588, 12593, 12686, 12704, 12727, 13312, 19893, 19968, 40869, 40960, 42124, 44032, 55203, 63744, 64045, 64256, 64262, 64275, 64279, 64285, 64285, 64287, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321, 64323, 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008, 65019, 65136, 65138, 65140, 65140, 65142, 65276, 65313, 65338, 65345, 65370, 65382, 65470, 65474, 65479, 65482, 65487, 65490, 65495, 65498, 65500,]; var unicodeES3IdentifierPart = [170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 543, 546, 563, 592, 685, 688, 696, 699, 705, 720, 721, 736, 740, 750, 750, 768, 846, 864, 866, 890, 890, 902, 902, 904, 906, 908, 908, 910, 929, 931, 974, 976, 983, 986, 1011, 1024, 1153, 1155, 1158, 1164, 1220, 1223, 1224, 1227, 1228, 1232, 1269, 1272, 1273, 1329, 1366, 1369, 1369, 1377, 1415, 1425, 1441, 1443, 1465, 1467, 1469, 1471, 1471, 1473, 1474, 1476, 1476, 1488, 1514, 1520, 1522, 1569, 1594, 1600, 1621, 1632, 1641, 1648, 1747, 1749, 1756, 1759, 1768, 1770, 1773, 1776, 1788, 1808, 1836, 1840, 1866, 1920, 1968, 2305, 2307, 2309, 2361, 2364, 2381, 2384, 2388, 2392, 2403, 2406, 2415, 2433, 2435, 2437, 2444, 2447, 2448, 2451, 2472, 2474, 2480, 2482, 2482, 2486, 2489, 2492, 2492, 2494, 2500, 2503, 2504, 2507, 2509, 2519, 2519, 2524, 2525, 2527, 2531, 2534, 2545, 2562, 2562, 2565, 2570, 2575, 2576, 2579, 2600, 2602, 2608, 2610, 2611, 2613, 2614, 2616, 2617, 2620, 2620, 2622, 2626, 2631, 2632, 2635, 2637, 2649, 2652, 2654, 2654, 2662, 2676, 2689, 2691, 2693, 2699, 2701, 2701, 2703, 2705, 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2748, 2757, 2759, 2761, 2763, 2765, 2768, 2768, 2784, 2784, 2790, 2799, 2817, 2819, 2821, 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2870, 2873, 2876, 2883, 2887, 2888, 2891, 2893, 2902, 2903, 2908, 2909, 2911, 2913, 2918, 2927, 2946, 2947, 2949, 2954, 2958, 2960, 2962, 2965, 2969, 2970, 2972, 2972, 2974, 2975, 2979, 2980, 2984, 2986, 2990, 2997, 2999, 3001, 3006, 3010, 3014, 3016, 3018, 3021, 3031, 3031, 3047, 3055, 3073, 3075, 3077, 3084, 3086, 3088, 3090, 3112, 3114, 3123, 3125, 3129, 3134, 3140, 3142, 3144, 3146, 3149, 3157, 3158, 3168, 3169, 3174, 3183, 3202, 3203, 3205, 3212, 3214, 3216, 3218, 3240, 3242, 3251, 3253, 3257, 3262, 3268, 3270, 3272, 3274, 3277, 3285, 3286, 3294, 3294, 3296, 3297, 3302, 3311, 3330, 3331, 3333, 3340, 3342, 3344, 3346, 3368, 3370, 3385, 3390, 3395, 3398, 3400, 3402, 3405, 3415, 3415, 3424, 3425, 3430, 3439, 3458, 3459, 3461, 3478, 3482, 3505, 3507, 3515, 3517, 3517, 3520, 3526, 3530, 3530, 3535, 3540, 3542, 3542, 3544, 3551, 3570, 3571, 3585, 3642, 3648, 3662, 3664, 3673, 3713, 3714, 3716, 3716, 3719, 3720, 3722, 3722, 3725, 3725, 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751, 3751, 3754, 3755, 3757, 3769, 3771, 3773, 3776, 3780, 3782, 3782, 3784, 3789, 3792, 3801, 3804, 3805, 3840, 3840, 3864, 3865, 3872, 3881, 3893, 3893, 3895, 3895, 3897, 3897, 3902, 3911, 3913, 3946, 3953, 3972, 3974, 3979, 3984, 3991, 3993, 4028, 4038, 4038, 4096, 4129, 4131, 4135, 4137, 4138, 4140, 4146, 4150, 4153, 4160, 4169, 4176, 4185, 4256, 4293, 4304, 4342, 4352, 4441, 4447, 4514, 4520, 4601, 4608, 4614, 4616, 4678, 4680, 4680, 4682, 4685, 4688, 4694, 4696, 4696, 4698, 4701, 4704, 4742, 4744, 4744, 4746, 4749, 4752, 4782, 4784, 4784, 4786, 4789, 4792, 4798, 4800, 4800, 4802, 4805, 4808, 4814, 4816, 4822, 4824, 4846, 4848, 4878, 4880, 4880, 4882, 4885, 4888, 4894, 4896, 4934, 4936, 4954, 4969, 4977, 5024, 5108, 5121, 5740, 5743, 5750, 5761, 5786, 5792, 5866, 6016, 6099, 6112, 6121, 6160, 6169, 6176, 6263, 6272, 6313, 7680, 7835, 7840, 7929, 7936, 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025, 8027, 8027, 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130, 8132, 8134, 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188, 8255, 8256, 8319, 8319, 8400, 8412, 8417, 8417, 8450, 8450, 8455, 8455, 8458, 8467, 8469, 8469, 8473, 8477, 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8497, 8499, 8505, 8544, 8579, 12293, 12295, 12321, 12335, 12337, 12341, 12344, 12346, 12353, 12436, 12441, 12442, 12445, 12446, 12449, 12542, 12549, 12588, 12593, 12686, 12704, 12727, 13312, 19893, 19968, 40869, 40960, 42124, 44032, 55203, 63744, 64045, 64256, 64262, 64275, 64279, 64285, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321, 64323, 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008, 65019, 65056, 65059, 65075, 65076, 65101, 65103, 65136, 65138, 65140, 65140, 65142, 65276, 65296, 65305, 65313, 65338, 65343, 65343, 65345, 65370, 65381, 65470, 65474, 65479, 65482, 65487, 65490, 65495, 65498, 65500,]; /* As per ECMAScript Language Specification 5th Edition, Section 7.6: ISyntaxToken Names and Identifiers IdentifierStart :: Can contain Unicode 6.2 categories: Uppercase letter (Lu), Lowercase letter (Ll), Titlecase letter (Lt), Modifier letter (Lm), Other letter (Lo), or Letter number (Nl). IdentifierPart :: Can contain IdentifierStart + Unicode 6.2 categories: Non-spacing mark (Mn), Combining spacing mark (Mc), Decimal number (Nd), Connector punctuation (Pc), , or . Codepoint ranges for ES5 Identifiers are extracted from the Unicode 6.2 specification at: http://www.unicode.org/Public/6.2.0/ucd/UnicodeData.txt */ var unicodeES5IdentifierStart = [170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 705, 710, 721, 736, 740, 748, 748, 750, 750, 880, 884, 886, 887, 890, 893, 902, 902, 904, 906, 908, 908, 910, 929, 931, 1013, 1015, 1153, 1162, 1319, 1329, 1366, 1369, 1369, 1377, 1415, 1488, 1514, 1520, 1522, 1568, 1610, 1646, 1647, 1649, 1747, 1749, 1749, 1765, 1766, 1774, 1775, 1786, 1788, 1791, 1791, 1808, 1808, 1810, 1839, 1869, 1957, 1969, 1969, 1994, 2026, 2036, 2037, 2042, 2042, 2048, 2069, 2074, 2074, 2084, 2084, 2088, 2088, 2112, 2136, 2208, 2208, 2210, 2220, 2308, 2361, 2365, 2365, 2384, 2384, 2392, 2401, 2417, 2423, 2425, 2431, 2437, 2444, 2447, 2448, 2451, 2472, 2474, 2480, 2482, 2482, 2486, 2489, 2493, 2493, 2510, 2510, 2524, 2525, 2527, 2529, 2544, 2545, 2565, 2570, 2575, 2576, 2579, 2600, 2602, 2608, 2610, 2611, 2613, 2614, 2616, 2617, 2649, 2652, 2654, 2654, 2674, 2676, 2693, 2701, 2703, 2705, 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2749, 2749, 2768, 2768, 2784, 2785, 2821, 2828, 2831, 2832, 2835, 2856, 2858, 2864, 2866, 2867, 2869, 2873, 2877, 2877, 2908, 2909, 2911, 2913, 2929, 2929, 2947, 2947, 2949, 2954, 2958, 2960, 2962, 2965, 2969, 2970, 2972, 2972, 2974, 2975, 2979, 2980, 2984, 2986, 2990, 3001, 3024, 3024, 3077, 3084, 3086, 3088, 3090, 3112, 3114, 3123, 3125, 3129, 3133, 3133, 3160, 3161, 3168, 3169, 3205, 3212, 3214, 3216, 3218, 3240, 3242, 3251, 3253, 3257, 3261, 3261, 3294, 3294, 3296, 3297, 3313, 3314, 3333, 3340, 3342, 3344, 3346, 3386, 3389, 3389, 3406, 3406, 3424, 3425, 3450, 3455, 3461, 3478, 3482, 3505, 3507, 3515, 3517, 3517, 3520, 3526, 3585, 3632, 3634, 3635, 3648, 3654, 3713, 3714, 3716, 3716, 3719, 3720, 3722, 3722, 3725, 3725, 3732, 3735, 3737, 3743, 3745, 3747, 3749, 3749, 3751, 3751, 3754, 3755, 3757, 3760, 3762, 3763, 3773, 3773, 3776, 3780, 3782, 3782, 3804, 3807, 3840, 3840, 3904, 3911, 3913, 3948, 3976, 3980, 4096, 4138, 4159, 4159, 4176, 4181, 4186, 4189, 4193, 4193, 4197, 4198, 4206, 4208, 4213, 4225, 4238, 4238, 4256, 4293, 4295, 4295, 4301, 4301, 4304, 4346, 4348, 4680, 4682, 4685, 4688, 4694, 4696, 4696, 4698, 4701, 4704, 4744, 4746, 4749, 4752, 4784, 4786, 4789, 4792, 4798, 4800, 4800, 4802, 4805, 4808, 4822, 4824, 4880, 4882, 4885, 4888, 4954, 4992, 5007, 5024, 5108, 5121, 5740, 5743, 5759, 5761, 5786, 5792, 5866, 5870, 5872, 5888, 5900, 5902, 5905, 5920, 5937, 5952, 5969, 5984, 5996, 5998, 6000, 6016, 6067, 6103, 6103, 6108, 6108, 6176, 6263, 6272, 6312, 6314, 6314, 6320, 6389, 6400, 6428, 6480, 6509, 6512, 6516, 6528, 6571, 6593, 6599, 6656, 6678, 6688, 6740, 6823, 6823, 6917, 6963, 6981, 6987, 7043, 7072, 7086, 7087, 7098, 7141, 7168, 7203, 7245, 7247, 7258, 7293, 7401, 7404, 7406, 7409, 7413, 7414, 7424, 7615, 7680, 7957, 7960, 7965, 7968, 8005, 8008, 8013, 8016, 8023, 8025, 8025, 8027, 8027, 8029, 8029, 8031, 8061, 8064, 8116, 8118, 8124, 8126, 8126, 8130, 8132, 8134, 8140, 8144, 8147, 8150, 8155, 8160, 8172, 8178, 8180, 8182, 8188, 8305, 8305, 8319, 8319, 8336, 8348, 8450, 8450, 8455, 8455, 8458, 8467, 8469, 8469, 8473, 8477, 8484, 8484, 8486, 8486, 8488, 8488, 8490, 8493, 8495, 8505, 8508, 8511, 8517, 8521, 8526, 8526, 8544, 8584, 11264, 11310, 11312, 11358, 11360, 11492, 11499, 11502, 11506, 11507, 11520, 11557, 11559, 11559, 11565, 11565, 11568, 11623, 11631, 11631, 11648, 11670, 11680, 11686, 11688, 11694, 11696, 11702, 11704, 11710, 11712, 11718, 11720, 11726, 11728, 11734, 11736, 11742, 11823, 11823, 12293, 12295, 12321, 12329, 12337, 12341, 12344, 12348, 12353, 12438, 12445, 12447, 12449, 12538, 12540, 12543, 12549, 12589, 12593, 12686, 12704, 12730, 12784, 12799, 13312, 19893, 19968, 40908, 40960, 42124, 42192, 42237, 42240, 42508, 42512, 42527, 42538, 42539, 42560, 42606, 42623, 42647, 42656, 42735, 42775, 42783, 42786, 42888, 42891, 42894, 42896, 42899, 42912, 42922, 43000, 43009, 43011, 43013, 43015, 43018, 43020, 43042, 43072, 43123, 43138, 43187, 43250, 43255, 43259, 43259, 43274, 43301, 43312, 43334, 43360, 43388, 43396, 43442, 43471, 43471, 43520, 43560, 43584, 43586, 43588, 43595, 43616, 43638, 43642, 43642, 43648, 43695, 43697, 43697, 43701, 43702, 43705, 43709, 43712, 43712, 43714, 43714, 43739, 43741, 43744, 43754, 43762, 43764, 43777, 43782, 43785, 43790, 43793, 43798, 43808, 43814, 43816, 43822, 43968, 44002, 44032, 55203, 55216, 55238, 55243, 55291, 63744, 64109, 64112, 64217, 64256, 64262, 64275, 64279, 64285, 64285, 64287, 64296, 64298, 64310, 64312, 64316, 64318, 64318, 64320, 64321, 64323, 64324, 64326, 64433, 64467, 64829, 64848, 64911, 64914, 64967, 65008, 65019, 65136, 65140, 65142, 65276, 65313, 65338, 65345, 65370, 65382, 65470, 65474, 65479, 65482, 65487, 65490, 65495, 65498, 65500,]; var unicodeES5IdentifierPart = [170, 170, 181, 181, 186, 186, 192, 214, 216, 246, 248, 705, 710, 721, 736, 740, 748, 748, 750, 750, 768, 884, 886, 887, 890, 893, 902, 902, 904, 906, 908, 908, 910, 929, 931, 1013, 1015, 1153, 1155, 1159, 1162, 1319, 1329, 1366, 1369, 1369, 1377, 1415, 1425, 1469, 1471, 1471, 1473, 1474, 1476, 1477, 1479, 1479, 1488, 1514, 1520, 1522, 1552, 1562, 1568, 1641, 1646, 1747, 1749, 1756, 1759, 1768, 1770, 1788, 1791, 1791, 1808, 1866, 1869, 1969, 1984, 2037, 2042, 2042, 2048, 2093, 2112, 2139, 2208, 2208, 2210, 2220, 2276, 2302, 2304, 2403, 2406, 2415, 2417, 2423, 2425, 2431, 2433, 2435, 2437, 2444, 2447, 2448, 2451, 2472, 2474, 2480, 2482, 2482, 2486, 2489, 2492, 2500, 2503, 2504, 2507, 2510, 2519, 2519, 2524, 2525, 2527, 2531, 2534, 2545, 2561, 2563, 2565, 2570, 2575, 2576, 2579, 2600, 2602, 2608, 2610, 2611, 2613, 2614, 2616, 2617, 2620, 2620, 2622, 2626, 2631, 2632, 2635, 2637, 2641, 2641, 2649, 2652, 2654, 2654, 2662, 2677, 2689, 2691, 2693, 2701, 2703, 2705, 2707, 2728, 2730, 2736, 2738, 2739, 2741, 2745, 2748, 2757, 2759, 2761, 2763, 2765, 2768, 2768, 2784, 2787, 2790, 2799, 2817, 2819, 2821, 2828, 2831, 2832, 2835, 2856, 2858, 2864, 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126559, 126559, 126561, 126562, 126564, 126564, 126567, 126570, 126572, 126578, 126580, 126583, 126585, 126588, 126590, 126590, 126592, 126601, 126603, 126619, 126625, 126627, 126629, 126633, 126635, 126651, 131072, 173782, 173824, 177972, 177984, 178205, 178208, 183969, 183984, 191456, 194560, 195101, 917760, 917999]; /** * Test for whether a single line comment's text contains a directive. */ var commentDirectiveRegExSingleLine = /^\s*\/\/\/?\s*@(ts-expect-error|ts-ignore)/; /** * Test for whether a multi-line comment's last line contains a directive. */ var commentDirectiveRegExMultiLine = /^\s*(?:\/|\*)*\s*@(ts-expect-error|ts-ignore)/; function lookupInUnicodeMap(code, map) { // Bail out quickly if it couldn't possibly be in the map. if (code < map[0]) { return false; } // Perform binary search in one of the Unicode range maps var lo = 0; var hi = map.length; var mid; while (lo + 1 < hi) { mid = lo + (hi - lo) / 2; // mid has to be even to catch a range's beginning mid -= mid % 2; if (map[mid] <= code && code <= map[mid + 1]) { return true; } if (code < map[mid]) { hi = mid; } else { lo = mid + 2; } } return false; } /* @internal */ function isUnicodeIdentifierStart(code, languageVersion) { return languageVersion >= 2 /* ES2015 */ ? lookupInUnicodeMap(code, unicodeESNextIdentifierStart) : languageVersion === 1 /* ES5 */ ? lookupInUnicodeMap(code, unicodeES5IdentifierStart) : lookupInUnicodeMap(code, unicodeES3IdentifierStart); } ts.isUnicodeIdentifierStart = isUnicodeIdentifierStart; function isUnicodeIdentifierPart(code, languageVersion) { return languageVersion >= 2 /* ES2015 */ ? lookupInUnicodeMap(code, unicodeESNextIdentifierPart) : languageVersion === 1 /* ES5 */ ? lookupInUnicodeMap(code, unicodeES5IdentifierPart) : lookupInUnicodeMap(code, unicodeES3IdentifierPart); } function makeReverseMap(source) { var result = []; source.forEach(function (value, name) { result[value] = name; }); return result; } var tokenStrings = makeReverseMap(textToToken); function tokenToString(t) { return tokenStrings[t]; } ts.tokenToString = tokenToString; /* @internal */ function stringToToken(s) { return textToToken.get(s); } ts.stringToToken = stringToToken; /* @internal */ function computeLineStarts(text) { var result = new Array(); var pos = 0; var lineStart = 0; while (pos < text.length) { var ch = text.charCodeAt(pos); pos++; switch (ch) { case 13 /* carriageReturn */: if (text.charCodeAt(pos) === 10 /* lineFeed */) { pos++; } // falls through case 10 /* lineFeed */: result.push(lineStart); lineStart = pos; break; default: if (ch > 127 /* maxAsciiCharacter */ && isLineBreak(ch)) { result.push(lineStart); lineStart = pos; } break; } } result.push(lineStart); return result; } ts.computeLineStarts = computeLineStarts; function getPositionOfLineAndCharacter(sourceFile, line, character, allowEdits) { return sourceFile.getPositionOfLineAndCharacter ? sourceFile.getPositionOfLineAndCharacter(line, character, allowEdits) : computePositionOfLineAndCharacter(getLineStarts(sourceFile), line, character, sourceFile.text, allowEdits); } ts.getPositionOfLineAndCharacter = getPositionOfLineAndCharacter; /* @internal */ function computePositionOfLineAndCharacter(lineStarts, line, character, debugText, allowEdits) { if (line < 0 || line >= lineStarts.length) { if (allowEdits) { // Clamp line to nearest allowable value line = line < 0 ? 0 : line >= lineStarts.length ? lineStarts.length - 1 : line; } else { ts.Debug.fail("Bad line number. Line: " + line + ", lineStarts.length: " + lineStarts.length + " , line map is correct? " + (debugText !== undefined ? ts.arraysEqual(lineStarts, computeLineStarts(debugText)) : "unknown")); } } var res = lineStarts[line] + character; if (allowEdits) { // Clamp to nearest allowable values to allow the underlying to be edited without crashing (accuracy is lost, instead) // TODO: Somehow track edits between file as it was during the creation of sourcemap we have and the current file and // apply them to the computed position to improve accuracy return res > lineStarts[line + 1] ? lineStarts[line + 1] : typeof debugText === "string" && res > debugText.length ? debugText.length : res; } if (line < lineStarts.length - 1) { ts.Debug.assert(res < lineStarts[line + 1]); } else if (debugText !== undefined) { ts.Debug.assert(res <= debugText.length); // Allow single character overflow for trailing newline } return res; } ts.computePositionOfLineAndCharacter = computePositionOfLineAndCharacter; /* @internal */ function getLineStarts(sourceFile) { return sourceFile.lineMap || (sourceFile.lineMap = computeLineStarts(sourceFile.text)); } ts.getLineStarts = getLineStarts; /* @internal */ function computeLineAndCharacterOfPosition(lineStarts, position) { var lineNumber = computeLineOfPosition(lineStarts, position); return { line: lineNumber, character: position - lineStarts[lineNumber] }; } ts.computeLineAndCharacterOfPosition = computeLineAndCharacterOfPosition; /** * @internal * We assume the first line starts at position 0 and 'position' is non-negative. */ function computeLineOfPosition(lineStarts, position, lowerBound) { var lineNumber = ts.binarySearch(lineStarts, position, ts.identity, ts.compareValues, lowerBound); if (lineNumber < 0) { // If the actual position was not found, // the binary search returns the 2's-complement of the next line start // e.g. if the line starts at [5, 10, 23, 80] and the position requested was 20 // then the search will return -2. // // We want the index of the previous line start, so we subtract 1. // Review 2's-complement if this is confusing. lineNumber = ~lineNumber - 1; ts.Debug.assert(lineNumber !== -1, "position cannot precede the beginning of the file"); } return lineNumber; } ts.computeLineOfPosition = computeLineOfPosition; /** @internal */ function getLinesBetweenPositions(sourceFile, pos1, pos2) { if (pos1 === pos2) return 0; var lineStarts = getLineStarts(sourceFile); var lower = Math.min(pos1, pos2); var isNegative = lower === pos2; var upper = isNegative ? pos1 : pos2; var lowerLine = computeLineOfPosition(lineStarts, lower); var upperLine = computeLineOfPosition(lineStarts, upper, lowerLine); return isNegative ? lowerLine - upperLine : upperLine - lowerLine; } ts.getLinesBetweenPositions = getLinesBetweenPositions; function getLineAndCharacterOfPosition(sourceFile, position) { return computeLineAndCharacterOfPosition(getLineStarts(sourceFile), position); } ts.getLineAndCharacterOfPosition = getLineAndCharacterOfPosition; function isWhiteSpaceLike(ch) { return isWhiteSpaceSingleLine(ch) || isLineBreak(ch); } ts.isWhiteSpaceLike = isWhiteSpaceLike; /** Does not include line breaks. For that, see isWhiteSpaceLike. */ function isWhiteSpaceSingleLine(ch) { // Note: nextLine is in the Zs space, and should be considered to be a whitespace. // It is explicitly not a line-break as it isn't in the exact set specified by EcmaScript. return ch === 32 /* space */ || ch === 9 /* tab */ || ch === 11 /* verticalTab */ || ch === 12 /* formFeed */ || ch === 160 /* nonBreakingSpace */ || ch === 133 /* nextLine */ || ch === 5760 /* ogham */ || ch >= 8192 /* enQuad */ && ch <= 8203 /* zeroWidthSpace */ || ch === 8239 /* narrowNoBreakSpace */ || ch === 8287 /* mathematicalSpace */ || ch === 12288 /* ideographicSpace */ || ch === 65279 /* byteOrderMark */; } ts.isWhiteSpaceSingleLine = isWhiteSpaceSingleLine; function isLineBreak(ch) { // ES5 7.3: // The ECMAScript line terminator characters are listed in Table 3. // Table 3: Line Terminator Characters // Code Unit Value Name Formal Name // \u000A Line Feed // \u000D Carriage Return // \u2028 Line separator // \u2029 Paragraph separator // Only the characters in Table 3 are treated as line terminators. Other new line or line // breaking characters are treated as white space but not as line terminators. return ch === 10 /* lineFeed */ || ch === 13 /* carriageReturn */ || ch === 8232 /* lineSeparator */ || ch === 8233 /* paragraphSeparator */; } ts.isLineBreak = isLineBreak; function isDigit(ch) { return ch >= 48 /* _0 */ && ch <= 57 /* _9 */; } function isHexDigit(ch) { return isDigit(ch) || ch >= 65 /* A */ && ch <= 70 /* F */ || ch >= 97 /* a */ && ch <= 102 /* f */; } function isCodePoint(code) { return code <= 0x10FFFF; } /* @internal */ function isOctalDigit(ch) { return ch >= 48 /* _0 */ && ch <= 55 /* _7 */; } ts.isOctalDigit = isOctalDigit; function couldStartTrivia(text, pos) { // Keep in sync with skipTrivia var ch = text.charCodeAt(pos); switch (ch) { case 13 /* carriageReturn */: case 10 /* lineFeed */: case 9 /* tab */: case 11 /* verticalTab */: case 12 /* formFeed */: case 32 /* space */: case 47 /* slash */: // starts of normal trivia // falls through case 60 /* lessThan */: case 124 /* bar */: case 61 /* equals */: case 62 /* greaterThan */: // Starts of conflict marker trivia return true; case 35 /* hash */: // Only if its the beginning can we have #! trivia return pos === 0; default: return ch > 127 /* maxAsciiCharacter */; } } ts.couldStartTrivia = couldStartTrivia; /* @internal */ function skipTrivia(text, pos, stopAfterLineBreak, stopAtComments) { if (stopAtComments === void 0) { stopAtComments = false; } if (ts.positionIsSynthesized(pos)) { return pos; } // Keep in sync with couldStartTrivia while (true) { var ch = text.charCodeAt(pos); switch (ch) { case 13 /* carriageReturn */: if (text.charCodeAt(pos + 1) === 10 /* lineFeed */) { pos++; } // falls through case 10 /* lineFeed */: pos++; if (stopAfterLineBreak) { return pos; } continue; case 9 /* tab */: case 11 /* verticalTab */: case 12 /* formFeed */: case 32 /* space */: pos++; continue; case 47 /* slash */: if (stopAtComments) { break; } if (text.charCodeAt(pos + 1) === 47 /* slash */) { pos += 2; while (pos < text.length) { if (isLineBreak(text.charCodeAt(pos))) { break; } pos++; } continue; } if (text.charCodeAt(pos + 1) === 42 /* asterisk */) { pos += 2; while (pos < text.length) { if (text.charCodeAt(pos) === 42 /* asterisk */ && text.charCodeAt(pos + 1) === 47 /* slash */) { pos += 2; break; } pos++; } continue; } break; case 60 /* lessThan */: case 124 /* bar */: case 61 /* equals */: case 62 /* greaterThan */: if (isConflictMarkerTrivia(text, pos)) { pos = scanConflictMarkerTrivia(text, pos); continue; } break; case 35 /* hash */: if (pos === 0 && isShebangTrivia(text, pos)) { pos = scanShebangTrivia(text, pos); continue; } break; default: if (ch > 127 /* maxAsciiCharacter */ && (isWhiteSpaceLike(ch))) { pos++; continue; } break; } return pos; } } ts.skipTrivia = skipTrivia; // All conflict markers consist of the same character repeated seven times. If it is // a <<<<<<< or >>>>>>> marker then it is also followed by a space. var mergeConflictMarkerLength = "<<<<<<<".length; function isConflictMarkerTrivia(text, pos) { ts.Debug.assert(pos >= 0); // Conflict markers must be at the start of a line. if (pos === 0 || isLineBreak(text.charCodeAt(pos - 1))) { var ch = text.charCodeAt(pos); if ((pos + mergeConflictMarkerLength) < text.length) { for (var i = 0; i < mergeConflictMarkerLength; i++) { if (text.charCodeAt(pos + i) !== ch) { return false; } } return ch === 61 /* equals */ || text.charCodeAt(pos + mergeConflictMarkerLength) === 32 /* space */; } } return false; } function scanConflictMarkerTrivia(text, pos, error) { if (error) { error(ts.Diagnostics.Merge_conflict_marker_encountered, pos, mergeConflictMarkerLength); } var ch = text.charCodeAt(pos); var len = text.length; if (ch === 60 /* lessThan */ || ch === 62 /* greaterThan */) { while (pos < len && !isLineBreak(text.charCodeAt(pos))) { pos++; } } else { ts.Debug.assert(ch === 124 /* bar */ || ch === 61 /* equals */); // Consume everything from the start of a ||||||| or ======= marker to the start // of the next ======= or >>>>>>> marker. while (pos < len) { var currentChar = text.charCodeAt(pos); if ((currentChar === 61 /* equals */ || currentChar === 62 /* greaterThan */) && currentChar !== ch && isConflictMarkerTrivia(text, pos)) { break; } pos++; } } return pos; } var shebangTriviaRegex = /^#!.*/; /*@internal*/ function isShebangTrivia(text, pos) { // Shebangs check must only be done at the start of the file ts.Debug.assert(pos === 0); return shebangTriviaRegex.test(text); } ts.isShebangTrivia = isShebangTrivia; /*@internal*/ function scanShebangTrivia(text, pos) { var shebang = shebangTriviaRegex.exec(text)[0]; pos = pos + shebang.length; return pos; } ts.scanShebangTrivia = scanShebangTrivia; /** * Invokes a callback for each comment range following the provided position. * * Single-line comment ranges include the leading double-slash characters but not the ending * line break. Multi-line comment ranges include the leading slash-asterisk and trailing * asterisk-slash characters. * * @param reduce If true, accumulates the result of calling the callback in a fashion similar * to reduceLeft. If false, iteration stops when the callback returns a truthy value. * @param text The source text to scan. * @param pos The position at which to start scanning. * @param trailing If false, whitespace is skipped until the first line break and comments * between that location and the next token are returned. If true, comments occurring * between the given position and the next line break are returned. * @param cb The callback to execute as each comment range is encountered. * @param state A state value to pass to each iteration of the callback. * @param initial An initial value to pass when accumulating results (when "reduce" is true). * @returns If "reduce" is true, the accumulated value. If "reduce" is false, the first truthy * return value of the callback. */ function iterateCommentRanges(reduce, text, pos, trailing, cb, state, initial) { var pendingPos; var pendingEnd; var pendingKind; var pendingHasTrailingNewLine; var hasPendingCommentRange = false; var collecting = trailing; var accumulator = initial; if (pos === 0) { collecting = true; var shebang = getShebang(text); if (shebang) { pos = shebang.length; } } scan: while (pos >= 0 && pos < text.length) { var ch = text.charCodeAt(pos); switch (ch) { case 13 /* carriageReturn */: if (text.charCodeAt(pos + 1) === 10 /* lineFeed */) { pos++; } // falls through case 10 /* lineFeed */: pos++; if (trailing) { break scan; } collecting = true; if (hasPendingCommentRange) { pendingHasTrailingNewLine = true; } continue; case 9 /* tab */: case 11 /* verticalTab */: case 12 /* formFeed */: case 32 /* space */: pos++; continue; case 47 /* slash */: var nextChar = text.charCodeAt(pos + 1); var hasTrailingNewLine = false; if (nextChar === 47 /* slash */ || nextChar === 42 /* asterisk */) { var kind = nextChar === 47 /* slash */ ? 2 /* SingleLineCommentTrivia */ : 3 /* MultiLineCommentTrivia */; var startPos = pos; pos += 2; if (nextChar === 47 /* slash */) { while (pos < text.length) { if (isLineBreak(text.charCodeAt(pos))) { hasTrailingNewLine = true; break; } pos++; } } else { while (pos < text.length) { if (text.charCodeAt(pos) === 42 /* asterisk */ && text.charCodeAt(pos + 1) === 47 /* slash */) { pos += 2; break; } pos++; } } if (collecting) { if (hasPendingCommentRange) { accumulator = cb(pendingPos, pendingEnd, pendingKind, pendingHasTrailingNewLine, state, accumulator); if (!reduce && accumulator) { // If we are not reducing and we have a truthy result, return it. return accumulator; } } pendingPos = startPos; pendingEnd = pos; pendingKind = kind; pendingHasTrailingNewLine = hasTrailingNewLine; hasPendingCommentRange = true; } continue; } break scan; default: if (ch > 127 /* maxAsciiCharacter */ && (isWhiteSpaceLike(ch))) { if (hasPendingCommentRange && isLineBreak(ch)) { pendingHasTrailingNewLine = true; } pos++; continue; } break scan; } } if (hasPendingCommentRange) { accumulator = cb(pendingPos, pendingEnd, pendingKind, pendingHasTrailingNewLine, state, accumulator); } return accumulator; } function forEachLeadingCommentRange(text, pos, cb, state) { return iterateCommentRanges(/*reduce*/ false, text, pos, /*trailing*/ false, cb, state); } ts.forEachLeadingCommentRange = forEachLeadingCommentRange; function forEachTrailingCommentRange(text, pos, cb, state) { return iterateCommentRanges(/*reduce*/ false, text, pos, /*trailing*/ true, cb, state); } ts.forEachTrailingCommentRange = forEachTrailingCommentRange; function reduceEachLeadingCommentRange(text, pos, cb, state, initial) { return iterateCommentRanges(/*reduce*/ true, text, pos, /*trailing*/ false, cb, state, initial); } ts.reduceEachLeadingCommentRange = reduceEachLeadingCommentRange; function reduceEachTrailingCommentRange(text, pos, cb, state, initial) { return iterateCommentRanges(/*reduce*/ true, text, pos, /*trailing*/ true, cb, state, initial); } ts.reduceEachTrailingCommentRange = reduceEachTrailingCommentRange; function appendCommentRange(pos, end, kind, hasTrailingNewLine, _state, comments) { if (!comments) { comments = []; } comments.push({ kind: kind, pos: pos, end: end, hasTrailingNewLine: hasTrailingNewLine }); return comments; } function getLeadingCommentRanges(text, pos) { return reduceEachLeadingCommentRange(text, pos, appendCommentRange, /*state*/ undefined, /*initial*/ undefined); } ts.getLeadingCommentRanges = getLeadingCommentRanges; function getTrailingCommentRanges(text, pos) { return reduceEachTrailingCommentRange(text, pos, appendCommentRange, /*state*/ undefined, /*initial*/ undefined); } ts.getTrailingCommentRanges = getTrailingCommentRanges; /** Optionally, get the shebang */ function getShebang(text) { var match = shebangTriviaRegex.exec(text); if (match) { return match[0]; } } ts.getShebang = getShebang; function isIdentifierStart(ch, languageVersion) { return ch >= 65 /* A */ && ch <= 90 /* Z */ || ch >= 97 /* a */ && ch <= 122 /* z */ || ch === 36 /* $ */ || ch === 95 /* _ */ || ch > 127 /* maxAsciiCharacter */ && isUnicodeIdentifierStart(ch, languageVersion); } ts.isIdentifierStart = isIdentifierStart; function isIdentifierPart(ch, languageVersion, identifierVariant) { return ch >= 65 /* A */ && ch <= 90 /* Z */ || ch >= 97 /* a */ && ch <= 122 /* z */ || ch >= 48 /* _0 */ && ch <= 57 /* _9 */ || ch === 36 /* $ */ || ch === 95 /* _ */ || // "-" and ":" are valid in JSX Identifiers (identifierVariant === 1 /* JSX */ ? (ch === 45 /* minus */ || ch === 58 /* colon */) : false) || ch > 127 /* maxAsciiCharacter */ && isUnicodeIdentifierPart(ch, languageVersion); } ts.isIdentifierPart = isIdentifierPart; /* @internal */ function isIdentifierText(name, languageVersion, identifierVariant) { var ch = codePointAt(name, 0); if (!isIdentifierStart(ch, languageVersion)) { return false; } for (var i = charSize(ch); i < name.length; i += charSize(ch)) { if (!isIdentifierPart(ch = codePointAt(name, i), languageVersion, identifierVariant)) { return false; } } return true; } ts.isIdentifierText = isIdentifierText; // Creates a scanner over a (possibly unspecified) range of a piece of text. function createScanner(languageVersion, skipTrivia, languageVariant, textInitial, onError, start, length) { if (languageVariant === void 0) { languageVariant = 0 /* Standard */; } var text = textInitial; // Current position (end position of text of current token) var pos; // end of text var end; // Start position of whitespace before current token var startPos; // Start position of text of current token var tokenPos; var token; var tokenValue; var tokenFlags; var commentDirectives; var inJSDocType = 0; setText(text, start, length); var scanner = { getStartPos: function () { return startPos; }, getTextPos: function () { return pos; }, getToken: function () { return token; }, getTokenPos: function () { return tokenPos; }, getTokenText: function () { return text.substring(tokenPos, pos); }, getTokenValue: function () { return tokenValue; }, hasUnicodeEscape: function () { return (tokenFlags & 1024 /* UnicodeEscape */) !== 0; }, hasExtendedUnicodeEscape: function () { return (tokenFlags & 8 /* ExtendedUnicodeEscape */) !== 0; }, hasPrecedingLineBreak: function () { return (tokenFlags & 1 /* PrecedingLineBreak */) !== 0; }, isIdentifier: function () { return token === 75 /* Identifier */ || token > 112 /* LastReservedWord */; }, isReservedWord: function () { return token >= 77 /* FirstReservedWord */ && token <= 112 /* LastReservedWord */; }, isUnterminated: function () { return (tokenFlags & 4 /* Unterminated */) !== 0; }, getCommentDirectives: function () { return commentDirectives; }, getTokenFlags: function () { return tokenFlags; }, reScanGreaterToken: reScanGreaterToken, reScanSlashToken: reScanSlashToken, reScanTemplateToken: reScanTemplateToken, reScanTemplateHeadOrNoSubstitutionTemplate: reScanTemplateHeadOrNoSubstitutionTemplate, scanJsxIdentifier: scanJsxIdentifier, scanJsxAttributeValue: scanJsxAttributeValue, reScanJsxAttributeValue: reScanJsxAttributeValue, reScanJsxToken: reScanJsxToken, reScanLessThanToken: reScanLessThanToken, reScanQuestionToken: reScanQuestionToken, scanJsxToken: scanJsxToken, scanJsDocToken: scanJsDocToken, scan: scan, getText: getText, clearCommentDirectives: clearCommentDirectives, setText: setText, setScriptTarget: setScriptTarget, setLanguageVariant: setLanguageVariant, setOnError: setOnError, setTextPos: setTextPos, setInJSDocType: setInJSDocType, tryScan: tryScan, lookAhead: lookAhead, scanRange: scanRange, }; if (ts.Debug.isDebugging) { Object.defineProperty(scanner, "__debugShowCurrentPositionInText", { get: function () { var text = scanner.getText(); return text.slice(0, scanner.getStartPos()) + "║" + text.slice(scanner.getStartPos()); }, }); } return scanner; function error(message, errPos, length) { if (errPos === void 0) { errPos = pos; } if (onError) { var oldPos = pos; pos = errPos; onError(message, length || 0); pos = oldPos; } } function scanNumberFragment() { var start = pos; var allowSeparator = false; var isPreviousTokenSeparator = false; var result = ""; while (true) { var ch = text.charCodeAt(pos); if (ch === 95 /* _ */) { tokenFlags |= 512 /* ContainsSeparator */; if (allowSeparator) { allowSeparator = false; isPreviousTokenSeparator = true; result += text.substring(start, pos); } else if (isPreviousTokenSeparator) { error(ts.Diagnostics.Multiple_consecutive_numeric_separators_are_not_permitted, pos, 1); } else { error(ts.Diagnostics.Numeric_separators_are_not_allowed_here, pos, 1); } pos++; start = pos; continue; } if (isDigit(ch)) { allowSeparator = true; isPreviousTokenSeparator = false; pos++; continue; } break; } if (text.charCodeAt(pos - 1) === 95 /* _ */) { error(ts.Diagnostics.Numeric_separators_are_not_allowed_here, pos - 1, 1); } return result + text.substring(start, pos); } function scanNumber() { var start = pos; var mainFragment = scanNumberFragment(); var decimalFragment; var scientificFragment; if (text.charCodeAt(pos) === 46 /* dot */) { pos++; decimalFragment = scanNumberFragment(); } var end = pos; if (text.charCodeAt(pos) === 69 /* E */ || text.charCodeAt(pos) === 101 /* e */) { pos++; tokenFlags |= 16 /* Scientific */; if (text.charCodeAt(pos) === 43 /* plus */ || text.charCodeAt(pos) === 45 /* minus */) pos++; var preNumericPart = pos; var finalFragment = scanNumberFragment(); if (!finalFragment) { error(ts.Diagnostics.Digit_expected); } else { scientificFragment = text.substring(end, preNumericPart) + finalFragment; end = pos; } } var result; if (tokenFlags & 512 /* ContainsSeparator */) { result = mainFragment; if (decimalFragment) { result += "." + decimalFragment; } if (scientificFragment) { result += scientificFragment; } } else { result = text.substring(start, end); // No need to use all the fragments; no _ removal needed } if (decimalFragment !== undefined || tokenFlags & 16 /* Scientific */) { checkForIdentifierStartAfterNumericLiteral(start, decimalFragment === undefined && !!(tokenFlags & 16 /* Scientific */)); return { type: 8 /* NumericLiteral */, value: "" + +result // if value is not an integer, it can be safely coerced to a number }; } else { tokenValue = result; var type = checkBigIntSuffix(); // if value is an integer, check whether it is a bigint checkForIdentifierStartAfterNumericLiteral(start); return { type: type, value: tokenValue }; } } function checkForIdentifierStartAfterNumericLiteral(numericStart, isScientific) { if (!isIdentifierStart(codePointAt(text, pos), languageVersion)) { return; } var identifierStart = pos; var length = scanIdentifierParts().length; if (length === 1 && text[identifierStart] === "n") { if (isScientific) { error(ts.Diagnostics.A_bigint_literal_cannot_use_exponential_notation, numericStart, identifierStart - numericStart + 1); } else { error(ts.Diagnostics.A_bigint_literal_must_be_an_integer, numericStart, identifierStart - numericStart + 1); } } else { error(ts.Diagnostics.An_identifier_or_keyword_cannot_immediately_follow_a_numeric_literal, identifierStart, length); pos = identifierStart; } } function scanOctalDigits() { var start = pos; while (isOctalDigit(text.charCodeAt(pos))) { pos++; } return +(text.substring(start, pos)); } /** * Scans the given number of hexadecimal digits in the text, * returning -1 if the given number is unavailable. */ function scanExactNumberOfHexDigits(count, canHaveSeparators) { var valueString = scanHexDigits(/*minCount*/ count, /*scanAsManyAsPossible*/ false, canHaveSeparators); return valueString ? parseInt(valueString, 16) : -1; } /** * Scans as many hexadecimal digits as are available in the text, * returning "" if the given number of digits was unavailable. */ function scanMinimumNumberOfHexDigits(count, canHaveSeparators) { return scanHexDigits(/*minCount*/ count, /*scanAsManyAsPossible*/ true, canHaveSeparators); } function scanHexDigits(minCount, scanAsManyAsPossible, canHaveSeparators) { var valueChars = []; var allowSeparator = false; var isPreviousTokenSeparator = false; while (valueChars.length < minCount || scanAsManyAsPossible) { var ch = text.charCodeAt(pos); if (canHaveSeparators && ch === 95 /* _ */) { tokenFlags |= 512 /* ContainsSeparator */; if (allowSeparator) { allowSeparator = false; isPreviousTokenSeparator = true; } else if (isPreviousTokenSeparator) { error(ts.Diagnostics.Multiple_consecutive_numeric_separators_are_not_permitted, pos, 1); } else { error(ts.Diagnostics.Numeric_separators_are_not_allowed_here, pos, 1); } pos++; continue; } allowSeparator = canHaveSeparators; if (ch >= 65 /* A */ && ch <= 70 /* F */) { ch += 97 /* a */ - 65 /* A */; // standardize hex literals to lowercase } else if (!((ch >= 48 /* _0 */ && ch <= 57 /* _9 */) || (ch >= 97 /* a */ && ch <= 102 /* f */))) { break; } valueChars.push(ch); pos++; isPreviousTokenSeparator = false; } if (valueChars.length < minCount) { valueChars = []; } if (text.charCodeAt(pos - 1) === 95 /* _ */) { error(ts.Diagnostics.Numeric_separators_are_not_allowed_here, pos - 1, 1); } return String.fromCharCode.apply(String, valueChars); } function scanString(jsxAttributeString) { if (jsxAttributeString === void 0) { jsxAttributeString = false; } var quote = text.charCodeAt(pos); pos++; var result = ""; var start = pos; while (true) { if (pos >= end) { result += text.substring(start, pos); tokenFlags |= 4 /* Unterminated */; error(ts.Diagnostics.Unterminated_string_literal); break; } var ch = text.charCodeAt(pos); if (ch === quote) { result += text.substring(start, pos); pos++; break; } if (ch === 92 /* backslash */ && !jsxAttributeString) { result += text.substring(start, pos); result += scanEscapeSequence(); start = pos; continue; } if (isLineBreak(ch) && !jsxAttributeString) { result += text.substring(start, pos); tokenFlags |= 4 /* Unterminated */; error(ts.Diagnostics.Unterminated_string_literal); break; } pos++; } return result; } /** * Sets the current 'tokenValue' and returns a NoSubstitutionTemplateLiteral or * a literal component of a TemplateExpression. */ function scanTemplateAndSetTokenValue(isTaggedTemplate) { var startedWithBacktick = text.charCodeAt(pos) === 96 /* backtick */; pos++; var start = pos; var contents = ""; var resultingToken; while (true) { if (pos >= end) { contents += text.substring(start, pos); tokenFlags |= 4 /* Unterminated */; error(ts.Diagnostics.Unterminated_template_literal); resultingToken = startedWithBacktick ? 14 /* NoSubstitutionTemplateLiteral */ : 17 /* TemplateTail */; break; } var currChar = text.charCodeAt(pos); // '`' if (currChar === 96 /* backtick */) { contents += text.substring(start, pos); pos++; resultingToken = startedWithBacktick ? 14 /* NoSubstitutionTemplateLiteral */ : 17 /* TemplateTail */; break; } // '${' if (currChar === 36 /* $ */ && pos + 1 < end && text.charCodeAt(pos + 1) === 123 /* openBrace */) { contents += text.substring(start, pos); pos += 2; resultingToken = startedWithBacktick ? 15 /* TemplateHead */ : 16 /* TemplateMiddle */; break; } // Escape character if (currChar === 92 /* backslash */) { contents += text.substring(start, pos); contents += scanEscapeSequence(isTaggedTemplate); start = pos; continue; } // Speculated ECMAScript 6 Spec 11.8.6.1: // and LineTerminatorSequences are normalized to for Template Values if (currChar === 13 /* carriageReturn */) { contents += text.substring(start, pos); pos++; if (pos < end && text.charCodeAt(pos) === 10 /* lineFeed */) { pos++; } contents += "\n"; start = pos; continue; } pos++; } ts.Debug.assert(resultingToken !== undefined); tokenValue = contents; return resultingToken; } function scanEscapeSequence(isTaggedTemplate) { var start = pos; pos++; if (pos >= end) { error(ts.Diagnostics.Unexpected_end_of_text); return ""; } var ch = text.charCodeAt(pos); pos++; switch (ch) { case 48 /* _0 */: // '\01' if (isTaggedTemplate && pos < end && isDigit(text.charCodeAt(pos))) { pos++; tokenFlags |= 2048 /* ContainsInvalidEscape */; return text.substring(start, pos); } return "\0"; case 98 /* b */: return "\b"; case 116 /* t */: return "\t"; case 110 /* n */: return "\n"; case 118 /* v */: return "\v"; case 102 /* f */: return "\f"; case 114 /* r */: return "\r"; case 39 /* singleQuote */: return "\'"; case 34 /* doubleQuote */: return "\""; case 117 /* u */: if (isTaggedTemplate) { // '\u' or '\u0' or '\u00' or '\u000' for (var escapePos = pos; escapePos < pos + 4; escapePos++) { if (escapePos < end && !isHexDigit(text.charCodeAt(escapePos)) && text.charCodeAt(escapePos) !== 123 /* openBrace */) { pos = escapePos; tokenFlags |= 2048 /* ContainsInvalidEscape */; return text.substring(start, pos); } } } // '\u{DDDDDDDD}' if (pos < end && text.charCodeAt(pos) === 123 /* openBrace */) { pos++; // '\u{' if (isTaggedTemplate && !isHexDigit(text.charCodeAt(pos))) { tokenFlags |= 2048 /* ContainsInvalidEscape */; return text.substring(start, pos); } if (isTaggedTemplate) { var savePos = pos; var escapedValueString = scanMinimumNumberOfHexDigits(1, /*canHaveSeparators*/ false); var escapedValue = escapedValueString ? parseInt(escapedValueString, 16) : -1; // '\u{Not Code Point' or '\u{CodePoint' if (!isCodePoint(escapedValue) || text.charCodeAt(pos) !== 125 /* closeBrace */) { tokenFlags |= 2048 /* ContainsInvalidEscape */; return text.substring(start, pos); } else { pos = savePos; } } tokenFlags |= 8 /* ExtendedUnicodeEscape */; return scanExtendedUnicodeEscape(); } tokenFlags |= 1024 /* UnicodeEscape */; // '\uDDDD' return scanHexadecimalEscape(/*numDigits*/ 4); case 120 /* x */: if (isTaggedTemplate) { if (!isHexDigit(text.charCodeAt(pos))) { tokenFlags |= 2048 /* ContainsInvalidEscape */; return text.substring(start, pos); } else if (!isHexDigit(text.charCodeAt(pos + 1))) { pos++; tokenFlags |= 2048 /* ContainsInvalidEscape */; return text.substring(start, pos); } } // '\xDD' return scanHexadecimalEscape(/*numDigits*/ 2); // when encountering a LineContinuation (i.e. a backslash and a line terminator sequence), // the line terminator is interpreted to be "the empty code unit sequence". case 13 /* carriageReturn */: if (pos < end && text.charCodeAt(pos) === 10 /* lineFeed */) { pos++; } // falls through case 10 /* lineFeed */: case 8232 /* lineSeparator */: case 8233 /* paragraphSeparator */: return ""; default: return String.fromCharCode(ch); } } function scanHexadecimalEscape(numDigits) { var escapedValue = scanExactNumberOfHexDigits(numDigits, /*canHaveSeparators*/ false); if (escapedValue >= 0) { return String.fromCharCode(escapedValue); } else { error(ts.Diagnostics.Hexadecimal_digit_expected); return ""; } } function scanExtendedUnicodeEscape() { var escapedValueString = scanMinimumNumberOfHexDigits(1, /*canHaveSeparators*/ false); var escapedValue = escapedValueString ? parseInt(escapedValueString, 16) : -1; var isInvalidExtendedEscape = false; // Validate the value of the digit if (escapedValue < 0) { error(ts.Diagnostics.Hexadecimal_digit_expected); isInvalidExtendedEscape = true; } else if (escapedValue > 0x10FFFF) { error(ts.Diagnostics.An_extended_Unicode_escape_value_must_be_between_0x0_and_0x10FFFF_inclusive); isInvalidExtendedEscape = true; } if (pos >= end) { error(ts.Diagnostics.Unexpected_end_of_text); isInvalidExtendedEscape = true; } else if (text.charCodeAt(pos) === 125 /* closeBrace */) { // Only swallow the following character up if it's a '}'. pos++; } else { error(ts.Diagnostics.Unterminated_Unicode_escape_sequence); isInvalidExtendedEscape = true; } if (isInvalidExtendedEscape) { return ""; } return utf16EncodeAsString(escapedValue); } // Current character is known to be a backslash. Check for Unicode escape of the form '\uXXXX' // and return code point value if valid Unicode escape is found. Otherwise return -1. function peekUnicodeEscape() { if (pos + 5 < end && text.charCodeAt(pos + 1) === 117 /* u */) { var start_1 = pos; pos += 2; var value = scanExactNumberOfHexDigits(4, /*canHaveSeparators*/ false); pos = start_1; return value; } return -1; } function peekExtendedUnicodeEscape() { if (languageVersion >= 2 /* ES2015 */ && codePointAt(text, pos + 1) === 117 /* u */ && codePointAt(text, pos + 2) === 123 /* openBrace */) { var start_2 = pos; pos += 3; var escapedValueString = scanMinimumNumberOfHexDigits(1, /*canHaveSeparators*/ false); var escapedValue = escapedValueString ? parseInt(escapedValueString, 16) : -1; pos = start_2; return escapedValue; } return -1; } function scanIdentifierParts() { var result = ""; var start = pos; while (pos < end) { var ch = codePointAt(text, pos); if (isIdentifierPart(ch, languageVersion)) { pos += charSize(ch); } else if (ch === 92 /* backslash */) { ch = peekExtendedUnicodeEscape(); if (ch >= 0 && isIdentifierPart(ch, languageVersion)) { pos += 3; tokenFlags |= 8 /* ExtendedUnicodeEscape */; result += scanExtendedUnicodeEscape(); start = pos; continue; } ch = peekUnicodeEscape(); if (!(ch >= 0 && isIdentifierPart(ch, languageVersion))) { break; } tokenFlags |= 1024 /* UnicodeEscape */; result += text.substring(start, pos); result += utf16EncodeAsString(ch); // Valid Unicode escape is always six characters pos += 6; start = pos; } else { break; } } result += text.substring(start, pos); return result; } function getIdentifierToken() { // Reserved words are between 2 and 11 characters long and start with a lowercase letter var len = tokenValue.length; if (len >= 2 && len <= 11) { var ch = tokenValue.charCodeAt(0); if (ch >= 97 /* a */ && ch <= 122 /* z */) { var keyword = textToKeyword.get(tokenValue); if (keyword !== undefined) { return token = keyword; } } } return token = 75 /* Identifier */; } function scanBinaryOrOctalDigits(base) { var value = ""; // For counting number of digits; Valid binaryIntegerLiteral must have at least one binary digit following B or b. // Similarly valid octalIntegerLiteral must have at least one octal digit following o or O. var separatorAllowed = false; var isPreviousTokenSeparator = false; while (true) { var ch = text.charCodeAt(pos); // Numeric separators are allowed anywhere within a numeric literal, except not at the beginning, or following another separator if (ch === 95 /* _ */) { tokenFlags |= 512 /* ContainsSeparator */; if (separatorAllowed) { separatorAllowed = false; isPreviousTokenSeparator = true; } else if (isPreviousTokenSeparator) { error(ts.Diagnostics.Multiple_consecutive_numeric_separators_are_not_permitted, pos, 1); } else { error(ts.Diagnostics.Numeric_separators_are_not_allowed_here, pos, 1); } pos++; continue; } separatorAllowed = true; if (!isDigit(ch) || ch - 48 /* _0 */ >= base) { break; } value += text[pos]; pos++; isPreviousTokenSeparator = false; } if (text.charCodeAt(pos - 1) === 95 /* _ */) { // Literal ends with underscore - not allowed error(ts.Diagnostics.Numeric_separators_are_not_allowed_here, pos - 1, 1); } return value; } function checkBigIntSuffix() { if (text.charCodeAt(pos) === 110 /* n */) { tokenValue += "n"; // Use base 10 instead of base 2 or base 8 for shorter literals if (tokenFlags & 384 /* BinaryOrOctalSpecifier */) { tokenValue = ts.parsePseudoBigInt(tokenValue) + "n"; } pos++; return 9 /* BigIntLiteral */; } else { // not a bigint, so can convert to number in simplified form // Number() may not support 0b or 0o, so use parseInt() instead var numericValue = tokenFlags & 128 /* BinarySpecifier */ ? parseInt(tokenValue.slice(2), 2) // skip "0b" : tokenFlags & 256 /* OctalSpecifier */ ? parseInt(tokenValue.slice(2), 8) // skip "0o" : +tokenValue; tokenValue = "" + numericValue; return 8 /* NumericLiteral */; } } function scan() { var _a; startPos = pos; tokenFlags = 0 /* None */; var asteriskSeen = false; while (true) { tokenPos = pos; if (pos >= end) { return token = 1 /* EndOfFileToken */; } var ch = codePointAt(text, pos); // Special handling for shebang if (ch === 35 /* hash */ && pos === 0 && isShebangTrivia(text, pos)) { pos = scanShebangTrivia(text, pos); if (skipTrivia) { continue; } else { return token = 6 /* ShebangTrivia */; } } switch (ch) { case 10 /* lineFeed */: case 13 /* carriageReturn */: tokenFlags |= 1 /* PrecedingLineBreak */; if (skipTrivia) { pos++; continue; } else { if (ch === 13 /* carriageReturn */ && pos + 1 < end && text.charCodeAt(pos + 1) === 10 /* lineFeed */) { // consume both CR and LF pos += 2; } else { pos++; } return token = 4 /* NewLineTrivia */; } case 9 /* tab */: case 11 /* verticalTab */: case 12 /* formFeed */: case 32 /* space */: case 160 /* nonBreakingSpace */: case 5760 /* ogham */: case 8192 /* enQuad */: case 8193 /* emQuad */: case 8194 /* enSpace */: case 8195 /* emSpace */: case 8196 /* threePerEmSpace */: case 8197 /* fourPerEmSpace */: case 8198 /* sixPerEmSpace */: case 8199 /* figureSpace */: case 8200 /* punctuationSpace */: case 8201 /* thinSpace */: case 8202 /* hairSpace */: case 8203 /* zeroWidthSpace */: case 8239 /* narrowNoBreakSpace */: case 8287 /* mathematicalSpace */: case 12288 /* ideographicSpace */: case 65279 /* byteOrderMark */: if (skipTrivia) { pos++; continue; } else { while (pos < end && isWhiteSpaceSingleLine(text.charCodeAt(pos))) { pos++; } return token = 5 /* WhitespaceTrivia */; } case 33 /* exclamation */: if (text.charCodeAt(pos + 1) === 61 /* equals */) { if (text.charCodeAt(pos + 2) === 61 /* equals */) { return pos += 3, token = 37 /* ExclamationEqualsEqualsToken */; } return pos += 2, token = 35 /* ExclamationEqualsToken */; } pos++; return token = 53 /* ExclamationToken */; case 34 /* doubleQuote */: case 39 /* singleQuote */: tokenValue = scanString(); return token = 10 /* StringLiteral */; case 96 /* backtick */: return token = scanTemplateAndSetTokenValue(/* isTaggedTemplate */ false); case 37 /* percent */: if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 68 /* PercentEqualsToken */; } pos++; return token = 44 /* PercentToken */; case 38 /* ampersand */: if (text.charCodeAt(pos + 1) === 38 /* ampersand */) { return pos += 2, token = 55 /* AmpersandAmpersandToken */; } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 72 /* AmpersandEqualsToken */; } pos++; return token = 50 /* AmpersandToken */; case 40 /* openParen */: pos++; return token = 20 /* OpenParenToken */; case 41 /* closeParen */: pos++; return token = 21 /* CloseParenToken */; case 42 /* asterisk */: if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 65 /* AsteriskEqualsToken */; } if (text.charCodeAt(pos + 1) === 42 /* asterisk */) { if (text.charCodeAt(pos + 2) === 61 /* equals */) { return pos += 3, token = 66 /* AsteriskAsteriskEqualsToken */; } return pos += 2, token = 42 /* AsteriskAsteriskToken */; } pos++; if (inJSDocType && !asteriskSeen && (tokenFlags & 1 /* PrecedingLineBreak */)) { // decoration at the start of a JSDoc comment line asteriskSeen = true; continue; } return token = 41 /* AsteriskToken */; case 43 /* plus */: if (text.charCodeAt(pos + 1) === 43 /* plus */) { return pos += 2, token = 45 /* PlusPlusToken */; } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 63 /* PlusEqualsToken */; } pos++; return token = 39 /* PlusToken */; case 44 /* comma */: pos++; return token = 27 /* CommaToken */; case 45 /* minus */: if (text.charCodeAt(pos + 1) === 45 /* minus */) { return pos += 2, token = 46 /* MinusMinusToken */; } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 64 /* MinusEqualsToken */; } pos++; return token = 40 /* MinusToken */; case 46 /* dot */: if (isDigit(text.charCodeAt(pos + 1))) { tokenValue = scanNumber().value; return token = 8 /* NumericLiteral */; } if (text.charCodeAt(pos + 1) === 46 /* dot */ && text.charCodeAt(pos + 2) === 46 /* dot */) { return pos += 3, token = 25 /* DotDotDotToken */; } pos++; return token = 24 /* DotToken */; case 47 /* slash */: // Single-line comment if (text.charCodeAt(pos + 1) === 47 /* slash */) { pos += 2; while (pos < end) { if (isLineBreak(text.charCodeAt(pos))) { break; } pos++; } commentDirectives = appendIfCommentDirective(commentDirectives, text.slice(tokenPos, pos), commentDirectiveRegExSingleLine, tokenPos); if (skipTrivia) { continue; } else { return token = 2 /* SingleLineCommentTrivia */; } } // Multi-line comment if (text.charCodeAt(pos + 1) === 42 /* asterisk */) { pos += 2; if (text.charCodeAt(pos) === 42 /* asterisk */ && text.charCodeAt(pos + 1) !== 47 /* slash */) { tokenFlags |= 2 /* PrecedingJSDocComment */; } var commentClosed = false; var lastLineStart = tokenPos; while (pos < end) { var ch_1 = text.charCodeAt(pos); if (ch_1 === 42 /* asterisk */ && text.charCodeAt(pos + 1) === 47 /* slash */) { pos += 2; commentClosed = true; break; } pos++; if (isLineBreak(ch_1)) { lastLineStart = pos; tokenFlags |= 1 /* PrecedingLineBreak */; } } commentDirectives = appendIfCommentDirective(commentDirectives, text.slice(lastLineStart, pos), commentDirectiveRegExMultiLine, lastLineStart); if (!commentClosed) { error(ts.Diagnostics.Asterisk_Slash_expected); } if (skipTrivia) { continue; } else { if (!commentClosed) { tokenFlags |= 4 /* Unterminated */; } return token = 3 /* MultiLineCommentTrivia */; } } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 67 /* SlashEqualsToken */; } pos++; return token = 43 /* SlashToken */; case 48 /* _0 */: if (pos + 2 < end && (text.charCodeAt(pos + 1) === 88 /* X */ || text.charCodeAt(pos + 1) === 120 /* x */)) { pos += 2; tokenValue = scanMinimumNumberOfHexDigits(1, /*canHaveSeparators*/ true); if (!tokenValue) { error(ts.Diagnostics.Hexadecimal_digit_expected); tokenValue = "0"; } tokenValue = "0x" + tokenValue; tokenFlags |= 64 /* HexSpecifier */; return token = checkBigIntSuffix(); } else if (pos + 2 < end && (text.charCodeAt(pos + 1) === 66 /* B */ || text.charCodeAt(pos + 1) === 98 /* b */)) { pos += 2; tokenValue = scanBinaryOrOctalDigits(/* base */ 2); if (!tokenValue) { error(ts.Diagnostics.Binary_digit_expected); tokenValue = "0"; } tokenValue = "0b" + tokenValue; tokenFlags |= 128 /* BinarySpecifier */; return token = checkBigIntSuffix(); } else if (pos + 2 < end && (text.charCodeAt(pos + 1) === 79 /* O */ || text.charCodeAt(pos + 1) === 111 /* o */)) { pos += 2; tokenValue = scanBinaryOrOctalDigits(/* base */ 8); if (!tokenValue) { error(ts.Diagnostics.Octal_digit_expected); tokenValue = "0"; } tokenValue = "0o" + tokenValue; tokenFlags |= 256 /* OctalSpecifier */; return token = checkBigIntSuffix(); } // Try to parse as an octal if (pos + 1 < end && isOctalDigit(text.charCodeAt(pos + 1))) { tokenValue = "" + scanOctalDigits(); tokenFlags |= 32 /* Octal */; return token = 8 /* NumericLiteral */; } // This fall-through is a deviation from the EcmaScript grammar. The grammar says that a leading zero // can only be followed by an octal digit, a dot, or the end of the number literal. However, we are being // permissive and allowing decimal digits of the form 08* and 09* (which many browsers also do). // falls through case 49 /* _1 */: case 50 /* _2 */: case 51 /* _3 */: case 52 /* _4 */: case 53 /* _5 */: case 54 /* _6 */: case 55 /* _7 */: case 56 /* _8 */: case 57 /* _9 */: (_a = scanNumber(), token = _a.type, tokenValue = _a.value); return token; case 58 /* colon */: pos++; return token = 58 /* ColonToken */; case 59 /* semicolon */: pos++; return token = 26 /* SemicolonToken */; case 60 /* lessThan */: if (isConflictMarkerTrivia(text, pos)) { pos = scanConflictMarkerTrivia(text, pos, error); if (skipTrivia) { continue; } else { return token = 7 /* ConflictMarkerTrivia */; } } if (text.charCodeAt(pos + 1) === 60 /* lessThan */) { if (text.charCodeAt(pos + 2) === 61 /* equals */) { return pos += 3, token = 69 /* LessThanLessThanEqualsToken */; } return pos += 2, token = 47 /* LessThanLessThanToken */; } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 32 /* LessThanEqualsToken */; } if (languageVariant === 1 /* JSX */ && text.charCodeAt(pos + 1) === 47 /* slash */ && text.charCodeAt(pos + 2) !== 42 /* asterisk */) { return pos += 2, token = 30 /* LessThanSlashToken */; } pos++; return token = 29 /* LessThanToken */; case 61 /* equals */: if (isConflictMarkerTrivia(text, pos)) { pos = scanConflictMarkerTrivia(text, pos, error); if (skipTrivia) { continue; } else { return token = 7 /* ConflictMarkerTrivia */; } } if (text.charCodeAt(pos + 1) === 61 /* equals */) { if (text.charCodeAt(pos + 2) === 61 /* equals */) { return pos += 3, token = 36 /* EqualsEqualsEqualsToken */; } return pos += 2, token = 34 /* EqualsEqualsToken */; } if (text.charCodeAt(pos + 1) === 62 /* greaterThan */) { return pos += 2, token = 38 /* EqualsGreaterThanToken */; } pos++; return token = 62 /* EqualsToken */; case 62 /* greaterThan */: if (isConflictMarkerTrivia(text, pos)) { pos = scanConflictMarkerTrivia(text, pos, error); if (skipTrivia) { continue; } else { return token = 7 /* ConflictMarkerTrivia */; } } pos++; return token = 31 /* GreaterThanToken */; case 63 /* question */: pos++; if (text.charCodeAt(pos) === 46 /* dot */ && !isDigit(text.charCodeAt(pos + 1))) { pos++; return token = 28 /* QuestionDotToken */; } if (text.charCodeAt(pos) === 63 /* question */) { pos++; return token = 60 /* QuestionQuestionToken */; } return token = 57 /* QuestionToken */; case 91 /* openBracket */: pos++; return token = 22 /* OpenBracketToken */; case 93 /* closeBracket */: pos++; return token = 23 /* CloseBracketToken */; case 94 /* caret */: if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 74 /* CaretEqualsToken */; } pos++; return token = 52 /* CaretToken */; case 123 /* openBrace */: pos++; return token = 18 /* OpenBraceToken */; case 124 /* bar */: if (isConflictMarkerTrivia(text, pos)) { pos = scanConflictMarkerTrivia(text, pos, error); if (skipTrivia) { continue; } else { return token = 7 /* ConflictMarkerTrivia */; } } if (text.charCodeAt(pos + 1) === 124 /* bar */) { return pos += 2, token = 56 /* BarBarToken */; } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 73 /* BarEqualsToken */; } pos++; return token = 51 /* BarToken */; case 125 /* closeBrace */: pos++; return token = 19 /* CloseBraceToken */; case 126 /* tilde */: pos++; return token = 54 /* TildeToken */; case 64 /* at */: pos++; return token = 59 /* AtToken */; case 92 /* backslash */: var extendedCookedChar = peekExtendedUnicodeEscape(); if (extendedCookedChar >= 0 && isIdentifierStart(extendedCookedChar, languageVersion)) { pos += 3; tokenFlags |= 8 /* ExtendedUnicodeEscape */; tokenValue = scanExtendedUnicodeEscape() + scanIdentifierParts(); return token = getIdentifierToken(); } var cookedChar = peekUnicodeEscape(); if (cookedChar >= 0 && isIdentifierStart(cookedChar, languageVersion)) { pos += 6; tokenFlags |= 1024 /* UnicodeEscape */; tokenValue = String.fromCharCode(cookedChar) + scanIdentifierParts(); return token = getIdentifierToken(); } error(ts.Diagnostics.Invalid_character); pos++; return token = 0 /* Unknown */; case 35 /* hash */: if (pos !== 0 && text[pos + 1] === "!") { error(ts.Diagnostics.can_only_be_used_at_the_start_of_a_file); pos++; return token = 0 /* Unknown */; } pos++; if (isIdentifierStart(ch = text.charCodeAt(pos), languageVersion)) { pos++; while (pos < end && isIdentifierPart(ch = text.charCodeAt(pos), languageVersion)) pos++; tokenValue = text.substring(tokenPos, pos); if (ch === 92 /* backslash */) { tokenValue += scanIdentifierParts(); } } else { tokenValue = "#"; error(ts.Diagnostics.Invalid_character); } return token = 76 /* PrivateIdentifier */; default: if (isIdentifierStart(ch, languageVersion)) { pos += charSize(ch); while (pos < end && isIdentifierPart(ch = codePointAt(text, pos), languageVersion)) pos += charSize(ch); tokenValue = text.substring(tokenPos, pos); if (ch === 92 /* backslash */) { tokenValue += scanIdentifierParts(); } return token = getIdentifierToken(); } else if (isWhiteSpaceSingleLine(ch)) { pos += charSize(ch); continue; } else if (isLineBreak(ch)) { tokenFlags |= 1 /* PrecedingLineBreak */; pos += charSize(ch); continue; } error(ts.Diagnostics.Invalid_character); pos += charSize(ch); return token = 0 /* Unknown */; } } } function reScanGreaterToken() { if (token === 31 /* GreaterThanToken */) { if (text.charCodeAt(pos) === 62 /* greaterThan */) { if (text.charCodeAt(pos + 1) === 62 /* greaterThan */) { if (text.charCodeAt(pos + 2) === 61 /* equals */) { return pos += 3, token = 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */; } return pos += 2, token = 49 /* GreaterThanGreaterThanGreaterThanToken */; } if (text.charCodeAt(pos + 1) === 61 /* equals */) { return pos += 2, token = 70 /* GreaterThanGreaterThanEqualsToken */; } pos++; return token = 48 /* GreaterThanGreaterThanToken */; } if (text.charCodeAt(pos) === 61 /* equals */) { pos++; return token = 33 /* GreaterThanEqualsToken */; } } return token; } function reScanSlashToken() { if (token === 43 /* SlashToken */ || token === 67 /* SlashEqualsToken */) { var p = tokenPos + 1; var inEscape = false; var inCharacterClass = false; while (true) { // If we reach the end of a file, or hit a newline, then this is an unterminated // regex. Report error and return what we have so far. if (p >= end) { tokenFlags |= 4 /* Unterminated */; error(ts.Diagnostics.Unterminated_regular_expression_literal); break; } var ch = text.charCodeAt(p); if (isLineBreak(ch)) { tokenFlags |= 4 /* Unterminated */; error(ts.Diagnostics.Unterminated_regular_expression_literal); break; } if (inEscape) { // Parsing an escape character; // reset the flag and just advance to the next char. inEscape = false; } else if (ch === 47 /* slash */ && !inCharacterClass) { // A slash within a character class is permissible, // but in general it signals the end of the regexp literal. p++; break; } else if (ch === 91 /* openBracket */) { inCharacterClass = true; } else if (ch === 92 /* backslash */) { inEscape = true; } else if (ch === 93 /* closeBracket */) { inCharacterClass = false; } p++; } while (p < end && isIdentifierPart(text.charCodeAt(p), languageVersion)) { p++; } pos = p; tokenValue = text.substring(tokenPos, pos); token = 13 /* RegularExpressionLiteral */; } return token; } function appendIfCommentDirective(commentDirectives, text, commentDirectiveRegEx, lineStart) { var type = getDirectiveFromComment(text, commentDirectiveRegEx); if (type === undefined) { return commentDirectives; } return ts.append(commentDirectives, { range: { pos: lineStart, end: pos }, type: type, }); } function getDirectiveFromComment(text, commentDirectiveRegEx) { var match = commentDirectiveRegEx.exec(text); if (!match) { return undefined; } switch (match[1]) { case "ts-expect-error": return 0 /* ExpectError */; case "ts-ignore": return 1 /* Ignore */; } return undefined; } /** * Unconditionally back up and scan a template expression portion. */ function reScanTemplateToken(isTaggedTemplate) { ts.Debug.assert(token === 19 /* CloseBraceToken */, "'reScanTemplateToken' should only be called on a '}'"); pos = tokenPos; return token = scanTemplateAndSetTokenValue(isTaggedTemplate); } function reScanTemplateHeadOrNoSubstitutionTemplate() { pos = tokenPos; return token = scanTemplateAndSetTokenValue(/* isTaggedTemplate */ true); } function reScanJsxToken() { pos = tokenPos = startPos; return token = scanJsxToken(); } function reScanLessThanToken() { if (token === 47 /* LessThanLessThanToken */) { pos = tokenPos + 1; return token = 29 /* LessThanToken */; } return token; } function reScanQuestionToken() { ts.Debug.assert(token === 60 /* QuestionQuestionToken */, "'reScanQuestionToken' should only be called on a '??'"); pos = tokenPos + 1; return token = 57 /* QuestionToken */; } function scanJsxToken() { startPos = tokenPos = pos; if (pos >= end) { return token = 1 /* EndOfFileToken */; } var char = text.charCodeAt(pos); if (char === 60 /* lessThan */) { if (text.charCodeAt(pos + 1) === 47 /* slash */) { pos += 2; return token = 30 /* LessThanSlashToken */; } pos++; return token = 29 /* LessThanToken */; } if (char === 123 /* openBrace */) { pos++; return token = 18 /* OpenBraceToken */; } // First non-whitespace character on this line. var firstNonWhitespace = 0; var lastNonWhitespace = -1; // These initial values are special because the first line is: // firstNonWhitespace = 0 to indicate that we want leading whitespace, while (pos < end) { // We want to keep track of the last non-whitespace (but including // newlines character for hitting the end of the JSX Text region) if (!isWhiteSpaceSingleLine(char)) { lastNonWhitespace = pos; } char = text.charCodeAt(pos); if (char === 123 /* openBrace */) { break; } if (char === 60 /* lessThan */) { if (isConflictMarkerTrivia(text, pos)) { pos = scanConflictMarkerTrivia(text, pos, error); return token = 7 /* ConflictMarkerTrivia */; } break; } if (char === 62 /* greaterThan */) { error(ts.Diagnostics.Unexpected_token_Did_you_mean_or_gt, pos, 1); } if (char === 125 /* closeBrace */) { error(ts.Diagnostics.Unexpected_token_Did_you_mean_or_rbrace, pos, 1); } if (lastNonWhitespace > 0) lastNonWhitespace++; // FirstNonWhitespace is 0, then we only see whitespaces so far. If we see a linebreak, we want to ignore that whitespaces. // i.e (- : whitespace) //
---- //
becomes
// //
----
becomes
----
if (isLineBreak(char) && firstNonWhitespace === 0) { firstNonWhitespace = -1; } else if (!isWhiteSpaceLike(char)) { firstNonWhitespace = pos; } pos++; } var endPosition = lastNonWhitespace === -1 ? pos : lastNonWhitespace; tokenValue = text.substring(startPos, endPosition); return firstNonWhitespace === -1 ? 12 /* JsxTextAllWhiteSpaces */ : 11 /* JsxText */; } // Scans a JSX identifier; these differ from normal identifiers in that // they allow dashes function scanJsxIdentifier() { if (tokenIsIdentifierOrKeyword(token)) { // An identifier or keyword has already been parsed - check for a `-` and then append it and everything after it to the token // Do note that this means that `scanJsxIdentifier` effectively _mutates_ the visible token without advancing to a new token // Any caller should be expecting this behavior and should only read the pos or token value after calling it. while (pos < end) { var ch = text.charCodeAt(pos); if (ch === 45 /* minus */) { tokenValue += "-"; pos++; continue; } var oldPos = pos; tokenValue += scanIdentifierParts(); // reuse `scanIdentifierParts` so unicode escapes are handled if (pos === oldPos) { break; } } } return token; } function scanJsxAttributeValue() { startPos = pos; switch (text.charCodeAt(pos)) { case 34 /* doubleQuote */: case 39 /* singleQuote */: tokenValue = scanString(/*jsxAttributeString*/ true); return token = 10 /* StringLiteral */; default: // If this scans anything other than `{`, it's a parse error. return scan(); } } function reScanJsxAttributeValue() { pos = tokenPos = startPos; return scanJsxAttributeValue(); } function scanJsDocToken() { startPos = tokenPos = pos; tokenFlags = 0 /* None */; if (pos >= end) { return token = 1 /* EndOfFileToken */; } var ch = codePointAt(text, pos); pos += charSize(ch); switch (ch) { case 9 /* tab */: case 11 /* verticalTab */: case 12 /* formFeed */: case 32 /* space */: while (pos < end && isWhiteSpaceSingleLine(text.charCodeAt(pos))) { pos++; } return token = 5 /* WhitespaceTrivia */; case 64 /* at */: return token = 59 /* AtToken */; case 10 /* lineFeed */: case 13 /* carriageReturn */: tokenFlags |= 1 /* PrecedingLineBreak */; return token = 4 /* NewLineTrivia */; case 42 /* asterisk */: return token = 41 /* AsteriskToken */; case 123 /* openBrace */: return token = 18 /* OpenBraceToken */; case 125 /* closeBrace */: return token = 19 /* CloseBraceToken */; case 91 /* openBracket */: return token = 22 /* OpenBracketToken */; case 93 /* closeBracket */: return token = 23 /* CloseBracketToken */; case 60 /* lessThan */: return token = 29 /* LessThanToken */; case 62 /* greaterThan */: return token = 31 /* GreaterThanToken */; case 61 /* equals */: return token = 62 /* EqualsToken */; case 44 /* comma */: return token = 27 /* CommaToken */; case 46 /* dot */: return token = 24 /* DotToken */; case 96 /* backtick */: return token = 61 /* BacktickToken */; case 92 /* backslash */: pos--; var extendedCookedChar = peekExtendedUnicodeEscape(); if (extendedCookedChar >= 0 && isIdentifierStart(extendedCookedChar, languageVersion)) { pos += 3; tokenFlags |= 8 /* ExtendedUnicodeEscape */; tokenValue = scanExtendedUnicodeEscape() + scanIdentifierParts(); return token = getIdentifierToken(); } var cookedChar = peekUnicodeEscape(); if (cookedChar >= 0 && isIdentifierStart(cookedChar, languageVersion)) { pos += 6; tokenFlags |= 1024 /* UnicodeEscape */; tokenValue = String.fromCharCode(cookedChar) + scanIdentifierParts(); return token = getIdentifierToken(); } pos++; return token = 0 /* Unknown */; } if (isIdentifierStart(ch, languageVersion)) { var char = ch; while (pos < end && isIdentifierPart(char = codePointAt(text, pos), languageVersion) || text.charCodeAt(pos) === 45 /* minus */) pos += charSize(char); tokenValue = text.substring(tokenPos, pos); if (char === 92 /* backslash */) { tokenValue += scanIdentifierParts(); } return token = getIdentifierToken(); } else { return token = 0 /* Unknown */; } } function speculationHelper(callback, isLookahead) { var savePos = pos; var saveStartPos = startPos; var saveTokenPos = tokenPos; var saveToken = token; var saveTokenValue = tokenValue; var saveTokenFlags = tokenFlags; var result = callback(); // If our callback returned something 'falsy' or we're just looking ahead, // then unconditionally restore us to where we were. if (!result || isLookahead) { pos = savePos; startPos = saveStartPos; tokenPos = saveTokenPos; token = saveToken; tokenValue = saveTokenValue; tokenFlags = saveTokenFlags; } return result; } function scanRange(start, length, callback) { var saveEnd = end; var savePos = pos; var saveStartPos = startPos; var saveTokenPos = tokenPos; var saveToken = token; var saveTokenValue = tokenValue; var saveTokenFlags = tokenFlags; var saveErrorExpectations = commentDirectives; setText(text, start, length); var result = callback(); end = saveEnd; pos = savePos; startPos = saveStartPos; tokenPos = saveTokenPos; token = saveToken; tokenValue = saveTokenValue; tokenFlags = saveTokenFlags; commentDirectives = saveErrorExpectations; return result; } function lookAhead(callback) { return speculationHelper(callback, /*isLookahead*/ true); } function tryScan(callback) { return speculationHelper(callback, /*isLookahead*/ false); } function getText() { return text; } function clearCommentDirectives() { commentDirectives = undefined; } function setText(newText, start, length) { text = newText || ""; end = length === undefined ? text.length : start + length; setTextPos(start || 0); } function setOnError(errorCallback) { onError = errorCallback; } function setScriptTarget(scriptTarget) { languageVersion = scriptTarget; } function setLanguageVariant(variant) { languageVariant = variant; } function setTextPos(textPos) { ts.Debug.assert(textPos >= 0); pos = textPos; startPos = textPos; tokenPos = textPos; token = 0 /* Unknown */; tokenValue = undefined; tokenFlags = 0 /* None */; } function setInJSDocType(inType) { inJSDocType += inType ? 1 : -1; } } ts.createScanner = createScanner; /* @internal */ var codePointAt = String.prototype.codePointAt ? function (s, i) { return s.codePointAt(i); } : function codePointAt(str, i) { // from https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/codePointAt var size = str.length; // Account for out-of-bounds indices: if (i < 0 || i >= size) { return undefined; // String.codePointAt returns `undefined` for OOB indexes } // Get the first code unit var first = str.charCodeAt(i); // check if it’s the start of a surrogate pair if (first >= 0xD800 && first <= 0xDBFF && size > i + 1) { // high surrogate and there is a next code unit var second = str.charCodeAt(i + 1); if (second >= 0xDC00 && second <= 0xDFFF) { // low surrogate // https://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae return (first - 0xD800) * 0x400 + second - 0xDC00 + 0x10000; } } return first; }; /* @internal */ function charSize(ch) { if (ch >= 0x10000) { return 2; } return 1; } // Derived from the 10.1.1 UTF16Encoding of the ES6 Spec. function utf16EncodeAsStringFallback(codePoint) { ts.Debug.assert(0x0 <= codePoint && codePoint <= 0x10FFFF); if (codePoint <= 65535) { return String.fromCharCode(codePoint); } var codeUnit1 = Math.floor((codePoint - 65536) / 1024) + 0xD800; var codeUnit2 = ((codePoint - 65536) % 1024) + 0xDC00; return String.fromCharCode(codeUnit1, codeUnit2); } var utf16EncodeAsStringWorker = String.fromCodePoint ? function (codePoint) { return String.fromCodePoint(codePoint); } : utf16EncodeAsStringFallback; /* @internal */ function utf16EncodeAsString(codePoint) { return utf16EncodeAsStringWorker(codePoint); } ts.utf16EncodeAsString = utf16EncodeAsString; })(ts || (ts = {})); var ts; (function (ts) { function isExternalModuleNameRelative(moduleName) { // TypeScript 1.0 spec (April 2014): 11.2.1 // An external module name is "relative" if the first term is "." or "..". // Update: We also consider a path like `C:\foo.ts` "relative" because we do not search for it in `node_modules` or treat it as an ambient module. return ts.pathIsRelative(moduleName) || ts.isRootedDiskPath(moduleName); } ts.isExternalModuleNameRelative = isExternalModuleNameRelative; function sortAndDeduplicateDiagnostics(diagnostics) { return ts.sortAndDeduplicate(diagnostics, ts.compareDiagnostics); } ts.sortAndDeduplicateDiagnostics = sortAndDeduplicateDiagnostics; function getDefaultLibFileName(options) { switch (options.target) { case 99 /* ESNext */: return "lib.esnext.full.d.ts"; case 7 /* ES2020 */: return "lib.es2020.full.d.ts"; case 6 /* ES2019 */: return "lib.es2019.full.d.ts"; case 5 /* ES2018 */: return "lib.es2018.full.d.ts"; case 4 /* ES2017 */: return "lib.es2017.full.d.ts"; case 3 /* ES2016 */: return "lib.es2016.full.d.ts"; case 2 /* ES2015 */: return "lib.es6.d.ts"; // We don't use lib.es2015.full.d.ts due to breaking change. default: return "lib.d.ts"; } } ts.getDefaultLibFileName = getDefaultLibFileName; function textSpanEnd(span) { return span.start + span.length; } ts.textSpanEnd = textSpanEnd; function textSpanIsEmpty(span) { return span.length === 0; } ts.textSpanIsEmpty = textSpanIsEmpty; function textSpanContainsPosition(span, position) { return position >= span.start && position < textSpanEnd(span); } ts.textSpanContainsPosition = textSpanContainsPosition; /* @internal */ function textRangeContainsPositionInclusive(span, position) { return position >= span.pos && position <= span.end; } ts.textRangeContainsPositionInclusive = textRangeContainsPositionInclusive; // Returns true if 'span' contains 'other'. function textSpanContainsTextSpan(span, other) { return other.start >= span.start && textSpanEnd(other) <= textSpanEnd(span); } ts.textSpanContainsTextSpan = textSpanContainsTextSpan; function textSpanOverlapsWith(span, other) { return textSpanOverlap(span, other) !== undefined; } ts.textSpanOverlapsWith = textSpanOverlapsWith; function textSpanOverlap(span1, span2) { var overlap = textSpanIntersection(span1, span2); return overlap && overlap.length === 0 ? undefined : overlap; } ts.textSpanOverlap = textSpanOverlap; function textSpanIntersectsWithTextSpan(span, other) { return decodedTextSpanIntersectsWith(span.start, span.length, other.start, other.length); } ts.textSpanIntersectsWithTextSpan = textSpanIntersectsWithTextSpan; function textSpanIntersectsWith(span, start, length) { return decodedTextSpanIntersectsWith(span.start, span.length, start, length); } ts.textSpanIntersectsWith = textSpanIntersectsWith; function decodedTextSpanIntersectsWith(start1, length1, start2, length2) { var end1 = start1 + length1; var end2 = start2 + length2; return start2 <= end1 && end2 >= start1; } ts.decodedTextSpanIntersectsWith = decodedTextSpanIntersectsWith; function textSpanIntersectsWithPosition(span, position) { return position <= textSpanEnd(span) && position >= span.start; } ts.textSpanIntersectsWithPosition = textSpanIntersectsWithPosition; function textSpanIntersection(span1, span2) { var start = Math.max(span1.start, span2.start); var end = Math.min(textSpanEnd(span1), textSpanEnd(span2)); return start <= end ? createTextSpanFromBounds(start, end) : undefined; } ts.textSpanIntersection = textSpanIntersection; function createTextSpan(start, length) { if (start < 0) { throw new Error("start < 0"); } if (length < 0) { throw new Error("length < 0"); } return { start: start, length: length }; } ts.createTextSpan = createTextSpan; function createTextSpanFromBounds(start, end) { return createTextSpan(start, end - start); } ts.createTextSpanFromBounds = createTextSpanFromBounds; function textChangeRangeNewSpan(range) { return createTextSpan(range.span.start, range.newLength); } ts.textChangeRangeNewSpan = textChangeRangeNewSpan; function textChangeRangeIsUnchanged(range) { return textSpanIsEmpty(range.span) && range.newLength === 0; } ts.textChangeRangeIsUnchanged = textChangeRangeIsUnchanged; function createTextChangeRange(span, newLength) { if (newLength < 0) { throw new Error("newLength < 0"); } return { span: span, newLength: newLength }; } ts.createTextChangeRange = createTextChangeRange; ts.unchangedTextChangeRange = createTextChangeRange(createTextSpan(0, 0), 0); // eslint-disable-line prefer-const /** * Called to merge all the changes that occurred across several versions of a script snapshot * into a single change. i.e. if a user keeps making successive edits to a script we will * have a text change from V1 to V2, V2 to V3, ..., Vn. * * This function will then merge those changes into a single change range valid between V1 and * Vn. */ function collapseTextChangeRangesAcrossMultipleVersions(changes) { if (changes.length === 0) { return ts.unchangedTextChangeRange; } if (changes.length === 1) { return changes[0]; } // We change from talking about { { oldStart, oldLength }, newLength } to { oldStart, oldEnd, newEnd } // as it makes things much easier to reason about. var change0 = changes[0]; var oldStartN = change0.span.start; var oldEndN = textSpanEnd(change0.span); var newEndN = oldStartN + change0.newLength; for (var i = 1; i < changes.length; i++) { var nextChange = changes[i]; // Consider the following case: // i.e. two edits. The first represents the text change range { { 10, 50 }, 30 }. i.e. The span starting // at 10, with length 50 is reduced to length 30. The second represents the text change range { { 30, 30 }, 40 }. // i.e. the span starting at 30 with length 30 is increased to length 40. // // 0 10 20 30 40 50 60 70 80 90 100 // ------------------------------------------------------------------------------------------------------- // | / // | /---- // T1 | /---- // | /---- // | /---- // ------------------------------------------------------------------------------------------------------- // | \ // | \ // T2 | \ // | \ // | \ // ------------------------------------------------------------------------------------------------------- // // Merging these turns out to not be too difficult. First, determining the new start of the change is trivial // it's just the min of the old and new starts. i.e.: // // 0 10 20 30 40 50 60 70 80 90 100 // ------------------------------------------------------------*------------------------------------------ // | / // | /---- // T1 | /---- // | /---- // | /---- // ----------------------------------------$-------------------$------------------------------------------ // . | \ // . | \ // T2 . | \ // . | \ // . | \ // ----------------------------------------------------------------------*-------------------------------- // // (Note the dots represent the newly inferred start. // Determining the new and old end is also pretty simple. Basically it boils down to paying attention to the // absolute positions at the asterisks, and the relative change between the dollar signs. Basically, we see // which if the two $'s precedes the other, and we move that one forward until they line up. in this case that // means: // // 0 10 20 30 40 50 60 70 80 90 100 // --------------------------------------------------------------------------------*---------------------- // | / // | /---- // T1 | /---- // | /---- // | /---- // ------------------------------------------------------------$------------------------------------------ // . | \ // . | \ // T2 . | \ // . | \ // . | \ // ----------------------------------------------------------------------*-------------------------------- // // In other words (in this case), we're recognizing that the second edit happened after where the first edit // ended with a delta of 20 characters (60 - 40). Thus, if we go back in time to where the first edit started // that's the same as if we started at char 80 instead of 60. // // As it so happens, the same logic applies if the second edit precedes the first edit. In that case rather // than pushing the first edit forward to match the second, we'll push the second edit forward to match the // first. // // In this case that means we have { oldStart: 10, oldEnd: 80, newEnd: 70 } or, in TextChangeRange // semantics: { { start: 10, length: 70 }, newLength: 60 } // // The math then works out as follows. // If we have { oldStart1, oldEnd1, newEnd1 } and { oldStart2, oldEnd2, newEnd2 } then we can compute the // final result like so: // // { // oldStart3: Min(oldStart1, oldStart2), // oldEnd3: Max(oldEnd1, oldEnd1 + (oldEnd2 - newEnd1)), // newEnd3: Max(newEnd2, newEnd2 + (newEnd1 - oldEnd2)) // } var oldStart1 = oldStartN; var oldEnd1 = oldEndN; var newEnd1 = newEndN; var oldStart2 = nextChange.span.start; var oldEnd2 = textSpanEnd(nextChange.span); var newEnd2 = oldStart2 + nextChange.newLength; oldStartN = Math.min(oldStart1, oldStart2); oldEndN = Math.max(oldEnd1, oldEnd1 + (oldEnd2 - newEnd1)); newEndN = Math.max(newEnd2, newEnd2 + (newEnd1 - oldEnd2)); } return createTextChangeRange(createTextSpanFromBounds(oldStartN, oldEndN), /*newLength*/ newEndN - oldStartN); } ts.collapseTextChangeRangesAcrossMultipleVersions = collapseTextChangeRangesAcrossMultipleVersions; function getTypeParameterOwner(d) { if (d && d.kind === 155 /* TypeParameter */) { for (var current = d; current; current = current.parent) { if (isFunctionLike(current) || isClassLike(current) || current.kind === 246 /* InterfaceDeclaration */) { return current; } } } } ts.getTypeParameterOwner = getTypeParameterOwner; function isParameterPropertyDeclaration(node, parent) { return ts.hasModifier(node, 92 /* ParameterPropertyModifier */) && parent.kind === 162 /* Constructor */; } ts.isParameterPropertyDeclaration = isParameterPropertyDeclaration; function isEmptyBindingPattern(node) { if (isBindingPattern(node)) { return ts.every(node.elements, isEmptyBindingElement); } return false; } ts.isEmptyBindingPattern = isEmptyBindingPattern; function isEmptyBindingElement(node) { if (isOmittedExpression(node)) { return true; } return isEmptyBindingPattern(node.name); } ts.isEmptyBindingElement = isEmptyBindingElement; function walkUpBindingElementsAndPatterns(binding) { var node = binding.parent; while (isBindingElement(node.parent)) { node = node.parent.parent; } return node.parent; } ts.walkUpBindingElementsAndPatterns = walkUpBindingElementsAndPatterns; function getCombinedFlags(node, getFlags) { if (isBindingElement(node)) { node = walkUpBindingElementsAndPatterns(node); } var flags = getFlags(node); if (node.kind === 242 /* VariableDeclaration */) { node = node.parent; } if (node && node.kind === 243 /* VariableDeclarationList */) { flags |= getFlags(node); node = node.parent; } if (node && node.kind === 225 /* VariableStatement */) { flags |= getFlags(node); } return flags; } function getCombinedModifierFlags(node) { return getCombinedFlags(node, ts.getModifierFlags); } ts.getCombinedModifierFlags = getCombinedModifierFlags; // Returns the node flags for this node and all relevant parent nodes. This is done so that // nodes like variable declarations and binding elements can returned a view of their flags // that includes the modifiers from their container. i.e. flags like export/declare aren't // stored on the variable declaration directly, but on the containing variable statement // (if it has one). Similarly, flags for let/const are store on the variable declaration // list. By calling this function, all those flags are combined so that the client can treat // the node as if it actually had those flags. function getCombinedNodeFlags(node) { return getCombinedFlags(node, function (n) { return n.flags; }); } ts.getCombinedNodeFlags = getCombinedNodeFlags; /** * Checks to see if the locale is in the appropriate format, * and if it is, attempts to set the appropriate language. */ function validateLocaleAndSetLanguage(locale, sys, errors) { var matchResult = /^([a-z]+)([_\-]([a-z]+))?$/.exec(locale.toLowerCase()); if (!matchResult) { if (errors) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Locale_must_be_of_the_form_language_or_language_territory_For_example_0_or_1, "en", "ja-jp")); } return; } var language = matchResult[1]; var territory = matchResult[3]; // First try the entire locale, then fall back to just language if that's all we have. // Either ways do not fail, and fallback to the English diagnostic strings. if (!trySetLanguageAndTerritory(language, territory, errors)) { trySetLanguageAndTerritory(language, /*territory*/ undefined, errors); } // Set the UI locale for string collation ts.setUILocale(locale); function trySetLanguageAndTerritory(language, territory, errors) { var compilerFilePath = ts.normalizePath(sys.getExecutingFilePath()); var containingDirectoryPath = ts.getDirectoryPath(compilerFilePath); var filePath = ts.combinePaths(containingDirectoryPath, language); if (territory) { filePath = filePath + "-" + territory; } filePath = sys.resolvePath(ts.combinePaths(filePath, "diagnosticMessages.generated.json")); if (!sys.fileExists(filePath)) { return false; } // TODO: Add codePage support for readFile? var fileContents = ""; try { fileContents = sys.readFile(filePath); } catch (e) { if (errors) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Unable_to_open_file_0, filePath)); } return false; } try { // this is a global mutation (or live binding update)! ts.setLocalizedDiagnosticMessages(JSON.parse(fileContents)); } catch (_a) { if (errors) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Corrupted_locale_file_0, filePath)); } return false; } return true; } } ts.validateLocaleAndSetLanguage = validateLocaleAndSetLanguage; function getOriginalNode(node, nodeTest) { if (node) { while (node.original !== undefined) { node = node.original; } } return !nodeTest || nodeTest(node) ? node : undefined; } ts.getOriginalNode = getOriginalNode; /** * Gets a value indicating whether a node originated in the parse tree. * * @param node The node to test. */ function isParseTreeNode(node) { return (node.flags & 8 /* Synthesized */) === 0; } ts.isParseTreeNode = isParseTreeNode; function getParseTreeNode(node, nodeTest) { if (node === undefined || isParseTreeNode(node)) { return node; } node = getOriginalNode(node); if (isParseTreeNode(node) && (!nodeTest || nodeTest(node))) { return node; } return undefined; } ts.getParseTreeNode = getParseTreeNode; /** Add an extra underscore to identifiers that start with two underscores to avoid issues with magic names like '__proto__' */ function escapeLeadingUnderscores(identifier) { return (identifier.length >= 2 && identifier.charCodeAt(0) === 95 /* _ */ && identifier.charCodeAt(1) === 95 /* _ */ ? "_" + identifier : identifier); } ts.escapeLeadingUnderscores = escapeLeadingUnderscores; /** * Remove extra underscore from escaped identifier text content. * * @param identifier The escaped identifier text. * @returns The unescaped identifier text. */ function unescapeLeadingUnderscores(identifier) { var id = identifier; return id.length >= 3 && id.charCodeAt(0) === 95 /* _ */ && id.charCodeAt(1) === 95 /* _ */ && id.charCodeAt(2) === 95 /* _ */ ? id.substr(1) : id; } ts.unescapeLeadingUnderscores = unescapeLeadingUnderscores; function idText(identifierOrPrivateName) { return unescapeLeadingUnderscores(identifierOrPrivateName.escapedText); } ts.idText = idText; function symbolName(symbol) { if (symbol.valueDeclaration && isPrivateIdentifierPropertyDeclaration(symbol.valueDeclaration)) { return idText(symbol.valueDeclaration.name); } return unescapeLeadingUnderscores(symbol.escapedName); } ts.symbolName = symbolName; /** * A JSDocTypedef tag has an _optional_ name field - if a name is not directly present, we should * attempt to draw the name from the node the declaration is on (as that declaration is what its' symbol * will be merged with) */ function nameForNamelessJSDocTypedef(declaration) { var hostNode = declaration.parent.parent; if (!hostNode) { return undefined; } // Covers classes, functions - any named declaration host node if (isDeclaration(hostNode)) { return getDeclarationIdentifier(hostNode); } // Covers remaining cases (returning undefined if none match). switch (hostNode.kind) { case 225 /* VariableStatement */: if (hostNode.declarationList && hostNode.declarationList.declarations[0]) { return getDeclarationIdentifier(hostNode.declarationList.declarations[0]); } break; case 226 /* ExpressionStatement */: var expr = hostNode.expression; if (expr.kind === 209 /* BinaryExpression */ && expr.operatorToken.kind === 62 /* EqualsToken */) { expr = expr.left; } switch (expr.kind) { case 194 /* PropertyAccessExpression */: return expr.name; case 195 /* ElementAccessExpression */: var arg = expr.argumentExpression; if (isIdentifier(arg)) { return arg; } } break; case 200 /* ParenthesizedExpression */: { return getDeclarationIdentifier(hostNode.expression); } case 238 /* LabeledStatement */: { if (isDeclaration(hostNode.statement) || isExpression(hostNode.statement)) { return getDeclarationIdentifier(hostNode.statement); } break; } } } function getDeclarationIdentifier(node) { var name = getNameOfDeclaration(node); return name && isIdentifier(name) ? name : undefined; } /** @internal */ function nodeHasName(statement, name) { if (isNamedDeclaration(statement) && isIdentifier(statement.name) && idText(statement.name) === idText(name)) { return true; } if (isVariableStatement(statement) && ts.some(statement.declarationList.declarations, function (d) { return nodeHasName(d, name); })) { return true; } return false; } ts.nodeHasName = nodeHasName; function getNameOfJSDocTypedef(declaration) { return declaration.name || nameForNamelessJSDocTypedef(declaration); } ts.getNameOfJSDocTypedef = getNameOfJSDocTypedef; /** @internal */ function isNamedDeclaration(node) { return !!node.name; // A 'name' property should always be a DeclarationName. } ts.isNamedDeclaration = isNamedDeclaration; /** @internal */ function getNonAssignedNameOfDeclaration(declaration) { switch (declaration.kind) { case 75 /* Identifier */: return declaration; case 323 /* JSDocPropertyTag */: case 317 /* JSDocParameterTag */: { var name = declaration.name; if (name.kind === 153 /* QualifiedName */) { return name.right; } break; } case 196 /* CallExpression */: case 209 /* BinaryExpression */: { var expr_1 = declaration; switch (ts.getAssignmentDeclarationKind(expr_1)) { case 1 /* ExportsProperty */: case 4 /* ThisProperty */: case 5 /* Property */: case 3 /* PrototypeProperty */: return ts.getElementOrPropertyAccessArgumentExpressionOrName(expr_1.left); case 7 /* ObjectDefinePropertyValue */: case 8 /* ObjectDefinePropertyExports */: case 9 /* ObjectDefinePrototypeProperty */: return expr_1.arguments[1]; default: return undefined; } } case 322 /* JSDocTypedefTag */: return getNameOfJSDocTypedef(declaration); case 316 /* JSDocEnumTag */: return nameForNamelessJSDocTypedef(declaration); case 259 /* ExportAssignment */: { var expression = declaration.expression; return isIdentifier(expression) ? expression : undefined; } case 195 /* ElementAccessExpression */: var expr = declaration; if (ts.isBindableStaticElementAccessExpression(expr)) { return expr.argumentExpression; } } return declaration.name; } ts.getNonAssignedNameOfDeclaration = getNonAssignedNameOfDeclaration; function getNameOfDeclaration(declaration) { if (declaration === undefined) return undefined; return getNonAssignedNameOfDeclaration(declaration) || (isFunctionExpression(declaration) || isClassExpression(declaration) ? getAssignedName(declaration) : undefined); } ts.getNameOfDeclaration = getNameOfDeclaration; function getAssignedName(node) { if (!node.parent) { return undefined; } else if (isPropertyAssignment(node.parent) || isBindingElement(node.parent)) { return node.parent.name; } else if (isBinaryExpression(node.parent) && node === node.parent.right) { if (isIdentifier(node.parent.left)) { return node.parent.left; } else if (ts.isAccessExpression(node.parent.left)) { return ts.getElementOrPropertyAccessArgumentExpressionOrName(node.parent.left); } } else if (isVariableDeclaration(node.parent) && isIdentifier(node.parent.name)) { return node.parent.name; } } /** * Gets the JSDoc parameter tags for the node if present. * * @remarks Returns any JSDoc param tag whose name matches the provided * parameter, whether a param tag on a containing function * expression, or a param tag on a variable declaration whose * initializer is the containing function. The tags closest to the * node are returned first, so in the previous example, the param * tag on the containing function expression would be first. * * For binding patterns, parameter tags are matched by position. */ function getJSDocParameterTags(param) { if (param.name) { if (isIdentifier(param.name)) { var name_1 = param.name.escapedText; return getJSDocTags(param.parent).filter(function (tag) { return isJSDocParameterTag(tag) && isIdentifier(tag.name) && tag.name.escapedText === name_1; }); } else { var i = param.parent.parameters.indexOf(param); ts.Debug.assert(i > -1, "Parameters should always be in their parents' parameter list"); var paramTags = getJSDocTags(param.parent).filter(isJSDocParameterTag); if (i < paramTags.length) { return [paramTags[i]]; } } } // return empty array for: out-of-order binding patterns and JSDoc function syntax, which has un-named parameters return ts.emptyArray; } ts.getJSDocParameterTags = getJSDocParameterTags; /** * Gets the JSDoc type parameter tags for the node if present. * * @remarks Returns any JSDoc template tag whose names match the provided * parameter, whether a template tag on a containing function * expression, or a template tag on a variable declaration whose * initializer is the containing function. The tags closest to the * node are returned first, so in the previous example, the template * tag on the containing function expression would be first. */ function getJSDocTypeParameterTags(param) { var name = param.name.escapedText; return getJSDocTags(param.parent).filter(function (tag) { return isJSDocTemplateTag(tag) && tag.typeParameters.some(function (tp) { return tp.name.escapedText === name; }); }); } ts.getJSDocTypeParameterTags = getJSDocTypeParameterTags; /** * Return true if the node has JSDoc parameter tags. * * @remarks Includes parameter tags that are not directly on the node, * for example on a variable declaration whose initializer is a function expression. */ function hasJSDocParameterTags(node) { return !!getFirstJSDocTag(node, isJSDocParameterTag); } ts.hasJSDocParameterTags = hasJSDocParameterTags; /** Gets the JSDoc augments tag for the node if present */ function getJSDocAugmentsTag(node) { return getFirstJSDocTag(node, isJSDocAugmentsTag); } ts.getJSDocAugmentsTag = getJSDocAugmentsTag; /** Gets the JSDoc implements tags for the node if present */ function getJSDocImplementsTags(node) { return getAllJSDocTags(node, isJSDocImplementsTag); } ts.getJSDocImplementsTags = getJSDocImplementsTags; /** Gets the JSDoc class tag for the node if present */ function getJSDocClassTag(node) { return getFirstJSDocTag(node, isJSDocClassTag); } ts.getJSDocClassTag = getJSDocClassTag; /** Gets the JSDoc public tag for the node if present */ function getJSDocPublicTag(node) { return getFirstJSDocTag(node, isJSDocPublicTag); } ts.getJSDocPublicTag = getJSDocPublicTag; /** Gets the JSDoc private tag for the node if present */ function getJSDocPrivateTag(node) { return getFirstJSDocTag(node, isJSDocPrivateTag); } ts.getJSDocPrivateTag = getJSDocPrivateTag; /** Gets the JSDoc protected tag for the node if present */ function getJSDocProtectedTag(node) { return getFirstJSDocTag(node, isJSDocProtectedTag); } ts.getJSDocProtectedTag = getJSDocProtectedTag; /** Gets the JSDoc protected tag for the node if present */ function getJSDocReadonlyTag(node) { return getFirstJSDocTag(node, isJSDocReadonlyTag); } ts.getJSDocReadonlyTag = getJSDocReadonlyTag; /** Gets the JSDoc enum tag for the node if present */ function getJSDocEnumTag(node) { return getFirstJSDocTag(node, isJSDocEnumTag); } ts.getJSDocEnumTag = getJSDocEnumTag; /** Gets the JSDoc this tag for the node if present */ function getJSDocThisTag(node) { return getFirstJSDocTag(node, isJSDocThisTag); } ts.getJSDocThisTag = getJSDocThisTag; /** Gets the JSDoc return tag for the node if present */ function getJSDocReturnTag(node) { return getFirstJSDocTag(node, isJSDocReturnTag); } ts.getJSDocReturnTag = getJSDocReturnTag; /** Gets the JSDoc template tag for the node if present */ function getJSDocTemplateTag(node) { return getFirstJSDocTag(node, isJSDocTemplateTag); } ts.getJSDocTemplateTag = getJSDocTemplateTag; /** Gets the JSDoc type tag for the node if present and valid */ function getJSDocTypeTag(node) { // We should have already issued an error if there were multiple type jsdocs, so just use the first one. var tag = getFirstJSDocTag(node, isJSDocTypeTag); if (tag && tag.typeExpression && tag.typeExpression.type) { return tag; } return undefined; } ts.getJSDocTypeTag = getJSDocTypeTag; /** * Gets the type node for the node if provided via JSDoc. * * @remarks The search includes any JSDoc param tag that relates * to the provided parameter, for example a type tag on the * parameter itself, or a param tag on a containing function * expression, or a param tag on a variable declaration whose * initializer is the containing function. The tags closest to the * node are examined first, so in the previous example, the type * tag directly on the node would be returned. */ function getJSDocType(node) { var tag = getFirstJSDocTag(node, isJSDocTypeTag); if (!tag && isParameter(node)) { tag = ts.find(getJSDocParameterTags(node), function (tag) { return !!tag.typeExpression; }); } return tag && tag.typeExpression && tag.typeExpression.type; } ts.getJSDocType = getJSDocType; /** * Gets the return type node for the node if provided via JSDoc return tag or type tag. * * @remarks `getJSDocReturnTag` just gets the whole JSDoc tag. This function * gets the type from inside the braces, after the fat arrow, etc. */ function getJSDocReturnType(node) { var returnTag = getJSDocReturnTag(node); if (returnTag && returnTag.typeExpression) { return returnTag.typeExpression.type; } var typeTag = getJSDocTypeTag(node); if (typeTag && typeTag.typeExpression) { var type = typeTag.typeExpression.type; if (isTypeLiteralNode(type)) { var sig = ts.find(type.members, isCallSignatureDeclaration); return sig && sig.type; } if (isFunctionTypeNode(type) || isJSDocFunctionType(type)) { return type.type; } } } ts.getJSDocReturnType = getJSDocReturnType; /** Get all JSDoc tags related to a node, including those on parent nodes. */ function getJSDocTags(node) { var tags = node.jsDocCache; // If cache is 'null', that means we did the work of searching for JSDoc tags and came up with nothing. if (tags === undefined) { var comments = ts.getJSDocCommentsAndTags(node); ts.Debug.assert(comments.length < 2 || comments[0] !== comments[1]); node.jsDocCache = tags = ts.flatMap(comments, function (j) { return isJSDoc(j) ? j.tags : j; }); } return tags; } ts.getJSDocTags = getJSDocTags; /** Get the first JSDoc tag of a specified kind, or undefined if not present. */ function getFirstJSDocTag(node, predicate) { return ts.find(getJSDocTags(node), predicate); } /** Gets all JSDoc tags that match a specified predicate */ function getAllJSDocTags(node, predicate) { return getJSDocTags(node).filter(predicate); } ts.getAllJSDocTags = getAllJSDocTags; /** Gets all JSDoc tags of a specified kind */ function getAllJSDocTagsOfKind(node, kind) { return getJSDocTags(node).filter(function (doc) { return doc.kind === kind; }); } ts.getAllJSDocTagsOfKind = getAllJSDocTagsOfKind; /** * Gets the effective type parameters. If the node was parsed in a * JavaScript file, gets the type parameters from the `@template` tag from JSDoc. */ function getEffectiveTypeParameterDeclarations(node) { if (isJSDocSignature(node)) { return ts.emptyArray; } if (ts.isJSDocTypeAlias(node)) { ts.Debug.assert(node.parent.kind === 303 /* JSDocComment */); return ts.flatMap(node.parent.tags, function (tag) { return isJSDocTemplateTag(tag) ? tag.typeParameters : undefined; }); } if (node.typeParameters) { return node.typeParameters; } if (ts.isInJSFile(node)) { var decls = ts.getJSDocTypeParameterDeclarations(node); if (decls.length) { return decls; } var typeTag = getJSDocType(node); if (typeTag && isFunctionTypeNode(typeTag) && typeTag.typeParameters) { return typeTag.typeParameters; } } return ts.emptyArray; } ts.getEffectiveTypeParameterDeclarations = getEffectiveTypeParameterDeclarations; function getEffectiveConstraintOfTypeParameter(node) { return node.constraint ? node.constraint : isJSDocTemplateTag(node.parent) && node === node.parent.typeParameters[0] ? node.parent.constraint : undefined; } ts.getEffectiveConstraintOfTypeParameter = getEffectiveConstraintOfTypeParameter; // #region // Simple node tests of the form `node.kind === SyntaxKind.Foo`. // Literals function isNumericLiteral(node) { return node.kind === 8 /* NumericLiteral */; } ts.isNumericLiteral = isNumericLiteral; function isBigIntLiteral(node) { return node.kind === 9 /* BigIntLiteral */; } ts.isBigIntLiteral = isBigIntLiteral; function isStringLiteral(node) { return node.kind === 10 /* StringLiteral */; } ts.isStringLiteral = isStringLiteral; function isJsxText(node) { return node.kind === 11 /* JsxText */; } ts.isJsxText = isJsxText; function isRegularExpressionLiteral(node) { return node.kind === 13 /* RegularExpressionLiteral */; } ts.isRegularExpressionLiteral = isRegularExpressionLiteral; function isNoSubstitutionTemplateLiteral(node) { return node.kind === 14 /* NoSubstitutionTemplateLiteral */; } ts.isNoSubstitutionTemplateLiteral = isNoSubstitutionTemplateLiteral; // Pseudo-literals function isTemplateHead(node) { return node.kind === 15 /* TemplateHead */; } ts.isTemplateHead = isTemplateHead; function isTemplateMiddle(node) { return node.kind === 16 /* TemplateMiddle */; } ts.isTemplateMiddle = isTemplateMiddle; function isTemplateTail(node) { return node.kind === 17 /* TemplateTail */; } ts.isTemplateTail = isTemplateTail; function isIdentifier(node) { return node.kind === 75 /* Identifier */; } ts.isIdentifier = isIdentifier; // Names function isQualifiedName(node) { return node.kind === 153 /* QualifiedName */; } ts.isQualifiedName = isQualifiedName; function isComputedPropertyName(node) { return node.kind === 154 /* ComputedPropertyName */; } ts.isComputedPropertyName = isComputedPropertyName; function isPrivateIdentifier(node) { return node.kind === 76 /* PrivateIdentifier */; } ts.isPrivateIdentifier = isPrivateIdentifier; function isIdentifierOrPrivateIdentifier(node) { return node.kind === 75 /* Identifier */ || node.kind === 76 /* PrivateIdentifier */; } ts.isIdentifierOrPrivateIdentifier = isIdentifierOrPrivateIdentifier; // Signature elements function isTypeParameterDeclaration(node) { return node.kind === 155 /* TypeParameter */; } ts.isTypeParameterDeclaration = isTypeParameterDeclaration; function isParameter(node) { return node.kind === 156 /* Parameter */; } ts.isParameter = isParameter; function isDecorator(node) { return node.kind === 157 /* Decorator */; } ts.isDecorator = isDecorator; // TypeMember function isPropertySignature(node) { return node.kind === 158 /* PropertySignature */; } ts.isPropertySignature = isPropertySignature; function isPropertyDeclaration(node) { return node.kind === 159 /* PropertyDeclaration */; } ts.isPropertyDeclaration = isPropertyDeclaration; function isMethodSignature(node) { return node.kind === 160 /* MethodSignature */; } ts.isMethodSignature = isMethodSignature; function isMethodDeclaration(node) { return node.kind === 161 /* MethodDeclaration */; } ts.isMethodDeclaration = isMethodDeclaration; function isConstructorDeclaration(node) { return node.kind === 162 /* Constructor */; } ts.isConstructorDeclaration = isConstructorDeclaration; function isGetAccessorDeclaration(node) { return node.kind === 163 /* GetAccessor */; } ts.isGetAccessorDeclaration = isGetAccessorDeclaration; function isSetAccessorDeclaration(node) { return node.kind === 164 /* SetAccessor */; } ts.isSetAccessorDeclaration = isSetAccessorDeclaration; function isCallSignatureDeclaration(node) { return node.kind === 165 /* CallSignature */; } ts.isCallSignatureDeclaration = isCallSignatureDeclaration; function isConstructSignatureDeclaration(node) { return node.kind === 166 /* ConstructSignature */; } ts.isConstructSignatureDeclaration = isConstructSignatureDeclaration; function isIndexSignatureDeclaration(node) { return node.kind === 167 /* IndexSignature */; } ts.isIndexSignatureDeclaration = isIndexSignatureDeclaration; /* @internal */ function isGetOrSetAccessorDeclaration(node) { return node.kind === 164 /* SetAccessor */ || node.kind === 163 /* GetAccessor */; } ts.isGetOrSetAccessorDeclaration = isGetOrSetAccessorDeclaration; // Type function isTypePredicateNode(node) { return node.kind === 168 /* TypePredicate */; } ts.isTypePredicateNode = isTypePredicateNode; function isTypeReferenceNode(node) { return node.kind === 169 /* TypeReference */; } ts.isTypeReferenceNode = isTypeReferenceNode; function isFunctionTypeNode(node) { return node.kind === 170 /* FunctionType */; } ts.isFunctionTypeNode = isFunctionTypeNode; function isConstructorTypeNode(node) { return node.kind === 171 /* ConstructorType */; } ts.isConstructorTypeNode = isConstructorTypeNode; function isTypeQueryNode(node) { return node.kind === 172 /* TypeQuery */; } ts.isTypeQueryNode = isTypeQueryNode; function isTypeLiteralNode(node) { return node.kind === 173 /* TypeLiteral */; } ts.isTypeLiteralNode = isTypeLiteralNode; function isArrayTypeNode(node) { return node.kind === 174 /* ArrayType */; } ts.isArrayTypeNode = isArrayTypeNode; function isTupleTypeNode(node) { return node.kind === 175 /* TupleType */; } ts.isTupleTypeNode = isTupleTypeNode; function isUnionTypeNode(node) { return node.kind === 178 /* UnionType */; } ts.isUnionTypeNode = isUnionTypeNode; function isIntersectionTypeNode(node) { return node.kind === 179 /* IntersectionType */; } ts.isIntersectionTypeNode = isIntersectionTypeNode; function isConditionalTypeNode(node) { return node.kind === 180 /* ConditionalType */; } ts.isConditionalTypeNode = isConditionalTypeNode; function isInferTypeNode(node) { return node.kind === 181 /* InferType */; } ts.isInferTypeNode = isInferTypeNode; function isParenthesizedTypeNode(node) { return node.kind === 182 /* ParenthesizedType */; } ts.isParenthesizedTypeNode = isParenthesizedTypeNode; function isThisTypeNode(node) { return node.kind === 183 /* ThisType */; } ts.isThisTypeNode = isThisTypeNode; function isTypeOperatorNode(node) { return node.kind === 184 /* TypeOperator */; } ts.isTypeOperatorNode = isTypeOperatorNode; function isIndexedAccessTypeNode(node) { return node.kind === 185 /* IndexedAccessType */; } ts.isIndexedAccessTypeNode = isIndexedAccessTypeNode; function isMappedTypeNode(node) { return node.kind === 186 /* MappedType */; } ts.isMappedTypeNode = isMappedTypeNode; function isLiteralTypeNode(node) { return node.kind === 187 /* LiteralType */; } ts.isLiteralTypeNode = isLiteralTypeNode; function isImportTypeNode(node) { return node.kind === 188 /* ImportType */; } ts.isImportTypeNode = isImportTypeNode; // Binding patterns function isObjectBindingPattern(node) { return node.kind === 189 /* ObjectBindingPattern */; } ts.isObjectBindingPattern = isObjectBindingPattern; function isArrayBindingPattern(node) { return node.kind === 190 /* ArrayBindingPattern */; } ts.isArrayBindingPattern = isArrayBindingPattern; function isBindingElement(node) { return node.kind === 191 /* BindingElement */; } ts.isBindingElement = isBindingElement; // Expression function isArrayLiteralExpression(node) { return node.kind === 192 /* ArrayLiteralExpression */; } ts.isArrayLiteralExpression = isArrayLiteralExpression; function isObjectLiteralExpression(node) { return node.kind === 193 /* ObjectLiteralExpression */; } ts.isObjectLiteralExpression = isObjectLiteralExpression; function isPropertyAccessExpression(node) { return node.kind === 194 /* PropertyAccessExpression */; } ts.isPropertyAccessExpression = isPropertyAccessExpression; function isPropertyAccessChain(node) { return isPropertyAccessExpression(node) && !!(node.flags & 32 /* OptionalChain */); } ts.isPropertyAccessChain = isPropertyAccessChain; function isElementAccessExpression(node) { return node.kind === 195 /* ElementAccessExpression */; } ts.isElementAccessExpression = isElementAccessExpression; function isElementAccessChain(node) { return isElementAccessExpression(node) && !!(node.flags & 32 /* OptionalChain */); } ts.isElementAccessChain = isElementAccessChain; function isCallExpression(node) { return node.kind === 196 /* CallExpression */; } ts.isCallExpression = isCallExpression; function isCallChain(node) { return isCallExpression(node) && !!(node.flags & 32 /* OptionalChain */); } ts.isCallChain = isCallChain; function isOptionalChain(node) { var kind = node.kind; return !!(node.flags & 32 /* OptionalChain */) && (kind === 194 /* PropertyAccessExpression */ || kind === 195 /* ElementAccessExpression */ || kind === 196 /* CallExpression */ || kind === 218 /* NonNullExpression */); } ts.isOptionalChain = isOptionalChain; /* @internal */ function isOptionalChainRoot(node) { return isOptionalChain(node) && !isNonNullExpression(node) && !!node.questionDotToken; } ts.isOptionalChainRoot = isOptionalChainRoot; /** * Determines whether a node is the expression preceding an optional chain (i.e. `a` in `a?.b`). */ /* @internal */ function isExpressionOfOptionalChainRoot(node) { return isOptionalChainRoot(node.parent) && node.parent.expression === node; } ts.isExpressionOfOptionalChainRoot = isExpressionOfOptionalChainRoot; /** * Determines whether a node is the outermost `OptionalChain` in an ECMAScript `OptionalExpression`: * * 1. For `a?.b.c`, the outermost chain is `a?.b.c` (`c` is the end of the chain starting at `a?.`) * 2. For `a?.b!`, the outermost chain is `a?.b` (`b` is the end of the chain starting at `a?.`) * 3. For `(a?.b.c).d`, the outermost chain is `a?.b.c` (`c` is the end of the chain starting at `a?.` since parens end the chain) * 4. For `a?.b.c?.d`, both `a?.b.c` and `a?.b.c?.d` are outermost (`c` is the end of the chain starting at `a?.`, and `d` is * the end of the chain starting at `c?.`) * 5. For `a?.(b?.c).d`, both `b?.c` and `a?.(b?.c)d` are outermost (`c` is the end of the chain starting at `b`, and `d` is * the end of the chain starting at `a?.`) */ /* @internal */ function isOutermostOptionalChain(node) { return !isOptionalChain(node.parent) // cases 1, 2, and 3 || isOptionalChainRoot(node.parent) // case 4 || node !== node.parent.expression; // case 5 } ts.isOutermostOptionalChain = isOutermostOptionalChain; function isNullishCoalesce(node) { return node.kind === 209 /* BinaryExpression */ && node.operatorToken.kind === 60 /* QuestionQuestionToken */; } ts.isNullishCoalesce = isNullishCoalesce; function isNewExpression(node) { return node.kind === 197 /* NewExpression */; } ts.isNewExpression = isNewExpression; function isTaggedTemplateExpression(node) { return node.kind === 198 /* TaggedTemplateExpression */; } ts.isTaggedTemplateExpression = isTaggedTemplateExpression; function isTypeAssertion(node) { return node.kind === 199 /* TypeAssertionExpression */; } ts.isTypeAssertion = isTypeAssertion; function isConstTypeReference(node) { return isTypeReferenceNode(node) && isIdentifier(node.typeName) && node.typeName.escapedText === "const" && !node.typeArguments; } ts.isConstTypeReference = isConstTypeReference; function isParenthesizedExpression(node) { return node.kind === 200 /* ParenthesizedExpression */; } ts.isParenthesizedExpression = isParenthesizedExpression; function skipPartiallyEmittedExpressions(node) { return ts.skipOuterExpressions(node, 8 /* PartiallyEmittedExpressions */); } ts.skipPartiallyEmittedExpressions = skipPartiallyEmittedExpressions; function isFunctionExpression(node) { return node.kind === 201 /* FunctionExpression */; } ts.isFunctionExpression = isFunctionExpression; function isArrowFunction(node) { return node.kind === 202 /* ArrowFunction */; } ts.isArrowFunction = isArrowFunction; function isDeleteExpression(node) { return node.kind === 203 /* DeleteExpression */; } ts.isDeleteExpression = isDeleteExpression; function isTypeOfExpression(node) { return node.kind === 204 /* TypeOfExpression */; } ts.isTypeOfExpression = isTypeOfExpression; function isVoidExpression(node) { return node.kind === 205 /* VoidExpression */; } ts.isVoidExpression = isVoidExpression; function isAwaitExpression(node) { return node.kind === 206 /* AwaitExpression */; } ts.isAwaitExpression = isAwaitExpression; function isPrefixUnaryExpression(node) { return node.kind === 207 /* PrefixUnaryExpression */; } ts.isPrefixUnaryExpression = isPrefixUnaryExpression; function isPostfixUnaryExpression(node) { return node.kind === 208 /* PostfixUnaryExpression */; } ts.isPostfixUnaryExpression = isPostfixUnaryExpression; function isBinaryExpression(node) { return node.kind === 209 /* BinaryExpression */; } ts.isBinaryExpression = isBinaryExpression; function isConditionalExpression(node) { return node.kind === 210 /* ConditionalExpression */; } ts.isConditionalExpression = isConditionalExpression; function isTemplateExpression(node) { return node.kind === 211 /* TemplateExpression */; } ts.isTemplateExpression = isTemplateExpression; function isYieldExpression(node) { return node.kind === 212 /* YieldExpression */; } ts.isYieldExpression = isYieldExpression; function isSpreadElement(node) { return node.kind === 213 /* SpreadElement */; } ts.isSpreadElement = isSpreadElement; function isClassExpression(node) { return node.kind === 214 /* ClassExpression */; } ts.isClassExpression = isClassExpression; function isOmittedExpression(node) { return node.kind === 215 /* OmittedExpression */; } ts.isOmittedExpression = isOmittedExpression; function isExpressionWithTypeArguments(node) { return node.kind === 216 /* ExpressionWithTypeArguments */; } ts.isExpressionWithTypeArguments = isExpressionWithTypeArguments; function isAsExpression(node) { return node.kind === 217 /* AsExpression */; } ts.isAsExpression = isAsExpression; function isNonNullExpression(node) { return node.kind === 218 /* NonNullExpression */; } ts.isNonNullExpression = isNonNullExpression; function isNonNullChain(node) { return isNonNullExpression(node) && !!(node.flags & 32 /* OptionalChain */); } ts.isNonNullChain = isNonNullChain; function isMetaProperty(node) { return node.kind === 219 /* MetaProperty */; } ts.isMetaProperty = isMetaProperty; // Misc function isTemplateSpan(node) { return node.kind === 221 /* TemplateSpan */; } ts.isTemplateSpan = isTemplateSpan; function isSemicolonClassElement(node) { return node.kind === 222 /* SemicolonClassElement */; } ts.isSemicolonClassElement = isSemicolonClassElement; // Block function isBlock(node) { return node.kind === 223 /* Block */; } ts.isBlock = isBlock; function isVariableStatement(node) { return node.kind === 225 /* VariableStatement */; } ts.isVariableStatement = isVariableStatement; function isEmptyStatement(node) { return node.kind === 224 /* EmptyStatement */; } ts.isEmptyStatement = isEmptyStatement; function isExpressionStatement(node) { return node.kind === 226 /* ExpressionStatement */; } ts.isExpressionStatement = isExpressionStatement; function isIfStatement(node) { return node.kind === 227 /* IfStatement */; } ts.isIfStatement = isIfStatement; function isDoStatement(node) { return node.kind === 228 /* DoStatement */; } ts.isDoStatement = isDoStatement; function isWhileStatement(node) { return node.kind === 229 /* WhileStatement */; } ts.isWhileStatement = isWhileStatement; function isForStatement(node) { return node.kind === 230 /* ForStatement */; } ts.isForStatement = isForStatement; function isForInStatement(node) { return node.kind === 231 /* ForInStatement */; } ts.isForInStatement = isForInStatement; function isForOfStatement(node) { return node.kind === 232 /* ForOfStatement */; } ts.isForOfStatement = isForOfStatement; function isContinueStatement(node) { return node.kind === 233 /* ContinueStatement */; } ts.isContinueStatement = isContinueStatement; function isBreakStatement(node) { return node.kind === 234 /* BreakStatement */; } ts.isBreakStatement = isBreakStatement; function isBreakOrContinueStatement(node) { return node.kind === 234 /* BreakStatement */ || node.kind === 233 /* ContinueStatement */; } ts.isBreakOrContinueStatement = isBreakOrContinueStatement; function isReturnStatement(node) { return node.kind === 235 /* ReturnStatement */; } ts.isReturnStatement = isReturnStatement; function isWithStatement(node) { return node.kind === 236 /* WithStatement */; } ts.isWithStatement = isWithStatement; function isSwitchStatement(node) { return node.kind === 237 /* SwitchStatement */; } ts.isSwitchStatement = isSwitchStatement; function isLabeledStatement(node) { return node.kind === 238 /* LabeledStatement */; } ts.isLabeledStatement = isLabeledStatement; function isThrowStatement(node) { return node.kind === 239 /* ThrowStatement */; } ts.isThrowStatement = isThrowStatement; function isTryStatement(node) { return node.kind === 240 /* TryStatement */; } ts.isTryStatement = isTryStatement; function isDebuggerStatement(node) { return node.kind === 241 /* DebuggerStatement */; } ts.isDebuggerStatement = isDebuggerStatement; function isVariableDeclaration(node) { return node.kind === 242 /* VariableDeclaration */; } ts.isVariableDeclaration = isVariableDeclaration; function isVariableDeclarationList(node) { return node.kind === 243 /* VariableDeclarationList */; } ts.isVariableDeclarationList = isVariableDeclarationList; function isFunctionDeclaration(node) { return node.kind === 244 /* FunctionDeclaration */; } ts.isFunctionDeclaration = isFunctionDeclaration; function isClassDeclaration(node) { return node.kind === 245 /* ClassDeclaration */; } ts.isClassDeclaration = isClassDeclaration; function isInterfaceDeclaration(node) { return node.kind === 246 /* InterfaceDeclaration */; } ts.isInterfaceDeclaration = isInterfaceDeclaration; function isTypeAliasDeclaration(node) { return node.kind === 247 /* TypeAliasDeclaration */; } ts.isTypeAliasDeclaration = isTypeAliasDeclaration; function isEnumDeclaration(node) { return node.kind === 248 /* EnumDeclaration */; } ts.isEnumDeclaration = isEnumDeclaration; function isModuleDeclaration(node) { return node.kind === 249 /* ModuleDeclaration */; } ts.isModuleDeclaration = isModuleDeclaration; function isModuleBlock(node) { return node.kind === 250 /* ModuleBlock */; } ts.isModuleBlock = isModuleBlock; function isCaseBlock(node) { return node.kind === 251 /* CaseBlock */; } ts.isCaseBlock = isCaseBlock; function isNamespaceExportDeclaration(node) { return node.kind === 252 /* NamespaceExportDeclaration */; } ts.isNamespaceExportDeclaration = isNamespaceExportDeclaration; function isImportEqualsDeclaration(node) { return node.kind === 253 /* ImportEqualsDeclaration */; } ts.isImportEqualsDeclaration = isImportEqualsDeclaration; function isImportDeclaration(node) { return node.kind === 254 /* ImportDeclaration */; } ts.isImportDeclaration = isImportDeclaration; function isImportClause(node) { return node.kind === 255 /* ImportClause */; } ts.isImportClause = isImportClause; function isNamespaceImport(node) { return node.kind === 256 /* NamespaceImport */; } ts.isNamespaceImport = isNamespaceImport; function isNamespaceExport(node) { return node.kind === 262 /* NamespaceExport */; } ts.isNamespaceExport = isNamespaceExport; function isNamedExportBindings(node) { return node.kind === 262 /* NamespaceExport */ || node.kind === 261 /* NamedExports */; } ts.isNamedExportBindings = isNamedExportBindings; function isNamedImports(node) { return node.kind === 257 /* NamedImports */; } ts.isNamedImports = isNamedImports; function isImportSpecifier(node) { return node.kind === 258 /* ImportSpecifier */; } ts.isImportSpecifier = isImportSpecifier; function isExportAssignment(node) { return node.kind === 259 /* ExportAssignment */; } ts.isExportAssignment = isExportAssignment; function isExportDeclaration(node) { return node.kind === 260 /* ExportDeclaration */; } ts.isExportDeclaration = isExportDeclaration; function isNamedExports(node) { return node.kind === 261 /* NamedExports */; } ts.isNamedExports = isNamedExports; function isExportSpecifier(node) { return node.kind === 263 /* ExportSpecifier */; } ts.isExportSpecifier = isExportSpecifier; function isMissingDeclaration(node) { return node.kind === 264 /* MissingDeclaration */; } ts.isMissingDeclaration = isMissingDeclaration; // Module References function isExternalModuleReference(node) { return node.kind === 265 /* ExternalModuleReference */; } ts.isExternalModuleReference = isExternalModuleReference; // JSX function isJsxElement(node) { return node.kind === 266 /* JsxElement */; } ts.isJsxElement = isJsxElement; function isJsxSelfClosingElement(node) { return node.kind === 267 /* JsxSelfClosingElement */; } ts.isJsxSelfClosingElement = isJsxSelfClosingElement; function isJsxOpeningElement(node) { return node.kind === 268 /* JsxOpeningElement */; } ts.isJsxOpeningElement = isJsxOpeningElement; function isJsxClosingElement(node) { return node.kind === 269 /* JsxClosingElement */; } ts.isJsxClosingElement = isJsxClosingElement; function isJsxFragment(node) { return node.kind === 270 /* JsxFragment */; } ts.isJsxFragment = isJsxFragment; function isJsxOpeningFragment(node) { return node.kind === 271 /* JsxOpeningFragment */; } ts.isJsxOpeningFragment = isJsxOpeningFragment; function isJsxClosingFragment(node) { return node.kind === 272 /* JsxClosingFragment */; } ts.isJsxClosingFragment = isJsxClosingFragment; function isJsxAttribute(node) { return node.kind === 273 /* JsxAttribute */; } ts.isJsxAttribute = isJsxAttribute; function isJsxAttributes(node) { return node.kind === 274 /* JsxAttributes */; } ts.isJsxAttributes = isJsxAttributes; function isJsxSpreadAttribute(node) { return node.kind === 275 /* JsxSpreadAttribute */; } ts.isJsxSpreadAttribute = isJsxSpreadAttribute; function isJsxExpression(node) { return node.kind === 276 /* JsxExpression */; } ts.isJsxExpression = isJsxExpression; // Clauses function isCaseClause(node) { return node.kind === 277 /* CaseClause */; } ts.isCaseClause = isCaseClause; function isDefaultClause(node) { return node.kind === 278 /* DefaultClause */; } ts.isDefaultClause = isDefaultClause; function isHeritageClause(node) { return node.kind === 279 /* HeritageClause */; } ts.isHeritageClause = isHeritageClause; function isCatchClause(node) { return node.kind === 280 /* CatchClause */; } ts.isCatchClause = isCatchClause; // Property assignments function isPropertyAssignment(node) { return node.kind === 281 /* PropertyAssignment */; } ts.isPropertyAssignment = isPropertyAssignment; function isShorthandPropertyAssignment(node) { return node.kind === 282 /* ShorthandPropertyAssignment */; } ts.isShorthandPropertyAssignment = isShorthandPropertyAssignment; function isSpreadAssignment(node) { return node.kind === 283 /* SpreadAssignment */; } ts.isSpreadAssignment = isSpreadAssignment; // Enum function isEnumMember(node) { return node.kind === 284 /* EnumMember */; } ts.isEnumMember = isEnumMember; // Top-level nodes function isSourceFile(node) { return node.kind === 290 /* SourceFile */; } ts.isSourceFile = isSourceFile; function isBundle(node) { return node.kind === 291 /* Bundle */; } ts.isBundle = isBundle; function isUnparsedSource(node) { return node.kind === 292 /* UnparsedSource */; } ts.isUnparsedSource = isUnparsedSource; function isUnparsedPrepend(node) { return node.kind === 286 /* UnparsedPrepend */; } ts.isUnparsedPrepend = isUnparsedPrepend; function isUnparsedTextLike(node) { switch (node.kind) { case 287 /* UnparsedText */: case 288 /* UnparsedInternalText */: return true; default: return false; } } ts.isUnparsedTextLike = isUnparsedTextLike; function isUnparsedNode(node) { return isUnparsedTextLike(node) || node.kind === 285 /* UnparsedPrologue */ || node.kind === 289 /* UnparsedSyntheticReference */; } ts.isUnparsedNode = isUnparsedNode; // JSDoc function isJSDocTypeExpression(node) { return node.kind === 294 /* JSDocTypeExpression */; } ts.isJSDocTypeExpression = isJSDocTypeExpression; function isJSDocAllType(node) { return node.kind === 295 /* JSDocAllType */; } ts.isJSDocAllType = isJSDocAllType; function isJSDocUnknownType(node) { return node.kind === 296 /* JSDocUnknownType */; } ts.isJSDocUnknownType = isJSDocUnknownType; function isJSDocNullableType(node) { return node.kind === 297 /* JSDocNullableType */; } ts.isJSDocNullableType = isJSDocNullableType; function isJSDocNonNullableType(node) { return node.kind === 298 /* JSDocNonNullableType */; } ts.isJSDocNonNullableType = isJSDocNonNullableType; function isJSDocOptionalType(node) { return node.kind === 299 /* JSDocOptionalType */; } ts.isJSDocOptionalType = isJSDocOptionalType; function isJSDocFunctionType(node) { return node.kind === 300 /* JSDocFunctionType */; } ts.isJSDocFunctionType = isJSDocFunctionType; function isJSDocVariadicType(node) { return node.kind === 301 /* JSDocVariadicType */; } ts.isJSDocVariadicType = isJSDocVariadicType; function isJSDoc(node) { return node.kind === 303 /* JSDocComment */; } ts.isJSDoc = isJSDoc; function isJSDocAuthorTag(node) { return node.kind === 309 /* JSDocAuthorTag */; } ts.isJSDocAuthorTag = isJSDocAuthorTag; function isJSDocAugmentsTag(node) { return node.kind === 307 /* JSDocAugmentsTag */; } ts.isJSDocAugmentsTag = isJSDocAugmentsTag; function isJSDocImplementsTag(node) { return node.kind === 308 /* JSDocImplementsTag */; } ts.isJSDocImplementsTag = isJSDocImplementsTag; function isJSDocClassTag(node) { return node.kind === 310 /* JSDocClassTag */; } ts.isJSDocClassTag = isJSDocClassTag; function isJSDocPublicTag(node) { return node.kind === 311 /* JSDocPublicTag */; } ts.isJSDocPublicTag = isJSDocPublicTag; function isJSDocPrivateTag(node) { return node.kind === 312 /* JSDocPrivateTag */; } ts.isJSDocPrivateTag = isJSDocPrivateTag; function isJSDocProtectedTag(node) { return node.kind === 313 /* JSDocProtectedTag */; } ts.isJSDocProtectedTag = isJSDocProtectedTag; function isJSDocReadonlyTag(node) { return node.kind === 314 /* JSDocReadonlyTag */; } ts.isJSDocReadonlyTag = isJSDocReadonlyTag; function isJSDocEnumTag(node) { return node.kind === 316 /* JSDocEnumTag */; } ts.isJSDocEnumTag = isJSDocEnumTag; function isJSDocThisTag(node) { return node.kind === 319 /* JSDocThisTag */; } ts.isJSDocThisTag = isJSDocThisTag; function isJSDocParameterTag(node) { return node.kind === 317 /* JSDocParameterTag */; } ts.isJSDocParameterTag = isJSDocParameterTag; function isJSDocReturnTag(node) { return node.kind === 318 /* JSDocReturnTag */; } ts.isJSDocReturnTag = isJSDocReturnTag; function isJSDocTypeTag(node) { return node.kind === 320 /* JSDocTypeTag */; } ts.isJSDocTypeTag = isJSDocTypeTag; function isJSDocTemplateTag(node) { return node.kind === 321 /* JSDocTemplateTag */; } ts.isJSDocTemplateTag = isJSDocTemplateTag; function isJSDocTypedefTag(node) { return node.kind === 322 /* JSDocTypedefTag */; } ts.isJSDocTypedefTag = isJSDocTypedefTag; function isJSDocPropertyTag(node) { return node.kind === 323 /* JSDocPropertyTag */; } ts.isJSDocPropertyTag = isJSDocPropertyTag; function isJSDocPropertyLikeTag(node) { return node.kind === 323 /* JSDocPropertyTag */ || node.kind === 317 /* JSDocParameterTag */; } ts.isJSDocPropertyLikeTag = isJSDocPropertyLikeTag; function isJSDocTypeLiteral(node) { return node.kind === 304 /* JSDocTypeLiteral */; } ts.isJSDocTypeLiteral = isJSDocTypeLiteral; function isJSDocCallbackTag(node) { return node.kind === 315 /* JSDocCallbackTag */; } ts.isJSDocCallbackTag = isJSDocCallbackTag; function isJSDocSignature(node) { return node.kind === 305 /* JSDocSignature */; } ts.isJSDocSignature = isJSDocSignature; // #endregion // #region // Node tests // // All node tests in the following list should *not* reference parent pointers so that // they may be used with transformations. /* @internal */ function isSyntaxList(n) { return n.kind === 324 /* SyntaxList */; } ts.isSyntaxList = isSyntaxList; /* @internal */ function isNode(node) { return isNodeKind(node.kind); } ts.isNode = isNode; /* @internal */ function isNodeKind(kind) { return kind >= 153 /* FirstNode */; } ts.isNodeKind = isNodeKind; /** * True if node is of some token syntax kind. * For example, this is true for an IfKeyword but not for an IfStatement. * Literals are considered tokens, except TemplateLiteral, but does include TemplateHead/Middle/Tail. */ function isToken(n) { return n.kind >= 0 /* FirstToken */ && n.kind <= 152 /* LastToken */; } ts.isToken = isToken; // Node Arrays /* @internal */ function isNodeArray(array) { return array.hasOwnProperty("pos") && array.hasOwnProperty("end"); } ts.isNodeArray = isNodeArray; // Literals /* @internal */ function isLiteralKind(kind) { return 8 /* FirstLiteralToken */ <= kind && kind <= 14 /* LastLiteralToken */; } ts.isLiteralKind = isLiteralKind; function isLiteralExpression(node) { return isLiteralKind(node.kind); } ts.isLiteralExpression = isLiteralExpression; // Pseudo-literals /* @internal */ function isTemplateLiteralKind(kind) { return 14 /* FirstTemplateToken */ <= kind && kind <= 17 /* LastTemplateToken */; } ts.isTemplateLiteralKind = isTemplateLiteralKind; function isTemplateLiteralToken(node) { return isTemplateLiteralKind(node.kind); } ts.isTemplateLiteralToken = isTemplateLiteralToken; function isTemplateMiddleOrTemplateTail(node) { var kind = node.kind; return kind === 16 /* TemplateMiddle */ || kind === 17 /* TemplateTail */; } ts.isTemplateMiddleOrTemplateTail = isTemplateMiddleOrTemplateTail; function isImportOrExportSpecifier(node) { return isImportSpecifier(node) || isExportSpecifier(node); } ts.isImportOrExportSpecifier = isImportOrExportSpecifier; function isTypeOnlyImportOrExportDeclaration(node) { switch (node.kind) { case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: return node.parent.parent.isTypeOnly; case 256 /* NamespaceImport */: return node.parent.isTypeOnly; case 255 /* ImportClause */: return node.isTypeOnly; default: return false; } } ts.isTypeOnlyImportOrExportDeclaration = isTypeOnlyImportOrExportDeclaration; function isStringTextContainingNode(node) { return node.kind === 10 /* StringLiteral */ || isTemplateLiteralKind(node.kind); } ts.isStringTextContainingNode = isStringTextContainingNode; // Identifiers /* @internal */ function isGeneratedIdentifier(node) { return isIdentifier(node) && (node.autoGenerateFlags & 7 /* KindMask */) > 0 /* None */; } ts.isGeneratedIdentifier = isGeneratedIdentifier; // Private Identifiers /*@internal*/ function isPrivateIdentifierPropertyDeclaration(node) { return isPropertyDeclaration(node) && isPrivateIdentifier(node.name); } ts.isPrivateIdentifierPropertyDeclaration = isPrivateIdentifierPropertyDeclaration; /*@internal*/ function isPrivateIdentifierPropertyAccessExpression(node) { return isPropertyAccessExpression(node) && isPrivateIdentifier(node.name); } ts.isPrivateIdentifierPropertyAccessExpression = isPrivateIdentifierPropertyAccessExpression; // Keywords /* @internal */ function isModifierKind(token) { switch (token) { case 122 /* AbstractKeyword */: case 126 /* AsyncKeyword */: case 81 /* ConstKeyword */: case 130 /* DeclareKeyword */: case 84 /* DefaultKeyword */: case 89 /* ExportKeyword */: case 119 /* PublicKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 138 /* ReadonlyKeyword */: case 120 /* StaticKeyword */: return true; } return false; } ts.isModifierKind = isModifierKind; /* @internal */ function isParameterPropertyModifier(kind) { return !!(ts.modifierToFlag(kind) & 92 /* ParameterPropertyModifier */); } ts.isParameterPropertyModifier = isParameterPropertyModifier; /* @internal */ function isClassMemberModifier(idToken) { return isParameterPropertyModifier(idToken) || idToken === 120 /* StaticKeyword */; } ts.isClassMemberModifier = isClassMemberModifier; function isModifier(node) { return isModifierKind(node.kind); } ts.isModifier = isModifier; function isEntityName(node) { var kind = node.kind; return kind === 153 /* QualifiedName */ || kind === 75 /* Identifier */; } ts.isEntityName = isEntityName; function isPropertyName(node) { var kind = node.kind; return kind === 75 /* Identifier */ || kind === 76 /* PrivateIdentifier */ || kind === 10 /* StringLiteral */ || kind === 8 /* NumericLiteral */ || kind === 154 /* ComputedPropertyName */; } ts.isPropertyName = isPropertyName; function isBindingName(node) { var kind = node.kind; return kind === 75 /* Identifier */ || kind === 189 /* ObjectBindingPattern */ || kind === 190 /* ArrayBindingPattern */; } ts.isBindingName = isBindingName; // Functions function isFunctionLike(node) { return node && isFunctionLikeKind(node.kind); } ts.isFunctionLike = isFunctionLike; /* @internal */ function isFunctionLikeDeclaration(node) { return node && isFunctionLikeDeclarationKind(node.kind); } ts.isFunctionLikeDeclaration = isFunctionLikeDeclaration; function isFunctionLikeDeclarationKind(kind) { switch (kind) { case 244 /* FunctionDeclaration */: case 161 /* MethodDeclaration */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return true; default: return false; } } /* @internal */ function isFunctionLikeKind(kind) { switch (kind) { case 160 /* MethodSignature */: case 165 /* CallSignature */: case 305 /* JSDocSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: case 170 /* FunctionType */: case 300 /* JSDocFunctionType */: case 171 /* ConstructorType */: return true; default: return isFunctionLikeDeclarationKind(kind); } } ts.isFunctionLikeKind = isFunctionLikeKind; /* @internal */ function isFunctionOrModuleBlock(node) { return isSourceFile(node) || isModuleBlock(node) || isBlock(node) && isFunctionLike(node.parent); } ts.isFunctionOrModuleBlock = isFunctionOrModuleBlock; // Classes function isClassElement(node) { var kind = node.kind; return kind === 162 /* Constructor */ || kind === 159 /* PropertyDeclaration */ || kind === 161 /* MethodDeclaration */ || kind === 163 /* GetAccessor */ || kind === 164 /* SetAccessor */ || kind === 167 /* IndexSignature */ || kind === 222 /* SemicolonClassElement */; } ts.isClassElement = isClassElement; function isClassLike(node) { return node && (node.kind === 245 /* ClassDeclaration */ || node.kind === 214 /* ClassExpression */); } ts.isClassLike = isClassLike; function isAccessor(node) { return node && (node.kind === 163 /* GetAccessor */ || node.kind === 164 /* SetAccessor */); } ts.isAccessor = isAccessor; /* @internal */ function isMethodOrAccessor(node) { switch (node.kind) { case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return true; default: return false; } } ts.isMethodOrAccessor = isMethodOrAccessor; // Type members function isTypeElement(node) { var kind = node.kind; return kind === 166 /* ConstructSignature */ || kind === 165 /* CallSignature */ || kind === 158 /* PropertySignature */ || kind === 160 /* MethodSignature */ || kind === 167 /* IndexSignature */; } ts.isTypeElement = isTypeElement; function isClassOrTypeElement(node) { return isTypeElement(node) || isClassElement(node); } ts.isClassOrTypeElement = isClassOrTypeElement; function isObjectLiteralElementLike(node) { var kind = node.kind; return kind === 281 /* PropertyAssignment */ || kind === 282 /* ShorthandPropertyAssignment */ || kind === 283 /* SpreadAssignment */ || kind === 161 /* MethodDeclaration */ || kind === 163 /* GetAccessor */ || kind === 164 /* SetAccessor */; } ts.isObjectLiteralElementLike = isObjectLiteralElementLike; // Type /** * Node test that determines whether a node is a valid type node. * This differs from the `isPartOfTypeNode` function which determines whether a node is *part* * of a TypeNode. */ function isTypeNode(node) { return ts.isTypeNodeKind(node.kind); } ts.isTypeNode = isTypeNode; function isFunctionOrConstructorTypeNode(node) { switch (node.kind) { case 170 /* FunctionType */: case 171 /* ConstructorType */: return true; } return false; } ts.isFunctionOrConstructorTypeNode = isFunctionOrConstructorTypeNode; // Binding patterns /* @internal */ function isBindingPattern(node) { if (node) { var kind = node.kind; return kind === 190 /* ArrayBindingPattern */ || kind === 189 /* ObjectBindingPattern */; } return false; } ts.isBindingPattern = isBindingPattern; /* @internal */ function isAssignmentPattern(node) { var kind = node.kind; return kind === 192 /* ArrayLiteralExpression */ || kind === 193 /* ObjectLiteralExpression */; } ts.isAssignmentPattern = isAssignmentPattern; /* @internal */ function isArrayBindingElement(node) { var kind = node.kind; return kind === 191 /* BindingElement */ || kind === 215 /* OmittedExpression */; } ts.isArrayBindingElement = isArrayBindingElement; /** * Determines whether the BindingOrAssignmentElement is a BindingElement-like declaration */ /* @internal */ function isDeclarationBindingElement(bindingElement) { switch (bindingElement.kind) { case 242 /* VariableDeclaration */: case 156 /* Parameter */: case 191 /* BindingElement */: return true; } return false; } ts.isDeclarationBindingElement = isDeclarationBindingElement; /** * Determines whether a node is a BindingOrAssignmentPattern */ /* @internal */ function isBindingOrAssignmentPattern(node) { return isObjectBindingOrAssignmentPattern(node) || isArrayBindingOrAssignmentPattern(node); } ts.isBindingOrAssignmentPattern = isBindingOrAssignmentPattern; /** * Determines whether a node is an ObjectBindingOrAssignmentPattern */ /* @internal */ function isObjectBindingOrAssignmentPattern(node) { switch (node.kind) { case 189 /* ObjectBindingPattern */: case 193 /* ObjectLiteralExpression */: return true; } return false; } ts.isObjectBindingOrAssignmentPattern = isObjectBindingOrAssignmentPattern; /** * Determines whether a node is an ArrayBindingOrAssignmentPattern */ /* @internal */ function isArrayBindingOrAssignmentPattern(node) { switch (node.kind) { case 190 /* ArrayBindingPattern */: case 192 /* ArrayLiteralExpression */: return true; } return false; } ts.isArrayBindingOrAssignmentPattern = isArrayBindingOrAssignmentPattern; /* @internal */ function isPropertyAccessOrQualifiedNameOrImportTypeNode(node) { var kind = node.kind; return kind === 194 /* PropertyAccessExpression */ || kind === 153 /* QualifiedName */ || kind === 188 /* ImportType */; } ts.isPropertyAccessOrQualifiedNameOrImportTypeNode = isPropertyAccessOrQualifiedNameOrImportTypeNode; // Expression function isPropertyAccessOrQualifiedName(node) { var kind = node.kind; return kind === 194 /* PropertyAccessExpression */ || kind === 153 /* QualifiedName */; } ts.isPropertyAccessOrQualifiedName = isPropertyAccessOrQualifiedName; function isCallLikeExpression(node) { switch (node.kind) { case 268 /* JsxOpeningElement */: case 267 /* JsxSelfClosingElement */: case 196 /* CallExpression */: case 197 /* NewExpression */: case 198 /* TaggedTemplateExpression */: case 157 /* Decorator */: return true; default: return false; } } ts.isCallLikeExpression = isCallLikeExpression; function isCallOrNewExpression(node) { return node.kind === 196 /* CallExpression */ || node.kind === 197 /* NewExpression */; } ts.isCallOrNewExpression = isCallOrNewExpression; function isTemplateLiteral(node) { var kind = node.kind; return kind === 211 /* TemplateExpression */ || kind === 14 /* NoSubstitutionTemplateLiteral */; } ts.isTemplateLiteral = isTemplateLiteral; /* @internal */ function isLeftHandSideExpression(node) { return isLeftHandSideExpressionKind(skipPartiallyEmittedExpressions(node).kind); } ts.isLeftHandSideExpression = isLeftHandSideExpression; function isLeftHandSideExpressionKind(kind) { switch (kind) { case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: case 197 /* NewExpression */: case 196 /* CallExpression */: case 266 /* JsxElement */: case 267 /* JsxSelfClosingElement */: case 270 /* JsxFragment */: case 198 /* TaggedTemplateExpression */: case 192 /* ArrayLiteralExpression */: case 200 /* ParenthesizedExpression */: case 193 /* ObjectLiteralExpression */: case 214 /* ClassExpression */: case 201 /* FunctionExpression */: case 75 /* Identifier */: case 13 /* RegularExpressionLiteral */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 211 /* TemplateExpression */: case 91 /* FalseKeyword */: case 100 /* NullKeyword */: case 104 /* ThisKeyword */: case 106 /* TrueKeyword */: case 102 /* SuperKeyword */: case 218 /* NonNullExpression */: case 219 /* MetaProperty */: case 96 /* ImportKeyword */: // technically this is only an Expression if it's in a CallExpression return true; default: return false; } } /* @internal */ function isUnaryExpression(node) { return isUnaryExpressionKind(skipPartiallyEmittedExpressions(node).kind); } ts.isUnaryExpression = isUnaryExpression; function isUnaryExpressionKind(kind) { switch (kind) { case 207 /* PrefixUnaryExpression */: case 208 /* PostfixUnaryExpression */: case 203 /* DeleteExpression */: case 204 /* TypeOfExpression */: case 205 /* VoidExpression */: case 206 /* AwaitExpression */: case 199 /* TypeAssertionExpression */: return true; default: return isLeftHandSideExpressionKind(kind); } } /* @internal */ function isUnaryExpressionWithWrite(expr) { switch (expr.kind) { case 208 /* PostfixUnaryExpression */: return true; case 207 /* PrefixUnaryExpression */: return expr.operator === 45 /* PlusPlusToken */ || expr.operator === 46 /* MinusMinusToken */; default: return false; } } ts.isUnaryExpressionWithWrite = isUnaryExpressionWithWrite; /* @internal */ /** * Determines whether a node is an expression based only on its kind. * Use `isExpressionNode` if not in transforms. */ function isExpression(node) { return isExpressionKind(skipPartiallyEmittedExpressions(node).kind); } ts.isExpression = isExpression; function isExpressionKind(kind) { switch (kind) { case 210 /* ConditionalExpression */: case 212 /* YieldExpression */: case 202 /* ArrowFunction */: case 209 /* BinaryExpression */: case 213 /* SpreadElement */: case 217 /* AsExpression */: case 215 /* OmittedExpression */: case 327 /* CommaListExpression */: case 326 /* PartiallyEmittedExpression */: return true; default: return isUnaryExpressionKind(kind); } } function isAssertionExpression(node) { var kind = node.kind; return kind === 199 /* TypeAssertionExpression */ || kind === 217 /* AsExpression */; } ts.isAssertionExpression = isAssertionExpression; /* @internal */ function isPartiallyEmittedExpression(node) { return node.kind === 326 /* PartiallyEmittedExpression */; } ts.isPartiallyEmittedExpression = isPartiallyEmittedExpression; /* @internal */ function isNotEmittedStatement(node) { return node.kind === 325 /* NotEmittedStatement */; } ts.isNotEmittedStatement = isNotEmittedStatement; /* @internal */ function isSyntheticReference(node) { return node.kind === 330 /* SyntheticReferenceExpression */; } ts.isSyntheticReference = isSyntheticReference; /* @internal */ function isNotEmittedOrPartiallyEmittedNode(node) { return isNotEmittedStatement(node) || isPartiallyEmittedExpression(node); } ts.isNotEmittedOrPartiallyEmittedNode = isNotEmittedOrPartiallyEmittedNode; function isIterationStatement(node, lookInLabeledStatements) { switch (node.kind) { case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: return true; case 238 /* LabeledStatement */: return lookInLabeledStatements && isIterationStatement(node.statement, lookInLabeledStatements); } return false; } ts.isIterationStatement = isIterationStatement; /* @internal */ function isScopeMarker(node) { return isExportAssignment(node) || isExportDeclaration(node); } ts.isScopeMarker = isScopeMarker; /* @internal */ function hasScopeMarker(statements) { return ts.some(statements, isScopeMarker); } ts.hasScopeMarker = hasScopeMarker; /* @internal */ function needsScopeMarker(result) { return !ts.isAnyImportOrReExport(result) && !isExportAssignment(result) && !ts.hasModifier(result, 1 /* Export */) && !ts.isAmbientModule(result); } ts.needsScopeMarker = needsScopeMarker; /* @internal */ function isExternalModuleIndicator(result) { // Exported top-level member indicates moduleness return ts.isAnyImportOrReExport(result) || isExportAssignment(result) || ts.hasModifier(result, 1 /* Export */); } ts.isExternalModuleIndicator = isExternalModuleIndicator; /* @internal */ function isForInOrOfStatement(node) { return node.kind === 231 /* ForInStatement */ || node.kind === 232 /* ForOfStatement */; } ts.isForInOrOfStatement = isForInOrOfStatement; // Element /* @internal */ function isConciseBody(node) { return isBlock(node) || isExpression(node); } ts.isConciseBody = isConciseBody; /* @internal */ function isFunctionBody(node) { return isBlock(node); } ts.isFunctionBody = isFunctionBody; /* @internal */ function isForInitializer(node) { return isVariableDeclarationList(node) || isExpression(node); } ts.isForInitializer = isForInitializer; /* @internal */ function isModuleBody(node) { var kind = node.kind; return kind === 250 /* ModuleBlock */ || kind === 249 /* ModuleDeclaration */ || kind === 75 /* Identifier */; } ts.isModuleBody = isModuleBody; /* @internal */ function isNamespaceBody(node) { var kind = node.kind; return kind === 250 /* ModuleBlock */ || kind === 249 /* ModuleDeclaration */; } ts.isNamespaceBody = isNamespaceBody; /* @internal */ function isJSDocNamespaceBody(node) { var kind = node.kind; return kind === 75 /* Identifier */ || kind === 249 /* ModuleDeclaration */; } ts.isJSDocNamespaceBody = isJSDocNamespaceBody; /* @internal */ function isNamedImportBindings(node) { var kind = node.kind; return kind === 257 /* NamedImports */ || kind === 256 /* NamespaceImport */; } ts.isNamedImportBindings = isNamedImportBindings; /* @internal */ function isModuleOrEnumDeclaration(node) { return node.kind === 249 /* ModuleDeclaration */ || node.kind === 248 /* EnumDeclaration */; } ts.isModuleOrEnumDeclaration = isModuleOrEnumDeclaration; function isDeclarationKind(kind) { return kind === 202 /* ArrowFunction */ || kind === 191 /* BindingElement */ || kind === 245 /* ClassDeclaration */ || kind === 214 /* ClassExpression */ || kind === 162 /* Constructor */ || kind === 248 /* EnumDeclaration */ || kind === 284 /* EnumMember */ || kind === 263 /* ExportSpecifier */ || kind === 244 /* FunctionDeclaration */ || kind === 201 /* FunctionExpression */ || kind === 163 /* GetAccessor */ || kind === 255 /* ImportClause */ || kind === 253 /* ImportEqualsDeclaration */ || kind === 258 /* ImportSpecifier */ || kind === 246 /* InterfaceDeclaration */ || kind === 273 /* JsxAttribute */ || kind === 161 /* MethodDeclaration */ || kind === 160 /* MethodSignature */ || kind === 249 /* ModuleDeclaration */ || kind === 252 /* NamespaceExportDeclaration */ || kind === 256 /* NamespaceImport */ || kind === 262 /* NamespaceExport */ || kind === 156 /* Parameter */ || kind === 281 /* PropertyAssignment */ || kind === 159 /* PropertyDeclaration */ || kind === 158 /* PropertySignature */ || kind === 164 /* SetAccessor */ || kind === 282 /* ShorthandPropertyAssignment */ || kind === 247 /* TypeAliasDeclaration */ || kind === 155 /* TypeParameter */ || kind === 242 /* VariableDeclaration */ || kind === 322 /* JSDocTypedefTag */ || kind === 315 /* JSDocCallbackTag */ || kind === 323 /* JSDocPropertyTag */; } function isDeclarationStatementKind(kind) { return kind === 244 /* FunctionDeclaration */ || kind === 264 /* MissingDeclaration */ || kind === 245 /* ClassDeclaration */ || kind === 246 /* InterfaceDeclaration */ || kind === 247 /* TypeAliasDeclaration */ || kind === 248 /* EnumDeclaration */ || kind === 249 /* ModuleDeclaration */ || kind === 254 /* ImportDeclaration */ || kind === 253 /* ImportEqualsDeclaration */ || kind === 260 /* ExportDeclaration */ || kind === 259 /* ExportAssignment */ || kind === 252 /* NamespaceExportDeclaration */; } function isStatementKindButNotDeclarationKind(kind) { return kind === 234 /* BreakStatement */ || kind === 233 /* ContinueStatement */ || kind === 241 /* DebuggerStatement */ || kind === 228 /* DoStatement */ || kind === 226 /* ExpressionStatement */ || kind === 224 /* EmptyStatement */ || kind === 231 /* ForInStatement */ || kind === 232 /* ForOfStatement */ || kind === 230 /* ForStatement */ || kind === 227 /* IfStatement */ || kind === 238 /* LabeledStatement */ || kind === 235 /* ReturnStatement */ || kind === 237 /* SwitchStatement */ || kind === 239 /* ThrowStatement */ || kind === 240 /* TryStatement */ || kind === 225 /* VariableStatement */ || kind === 229 /* WhileStatement */ || kind === 236 /* WithStatement */ || kind === 325 /* NotEmittedStatement */ || kind === 329 /* EndOfDeclarationMarker */ || kind === 328 /* MergeDeclarationMarker */; } /* @internal */ function isDeclaration(node) { if (node.kind === 155 /* TypeParameter */) { return (node.parent && node.parent.kind !== 321 /* JSDocTemplateTag */) || ts.isInJSFile(node); } return isDeclarationKind(node.kind); } ts.isDeclaration = isDeclaration; /* @internal */ function isDeclarationStatement(node) { return isDeclarationStatementKind(node.kind); } ts.isDeclarationStatement = isDeclarationStatement; /** * Determines whether the node is a statement that is not also a declaration */ /* @internal */ function isStatementButNotDeclaration(node) { return isStatementKindButNotDeclarationKind(node.kind); } ts.isStatementButNotDeclaration = isStatementButNotDeclaration; /* @internal */ function isStatement(node) { var kind = node.kind; return isStatementKindButNotDeclarationKind(kind) || isDeclarationStatementKind(kind) || isBlockStatement(node); } ts.isStatement = isStatement; function isBlockStatement(node) { if (node.kind !== 223 /* Block */) return false; if (node.parent !== undefined) { if (node.parent.kind === 240 /* TryStatement */ || node.parent.kind === 280 /* CatchClause */) { return false; } } return !ts.isFunctionBlock(node); } // Module references /* @internal */ function isModuleReference(node) { var kind = node.kind; return kind === 265 /* ExternalModuleReference */ || kind === 153 /* QualifiedName */ || kind === 75 /* Identifier */; } ts.isModuleReference = isModuleReference; // JSX /* @internal */ function isJsxTagNameExpression(node) { var kind = node.kind; return kind === 104 /* ThisKeyword */ || kind === 75 /* Identifier */ || kind === 194 /* PropertyAccessExpression */; } ts.isJsxTagNameExpression = isJsxTagNameExpression; /* @internal */ function isJsxChild(node) { var kind = node.kind; return kind === 266 /* JsxElement */ || kind === 276 /* JsxExpression */ || kind === 267 /* JsxSelfClosingElement */ || kind === 11 /* JsxText */ || kind === 270 /* JsxFragment */; } ts.isJsxChild = isJsxChild; /* @internal */ function isJsxAttributeLike(node) { var kind = node.kind; return kind === 273 /* JsxAttribute */ || kind === 275 /* JsxSpreadAttribute */; } ts.isJsxAttributeLike = isJsxAttributeLike; /* @internal */ function isStringLiteralOrJsxExpression(node) { var kind = node.kind; return kind === 10 /* StringLiteral */ || kind === 276 /* JsxExpression */; } ts.isStringLiteralOrJsxExpression = isStringLiteralOrJsxExpression; function isJsxOpeningLikeElement(node) { var kind = node.kind; return kind === 268 /* JsxOpeningElement */ || kind === 267 /* JsxSelfClosingElement */; } ts.isJsxOpeningLikeElement = isJsxOpeningLikeElement; // Clauses function isCaseOrDefaultClause(node) { var kind = node.kind; return kind === 277 /* CaseClause */ || kind === 278 /* DefaultClause */; } ts.isCaseOrDefaultClause = isCaseOrDefaultClause; // JSDoc /** True if node is of some JSDoc syntax kind. */ /* @internal */ function isJSDocNode(node) { return node.kind >= 294 /* FirstJSDocNode */ && node.kind <= 323 /* LastJSDocNode */; } ts.isJSDocNode = isJSDocNode; /** True if node is of a kind that may contain comment text. */ function isJSDocCommentContainingNode(node) { return node.kind === 303 /* JSDocComment */ || node.kind === 302 /* JSDocNamepathType */ || isJSDocTag(node) || isJSDocTypeLiteral(node) || isJSDocSignature(node); } ts.isJSDocCommentContainingNode = isJSDocCommentContainingNode; // TODO: determine what this does before making it public. /* @internal */ function isJSDocTag(node) { return node.kind >= 306 /* FirstJSDocTagNode */ && node.kind <= 323 /* LastJSDocTagNode */; } ts.isJSDocTag = isJSDocTag; function isSetAccessor(node) { return node.kind === 164 /* SetAccessor */; } ts.isSetAccessor = isSetAccessor; function isGetAccessor(node) { return node.kind === 163 /* GetAccessor */; } ts.isGetAccessor = isGetAccessor; /** True if has jsdoc nodes attached to it. */ /* @internal */ // TODO: GH#19856 Would like to return `node is Node & { jsDoc: JSDoc[] }` but it causes long compile times function hasJSDocNodes(node) { var jsDoc = node.jsDoc; return !!jsDoc && jsDoc.length > 0; } ts.hasJSDocNodes = hasJSDocNodes; /** True if has type node attached to it. */ /* @internal */ function hasType(node) { return !!node.type; } ts.hasType = hasType; /** True if has initializer node attached to it. */ /* @internal */ function hasInitializer(node) { return !!node.initializer; } ts.hasInitializer = hasInitializer; /** True if has initializer node attached to it. */ function hasOnlyExpressionInitializer(node) { switch (node.kind) { case 242 /* VariableDeclaration */: case 156 /* Parameter */: case 191 /* BindingElement */: case 158 /* PropertySignature */: case 159 /* PropertyDeclaration */: case 281 /* PropertyAssignment */: case 284 /* EnumMember */: return true; default: return false; } } ts.hasOnlyExpressionInitializer = hasOnlyExpressionInitializer; function isObjectLiteralElement(node) { return node.kind === 273 /* JsxAttribute */ || node.kind === 275 /* JsxSpreadAttribute */ || isObjectLiteralElementLike(node); } ts.isObjectLiteralElement = isObjectLiteralElement; /* @internal */ function isTypeReferenceType(node) { return node.kind === 169 /* TypeReference */ || node.kind === 216 /* ExpressionWithTypeArguments */; } ts.isTypeReferenceType = isTypeReferenceType; var MAX_SMI_X86 = 1073741823; /* @internal */ function guessIndentation(lines) { var indentation = MAX_SMI_X86; for (var _i = 0, lines_1 = lines; _i < lines_1.length; _i++) { var line = lines_1[_i]; if (!line.length) { continue; } var i = 0; for (; i < line.length && i < indentation; i++) { if (!ts.isWhiteSpaceLike(line.charCodeAt(i))) { break; } } if (i < indentation) { indentation = i; } if (indentation === 0) { return 0; } } return indentation === MAX_SMI_X86 ? undefined : indentation; } ts.guessIndentation = guessIndentation; function isStringLiteralLike(node) { return node.kind === 10 /* StringLiteral */ || node.kind === 14 /* NoSubstitutionTemplateLiteral */; } ts.isStringLiteralLike = isStringLiteralLike; // #endregion })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { ts.resolvingEmptyArray = []; ts.emptyMap = ts.createMap(); ts.emptyUnderscoreEscapedMap = ts.emptyMap; ts.externalHelpersModuleNameText = "tslib"; ts.defaultMaximumTruncationLength = 160; ts.noTruncationMaximumTruncationLength = 1000000; function getDeclarationOfKind(symbol, kind) { var declarations = symbol.declarations; if (declarations) { for (var _i = 0, declarations_1 = declarations; _i < declarations_1.length; _i++) { var declaration = declarations_1[_i]; if (declaration.kind === kind) { return declaration; } } } return undefined; } ts.getDeclarationOfKind = getDeclarationOfKind; /** Create a new escaped identifier map. */ function createUnderscoreEscapedMap() { return new ts.Map(); } ts.createUnderscoreEscapedMap = createUnderscoreEscapedMap; function hasEntries(map) { return !!map && !!map.size; } ts.hasEntries = hasEntries; function createSymbolTable(symbols) { var result = ts.createMap(); if (symbols) { for (var _i = 0, symbols_1 = symbols; _i < symbols_1.length; _i++) { var symbol = symbols_1[_i]; result.set(symbol.escapedName, symbol); } } return result; } ts.createSymbolTable = createSymbolTable; function isTransientSymbol(symbol) { return (symbol.flags & 33554432 /* Transient */) !== 0; } ts.isTransientSymbol = isTransientSymbol; var stringWriter = createSingleLineStringWriter(); function createSingleLineStringWriter() { var str = ""; var writeText = function (text) { return str += text; }; return { getText: function () { return str; }, write: writeText, rawWrite: writeText, writeKeyword: writeText, writeOperator: writeText, writePunctuation: writeText, writeSpace: writeText, writeStringLiteral: writeText, writeLiteral: writeText, writeParameter: writeText, writeProperty: writeText, writeSymbol: function (s, _) { return writeText(s); }, writeTrailingSemicolon: writeText, writeComment: writeText, getTextPos: function () { return str.length; }, getLine: function () { return 0; }, getColumn: function () { return 0; }, getIndent: function () { return 0; }, isAtStartOfLine: function () { return false; }, hasTrailingComment: function () { return false; }, hasTrailingWhitespace: function () { return !!str.length && ts.isWhiteSpaceLike(str.charCodeAt(str.length - 1)); }, // Completely ignore indentation for string writers. And map newlines to // a single space. writeLine: function () { return str += " "; }, increaseIndent: ts.noop, decreaseIndent: ts.noop, clear: function () { return str = ""; }, trackSymbol: ts.noop, reportInaccessibleThisError: ts.noop, reportInaccessibleUniqueSymbolError: ts.noop, reportPrivateInBaseOfClassExpression: ts.noop, }; } function changesAffectModuleResolution(oldOptions, newOptions) { return oldOptions.configFilePath !== newOptions.configFilePath || optionsHaveModuleResolutionChanges(oldOptions, newOptions); } ts.changesAffectModuleResolution = changesAffectModuleResolution; function optionsHaveModuleResolutionChanges(oldOptions, newOptions) { return ts.moduleResolutionOptionDeclarations.some(function (o) { return !isJsonEqual(getCompilerOptionValue(oldOptions, o), getCompilerOptionValue(newOptions, o)); }); } ts.optionsHaveModuleResolutionChanges = optionsHaveModuleResolutionChanges; function findAncestor(node, callback) { while (node) { var result = callback(node); if (result === "quit") { return undefined; } else if (result) { return node; } node = node.parent; } return undefined; } ts.findAncestor = findAncestor; function forEachAncestor(node, callback) { while (true) { var res = callback(node); if (res === "quit") return undefined; if (res !== undefined) return res; if (ts.isSourceFile(node)) return undefined; node = node.parent; } } ts.forEachAncestor = forEachAncestor; function forEachEntry(map, callback) { var iterator = map.entries(); for (var iterResult = iterator.next(); !iterResult.done; iterResult = iterator.next()) { var _a = iterResult.value, key = _a[0], value = _a[1]; var result = callback(value, key); if (result) { return result; } } return undefined; } ts.forEachEntry = forEachEntry; function forEachKey(map, callback) { var iterator = map.keys(); for (var iterResult = iterator.next(); !iterResult.done; iterResult = iterator.next()) { var result = callback(iterResult.value); if (result) { return result; } } return undefined; } ts.forEachKey = forEachKey; function copyEntries(source, target) { source.forEach(function (value, key) { target.set(key, value); }); } ts.copyEntries = copyEntries; function arrayToSet(array, makeKey) { return ts.arrayToMap(array, makeKey || (function (s) { return s; }), ts.returnTrue); } ts.arrayToSet = arrayToSet; function cloneMap(map) { var clone = ts.createMap(); copyEntries(map, clone); return clone; } ts.cloneMap = cloneMap; function usingSingleLineStringWriter(action) { var oldString = stringWriter.getText(); try { action(stringWriter); return stringWriter.getText(); } finally { stringWriter.clear(); stringWriter.writeKeyword(oldString); } } ts.usingSingleLineStringWriter = usingSingleLineStringWriter; function getFullWidth(node) { return node.end - node.pos; } ts.getFullWidth = getFullWidth; function getResolvedModule(sourceFile, moduleNameText) { return sourceFile && sourceFile.resolvedModules && sourceFile.resolvedModules.get(moduleNameText); } ts.getResolvedModule = getResolvedModule; function setResolvedModule(sourceFile, moduleNameText, resolvedModule) { if (!sourceFile.resolvedModules) { sourceFile.resolvedModules = ts.createMap(); } sourceFile.resolvedModules.set(moduleNameText, resolvedModule); } ts.setResolvedModule = setResolvedModule; function setResolvedTypeReferenceDirective(sourceFile, typeReferenceDirectiveName, resolvedTypeReferenceDirective) { if (!sourceFile.resolvedTypeReferenceDirectiveNames) { sourceFile.resolvedTypeReferenceDirectiveNames = ts.createMap(); } sourceFile.resolvedTypeReferenceDirectiveNames.set(typeReferenceDirectiveName, resolvedTypeReferenceDirective); } ts.setResolvedTypeReferenceDirective = setResolvedTypeReferenceDirective; function projectReferenceIsEqualTo(oldRef, newRef) { return oldRef.path === newRef.path && !oldRef.prepend === !newRef.prepend && !oldRef.circular === !newRef.circular; } ts.projectReferenceIsEqualTo = projectReferenceIsEqualTo; function moduleResolutionIsEqualTo(oldResolution, newResolution) { return oldResolution.isExternalLibraryImport === newResolution.isExternalLibraryImport && oldResolution.extension === newResolution.extension && oldResolution.resolvedFileName === newResolution.resolvedFileName && oldResolution.originalPath === newResolution.originalPath && packageIdIsEqual(oldResolution.packageId, newResolution.packageId); } ts.moduleResolutionIsEqualTo = moduleResolutionIsEqualTo; function packageIdIsEqual(a, b) { return a === b || !!a && !!b && a.name === b.name && a.subModuleName === b.subModuleName && a.version === b.version; } function packageIdToString(_a) { var name = _a.name, subModuleName = _a.subModuleName, version = _a.version; var fullName = subModuleName ? name + "/" + subModuleName : name; return fullName + "@" + version; } ts.packageIdToString = packageIdToString; function typeDirectiveIsEqualTo(oldResolution, newResolution) { return oldResolution.resolvedFileName === newResolution.resolvedFileName && oldResolution.primary === newResolution.primary; } ts.typeDirectiveIsEqualTo = typeDirectiveIsEqualTo; function hasChangesInResolutions(names, newResolutions, oldResolutions, comparer) { ts.Debug.assert(names.length === newResolutions.length); for (var i = 0; i < names.length; i++) { var newResolution = newResolutions[i]; var oldResolution = oldResolutions && oldResolutions.get(names[i]); var changed = oldResolution ? !newResolution || !comparer(oldResolution, newResolution) : newResolution; if (changed) { return true; } } return false; } ts.hasChangesInResolutions = hasChangesInResolutions; // Returns true if this node contains a parse error anywhere underneath it. function containsParseError(node) { aggregateChildData(node); return (node.flags & 262144 /* ThisNodeOrAnySubNodesHasError */) !== 0; } ts.containsParseError = containsParseError; function aggregateChildData(node) { if (!(node.flags & 524288 /* HasAggregatedChildData */)) { // A node is considered to contain a parse error if: // a) the parser explicitly marked that it had an error // b) any of it's children reported that it had an error. var thisNodeOrAnySubNodesHasError = ((node.flags & 65536 /* ThisNodeHasError */) !== 0) || ts.forEachChild(node, containsParseError); // If so, mark ourselves accordingly. if (thisNodeOrAnySubNodesHasError) { node.flags |= 262144 /* ThisNodeOrAnySubNodesHasError */; } // Also mark that we've propagated the child information to this node. This way we can // always consult the bit directly on this node without needing to check its children // again. node.flags |= 524288 /* HasAggregatedChildData */; } } function getSourceFileOfNode(node) { while (node && node.kind !== 290 /* SourceFile */) { node = node.parent; } return node; } ts.getSourceFileOfNode = getSourceFileOfNode; function isStatementWithLocals(node) { switch (node.kind) { case 223 /* Block */: case 251 /* CaseBlock */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: return true; } return false; } ts.isStatementWithLocals = isStatementWithLocals; function getStartPositionOfLine(line, sourceFile) { ts.Debug.assert(line >= 0); return ts.getLineStarts(sourceFile)[line]; } ts.getStartPositionOfLine = getStartPositionOfLine; // This is a useful function for debugging purposes. function nodePosToString(node) { var file = getSourceFileOfNode(node); var loc = ts.getLineAndCharacterOfPosition(file, node.pos); return file.fileName + "(" + (loc.line + 1) + "," + (loc.character + 1) + ")"; } ts.nodePosToString = nodePosToString; function getEndLinePosition(line, sourceFile) { ts.Debug.assert(line >= 0); var lineStarts = ts.getLineStarts(sourceFile); var lineIndex = line; var sourceText = sourceFile.text; if (lineIndex + 1 === lineStarts.length) { // last line - return EOF return sourceText.length - 1; } else { // current line start var start = lineStarts[lineIndex]; // take the start position of the next line - 1 = it should be some line break var pos = lineStarts[lineIndex + 1] - 1; ts.Debug.assert(ts.isLineBreak(sourceText.charCodeAt(pos))); // walk backwards skipping line breaks, stop the the beginning of current line. // i.e: // // $ <- end of line for this position should match the start position while (start <= pos && ts.isLineBreak(sourceText.charCodeAt(pos))) { pos--; } return pos; } } ts.getEndLinePosition = getEndLinePosition; /** * Returns a value indicating whether a name is unique globally or within the current file. * Note: This does not consider whether a name appears as a free identifier or not, so at the expression `x.y` this includes both `x` and `y`. */ function isFileLevelUniqueName(sourceFile, name, hasGlobalName) { return !(hasGlobalName && hasGlobalName(name)) && !sourceFile.identifiers.has(name); } ts.isFileLevelUniqueName = isFileLevelUniqueName; // Returns true if this node is missing from the actual source code. A 'missing' node is different // from 'undefined/defined'. When a node is undefined (which can happen for optional nodes // in the tree), it is definitely missing. However, a node may be defined, but still be // missing. This happens whenever the parser knows it needs to parse something, but can't // get anything in the source code that it expects at that location. For example: // // let a: ; // // Here, the Type in the Type-Annotation is not-optional (as there is a colon in the source // code). So the parser will attempt to parse out a type, and will create an actual node. // However, this node will be 'missing' in the sense that no actual source-code/tokens are // contained within it. function nodeIsMissing(node) { if (node === undefined) { return true; } return node.pos === node.end && node.pos >= 0 && node.kind !== 1 /* EndOfFileToken */; } ts.nodeIsMissing = nodeIsMissing; function nodeIsPresent(node) { return !nodeIsMissing(node); } ts.nodeIsPresent = nodeIsPresent; function insertStatementsAfterPrologue(to, from, isPrologueDirective) { if (from === undefined || from.length === 0) return to; var statementIndex = 0; // skip all prologue directives to insert at the correct position for (; statementIndex < to.length; ++statementIndex) { if (!isPrologueDirective(to[statementIndex])) { break; } } to.splice.apply(to, __spreadArrays([statementIndex, 0], from)); return to; } function insertStatementAfterPrologue(to, statement, isPrologueDirective) { if (statement === undefined) return to; var statementIndex = 0; // skip all prologue directives to insert at the correct position for (; statementIndex < to.length; ++statementIndex) { if (!isPrologueDirective(to[statementIndex])) { break; } } to.splice(statementIndex, 0, statement); return to; } function isAnyPrologueDirective(node) { return isPrologueDirective(node) || !!(getEmitFlags(node) & 1048576 /* CustomPrologue */); } /** * Prepends statements to an array while taking care of prologue directives. */ function insertStatementsAfterStandardPrologue(to, from) { return insertStatementsAfterPrologue(to, from, isPrologueDirective); } ts.insertStatementsAfterStandardPrologue = insertStatementsAfterStandardPrologue; function insertStatementsAfterCustomPrologue(to, from) { return insertStatementsAfterPrologue(to, from, isAnyPrologueDirective); } ts.insertStatementsAfterCustomPrologue = insertStatementsAfterCustomPrologue; /** * Prepends statements to an array while taking care of prologue directives. */ function insertStatementAfterStandardPrologue(to, statement) { return insertStatementAfterPrologue(to, statement, isPrologueDirective); } ts.insertStatementAfterStandardPrologue = insertStatementAfterStandardPrologue; function insertStatementAfterCustomPrologue(to, statement) { return insertStatementAfterPrologue(to, statement, isAnyPrologueDirective); } ts.insertStatementAfterCustomPrologue = insertStatementAfterCustomPrologue; /** * Determine if the given comment is a triple-slash * * @return true if the comment is a triple-slash comment else false */ function isRecognizedTripleSlashComment(text, commentPos, commentEnd) { // Verify this is /// comment, but do the regexp match only when we first can find /// in the comment text // so that we don't end up computing comment string and doing match for all // comments if (text.charCodeAt(commentPos + 1) === 47 /* slash */ && commentPos + 2 < commentEnd && text.charCodeAt(commentPos + 2) === 47 /* slash */) { var textSubStr = text.substring(commentPos, commentEnd); return textSubStr.match(ts.fullTripleSlashReferencePathRegEx) || textSubStr.match(ts.fullTripleSlashAMDReferencePathRegEx) || textSubStr.match(fullTripleSlashReferenceTypeReferenceDirectiveRegEx) || textSubStr.match(defaultLibReferenceRegEx) ? true : false; } return false; } ts.isRecognizedTripleSlashComment = isRecognizedTripleSlashComment; function isPinnedComment(text, start) { return text.charCodeAt(start + 1) === 42 /* asterisk */ && text.charCodeAt(start + 2) === 33 /* exclamation */; } ts.isPinnedComment = isPinnedComment; function createCommentDirectivesMap(sourceFile, commentDirectives) { var directivesByLine = ts.createMapFromEntries(commentDirectives.map(function (commentDirective) { return ([ "" + ts.getLineAndCharacterOfPosition(sourceFile, commentDirective.range.end).line, commentDirective, ]); })); var usedLines = ts.createMap(); return { getUnusedExpectations: getUnusedExpectations, markUsed: markUsed }; function getUnusedExpectations() { return ts.arrayFrom(directivesByLine.entries()) .filter(function (_a) { var line = _a[0], directive = _a[1]; return directive.type === 0 /* ExpectError */ && !usedLines.get(line); }) .map(function (_a) { var _ = _a[0], directive = _a[1]; return directive; }); } function markUsed(line) { if (!directivesByLine.has("" + line)) { return false; } usedLines.set("" + line, true); return true; } } ts.createCommentDirectivesMap = createCommentDirectivesMap; function getTokenPosOfNode(node, sourceFile, includeJsDoc) { // With nodes that have no width (i.e. 'Missing' nodes), we actually *don't* // want to skip trivia because this will launch us forward to the next token. if (nodeIsMissing(node)) { return node.pos; } if (ts.isJSDocNode(node)) { return ts.skipTrivia((sourceFile || getSourceFileOfNode(node)).text, node.pos, /*stopAfterLineBreak*/ false, /*stopAtComments*/ true); } if (includeJsDoc && ts.hasJSDocNodes(node)) { return getTokenPosOfNode(node.jsDoc[0], sourceFile); } // For a syntax list, it is possible that one of its children has JSDocComment nodes, while // the syntax list itself considers them as normal trivia. Therefore if we simply skip // trivia for the list, we may have skipped the JSDocComment as well. So we should process its // first child to determine the actual position of its first token. if (node.kind === 324 /* SyntaxList */ && node._children.length > 0) { return getTokenPosOfNode(node._children[0], sourceFile, includeJsDoc); } return ts.skipTrivia((sourceFile || getSourceFileOfNode(node)).text, node.pos); } ts.getTokenPosOfNode = getTokenPosOfNode; function getNonDecoratorTokenPosOfNode(node, sourceFile) { if (nodeIsMissing(node) || !node.decorators) { return getTokenPosOfNode(node, sourceFile); } return ts.skipTrivia((sourceFile || getSourceFileOfNode(node)).text, node.decorators.end); } ts.getNonDecoratorTokenPosOfNode = getNonDecoratorTokenPosOfNode; function getSourceTextOfNodeFromSourceFile(sourceFile, node, includeTrivia) { if (includeTrivia === void 0) { includeTrivia = false; } return getTextOfNodeFromSourceText(sourceFile.text, node, includeTrivia); } ts.getSourceTextOfNodeFromSourceFile = getSourceTextOfNodeFromSourceFile; function isJSDocTypeExpressionOrChild(node) { return !!findAncestor(node, ts.isJSDocTypeExpression); } function getTextOfNodeFromSourceText(sourceText, node, includeTrivia) { if (includeTrivia === void 0) { includeTrivia = false; } if (nodeIsMissing(node)) { return ""; } var text = sourceText.substring(includeTrivia ? node.pos : ts.skipTrivia(sourceText, node.pos), node.end); if (isJSDocTypeExpressionOrChild(node)) { // strip space + asterisk at line start text = text.replace(/(^|\r?\n|\r)\s*\*\s*/g, "$1"); } return text; } ts.getTextOfNodeFromSourceText = getTextOfNodeFromSourceText; function getTextOfNode(node, includeTrivia) { if (includeTrivia === void 0) { includeTrivia = false; } return getSourceTextOfNodeFromSourceFile(getSourceFileOfNode(node), node, includeTrivia); } ts.getTextOfNode = getTextOfNode; function getPos(range) { return range.pos; } /** * Note: it is expected that the `nodeArray` and the `node` are within the same file. * For example, searching for a `SourceFile` in a `SourceFile[]` wouldn't work. */ function indexOfNode(nodeArray, node) { return ts.binarySearch(nodeArray, node, getPos, ts.compareValues); } ts.indexOfNode = indexOfNode; /** * Gets flags that control emit behavior of a node. */ function getEmitFlags(node) { var emitNode = node.emitNode; return emitNode && emitNode.flags || 0; } ts.getEmitFlags = getEmitFlags; function getLiteralText(node, sourceFile, neverAsciiEscape, jsxAttributeEscape) { // If we don't need to downlevel and we can reach the original source text using // the node's parent reference, then simply get the text as it was originally written. if (!nodeIsSynthesized(node) && node.parent && !((ts.isNumericLiteral(node) && node.numericLiteralFlags & 512 /* ContainsSeparator */) || ts.isBigIntLiteral(node))) { return getSourceTextOfNodeFromSourceFile(sourceFile, node); } // If we can't reach the original source text, use the canonical form if it's a number, // or a (possibly escaped) quoted form of the original text if it's string-like. switch (node.kind) { case 10 /* StringLiteral */: { var escapeText = jsxAttributeEscape ? escapeJsxAttributeString : neverAsciiEscape || (getEmitFlags(node) & 16777216 /* NoAsciiEscaping */) ? escapeString : escapeNonAsciiString; if (node.singleQuote) { return "'" + escapeText(node.text, 39 /* singleQuote */) + "'"; } else { return '"' + escapeText(node.text, 34 /* doubleQuote */) + '"'; } } case 14 /* NoSubstitutionTemplateLiteral */: case 15 /* TemplateHead */: case 16 /* TemplateMiddle */: case 17 /* TemplateTail */: { // If a NoSubstitutionTemplateLiteral appears to have a substitution in it, the original text // had to include a backslash: `not \${a} substitution`. var escapeText = neverAsciiEscape || (getEmitFlags(node) & 16777216 /* NoAsciiEscaping */) ? escapeString : escapeNonAsciiString; var rawText = node.rawText || escapeTemplateSubstitution(escapeText(node.text, 96 /* backtick */)); switch (node.kind) { case 14 /* NoSubstitutionTemplateLiteral */: return "`" + rawText + "`"; case 15 /* TemplateHead */: return "`" + rawText + "${"; case 16 /* TemplateMiddle */: return "}" + rawText + "${"; case 17 /* TemplateTail */: return "}" + rawText + "`"; } break; } case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 13 /* RegularExpressionLiteral */: return node.text; } return ts.Debug.fail("Literal kind '" + node.kind + "' not accounted for."); } ts.getLiteralText = getLiteralText; function getTextOfConstantValue(value) { return ts.isString(value) ? '"' + escapeNonAsciiString(value) + '"' : "" + value; } ts.getTextOfConstantValue = getTextOfConstantValue; // Make an identifier from an external module name by extracting the string after the last "/" and replacing // all non-alphanumeric characters with underscores function makeIdentifierFromModuleName(moduleName) { return ts.getBaseFileName(moduleName).replace(/^(\d)/, "_$1").replace(/\W/g, "_"); } ts.makeIdentifierFromModuleName = makeIdentifierFromModuleName; function isBlockOrCatchScoped(declaration) { return (ts.getCombinedNodeFlags(declaration) & 3 /* BlockScoped */) !== 0 || isCatchClauseVariableDeclarationOrBindingElement(declaration); } ts.isBlockOrCatchScoped = isBlockOrCatchScoped; function isCatchClauseVariableDeclarationOrBindingElement(declaration) { var node = getRootDeclaration(declaration); return node.kind === 242 /* VariableDeclaration */ && node.parent.kind === 280 /* CatchClause */; } ts.isCatchClauseVariableDeclarationOrBindingElement = isCatchClauseVariableDeclarationOrBindingElement; function isAmbientModule(node) { return ts.isModuleDeclaration(node) && (node.name.kind === 10 /* StringLiteral */ || isGlobalScopeAugmentation(node)); } ts.isAmbientModule = isAmbientModule; function isModuleWithStringLiteralName(node) { return ts.isModuleDeclaration(node) && node.name.kind === 10 /* StringLiteral */; } ts.isModuleWithStringLiteralName = isModuleWithStringLiteralName; function isNonGlobalAmbientModule(node) { return ts.isModuleDeclaration(node) && ts.isStringLiteral(node.name); } ts.isNonGlobalAmbientModule = isNonGlobalAmbientModule; /** * An effective module (namespace) declaration is either * 1. An actual declaration: namespace X { ... } * 2. A Javascript declaration, which is: * An identifier in a nested property access expression: Y in `X.Y.Z = { ... }` */ function isEffectiveModuleDeclaration(node) { return ts.isModuleDeclaration(node) || ts.isIdentifier(node); } ts.isEffectiveModuleDeclaration = isEffectiveModuleDeclaration; /** Given a symbol for a module, checks that it is a shorthand ambient module. */ function isShorthandAmbientModuleSymbol(moduleSymbol) { return isShorthandAmbientModule(moduleSymbol.valueDeclaration); } ts.isShorthandAmbientModuleSymbol = isShorthandAmbientModuleSymbol; function isShorthandAmbientModule(node) { // The only kind of module that can be missing a body is a shorthand ambient module. return node && node.kind === 249 /* ModuleDeclaration */ && (!node.body); } function isBlockScopedContainerTopLevel(node) { return node.kind === 290 /* SourceFile */ || node.kind === 249 /* ModuleDeclaration */ || ts.isFunctionLike(node); } ts.isBlockScopedContainerTopLevel = isBlockScopedContainerTopLevel; function isGlobalScopeAugmentation(module) { return !!(module.flags & 1024 /* GlobalAugmentation */); } ts.isGlobalScopeAugmentation = isGlobalScopeAugmentation; function isExternalModuleAugmentation(node) { return isAmbientModule(node) && isModuleAugmentationExternal(node); } ts.isExternalModuleAugmentation = isExternalModuleAugmentation; function isModuleAugmentationExternal(node) { // external module augmentation is a ambient module declaration that is either: // - defined in the top level scope and source file is an external module // - defined inside ambient module declaration located in the top level scope and source file not an external module switch (node.parent.kind) { case 290 /* SourceFile */: return ts.isExternalModule(node.parent); case 250 /* ModuleBlock */: return isAmbientModule(node.parent.parent) && ts.isSourceFile(node.parent.parent.parent) && !ts.isExternalModule(node.parent.parent.parent); } return false; } ts.isModuleAugmentationExternal = isModuleAugmentationExternal; function getNonAugmentationDeclaration(symbol) { return ts.find(symbol.declarations, function (d) { return !isExternalModuleAugmentation(d) && !(ts.isModuleDeclaration(d) && isGlobalScopeAugmentation(d)); }); } ts.getNonAugmentationDeclaration = getNonAugmentationDeclaration; function isEffectiveExternalModule(node, compilerOptions) { return ts.isExternalModule(node) || compilerOptions.isolatedModules || ((getEmitModuleKind(compilerOptions) === ts.ModuleKind.CommonJS) && !!node.commonJsModuleIndicator); } ts.isEffectiveExternalModule = isEffectiveExternalModule; /** * Returns whether the source file will be treated as if it were in strict mode at runtime. */ function isEffectiveStrictModeSourceFile(node, compilerOptions) { // We can only verify strict mode for JS/TS files switch (node.scriptKind) { case 1 /* JS */: case 3 /* TS */: case 2 /* JSX */: case 4 /* TSX */: break; default: return false; } // Strict mode does not matter for declaration files. if (node.isDeclarationFile) { return false; } // If `alwaysStrict` is set, then treat the file as strict. if (getStrictOptionValue(compilerOptions, "alwaysStrict")) { return true; } // Starting with a "use strict" directive indicates the file is strict. if (ts.startsWithUseStrict(node.statements)) { return true; } if (ts.isExternalModule(node) || compilerOptions.isolatedModules) { // ECMAScript Modules are always strict. if (getEmitModuleKind(compilerOptions) >= ts.ModuleKind.ES2015) { return true; } // Other modules are strict unless otherwise specified. return !compilerOptions.noImplicitUseStrict; } return false; } ts.isEffectiveStrictModeSourceFile = isEffectiveStrictModeSourceFile; function isBlockScope(node, parentNode) { switch (node.kind) { case 290 /* SourceFile */: case 251 /* CaseBlock */: case 280 /* CatchClause */: case 249 /* ModuleDeclaration */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: case 162 /* Constructor */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return true; case 223 /* Block */: // function block is not considered block-scope container // see comment in binder.ts: bind(...), case for SyntaxKind.Block return !ts.isFunctionLike(parentNode); } return false; } ts.isBlockScope = isBlockScope; function isDeclarationWithTypeParameters(node) { switch (node.kind) { case 315 /* JSDocCallbackTag */: case 322 /* JSDocTypedefTag */: case 305 /* JSDocSignature */: return true; default: ts.assertType(node); return isDeclarationWithTypeParameterChildren(node); } } ts.isDeclarationWithTypeParameters = isDeclarationWithTypeParameters; function isDeclarationWithTypeParameterChildren(node) { switch (node.kind) { case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 160 /* MethodSignature */: case 167 /* IndexSignature */: case 170 /* FunctionType */: case 171 /* ConstructorType */: case 300 /* JSDocFunctionType */: case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: case 321 /* JSDocTemplateTag */: case 244 /* FunctionDeclaration */: case 161 /* MethodDeclaration */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return true; default: ts.assertType(node); return false; } } ts.isDeclarationWithTypeParameterChildren = isDeclarationWithTypeParameterChildren; function isAnyImportSyntax(node) { switch (node.kind) { case 254 /* ImportDeclaration */: case 253 /* ImportEqualsDeclaration */: return true; default: return false; } } ts.isAnyImportSyntax = isAnyImportSyntax; function isLateVisibilityPaintedStatement(node) { switch (node.kind) { case 254 /* ImportDeclaration */: case 253 /* ImportEqualsDeclaration */: case 225 /* VariableStatement */: case 245 /* ClassDeclaration */: case 244 /* FunctionDeclaration */: case 249 /* ModuleDeclaration */: case 247 /* TypeAliasDeclaration */: case 246 /* InterfaceDeclaration */: case 248 /* EnumDeclaration */: return true; default: return false; } } ts.isLateVisibilityPaintedStatement = isLateVisibilityPaintedStatement; function isAnyImportOrReExport(node) { return isAnyImportSyntax(node) || ts.isExportDeclaration(node); } ts.isAnyImportOrReExport = isAnyImportOrReExport; // Gets the nearest enclosing block scope container that has the provided node // as a descendant, that is not the provided node. function getEnclosingBlockScopeContainer(node) { return findAncestor(node.parent, function (current) { return isBlockScope(current, current.parent); }); } ts.getEnclosingBlockScopeContainer = getEnclosingBlockScopeContainer; // Return display name of an identifier // Computed property names will just be emitted as "[]", where is the source // text of the expression in the computed property. function declarationNameToString(name) { return !name || getFullWidth(name) === 0 ? "(Missing)" : getTextOfNode(name); } ts.declarationNameToString = declarationNameToString; function getNameFromIndexInfo(info) { return info.declaration ? declarationNameToString(info.declaration.parameters[0].name) : undefined; } ts.getNameFromIndexInfo = getNameFromIndexInfo; function isComputedNonLiteralName(name) { return name.kind === 154 /* ComputedPropertyName */ && !isStringOrNumericLiteralLike(name.expression); } ts.isComputedNonLiteralName = isComputedNonLiteralName; function getTextOfPropertyName(name) { switch (name.kind) { case 75 /* Identifier */: case 76 /* PrivateIdentifier */: return name.escapedText; case 10 /* StringLiteral */: case 8 /* NumericLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: return ts.escapeLeadingUnderscores(name.text); case 154 /* ComputedPropertyName */: if (isStringOrNumericLiteralLike(name.expression)) return ts.escapeLeadingUnderscores(name.expression.text); return ts.Debug.fail("Text of property name cannot be read from non-literal-valued ComputedPropertyNames"); default: return ts.Debug.assertNever(name); } } ts.getTextOfPropertyName = getTextOfPropertyName; function entityNameToString(name) { switch (name.kind) { case 104 /* ThisKeyword */: return "this"; case 76 /* PrivateIdentifier */: case 75 /* Identifier */: return getFullWidth(name) === 0 ? ts.idText(name) : getTextOfNode(name); case 153 /* QualifiedName */: return entityNameToString(name.left) + "." + entityNameToString(name.right); case 194 /* PropertyAccessExpression */: if (ts.isIdentifier(name.name) || ts.isPrivateIdentifier(name.name)) { return entityNameToString(name.expression) + "." + entityNameToString(name.name); } else { return ts.Debug.assertNever(name.name); } default: return ts.Debug.assertNever(name); } } ts.entityNameToString = entityNameToString; function createDiagnosticForNode(node, message, arg0, arg1, arg2, arg3) { var sourceFile = getSourceFileOfNode(node); return createDiagnosticForNodeInSourceFile(sourceFile, node, message, arg0, arg1, arg2, arg3); } ts.createDiagnosticForNode = createDiagnosticForNode; function createDiagnosticForNodeArray(sourceFile, nodes, message, arg0, arg1, arg2, arg3) { var start = ts.skipTrivia(sourceFile.text, nodes.pos); return createFileDiagnostic(sourceFile, start, nodes.end - start, message, arg0, arg1, arg2, arg3); } ts.createDiagnosticForNodeArray = createDiagnosticForNodeArray; function createDiagnosticForNodeInSourceFile(sourceFile, node, message, arg0, arg1, arg2, arg3) { var span = getErrorSpanForNode(sourceFile, node); return createFileDiagnostic(sourceFile, span.start, span.length, message, arg0, arg1, arg2, arg3); } ts.createDiagnosticForNodeInSourceFile = createDiagnosticForNodeInSourceFile; function createDiagnosticForNodeFromMessageChain(node, messageChain, relatedInformation) { var sourceFile = getSourceFileOfNode(node); var span = getErrorSpanForNode(sourceFile, node); return { file: sourceFile, start: span.start, length: span.length, code: messageChain.code, category: messageChain.category, messageText: messageChain.next ? messageChain : messageChain.messageText, relatedInformation: relatedInformation }; } ts.createDiagnosticForNodeFromMessageChain = createDiagnosticForNodeFromMessageChain; function createDiagnosticForRange(sourceFile, range, message) { return { file: sourceFile, start: range.pos, length: range.end - range.pos, code: message.code, category: message.category, messageText: message.message, }; } ts.createDiagnosticForRange = createDiagnosticForRange; function getSpanOfTokenAtPosition(sourceFile, pos) { var scanner = ts.createScanner(sourceFile.languageVersion, /*skipTrivia*/ true, sourceFile.languageVariant, sourceFile.text, /*onError:*/ undefined, pos); scanner.scan(); var start = scanner.getTokenPos(); return ts.createTextSpanFromBounds(start, scanner.getTextPos()); } ts.getSpanOfTokenAtPosition = getSpanOfTokenAtPosition; function getErrorSpanForArrowFunction(sourceFile, node) { var pos = ts.skipTrivia(sourceFile.text, node.pos); if (node.body && node.body.kind === 223 /* Block */) { var startLine = ts.getLineAndCharacterOfPosition(sourceFile, node.body.pos).line; var endLine = ts.getLineAndCharacterOfPosition(sourceFile, node.body.end).line; if (startLine < endLine) { // The arrow function spans multiple lines, // make the error span be the first line, inclusive. return ts.createTextSpan(pos, getEndLinePosition(startLine, sourceFile) - pos + 1); } } return ts.createTextSpanFromBounds(pos, node.end); } function getErrorSpanForNode(sourceFile, node) { var errorNode = node; switch (node.kind) { case 290 /* SourceFile */: var pos_1 = ts.skipTrivia(sourceFile.text, 0, /*stopAfterLineBreak*/ false); if (pos_1 === sourceFile.text.length) { // file is empty - return span for the beginning of the file return ts.createTextSpan(0, 0); } return getSpanOfTokenAtPosition(sourceFile, pos_1); // This list is a work in progress. Add missing node kinds to improve their error // spans. case 242 /* VariableDeclaration */: case 191 /* BindingElement */: case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 246 /* InterfaceDeclaration */: case 249 /* ModuleDeclaration */: case 248 /* EnumDeclaration */: case 284 /* EnumMember */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 247 /* TypeAliasDeclaration */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: errorNode = node.name; break; case 202 /* ArrowFunction */: return getErrorSpanForArrowFunction(sourceFile, node); case 277 /* CaseClause */: case 278 /* DefaultClause */: var start = ts.skipTrivia(sourceFile.text, node.pos); var end = node.statements.length > 0 ? node.statements[0].pos : node.end; return ts.createTextSpanFromBounds(start, end); } if (errorNode === undefined) { // If we don't have a better node, then just set the error on the first token of // construct. return getSpanOfTokenAtPosition(sourceFile, node.pos); } ts.Debug.assert(!ts.isJSDoc(errorNode)); var isMissing = nodeIsMissing(errorNode); var pos = isMissing || ts.isJsxText(node) ? errorNode.pos : ts.skipTrivia(sourceFile.text, errorNode.pos); // These asserts should all be satisfied for a properly constructed `errorNode`. if (isMissing) { ts.Debug.assert(pos === errorNode.pos, "This failure could trigger https://github.com/Microsoft/TypeScript/issues/20809"); ts.Debug.assert(pos === errorNode.end, "This failure could trigger https://github.com/Microsoft/TypeScript/issues/20809"); } else { ts.Debug.assert(pos >= errorNode.pos, "This failure could trigger https://github.com/Microsoft/TypeScript/issues/20809"); ts.Debug.assert(pos <= errorNode.end, "This failure could trigger https://github.com/Microsoft/TypeScript/issues/20809"); } return ts.createTextSpanFromBounds(pos, errorNode.end); } ts.getErrorSpanForNode = getErrorSpanForNode; function isExternalOrCommonJsModule(file) { return (file.externalModuleIndicator || file.commonJsModuleIndicator) !== undefined; } ts.isExternalOrCommonJsModule = isExternalOrCommonJsModule; function isJsonSourceFile(file) { return file.scriptKind === 6 /* JSON */; } ts.isJsonSourceFile = isJsonSourceFile; function isEnumConst(node) { return !!(ts.getCombinedModifierFlags(node) & 2048 /* Const */); } ts.isEnumConst = isEnumConst; function isDeclarationReadonly(declaration) { return !!(ts.getCombinedModifierFlags(declaration) & 64 /* Readonly */ && !ts.isParameterPropertyDeclaration(declaration, declaration.parent)); } ts.isDeclarationReadonly = isDeclarationReadonly; function isVarConst(node) { return !!(ts.getCombinedNodeFlags(node) & 2 /* Const */); } ts.isVarConst = isVarConst; function isLet(node) { return !!(ts.getCombinedNodeFlags(node) & 1 /* Let */); } ts.isLet = isLet; function isSuperCall(n) { return n.kind === 196 /* CallExpression */ && n.expression.kind === 102 /* SuperKeyword */; } ts.isSuperCall = isSuperCall; function isImportCall(n) { return n.kind === 196 /* CallExpression */ && n.expression.kind === 96 /* ImportKeyword */; } ts.isImportCall = isImportCall; function isImportMeta(n) { return ts.isMetaProperty(n) && n.keywordToken === 96 /* ImportKeyword */ && n.name.escapedText === "meta"; } ts.isImportMeta = isImportMeta; function isLiteralImportTypeNode(n) { return ts.isImportTypeNode(n) && ts.isLiteralTypeNode(n.argument) && ts.isStringLiteral(n.argument.literal); } ts.isLiteralImportTypeNode = isLiteralImportTypeNode; function isPrologueDirective(node) { return node.kind === 226 /* ExpressionStatement */ && node.expression.kind === 10 /* StringLiteral */; } ts.isPrologueDirective = isPrologueDirective; function isCustomPrologue(node) { return !!(getEmitFlags(node) & 1048576 /* CustomPrologue */); } ts.isCustomPrologue = isCustomPrologue; function isHoistedFunction(node) { return isCustomPrologue(node) && ts.isFunctionDeclaration(node); } ts.isHoistedFunction = isHoistedFunction; function isHoistedVariable(node) { return ts.isIdentifier(node.name) && !node.initializer; } function isHoistedVariableStatement(node) { return isCustomPrologue(node) && ts.isVariableStatement(node) && ts.every(node.declarationList.declarations, isHoistedVariable); } ts.isHoistedVariableStatement = isHoistedVariableStatement; function getLeadingCommentRangesOfNode(node, sourceFileOfNode) { return node.kind !== 11 /* JsxText */ ? ts.getLeadingCommentRanges(sourceFileOfNode.text, node.pos) : undefined; } ts.getLeadingCommentRangesOfNode = getLeadingCommentRangesOfNode; function getJSDocCommentRanges(node, text) { var commentRanges = (node.kind === 156 /* Parameter */ || node.kind === 155 /* TypeParameter */ || node.kind === 201 /* FunctionExpression */ || node.kind === 202 /* ArrowFunction */ || node.kind === 200 /* ParenthesizedExpression */) ? ts.concatenate(ts.getTrailingCommentRanges(text, node.pos), ts.getLeadingCommentRanges(text, node.pos)) : ts.getLeadingCommentRanges(text, node.pos); // True if the comment starts with '/**' but not if it is '/**/' return ts.filter(commentRanges, function (comment) { return text.charCodeAt(comment.pos + 1) === 42 /* asterisk */ && text.charCodeAt(comment.pos + 2) === 42 /* asterisk */ && text.charCodeAt(comment.pos + 3) !== 47 /* slash */; }); } ts.getJSDocCommentRanges = getJSDocCommentRanges; ts.fullTripleSlashReferencePathRegEx = /^(\/\/\/\s*/; var fullTripleSlashReferenceTypeReferenceDirectiveRegEx = /^(\/\/\/\s*/; ts.fullTripleSlashAMDReferencePathRegEx = /^(\/\/\/\s*/; var defaultLibReferenceRegEx = /^(\/\/\/\s*/; function isPartOfTypeNode(node) { if (168 /* FirstTypeNode */ <= node.kind && node.kind <= 188 /* LastTypeNode */) { return true; } switch (node.kind) { case 125 /* AnyKeyword */: case 148 /* UnknownKeyword */: case 140 /* NumberKeyword */: case 151 /* BigIntKeyword */: case 143 /* StringKeyword */: case 128 /* BooleanKeyword */: case 144 /* SymbolKeyword */: case 141 /* ObjectKeyword */: case 146 /* UndefinedKeyword */: case 137 /* NeverKeyword */: return true; case 110 /* VoidKeyword */: return node.parent.kind !== 205 /* VoidExpression */; case 216 /* ExpressionWithTypeArguments */: return !isExpressionWithTypeArgumentsInClassExtendsClause(node); case 155 /* TypeParameter */: return node.parent.kind === 186 /* MappedType */ || node.parent.kind === 181 /* InferType */; // Identifiers and qualified names may be type nodes, depending on their context. Climb // above them to find the lowest container case 75 /* Identifier */: // If the identifier is the RHS of a qualified name, then it's a type iff its parent is. if (node.parent.kind === 153 /* QualifiedName */ && node.parent.right === node) { node = node.parent; } else if (node.parent.kind === 194 /* PropertyAccessExpression */ && node.parent.name === node) { node = node.parent; } // At this point, node is either a qualified name or an identifier ts.Debug.assert(node.kind === 75 /* Identifier */ || node.kind === 153 /* QualifiedName */ || node.kind === 194 /* PropertyAccessExpression */, "'node' was expected to be a qualified name, identifier or property access in 'isPartOfTypeNode'."); // falls through case 153 /* QualifiedName */: case 194 /* PropertyAccessExpression */: case 104 /* ThisKeyword */: { var parent = node.parent; if (parent.kind === 172 /* TypeQuery */) { return false; } if (parent.kind === 188 /* ImportType */) { return !parent.isTypeOf; } // Do not recursively call isPartOfTypeNode on the parent. In the example: // // let a: A.B.C; // // Calling isPartOfTypeNode would consider the qualified name A.B a type node. // Only C and A.B.C are type nodes. if (168 /* FirstTypeNode */ <= parent.kind && parent.kind <= 188 /* LastTypeNode */) { return true; } switch (parent.kind) { case 216 /* ExpressionWithTypeArguments */: return !isExpressionWithTypeArgumentsInClassExtendsClause(parent); case 155 /* TypeParameter */: return node === parent.constraint; case 321 /* JSDocTemplateTag */: return node === parent.constraint; case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 156 /* Parameter */: case 242 /* VariableDeclaration */: return node === parent.type; case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 162 /* Constructor */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return node === parent.type; case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: return node === parent.type; case 199 /* TypeAssertionExpression */: return node === parent.type; case 196 /* CallExpression */: case 197 /* NewExpression */: return ts.contains(parent.typeArguments, node); case 198 /* TaggedTemplateExpression */: // TODO (drosen): TaggedTemplateExpressions may eventually support type arguments. return false; } } } return false; } ts.isPartOfTypeNode = isPartOfTypeNode; function isChildOfNodeWithKind(node, kind) { while (node) { if (node.kind === kind) { return true; } node = node.parent; } return false; } ts.isChildOfNodeWithKind = isChildOfNodeWithKind; // Warning: This has the same semantics as the forEach family of functions, // in that traversal terminates in the event that 'visitor' supplies a truthy value. function forEachReturnStatement(body, visitor) { return traverse(body); function traverse(node) { switch (node.kind) { case 235 /* ReturnStatement */: return visitor(node); case 251 /* CaseBlock */: case 223 /* Block */: case 227 /* IfStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: case 236 /* WithStatement */: case 237 /* SwitchStatement */: case 277 /* CaseClause */: case 278 /* DefaultClause */: case 238 /* LabeledStatement */: case 240 /* TryStatement */: case 280 /* CatchClause */: return ts.forEachChild(node, traverse); } } } ts.forEachReturnStatement = forEachReturnStatement; function forEachYieldExpression(body, visitor) { return traverse(body); function traverse(node) { switch (node.kind) { case 212 /* YieldExpression */: visitor(node); var operand = node.expression; if (operand) { traverse(operand); } return; case 248 /* EnumDeclaration */: case 246 /* InterfaceDeclaration */: case 249 /* ModuleDeclaration */: case 247 /* TypeAliasDeclaration */: // These are not allowed inside a generator now, but eventually they may be allowed // as local types. Regardless, skip them to avoid the work. return; default: if (ts.isFunctionLike(node)) { if (node.name && node.name.kind === 154 /* ComputedPropertyName */) { // Note that we will not include methods/accessors of a class because they would require // first descending into the class. This is by design. traverse(node.name.expression); return; } } else if (!isPartOfTypeNode(node)) { // This is the general case, which should include mostly expressions and statements. // Also includes NodeArrays. ts.forEachChild(node, traverse); } } } } ts.forEachYieldExpression = forEachYieldExpression; /** * Gets the most likely element type for a TypeNode. This is not an exhaustive test * as it assumes a rest argument can only be an array type (either T[], or Array). * * @param node The type node. */ function getRestParameterElementType(node) { if (node && node.kind === 174 /* ArrayType */) { return node.elementType; } else if (node && node.kind === 169 /* TypeReference */) { return ts.singleOrUndefined(node.typeArguments); } else { return undefined; } } ts.getRestParameterElementType = getRestParameterElementType; function getMembersOfDeclaration(node) { switch (node.kind) { case 246 /* InterfaceDeclaration */: case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 173 /* TypeLiteral */: return node.members; case 193 /* ObjectLiteralExpression */: return node.properties; } } ts.getMembersOfDeclaration = getMembersOfDeclaration; function isVariableLike(node) { if (node) { switch (node.kind) { case 191 /* BindingElement */: case 284 /* EnumMember */: case 156 /* Parameter */: case 281 /* PropertyAssignment */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 282 /* ShorthandPropertyAssignment */: case 242 /* VariableDeclaration */: return true; } } return false; } ts.isVariableLike = isVariableLike; function isVariableLikeOrAccessor(node) { return isVariableLike(node) || ts.isAccessor(node); } ts.isVariableLikeOrAccessor = isVariableLikeOrAccessor; function isVariableDeclarationInVariableStatement(node) { return node.parent.kind === 243 /* VariableDeclarationList */ && node.parent.parent.kind === 225 /* VariableStatement */; } ts.isVariableDeclarationInVariableStatement = isVariableDeclarationInVariableStatement; function isValidESSymbolDeclaration(node) { return ts.isVariableDeclaration(node) ? isVarConst(node) && ts.isIdentifier(node.name) && isVariableDeclarationInVariableStatement(node) : ts.isPropertyDeclaration(node) ? hasReadonlyModifier(node) && hasStaticModifier(node) : ts.isPropertySignature(node) && hasReadonlyModifier(node); } ts.isValidESSymbolDeclaration = isValidESSymbolDeclaration; function introducesArgumentsExoticObject(node) { switch (node.kind) { case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: return true; } return false; } ts.introducesArgumentsExoticObject = introducesArgumentsExoticObject; function unwrapInnermostStatementOfLabel(node, beforeUnwrapLabelCallback) { while (true) { if (beforeUnwrapLabelCallback) { beforeUnwrapLabelCallback(node); } if (node.statement.kind !== 238 /* LabeledStatement */) { return node.statement; } node = node.statement; } } ts.unwrapInnermostStatementOfLabel = unwrapInnermostStatementOfLabel; function isFunctionBlock(node) { return node && node.kind === 223 /* Block */ && ts.isFunctionLike(node.parent); } ts.isFunctionBlock = isFunctionBlock; function isObjectLiteralMethod(node) { return node && node.kind === 161 /* MethodDeclaration */ && node.parent.kind === 193 /* ObjectLiteralExpression */; } ts.isObjectLiteralMethod = isObjectLiteralMethod; function isObjectLiteralOrClassExpressionMethod(node) { return node.kind === 161 /* MethodDeclaration */ && (node.parent.kind === 193 /* ObjectLiteralExpression */ || node.parent.kind === 214 /* ClassExpression */); } ts.isObjectLiteralOrClassExpressionMethod = isObjectLiteralOrClassExpressionMethod; function isIdentifierTypePredicate(predicate) { return predicate && predicate.kind === 1 /* Identifier */; } ts.isIdentifierTypePredicate = isIdentifierTypePredicate; function isThisTypePredicate(predicate) { return predicate && predicate.kind === 0 /* This */; } ts.isThisTypePredicate = isThisTypePredicate; function getPropertyAssignment(objectLiteral, key, key2) { return objectLiteral.properties.filter(function (property) { if (property.kind === 281 /* PropertyAssignment */) { var propName = getTextOfPropertyName(property.name); return key === propName || (!!key2 && key2 === propName); } return false; }); } ts.getPropertyAssignment = getPropertyAssignment; function getTsConfigObjectLiteralExpression(tsConfigSourceFile) { if (tsConfigSourceFile && tsConfigSourceFile.statements.length) { var expression = tsConfigSourceFile.statements[0].expression; return ts.tryCast(expression, ts.isObjectLiteralExpression); } } ts.getTsConfigObjectLiteralExpression = getTsConfigObjectLiteralExpression; function getTsConfigPropArrayElementValue(tsConfigSourceFile, propKey, elementValue) { return ts.firstDefined(getTsConfigPropArray(tsConfigSourceFile, propKey), function (property) { return ts.isArrayLiteralExpression(property.initializer) ? ts.find(property.initializer.elements, function (element) { return ts.isStringLiteral(element) && element.text === elementValue; }) : undefined; }); } ts.getTsConfigPropArrayElementValue = getTsConfigPropArrayElementValue; function getTsConfigPropArray(tsConfigSourceFile, propKey) { var jsonObjectLiteral = getTsConfigObjectLiteralExpression(tsConfigSourceFile); return jsonObjectLiteral ? getPropertyAssignment(jsonObjectLiteral, propKey) : ts.emptyArray; } ts.getTsConfigPropArray = getTsConfigPropArray; function getContainingFunction(node) { return findAncestor(node.parent, ts.isFunctionLike); } ts.getContainingFunction = getContainingFunction; function getContainingFunctionDeclaration(node) { return findAncestor(node.parent, ts.isFunctionLikeDeclaration); } ts.getContainingFunctionDeclaration = getContainingFunctionDeclaration; function getContainingClass(node) { return findAncestor(node.parent, ts.isClassLike); } ts.getContainingClass = getContainingClass; function getThisContainer(node, includeArrowFunctions) { ts.Debug.assert(node.kind !== 290 /* SourceFile */); while (true) { node = node.parent; if (!node) { return ts.Debug.fail(); // If we never pass in a SourceFile, this should be unreachable, since we'll stop when we reach that. } switch (node.kind) { case 154 /* ComputedPropertyName */: // If the grandparent node is an object literal (as opposed to a class), // then the computed property is not a 'this' container. // A computed property name in a class needs to be a this container // so that we can error on it. if (ts.isClassLike(node.parent.parent)) { return node; } // If this is a computed property, then the parent should not // make it a this container. The parent might be a property // in an object literal, like a method or accessor. But in order for // such a parent to be a this container, the reference must be in // the *body* of the container. node = node.parent; break; case 157 /* Decorator */: // Decorators are always applied outside of the body of a class or method. if (node.parent.kind === 156 /* Parameter */ && ts.isClassElement(node.parent.parent)) { // If the decorator's parent is a Parameter, we resolve the this container from // the grandparent class declaration. node = node.parent.parent; } else if (ts.isClassElement(node.parent)) { // If the decorator's parent is a class element, we resolve the 'this' container // from the parent class declaration. node = node.parent; } break; case 202 /* ArrowFunction */: if (!includeArrowFunctions) { continue; } // falls through case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 249 /* ModuleDeclaration */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: case 248 /* EnumDeclaration */: case 290 /* SourceFile */: return node; } } } ts.getThisContainer = getThisContainer; function getNewTargetContainer(node) { var container = getThisContainer(node, /*includeArrowFunctions*/ false); if (container) { switch (container.kind) { case 162 /* Constructor */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: return container; } } return undefined; } ts.getNewTargetContainer = getNewTargetContainer; /** * Given an super call/property node, returns the closest node where * - a super call/property access is legal in the node and not legal in the parent node the node. * i.e. super call is legal in constructor but not legal in the class body. * - the container is an arrow function (so caller might need to call getSuperContainer again in case it needs to climb higher) * - a super call/property is definitely illegal in the container (but might be legal in some subnode) * i.e. super property access is illegal in function declaration but can be legal in the statement list */ function getSuperContainer(node, stopOnFunctions) { while (true) { node = node.parent; if (!node) { return node; } switch (node.kind) { case 154 /* ComputedPropertyName */: node = node.parent; break; case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: if (!stopOnFunctions) { continue; } // falls through case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return node; case 157 /* Decorator */: // Decorators are always applied outside of the body of a class or method. if (node.parent.kind === 156 /* Parameter */ && ts.isClassElement(node.parent.parent)) { // If the decorator's parent is a Parameter, we resolve the this container from // the grandparent class declaration. node = node.parent.parent; } else if (ts.isClassElement(node.parent)) { // If the decorator's parent is a class element, we resolve the 'this' container // from the parent class declaration. node = node.parent; } break; } } } ts.getSuperContainer = getSuperContainer; function getImmediatelyInvokedFunctionExpression(func) { if (func.kind === 201 /* FunctionExpression */ || func.kind === 202 /* ArrowFunction */) { var prev = func; var parent = func.parent; while (parent.kind === 200 /* ParenthesizedExpression */) { prev = parent; parent = parent.parent; } if (parent.kind === 196 /* CallExpression */ && parent.expression === prev) { return parent; } } } ts.getImmediatelyInvokedFunctionExpression = getImmediatelyInvokedFunctionExpression; function isSuperOrSuperProperty(node) { return node.kind === 102 /* SuperKeyword */ || isSuperProperty(node); } ts.isSuperOrSuperProperty = isSuperOrSuperProperty; /** * Determines whether a node is a property or element access expression for `super`. */ function isSuperProperty(node) { var kind = node.kind; return (kind === 194 /* PropertyAccessExpression */ || kind === 195 /* ElementAccessExpression */) && node.expression.kind === 102 /* SuperKeyword */; } ts.isSuperProperty = isSuperProperty; /** * Determines whether a node is a property or element access expression for `this`. */ function isThisProperty(node) { var kind = node.kind; return (kind === 194 /* PropertyAccessExpression */ || kind === 195 /* ElementAccessExpression */) && node.expression.kind === 104 /* ThisKeyword */; } ts.isThisProperty = isThisProperty; function getEntityNameFromTypeNode(node) { switch (node.kind) { case 169 /* TypeReference */: return node.typeName; case 216 /* ExpressionWithTypeArguments */: return isEntityNameExpression(node.expression) ? node.expression : undefined; case 75 /* Identifier */: case 153 /* QualifiedName */: return node; } return undefined; } ts.getEntityNameFromTypeNode = getEntityNameFromTypeNode; function getInvokedExpression(node) { switch (node.kind) { case 198 /* TaggedTemplateExpression */: return node.tag; case 268 /* JsxOpeningElement */: case 267 /* JsxSelfClosingElement */: return node.tagName; default: return node.expression; } } ts.getInvokedExpression = getInvokedExpression; function nodeCanBeDecorated(node, parent, grandparent) { // private names cannot be used with decorators yet if (ts.isNamedDeclaration(node) && ts.isPrivateIdentifier(node.name)) { return false; } switch (node.kind) { case 245 /* ClassDeclaration */: // classes are valid targets return true; case 159 /* PropertyDeclaration */: // property declarations are valid if their parent is a class declaration. return parent.kind === 245 /* ClassDeclaration */; case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 161 /* MethodDeclaration */: // if this method has a body and its parent is a class declaration, this is a valid target. return node.body !== undefined && parent.kind === 245 /* ClassDeclaration */; case 156 /* Parameter */: // if the parameter's parent has a body and its grandparent is a class declaration, this is a valid target; return parent.body !== undefined && (parent.kind === 162 /* Constructor */ || parent.kind === 161 /* MethodDeclaration */ || parent.kind === 164 /* SetAccessor */) && grandparent.kind === 245 /* ClassDeclaration */; } return false; } ts.nodeCanBeDecorated = nodeCanBeDecorated; function nodeIsDecorated(node, parent, grandparent) { return node.decorators !== undefined && nodeCanBeDecorated(node, parent, grandparent); // TODO: GH#18217 } ts.nodeIsDecorated = nodeIsDecorated; function nodeOrChildIsDecorated(node, parent, grandparent) { return nodeIsDecorated(node, parent, grandparent) || childIsDecorated(node, parent); // TODO: GH#18217 } ts.nodeOrChildIsDecorated = nodeOrChildIsDecorated; function childIsDecorated(node, parent) { switch (node.kind) { case 245 /* ClassDeclaration */: return ts.some(node.members, function (m) { return nodeOrChildIsDecorated(m, node, parent); }); // TODO: GH#18217 case 161 /* MethodDeclaration */: case 164 /* SetAccessor */: return ts.some(node.parameters, function (p) { return nodeIsDecorated(p, node, parent); }); // TODO: GH#18217 default: return false; } } ts.childIsDecorated = childIsDecorated; function isJSXTagName(node) { var parent = node.parent; if (parent.kind === 268 /* JsxOpeningElement */ || parent.kind === 267 /* JsxSelfClosingElement */ || parent.kind === 269 /* JsxClosingElement */) { return parent.tagName === node; } return false; } ts.isJSXTagName = isJSXTagName; function isExpressionNode(node) { switch (node.kind) { case 102 /* SuperKeyword */: case 100 /* NullKeyword */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 13 /* RegularExpressionLiteral */: case 192 /* ArrayLiteralExpression */: case 193 /* ObjectLiteralExpression */: case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: case 196 /* CallExpression */: case 197 /* NewExpression */: case 198 /* TaggedTemplateExpression */: case 217 /* AsExpression */: case 199 /* TypeAssertionExpression */: case 218 /* NonNullExpression */: case 200 /* ParenthesizedExpression */: case 201 /* FunctionExpression */: case 214 /* ClassExpression */: case 202 /* ArrowFunction */: case 205 /* VoidExpression */: case 203 /* DeleteExpression */: case 204 /* TypeOfExpression */: case 207 /* PrefixUnaryExpression */: case 208 /* PostfixUnaryExpression */: case 209 /* BinaryExpression */: case 210 /* ConditionalExpression */: case 213 /* SpreadElement */: case 211 /* TemplateExpression */: case 215 /* OmittedExpression */: case 266 /* JsxElement */: case 267 /* JsxSelfClosingElement */: case 270 /* JsxFragment */: case 212 /* YieldExpression */: case 206 /* AwaitExpression */: case 219 /* MetaProperty */: return true; case 153 /* QualifiedName */: while (node.parent.kind === 153 /* QualifiedName */) { node = node.parent; } return node.parent.kind === 172 /* TypeQuery */ || isJSXTagName(node); case 75 /* Identifier */: if (node.parent.kind === 172 /* TypeQuery */ || isJSXTagName(node)) { return true; } // falls through case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 104 /* ThisKeyword */: return isInExpressionContext(node); default: return false; } } ts.isExpressionNode = isExpressionNode; function isInExpressionContext(node) { var parent = node.parent; switch (parent.kind) { case 242 /* VariableDeclaration */: case 156 /* Parameter */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 284 /* EnumMember */: case 281 /* PropertyAssignment */: case 191 /* BindingElement */: return parent.initializer === node; case 226 /* ExpressionStatement */: case 227 /* IfStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: case 235 /* ReturnStatement */: case 236 /* WithStatement */: case 237 /* SwitchStatement */: case 277 /* CaseClause */: case 239 /* ThrowStatement */: return parent.expression === node; case 230 /* ForStatement */: var forStatement = parent; return (forStatement.initializer === node && forStatement.initializer.kind !== 243 /* VariableDeclarationList */) || forStatement.condition === node || forStatement.incrementor === node; case 231 /* ForInStatement */: case 232 /* ForOfStatement */: var forInStatement = parent; return (forInStatement.initializer === node && forInStatement.initializer.kind !== 243 /* VariableDeclarationList */) || forInStatement.expression === node; case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: return node === parent.expression; case 221 /* TemplateSpan */: return node === parent.expression; case 154 /* ComputedPropertyName */: return node === parent.expression; case 157 /* Decorator */: case 276 /* JsxExpression */: case 275 /* JsxSpreadAttribute */: case 283 /* SpreadAssignment */: return true; case 216 /* ExpressionWithTypeArguments */: return parent.expression === node && isExpressionWithTypeArgumentsInClassExtendsClause(parent); case 282 /* ShorthandPropertyAssignment */: return parent.objectAssignmentInitializer === node; default: return isExpressionNode(parent); } } ts.isInExpressionContext = isInExpressionContext; function isPartOfTypeQuery(node) { while (node.kind === 153 /* QualifiedName */ || node.kind === 75 /* Identifier */) { node = node.parent; } return node.kind === 172 /* TypeQuery */; } ts.isPartOfTypeQuery = isPartOfTypeQuery; function isExternalModuleImportEqualsDeclaration(node) { return node.kind === 253 /* ImportEqualsDeclaration */ && node.moduleReference.kind === 265 /* ExternalModuleReference */; } ts.isExternalModuleImportEqualsDeclaration = isExternalModuleImportEqualsDeclaration; function getExternalModuleImportEqualsDeclarationExpression(node) { ts.Debug.assert(isExternalModuleImportEqualsDeclaration(node)); return node.moduleReference.expression; } ts.getExternalModuleImportEqualsDeclarationExpression = getExternalModuleImportEqualsDeclarationExpression; function isInternalModuleImportEqualsDeclaration(node) { return node.kind === 253 /* ImportEqualsDeclaration */ && node.moduleReference.kind !== 265 /* ExternalModuleReference */; } ts.isInternalModuleImportEqualsDeclaration = isInternalModuleImportEqualsDeclaration; function isSourceFileJS(file) { return isInJSFile(file); } ts.isSourceFileJS = isSourceFileJS; function isSourceFileNotJS(file) { return !isInJSFile(file); } ts.isSourceFileNotJS = isSourceFileNotJS; function isInJSFile(node) { return !!node && !!(node.flags & 131072 /* JavaScriptFile */); } ts.isInJSFile = isInJSFile; function isInJsonFile(node) { return !!node && !!(node.flags & 33554432 /* JsonFile */); } ts.isInJsonFile = isInJsonFile; function isSourceFileNotJson(file) { return !isJsonSourceFile(file); } ts.isSourceFileNotJson = isSourceFileNotJson; function isInJSDoc(node) { return !!node && !!(node.flags & 4194304 /* JSDoc */); } ts.isInJSDoc = isInJSDoc; function isJSDocIndexSignature(node) { return ts.isTypeReferenceNode(node) && ts.isIdentifier(node.typeName) && node.typeName.escapedText === "Object" && node.typeArguments && node.typeArguments.length === 2 && (node.typeArguments[0].kind === 143 /* StringKeyword */ || node.typeArguments[0].kind === 140 /* NumberKeyword */); } ts.isJSDocIndexSignature = isJSDocIndexSignature; function isRequireCall(callExpression, requireStringLiteralLikeArgument) { if (callExpression.kind !== 196 /* CallExpression */) { return false; } var _a = callExpression, expression = _a.expression, args = _a.arguments; if (expression.kind !== 75 /* Identifier */ || expression.escapedText !== "require") { return false; } if (args.length !== 1) { return false; } var arg = args[0]; return !requireStringLiteralLikeArgument || ts.isStringLiteralLike(arg); } ts.isRequireCall = isRequireCall; function isRequireVariableDeclaration(node, requireStringLiteralLikeArgument) { return ts.isVariableDeclaration(node) && !!node.initializer && isRequireCall(node.initializer, requireStringLiteralLikeArgument); } ts.isRequireVariableDeclaration = isRequireVariableDeclaration; function isRequireVariableDeclarationStatement(node, requireStringLiteralLikeArgument) { if (requireStringLiteralLikeArgument === void 0) { requireStringLiteralLikeArgument = true; } return ts.isVariableStatement(node) && ts.every(node.declarationList.declarations, function (decl) { return isRequireVariableDeclaration(decl, requireStringLiteralLikeArgument); }); } ts.isRequireVariableDeclarationStatement = isRequireVariableDeclarationStatement; function isSingleOrDoubleQuote(charCode) { return charCode === 39 /* singleQuote */ || charCode === 34 /* doubleQuote */; } ts.isSingleOrDoubleQuote = isSingleOrDoubleQuote; function isStringDoubleQuoted(str, sourceFile) { return getSourceTextOfNodeFromSourceFile(sourceFile, str).charCodeAt(0) === 34 /* doubleQuote */; } ts.isStringDoubleQuoted = isStringDoubleQuoted; function getDeclarationOfExpando(node) { if (!node.parent) { return undefined; } var name; var decl; if (ts.isVariableDeclaration(node.parent) && node.parent.initializer === node) { if (!isInJSFile(node) && !isVarConst(node.parent)) { return undefined; } name = node.parent.name; decl = node.parent; } else if (ts.isBinaryExpression(node.parent)) { var parentNode = node.parent; var parentNodeOperator = node.parent.operatorToken.kind; if (parentNodeOperator === 62 /* EqualsToken */ && parentNode.right === node) { name = parentNode.left; decl = name; } else if (parentNodeOperator === 56 /* BarBarToken */ || parentNodeOperator === 60 /* QuestionQuestionToken */) { if (ts.isVariableDeclaration(parentNode.parent) && parentNode.parent.initializer === parentNode) { name = parentNode.parent.name; decl = parentNode.parent; } else if (ts.isBinaryExpression(parentNode.parent) && parentNode.parent.operatorToken.kind === 62 /* EqualsToken */ && parentNode.parent.right === parentNode) { name = parentNode.parent.left; decl = name; } if (!name || !isBindableStaticNameExpression(name) || !isSameEntityName(name, parentNode.left)) { return undefined; } } } if (!name || !getExpandoInitializer(node, isPrototypeAccess(name))) { return undefined; } return decl; } ts.getDeclarationOfExpando = getDeclarationOfExpando; function isAssignmentDeclaration(decl) { return ts.isBinaryExpression(decl) || isAccessExpression(decl) || ts.isIdentifier(decl) || ts.isCallExpression(decl); } ts.isAssignmentDeclaration = isAssignmentDeclaration; /** Get the initializer, taking into account defaulted Javascript initializers */ function getEffectiveInitializer(node) { if (isInJSFile(node) && node.initializer && ts.isBinaryExpression(node.initializer) && (node.initializer.operatorToken.kind === 56 /* BarBarToken */ || node.initializer.operatorToken.kind === 60 /* QuestionQuestionToken */) && node.name && isEntityNameExpression(node.name) && isSameEntityName(node.name, node.initializer.left)) { return node.initializer.right; } return node.initializer; } ts.getEffectiveInitializer = getEffectiveInitializer; /** Get the declaration initializer when it is container-like (See getExpandoInitializer). */ function getDeclaredExpandoInitializer(node) { var init = getEffectiveInitializer(node); return init && getExpandoInitializer(init, isPrototypeAccess(node.name)); } ts.getDeclaredExpandoInitializer = getDeclaredExpandoInitializer; function hasExpandoValueProperty(node, isPrototypeAssignment) { return ts.forEach(node.properties, function (p) { return ts.isPropertyAssignment(p) && ts.isIdentifier(p.name) && p.name.escapedText === "value" && p.initializer && getExpandoInitializer(p.initializer, isPrototypeAssignment); }); } /** * Get the assignment 'initializer' -- the righthand side-- when the initializer is container-like (See getExpandoInitializer). * We treat the right hand side of assignments with container-like initalizers as declarations. */ function getAssignedExpandoInitializer(node) { if (node && node.parent && ts.isBinaryExpression(node.parent) && node.parent.operatorToken.kind === 62 /* EqualsToken */) { var isPrototypeAssignment = isPrototypeAccess(node.parent.left); return getExpandoInitializer(node.parent.right, isPrototypeAssignment) || getDefaultedExpandoInitializer(node.parent.left, node.parent.right, isPrototypeAssignment); } if (node && ts.isCallExpression(node) && isBindableObjectDefinePropertyCall(node)) { var result = hasExpandoValueProperty(node.arguments[2], node.arguments[1].text === "prototype"); if (result) { return result; } } } ts.getAssignedExpandoInitializer = getAssignedExpandoInitializer; /** * Recognized expando initializers are: * 1. (function() {})() -- IIFEs * 2. function() { } -- Function expressions * 3. class { } -- Class expressions * 4. {} -- Empty object literals * 5. { ... } -- Non-empty object literals, when used to initialize a prototype, like `C.prototype = { m() { } }` * * This function returns the provided initializer, or undefined if it is not valid. */ function getExpandoInitializer(initializer, isPrototypeAssignment) { if (ts.isCallExpression(initializer)) { var e = skipParentheses(initializer.expression); return e.kind === 201 /* FunctionExpression */ || e.kind === 202 /* ArrowFunction */ ? initializer : undefined; } if (initializer.kind === 201 /* FunctionExpression */ || initializer.kind === 214 /* ClassExpression */ || initializer.kind === 202 /* ArrowFunction */) { return initializer; } if (ts.isObjectLiteralExpression(initializer) && (initializer.properties.length === 0 || isPrototypeAssignment)) { return initializer; } } ts.getExpandoInitializer = getExpandoInitializer; /** * A defaulted expando initializer matches the pattern * `Lhs = Lhs || ExpandoInitializer` * or `var Lhs = Lhs || ExpandoInitializer` * * The second Lhs is required to be the same as the first except that it may be prefixed with * 'window.', 'global.' or 'self.' The second Lhs is otherwise ignored by the binder and checker. */ function getDefaultedExpandoInitializer(name, initializer, isPrototypeAssignment) { var e = ts.isBinaryExpression(initializer) && (initializer.operatorToken.kind === 56 /* BarBarToken */ || initializer.operatorToken.kind === 60 /* QuestionQuestionToken */) && getExpandoInitializer(initializer.right, isPrototypeAssignment); if (e && isSameEntityName(name, initializer.left)) { return e; } } function isDefaultedExpandoInitializer(node) { var name = ts.isVariableDeclaration(node.parent) ? node.parent.name : ts.isBinaryExpression(node.parent) && node.parent.operatorToken.kind === 62 /* EqualsToken */ ? node.parent.left : undefined; return name && getExpandoInitializer(node.right, isPrototypeAccess(name)) && isEntityNameExpression(name) && isSameEntityName(name, node.left); } ts.isDefaultedExpandoInitializer = isDefaultedExpandoInitializer; /** Given an expando initializer, return its declaration name, or the left-hand side of the assignment if it's part of an assignment declaration. */ function getNameOfExpando(node) { if (ts.isBinaryExpression(node.parent)) { var parent = ((node.parent.operatorToken.kind === 56 /* BarBarToken */ || node.parent.operatorToken.kind === 60 /* QuestionQuestionToken */) && ts.isBinaryExpression(node.parent.parent)) ? node.parent.parent : node.parent; if (parent.operatorToken.kind === 62 /* EqualsToken */ && ts.isIdentifier(parent.left)) { return parent.left; } } else if (ts.isVariableDeclaration(node.parent)) { return node.parent.name; } } ts.getNameOfExpando = getNameOfExpando; /** * Is the 'declared' name the same as the one in the initializer? * @return true for identical entity names, as well as ones where the initializer is prefixed with * 'window', 'self' or 'global'. For example: * * var my = my || {} * var min = window.min || {} * my.app = self.my.app || class { } */ function isSameEntityName(name, initializer) { if (isPropertyNameLiteral(name) && isPropertyNameLiteral(initializer)) { return getTextOfIdentifierOrLiteral(name) === getTextOfIdentifierOrLiteral(name); } if (ts.isIdentifier(name) && isLiteralLikeAccess(initializer) && (initializer.expression.kind === 104 /* ThisKeyword */ || ts.isIdentifier(initializer.expression) && (initializer.expression.escapedText === "window" || initializer.expression.escapedText === "self" || initializer.expression.escapedText === "global"))) { var nameOrArgument = getNameOrArgument(initializer); if (ts.isPrivateIdentifier(nameOrArgument)) { ts.Debug.fail("Unexpected PrivateIdentifier in name expression with literal-like access."); } return isSameEntityName(name, nameOrArgument); } if (isLiteralLikeAccess(name) && isLiteralLikeAccess(initializer)) { return getElementOrPropertyAccessName(name) === getElementOrPropertyAccessName(initializer) && isSameEntityName(name.expression, initializer.expression); } return false; } function getRightMostAssignedExpression(node) { while (isAssignmentExpression(node, /*excludeCompoundAssignments*/ true)) { node = node.right; } return node; } ts.getRightMostAssignedExpression = getRightMostAssignedExpression; function isExportsIdentifier(node) { return ts.isIdentifier(node) && node.escapedText === "exports"; } ts.isExportsIdentifier = isExportsIdentifier; function isModuleIdentifier(node) { return ts.isIdentifier(node) && node.escapedText === "module"; } ts.isModuleIdentifier = isModuleIdentifier; function isModuleExportsAccessExpression(node) { return (ts.isPropertyAccessExpression(node) || isLiteralLikeElementAccess(node)) && isModuleIdentifier(node.expression) && getElementOrPropertyAccessName(node) === "exports"; } ts.isModuleExportsAccessExpression = isModuleExportsAccessExpression; /// Given a BinaryExpression, returns SpecialPropertyAssignmentKind for the various kinds of property /// assignments we treat as special in the binder function getAssignmentDeclarationKind(expr) { var special = getAssignmentDeclarationKindWorker(expr); return special === 5 /* Property */ || isInJSFile(expr) ? special : 0 /* None */; } ts.getAssignmentDeclarationKind = getAssignmentDeclarationKind; function isBindableObjectDefinePropertyCall(expr) { return ts.length(expr.arguments) === 3 && ts.isPropertyAccessExpression(expr.expression) && ts.isIdentifier(expr.expression.expression) && ts.idText(expr.expression.expression) === "Object" && ts.idText(expr.expression.name) === "defineProperty" && isStringOrNumericLiteralLike(expr.arguments[1]) && isBindableStaticNameExpression(expr.arguments[0], /*excludeThisKeyword*/ true); } ts.isBindableObjectDefinePropertyCall = isBindableObjectDefinePropertyCall; /** x.y OR x[0] */ function isLiteralLikeAccess(node) { return ts.isPropertyAccessExpression(node) || isLiteralLikeElementAccess(node); } ts.isLiteralLikeAccess = isLiteralLikeAccess; /** x[0] OR x['a'] OR x[Symbol.y] */ function isLiteralLikeElementAccess(node) { return ts.isElementAccessExpression(node) && (isStringOrNumericLiteralLike(node.argumentExpression) || isWellKnownSymbolSyntactically(node.argumentExpression)); } ts.isLiteralLikeElementAccess = isLiteralLikeElementAccess; /** Any series of property and element accesses. */ function isBindableStaticAccessExpression(node, excludeThisKeyword) { return ts.isPropertyAccessExpression(node) && (!excludeThisKeyword && node.expression.kind === 104 /* ThisKeyword */ || ts.isIdentifier(node.name) && isBindableStaticNameExpression(node.expression, /*excludeThisKeyword*/ true)) || isBindableStaticElementAccessExpression(node, excludeThisKeyword); } ts.isBindableStaticAccessExpression = isBindableStaticAccessExpression; /** Any series of property and element accesses, ending in a literal element access */ function isBindableStaticElementAccessExpression(node, excludeThisKeyword) { return isLiteralLikeElementAccess(node) && ((!excludeThisKeyword && node.expression.kind === 104 /* ThisKeyword */) || isEntityNameExpression(node.expression) || isBindableStaticAccessExpression(node.expression, /*excludeThisKeyword*/ true)); } ts.isBindableStaticElementAccessExpression = isBindableStaticElementAccessExpression; function isBindableStaticNameExpression(node, excludeThisKeyword) { return isEntityNameExpression(node) || isBindableStaticAccessExpression(node, excludeThisKeyword); } ts.isBindableStaticNameExpression = isBindableStaticNameExpression; function getNameOrArgument(expr) { if (ts.isPropertyAccessExpression(expr)) { return expr.name; } return expr.argumentExpression; } ts.getNameOrArgument = getNameOrArgument; function getAssignmentDeclarationKindWorker(expr) { if (ts.isCallExpression(expr)) { if (!isBindableObjectDefinePropertyCall(expr)) { return 0 /* None */; } var entityName = expr.arguments[0]; if (isExportsIdentifier(entityName) || isModuleExportsAccessExpression(entityName)) { return 8 /* ObjectDefinePropertyExports */; } if (isBindableStaticAccessExpression(entityName) && getElementOrPropertyAccessName(entityName) === "prototype") { return 9 /* ObjectDefinePrototypeProperty */; } return 7 /* ObjectDefinePropertyValue */; } if (expr.operatorToken.kind !== 62 /* EqualsToken */ || !isAccessExpression(expr.left)) { return 0 /* None */; } if (isBindableStaticNameExpression(expr.left.expression, /*excludeThisKeyword*/ true) && getElementOrPropertyAccessName(expr.left) === "prototype" && ts.isObjectLiteralExpression(getInitializerOfBinaryExpression(expr))) { // F.prototype = { ... } return 6 /* Prototype */; } return getAssignmentDeclarationPropertyAccessKind(expr.left); } /** * Does not handle signed numeric names like `a[+0]` - handling those would require handling prefix unary expressions * throughout late binding handling as well, which is awkward (but ultimately probably doable if there is demand) */ /* @internal */ function getElementOrPropertyAccessArgumentExpressionOrName(node) { if (ts.isPropertyAccessExpression(node)) { return node.name; } var arg = skipParentheses(node.argumentExpression); if (ts.isNumericLiteral(arg) || ts.isStringLiteralLike(arg)) { return arg; } return node; } ts.getElementOrPropertyAccessArgumentExpressionOrName = getElementOrPropertyAccessArgumentExpressionOrName; function getElementOrPropertyAccessName(node) { var name = getElementOrPropertyAccessArgumentExpressionOrName(node); if (name) { if (ts.isIdentifier(name)) { return name.escapedText; } if (ts.isStringLiteralLike(name) || ts.isNumericLiteral(name)) { return ts.escapeLeadingUnderscores(name.text); } } if (ts.isElementAccessExpression(node) && isWellKnownSymbolSyntactically(node.argumentExpression)) { return getPropertyNameForKnownSymbolName(ts.idText(node.argumentExpression.name)); } return undefined; } ts.getElementOrPropertyAccessName = getElementOrPropertyAccessName; function getAssignmentDeclarationPropertyAccessKind(lhs) { if (lhs.expression.kind === 104 /* ThisKeyword */) { return 4 /* ThisProperty */; } else if (isModuleExportsAccessExpression(lhs)) { // module.exports = expr return 2 /* ModuleExports */; } else if (isBindableStaticNameExpression(lhs.expression, /*excludeThisKeyword*/ true)) { if (isPrototypeAccess(lhs.expression)) { // F.G....prototype.x = expr return 3 /* PrototypeProperty */; } var nextToLast = lhs; while (!ts.isIdentifier(nextToLast.expression)) { nextToLast = nextToLast.expression; } var id = nextToLast.expression; if ((id.escapedText === "exports" || id.escapedText === "module" && getElementOrPropertyAccessName(nextToLast) === "exports") && // ExportsProperty does not support binding with computed names isBindableStaticAccessExpression(lhs)) { // exports.name = expr OR module.exports.name = expr OR exports["name"] = expr ... return 1 /* ExportsProperty */; } if (isBindableStaticNameExpression(lhs, /*excludeThisKeyword*/ true) || (ts.isElementAccessExpression(lhs) && isDynamicName(lhs))) { // F.G...x = expr return 5 /* Property */; } } return 0 /* None */; } ts.getAssignmentDeclarationPropertyAccessKind = getAssignmentDeclarationPropertyAccessKind; function getInitializerOfBinaryExpression(expr) { while (ts.isBinaryExpression(expr.right)) { expr = expr.right; } return expr.right; } ts.getInitializerOfBinaryExpression = getInitializerOfBinaryExpression; function isPrototypePropertyAssignment(node) { return ts.isBinaryExpression(node) && getAssignmentDeclarationKind(node) === 3 /* PrototypeProperty */; } ts.isPrototypePropertyAssignment = isPrototypePropertyAssignment; function isSpecialPropertyDeclaration(expr) { return isInJSFile(expr) && expr.parent && expr.parent.kind === 226 /* ExpressionStatement */ && (!ts.isElementAccessExpression(expr) || isLiteralLikeElementAccess(expr)) && !!ts.getJSDocTypeTag(expr.parent); } ts.isSpecialPropertyDeclaration = isSpecialPropertyDeclaration; function setValueDeclaration(symbol, node) { var valueDeclaration = symbol.valueDeclaration; if (!valueDeclaration || !(node.flags & 8388608 /* Ambient */ && !(valueDeclaration.flags & 8388608 /* Ambient */)) && (isAssignmentDeclaration(valueDeclaration) && !isAssignmentDeclaration(node)) || (valueDeclaration.kind !== node.kind && isEffectiveModuleDeclaration(valueDeclaration))) { // other kinds of value declarations take precedence over modules and assignment declarations symbol.valueDeclaration = node; } } ts.setValueDeclaration = setValueDeclaration; function isFunctionSymbol(symbol) { if (!symbol || !symbol.valueDeclaration) { return false; } var decl = symbol.valueDeclaration; return decl.kind === 244 /* FunctionDeclaration */ || ts.isVariableDeclaration(decl) && decl.initializer && ts.isFunctionLike(decl.initializer); } ts.isFunctionSymbol = isFunctionSymbol; function importFromModuleSpecifier(node) { return tryGetImportFromModuleSpecifier(node) || ts.Debug.failBadSyntaxKind(node.parent); } ts.importFromModuleSpecifier = importFromModuleSpecifier; function tryGetImportFromModuleSpecifier(node) { switch (node.parent.kind) { case 254 /* ImportDeclaration */: case 260 /* ExportDeclaration */: return node.parent; case 265 /* ExternalModuleReference */: return node.parent.parent; case 196 /* CallExpression */: return isImportCall(node.parent) || isRequireCall(node.parent, /*checkArg*/ false) ? node.parent : undefined; case 187 /* LiteralType */: ts.Debug.assert(ts.isStringLiteral(node)); return ts.tryCast(node.parent.parent, ts.isImportTypeNode); default: return undefined; } } ts.tryGetImportFromModuleSpecifier = tryGetImportFromModuleSpecifier; function getExternalModuleName(node) { switch (node.kind) { case 254 /* ImportDeclaration */: case 260 /* ExportDeclaration */: return node.moduleSpecifier; case 253 /* ImportEqualsDeclaration */: return node.moduleReference.kind === 265 /* ExternalModuleReference */ ? node.moduleReference.expression : undefined; case 188 /* ImportType */: return isLiteralImportTypeNode(node) ? node.argument.literal : undefined; default: return ts.Debug.assertNever(node); } } ts.getExternalModuleName = getExternalModuleName; function getNamespaceDeclarationNode(node) { switch (node.kind) { case 254 /* ImportDeclaration */: return node.importClause && ts.tryCast(node.importClause.namedBindings, ts.isNamespaceImport); case 253 /* ImportEqualsDeclaration */: return node; case 260 /* ExportDeclaration */: return node.exportClause && ts.tryCast(node.exportClause, ts.isNamespaceExport); default: return ts.Debug.assertNever(node); } } ts.getNamespaceDeclarationNode = getNamespaceDeclarationNode; function isDefaultImport(node) { return node.kind === 254 /* ImportDeclaration */ && !!node.importClause && !!node.importClause.name; } ts.isDefaultImport = isDefaultImport; function forEachImportClauseDeclaration(node, action) { if (node.name) { var result = action(node); if (result) return result; } if (node.namedBindings) { var result = ts.isNamespaceImport(node.namedBindings) ? action(node.namedBindings) : ts.forEach(node.namedBindings.elements, action); if (result) return result; } } ts.forEachImportClauseDeclaration = forEachImportClauseDeclaration; function hasQuestionToken(node) { if (node) { switch (node.kind) { case 156 /* Parameter */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 282 /* ShorthandPropertyAssignment */: case 281 /* PropertyAssignment */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: return node.questionToken !== undefined; } } return false; } ts.hasQuestionToken = hasQuestionToken; function isJSDocConstructSignature(node) { var param = ts.isJSDocFunctionType(node) ? ts.firstOrUndefined(node.parameters) : undefined; var name = ts.tryCast(param && param.name, ts.isIdentifier); return !!name && name.escapedText === "new"; } ts.isJSDocConstructSignature = isJSDocConstructSignature; function isJSDocTypeAlias(node) { return node.kind === 322 /* JSDocTypedefTag */ || node.kind === 315 /* JSDocCallbackTag */ || node.kind === 316 /* JSDocEnumTag */; } ts.isJSDocTypeAlias = isJSDocTypeAlias; function isTypeAlias(node) { return isJSDocTypeAlias(node) || ts.isTypeAliasDeclaration(node); } ts.isTypeAlias = isTypeAlias; function getSourceOfAssignment(node) { return ts.isExpressionStatement(node) && ts.isBinaryExpression(node.expression) && node.expression.operatorToken.kind === 62 /* EqualsToken */ ? getRightMostAssignedExpression(node.expression) : undefined; } function getSourceOfDefaultedAssignment(node) { return ts.isExpressionStatement(node) && ts.isBinaryExpression(node.expression) && getAssignmentDeclarationKind(node.expression) !== 0 /* None */ && ts.isBinaryExpression(node.expression.right) && (node.expression.right.operatorToken.kind === 56 /* BarBarToken */ || node.expression.right.operatorToken.kind === 60 /* QuestionQuestionToken */) ? node.expression.right.right : undefined; } function getSingleInitializerOfVariableStatementOrPropertyDeclaration(node) { switch (node.kind) { case 225 /* VariableStatement */: var v = getSingleVariableOfVariableStatement(node); return v && v.initializer; case 159 /* PropertyDeclaration */: return node.initializer; case 281 /* PropertyAssignment */: return node.initializer; } } ts.getSingleInitializerOfVariableStatementOrPropertyDeclaration = getSingleInitializerOfVariableStatementOrPropertyDeclaration; function getSingleVariableOfVariableStatement(node) { return ts.isVariableStatement(node) ? ts.firstOrUndefined(node.declarationList.declarations) : undefined; } function getNestedModuleDeclaration(node) { return ts.isModuleDeclaration(node) && node.body && node.body.kind === 249 /* ModuleDeclaration */ ? node.body : undefined; } function getJSDocCommentsAndTags(hostNode) { var result; // Pull parameter comments from declaring function as well if (isVariableLike(hostNode) && ts.hasInitializer(hostNode) && ts.hasJSDocNodes(hostNode.initializer)) { result = ts.append(result, ts.last(hostNode.initializer.jsDoc)); } var node = hostNode; while (node && node.parent) { if (ts.hasJSDocNodes(node)) { result = ts.append(result, ts.last(node.jsDoc)); } if (node.kind === 156 /* Parameter */) { result = ts.addRange(result, ts.getJSDocParameterTags(node)); break; } if (node.kind === 155 /* TypeParameter */) { result = ts.addRange(result, ts.getJSDocTypeParameterTags(node)); break; } node = getNextJSDocCommentLocation(node); } return result || ts.emptyArray; } ts.getJSDocCommentsAndTags = getJSDocCommentsAndTags; function getNextJSDocCommentLocation(node) { var parent = node.parent; if (parent.kind === 281 /* PropertyAssignment */ || parent.kind === 259 /* ExportAssignment */ || parent.kind === 159 /* PropertyDeclaration */ || parent.kind === 226 /* ExpressionStatement */ && node.kind === 194 /* PropertyAccessExpression */ || getNestedModuleDeclaration(parent) || ts.isBinaryExpression(node) && node.operatorToken.kind === 62 /* EqualsToken */) { return parent; } // Try to recognize this pattern when node is initializer of variable declaration and JSDoc comments are on containing variable statement. // /** // * @param {number} name // * @returns {number} // */ // var x = function(name) { return name.length; } else if (parent.parent && (getSingleVariableOfVariableStatement(parent.parent) === node || ts.isBinaryExpression(parent) && parent.operatorToken.kind === 62 /* EqualsToken */)) { return parent.parent; } else if (parent.parent && parent.parent.parent && (getSingleVariableOfVariableStatement(parent.parent.parent) || getSingleInitializerOfVariableStatementOrPropertyDeclaration(parent.parent.parent) === node || getSourceOfDefaultedAssignment(parent.parent.parent))) { return parent.parent.parent; } } /** Does the opposite of `getJSDocParameterTags`: given a JSDoc parameter, finds the parameter corresponding to it. */ function getParameterSymbolFromJSDoc(node) { if (node.symbol) { return node.symbol; } if (!ts.isIdentifier(node.name)) { return undefined; } var name = node.name.escapedText; var decl = getHostSignatureFromJSDoc(node); if (!decl) { return undefined; } var parameter = ts.find(decl.parameters, function (p) { return p.name.kind === 75 /* Identifier */ && p.name.escapedText === name; }); return parameter && parameter.symbol; } ts.getParameterSymbolFromJSDoc = getParameterSymbolFromJSDoc; function getHostSignatureFromJSDoc(node) { var host = getEffectiveJSDocHost(node); return host && ts.isFunctionLike(host) ? host : undefined; } ts.getHostSignatureFromJSDoc = getHostSignatureFromJSDoc; function getEffectiveJSDocHost(node) { var host = getJSDocHost(node); var decl = getSourceOfDefaultedAssignment(host) || getSourceOfAssignment(host) || getSingleInitializerOfVariableStatementOrPropertyDeclaration(host) || getSingleVariableOfVariableStatement(host) || getNestedModuleDeclaration(host) || host; return decl; } ts.getEffectiveJSDocHost = getEffectiveJSDocHost; /** Use getEffectiveJSDocHost if you additionally need to look for jsdoc on parent nodes, like assignments. */ function getJSDocHost(node) { return ts.Debug.checkDefined(findAncestor(node.parent, ts.isJSDoc)).parent; } ts.getJSDocHost = getJSDocHost; function getTypeParameterFromJsDoc(node) { var name = node.name.escapedText; var typeParameters = node.parent.parent.parent.typeParameters; return typeParameters && ts.find(typeParameters, function (p) { return p.name.escapedText === name; }); } ts.getTypeParameterFromJsDoc = getTypeParameterFromJsDoc; function hasRestParameter(s) { var last = ts.lastOrUndefined(s.parameters); return !!last && isRestParameter(last); } ts.hasRestParameter = hasRestParameter; function isRestParameter(node) { var type = ts.isJSDocParameterTag(node) ? (node.typeExpression && node.typeExpression.type) : node.type; return node.dotDotDotToken !== undefined || !!type && type.kind === 301 /* JSDocVariadicType */; } ts.isRestParameter = isRestParameter; function hasTypeArguments(node) { return !!node.typeArguments; } ts.hasTypeArguments = hasTypeArguments; var AssignmentKind; (function (AssignmentKind) { AssignmentKind[AssignmentKind["None"] = 0] = "None"; AssignmentKind[AssignmentKind["Definite"] = 1] = "Definite"; AssignmentKind[AssignmentKind["Compound"] = 2] = "Compound"; })(AssignmentKind = ts.AssignmentKind || (ts.AssignmentKind = {})); function getAssignmentTargetKind(node) { var parent = node.parent; while (true) { switch (parent.kind) { case 209 /* BinaryExpression */: var binaryOperator = parent.operatorToken.kind; return isAssignmentOperator(binaryOperator) && parent.left === node ? binaryOperator === 62 /* EqualsToken */ ? 1 /* Definite */ : 2 /* Compound */ : 0 /* None */; case 207 /* PrefixUnaryExpression */: case 208 /* PostfixUnaryExpression */: var unaryOperator = parent.operator; return unaryOperator === 45 /* PlusPlusToken */ || unaryOperator === 46 /* MinusMinusToken */ ? 2 /* Compound */ : 0 /* None */; case 231 /* ForInStatement */: case 232 /* ForOfStatement */: return parent.initializer === node ? 1 /* Definite */ : 0 /* None */; case 200 /* ParenthesizedExpression */: case 192 /* ArrayLiteralExpression */: case 213 /* SpreadElement */: case 218 /* NonNullExpression */: node = parent; break; case 282 /* ShorthandPropertyAssignment */: if (parent.name !== node) { return 0 /* None */; } node = parent.parent; break; case 281 /* PropertyAssignment */: if (parent.name === node) { return 0 /* None */; } node = parent.parent; break; default: return 0 /* None */; } parent = node.parent; } } ts.getAssignmentTargetKind = getAssignmentTargetKind; // A node is an assignment target if it is on the left hand side of an '=' token, if it is parented by a property // assignment in an object literal that is an assignment target, or if it is parented by an array literal that is // an assignment target. Examples include 'a = xxx', '{ p: a } = xxx', '[{ a }] = xxx'. // (Note that `p` is not a target in the above examples, only `a`.) function isAssignmentTarget(node) { return getAssignmentTargetKind(node) !== 0 /* None */; } ts.isAssignmentTarget = isAssignmentTarget; /** * Indicates whether a node could contain a `var` VariableDeclarationList that contributes to * the same `var` declaration scope as the node's parent. */ function isNodeWithPossibleHoistedDeclaration(node) { switch (node.kind) { case 223 /* Block */: case 225 /* VariableStatement */: case 236 /* WithStatement */: case 227 /* IfStatement */: case 237 /* SwitchStatement */: case 251 /* CaseBlock */: case 277 /* CaseClause */: case 278 /* DefaultClause */: case 238 /* LabeledStatement */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: case 240 /* TryStatement */: case 280 /* CatchClause */: return true; } return false; } ts.isNodeWithPossibleHoistedDeclaration = isNodeWithPossibleHoistedDeclaration; function isValueSignatureDeclaration(node) { return ts.isFunctionExpression(node) || ts.isArrowFunction(node) || ts.isMethodOrAccessor(node) || ts.isFunctionDeclaration(node) || ts.isConstructorDeclaration(node); } ts.isValueSignatureDeclaration = isValueSignatureDeclaration; function walkUp(node, kind) { while (node && node.kind === kind) { node = node.parent; } return node; } function walkUpParenthesizedTypes(node) { return walkUp(node, 182 /* ParenthesizedType */); } ts.walkUpParenthesizedTypes = walkUpParenthesizedTypes; function walkUpParenthesizedExpressions(node) { return walkUp(node, 200 /* ParenthesizedExpression */); } ts.walkUpParenthesizedExpressions = walkUpParenthesizedExpressions; function skipParentheses(node) { return ts.skipOuterExpressions(node, 1 /* Parentheses */); } ts.skipParentheses = skipParentheses; function skipParenthesesUp(node) { while (node.kind === 200 /* ParenthesizedExpression */) { node = node.parent; } return node; } // a node is delete target iff. it is PropertyAccessExpression/ElementAccessExpression with parentheses skipped function isDeleteTarget(node) { if (node.kind !== 194 /* PropertyAccessExpression */ && node.kind !== 195 /* ElementAccessExpression */) { return false; } node = walkUpParenthesizedExpressions(node.parent); return node && node.kind === 203 /* DeleteExpression */; } ts.isDeleteTarget = isDeleteTarget; function isNodeDescendantOf(node, ancestor) { while (node) { if (node === ancestor) return true; node = node.parent; } return false; } ts.isNodeDescendantOf = isNodeDescendantOf; // True if `name` is the name of a declaration node function isDeclarationName(name) { return !ts.isSourceFile(name) && !ts.isBindingPattern(name) && ts.isDeclaration(name.parent) && name.parent.name === name; } ts.isDeclarationName = isDeclarationName; // See GH#16030 function getDeclarationFromName(name) { var parent = name.parent; switch (name.kind) { case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 8 /* NumericLiteral */: if (ts.isComputedPropertyName(parent)) return parent.parent; // falls through case 75 /* Identifier */: if (ts.isDeclaration(parent)) { return parent.name === name ? parent : undefined; } else if (ts.isQualifiedName(parent)) { var tag = parent.parent; return ts.isJSDocParameterTag(tag) && tag.name === parent ? tag : undefined; } else { var binExp = parent.parent; return ts.isBinaryExpression(binExp) && getAssignmentDeclarationKind(binExp) !== 0 /* None */ && (binExp.left.symbol || binExp.symbol) && ts.getNameOfDeclaration(binExp) === name ? binExp : undefined; } case 76 /* PrivateIdentifier */: return ts.isDeclaration(parent) && parent.name === name ? parent : undefined; default: return undefined; } } ts.getDeclarationFromName = getDeclarationFromName; function isLiteralComputedPropertyDeclarationName(node) { return isStringOrNumericLiteralLike(node) && node.parent.kind === 154 /* ComputedPropertyName */ && ts.isDeclaration(node.parent.parent); } ts.isLiteralComputedPropertyDeclarationName = isLiteralComputedPropertyDeclarationName; // Return true if the given identifier is classified as an IdentifierName function isIdentifierName(node) { var parent = node.parent; switch (parent.kind) { case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 284 /* EnumMember */: case 281 /* PropertyAssignment */: case 194 /* PropertyAccessExpression */: // Name in member declaration or property name in property access return parent.name === node; case 153 /* QualifiedName */: // Name on right hand side of dot in a type query or type reference if (parent.right === node) { while (parent.kind === 153 /* QualifiedName */) { parent = parent.parent; } return parent.kind === 172 /* TypeQuery */ || parent.kind === 169 /* TypeReference */; } return false; case 191 /* BindingElement */: case 258 /* ImportSpecifier */: // Property name in binding element or import specifier return parent.propertyName === node; case 263 /* ExportSpecifier */: case 273 /* JsxAttribute */: // Any name in an export specifier or JSX Attribute return true; } return false; } ts.isIdentifierName = isIdentifierName; // An alias symbol is created by one of the following declarations: // import = ... // import from ... // import * as from ... // import { x as } from ... // export { x as } from ... // export * as ns from ... // export = // export default // module.exports = // {} // {name: } function isAliasSymbolDeclaration(node) { return node.kind === 253 /* ImportEqualsDeclaration */ || node.kind === 252 /* NamespaceExportDeclaration */ || node.kind === 255 /* ImportClause */ && !!node.name || node.kind === 256 /* NamespaceImport */ || node.kind === 262 /* NamespaceExport */ || node.kind === 258 /* ImportSpecifier */ || node.kind === 263 /* ExportSpecifier */ || node.kind === 259 /* ExportAssignment */ && exportAssignmentIsAlias(node) || ts.isBinaryExpression(node) && getAssignmentDeclarationKind(node) === 2 /* ModuleExports */ && exportAssignmentIsAlias(node) || ts.isPropertyAccessExpression(node) && ts.isBinaryExpression(node.parent) && node.parent.left === node && node.parent.operatorToken.kind === 62 /* EqualsToken */ && isAliasableExpression(node.parent.right) || node.kind === 282 /* ShorthandPropertyAssignment */ || node.kind === 281 /* PropertyAssignment */ && isAliasableExpression(node.initializer); } ts.isAliasSymbolDeclaration = isAliasSymbolDeclaration; function getAliasDeclarationFromName(node) { switch (node.parent.kind) { case 255 /* ImportClause */: case 258 /* ImportSpecifier */: case 256 /* NamespaceImport */: case 263 /* ExportSpecifier */: case 259 /* ExportAssignment */: case 253 /* ImportEqualsDeclaration */: return node.parent; case 153 /* QualifiedName */: do { node = node.parent; } while (node.parent.kind === 153 /* QualifiedName */); return getAliasDeclarationFromName(node); } } ts.getAliasDeclarationFromName = getAliasDeclarationFromName; function isAliasableExpression(e) { return isEntityNameExpression(e) || ts.isClassExpression(e); } ts.isAliasableExpression = isAliasableExpression; function exportAssignmentIsAlias(node) { var e = getExportAssignmentExpression(node); return isAliasableExpression(e); } ts.exportAssignmentIsAlias = exportAssignmentIsAlias; function getExportAssignmentExpression(node) { return ts.isExportAssignment(node) ? node.expression : node.right; } ts.getExportAssignmentExpression = getExportAssignmentExpression; function getPropertyAssignmentAliasLikeExpression(node) { return node.kind === 282 /* ShorthandPropertyAssignment */ ? node.name : node.kind === 281 /* PropertyAssignment */ ? node.initializer : node.parent.right; } ts.getPropertyAssignmentAliasLikeExpression = getPropertyAssignmentAliasLikeExpression; function getEffectiveBaseTypeNode(node) { var baseType = getClassExtendsHeritageElement(node); if (baseType && isInJSFile(node)) { // Prefer an @augments tag because it may have type parameters. var tag = ts.getJSDocAugmentsTag(node); if (tag) { return tag.class; } } return baseType; } ts.getEffectiveBaseTypeNode = getEffectiveBaseTypeNode; function getClassExtendsHeritageElement(node) { var heritageClause = getHeritageClause(node.heritageClauses, 90 /* ExtendsKeyword */); return heritageClause && heritageClause.types.length > 0 ? heritageClause.types[0] : undefined; } ts.getClassExtendsHeritageElement = getClassExtendsHeritageElement; function getEffectiveImplementsTypeNodes(node) { if (isInJSFile(node)) { return ts.getJSDocImplementsTags(node).map(function (n) { return n.class; }); } else { var heritageClause = getHeritageClause(node.heritageClauses, 113 /* ImplementsKeyword */); return heritageClause === null || heritageClause === void 0 ? void 0 : heritageClause.types; } } ts.getEffectiveImplementsTypeNodes = getEffectiveImplementsTypeNodes; /** Returns the node in an `extends` or `implements` clause of a class or interface. */ function getAllSuperTypeNodes(node) { return ts.isInterfaceDeclaration(node) ? getInterfaceBaseTypeNodes(node) || ts.emptyArray : ts.isClassLike(node) ? ts.concatenate(ts.singleElementArray(getEffectiveBaseTypeNode(node)), getEffectiveImplementsTypeNodes(node)) || ts.emptyArray : ts.emptyArray; } ts.getAllSuperTypeNodes = getAllSuperTypeNodes; function getInterfaceBaseTypeNodes(node) { var heritageClause = getHeritageClause(node.heritageClauses, 90 /* ExtendsKeyword */); return heritageClause ? heritageClause.types : undefined; } ts.getInterfaceBaseTypeNodes = getInterfaceBaseTypeNodes; function getHeritageClause(clauses, kind) { if (clauses) { for (var _i = 0, clauses_1 = clauses; _i < clauses_1.length; _i++) { var clause = clauses_1[_i]; if (clause.token === kind) { return clause; } } } return undefined; } ts.getHeritageClause = getHeritageClause; function getAncestor(node, kind) { while (node) { if (node.kind === kind) { return node; } node = node.parent; } return undefined; } ts.getAncestor = getAncestor; function isKeyword(token) { return 77 /* FirstKeyword */ <= token && token <= 152 /* LastKeyword */; } ts.isKeyword = isKeyword; function isContextualKeyword(token) { return 122 /* FirstContextualKeyword */ <= token && token <= 152 /* LastContextualKeyword */; } ts.isContextualKeyword = isContextualKeyword; function isNonContextualKeyword(token) { return isKeyword(token) && !isContextualKeyword(token); } ts.isNonContextualKeyword = isNonContextualKeyword; function isFutureReservedKeyword(token) { return 113 /* FirstFutureReservedWord */ <= token && token <= 121 /* LastFutureReservedWord */; } ts.isFutureReservedKeyword = isFutureReservedKeyword; function isStringANonContextualKeyword(name) { var token = ts.stringToToken(name); return token !== undefined && isNonContextualKeyword(token); } ts.isStringANonContextualKeyword = isStringANonContextualKeyword; function isStringAKeyword(name) { var token = ts.stringToToken(name); return token !== undefined && isKeyword(token); } ts.isStringAKeyword = isStringAKeyword; function isIdentifierANonContextualKeyword(_a) { var originalKeywordKind = _a.originalKeywordKind; return !!originalKeywordKind && !isContextualKeyword(originalKeywordKind); } ts.isIdentifierANonContextualKeyword = isIdentifierANonContextualKeyword; function isTrivia(token) { return 2 /* FirstTriviaToken */ <= token && token <= 7 /* LastTriviaToken */; } ts.isTrivia = isTrivia; var FunctionFlags; (function (FunctionFlags) { FunctionFlags[FunctionFlags["Normal"] = 0] = "Normal"; FunctionFlags[FunctionFlags["Generator"] = 1] = "Generator"; FunctionFlags[FunctionFlags["Async"] = 2] = "Async"; FunctionFlags[FunctionFlags["Invalid"] = 4] = "Invalid"; FunctionFlags[FunctionFlags["AsyncGenerator"] = 3] = "AsyncGenerator"; })(FunctionFlags = ts.FunctionFlags || (ts.FunctionFlags = {})); function getFunctionFlags(node) { if (!node) { return 4 /* Invalid */; } var flags = 0 /* Normal */; switch (node.kind) { case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 161 /* MethodDeclaration */: if (node.asteriskToken) { flags |= 1 /* Generator */; } // falls through case 202 /* ArrowFunction */: if (hasModifier(node, 256 /* Async */)) { flags |= 2 /* Async */; } break; } if (!node.body) { flags |= 4 /* Invalid */; } return flags; } ts.getFunctionFlags = getFunctionFlags; function isAsyncFunction(node) { switch (node.kind) { case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 161 /* MethodDeclaration */: return node.body !== undefined && node.asteriskToken === undefined && hasModifier(node, 256 /* Async */); } return false; } ts.isAsyncFunction = isAsyncFunction; function isStringOrNumericLiteralLike(node) { return ts.isStringLiteralLike(node) || ts.isNumericLiteral(node); } ts.isStringOrNumericLiteralLike = isStringOrNumericLiteralLike; function isSignedNumericLiteral(node) { return ts.isPrefixUnaryExpression(node) && (node.operator === 39 /* PlusToken */ || node.operator === 40 /* MinusToken */) && ts.isNumericLiteral(node.operand); } ts.isSignedNumericLiteral = isSignedNumericLiteral; /** * A declaration has a dynamic name if all of the following are true: * 1. The declaration has a computed property name. * 2. The computed name is *not* expressed as a StringLiteral. * 3. The computed name is *not* expressed as a NumericLiteral. * 4. The computed name is *not* expressed as a PlusToken or MinusToken * immediately followed by a NumericLiteral. * 5. The computed name is *not* expressed as `Symbol.`, where `` * is a property of the Symbol constructor that denotes a built-in * Symbol. */ function hasDynamicName(declaration) { var name = ts.getNameOfDeclaration(declaration); return !!name && isDynamicName(name); } ts.hasDynamicName = hasDynamicName; function isDynamicName(name) { if (!(name.kind === 154 /* ComputedPropertyName */ || name.kind === 195 /* ElementAccessExpression */)) { return false; } var expr = ts.isElementAccessExpression(name) ? name.argumentExpression : name.expression; return !isStringOrNumericLiteralLike(expr) && !isSignedNumericLiteral(expr) && !isWellKnownSymbolSyntactically(expr); } ts.isDynamicName = isDynamicName; /** * Checks if the expression is of the form: * Symbol.name * where Symbol is literally the word "Symbol", and name is any identifierName */ function isWellKnownSymbolSyntactically(node) { return ts.isPropertyAccessExpression(node) && isESSymbolIdentifier(node.expression); } ts.isWellKnownSymbolSyntactically = isWellKnownSymbolSyntactically; function getPropertyNameForPropertyNameNode(name) { switch (name.kind) { case 75 /* Identifier */: case 76 /* PrivateIdentifier */: return name.escapedText; case 10 /* StringLiteral */: case 8 /* NumericLiteral */: return ts.escapeLeadingUnderscores(name.text); case 154 /* ComputedPropertyName */: var nameExpression = name.expression; if (isWellKnownSymbolSyntactically(nameExpression)) { return getPropertyNameForKnownSymbolName(ts.idText(nameExpression.name)); } else if (isStringOrNumericLiteralLike(nameExpression)) { return ts.escapeLeadingUnderscores(nameExpression.text); } return undefined; default: return ts.Debug.assertNever(name); } } ts.getPropertyNameForPropertyNameNode = getPropertyNameForPropertyNameNode; function isPropertyNameLiteral(node) { switch (node.kind) { case 75 /* Identifier */: case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 8 /* NumericLiteral */: return true; default: return false; } } ts.isPropertyNameLiteral = isPropertyNameLiteral; function getTextOfIdentifierOrLiteral(node) { return ts.isIdentifierOrPrivateIdentifier(node) ? ts.idText(node) : node.text; } ts.getTextOfIdentifierOrLiteral = getTextOfIdentifierOrLiteral; function getEscapedTextOfIdentifierOrLiteral(node) { return ts.isIdentifierOrPrivateIdentifier(node) ? node.escapedText : ts.escapeLeadingUnderscores(node.text); } ts.getEscapedTextOfIdentifierOrLiteral = getEscapedTextOfIdentifierOrLiteral; function getPropertyNameForUniqueESSymbol(symbol) { return "__@" + ts.getSymbolId(symbol) + "@" + symbol.escapedName; } ts.getPropertyNameForUniqueESSymbol = getPropertyNameForUniqueESSymbol; function getPropertyNameForKnownSymbolName(symbolName) { return "__@" + symbolName; } ts.getPropertyNameForKnownSymbolName = getPropertyNameForKnownSymbolName; function getSymbolNameForPrivateIdentifier(containingClassSymbol, description) { return "__#" + ts.getSymbolId(containingClassSymbol) + "@" + description; } ts.getSymbolNameForPrivateIdentifier = getSymbolNameForPrivateIdentifier; function isKnownSymbol(symbol) { return ts.startsWith(symbol.escapedName, "__@"); } ts.isKnownSymbol = isKnownSymbol; /** * Includes the word "Symbol" with unicode escapes */ function isESSymbolIdentifier(node) { return node.kind === 75 /* Identifier */ && node.escapedText === "Symbol"; } ts.isESSymbolIdentifier = isESSymbolIdentifier; function isPushOrUnshiftIdentifier(node) { return node.escapedText === "push" || node.escapedText === "unshift"; } ts.isPushOrUnshiftIdentifier = isPushOrUnshiftIdentifier; function isParameterDeclaration(node) { var root = getRootDeclaration(node); return root.kind === 156 /* Parameter */; } ts.isParameterDeclaration = isParameterDeclaration; function getRootDeclaration(node) { while (node.kind === 191 /* BindingElement */) { node = node.parent.parent; } return node; } ts.getRootDeclaration = getRootDeclaration; function nodeStartsNewLexicalEnvironment(node) { var kind = node.kind; return kind === 162 /* Constructor */ || kind === 201 /* FunctionExpression */ || kind === 244 /* FunctionDeclaration */ || kind === 202 /* ArrowFunction */ || kind === 161 /* MethodDeclaration */ || kind === 163 /* GetAccessor */ || kind === 164 /* SetAccessor */ || kind === 249 /* ModuleDeclaration */ || kind === 290 /* SourceFile */; } ts.nodeStartsNewLexicalEnvironment = nodeStartsNewLexicalEnvironment; function nodeIsSynthesized(range) { return positionIsSynthesized(range.pos) || positionIsSynthesized(range.end); } ts.nodeIsSynthesized = nodeIsSynthesized; function getOriginalSourceFile(sourceFile) { return ts.getParseTreeNode(sourceFile, ts.isSourceFile) || sourceFile; } ts.getOriginalSourceFile = getOriginalSourceFile; var Associativity; (function (Associativity) { Associativity[Associativity["Left"] = 0] = "Left"; Associativity[Associativity["Right"] = 1] = "Right"; })(Associativity = ts.Associativity || (ts.Associativity = {})); function getExpressionAssociativity(expression) { var operator = getOperator(expression); var hasArguments = expression.kind === 197 /* NewExpression */ && expression.arguments !== undefined; return getOperatorAssociativity(expression.kind, operator, hasArguments); } ts.getExpressionAssociativity = getExpressionAssociativity; function getOperatorAssociativity(kind, operator, hasArguments) { switch (kind) { case 197 /* NewExpression */: return hasArguments ? 0 /* Left */ : 1 /* Right */; case 207 /* PrefixUnaryExpression */: case 204 /* TypeOfExpression */: case 205 /* VoidExpression */: case 203 /* DeleteExpression */: case 206 /* AwaitExpression */: case 210 /* ConditionalExpression */: case 212 /* YieldExpression */: return 1 /* Right */; case 209 /* BinaryExpression */: switch (operator) { case 42 /* AsteriskAsteriskToken */: case 62 /* EqualsToken */: case 63 /* PlusEqualsToken */: case 64 /* MinusEqualsToken */: case 66 /* AsteriskAsteriskEqualsToken */: case 65 /* AsteriskEqualsToken */: case 67 /* SlashEqualsToken */: case 68 /* PercentEqualsToken */: case 69 /* LessThanLessThanEqualsToken */: case 70 /* GreaterThanGreaterThanEqualsToken */: case 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */: case 72 /* AmpersandEqualsToken */: case 74 /* CaretEqualsToken */: case 73 /* BarEqualsToken */: return 1 /* Right */; } } return 0 /* Left */; } ts.getOperatorAssociativity = getOperatorAssociativity; function getExpressionPrecedence(expression) { var operator = getOperator(expression); var hasArguments = expression.kind === 197 /* NewExpression */ && expression.arguments !== undefined; return getOperatorPrecedence(expression.kind, operator, hasArguments); } ts.getExpressionPrecedence = getExpressionPrecedence; function getOperator(expression) { if (expression.kind === 209 /* BinaryExpression */) { return expression.operatorToken.kind; } else if (expression.kind === 207 /* PrefixUnaryExpression */ || expression.kind === 208 /* PostfixUnaryExpression */) { return expression.operator; } else { return expression.kind; } } ts.getOperator = getOperator; function getOperatorPrecedence(nodeKind, operatorKind, hasArguments) { switch (nodeKind) { case 327 /* CommaListExpression */: return 0; case 213 /* SpreadElement */: return 1; case 212 /* YieldExpression */: return 2; case 210 /* ConditionalExpression */: return 4; case 209 /* BinaryExpression */: switch (operatorKind) { case 27 /* CommaToken */: return 0; case 62 /* EqualsToken */: case 63 /* PlusEqualsToken */: case 64 /* MinusEqualsToken */: case 66 /* AsteriskAsteriskEqualsToken */: case 65 /* AsteriskEqualsToken */: case 67 /* SlashEqualsToken */: case 68 /* PercentEqualsToken */: case 69 /* LessThanLessThanEqualsToken */: case 70 /* GreaterThanGreaterThanEqualsToken */: case 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */: case 72 /* AmpersandEqualsToken */: case 74 /* CaretEqualsToken */: case 73 /* BarEqualsToken */: return 3; default: return getBinaryOperatorPrecedence(operatorKind); } case 207 /* PrefixUnaryExpression */: case 204 /* TypeOfExpression */: case 205 /* VoidExpression */: case 203 /* DeleteExpression */: case 206 /* AwaitExpression */: return 16; case 208 /* PostfixUnaryExpression */: return 17; case 196 /* CallExpression */: return 18; case 197 /* NewExpression */: return hasArguments ? 19 : 18; case 198 /* TaggedTemplateExpression */: case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return 19; case 104 /* ThisKeyword */: case 102 /* SuperKeyword */: case 75 /* Identifier */: case 100 /* NullKeyword */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 10 /* StringLiteral */: case 192 /* ArrayLiteralExpression */: case 193 /* ObjectLiteralExpression */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 214 /* ClassExpression */: case 266 /* JsxElement */: case 267 /* JsxSelfClosingElement */: case 270 /* JsxFragment */: case 13 /* RegularExpressionLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 211 /* TemplateExpression */: case 200 /* ParenthesizedExpression */: case 215 /* OmittedExpression */: return 20; default: return -1; } } ts.getOperatorPrecedence = getOperatorPrecedence; function getBinaryOperatorPrecedence(kind) { switch (kind) { case 60 /* QuestionQuestionToken */: return 4; case 56 /* BarBarToken */: return 5; case 55 /* AmpersandAmpersandToken */: return 6; case 51 /* BarToken */: return 7; case 52 /* CaretToken */: return 8; case 50 /* AmpersandToken */: return 9; case 34 /* EqualsEqualsToken */: case 35 /* ExclamationEqualsToken */: case 36 /* EqualsEqualsEqualsToken */: case 37 /* ExclamationEqualsEqualsToken */: return 10; case 29 /* LessThanToken */: case 31 /* GreaterThanToken */: case 32 /* LessThanEqualsToken */: case 33 /* GreaterThanEqualsToken */: case 98 /* InstanceOfKeyword */: case 97 /* InKeyword */: case 123 /* AsKeyword */: return 11; case 47 /* LessThanLessThanToken */: case 48 /* GreaterThanGreaterThanToken */: case 49 /* GreaterThanGreaterThanGreaterThanToken */: return 12; case 39 /* PlusToken */: case 40 /* MinusToken */: return 13; case 41 /* AsteriskToken */: case 43 /* SlashToken */: case 44 /* PercentToken */: return 14; case 42 /* AsteriskAsteriskToken */: return 15; } // -1 is lower than all other precedences. Returning it will cause binary expression // parsing to stop. return -1; } ts.getBinaryOperatorPrecedence = getBinaryOperatorPrecedence; function createDiagnosticCollection() { var nonFileDiagnostics = []; // See GH#19873 var filesWithDiagnostics = []; var fileDiagnostics = ts.createMap(); var hasReadNonFileDiagnostics = false; return { add: add, lookup: lookup, getGlobalDiagnostics: getGlobalDiagnostics, getDiagnostics: getDiagnostics, reattachFileDiagnostics: reattachFileDiagnostics }; function reattachFileDiagnostics(newFile) { ts.forEach(fileDiagnostics.get(newFile.fileName), function (diagnostic) { return diagnostic.file = newFile; }); } function lookup(diagnostic) { var diagnostics; if (diagnostic.file) { diagnostics = fileDiagnostics.get(diagnostic.file.fileName); } else { diagnostics = nonFileDiagnostics; } if (!diagnostics) { return undefined; } var result = ts.binarySearch(diagnostics, diagnostic, ts.identity, compareDiagnosticsSkipRelatedInformation); if (result >= 0) { return diagnostics[result]; } return undefined; } function add(diagnostic) { var diagnostics; if (diagnostic.file) { diagnostics = fileDiagnostics.get(diagnostic.file.fileName); if (!diagnostics) { diagnostics = []; // See GH#19873 fileDiagnostics.set(diagnostic.file.fileName, diagnostics); ts.insertSorted(filesWithDiagnostics, diagnostic.file.fileName, ts.compareStringsCaseSensitive); } } else { // If we've already read the non-file diagnostics, do not modify the existing array. if (hasReadNonFileDiagnostics) { hasReadNonFileDiagnostics = false; nonFileDiagnostics = nonFileDiagnostics.slice(); } diagnostics = nonFileDiagnostics; } ts.insertSorted(diagnostics, diagnostic, compareDiagnostics); } function getGlobalDiagnostics() { hasReadNonFileDiagnostics = true; return nonFileDiagnostics; } function getDiagnostics(fileName) { if (fileName) { return fileDiagnostics.get(fileName) || []; } var fileDiags = ts.flatMapToMutable(filesWithDiagnostics, function (f) { return fileDiagnostics.get(f); }); if (!nonFileDiagnostics.length) { return fileDiags; } fileDiags.unshift.apply(fileDiags, nonFileDiagnostics); return fileDiags; } } ts.createDiagnosticCollection = createDiagnosticCollection; var templateSubstitutionRegExp = /\$\{/g; function escapeTemplateSubstitution(str) { return str.replace(templateSubstitutionRegExp, "\\${"); } /** @internal */ function hasInvalidEscape(template) { return template && !!(ts.isNoSubstitutionTemplateLiteral(template) ? template.templateFlags : (template.head.templateFlags || ts.some(template.templateSpans, function (span) { return !!span.literal.templateFlags; }))); } ts.hasInvalidEscape = hasInvalidEscape; // This consists of the first 19 unprintable ASCII characters, canonical escapes, lineSeparator, // paragraphSeparator, and nextLine. The latter three are just desirable to suppress new lines in // the language service. These characters should be escaped when printing, and if any characters are added, // the map below must be updated. Note that this regexp *does not* include the 'delete' character. // There is no reason for this other than that JSON.stringify does not handle it either. var doubleQuoteEscapedCharsRegExp = /[\\\"\u0000-\u001f\t\v\f\b\r\n\u2028\u2029\u0085]/g; var singleQuoteEscapedCharsRegExp = /[\\\'\u0000-\u001f\t\v\f\b\r\n\u2028\u2029\u0085]/g; // Template strings should be preserved as much as possible var backtickQuoteEscapedCharsRegExp = /[\\`]/g; var escapedCharsMap = ts.createMapFromTemplate({ "\t": "\\t", "\v": "\\v", "\f": "\\f", "\b": "\\b", "\r": "\\r", "\n": "\\n", "\\": "\\\\", "\"": "\\\"", "\'": "\\\'", "\`": "\\\`", "\u2028": "\\u2028", "\u2029": "\\u2029", "\u0085": "\\u0085" // nextLine }); function encodeUtf16EscapeSequence(charCode) { var hexCharCode = charCode.toString(16).toUpperCase(); var paddedHexCode = ("0000" + hexCharCode).slice(-4); return "\\u" + paddedHexCode; } function getReplacement(c, offset, input) { if (c.charCodeAt(0) === 0 /* nullCharacter */) { var lookAhead = input.charCodeAt(offset + c.length); if (lookAhead >= 48 /* _0 */ && lookAhead <= 57 /* _9 */) { // If the null character is followed by digits, print as a hex escape to prevent the result from parsing as an octal (which is forbidden in strict mode) return "\\x00"; } // Otherwise, keep printing a literal \0 for the null character return "\\0"; } return escapedCharsMap.get(c) || encodeUtf16EscapeSequence(c.charCodeAt(0)); } /** * Based heavily on the abstract 'Quote'/'QuoteJSONString' operation from ECMA-262 (24.3.2.2), * but augmented for a few select characters (e.g. lineSeparator, paragraphSeparator, nextLine) * Note that this doesn't actually wrap the input in double quotes. */ function escapeString(s, quoteChar) { var escapedCharsRegExp = quoteChar === 96 /* backtick */ ? backtickQuoteEscapedCharsRegExp : quoteChar === 39 /* singleQuote */ ? singleQuoteEscapedCharsRegExp : doubleQuoteEscapedCharsRegExp; return s.replace(escapedCharsRegExp, getReplacement); } ts.escapeString = escapeString; var nonAsciiCharacters = /[^\u0000-\u007F]/g; function escapeNonAsciiString(s, quoteChar) { s = escapeString(s, quoteChar); // Replace non-ASCII characters with '\uNNNN' escapes if any exist. // Otherwise just return the original string. return nonAsciiCharacters.test(s) ? s.replace(nonAsciiCharacters, function (c) { return encodeUtf16EscapeSequence(c.charCodeAt(0)); }) : s; } ts.escapeNonAsciiString = escapeNonAsciiString; // This consists of the first 19 unprintable ASCII characters, JSX canonical escapes, lineSeparator, // paragraphSeparator, and nextLine. The latter three are just desirable to suppress new lines in // the language service. These characters should be escaped when printing, and if any characters are added, // the map below must be updated. var jsxDoubleQuoteEscapedCharsRegExp = /[\"\u0000-\u001f\u2028\u2029\u0085]/g; var jsxSingleQuoteEscapedCharsRegExp = /[\'\u0000-\u001f\u2028\u2029\u0085]/g; var jsxEscapedCharsMap = ts.createMapFromTemplate({ "\"": """, "\'": "'" }); function encodeJsxCharacterEntity(charCode) { var hexCharCode = charCode.toString(16).toUpperCase(); return "&#x" + hexCharCode + ";"; } function getJsxAttributeStringReplacement(c) { if (c.charCodeAt(0) === 0 /* nullCharacter */) { return "�"; } return jsxEscapedCharsMap.get(c) || encodeJsxCharacterEntity(c.charCodeAt(0)); } function escapeJsxAttributeString(s, quoteChar) { var escapedCharsRegExp = quoteChar === 39 /* singleQuote */ ? jsxSingleQuoteEscapedCharsRegExp : jsxDoubleQuoteEscapedCharsRegExp; return s.replace(escapedCharsRegExp, getJsxAttributeStringReplacement); } ts.escapeJsxAttributeString = escapeJsxAttributeString; /** * Strip off existed surrounding single quotes, double quotes, or backticks from a given string * * @return non-quoted string */ function stripQuotes(name) { var length = name.length; if (length >= 2 && name.charCodeAt(0) === name.charCodeAt(length - 1) && isQuoteOrBacktick(name.charCodeAt(0))) { return name.substring(1, length - 1); } return name; } ts.stripQuotes = stripQuotes; function isQuoteOrBacktick(charCode) { return charCode === 39 /* singleQuote */ || charCode === 34 /* doubleQuote */ || charCode === 96 /* backtick */; } function isIntrinsicJsxName(name) { var ch = name.charCodeAt(0); return (ch >= 97 /* a */ && ch <= 122 /* z */) || ts.stringContains(name, "-"); } ts.isIntrinsicJsxName = isIntrinsicJsxName; var indentStrings = ["", " "]; function getIndentString(level) { if (indentStrings[level] === undefined) { indentStrings[level] = getIndentString(level - 1) + indentStrings[1]; } return indentStrings[level]; } ts.getIndentString = getIndentString; function getIndentSize() { return indentStrings[1].length; } ts.getIndentSize = getIndentSize; function createTextWriter(newLine) { var output; var indent; var lineStart; var lineCount; var linePos; var hasTrailingComment = false; function updateLineCountAndPosFor(s) { var lineStartsOfS = ts.computeLineStarts(s); if (lineStartsOfS.length > 1) { lineCount = lineCount + lineStartsOfS.length - 1; linePos = output.length - s.length + ts.last(lineStartsOfS); lineStart = (linePos - output.length) === 0; } else { lineStart = false; } } function writeText(s) { if (s && s.length) { if (lineStart) { s = getIndentString(indent) + s; lineStart = false; } output += s; updateLineCountAndPosFor(s); } } function write(s) { if (s) hasTrailingComment = false; writeText(s); } function writeComment(s) { if (s) hasTrailingComment = true; writeText(s); } function reset() { output = ""; indent = 0; lineStart = true; lineCount = 0; linePos = 0; hasTrailingComment = false; } function rawWrite(s) { if (s !== undefined) { output += s; updateLineCountAndPosFor(s); hasTrailingComment = false; } } function writeLiteral(s) { if (s && s.length) { write(s); } } function writeLine(force) { if (!lineStart || force) { output += newLine; lineCount++; linePos = output.length; lineStart = true; hasTrailingComment = false; } } function getTextPosWithWriteLine() { return lineStart ? output.length : (output.length + newLine.length); } reset(); return { write: write, rawWrite: rawWrite, writeLiteral: writeLiteral, writeLine: writeLine, increaseIndent: function () { indent++; }, decreaseIndent: function () { indent--; }, getIndent: function () { return indent; }, getTextPos: function () { return output.length; }, getLine: function () { return lineCount; }, getColumn: function () { return lineStart ? indent * getIndentSize() : output.length - linePos; }, getText: function () { return output; }, isAtStartOfLine: function () { return lineStart; }, hasTrailingComment: function () { return hasTrailingComment; }, hasTrailingWhitespace: function () { return !!output.length && ts.isWhiteSpaceLike(output.charCodeAt(output.length - 1)); }, clear: reset, reportInaccessibleThisError: ts.noop, reportPrivateInBaseOfClassExpression: ts.noop, reportInaccessibleUniqueSymbolError: ts.noop, trackSymbol: ts.noop, writeKeyword: write, writeOperator: write, writeParameter: write, writeProperty: write, writePunctuation: write, writeSpace: write, writeStringLiteral: write, writeSymbol: function (s, _) { return write(s); }, writeTrailingSemicolon: write, writeComment: writeComment, getTextPosWithWriteLine: getTextPosWithWriteLine }; } ts.createTextWriter = createTextWriter; function getTrailingSemicolonDeferringWriter(writer) { var pendingTrailingSemicolon = false; function commitPendingTrailingSemicolon() { if (pendingTrailingSemicolon) { writer.writeTrailingSemicolon(";"); pendingTrailingSemicolon = false; } } return __assign(__assign({}, writer), { writeTrailingSemicolon: function () { pendingTrailingSemicolon = true; }, writeLiteral: function (s) { commitPendingTrailingSemicolon(); writer.writeLiteral(s); }, writeStringLiteral: function (s) { commitPendingTrailingSemicolon(); writer.writeStringLiteral(s); }, writeSymbol: function (s, sym) { commitPendingTrailingSemicolon(); writer.writeSymbol(s, sym); }, writePunctuation: function (s) { commitPendingTrailingSemicolon(); writer.writePunctuation(s); }, writeKeyword: function (s) { commitPendingTrailingSemicolon(); writer.writeKeyword(s); }, writeOperator: function (s) { commitPendingTrailingSemicolon(); writer.writeOperator(s); }, writeParameter: function (s) { commitPendingTrailingSemicolon(); writer.writeParameter(s); }, writeSpace: function (s) { commitPendingTrailingSemicolon(); writer.writeSpace(s); }, writeProperty: function (s) { commitPendingTrailingSemicolon(); writer.writeProperty(s); }, writeComment: function (s) { commitPendingTrailingSemicolon(); writer.writeComment(s); }, writeLine: function () { commitPendingTrailingSemicolon(); writer.writeLine(); }, increaseIndent: function () { commitPendingTrailingSemicolon(); writer.increaseIndent(); }, decreaseIndent: function () { commitPendingTrailingSemicolon(); writer.decreaseIndent(); } }); } ts.getTrailingSemicolonDeferringWriter = getTrailingSemicolonDeferringWriter; function hostUsesCaseSensitiveFileNames(host) { return host.useCaseSensitiveFileNames ? host.useCaseSensitiveFileNames() : false; } ts.hostUsesCaseSensitiveFileNames = hostUsesCaseSensitiveFileNames; function hostGetCanonicalFileName(host) { return ts.createGetCanonicalFileName(hostUsesCaseSensitiveFileNames(host)); } ts.hostGetCanonicalFileName = hostGetCanonicalFileName; function getResolvedExternalModuleName(host, file, referenceFile) { return file.moduleName || getExternalModuleNameFromPath(host, file.fileName, referenceFile && referenceFile.fileName); } ts.getResolvedExternalModuleName = getResolvedExternalModuleName; function getExternalModuleNameFromDeclaration(host, resolver, declaration) { var file = resolver.getExternalModuleFileFromDeclaration(declaration); if (!file || file.isDeclarationFile) { return undefined; } return getResolvedExternalModuleName(host, file); } ts.getExternalModuleNameFromDeclaration = getExternalModuleNameFromDeclaration; /** * Resolves a local path to a path which is absolute to the base of the emit */ function getExternalModuleNameFromPath(host, fileName, referencePath) { var getCanonicalFileName = function (f) { return host.getCanonicalFileName(f); }; var dir = ts.toPath(referencePath ? ts.getDirectoryPath(referencePath) : host.getCommonSourceDirectory(), host.getCurrentDirectory(), getCanonicalFileName); var filePath = ts.getNormalizedAbsolutePath(fileName, host.getCurrentDirectory()); var relativePath = ts.getRelativePathToDirectoryOrUrl(dir, filePath, dir, getCanonicalFileName, /*isAbsolutePathAnUrl*/ false); var extensionless = removeFileExtension(relativePath); return referencePath ? ts.ensurePathIsNonModuleName(extensionless) : extensionless; } ts.getExternalModuleNameFromPath = getExternalModuleNameFromPath; function getOwnEmitOutputFilePath(fileName, host, extension) { var compilerOptions = host.getCompilerOptions(); var emitOutputFilePathWithoutExtension; if (compilerOptions.outDir) { emitOutputFilePathWithoutExtension = removeFileExtension(getSourceFilePathInNewDir(fileName, host, compilerOptions.outDir)); } else { emitOutputFilePathWithoutExtension = removeFileExtension(fileName); } return emitOutputFilePathWithoutExtension + extension; } ts.getOwnEmitOutputFilePath = getOwnEmitOutputFilePath; function getDeclarationEmitOutputFilePath(fileName, host) { return getDeclarationEmitOutputFilePathWorker(fileName, host.getCompilerOptions(), host.getCurrentDirectory(), host.getCommonSourceDirectory(), function (f) { return host.getCanonicalFileName(f); }); } ts.getDeclarationEmitOutputFilePath = getDeclarationEmitOutputFilePath; function getDeclarationEmitOutputFilePathWorker(fileName, options, currentDirectory, commonSourceDirectory, getCanonicalFileName) { var outputDir = options.declarationDir || options.outDir; // Prefer declaration folder if specified var path = outputDir ? getSourceFilePathInNewDirWorker(fileName, outputDir, currentDirectory, commonSourceDirectory, getCanonicalFileName) : fileName; return removeFileExtension(path) + ".d.ts" /* Dts */; } ts.getDeclarationEmitOutputFilePathWorker = getDeclarationEmitOutputFilePathWorker; /** * Gets the source files that are expected to have an emit output. * * Originally part of `forEachExpectedEmitFile`, this functionality was extracted to support * transformations. * * @param host An EmitHost. * @param targetSourceFile An optional target source file to emit. */ function getSourceFilesToEmit(host, targetSourceFile, forceDtsEmit) { var options = host.getCompilerOptions(); if (options.outFile || options.out) { var moduleKind = getEmitModuleKind(options); var moduleEmitEnabled_1 = options.emitDeclarationOnly || moduleKind === ts.ModuleKind.AMD || moduleKind === ts.ModuleKind.System; // Can emit only sources that are not declaration file and are either non module code or module with --module or --target es6 specified return ts.filter(host.getSourceFiles(), function (sourceFile) { return (moduleEmitEnabled_1 || !ts.isExternalModule(sourceFile)) && sourceFileMayBeEmitted(sourceFile, host, forceDtsEmit); }); } else { var sourceFiles = targetSourceFile === undefined ? host.getSourceFiles() : [targetSourceFile]; return ts.filter(sourceFiles, function (sourceFile) { return sourceFileMayBeEmitted(sourceFile, host, forceDtsEmit); }); } } ts.getSourceFilesToEmit = getSourceFilesToEmit; /** Don't call this for `--outFile`, just for `--outDir` or plain emit. `--outFile` needs additional checks. */ function sourceFileMayBeEmitted(sourceFile, host, forceDtsEmit) { var options = host.getCompilerOptions(); return !(options.noEmitForJsFiles && isSourceFileJS(sourceFile)) && !sourceFile.isDeclarationFile && !host.isSourceFileFromExternalLibrary(sourceFile) && !(isJsonSourceFile(sourceFile) && host.getResolvedProjectReferenceToRedirect(sourceFile.fileName)) && (forceDtsEmit || !host.isSourceOfProjectReferenceRedirect(sourceFile.fileName)); } ts.sourceFileMayBeEmitted = sourceFileMayBeEmitted; function getSourceFilePathInNewDir(fileName, host, newDirPath) { return getSourceFilePathInNewDirWorker(fileName, newDirPath, host.getCurrentDirectory(), host.getCommonSourceDirectory(), function (f) { return host.getCanonicalFileName(f); }); } ts.getSourceFilePathInNewDir = getSourceFilePathInNewDir; function getSourceFilePathInNewDirWorker(fileName, newDirPath, currentDirectory, commonSourceDirectory, getCanonicalFileName) { var sourceFilePath = ts.getNormalizedAbsolutePath(fileName, currentDirectory); var isSourceFileInCommonSourceDirectory = getCanonicalFileName(sourceFilePath).indexOf(getCanonicalFileName(commonSourceDirectory)) === 0; sourceFilePath = isSourceFileInCommonSourceDirectory ? sourceFilePath.substring(commonSourceDirectory.length) : sourceFilePath; return ts.combinePaths(newDirPath, sourceFilePath); } ts.getSourceFilePathInNewDirWorker = getSourceFilePathInNewDirWorker; function writeFile(host, diagnostics, fileName, data, writeByteOrderMark, sourceFiles) { host.writeFile(fileName, data, writeByteOrderMark, function (hostErrorMessage) { diagnostics.add(createCompilerDiagnostic(ts.Diagnostics.Could_not_write_file_0_Colon_1, fileName, hostErrorMessage)); }, sourceFiles); } ts.writeFile = writeFile; function ensureDirectoriesExist(directoryPath, createDirectory, directoryExists) { if (directoryPath.length > ts.getRootLength(directoryPath) && !directoryExists(directoryPath)) { var parentDirectory = ts.getDirectoryPath(directoryPath); ensureDirectoriesExist(parentDirectory, createDirectory, directoryExists); createDirectory(directoryPath); } } function writeFileEnsuringDirectories(path, data, writeByteOrderMark, writeFile, createDirectory, directoryExists) { // PERF: Checking for directory existence is expensive. Instead, assume the directory exists // and fall back to creating it if the file write fails. try { writeFile(path, data, writeByteOrderMark); } catch (_a) { ensureDirectoriesExist(ts.getDirectoryPath(ts.normalizePath(path)), createDirectory, directoryExists); writeFile(path, data, writeByteOrderMark); } } ts.writeFileEnsuringDirectories = writeFileEnsuringDirectories; function getLineOfLocalPosition(sourceFile, pos) { var lineStarts = ts.getLineStarts(sourceFile); return ts.computeLineOfPosition(lineStarts, pos); } ts.getLineOfLocalPosition = getLineOfLocalPosition; function getLineOfLocalPositionFromLineMap(lineMap, pos) { return ts.computeLineOfPosition(lineMap, pos); } ts.getLineOfLocalPositionFromLineMap = getLineOfLocalPositionFromLineMap; function getFirstConstructorWithBody(node) { return ts.find(node.members, function (member) { return ts.isConstructorDeclaration(member) && nodeIsPresent(member.body); }); } ts.getFirstConstructorWithBody = getFirstConstructorWithBody; function getSetAccessorValueParameter(accessor) { if (accessor && accessor.parameters.length > 0) { var hasThis = accessor.parameters.length === 2 && parameterIsThisKeyword(accessor.parameters[0]); return accessor.parameters[hasThis ? 1 : 0]; } } ts.getSetAccessorValueParameter = getSetAccessorValueParameter; /** Get the type annotation for the value parameter. */ function getSetAccessorTypeAnnotationNode(accessor) { var parameter = getSetAccessorValueParameter(accessor); return parameter && parameter.type; } ts.getSetAccessorTypeAnnotationNode = getSetAccessorTypeAnnotationNode; function getThisParameter(signature) { // callback tags do not currently support this parameters if (signature.parameters.length && !ts.isJSDocSignature(signature)) { var thisParameter = signature.parameters[0]; if (parameterIsThisKeyword(thisParameter)) { return thisParameter; } } } ts.getThisParameter = getThisParameter; function parameterIsThisKeyword(parameter) { return isThisIdentifier(parameter.name); } ts.parameterIsThisKeyword = parameterIsThisKeyword; function isThisIdentifier(node) { return !!node && node.kind === 75 /* Identifier */ && identifierIsThisKeyword(node); } ts.isThisIdentifier = isThisIdentifier; function identifierIsThisKeyword(id) { return id.originalKeywordKind === 104 /* ThisKeyword */; } ts.identifierIsThisKeyword = identifierIsThisKeyword; function getAllAccessorDeclarations(declarations, accessor) { // TODO: GH#18217 var firstAccessor; var secondAccessor; var getAccessor; var setAccessor; if (hasDynamicName(accessor)) { firstAccessor = accessor; if (accessor.kind === 163 /* GetAccessor */) { getAccessor = accessor; } else if (accessor.kind === 164 /* SetAccessor */) { setAccessor = accessor; } else { ts.Debug.fail("Accessor has wrong kind"); } } else { ts.forEach(declarations, function (member) { if (ts.isAccessor(member) && hasModifier(member, 32 /* Static */) === hasModifier(accessor, 32 /* Static */)) { var memberName = getPropertyNameForPropertyNameNode(member.name); var accessorName = getPropertyNameForPropertyNameNode(accessor.name); if (memberName === accessorName) { if (!firstAccessor) { firstAccessor = member; } else if (!secondAccessor) { secondAccessor = member; } if (member.kind === 163 /* GetAccessor */ && !getAccessor) { // eslint-disable-next-line getAccessor = member; } if (member.kind === 164 /* SetAccessor */ && !setAccessor) { // eslint-disable-next-line setAccessor = member; } } } }); } return { firstAccessor: firstAccessor, secondAccessor: secondAccessor, getAccessor: getAccessor, setAccessor: setAccessor }; } ts.getAllAccessorDeclarations = getAllAccessorDeclarations; /** * Gets the effective type annotation of a variable, parameter, or property. If the node was * parsed in a JavaScript file, gets the type annotation from JSDoc. Also gets the type of * functions only the JSDoc case. */ function getEffectiveTypeAnnotationNode(node) { if (!isInJSFile(node) && ts.isFunctionDeclaration(node)) return undefined; var type = node.type; if (type || !isInJSFile(node)) return type; return ts.isJSDocPropertyLikeTag(node) ? node.typeExpression && node.typeExpression.type : ts.getJSDocType(node); } ts.getEffectiveTypeAnnotationNode = getEffectiveTypeAnnotationNode; function getTypeAnnotationNode(node) { return node.type; } ts.getTypeAnnotationNode = getTypeAnnotationNode; /** * Gets the effective return type annotation of a signature. If the node was parsed in a * JavaScript file, gets the return type annotation from JSDoc. */ function getEffectiveReturnTypeNode(node) { return ts.isJSDocSignature(node) ? node.type && node.type.typeExpression && node.type.typeExpression.type : node.type || (isInJSFile(node) ? ts.getJSDocReturnType(node) : undefined); } ts.getEffectiveReturnTypeNode = getEffectiveReturnTypeNode; function getJSDocTypeParameterDeclarations(node) { return ts.flatMap(ts.getJSDocTags(node), function (tag) { return isNonTypeAliasTemplate(tag) ? tag.typeParameters : undefined; }); } ts.getJSDocTypeParameterDeclarations = getJSDocTypeParameterDeclarations; /** template tags are only available when a typedef isn't already using them */ function isNonTypeAliasTemplate(tag) { return ts.isJSDocTemplateTag(tag) && !(tag.parent.kind === 303 /* JSDocComment */ && tag.parent.tags.some(isJSDocTypeAlias)); } /** * Gets the effective type annotation of the value parameter of a set accessor. If the node * was parsed in a JavaScript file, gets the type annotation from JSDoc. */ function getEffectiveSetAccessorTypeAnnotationNode(node) { var parameter = getSetAccessorValueParameter(node); return parameter && getEffectiveTypeAnnotationNode(parameter); } ts.getEffectiveSetAccessorTypeAnnotationNode = getEffectiveSetAccessorTypeAnnotationNode; function emitNewLineBeforeLeadingComments(lineMap, writer, node, leadingComments) { emitNewLineBeforeLeadingCommentsOfPosition(lineMap, writer, node.pos, leadingComments); } ts.emitNewLineBeforeLeadingComments = emitNewLineBeforeLeadingComments; function emitNewLineBeforeLeadingCommentsOfPosition(lineMap, writer, pos, leadingComments) { // If the leading comments start on different line than the start of node, write new line if (leadingComments && leadingComments.length && pos !== leadingComments[0].pos && getLineOfLocalPositionFromLineMap(lineMap, pos) !== getLineOfLocalPositionFromLineMap(lineMap, leadingComments[0].pos)) { writer.writeLine(); } } ts.emitNewLineBeforeLeadingCommentsOfPosition = emitNewLineBeforeLeadingCommentsOfPosition; function emitNewLineBeforeLeadingCommentOfPosition(lineMap, writer, pos, commentPos) { // If the leading comments start on different line than the start of node, write new line if (pos !== commentPos && getLineOfLocalPositionFromLineMap(lineMap, pos) !== getLineOfLocalPositionFromLineMap(lineMap, commentPos)) { writer.writeLine(); } } ts.emitNewLineBeforeLeadingCommentOfPosition = emitNewLineBeforeLeadingCommentOfPosition; function emitComments(text, lineMap, writer, comments, leadingSeparator, trailingSeparator, newLine, writeComment) { if (comments && comments.length > 0) { if (leadingSeparator) { writer.writeSpace(" "); } var emitInterveningSeparator = false; for (var _i = 0, comments_1 = comments; _i < comments_1.length; _i++) { var comment = comments_1[_i]; if (emitInterveningSeparator) { writer.writeSpace(" "); emitInterveningSeparator = false; } writeComment(text, lineMap, writer, comment.pos, comment.end, newLine); if (comment.hasTrailingNewLine) { writer.writeLine(); } else { emitInterveningSeparator = true; } } if (emitInterveningSeparator && trailingSeparator) { writer.writeSpace(" "); } } } ts.emitComments = emitComments; /** * Detached comment is a comment at the top of file or function body that is separated from * the next statement by space. */ function emitDetachedComments(text, lineMap, writer, writeComment, node, newLine, removeComments) { var leadingComments; var currentDetachedCommentInfo; if (removeComments) { // removeComments is true, only reserve pinned comment at the top of file // For example: // /*! Pinned Comment */ // // var x = 10; if (node.pos === 0) { leadingComments = ts.filter(ts.getLeadingCommentRanges(text, node.pos), isPinnedCommentLocal); } } else { // removeComments is false, just get detached as normal and bypass the process to filter comment leadingComments = ts.getLeadingCommentRanges(text, node.pos); } if (leadingComments) { var detachedComments = []; var lastComment = void 0; for (var _i = 0, leadingComments_1 = leadingComments; _i < leadingComments_1.length; _i++) { var comment = leadingComments_1[_i]; if (lastComment) { var lastCommentLine = getLineOfLocalPositionFromLineMap(lineMap, lastComment.end); var commentLine = getLineOfLocalPositionFromLineMap(lineMap, comment.pos); if (commentLine >= lastCommentLine + 2) { // There was a blank line between the last comment and this comment. This // comment is not part of the copyright comments. Return what we have so // far. break; } } detachedComments.push(comment); lastComment = comment; } if (detachedComments.length) { // All comments look like they could have been part of the copyright header. Make // sure there is at least one blank line between it and the node. If not, it's not // a copyright header. var lastCommentLine = getLineOfLocalPositionFromLineMap(lineMap, ts.last(detachedComments).end); var nodeLine = getLineOfLocalPositionFromLineMap(lineMap, ts.skipTrivia(text, node.pos)); if (nodeLine >= lastCommentLine + 2) { // Valid detachedComments emitNewLineBeforeLeadingComments(lineMap, writer, node, leadingComments); emitComments(text, lineMap, writer, detachedComments, /*leadingSeparator*/ false, /*trailingSeparator*/ true, newLine, writeComment); currentDetachedCommentInfo = { nodePos: node.pos, detachedCommentEndPos: ts.last(detachedComments).end }; } } } return currentDetachedCommentInfo; function isPinnedCommentLocal(comment) { return isPinnedComment(text, comment.pos); } } ts.emitDetachedComments = emitDetachedComments; function writeCommentRange(text, lineMap, writer, commentPos, commentEnd, newLine) { if (text.charCodeAt(commentPos + 1) === 42 /* asterisk */) { var firstCommentLineAndCharacter = ts.computeLineAndCharacterOfPosition(lineMap, commentPos); var lineCount = lineMap.length; var firstCommentLineIndent = void 0; for (var pos = commentPos, currentLine = firstCommentLineAndCharacter.line; pos < commentEnd; currentLine++) { var nextLineStart = (currentLine + 1) === lineCount ? text.length + 1 : lineMap[currentLine + 1]; if (pos !== commentPos) { // If we are not emitting first line, we need to write the spaces to adjust the alignment if (firstCommentLineIndent === undefined) { firstCommentLineIndent = calculateIndent(text, lineMap[firstCommentLineAndCharacter.line], commentPos); } // These are number of spaces writer is going to write at current indent var currentWriterIndentSpacing = writer.getIndent() * getIndentSize(); // Number of spaces we want to be writing // eg: Assume writer indent // module m { // /* starts at character 9 this is line 1 // * starts at character pos 4 line --1 = 8 - 8 + 3 // More left indented comment */ --2 = 8 - 8 + 2 // class c { } // } // module m { // /* this is line 1 -- Assume current writer indent 8 // * line --3 = 8 - 4 + 5 // More right indented comment */ --4 = 8 - 4 + 11 // class c { } // } var spacesToEmit = currentWriterIndentSpacing - firstCommentLineIndent + calculateIndent(text, pos, nextLineStart); if (spacesToEmit > 0) { var numberOfSingleSpacesToEmit = spacesToEmit % getIndentSize(); var indentSizeSpaceString = getIndentString((spacesToEmit - numberOfSingleSpacesToEmit) / getIndentSize()); // Write indent size string ( in eg 1: = "", 2: "" , 3: string with 8 spaces 4: string with 12 spaces writer.rawWrite(indentSizeSpaceString); // Emit the single spaces (in eg: 1: 3 spaces, 2: 2 spaces, 3: 1 space, 4: 3 spaces) while (numberOfSingleSpacesToEmit) { writer.rawWrite(" "); numberOfSingleSpacesToEmit--; } } else { // No spaces to emit write empty string writer.rawWrite(""); } } // Write the comment line text writeTrimmedCurrentLine(text, commentEnd, writer, newLine, pos, nextLineStart); pos = nextLineStart; } } else { // Single line comment of style //.... writer.writeComment(text.substring(commentPos, commentEnd)); } } ts.writeCommentRange = writeCommentRange; function writeTrimmedCurrentLine(text, commentEnd, writer, newLine, pos, nextLineStart) { var end = Math.min(commentEnd, nextLineStart - 1); var currentLineText = text.substring(pos, end).replace(/^\s+|\s+$/g, ""); if (currentLineText) { // trimmed forward and ending spaces text writer.writeComment(currentLineText); if (end !== commentEnd) { writer.writeLine(); } } else { // Empty string - make sure we write empty line writer.rawWrite(newLine); } } function calculateIndent(text, pos, end) { var currentLineIndent = 0; for (; pos < end && ts.isWhiteSpaceSingleLine(text.charCodeAt(pos)); pos++) { if (text.charCodeAt(pos) === 9 /* tab */) { // Tabs = TabSize = indent size and go to next tabStop currentLineIndent += getIndentSize() - (currentLineIndent % getIndentSize()); } else { // Single space currentLineIndent++; } } return currentLineIndent; } function hasModifiers(node) { return getModifierFlags(node) !== 0 /* None */; } ts.hasModifiers = hasModifiers; function hasModifier(node, flags) { return !!getSelectedModifierFlags(node, flags); } ts.hasModifier = hasModifier; function hasStaticModifier(node) { return hasModifier(node, 32 /* Static */); } ts.hasStaticModifier = hasStaticModifier; function hasReadonlyModifier(node) { return hasModifier(node, 64 /* Readonly */); } ts.hasReadonlyModifier = hasReadonlyModifier; function getSelectedModifierFlags(node, flags) { return getModifierFlags(node) & flags; } ts.getSelectedModifierFlags = getSelectedModifierFlags; function getModifierFlags(node) { if (node.kind >= 0 /* FirstToken */ && node.kind <= 152 /* LastToken */) { return 0 /* None */; } if (node.modifierFlagsCache & 536870912 /* HasComputedFlags */) { return node.modifierFlagsCache & ~536870912 /* HasComputedFlags */; } var flags = getModifierFlagsNoCache(node); node.modifierFlagsCache = flags | 536870912 /* HasComputedFlags */; return flags; } ts.getModifierFlags = getModifierFlags; function getModifierFlagsNoCache(node) { var flags = 0 /* None */; if (node.modifiers) { for (var _i = 0, _a = node.modifiers; _i < _a.length; _i++) { var modifier = _a[_i]; flags |= modifierToFlag(modifier.kind); } } if (isInJSFile(node) && !!node.parent) { // getModifierFlagsNoCache should only be called when parent pointers are set, // or when !(node.flags & NodeFlags.Synthesized) && node.kind !== SyntaxKind.SourceFile) var tags = (ts.getJSDocPublicTag(node) ? 4 /* Public */ : 0 /* None */) | (ts.getJSDocPrivateTag(node) ? 8 /* Private */ : 0 /* None */) | (ts.getJSDocProtectedTag(node) ? 16 /* Protected */ : 0 /* None */) | (ts.getJSDocReadonlyTag(node) ? 64 /* Readonly */ : 0 /* None */); flags |= tags; } if (node.flags & 4 /* NestedNamespace */ || (node.kind === 75 /* Identifier */ && node.isInJSDocNamespace)) { flags |= 1 /* Export */; } return flags; } ts.getModifierFlagsNoCache = getModifierFlagsNoCache; function modifierToFlag(token) { switch (token) { case 120 /* StaticKeyword */: return 32 /* Static */; case 119 /* PublicKeyword */: return 4 /* Public */; case 118 /* ProtectedKeyword */: return 16 /* Protected */; case 117 /* PrivateKeyword */: return 8 /* Private */; case 122 /* AbstractKeyword */: return 128 /* Abstract */; case 89 /* ExportKeyword */: return 1 /* Export */; case 130 /* DeclareKeyword */: return 2 /* Ambient */; case 81 /* ConstKeyword */: return 2048 /* Const */; case 84 /* DefaultKeyword */: return 512 /* Default */; case 126 /* AsyncKeyword */: return 256 /* Async */; case 138 /* ReadonlyKeyword */: return 64 /* Readonly */; } return 0 /* None */; } ts.modifierToFlag = modifierToFlag; function isLogicalOperator(token) { return token === 56 /* BarBarToken */ || token === 55 /* AmpersandAmpersandToken */ || token === 53 /* ExclamationToken */; } ts.isLogicalOperator = isLogicalOperator; function isAssignmentOperator(token) { return token >= 62 /* FirstAssignment */ && token <= 74 /* LastAssignment */; } ts.isAssignmentOperator = isAssignmentOperator; /** Get `C` given `N` if `N` is in the position `class C extends N` where `N` is an ExpressionWithTypeArguments. */ function tryGetClassExtendingExpressionWithTypeArguments(node) { var cls = tryGetClassImplementingOrExtendingExpressionWithTypeArguments(node); return cls && !cls.isImplements ? cls.class : undefined; } ts.tryGetClassExtendingExpressionWithTypeArguments = tryGetClassExtendingExpressionWithTypeArguments; function tryGetClassImplementingOrExtendingExpressionWithTypeArguments(node) { return ts.isExpressionWithTypeArguments(node) && ts.isHeritageClause(node.parent) && ts.isClassLike(node.parent.parent) ? { class: node.parent.parent, isImplements: node.parent.token === 113 /* ImplementsKeyword */ } : undefined; } ts.tryGetClassImplementingOrExtendingExpressionWithTypeArguments = tryGetClassImplementingOrExtendingExpressionWithTypeArguments; function isAssignmentExpression(node, excludeCompoundAssignment) { return ts.isBinaryExpression(node) && (excludeCompoundAssignment ? node.operatorToken.kind === 62 /* EqualsToken */ : isAssignmentOperator(node.operatorToken.kind)) && ts.isLeftHandSideExpression(node.left); } ts.isAssignmentExpression = isAssignmentExpression; function isDestructuringAssignment(node) { if (isAssignmentExpression(node, /*excludeCompoundAssignment*/ true)) { var kind = node.left.kind; return kind === 193 /* ObjectLiteralExpression */ || kind === 192 /* ArrayLiteralExpression */; } return false; } ts.isDestructuringAssignment = isDestructuringAssignment; function isExpressionWithTypeArgumentsInClassExtendsClause(node) { return tryGetClassExtendingExpressionWithTypeArguments(node) !== undefined; } ts.isExpressionWithTypeArgumentsInClassExtendsClause = isExpressionWithTypeArgumentsInClassExtendsClause; function isEntityNameExpression(node) { return node.kind === 75 /* Identifier */ || isPropertyAccessEntityNameExpression(node); } ts.isEntityNameExpression = isEntityNameExpression; function getFirstIdentifier(node) { switch (node.kind) { case 75 /* Identifier */: return node; case 153 /* QualifiedName */: do { node = node.left; } while (node.kind !== 75 /* Identifier */); return node; case 194 /* PropertyAccessExpression */: do { node = node.expression; } while (node.kind !== 75 /* Identifier */); return node; } } ts.getFirstIdentifier = getFirstIdentifier; function isDottedName(node) { return node.kind === 75 /* Identifier */ || node.kind === 104 /* ThisKeyword */ || node.kind === 102 /* SuperKeyword */ || node.kind === 194 /* PropertyAccessExpression */ && isDottedName(node.expression) || node.kind === 200 /* ParenthesizedExpression */ && isDottedName(node.expression); } ts.isDottedName = isDottedName; function isPropertyAccessEntityNameExpression(node) { return ts.isPropertyAccessExpression(node) && ts.isIdentifier(node.name) && isEntityNameExpression(node.expression); } ts.isPropertyAccessEntityNameExpression = isPropertyAccessEntityNameExpression; function tryGetPropertyAccessOrIdentifierToString(expr) { if (ts.isPropertyAccessExpression(expr)) { var baseStr = tryGetPropertyAccessOrIdentifierToString(expr.expression); if (baseStr !== undefined) { return baseStr + "." + expr.name; } } else if (ts.isIdentifier(expr)) { return ts.unescapeLeadingUnderscores(expr.escapedText); } return undefined; } ts.tryGetPropertyAccessOrIdentifierToString = tryGetPropertyAccessOrIdentifierToString; function isPrototypeAccess(node) { return isBindableStaticAccessExpression(node) && getElementOrPropertyAccessName(node) === "prototype"; } ts.isPrototypeAccess = isPrototypeAccess; function isRightSideOfQualifiedNameOrPropertyAccess(node) { return (node.parent.kind === 153 /* QualifiedName */ && node.parent.right === node) || (node.parent.kind === 194 /* PropertyAccessExpression */ && node.parent.name === node); } ts.isRightSideOfQualifiedNameOrPropertyAccess = isRightSideOfQualifiedNameOrPropertyAccess; function isEmptyObjectLiteral(expression) { return expression.kind === 193 /* ObjectLiteralExpression */ && expression.properties.length === 0; } ts.isEmptyObjectLiteral = isEmptyObjectLiteral; function isEmptyArrayLiteral(expression) { return expression.kind === 192 /* ArrayLiteralExpression */ && expression.elements.length === 0; } ts.isEmptyArrayLiteral = isEmptyArrayLiteral; function getLocalSymbolForExportDefault(symbol) { return isExportDefaultSymbol(symbol) ? symbol.declarations[0].localSymbol : undefined; } ts.getLocalSymbolForExportDefault = getLocalSymbolForExportDefault; function isExportDefaultSymbol(symbol) { return symbol && ts.length(symbol.declarations) > 0 && hasModifier(symbol.declarations[0], 512 /* Default */); } /** Return ".ts", ".d.ts", or ".tsx", if that is the extension. */ function tryExtractTSExtension(fileName) { return ts.find(ts.supportedTSExtensionsForExtractExtension, function (extension) { return ts.fileExtensionIs(fileName, extension); }); } ts.tryExtractTSExtension = tryExtractTSExtension; /** * Replace each instance of non-ascii characters by one, two, three, or four escape sequences * representing the UTF-8 encoding of the character, and return the expanded char code list. */ function getExpandedCharCodes(input) { var output = []; var length = input.length; for (var i = 0; i < length; i++) { var charCode = input.charCodeAt(i); // handle utf8 if (charCode < 0x80) { output.push(charCode); } else if (charCode < 0x800) { output.push((charCode >> 6) | 192); output.push((charCode & 63) | 128); } else if (charCode < 0x10000) { output.push((charCode >> 12) | 224); output.push(((charCode >> 6) & 63) | 128); output.push((charCode & 63) | 128); } else if (charCode < 0x20000) { output.push((charCode >> 18) | 240); output.push(((charCode >> 12) & 63) | 128); output.push(((charCode >> 6) & 63) | 128); output.push((charCode & 63) | 128); } else { ts.Debug.assert(false, "Unexpected code point"); } } return output; } var base64Digits = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/="; /** * Converts a string to a base-64 encoded ASCII string. */ function convertToBase64(input) { var result = ""; var charCodes = getExpandedCharCodes(input); var i = 0; var length = charCodes.length; var byte1, byte2, byte3, byte4; while (i < length) { // Convert every 6-bits in the input 3 character points // into a base64 digit byte1 = charCodes[i] >> 2; byte2 = (charCodes[i] & 3) << 4 | charCodes[i + 1] >> 4; byte3 = (charCodes[i + 1] & 15) << 2 | charCodes[i + 2] >> 6; byte4 = charCodes[i + 2] & 63; // We are out of characters in the input, set the extra // digits to 64 (padding character). if (i + 1 >= length) { byte3 = byte4 = 64; } else if (i + 2 >= length) { byte4 = 64; } // Write to the output result += base64Digits.charAt(byte1) + base64Digits.charAt(byte2) + base64Digits.charAt(byte3) + base64Digits.charAt(byte4); i += 3; } return result; } ts.convertToBase64 = convertToBase64; function getStringFromExpandedCharCodes(codes) { var output = ""; var i = 0; var length = codes.length; while (i < length) { var charCode = codes[i]; if (charCode < 0x80) { output += String.fromCharCode(charCode); i++; } else if ((charCode & 192) === 192) { var value = charCode & 63; i++; var nextCode = codes[i]; while ((nextCode & 192) === 128) { value = (value << 6) | (nextCode & 63); i++; nextCode = codes[i]; } // `value` may be greater than 10FFFF (the maximum unicode codepoint) - JS will just make this into an invalid character for us output += String.fromCharCode(value); } else { // We don't want to kill the process when decoding fails (due to a following char byte not // following a leading char), so we just print the (bad) value output += String.fromCharCode(charCode); i++; } } return output; } function base64encode(host, input) { if (host && host.base64encode) { return host.base64encode(input); } return convertToBase64(input); } ts.base64encode = base64encode; function base64decode(host, input) { if (host && host.base64decode) { return host.base64decode(input); } var length = input.length; var expandedCharCodes = []; var i = 0; while (i < length) { // Stop decoding once padding characters are present if (input.charCodeAt(i) === base64Digits.charCodeAt(64)) { break; } // convert 4 input digits into three characters, ignoring padding characters at the end var ch1 = base64Digits.indexOf(input[i]); var ch2 = base64Digits.indexOf(input[i + 1]); var ch3 = base64Digits.indexOf(input[i + 2]); var ch4 = base64Digits.indexOf(input[i + 3]); var code1 = ((ch1 & 63) << 2) | ((ch2 >> 4) & 3); var code2 = ((ch2 & 15) << 4) | ((ch3 >> 2) & 15); var code3 = ((ch3 & 3) << 6) | (ch4 & 63); if (code2 === 0 && ch3 !== 0) { // code2 decoded to zero, but ch3 was padding - elide code2 and code3 expandedCharCodes.push(code1); } else if (code3 === 0 && ch4 !== 0) { // code3 decoded to zero, but ch4 was padding, elide code3 expandedCharCodes.push(code1, code2); } else { expandedCharCodes.push(code1, code2, code3); } i += 4; } return getStringFromExpandedCharCodes(expandedCharCodes); } ts.base64decode = base64decode; function readJson(path, host) { try { var jsonText = host.readFile(path); if (!jsonText) return {}; var result = ts.parseConfigFileTextToJson(path, jsonText); if (result.error) { return {}; } return result.config; } catch (e) { // gracefully handle if readFile fails or returns not JSON return {}; } } ts.readJson = readJson; function directoryProbablyExists(directoryName, host) { // if host does not support 'directoryExists' assume that directory will exist return !host.directoryExists || host.directoryExists(directoryName); } ts.directoryProbablyExists = directoryProbablyExists; var carriageReturnLineFeed = "\r\n"; var lineFeed = "\n"; function getNewLineCharacter(options, getNewLine) { switch (options.newLine) { case 0 /* CarriageReturnLineFeed */: return carriageReturnLineFeed; case 1 /* LineFeed */: return lineFeed; } return getNewLine ? getNewLine() : ts.sys ? ts.sys.newLine : carriageReturnLineFeed; } ts.getNewLineCharacter = getNewLineCharacter; /** * Creates a new TextRange from the provided pos and end. * * @param pos The start position. * @param end The end position. */ function createRange(pos, end) { if (end === void 0) { end = pos; } ts.Debug.assert(end >= pos || end === -1); return { pos: pos, end: end }; } ts.createRange = createRange; /** * Creates a new TextRange from a provided range with a new end position. * * @param range A TextRange. * @param end The new end position. */ function moveRangeEnd(range, end) { return createRange(range.pos, end); } ts.moveRangeEnd = moveRangeEnd; /** * Creates a new TextRange from a provided range with a new start position. * * @param range A TextRange. * @param pos The new Start position. */ function moveRangePos(range, pos) { return createRange(pos, range.end); } ts.moveRangePos = moveRangePos; /** * Moves the start position of a range past any decorators. */ function moveRangePastDecorators(node) { return node.decorators && node.decorators.length > 0 ? moveRangePos(node, node.decorators.end) : node; } ts.moveRangePastDecorators = moveRangePastDecorators; /** * Moves the start position of a range past any decorators or modifiers. */ function moveRangePastModifiers(node) { return node.modifiers && node.modifiers.length > 0 ? moveRangePos(node, node.modifiers.end) : moveRangePastDecorators(node); } ts.moveRangePastModifiers = moveRangePastModifiers; /** * Determines whether a TextRange has the same start and end positions. * * @param range A TextRange. */ function isCollapsedRange(range) { return range.pos === range.end; } ts.isCollapsedRange = isCollapsedRange; /** * Creates a new TextRange for a token at the provides start position. * * @param pos The start position. * @param token The token. */ function createTokenRange(pos, token) { return createRange(pos, pos + ts.tokenToString(token).length); } ts.createTokenRange = createTokenRange; function rangeIsOnSingleLine(range, sourceFile) { return rangeStartIsOnSameLineAsRangeEnd(range, range, sourceFile); } ts.rangeIsOnSingleLine = rangeIsOnSingleLine; function rangeStartPositionsAreOnSameLine(range1, range2, sourceFile) { return positionsAreOnSameLine(getStartPositionOfRange(range1, sourceFile, /*includeComments*/ false), getStartPositionOfRange(range2, sourceFile, /*includeComments*/ false), sourceFile); } ts.rangeStartPositionsAreOnSameLine = rangeStartPositionsAreOnSameLine; function rangeEndPositionsAreOnSameLine(range1, range2, sourceFile) { return positionsAreOnSameLine(range1.end, range2.end, sourceFile); } ts.rangeEndPositionsAreOnSameLine = rangeEndPositionsAreOnSameLine; function rangeStartIsOnSameLineAsRangeEnd(range1, range2, sourceFile) { return positionsAreOnSameLine(getStartPositionOfRange(range1, sourceFile, /*includeComments*/ false), range2.end, sourceFile); } ts.rangeStartIsOnSameLineAsRangeEnd = rangeStartIsOnSameLineAsRangeEnd; function rangeEndIsOnSameLineAsRangeStart(range1, range2, sourceFile) { return positionsAreOnSameLine(range1.end, getStartPositionOfRange(range2, sourceFile, /*includeComments*/ false), sourceFile); } ts.rangeEndIsOnSameLineAsRangeStart = rangeEndIsOnSameLineAsRangeStart; function getLinesBetweenRangeEndAndRangeStart(range1, range2, sourceFile, includeSecondRangeComments) { var range2Start = getStartPositionOfRange(range2, sourceFile, includeSecondRangeComments); return ts.getLinesBetweenPositions(sourceFile, range1.end, range2Start); } ts.getLinesBetweenRangeEndAndRangeStart = getLinesBetweenRangeEndAndRangeStart; function getLinesBetweenRangeEndPositions(range1, range2, sourceFile) { return ts.getLinesBetweenPositions(sourceFile, range1.end, range2.end); } ts.getLinesBetweenRangeEndPositions = getLinesBetweenRangeEndPositions; function isNodeArrayMultiLine(list, sourceFile) { return !positionsAreOnSameLine(list.pos, list.end, sourceFile); } ts.isNodeArrayMultiLine = isNodeArrayMultiLine; function positionsAreOnSameLine(pos1, pos2, sourceFile) { return ts.getLinesBetweenPositions(sourceFile, pos1, pos2) === 0; } ts.positionsAreOnSameLine = positionsAreOnSameLine; function getStartPositionOfRange(range, sourceFile, includeComments) { return positionIsSynthesized(range.pos) ? -1 : ts.skipTrivia(sourceFile.text, range.pos, /*stopAfterLineBreak*/ false, includeComments); } ts.getStartPositionOfRange = getStartPositionOfRange; function getLinesBetweenPositionAndPrecedingNonWhitespaceCharacter(pos, stopPos, sourceFile, includeComments) { var startPos = ts.skipTrivia(sourceFile.text, pos, /*stopAfterLineBreak*/ false, includeComments); var prevPos = getPreviousNonWhitespacePosition(startPos, stopPos, sourceFile); return ts.getLinesBetweenPositions(sourceFile, prevPos !== null && prevPos !== void 0 ? prevPos : stopPos, startPos); } ts.getLinesBetweenPositionAndPrecedingNonWhitespaceCharacter = getLinesBetweenPositionAndPrecedingNonWhitespaceCharacter; function getLinesBetweenPositionAndNextNonWhitespaceCharacter(pos, stopPos, sourceFile, includeComments) { var nextPos = ts.skipTrivia(sourceFile.text, pos, /*stopAfterLineBreak*/ false, includeComments); return ts.getLinesBetweenPositions(sourceFile, pos, Math.min(stopPos, nextPos)); } ts.getLinesBetweenPositionAndNextNonWhitespaceCharacter = getLinesBetweenPositionAndNextNonWhitespaceCharacter; function getPreviousNonWhitespacePosition(pos, stopPos, sourceFile) { if (stopPos === void 0) { stopPos = 0; } while (pos-- > stopPos) { if (!ts.isWhiteSpaceLike(sourceFile.text.charCodeAt(pos))) { return pos; } } } /** * Determines whether a name was originally the declaration name of an enum or namespace * declaration. */ function isDeclarationNameOfEnumOrNamespace(node) { var parseNode = ts.getParseTreeNode(node); if (parseNode) { switch (parseNode.parent.kind) { case 248 /* EnumDeclaration */: case 249 /* ModuleDeclaration */: return parseNode === parseNode.parent.name; } } return false; } ts.isDeclarationNameOfEnumOrNamespace = isDeclarationNameOfEnumOrNamespace; function getInitializedVariables(node) { return ts.filter(node.declarations, isInitializedVariable); } ts.getInitializedVariables = getInitializedVariables; function isInitializedVariable(node) { return node.initializer !== undefined; } function isWatchSet(options) { // Firefox has Object.prototype.watch return options.watch && options.hasOwnProperty("watch"); } ts.isWatchSet = isWatchSet; function closeFileWatcher(watcher) { watcher.close(); } ts.closeFileWatcher = closeFileWatcher; function getCheckFlags(symbol) { return symbol.flags & 33554432 /* Transient */ ? symbol.checkFlags : 0; } ts.getCheckFlags = getCheckFlags; function getDeclarationModifierFlagsFromSymbol(s) { if (s.valueDeclaration) { var flags = ts.getCombinedModifierFlags(s.valueDeclaration); return s.parent && s.parent.flags & 32 /* Class */ ? flags : flags & ~28 /* AccessibilityModifier */; } if (getCheckFlags(s) & 6 /* Synthetic */) { var checkFlags = s.checkFlags; var accessModifier = checkFlags & 1024 /* ContainsPrivate */ ? 8 /* Private */ : checkFlags & 256 /* ContainsPublic */ ? 4 /* Public */ : 16 /* Protected */; var staticModifier = checkFlags & 2048 /* ContainsStatic */ ? 32 /* Static */ : 0; return accessModifier | staticModifier; } if (s.flags & 4194304 /* Prototype */) { return 4 /* Public */ | 32 /* Static */; } return 0; } ts.getDeclarationModifierFlagsFromSymbol = getDeclarationModifierFlagsFromSymbol; function skipAlias(symbol, checker) { return symbol.flags & 2097152 /* Alias */ ? checker.getAliasedSymbol(symbol) : symbol; } ts.skipAlias = skipAlias; /** See comment on `declareModuleMember` in `binder.ts`. */ function getCombinedLocalAndExportSymbolFlags(symbol) { return symbol.exportSymbol ? symbol.exportSymbol.flags | symbol.flags : symbol.flags; } ts.getCombinedLocalAndExportSymbolFlags = getCombinedLocalAndExportSymbolFlags; function isWriteOnlyAccess(node) { return accessKind(node) === 1 /* Write */; } ts.isWriteOnlyAccess = isWriteOnlyAccess; function isWriteAccess(node) { return accessKind(node) !== 0 /* Read */; } ts.isWriteAccess = isWriteAccess; var AccessKind; (function (AccessKind) { /** Only reads from a variable. */ AccessKind[AccessKind["Read"] = 0] = "Read"; /** Only writes to a variable without using the result. E.g.: `x++;`. */ AccessKind[AccessKind["Write"] = 1] = "Write"; /** Writes to a variable and uses the result as an expression. E.g.: `f(x++);`. */ AccessKind[AccessKind["ReadWrite"] = 2] = "ReadWrite"; })(AccessKind || (AccessKind = {})); function accessKind(node) { var parent = node.parent; if (!parent) return 0 /* Read */; switch (parent.kind) { case 200 /* ParenthesizedExpression */: return accessKind(parent); case 208 /* PostfixUnaryExpression */: case 207 /* PrefixUnaryExpression */: var operator = parent.operator; return operator === 45 /* PlusPlusToken */ || operator === 46 /* MinusMinusToken */ ? writeOrReadWrite() : 0 /* Read */; case 209 /* BinaryExpression */: var _a = parent, left = _a.left, operatorToken = _a.operatorToken; return left === node && isAssignmentOperator(operatorToken.kind) ? operatorToken.kind === 62 /* EqualsToken */ ? 1 /* Write */ : writeOrReadWrite() : 0 /* Read */; case 194 /* PropertyAccessExpression */: return parent.name !== node ? 0 /* Read */ : accessKind(parent); case 281 /* PropertyAssignment */: { var parentAccess = accessKind(parent.parent); // In `({ x: varname }) = { x: 1 }`, the left `x` is a read, the right `x` is a write. return node === parent.name ? reverseAccessKind(parentAccess) : parentAccess; } case 282 /* ShorthandPropertyAssignment */: // Assume it's the local variable being accessed, since we don't check public properties for --noUnusedLocals. return node === parent.objectAssignmentInitializer ? 0 /* Read */ : accessKind(parent.parent); case 192 /* ArrayLiteralExpression */: return accessKind(parent); default: return 0 /* Read */; } function writeOrReadWrite() { // If grandparent is not an ExpressionStatement, this is used as an expression in addition to having a side effect. return parent.parent && skipParenthesesUp(parent.parent).kind === 226 /* ExpressionStatement */ ? 1 /* Write */ : 2 /* ReadWrite */; } } function reverseAccessKind(a) { switch (a) { case 0 /* Read */: return 1 /* Write */; case 1 /* Write */: return 0 /* Read */; case 2 /* ReadWrite */: return 2 /* ReadWrite */; default: return ts.Debug.assertNever(a); } } function compareDataObjects(dst, src) { if (!dst || !src || Object.keys(dst).length !== Object.keys(src).length) { return false; } for (var e in dst) { if (typeof dst[e] === "object") { if (!compareDataObjects(dst[e], src[e])) { return false; } } else if (typeof dst[e] !== "function") { if (dst[e] !== src[e]) { return false; } } } return true; } ts.compareDataObjects = compareDataObjects; /** * clears already present map by calling onDeleteExistingValue callback before deleting that key/value */ function clearMap(map, onDeleteValue) { // Remove all map.forEach(onDeleteValue); map.clear(); } ts.clearMap = clearMap; /** * Mutates the map with newMap such that keys in map will be same as newMap. */ function mutateMapSkippingNewValues(map, newMap, options) { var onDeleteValue = options.onDeleteValue, onExistingValue = options.onExistingValue; // Needs update map.forEach(function (existingValue, key) { var valueInNewMap = newMap.get(key); // Not present any more in new map, remove it if (valueInNewMap === undefined) { map.delete(key); onDeleteValue(existingValue, key); } // If present notify about existing values else if (onExistingValue) { onExistingValue(existingValue, valueInNewMap, key); } }); } ts.mutateMapSkippingNewValues = mutateMapSkippingNewValues; /** * Mutates the map with newMap such that keys in map will be same as newMap. */ function mutateMap(map, newMap, options) { // Needs update mutateMapSkippingNewValues(map, newMap, options); var createNewValue = options.createNewValue; // Add new values that are not already present newMap.forEach(function (valueInNewMap, key) { if (!map.has(key)) { // New values map.set(key, createNewValue(key, valueInNewMap)); } }); } ts.mutateMap = mutateMap; // Return true if the given type is the constructor type for an abstract class function isAbstractConstructorType(type) { return !!(getObjectFlags(type) & 16 /* Anonymous */) && !!type.symbol && isAbstractConstructorSymbol(type.symbol); } ts.isAbstractConstructorType = isAbstractConstructorType; function isAbstractConstructorSymbol(symbol) { if (symbol.flags & 32 /* Class */) { var declaration = getClassLikeDeclarationOfSymbol(symbol); return !!declaration && hasModifier(declaration, 128 /* Abstract */); } return false; } ts.isAbstractConstructorSymbol = isAbstractConstructorSymbol; function getClassLikeDeclarationOfSymbol(symbol) { return ts.find(symbol.declarations, ts.isClassLike); } ts.getClassLikeDeclarationOfSymbol = getClassLikeDeclarationOfSymbol; function getObjectFlags(type) { return type.flags & 3899393 /* ObjectFlagsType */ ? type.objectFlags : 0; } ts.getObjectFlags = getObjectFlags; function typeHasCallOrConstructSignatures(type, checker) { return checker.getSignaturesOfType(type, 0 /* Call */).length !== 0 || checker.getSignaturesOfType(type, 1 /* Construct */).length !== 0; } ts.typeHasCallOrConstructSignatures = typeHasCallOrConstructSignatures; function forSomeAncestorDirectory(directory, callback) { return !!ts.forEachAncestorDirectory(directory, function (d) { return callback(d) ? true : undefined; }); } ts.forSomeAncestorDirectory = forSomeAncestorDirectory; function isUMDExportSymbol(symbol) { return !!symbol && !!symbol.declarations && !!symbol.declarations[0] && ts.isNamespaceExportDeclaration(symbol.declarations[0]); } ts.isUMDExportSymbol = isUMDExportSymbol; function showModuleSpecifier(_a) { var moduleSpecifier = _a.moduleSpecifier; return ts.isStringLiteral(moduleSpecifier) ? moduleSpecifier.text : getTextOfNode(moduleSpecifier); } ts.showModuleSpecifier = showModuleSpecifier; function getLastChild(node) { var lastChild; ts.forEachChild(node, function (child) { if (nodeIsPresent(child)) lastChild = child; }, function (children) { // As an optimization, jump straight to the end of the list. for (var i = children.length - 1; i >= 0; i--) { if (nodeIsPresent(children[i])) { lastChild = children[i]; break; } } }); return lastChild; } ts.getLastChild = getLastChild; function addToSeen(seen, key, value) { if (value === void 0) { value = true; } key = String(key); if (seen.has(key)) { return false; } seen.set(key, value); return true; } ts.addToSeen = addToSeen; function isObjectTypeDeclaration(node) { return ts.isClassLike(node) || ts.isInterfaceDeclaration(node) || ts.isTypeLiteralNode(node); } ts.isObjectTypeDeclaration = isObjectTypeDeclaration; function isTypeNodeKind(kind) { return (kind >= 168 /* FirstTypeNode */ && kind <= 188 /* LastTypeNode */) || kind === 125 /* AnyKeyword */ || kind === 148 /* UnknownKeyword */ || kind === 140 /* NumberKeyword */ || kind === 151 /* BigIntKeyword */ || kind === 141 /* ObjectKeyword */ || kind === 128 /* BooleanKeyword */ || kind === 143 /* StringKeyword */ || kind === 144 /* SymbolKeyword */ || kind === 104 /* ThisKeyword */ || kind === 110 /* VoidKeyword */ || kind === 146 /* UndefinedKeyword */ || kind === 100 /* NullKeyword */ || kind === 137 /* NeverKeyword */ || kind === 216 /* ExpressionWithTypeArguments */ || kind === 295 /* JSDocAllType */ || kind === 296 /* JSDocUnknownType */ || kind === 297 /* JSDocNullableType */ || kind === 298 /* JSDocNonNullableType */ || kind === 299 /* JSDocOptionalType */ || kind === 300 /* JSDocFunctionType */ || kind === 301 /* JSDocVariadicType */; } ts.isTypeNodeKind = isTypeNodeKind; function isAccessExpression(node) { return node.kind === 194 /* PropertyAccessExpression */ || node.kind === 195 /* ElementAccessExpression */; } ts.isAccessExpression = isAccessExpression; function getNameOfAccessExpression(node) { if (node.kind === 194 /* PropertyAccessExpression */) { return node.name; } ts.Debug.assert(node.kind === 195 /* ElementAccessExpression */); return node.argumentExpression; } ts.getNameOfAccessExpression = getNameOfAccessExpression; function isBundleFileTextLike(section) { switch (section.kind) { case "text" /* Text */: case "internal" /* Internal */: return true; default: return false; } } ts.isBundleFileTextLike = isBundleFileTextLike; function isNamedImportsOrExports(node) { return node.kind === 257 /* NamedImports */ || node.kind === 261 /* NamedExports */; } ts.isNamedImportsOrExports = isNamedImportsOrExports; function Symbol(flags, name) { this.flags = flags; this.escapedName = name; this.declarations = undefined; this.valueDeclaration = undefined; this.id = undefined; this.mergeId = undefined; this.parent = undefined; } function Type(checker, flags) { this.flags = flags; if (ts.Debug.isDebugging) { this.checker = checker; } } function Signature(checker, flags) { this.flags = flags; if (ts.Debug.isDebugging) { this.checker = checker; } } function Node(kind, pos, end) { this.pos = pos; this.end = end; this.kind = kind; this.id = 0; this.flags = 0 /* None */; this.modifierFlagsCache = 0 /* None */; this.transformFlags = 0 /* None */; this.parent = undefined; this.original = undefined; } function Token(kind, pos, end) { this.pos = pos; this.end = end; this.kind = kind; this.id = 0; this.flags = 0 /* None */; this.transformFlags = 0 /* None */; this.parent = undefined; } function Identifier(kind, pos, end) { this.pos = pos; this.end = end; this.kind = kind; this.id = 0; this.flags = 0 /* None */; this.transformFlags = 0 /* None */; this.parent = undefined; this.original = undefined; this.flowNode = undefined; } function SourceMapSource(fileName, text, skipTrivia) { this.fileName = fileName; this.text = text; this.skipTrivia = skipTrivia || (function (pos) { return pos; }); } // eslint-disable-next-line prefer-const ts.objectAllocator = { getNodeConstructor: function () { return Node; }, getTokenConstructor: function () { return Token; }, getIdentifierConstructor: function () { return Identifier; }, getPrivateIdentifierConstructor: function () { return Node; }, getSourceFileConstructor: function () { return Node; }, getSymbolConstructor: function () { return Symbol; }, getTypeConstructor: function () { return Type; }, getSignatureConstructor: function () { return Signature; }, getSourceMapSourceConstructor: function () { return SourceMapSource; }, }; function setObjectAllocator(alloc) { ts.objectAllocator = alloc; } ts.setObjectAllocator = setObjectAllocator; function formatStringFromArgs(text, args, baseIndex) { if (baseIndex === void 0) { baseIndex = 0; } return text.replace(/{(\d+)}/g, function (_match, index) { return "" + ts.Debug.checkDefined(args[+index + baseIndex]); }); } ts.formatStringFromArgs = formatStringFromArgs; /* @internal */ function setLocalizedDiagnosticMessages(messages) { ts.localizedDiagnosticMessages = messages; } ts.setLocalizedDiagnosticMessages = setLocalizedDiagnosticMessages; function getLocaleSpecificMessage(message) { return ts.localizedDiagnosticMessages && ts.localizedDiagnosticMessages[message.key] || message.message; } ts.getLocaleSpecificMessage = getLocaleSpecificMessage; function createFileDiagnostic(file, start, length, message) { ts.Debug.assertGreaterThanOrEqual(start, 0); ts.Debug.assertGreaterThanOrEqual(length, 0); if (file) { ts.Debug.assertLessThanOrEqual(start, file.text.length); ts.Debug.assertLessThanOrEqual(start + length, file.text.length); } var text = getLocaleSpecificMessage(message); if (arguments.length > 4) { text = formatStringFromArgs(text, arguments, 4); } return { file: file, start: start, length: length, messageText: text, category: message.category, code: message.code, reportsUnnecessary: message.reportsUnnecessary, }; } ts.createFileDiagnostic = createFileDiagnostic; function formatMessage(_dummy, message) { var text = getLocaleSpecificMessage(message); if (arguments.length > 2) { text = formatStringFromArgs(text, arguments, 2); } return text; } ts.formatMessage = formatMessage; function createCompilerDiagnostic(message) { var text = getLocaleSpecificMessage(message); if (arguments.length > 1) { text = formatStringFromArgs(text, arguments, 1); } return { file: undefined, start: undefined, length: undefined, messageText: text, category: message.category, code: message.code, reportsUnnecessary: message.reportsUnnecessary, }; } ts.createCompilerDiagnostic = createCompilerDiagnostic; function createCompilerDiagnosticFromMessageChain(chain) { return { file: undefined, start: undefined, length: undefined, code: chain.code, category: chain.category, messageText: chain.next ? chain : chain.messageText, }; } ts.createCompilerDiagnosticFromMessageChain = createCompilerDiagnosticFromMessageChain; function chainDiagnosticMessages(details, message) { var text = getLocaleSpecificMessage(message); if (arguments.length > 2) { text = formatStringFromArgs(text, arguments, 2); } return { messageText: text, category: message.category, code: message.code, next: details === undefined || Array.isArray(details) ? details : [details] }; } ts.chainDiagnosticMessages = chainDiagnosticMessages; function concatenateDiagnosticMessageChains(headChain, tailChain) { var lastChain = headChain; while (lastChain.next) { lastChain = lastChain.next[0]; } lastChain.next = [tailChain]; } ts.concatenateDiagnosticMessageChains = concatenateDiagnosticMessageChains; function getDiagnosticFilePath(diagnostic) { return diagnostic.file ? diagnostic.file.path : undefined; } function compareDiagnostics(d1, d2) { return compareDiagnosticsSkipRelatedInformation(d1, d2) || compareRelatedInformation(d1, d2) || 0 /* EqualTo */; } ts.compareDiagnostics = compareDiagnostics; function compareDiagnosticsSkipRelatedInformation(d1, d2) { return ts.compareStringsCaseSensitive(getDiagnosticFilePath(d1), getDiagnosticFilePath(d2)) || ts.compareValues(d1.start, d2.start) || ts.compareValues(d1.length, d2.length) || ts.compareValues(d1.code, d2.code) || compareMessageText(d1.messageText, d2.messageText) || 0 /* EqualTo */; } ts.compareDiagnosticsSkipRelatedInformation = compareDiagnosticsSkipRelatedInformation; function compareRelatedInformation(d1, d2) { if (!d1.relatedInformation && !d2.relatedInformation) { return 0 /* EqualTo */; } if (d1.relatedInformation && d2.relatedInformation) { return ts.compareValues(d1.relatedInformation.length, d2.relatedInformation.length) || ts.forEach(d1.relatedInformation, function (d1i, index) { var d2i = d2.relatedInformation[index]; return compareDiagnostics(d1i, d2i); // EqualTo is 0, so falsy, and will cause the next item to be compared }) || 0 /* EqualTo */; } return d1.relatedInformation ? -1 /* LessThan */ : 1 /* GreaterThan */; } function compareMessageText(t1, t2) { if (typeof t1 === "string" && typeof t2 === "string") { return ts.compareStringsCaseSensitive(t1, t2); } else if (typeof t1 === "string") { return -1 /* LessThan */; } else if (typeof t2 === "string") { return 1 /* GreaterThan */; } var res = ts.compareStringsCaseSensitive(t1.messageText, t2.messageText); if (res) { return res; } if (!t1.next && !t2.next) { return 0 /* EqualTo */; } if (!t1.next) { return -1 /* LessThan */; } if (!t2.next) { return 1 /* GreaterThan */; } var len = Math.min(t1.next.length, t2.next.length); for (var i = 0; i < len; i++) { res = compareMessageText(t1.next[i], t2.next[i]); if (res) { return res; } } if (t1.next.length < t2.next.length) { return -1 /* LessThan */; } else if (t1.next.length > t2.next.length) { return 1 /* GreaterThan */; } return 0 /* EqualTo */; } function getEmitScriptTarget(compilerOptions) { return compilerOptions.target || 0 /* ES3 */; } ts.getEmitScriptTarget = getEmitScriptTarget; function getEmitModuleKind(compilerOptions) { return typeof compilerOptions.module === "number" ? compilerOptions.module : getEmitScriptTarget(compilerOptions) >= 2 /* ES2015 */ ? ts.ModuleKind.ES2015 : ts.ModuleKind.CommonJS; } ts.getEmitModuleKind = getEmitModuleKind; function getEmitModuleResolutionKind(compilerOptions) { var moduleResolution = compilerOptions.moduleResolution; if (moduleResolution === undefined) { moduleResolution = getEmitModuleKind(compilerOptions) === ts.ModuleKind.CommonJS ? ts.ModuleResolutionKind.NodeJs : ts.ModuleResolutionKind.Classic; } return moduleResolution; } ts.getEmitModuleResolutionKind = getEmitModuleResolutionKind; function hasJsonModuleEmitEnabled(options) { switch (getEmitModuleKind(options)) { case ts.ModuleKind.CommonJS: case ts.ModuleKind.AMD: case ts.ModuleKind.ES2015: case ts.ModuleKind.ES2020: case ts.ModuleKind.ESNext: return true; default: return false; } } ts.hasJsonModuleEmitEnabled = hasJsonModuleEmitEnabled; function unreachableCodeIsError(options) { return options.allowUnreachableCode === false; } ts.unreachableCodeIsError = unreachableCodeIsError; function unusedLabelIsError(options) { return options.allowUnusedLabels === false; } ts.unusedLabelIsError = unusedLabelIsError; function getAreDeclarationMapsEnabled(options) { return !!(getEmitDeclarations(options) && options.declarationMap); } ts.getAreDeclarationMapsEnabled = getAreDeclarationMapsEnabled; function getAllowSyntheticDefaultImports(compilerOptions) { var moduleKind = getEmitModuleKind(compilerOptions); return compilerOptions.allowSyntheticDefaultImports !== undefined ? compilerOptions.allowSyntheticDefaultImports : compilerOptions.esModuleInterop || moduleKind === ts.ModuleKind.System; } ts.getAllowSyntheticDefaultImports = getAllowSyntheticDefaultImports; function getEmitDeclarations(compilerOptions) { return !!(compilerOptions.declaration || compilerOptions.composite); } ts.getEmitDeclarations = getEmitDeclarations; function isIncrementalCompilation(options) { return !!(options.incremental || options.composite); } ts.isIncrementalCompilation = isIncrementalCompilation; function getStrictOptionValue(compilerOptions, flag) { return compilerOptions[flag] === undefined ? !!compilerOptions.strict : !!compilerOptions[flag]; } ts.getStrictOptionValue = getStrictOptionValue; function compilerOptionsAffectSemanticDiagnostics(newOptions, oldOptions) { return oldOptions !== newOptions && ts.semanticDiagnosticsOptionDeclarations.some(function (option) { return !isJsonEqual(getCompilerOptionValue(oldOptions, option), getCompilerOptionValue(newOptions, option)); }); } ts.compilerOptionsAffectSemanticDiagnostics = compilerOptionsAffectSemanticDiagnostics; function compilerOptionsAffectEmit(newOptions, oldOptions) { return oldOptions !== newOptions && ts.affectsEmitOptionDeclarations.some(function (option) { return !isJsonEqual(getCompilerOptionValue(oldOptions, option), getCompilerOptionValue(newOptions, option)); }); } ts.compilerOptionsAffectEmit = compilerOptionsAffectEmit; function getCompilerOptionValue(options, option) { return option.strictFlag ? getStrictOptionValue(options, option.name) : options[option.name]; } ts.getCompilerOptionValue = getCompilerOptionValue; function hasZeroOrOneAsteriskCharacter(str) { var seenAsterisk = false; for (var i = 0; i < str.length; i++) { if (str.charCodeAt(i) === 42 /* asterisk */) { if (!seenAsterisk) { seenAsterisk = true; } else { // have already seen asterisk return false; } } } return true; } ts.hasZeroOrOneAsteriskCharacter = hasZeroOrOneAsteriskCharacter; function discoverProbableSymlinks(files, getCanonicalFileName, cwd) { var result = ts.createMap(); var symlinks = ts.flatten(ts.mapDefined(files, function (sf) { return sf.resolvedModules && ts.compact(ts.arrayFrom(ts.mapIterator(sf.resolvedModules.values(), function (res) { return res && res.originalPath && res.resolvedFileName !== res.originalPath ? [res.resolvedFileName, res.originalPath] : undefined; }))); })); for (var _i = 0, symlinks_1 = symlinks; _i < symlinks_1.length; _i++) { var _a = symlinks_1[_i], resolvedPath = _a[0], originalPath = _a[1]; var _b = guessDirectorySymlink(resolvedPath, originalPath, cwd, getCanonicalFileName), commonResolved = _b[0], commonOriginal = _b[1]; result.set(commonOriginal, commonResolved); } return result; } ts.discoverProbableSymlinks = discoverProbableSymlinks; function guessDirectorySymlink(a, b, cwd, getCanonicalFileName) { var aParts = ts.getPathComponents(ts.toPath(a, cwd, getCanonicalFileName)); var bParts = ts.getPathComponents(ts.toPath(b, cwd, getCanonicalFileName)); while (!isNodeModulesOrScopedPackageDirectory(aParts[aParts.length - 2], getCanonicalFileName) && !isNodeModulesOrScopedPackageDirectory(bParts[bParts.length - 2], getCanonicalFileName) && getCanonicalFileName(aParts[aParts.length - 1]) === getCanonicalFileName(bParts[bParts.length - 1])) { aParts.pop(); bParts.pop(); } return [ts.getPathFromPathComponents(aParts), ts.getPathFromPathComponents(bParts)]; } // KLUDGE: Don't assume one 'node_modules' links to another. More likely a single directory inside the node_modules is the symlink. // ALso, don't assume that an `@foo` directory is linked. More likely the contents of that are linked. function isNodeModulesOrScopedPackageDirectory(s, getCanonicalFileName) { return getCanonicalFileName(s) === "node_modules" || ts.startsWith(s, "@"); } function stripLeadingDirectorySeparator(s) { return ts.isAnyDirectorySeparator(s.charCodeAt(0)) ? s.slice(1) : undefined; } function tryRemoveDirectoryPrefix(path, dirPath, getCanonicalFileName) { var withoutPrefix = ts.tryRemovePrefix(path, dirPath, getCanonicalFileName); return withoutPrefix === undefined ? undefined : stripLeadingDirectorySeparator(withoutPrefix); } ts.tryRemoveDirectoryPrefix = tryRemoveDirectoryPrefix; // Reserved characters, forces escaping of any non-word (or digit), non-whitespace character. // It may be inefficient (we could just match (/[-[\]{}()*+?.,\\^$|#\s]/g), but this is future // proof. var reservedCharacterPattern = /[^\w\s\/]/g; function regExpEscape(text) { return text.replace(reservedCharacterPattern, escapeRegExpCharacter); } ts.regExpEscape = regExpEscape; function escapeRegExpCharacter(match) { return "\\" + match; } var wildcardCharCodes = [42 /* asterisk */, 63 /* question */]; ts.commonPackageFolders = ["node_modules", "bower_components", "jspm_packages"]; var implicitExcludePathRegexPattern = "(?!(" + ts.commonPackageFolders.join("|") + ")(/|$))"; var filesMatcher = { /** * Matches any single directory segment unless it is the last segment and a .min.js file * Breakdown: * [^./] # matches everything up to the first . character (excluding directory separators) * (\\.(?!min\\.js$))? # matches . characters but not if they are part of the .min.js file extension */ singleAsteriskRegexFragment: "([^./]|(\\.(?!min\\.js$))?)*", /** * Regex for the ** wildcard. Matches any number of subdirectories. When used for including * files or directories, does not match subdirectories that start with a . character */ doubleAsteriskRegexFragment: "(/" + implicitExcludePathRegexPattern + "[^/.][^/]*)*?", replaceWildcardCharacter: function (match) { return replaceWildcardCharacter(match, filesMatcher.singleAsteriskRegexFragment); } }; var directoriesMatcher = { singleAsteriskRegexFragment: "[^/]*", /** * Regex for the ** wildcard. Matches any number of subdirectories. When used for including * files or directories, does not match subdirectories that start with a . character */ doubleAsteriskRegexFragment: "(/" + implicitExcludePathRegexPattern + "[^/.][^/]*)*?", replaceWildcardCharacter: function (match) { return replaceWildcardCharacter(match, directoriesMatcher.singleAsteriskRegexFragment); } }; var excludeMatcher = { singleAsteriskRegexFragment: "[^/]*", doubleAsteriskRegexFragment: "(/.+?)?", replaceWildcardCharacter: function (match) { return replaceWildcardCharacter(match, excludeMatcher.singleAsteriskRegexFragment); } }; var wildcardMatchers = { files: filesMatcher, directories: directoriesMatcher, exclude: excludeMatcher }; function getRegularExpressionForWildcard(specs, basePath, usage) { var patterns = getRegularExpressionsForWildcards(specs, basePath, usage); if (!patterns || !patterns.length) { return undefined; } var pattern = patterns.map(function (pattern) { return "(" + pattern + ")"; }).join("|"); // If excluding, match "foo/bar/baz...", but if including, only allow "foo". var terminator = usage === "exclude" ? "($|/)" : "$"; return "^(" + pattern + ")" + terminator; } ts.getRegularExpressionForWildcard = getRegularExpressionForWildcard; function getRegularExpressionsForWildcards(specs, basePath, usage) { if (specs === undefined || specs.length === 0) { return undefined; } return ts.flatMap(specs, function (spec) { return spec && getSubPatternFromSpec(spec, basePath, usage, wildcardMatchers[usage]); }); } ts.getRegularExpressionsForWildcards = getRegularExpressionsForWildcards; /** * An "includes" path "foo" is implicitly a glob "foo/** /*" (without the space) if its last component has no extension, * and does not contain any glob characters itself. */ function isImplicitGlob(lastPathComponent) { return !/[.*?]/.test(lastPathComponent); } ts.isImplicitGlob = isImplicitGlob; function getSubPatternFromSpec(spec, basePath, usage, _a) { var singleAsteriskRegexFragment = _a.singleAsteriskRegexFragment, doubleAsteriskRegexFragment = _a.doubleAsteriskRegexFragment, replaceWildcardCharacter = _a.replaceWildcardCharacter; var subpattern = ""; var hasWrittenComponent = false; var components = ts.getNormalizedPathComponents(spec, basePath); var lastComponent = ts.last(components); if (usage !== "exclude" && lastComponent === "**") { return undefined; } // getNormalizedPathComponents includes the separator for the root component. // We need to remove to create our regex correctly. components[0] = ts.removeTrailingDirectorySeparator(components[0]); if (isImplicitGlob(lastComponent)) { components.push("**", "*"); } var optionalCount = 0; for (var _i = 0, components_1 = components; _i < components_1.length; _i++) { var component = components_1[_i]; if (component === "**") { subpattern += doubleAsteriskRegexFragment; } else { if (usage === "directories") { subpattern += "("; optionalCount++; } if (hasWrittenComponent) { subpattern += ts.directorySeparator; } if (usage !== "exclude") { var componentPattern = ""; // The * and ? wildcards should not match directories or files that start with . if they // appear first in a component. Dotted directories and files can be included explicitly // like so: **/.*/.* if (component.charCodeAt(0) === 42 /* asterisk */) { componentPattern += "([^./]" + singleAsteriskRegexFragment + ")?"; component = component.substr(1); } else if (component.charCodeAt(0) === 63 /* question */) { componentPattern += "[^./]"; component = component.substr(1); } componentPattern += component.replace(reservedCharacterPattern, replaceWildcardCharacter); // Patterns should not include subfolders like node_modules unless they are // explicitly included as part of the path. // // As an optimization, if the component pattern is the same as the component, // then there definitely were no wildcard characters and we do not need to // add the exclusion pattern. if (componentPattern !== component) { subpattern += implicitExcludePathRegexPattern; } subpattern += componentPattern; } else { subpattern += component.replace(reservedCharacterPattern, replaceWildcardCharacter); } } hasWrittenComponent = true; } while (optionalCount > 0) { subpattern += ")?"; optionalCount--; } return subpattern; } function replaceWildcardCharacter(match, singleAsteriskRegexFragment) { return match === "*" ? singleAsteriskRegexFragment : match === "?" ? "[^/]" : "\\" + match; } /** @param path directory of the tsconfig.json */ function getFileMatcherPatterns(path, excludes, includes, useCaseSensitiveFileNames, currentDirectory) { path = ts.normalizePath(path); currentDirectory = ts.normalizePath(currentDirectory); var absolutePath = ts.combinePaths(currentDirectory, path); return { includeFilePatterns: ts.map(getRegularExpressionsForWildcards(includes, absolutePath, "files"), function (pattern) { return "^" + pattern + "$"; }), includeFilePattern: getRegularExpressionForWildcard(includes, absolutePath, "files"), includeDirectoryPattern: getRegularExpressionForWildcard(includes, absolutePath, "directories"), excludePattern: getRegularExpressionForWildcard(excludes, absolutePath, "exclude"), basePaths: getBasePaths(path, includes, useCaseSensitiveFileNames) }; } ts.getFileMatcherPatterns = getFileMatcherPatterns; function getRegexFromPattern(pattern, useCaseSensitiveFileNames) { return new RegExp(pattern, useCaseSensitiveFileNames ? "" : "i"); } ts.getRegexFromPattern = getRegexFromPattern; /** @param path directory of the tsconfig.json */ function matchFiles(path, extensions, excludes, includes, useCaseSensitiveFileNames, currentDirectory, depth, getFileSystemEntries, realpath) { path = ts.normalizePath(path); currentDirectory = ts.normalizePath(currentDirectory); var patterns = getFileMatcherPatterns(path, excludes, includes, useCaseSensitiveFileNames, currentDirectory); var includeFileRegexes = patterns.includeFilePatterns && patterns.includeFilePatterns.map(function (pattern) { return getRegexFromPattern(pattern, useCaseSensitiveFileNames); }); var includeDirectoryRegex = patterns.includeDirectoryPattern && getRegexFromPattern(patterns.includeDirectoryPattern, useCaseSensitiveFileNames); var excludeRegex = patterns.excludePattern && getRegexFromPattern(patterns.excludePattern, useCaseSensitiveFileNames); // Associate an array of results with each include regex. This keeps results in order of the "include" order. // If there are no "includes", then just put everything in results[0]. var results = includeFileRegexes ? includeFileRegexes.map(function () { return []; }) : [[]]; var visited = ts.createMap(); var toCanonical = ts.createGetCanonicalFileName(useCaseSensitiveFileNames); for (var _i = 0, _a = patterns.basePaths; _i < _a.length; _i++) { var basePath = _a[_i]; visitDirectory(basePath, ts.combinePaths(currentDirectory, basePath), depth); } return ts.flatten(results); function visitDirectory(path, absolutePath, depth) { var canonicalPath = toCanonical(realpath(absolutePath)); if (visited.has(canonicalPath)) return; visited.set(canonicalPath, true); var _a = getFileSystemEntries(path), files = _a.files, directories = _a.directories; var _loop_1 = function (current) { var name = ts.combinePaths(path, current); var absoluteName = ts.combinePaths(absolutePath, current); if (extensions && !ts.fileExtensionIsOneOf(name, extensions)) return "continue"; if (excludeRegex && excludeRegex.test(absoluteName)) return "continue"; if (!includeFileRegexes) { results[0].push(name); } else { var includeIndex = ts.findIndex(includeFileRegexes, function (re) { return re.test(absoluteName); }); if (includeIndex !== -1) { results[includeIndex].push(name); } } }; for (var _i = 0, _b = ts.sort(files, ts.compareStringsCaseSensitive); _i < _b.length; _i++) { var current = _b[_i]; _loop_1(current); } if (depth !== undefined) { depth--; if (depth === 0) { return; } } for (var _c = 0, _d = ts.sort(directories, ts.compareStringsCaseSensitive); _c < _d.length; _c++) { var current = _d[_c]; var name = ts.combinePaths(path, current); var absoluteName = ts.combinePaths(absolutePath, current); if ((!includeDirectoryRegex || includeDirectoryRegex.test(absoluteName)) && (!excludeRegex || !excludeRegex.test(absoluteName))) { visitDirectory(name, absoluteName, depth); } } } } ts.matchFiles = matchFiles; /** * Computes the unique non-wildcard base paths amongst the provided include patterns. */ function getBasePaths(path, includes, useCaseSensitiveFileNames) { // Storage for our results in the form of literal paths (e.g. the paths as written by the user). var basePaths = [path]; if (includes) { // Storage for literal base paths amongst the include patterns. var includeBasePaths = []; for (var _i = 0, includes_1 = includes; _i < includes_1.length; _i++) { var include = includes_1[_i]; // We also need to check the relative paths by converting them to absolute and normalizing // in case they escape the base path (e.g "..\somedirectory") var absolute = ts.isRootedDiskPath(include) ? include : ts.normalizePath(ts.combinePaths(path, include)); // Append the literal and canonical candidate base paths. includeBasePaths.push(getIncludeBasePath(absolute)); } // Sort the offsets array using either the literal or canonical path representations. includeBasePaths.sort(ts.getStringComparer(!useCaseSensitiveFileNames)); var _loop_2 = function (includeBasePath) { if (ts.every(basePaths, function (basePath) { return !ts.containsPath(basePath, includeBasePath, path, !useCaseSensitiveFileNames); })) { basePaths.push(includeBasePath); } }; // Iterate over each include base path and include unique base paths that are not a // subpath of an existing base path for (var _a = 0, includeBasePaths_1 = includeBasePaths; _a < includeBasePaths_1.length; _a++) { var includeBasePath = includeBasePaths_1[_a]; _loop_2(includeBasePath); } } return basePaths; } function getIncludeBasePath(absolute) { var wildcardOffset = ts.indexOfAnyCharCode(absolute, wildcardCharCodes); if (wildcardOffset < 0) { // No "*" or "?" in the path return !ts.hasExtension(absolute) ? absolute : ts.removeTrailingDirectorySeparator(ts.getDirectoryPath(absolute)); } return absolute.substring(0, absolute.lastIndexOf(ts.directorySeparator, wildcardOffset)); } function ensureScriptKind(fileName, scriptKind) { // Using scriptKind as a condition handles both: // - 'scriptKind' is unspecified and thus it is `undefined` // - 'scriptKind' is set and it is `Unknown` (0) // If the 'scriptKind' is 'undefined' or 'Unknown' then we attempt // to get the ScriptKind from the file name. If it cannot be resolved // from the file name then the default 'TS' script kind is returned. return scriptKind || getScriptKindFromFileName(fileName) || 3 /* TS */; } ts.ensureScriptKind = ensureScriptKind; function getScriptKindFromFileName(fileName) { var ext = fileName.substr(fileName.lastIndexOf(".")); switch (ext.toLowerCase()) { case ".js" /* Js */: return 1 /* JS */; case ".jsx" /* Jsx */: return 2 /* JSX */; case ".ts" /* Ts */: return 3 /* TS */; case ".tsx" /* Tsx */: return 4 /* TSX */; case ".json" /* Json */: return 6 /* JSON */; default: return 0 /* Unknown */; } } ts.getScriptKindFromFileName = getScriptKindFromFileName; /** * List of supported extensions in order of file resolution precedence. */ ts.supportedTSExtensions = [".ts" /* Ts */, ".tsx" /* Tsx */, ".d.ts" /* Dts */]; ts.supportedTSExtensionsWithJson = [".ts" /* Ts */, ".tsx" /* Tsx */, ".d.ts" /* Dts */, ".json" /* Json */]; /** Must have ".d.ts" first because if ".ts" goes first, that will be detected as the extension instead of ".d.ts". */ ts.supportedTSExtensionsForExtractExtension = [".d.ts" /* Dts */, ".ts" /* Ts */, ".tsx" /* Tsx */]; ts.supportedJSExtensions = [".js" /* Js */, ".jsx" /* Jsx */]; ts.supportedJSAndJsonExtensions = [".js" /* Js */, ".jsx" /* Jsx */, ".json" /* Json */]; var allSupportedExtensions = __spreadArrays(ts.supportedTSExtensions, ts.supportedJSExtensions); var allSupportedExtensionsWithJson = __spreadArrays(ts.supportedTSExtensions, ts.supportedJSExtensions, [".json" /* Json */]); function getSupportedExtensions(options, extraFileExtensions) { var needJsExtensions = options && options.allowJs; if (!extraFileExtensions || extraFileExtensions.length === 0) { return needJsExtensions ? allSupportedExtensions : ts.supportedTSExtensions; } var extensions = __spreadArrays(needJsExtensions ? allSupportedExtensions : ts.supportedTSExtensions, ts.mapDefined(extraFileExtensions, function (x) { return x.scriptKind === 7 /* Deferred */ || needJsExtensions && isJSLike(x.scriptKind) ? x.extension : undefined; })); return ts.deduplicate(extensions, ts.equateStringsCaseSensitive, ts.compareStringsCaseSensitive); } ts.getSupportedExtensions = getSupportedExtensions; function getSuppoertedExtensionsWithJsonIfResolveJsonModule(options, supportedExtensions) { if (!options || !options.resolveJsonModule) { return supportedExtensions; } if (supportedExtensions === allSupportedExtensions) { return allSupportedExtensionsWithJson; } if (supportedExtensions === ts.supportedTSExtensions) { return ts.supportedTSExtensionsWithJson; } return __spreadArrays(supportedExtensions, [".json" /* Json */]); } ts.getSuppoertedExtensionsWithJsonIfResolveJsonModule = getSuppoertedExtensionsWithJsonIfResolveJsonModule; function isJSLike(scriptKind) { return scriptKind === 1 /* JS */ || scriptKind === 2 /* JSX */; } function hasJSFileExtension(fileName) { return ts.some(ts.supportedJSExtensions, function (extension) { return ts.fileExtensionIs(fileName, extension); }); } ts.hasJSFileExtension = hasJSFileExtension; function hasTSFileExtension(fileName) { return ts.some(ts.supportedTSExtensions, function (extension) { return ts.fileExtensionIs(fileName, extension); }); } ts.hasTSFileExtension = hasTSFileExtension; function isSupportedSourceFileName(fileName, compilerOptions, extraFileExtensions) { if (!fileName) { return false; } var supportedExtensions = getSupportedExtensions(compilerOptions, extraFileExtensions); for (var _i = 0, _a = getSuppoertedExtensionsWithJsonIfResolveJsonModule(compilerOptions, supportedExtensions); _i < _a.length; _i++) { var extension = _a[_i]; if (ts.fileExtensionIs(fileName, extension)) { return true; } } return false; } ts.isSupportedSourceFileName = isSupportedSourceFileName; /** * Extension boundaries by priority. Lower numbers indicate higher priorities, and are * aligned to the offset of the highest priority extension in the * allSupportedExtensions array. */ var ExtensionPriority; (function (ExtensionPriority) { ExtensionPriority[ExtensionPriority["TypeScriptFiles"] = 0] = "TypeScriptFiles"; ExtensionPriority[ExtensionPriority["DeclarationAndJavaScriptFiles"] = 2] = "DeclarationAndJavaScriptFiles"; ExtensionPriority[ExtensionPriority["Highest"] = 0] = "Highest"; ExtensionPriority[ExtensionPriority["Lowest"] = 2] = "Lowest"; })(ExtensionPriority = ts.ExtensionPriority || (ts.ExtensionPriority = {})); function getExtensionPriority(path, supportedExtensions) { for (var i = supportedExtensions.length - 1; i >= 0; i--) { if (ts.fileExtensionIs(path, supportedExtensions[i])) { return adjustExtensionPriority(i, supportedExtensions); } } // If its not in the list of supported extensions, this is likely a // TypeScript file with a non-ts extension return 0 /* Highest */; } ts.getExtensionPriority = getExtensionPriority; /** * Adjusts an extension priority to be the highest priority within the same range. */ function adjustExtensionPriority(extensionPriority, supportedExtensions) { if (extensionPriority < 2 /* DeclarationAndJavaScriptFiles */) { return 0 /* TypeScriptFiles */; } else if (extensionPriority < supportedExtensions.length) { return 2 /* DeclarationAndJavaScriptFiles */; } else { return supportedExtensions.length; } } ts.adjustExtensionPriority = adjustExtensionPriority; /** * Gets the next lowest extension priority for a given priority. */ function getNextLowestExtensionPriority(extensionPriority, supportedExtensions) { if (extensionPriority < 2 /* DeclarationAndJavaScriptFiles */) { return 2 /* DeclarationAndJavaScriptFiles */; } else { return supportedExtensions.length; } } ts.getNextLowestExtensionPriority = getNextLowestExtensionPriority; var extensionsToRemove = [".d.ts" /* Dts */, ".ts" /* Ts */, ".js" /* Js */, ".tsx" /* Tsx */, ".jsx" /* Jsx */, ".json" /* Json */]; function removeFileExtension(path) { for (var _i = 0, extensionsToRemove_1 = extensionsToRemove; _i < extensionsToRemove_1.length; _i++) { var ext = extensionsToRemove_1[_i]; var extensionless = tryRemoveExtension(path, ext); if (extensionless !== undefined) { return extensionless; } } return path; } ts.removeFileExtension = removeFileExtension; function tryRemoveExtension(path, extension) { return ts.fileExtensionIs(path, extension) ? removeExtension(path, extension) : undefined; } ts.tryRemoveExtension = tryRemoveExtension; function removeExtension(path, extension) { return path.substring(0, path.length - extension.length); } ts.removeExtension = removeExtension; function changeExtension(path, newExtension) { return ts.changeAnyExtension(path, newExtension, extensionsToRemove, /*ignoreCase*/ false); } ts.changeExtension = changeExtension; function tryParsePattern(pattern) { // This should be verified outside of here and a proper error thrown. ts.Debug.assert(hasZeroOrOneAsteriskCharacter(pattern)); var indexOfStar = pattern.indexOf("*"); return indexOfStar === -1 ? undefined : { prefix: pattern.substr(0, indexOfStar), suffix: pattern.substr(indexOfStar + 1) }; } ts.tryParsePattern = tryParsePattern; function positionIsSynthesized(pos) { // This is a fast way of testing the following conditions: // pos === undefined || pos === null || isNaN(pos) || pos < 0; return !(pos >= 0); } ts.positionIsSynthesized = positionIsSynthesized; /** True if an extension is one of the supported TypeScript extensions. */ function extensionIsTS(ext) { return ext === ".ts" /* Ts */ || ext === ".tsx" /* Tsx */ || ext === ".d.ts" /* Dts */; } ts.extensionIsTS = extensionIsTS; function resolutionExtensionIsTSOrJson(ext) { return extensionIsTS(ext) || ext === ".json" /* Json */; } ts.resolutionExtensionIsTSOrJson = resolutionExtensionIsTSOrJson; /** * Gets the extension from a path. * Path must have a valid extension. */ function extensionFromPath(path) { var ext = tryGetExtensionFromPath(path); return ext !== undefined ? ext : ts.Debug.fail("File " + path + " has unknown extension."); } ts.extensionFromPath = extensionFromPath; function isAnySupportedFileExtension(path) { return tryGetExtensionFromPath(path) !== undefined; } ts.isAnySupportedFileExtension = isAnySupportedFileExtension; function tryGetExtensionFromPath(path) { return ts.find(extensionsToRemove, function (e) { return ts.fileExtensionIs(path, e); }); } ts.tryGetExtensionFromPath = tryGetExtensionFromPath; function isCheckJsEnabledForFile(sourceFile, compilerOptions) { return sourceFile.checkJsDirective ? sourceFile.checkJsDirective.enabled : compilerOptions.checkJs; } ts.isCheckJsEnabledForFile = isCheckJsEnabledForFile; ts.emptyFileSystemEntries = { files: ts.emptyArray, directories: ts.emptyArray }; /** * patternStrings contains both pattern strings (containing "*") and regular strings. * Return an exact match if possible, or a pattern match, or undefined. * (These are verified by verifyCompilerOptions to have 0 or 1 "*" characters.) */ function matchPatternOrExact(patternStrings, candidate) { var patterns = []; for (var _i = 0, patternStrings_1 = patternStrings; _i < patternStrings_1.length; _i++) { var patternString = patternStrings_1[_i]; if (!hasZeroOrOneAsteriskCharacter(patternString)) continue; var pattern = tryParsePattern(patternString); if (pattern) { patterns.push(pattern); } else if (patternString === candidate) { // pattern was matched as is - no need to search further return patternString; } } return ts.findBestPatternMatch(patterns, function (_) { return _; }, candidate); } ts.matchPatternOrExact = matchPatternOrExact; function sliceAfter(arr, value) { var index = arr.indexOf(value); ts.Debug.assert(index !== -1); return arr.slice(index); } ts.sliceAfter = sliceAfter; function addRelatedInfo(diagnostic) { var _a; var relatedInformation = []; for (var _i = 1; _i < arguments.length; _i++) { relatedInformation[_i - 1] = arguments[_i]; } if (!relatedInformation.length) { return diagnostic; } if (!diagnostic.relatedInformation) { diagnostic.relatedInformation = []; } (_a = diagnostic.relatedInformation).push.apply(_a, relatedInformation); return diagnostic; } ts.addRelatedInfo = addRelatedInfo; function minAndMax(arr, getValue) { ts.Debug.assert(arr.length !== 0); var min = getValue(arr[0]); var max = min; for (var i = 1; i < arr.length; i++) { var value = getValue(arr[i]); if (value < min) { min = value; } else if (value > max) { max = value; } } return { min: min, max: max }; } ts.minAndMax = minAndMax; var NodeSet = /** @class */ (function () { function NodeSet() { this.map = ts.createMap(); } NodeSet.prototype.add = function (node) { this.map.set(String(ts.getNodeId(node)), node); }; NodeSet.prototype.tryAdd = function (node) { if (this.has(node)) return false; this.add(node); return true; }; NodeSet.prototype.has = function (node) { return this.map.has(String(ts.getNodeId(node))); }; NodeSet.prototype.forEach = function (cb) { this.map.forEach(cb); }; NodeSet.prototype.some = function (pred) { return forEachEntry(this.map, pred) || false; }; return NodeSet; }()); ts.NodeSet = NodeSet; var NodeMap = /** @class */ (function () { function NodeMap() { this.map = ts.createMap(); } NodeMap.prototype.get = function (node) { var res = this.map.get(String(ts.getNodeId(node))); return res && res.value; }; NodeMap.prototype.getOrUpdate = function (node, setValue) { var res = this.get(node); if (res) return res; var value = setValue(); this.set(node, value); return value; }; NodeMap.prototype.set = function (node, value) { this.map.set(String(ts.getNodeId(node)), { node: node, value: value }); }; NodeMap.prototype.has = function (node) { return this.map.has(String(ts.getNodeId(node))); }; NodeMap.prototype.forEach = function (cb) { this.map.forEach(function (_a) { var node = _a.node, value = _a.value; return cb(value, node); }); }; return NodeMap; }()); ts.NodeMap = NodeMap; function rangeOfNode(node) { return { pos: getTokenPosOfNode(node), end: node.end }; } ts.rangeOfNode = rangeOfNode; function rangeOfTypeParameters(typeParameters) { // Include the `<>` return { pos: typeParameters.pos - 1, end: typeParameters.end + 1 }; } ts.rangeOfTypeParameters = rangeOfTypeParameters; function skipTypeChecking(sourceFile, options, host) { // If skipLibCheck is enabled, skip reporting errors if file is a declaration file. // If skipDefaultLibCheck is enabled, skip reporting errors if file contains a // '/// ' directive. return (options.skipLibCheck && sourceFile.isDeclarationFile || options.skipDefaultLibCheck && sourceFile.hasNoDefaultLib) || host.isSourceOfProjectReferenceRedirect(sourceFile.fileName); } ts.skipTypeChecking = skipTypeChecking; function isJsonEqual(a, b) { // eslint-disable-next-line no-null/no-null return a === b || typeof a === "object" && a !== null && typeof b === "object" && b !== null && ts.equalOwnProperties(a, b, isJsonEqual); } ts.isJsonEqual = isJsonEqual; function getOrUpdate(map, key, getDefault) { var got = map.get(key); if (got === undefined) { var value = getDefault(); map.set(key, value); return value; } else { return got; } } ts.getOrUpdate = getOrUpdate; /** * Converts a bigint literal string, e.g. `0x1234n`, * to its decimal string representation, e.g. `4660`. */ function parsePseudoBigInt(stringValue) { var log2Base; switch (stringValue.charCodeAt(1)) { // "x" in "0x123" case 98 /* b */: case 66 /* B */: // 0b or 0B log2Base = 1; break; case 111 /* o */: case 79 /* O */: // 0o or 0O log2Base = 3; break; case 120 /* x */: case 88 /* X */: // 0x or 0X log2Base = 4; break; default: // already in decimal; omit trailing "n" var nIndex = stringValue.length - 1; // Skip leading 0s var nonZeroStart = 0; while (stringValue.charCodeAt(nonZeroStart) === 48 /* _0 */) { nonZeroStart++; } return stringValue.slice(nonZeroStart, nIndex) || "0"; } // Omit leading "0b", "0o", or "0x", and trailing "n" var startIndex = 2, endIndex = stringValue.length - 1; var bitsNeeded = (endIndex - startIndex) * log2Base; // Stores the value specified by the string as a LE array of 16-bit integers // using Uint16 instead of Uint32 so combining steps can use bitwise operators var segments = new Uint16Array((bitsNeeded >>> 4) + (bitsNeeded & 15 ? 1 : 0)); // Add the digits, one at a time for (var i = endIndex - 1, bitOffset = 0; i >= startIndex; i--, bitOffset += log2Base) { var segment = bitOffset >>> 4; var digitChar = stringValue.charCodeAt(i); // Find character range: 0-9 < A-F < a-f var digit = digitChar <= 57 /* _9 */ ? digitChar - 48 /* _0 */ : 10 + digitChar - (digitChar <= 70 /* F */ ? 65 /* A */ : 97 /* a */); var shiftedDigit = digit << (bitOffset & 15); segments[segment] |= shiftedDigit; var residual = shiftedDigit >>> 16; if (residual) segments[segment + 1] |= residual; // overflows segment } // Repeatedly divide segments by 10 and add remainder to base10Value var base10Value = ""; var firstNonzeroSegment = segments.length - 1; var segmentsRemaining = true; while (segmentsRemaining) { var mod10 = 0; segmentsRemaining = false; for (var segment = firstNonzeroSegment; segment >= 0; segment--) { var newSegment = mod10 << 16 | segments[segment]; var segmentValue = (newSegment / 10) | 0; segments[segment] = segmentValue; mod10 = newSegment - segmentValue * 10; if (segmentValue && !segmentsRemaining) { firstNonzeroSegment = segment; segmentsRemaining = true; } } base10Value = mod10 + base10Value; } return base10Value; } ts.parsePseudoBigInt = parsePseudoBigInt; function pseudoBigIntToString(_a) { var negative = _a.negative, base10Value = _a.base10Value; return (negative && base10Value !== "0" ? "-" : "") + base10Value; } ts.pseudoBigIntToString = pseudoBigIntToString; function isValidTypeOnlyAliasUseSite(useSite) { return !!(useSite.flags & 8388608 /* Ambient */) || isPartOfTypeQuery(useSite) || isIdentifierInNonEmittingHeritageClause(useSite) || isPartOfPossiblyValidTypeOrAbstractComputedPropertyName(useSite) || !isExpressionNode(useSite); } ts.isValidTypeOnlyAliasUseSite = isValidTypeOnlyAliasUseSite; function typeOnlyDeclarationIsExport(typeOnlyDeclaration) { return typeOnlyDeclaration.kind === 263 /* ExportSpecifier */; } ts.typeOnlyDeclarationIsExport = typeOnlyDeclarationIsExport; function isPartOfPossiblyValidTypeOrAbstractComputedPropertyName(node) { while (node.kind === 75 /* Identifier */ || node.kind === 194 /* PropertyAccessExpression */) { node = node.parent; } if (node.kind !== 154 /* ComputedPropertyName */) { return false; } if (hasModifier(node.parent, 128 /* Abstract */)) { return true; } var containerKind = node.parent.parent.kind; return containerKind === 246 /* InterfaceDeclaration */ || containerKind === 173 /* TypeLiteral */; } /** Returns true for an identifier in 1) an `implements` clause, and 2) an `extends` clause of an interface. */ function isIdentifierInNonEmittingHeritageClause(node) { if (node.kind !== 75 /* Identifier */) return false; var heritageClause = findAncestor(node.parent, function (parent) { switch (parent.kind) { case 279 /* HeritageClause */: return true; case 194 /* PropertyAccessExpression */: case 216 /* ExpressionWithTypeArguments */: return false; default: return "quit"; } }); return (heritageClause === null || heritageClause === void 0 ? void 0 : heritageClause.token) === 113 /* ImplementsKeyword */ || (heritageClause === null || heritageClause === void 0 ? void 0 : heritageClause.parent.kind) === 246 /* InterfaceDeclaration */; } function isIdentifierTypeReference(node) { return ts.isTypeReferenceNode(node) && ts.isIdentifier(node.typeName); } ts.isIdentifierTypeReference = isIdentifierTypeReference; function arrayIsHomogeneous(array, comparer) { if (comparer === void 0) { comparer = ts.equateValues; } if (array.length < 2) return true; var first = array[0]; for (var i = 1, length_1 = array.length; i < length_1; i++) { var target = array[i]; if (!comparer(first, target)) return false; } return true; } ts.arrayIsHomogeneous = arrayIsHomogeneous; })(ts || (ts = {})); var ts; (function (ts) { var SignatureFlags; (function (SignatureFlags) { SignatureFlags[SignatureFlags["None"] = 0] = "None"; SignatureFlags[SignatureFlags["Yield"] = 1] = "Yield"; SignatureFlags[SignatureFlags["Await"] = 2] = "Await"; SignatureFlags[SignatureFlags["Type"] = 4] = "Type"; SignatureFlags[SignatureFlags["IgnoreMissingOpenBrace"] = 16] = "IgnoreMissingOpenBrace"; SignatureFlags[SignatureFlags["JSDoc"] = 32] = "JSDoc"; })(SignatureFlags || (SignatureFlags = {})); var NodeConstructor; var TokenConstructor; var IdentifierConstructor; var PrivateIdentifierConstructor; var SourceFileConstructor; function createNode(kind, pos, end) { if (kind === 290 /* SourceFile */) { return new (SourceFileConstructor || (SourceFileConstructor = ts.objectAllocator.getSourceFileConstructor()))(kind, pos, end); } else if (kind === 75 /* Identifier */) { return new (IdentifierConstructor || (IdentifierConstructor = ts.objectAllocator.getIdentifierConstructor()))(kind, pos, end); } else if (kind === 76 /* PrivateIdentifier */) { return new (PrivateIdentifierConstructor || (PrivateIdentifierConstructor = ts.objectAllocator.getPrivateIdentifierConstructor()))(kind, pos, end); } else if (!ts.isNodeKind(kind)) { return new (TokenConstructor || (TokenConstructor = ts.objectAllocator.getTokenConstructor()))(kind, pos, end); } else { return new (NodeConstructor || (NodeConstructor = ts.objectAllocator.getNodeConstructor()))(kind, pos, end); } } ts.createNode = createNode; function visitNode(cbNode, node) { return node && cbNode(node); } function visitNodes(cbNode, cbNodes, nodes) { if (nodes) { if (cbNodes) { return cbNodes(nodes); } for (var _i = 0, nodes_1 = nodes; _i < nodes_1.length; _i++) { var node = nodes_1[_i]; var result = cbNode(node); if (result) { return result; } } } } /*@internal*/ function isJSDocLikeText(text, start) { return text.charCodeAt(start + 1) === 42 /* asterisk */ && text.charCodeAt(start + 2) === 42 /* asterisk */ && text.charCodeAt(start + 3) !== 47 /* slash */; } ts.isJSDocLikeText = isJSDocLikeText; /** * Invokes a callback for each child of the given node. The 'cbNode' callback is invoked for all child nodes * stored in properties. If a 'cbNodes' callback is specified, it is invoked for embedded arrays; otherwise, * embedded arrays are flattened and the 'cbNode' callback is invoked for each element. If a callback returns * a truthy value, iteration stops and that value is returned. Otherwise, undefined is returned. * * @param node a given node to visit its children * @param cbNode a callback to be invoked for all child nodes * @param cbNodes a callback to be invoked for embedded array * * @remarks `forEachChild` must visit the children of a node in the order * that they appear in the source code. The language service depends on this property to locate nodes by position. */ function forEachChild(node, cbNode, cbNodes) { if (!node || node.kind <= 152 /* LastToken */) { return; } switch (node.kind) { case 153 /* QualifiedName */: return visitNode(cbNode, node.left) || visitNode(cbNode, node.right); case 155 /* TypeParameter */: return visitNode(cbNode, node.name) || visitNode(cbNode, node.constraint) || visitNode(cbNode, node.default) || visitNode(cbNode, node.expression); case 282 /* ShorthandPropertyAssignment */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.exclamationToken) || visitNode(cbNode, node.equalsToken) || visitNode(cbNode, node.objectAssignmentInitializer); case 283 /* SpreadAssignment */: return visitNode(cbNode, node.expression); case 156 /* Parameter */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.dotDotDotToken) || visitNode(cbNode, node.name) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.type) || visitNode(cbNode, node.initializer); case 159 /* PropertyDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.exclamationToken) || visitNode(cbNode, node.type) || visitNode(cbNode, node.initializer); case 158 /* PropertySignature */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.type) || visitNode(cbNode, node.initializer); case 281 /* PropertyAssignment */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.initializer); case 242 /* VariableDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.exclamationToken) || visitNode(cbNode, node.type) || visitNode(cbNode, node.initializer); case 191 /* BindingElement */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.dotDotDotToken) || visitNode(cbNode, node.propertyName) || visitNode(cbNode, node.name) || visitNode(cbNode, node.initializer); case 170 /* FunctionType */: case 171 /* ConstructorType */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNodes(cbNode, cbNodes, node.typeParameters) || visitNodes(cbNode, cbNodes, node.parameters) || visitNode(cbNode, node.type); case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 201 /* FunctionExpression */: case 244 /* FunctionDeclaration */: case 202 /* ArrowFunction */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.asteriskToken) || visitNode(cbNode, node.name) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.exclamationToken) || visitNodes(cbNode, cbNodes, node.typeParameters) || visitNodes(cbNode, cbNodes, node.parameters) || visitNode(cbNode, node.type) || visitNode(cbNode, node.equalsGreaterThanToken) || visitNode(cbNode, node.body); case 169 /* TypeReference */: return visitNode(cbNode, node.typeName) || visitNodes(cbNode, cbNodes, node.typeArguments); case 168 /* TypePredicate */: return visitNode(cbNode, node.assertsModifier) || visitNode(cbNode, node.parameterName) || visitNode(cbNode, node.type); case 172 /* TypeQuery */: return visitNode(cbNode, node.exprName); case 173 /* TypeLiteral */: return visitNodes(cbNode, cbNodes, node.members); case 174 /* ArrayType */: return visitNode(cbNode, node.elementType); case 175 /* TupleType */: return visitNodes(cbNode, cbNodes, node.elementTypes); case 178 /* UnionType */: case 179 /* IntersectionType */: return visitNodes(cbNode, cbNodes, node.types); case 180 /* ConditionalType */: return visitNode(cbNode, node.checkType) || visitNode(cbNode, node.extendsType) || visitNode(cbNode, node.trueType) || visitNode(cbNode, node.falseType); case 181 /* InferType */: return visitNode(cbNode, node.typeParameter); case 188 /* ImportType */: return visitNode(cbNode, node.argument) || visitNode(cbNode, node.qualifier) || visitNodes(cbNode, cbNodes, node.typeArguments); case 182 /* ParenthesizedType */: case 184 /* TypeOperator */: return visitNode(cbNode, node.type); case 185 /* IndexedAccessType */: return visitNode(cbNode, node.objectType) || visitNode(cbNode, node.indexType); case 186 /* MappedType */: return visitNode(cbNode, node.readonlyToken) || visitNode(cbNode, node.typeParameter) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.type); case 187 /* LiteralType */: return visitNode(cbNode, node.literal); case 189 /* ObjectBindingPattern */: case 190 /* ArrayBindingPattern */: return visitNodes(cbNode, cbNodes, node.elements); case 192 /* ArrayLiteralExpression */: return visitNodes(cbNode, cbNodes, node.elements); case 193 /* ObjectLiteralExpression */: return visitNodes(cbNode, cbNodes, node.properties); case 194 /* PropertyAccessExpression */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.questionDotToken) || visitNode(cbNode, node.name); case 195 /* ElementAccessExpression */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.questionDotToken) || visitNode(cbNode, node.argumentExpression); case 196 /* CallExpression */: case 197 /* NewExpression */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.questionDotToken) || visitNodes(cbNode, cbNodes, node.typeArguments) || visitNodes(cbNode, cbNodes, node.arguments); case 198 /* TaggedTemplateExpression */: return visitNode(cbNode, node.tag) || visitNode(cbNode, node.questionDotToken) || visitNodes(cbNode, cbNodes, node.typeArguments) || visitNode(cbNode, node.template); case 199 /* TypeAssertionExpression */: return visitNode(cbNode, node.type) || visitNode(cbNode, node.expression); case 200 /* ParenthesizedExpression */: return visitNode(cbNode, node.expression); case 203 /* DeleteExpression */: return visitNode(cbNode, node.expression); case 204 /* TypeOfExpression */: return visitNode(cbNode, node.expression); case 205 /* VoidExpression */: return visitNode(cbNode, node.expression); case 207 /* PrefixUnaryExpression */: return visitNode(cbNode, node.operand); case 212 /* YieldExpression */: return visitNode(cbNode, node.asteriskToken) || visitNode(cbNode, node.expression); case 206 /* AwaitExpression */: return visitNode(cbNode, node.expression); case 208 /* PostfixUnaryExpression */: return visitNode(cbNode, node.operand); case 209 /* BinaryExpression */: return visitNode(cbNode, node.left) || visitNode(cbNode, node.operatorToken) || visitNode(cbNode, node.right); case 217 /* AsExpression */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.type); case 218 /* NonNullExpression */: return visitNode(cbNode, node.expression); case 219 /* MetaProperty */: return visitNode(cbNode, node.name); case 210 /* ConditionalExpression */: return visitNode(cbNode, node.condition) || visitNode(cbNode, node.questionToken) || visitNode(cbNode, node.whenTrue) || visitNode(cbNode, node.colonToken) || visitNode(cbNode, node.whenFalse); case 213 /* SpreadElement */: return visitNode(cbNode, node.expression); case 223 /* Block */: case 250 /* ModuleBlock */: return visitNodes(cbNode, cbNodes, node.statements); case 290 /* SourceFile */: return visitNodes(cbNode, cbNodes, node.statements) || visitNode(cbNode, node.endOfFileToken); case 225 /* VariableStatement */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.declarationList); case 243 /* VariableDeclarationList */: return visitNodes(cbNode, cbNodes, node.declarations); case 226 /* ExpressionStatement */: return visitNode(cbNode, node.expression); case 227 /* IfStatement */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.thenStatement) || visitNode(cbNode, node.elseStatement); case 228 /* DoStatement */: return visitNode(cbNode, node.statement) || visitNode(cbNode, node.expression); case 229 /* WhileStatement */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.statement); case 230 /* ForStatement */: return visitNode(cbNode, node.initializer) || visitNode(cbNode, node.condition) || visitNode(cbNode, node.incrementor) || visitNode(cbNode, node.statement); case 231 /* ForInStatement */: return visitNode(cbNode, node.initializer) || visitNode(cbNode, node.expression) || visitNode(cbNode, node.statement); case 232 /* ForOfStatement */: return visitNode(cbNode, node.awaitModifier) || visitNode(cbNode, node.initializer) || visitNode(cbNode, node.expression) || visitNode(cbNode, node.statement); case 233 /* ContinueStatement */: case 234 /* BreakStatement */: return visitNode(cbNode, node.label); case 235 /* ReturnStatement */: return visitNode(cbNode, node.expression); case 236 /* WithStatement */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.statement); case 237 /* SwitchStatement */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.caseBlock); case 251 /* CaseBlock */: return visitNodes(cbNode, cbNodes, node.clauses); case 277 /* CaseClause */: return visitNode(cbNode, node.expression) || visitNodes(cbNode, cbNodes, node.statements); case 278 /* DefaultClause */: return visitNodes(cbNode, cbNodes, node.statements); case 238 /* LabeledStatement */: return visitNode(cbNode, node.label) || visitNode(cbNode, node.statement); case 239 /* ThrowStatement */: return visitNode(cbNode, node.expression); case 240 /* TryStatement */: return visitNode(cbNode, node.tryBlock) || visitNode(cbNode, node.catchClause) || visitNode(cbNode, node.finallyBlock); case 280 /* CatchClause */: return visitNode(cbNode, node.variableDeclaration) || visitNode(cbNode, node.block); case 157 /* Decorator */: return visitNode(cbNode, node.expression); case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNodes(cbNode, cbNodes, node.typeParameters) || visitNodes(cbNode, cbNodes, node.heritageClauses) || visitNodes(cbNode, cbNodes, node.members); case 246 /* InterfaceDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNodes(cbNode, cbNodes, node.typeParameters) || visitNodes(cbNode, cbNodes, node.heritageClauses) || visitNodes(cbNode, cbNodes, node.members); case 247 /* TypeAliasDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNodes(cbNode, cbNodes, node.typeParameters) || visitNode(cbNode, node.type); case 248 /* EnumDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNodes(cbNode, cbNodes, node.members); case 284 /* EnumMember */: return visitNode(cbNode, node.name) || visitNode(cbNode, node.initializer); case 249 /* ModuleDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.body); case 253 /* ImportEqualsDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.name) || visitNode(cbNode, node.moduleReference); case 254 /* ImportDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.importClause) || visitNode(cbNode, node.moduleSpecifier); case 255 /* ImportClause */: return visitNode(cbNode, node.name) || visitNode(cbNode, node.namedBindings); case 252 /* NamespaceExportDeclaration */: return visitNode(cbNode, node.name); case 256 /* NamespaceImport */: return visitNode(cbNode, node.name); case 262 /* NamespaceExport */: return visitNode(cbNode, node.name); case 257 /* NamedImports */: case 261 /* NamedExports */: return visitNodes(cbNode, cbNodes, node.elements); case 260 /* ExportDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.exportClause) || visitNode(cbNode, node.moduleSpecifier); case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: return visitNode(cbNode, node.propertyName) || visitNode(cbNode, node.name); case 259 /* ExportAssignment */: return visitNodes(cbNode, cbNodes, node.decorators) || visitNodes(cbNode, cbNodes, node.modifiers) || visitNode(cbNode, node.expression); case 211 /* TemplateExpression */: return visitNode(cbNode, node.head) || visitNodes(cbNode, cbNodes, node.templateSpans); case 221 /* TemplateSpan */: return visitNode(cbNode, node.expression) || visitNode(cbNode, node.literal); case 154 /* ComputedPropertyName */: return visitNode(cbNode, node.expression); case 279 /* HeritageClause */: return visitNodes(cbNode, cbNodes, node.types); case 216 /* ExpressionWithTypeArguments */: return visitNode(cbNode, node.expression) || visitNodes(cbNode, cbNodes, node.typeArguments); case 265 /* ExternalModuleReference */: return visitNode(cbNode, node.expression); case 264 /* MissingDeclaration */: return visitNodes(cbNode, cbNodes, node.decorators); case 327 /* CommaListExpression */: return visitNodes(cbNode, cbNodes, node.elements); case 266 /* JsxElement */: return visitNode(cbNode, node.openingElement) || visitNodes(cbNode, cbNodes, node.children) || visitNode(cbNode, node.closingElement); case 270 /* JsxFragment */: return visitNode(cbNode, node.openingFragment) || visitNodes(cbNode, cbNodes, node.children) || visitNode(cbNode, node.closingFragment); case 267 /* JsxSelfClosingElement */: case 268 /* JsxOpeningElement */: return visitNode(cbNode, node.tagName) || visitNodes(cbNode, cbNodes, node.typeArguments) || visitNode(cbNode, node.attributes); case 274 /* JsxAttributes */: return visitNodes(cbNode, cbNodes, node.properties); case 273 /* JsxAttribute */: return visitNode(cbNode, node.name) || visitNode(cbNode, node.initializer); case 275 /* JsxSpreadAttribute */: return visitNode(cbNode, node.expression); case 276 /* JsxExpression */: return visitNode(cbNode, node.dotDotDotToken) || visitNode(cbNode, node.expression); case 269 /* JsxClosingElement */: return visitNode(cbNode, node.tagName); case 176 /* OptionalType */: case 177 /* RestType */: case 294 /* JSDocTypeExpression */: case 298 /* JSDocNonNullableType */: case 297 /* JSDocNullableType */: case 299 /* JSDocOptionalType */: case 301 /* JSDocVariadicType */: return visitNode(cbNode, node.type); case 300 /* JSDocFunctionType */: return visitNodes(cbNode, cbNodes, node.parameters) || visitNode(cbNode, node.type); case 303 /* JSDocComment */: return visitNodes(cbNode, cbNodes, node.tags); case 317 /* JSDocParameterTag */: case 323 /* JSDocPropertyTag */: return visitNode(cbNode, node.tagName) || (node.isNameFirst ? visitNode(cbNode, node.name) || visitNode(cbNode, node.typeExpression) : visitNode(cbNode, node.typeExpression) || visitNode(cbNode, node.name)); case 309 /* JSDocAuthorTag */: return visitNode(cbNode, node.tagName); case 308 /* JSDocImplementsTag */: return visitNode(cbNode, node.tagName) || visitNode(cbNode, node.class); case 307 /* JSDocAugmentsTag */: return visitNode(cbNode, node.tagName) || visitNode(cbNode, node.class); case 321 /* JSDocTemplateTag */: return visitNode(cbNode, node.tagName) || visitNode(cbNode, node.constraint) || visitNodes(cbNode, cbNodes, node.typeParameters); case 322 /* JSDocTypedefTag */: return visitNode(cbNode, node.tagName) || (node.typeExpression && node.typeExpression.kind === 294 /* JSDocTypeExpression */ ? visitNode(cbNode, node.typeExpression) || visitNode(cbNode, node.fullName) : visitNode(cbNode, node.fullName) || visitNode(cbNode, node.typeExpression)); case 315 /* JSDocCallbackTag */: return visitNode(cbNode, node.tagName) || visitNode(cbNode, node.fullName) || visitNode(cbNode, node.typeExpression); case 318 /* JSDocReturnTag */: case 320 /* JSDocTypeTag */: case 319 /* JSDocThisTag */: case 316 /* JSDocEnumTag */: return visitNode(cbNode, node.tagName) || visitNode(cbNode, node.typeExpression); case 305 /* JSDocSignature */: return ts.forEach(node.typeParameters, cbNode) || ts.forEach(node.parameters, cbNode) || visitNode(cbNode, node.type); case 304 /* JSDocTypeLiteral */: return ts.forEach(node.jsDocPropertyTags, cbNode); case 306 /* JSDocTag */: case 310 /* JSDocClassTag */: case 311 /* JSDocPublicTag */: case 312 /* JSDocPrivateTag */: case 313 /* JSDocProtectedTag */: case 314 /* JSDocReadonlyTag */: return visitNode(cbNode, node.tagName); case 326 /* PartiallyEmittedExpression */: return visitNode(cbNode, node.expression); } } ts.forEachChild = forEachChild; /** @internal */ /** * Invokes a callback for each child of the given node. The 'cbNode' callback is invoked for all child nodes * stored in properties. If a 'cbNodes' callback is specified, it is invoked for embedded arrays; additionally, * unlike `forEachChild`, embedded arrays are flattened and the 'cbNode' callback is invoked for each element. * If a callback returns a truthy value, iteration stops and that value is returned. Otherwise, undefined is returned. * * @param node a given node to visit its children * @param cbNode a callback to be invoked for all child nodes * @param cbNodes a callback to be invoked for embedded array * * @remarks Unlike `forEachChild`, `forEachChildRecursively` handles recursively invoking the traversal on each child node found, * and while doing so, handles traversing the structure without relying on the callstack to encode the tree structure. */ function forEachChildRecursively(rootNode, cbNode, cbNodes) { var stack = [rootNode]; while (stack.length) { var parent = stack.pop(); var res = visitAllPossibleChildren(parent, gatherPossibleChildren(parent)); if (res) { return res; } } return; function gatherPossibleChildren(node) { var children = []; forEachChild(node, addWorkItem, addWorkItem); // By using a stack above and `unshift` here, we emulate a depth-first preorder traversal return children; function addWorkItem(n) { children.unshift(n); } } function visitAllPossibleChildren(parent, children) { for (var _i = 0, children_1 = children; _i < children_1.length; _i++) { var child = children_1[_i]; if (ts.isArray(child)) { if (cbNodes) { var res = cbNodes(child, parent); if (res) { if (res === "skip") continue; return res; } } for (var i = child.length - 1; i >= 0; i--) { var realChild = child[i]; var res = cbNode(realChild, parent); if (res) { if (res === "skip") continue; return res; } stack.push(realChild); } } else { stack.push(child); var res = cbNode(child, parent); if (res) { if (res === "skip") continue; return res; } } } } } ts.forEachChildRecursively = forEachChildRecursively; function createSourceFile(fileName, sourceText, languageVersion, setParentNodes, scriptKind) { if (setParentNodes === void 0) { setParentNodes = false; } ts.performance.mark("beforeParse"); var result; ts.perfLogger.logStartParseSourceFile(fileName); if (languageVersion === 100 /* JSON */) { result = Parser.parseSourceFile(fileName, sourceText, languageVersion, /*syntaxCursor*/ undefined, setParentNodes, 6 /* JSON */); } else { result = Parser.parseSourceFile(fileName, sourceText, languageVersion, /*syntaxCursor*/ undefined, setParentNodes, scriptKind); } ts.perfLogger.logStopParseSourceFile(); ts.performance.mark("afterParse"); ts.performance.measure("Parse", "beforeParse", "afterParse"); return result; } ts.createSourceFile = createSourceFile; function parseIsolatedEntityName(text, languageVersion) { return Parser.parseIsolatedEntityName(text, languageVersion); } ts.parseIsolatedEntityName = parseIsolatedEntityName; /** * Parse json text into SyntaxTree and return node and parse errors if any * @param fileName * @param sourceText */ function parseJsonText(fileName, sourceText) { return Parser.parseJsonText(fileName, sourceText); } ts.parseJsonText = parseJsonText; // See also `isExternalOrCommonJsModule` in utilities.ts function isExternalModule(file) { return file.externalModuleIndicator !== undefined; } ts.isExternalModule = isExternalModule; // Produces a new SourceFile for the 'newText' provided. The 'textChangeRange' parameter // indicates what changed between the 'text' that this SourceFile has and the 'newText'. // The SourceFile will be created with the compiler attempting to reuse as many nodes from // this file as possible. // // Note: this function mutates nodes from this SourceFile. That means any existing nodes // from this SourceFile that are being held onto may change as a result (including // becoming detached from any SourceFile). It is recommended that this SourceFile not // be used once 'update' is called on it. function updateSourceFile(sourceFile, newText, textChangeRange, aggressiveChecks) { if (aggressiveChecks === void 0) { aggressiveChecks = false; } var newSourceFile = IncrementalParser.updateSourceFile(sourceFile, newText, textChangeRange, aggressiveChecks); // Because new source file node is created, it may not have the flag PossiblyContainDynamicImport. This is the case if there is no new edit to add dynamic import. // We will manually port the flag to the new source file. newSourceFile.flags |= (sourceFile.flags & 3145728 /* PermanentlySetIncrementalFlags */); return newSourceFile; } ts.updateSourceFile = updateSourceFile; /* @internal */ function parseIsolatedJSDocComment(content, start, length) { var result = Parser.JSDocParser.parseIsolatedJSDocComment(content, start, length); if (result && result.jsDoc) { // because the jsDocComment was parsed out of the source file, it might // not be covered by the fixupParentReferences. Parser.fixupParentReferences(result.jsDoc); } return result; } ts.parseIsolatedJSDocComment = parseIsolatedJSDocComment; /* @internal */ // Exposed only for testing. function parseJSDocTypeExpressionForTests(content, start, length) { return Parser.JSDocParser.parseJSDocTypeExpressionForTests(content, start, length); } ts.parseJSDocTypeExpressionForTests = parseJSDocTypeExpressionForTests; // Implement the parser as a singleton module. We do this for perf reasons because creating // parser instances can actually be expensive enough to impact us on projects with many source // files. var Parser; (function (Parser) { // Share a single scanner across all calls to parse a source file. This helps speed things // up by avoiding the cost of creating/compiling scanners over and over again. var scanner = ts.createScanner(99 /* Latest */, /*skipTrivia*/ true); var disallowInAndDecoratorContext = 4096 /* DisallowInContext */ | 16384 /* DecoratorContext */; // capture constructors in 'initializeState' to avoid null checks var NodeConstructor; var TokenConstructor; var IdentifierConstructor; var PrivateIdentifierConstructor; var SourceFileConstructor; var sourceFile; var parseDiagnostics; var syntaxCursor; var currentToken; var sourceText; var nodeCount; var identifiers; var privateIdentifiers; var identifierCount; var parsingContext; var notParenthesizedArrow; // Flags that dictate what parsing context we're in. For example: // Whether or not we are in strict parsing mode. All that changes in strict parsing mode is // that some tokens that would be considered identifiers may be considered keywords. // // When adding more parser context flags, consider which is the more common case that the // flag will be in. This should be the 'false' state for that flag. The reason for this is // that we don't store data in our nodes unless the value is in the *non-default* state. So, // for example, more often than code 'allows-in' (or doesn't 'disallow-in'). We opt for // 'disallow-in' set to 'false'. Otherwise, if we had 'allowsIn' set to 'true', then almost // all nodes would need extra state on them to store this info. // // Note: 'allowIn' and 'allowYield' track 1:1 with the [in] and [yield] concepts in the ES6 // grammar specification. // // An important thing about these context concepts. By default they are effectively inherited // while parsing through every grammar production. i.e. if you don't change them, then when // you parse a sub-production, it will have the same context values as the parent production. // This is great most of the time. After all, consider all the 'expression' grammar productions // and how nearly all of them pass along the 'in' and 'yield' context values: // // EqualityExpression[In, Yield] : // RelationalExpression[?In, ?Yield] // EqualityExpression[?In, ?Yield] == RelationalExpression[?In, ?Yield] // EqualityExpression[?In, ?Yield] != RelationalExpression[?In, ?Yield] // EqualityExpression[?In, ?Yield] === RelationalExpression[?In, ?Yield] // EqualityExpression[?In, ?Yield] !== RelationalExpression[?In, ?Yield] // // Where you have to be careful is then understanding what the points are in the grammar // where the values are *not* passed along. For example: // // SingleNameBinding[Yield,GeneratorParameter] // [+GeneratorParameter]BindingIdentifier[Yield] Initializer[In]opt // [~GeneratorParameter]BindingIdentifier[?Yield]Initializer[In, ?Yield]opt // // Here this is saying that if the GeneratorParameter context flag is set, that we should // explicitly set the 'yield' context flag to false before calling into the BindingIdentifier // and we should explicitly unset the 'yield' context flag before calling into the Initializer. // production. Conversely, if the GeneratorParameter context flag is not set, then we // should leave the 'yield' context flag alone. // // Getting this all correct is tricky and requires careful reading of the grammar to // understand when these values should be changed versus when they should be inherited. // // Note: it should not be necessary to save/restore these flags during speculative/lookahead // parsing. These context flags are naturally stored and restored through normal recursive // descent parsing and unwinding. var contextFlags; // Whether or not we've had a parse error since creating the last AST node. If we have // encountered an error, it will be stored on the next AST node we create. Parse errors // can be broken down into three categories: // // 1) An error that occurred during scanning. For example, an unterminated literal, or a // character that was completely not understood. // // 2) A token was expected, but was not present. This type of error is commonly produced // by the 'parseExpected' function. // // 3) A token was present that no parsing function was able to consume. This type of error // only occurs in the 'abortParsingListOrMoveToNextToken' function when the parser // decides to skip the token. // // In all of these cases, we want to mark the next node as having had an error before it. // With this mark, we can know in incremental settings if this node can be reused, or if // we have to reparse it. If we don't keep this information around, we may just reuse the // node. in that event we would then not produce the same errors as we did before, causing // significant confusion problems. // // Note: it is necessary that this value be saved/restored during speculative/lookahead // parsing. During lookahead parsing, we will often create a node. That node will have // this value attached, and then this value will be set back to 'false'. If we decide to // rewind, we must get back to the same value we had prior to the lookahead. // // Note: any errors at the end of the file that do not precede a regular node, should get // attached to the EOF token. var parseErrorBeforeNextFinishedNode = false; function parseSourceFile(fileName, sourceText, languageVersion, syntaxCursor, setParentNodes, scriptKind) { if (setParentNodes === void 0) { setParentNodes = false; } scriptKind = ts.ensureScriptKind(fileName, scriptKind); if (scriptKind === 6 /* JSON */) { var result_2 = parseJsonText(fileName, sourceText, languageVersion, syntaxCursor, setParentNodes); ts.convertToObjectWorker(result_2, result_2.parseDiagnostics, /*returnValue*/ false, /*knownRootOptions*/ undefined, /*jsonConversionNotifier*/ undefined); result_2.referencedFiles = ts.emptyArray; result_2.typeReferenceDirectives = ts.emptyArray; result_2.libReferenceDirectives = ts.emptyArray; result_2.amdDependencies = ts.emptyArray; result_2.hasNoDefaultLib = false; result_2.pragmas = ts.emptyMap; return result_2; } initializeState(sourceText, languageVersion, syntaxCursor, scriptKind); var result = parseSourceFileWorker(fileName, languageVersion, setParentNodes, scriptKind); clearState(); return result; } Parser.parseSourceFile = parseSourceFile; function parseIsolatedEntityName(content, languageVersion) { // Choice of `isDeclarationFile` should be arbitrary initializeState(content, languageVersion, /*syntaxCursor*/ undefined, 1 /* JS */); // Prime the scanner. nextToken(); var entityName = parseEntityName(/*allowReservedWords*/ true); var isInvalid = token() === 1 /* EndOfFileToken */ && !parseDiagnostics.length; clearState(); return isInvalid ? entityName : undefined; } Parser.parseIsolatedEntityName = parseIsolatedEntityName; function parseJsonText(fileName, sourceText, languageVersion, syntaxCursor, setParentNodes) { if (languageVersion === void 0) { languageVersion = 2 /* ES2015 */; } initializeState(sourceText, languageVersion, syntaxCursor, 6 /* JSON */); // Set source file so that errors will be reported with this file name sourceFile = createSourceFile(fileName, 2 /* ES2015 */, 6 /* JSON */, /*isDeclaration*/ false); sourceFile.flags = contextFlags; // Prime the scanner. nextToken(); var pos = getNodePos(); if (token() === 1 /* EndOfFileToken */) { sourceFile.statements = createNodeArray([], pos, pos); sourceFile.endOfFileToken = parseTokenNode(); } else { var statement = createNode(226 /* ExpressionStatement */); switch (token()) { case 22 /* OpenBracketToken */: statement.expression = parseArrayLiteralExpression(); break; case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 100 /* NullKeyword */: statement.expression = parseTokenNode(); break; case 40 /* MinusToken */: if (lookAhead(function () { return nextToken() === 8 /* NumericLiteral */ && nextToken() !== 58 /* ColonToken */; })) { statement.expression = parsePrefixUnaryExpression(); } else { statement.expression = parseObjectLiteralExpression(); } break; case 8 /* NumericLiteral */: case 10 /* StringLiteral */: if (lookAhead(function () { return nextToken() !== 58 /* ColonToken */; })) { statement.expression = parseLiteralNode(); break; } // falls through default: statement.expression = parseObjectLiteralExpression(); break; } finishNode(statement); sourceFile.statements = createNodeArray([statement], pos); sourceFile.endOfFileToken = parseExpectedToken(1 /* EndOfFileToken */, ts.Diagnostics.Unexpected_token); } if (setParentNodes) { fixupParentReferences(sourceFile); } sourceFile.nodeCount = nodeCount; sourceFile.identifierCount = identifierCount; sourceFile.identifiers = identifiers; sourceFile.parseDiagnostics = parseDiagnostics; var result = sourceFile; clearState(); return result; } Parser.parseJsonText = parseJsonText; function getLanguageVariant(scriptKind) { // .tsx and .jsx files are treated as jsx language variant. return scriptKind === 4 /* TSX */ || scriptKind === 2 /* JSX */ || scriptKind === 1 /* JS */ || scriptKind === 6 /* JSON */ ? 1 /* JSX */ : 0 /* Standard */; } function initializeState(_sourceText, languageVersion, _syntaxCursor, scriptKind) { NodeConstructor = ts.objectAllocator.getNodeConstructor(); TokenConstructor = ts.objectAllocator.getTokenConstructor(); IdentifierConstructor = ts.objectAllocator.getIdentifierConstructor(); PrivateIdentifierConstructor = ts.objectAllocator.getPrivateIdentifierConstructor(); SourceFileConstructor = ts.objectAllocator.getSourceFileConstructor(); sourceText = _sourceText; syntaxCursor = _syntaxCursor; parseDiagnostics = []; parsingContext = 0; identifiers = ts.createMap(); privateIdentifiers = ts.createMap(); identifierCount = 0; nodeCount = 0; switch (scriptKind) { case 1 /* JS */: case 2 /* JSX */: contextFlags = 131072 /* JavaScriptFile */; break; case 6 /* JSON */: contextFlags = 131072 /* JavaScriptFile */ | 33554432 /* JsonFile */; break; default: contextFlags = 0 /* None */; break; } parseErrorBeforeNextFinishedNode = false; // Initialize and prime the scanner before parsing the source elements. scanner.setText(sourceText); scanner.setOnError(scanError); scanner.setScriptTarget(languageVersion); scanner.setLanguageVariant(getLanguageVariant(scriptKind)); } function clearState() { // Clear out the text the scanner is pointing at, so it doesn't keep anything alive unnecessarily. scanner.clearCommentDirectives(); scanner.setText(""); scanner.setOnError(undefined); // Clear any data. We don't want to accidentally hold onto it for too long. parseDiagnostics = undefined; sourceFile = undefined; identifiers = undefined; syntaxCursor = undefined; sourceText = undefined; notParenthesizedArrow = undefined; } function parseSourceFileWorker(fileName, languageVersion, setParentNodes, scriptKind) { var isDeclarationFile = isDeclarationFileName(fileName); if (isDeclarationFile) { contextFlags |= 8388608 /* Ambient */; } sourceFile = createSourceFile(fileName, languageVersion, scriptKind, isDeclarationFile); sourceFile.flags = contextFlags; // Prime the scanner. nextToken(); // A member of ReadonlyArray isn't assignable to a member of T[] (and prevents a direct cast) - but this is where we set up those members so they can be readonly in the future processCommentPragmas(sourceFile, sourceText); processPragmasIntoFields(sourceFile, reportPragmaDiagnostic); sourceFile.statements = parseList(0 /* SourceElements */, parseStatement); ts.Debug.assert(token() === 1 /* EndOfFileToken */); sourceFile.endOfFileToken = addJSDocComment(parseTokenNode()); setExternalModuleIndicator(sourceFile); sourceFile.commentDirectives = scanner.getCommentDirectives(); sourceFile.nodeCount = nodeCount; sourceFile.identifierCount = identifierCount; sourceFile.identifiers = identifiers; sourceFile.parseDiagnostics = parseDiagnostics; if (setParentNodes) { fixupParentReferences(sourceFile); } return sourceFile; function reportPragmaDiagnostic(pos, end, diagnostic) { parseDiagnostics.push(ts.createFileDiagnostic(sourceFile, pos, end, diagnostic)); } } function addJSDocComment(node) { ts.Debug.assert(!node.jsDoc); // Should only be called once per node var jsDoc = ts.mapDefined(ts.getJSDocCommentRanges(node, sourceFile.text), function (comment) { return JSDocParser.parseJSDocComment(node, comment.pos, comment.end - comment.pos); }); if (jsDoc.length) node.jsDoc = jsDoc; return node; } function fixupParentReferences(rootNode) { // normally parent references are set during binding. However, for clients that only need // a syntax tree, and no semantic features, then the binding process is an unnecessary // overhead. This functions allows us to set all the parents, without all the expense of // binding. forEachChildRecursively(rootNode, bindParentToChild); function bindParentToChild(child, parent) { child.parent = parent; if (ts.hasJSDocNodes(child)) { for (var _i = 0, _a = child.jsDoc; _i < _a.length; _i++) { var doc = _a[_i]; bindParentToChild(doc, child); forEachChildRecursively(doc, bindParentToChild); } } } } Parser.fixupParentReferences = fixupParentReferences; function createSourceFile(fileName, languageVersion, scriptKind, isDeclarationFile) { // code from createNode is inlined here so createNode won't have to deal with special case of creating source files // this is quite rare comparing to other nodes and createNode should be as fast as possible var sourceFile = new SourceFileConstructor(290 /* SourceFile */, /*pos*/ 0, /* end */ sourceText.length); nodeCount++; sourceFile.text = sourceText; sourceFile.bindDiagnostics = []; sourceFile.bindSuggestionDiagnostics = undefined; sourceFile.languageVersion = languageVersion; sourceFile.fileName = ts.normalizePath(fileName); sourceFile.languageVariant = getLanguageVariant(scriptKind); sourceFile.isDeclarationFile = isDeclarationFile; sourceFile.scriptKind = scriptKind; return sourceFile; } function setContextFlag(val, flag) { if (val) { contextFlags |= flag; } else { contextFlags &= ~flag; } } function setDisallowInContext(val) { setContextFlag(val, 4096 /* DisallowInContext */); } function setYieldContext(val) { setContextFlag(val, 8192 /* YieldContext */); } function setDecoratorContext(val) { setContextFlag(val, 16384 /* DecoratorContext */); } function setAwaitContext(val) { setContextFlag(val, 32768 /* AwaitContext */); } function doOutsideOfContext(context, func) { // contextFlagsToClear will contain only the context flags that are // currently set that we need to temporarily clear // We don't just blindly reset to the previous flags to ensure // that we do not mutate cached flags for the incremental // parser (ThisNodeHasError, ThisNodeOrAnySubNodesHasError, and // HasAggregatedChildData). var contextFlagsToClear = context & contextFlags; if (contextFlagsToClear) { // clear the requested context flags setContextFlag(/*val*/ false, contextFlagsToClear); var result = func(); // restore the context flags we just cleared setContextFlag(/*val*/ true, contextFlagsToClear); return result; } // no need to do anything special as we are not in any of the requested contexts return func(); } function doInsideOfContext(context, func) { // contextFlagsToSet will contain only the context flags that // are not currently set that we need to temporarily enable. // We don't just blindly reset to the previous flags to ensure // that we do not mutate cached flags for the incremental // parser (ThisNodeHasError, ThisNodeOrAnySubNodesHasError, and // HasAggregatedChildData). var contextFlagsToSet = context & ~contextFlags; if (contextFlagsToSet) { // set the requested context flags setContextFlag(/*val*/ true, contextFlagsToSet); var result = func(); // reset the context flags we just set setContextFlag(/*val*/ false, contextFlagsToSet); return result; } // no need to do anything special as we are already in all of the requested contexts return func(); } function allowInAnd(func) { return doOutsideOfContext(4096 /* DisallowInContext */, func); } function disallowInAnd(func) { return doInsideOfContext(4096 /* DisallowInContext */, func); } function doInYieldContext(func) { return doInsideOfContext(8192 /* YieldContext */, func); } function doInDecoratorContext(func) { return doInsideOfContext(16384 /* DecoratorContext */, func); } function doInAwaitContext(func) { return doInsideOfContext(32768 /* AwaitContext */, func); } function doOutsideOfAwaitContext(func) { return doOutsideOfContext(32768 /* AwaitContext */, func); } function doInYieldAndAwaitContext(func) { return doInsideOfContext(8192 /* YieldContext */ | 32768 /* AwaitContext */, func); } function doOutsideOfYieldAndAwaitContext(func) { return doOutsideOfContext(8192 /* YieldContext */ | 32768 /* AwaitContext */, func); } function inContext(flags) { return (contextFlags & flags) !== 0; } function inYieldContext() { return inContext(8192 /* YieldContext */); } function inDisallowInContext() { return inContext(4096 /* DisallowInContext */); } function inDecoratorContext() { return inContext(16384 /* DecoratorContext */); } function inAwaitContext() { return inContext(32768 /* AwaitContext */); } function parseErrorAtCurrentToken(message, arg0) { parseErrorAt(scanner.getTokenPos(), scanner.getTextPos(), message, arg0); } function parseErrorAtPosition(start, length, message, arg0) { // Don't report another error if it would just be at the same position as the last error. var lastError = ts.lastOrUndefined(parseDiagnostics); if (!lastError || start !== lastError.start) { parseDiagnostics.push(ts.createFileDiagnostic(sourceFile, start, length, message, arg0)); } // Mark that we've encountered an error. We'll set an appropriate bit on the next // node we finish so that it can't be reused incrementally. parseErrorBeforeNextFinishedNode = true; } function parseErrorAt(start, end, message, arg0) { parseErrorAtPosition(start, end - start, message, arg0); } function parseErrorAtRange(range, message, arg0) { parseErrorAt(range.pos, range.end, message, arg0); } function scanError(message, length) { parseErrorAtPosition(scanner.getTextPos(), length, message); } function getNodePos() { return scanner.getStartPos(); } // Use this function to access the current token instead of reading the currentToken // variable. Since function results aren't narrowed in control flow analysis, this ensures // that the type checker doesn't make wrong assumptions about the type of the current // token (e.g. a call to nextToken() changes the current token but the checker doesn't // reason about this side effect). Mainstream VMs inline simple functions like this, so // there is no performance penalty. function token() { return currentToken; } function nextTokenWithoutCheck() { return currentToken = scanner.scan(); } function nextToken() { // if the keyword had an escape if (ts.isKeyword(currentToken) && (scanner.hasUnicodeEscape() || scanner.hasExtendedUnicodeEscape())) { // issue a parse error for the escape parseErrorAt(scanner.getTokenPos(), scanner.getTextPos(), ts.Diagnostics.Keywords_cannot_contain_escape_characters); } return nextTokenWithoutCheck(); } function nextTokenJSDoc() { return currentToken = scanner.scanJsDocToken(); } function reScanGreaterToken() { return currentToken = scanner.reScanGreaterToken(); } function reScanSlashToken() { return currentToken = scanner.reScanSlashToken(); } function reScanTemplateToken(isTaggedTemplate) { return currentToken = scanner.reScanTemplateToken(isTaggedTemplate); } function reScanTemplateHeadOrNoSubstitutionTemplate() { return currentToken = scanner.reScanTemplateHeadOrNoSubstitutionTemplate(); } function reScanLessThanToken() { return currentToken = scanner.reScanLessThanToken(); } function scanJsxIdentifier() { return currentToken = scanner.scanJsxIdentifier(); } function scanJsxText() { return currentToken = scanner.scanJsxToken(); } function scanJsxAttributeValue() { return currentToken = scanner.scanJsxAttributeValue(); } function speculationHelper(callback, isLookAhead) { // Keep track of the state we'll need to rollback to if lookahead fails (or if the // caller asked us to always reset our state). var saveToken = currentToken; var saveParseDiagnosticsLength = parseDiagnostics.length; var saveParseErrorBeforeNextFinishedNode = parseErrorBeforeNextFinishedNode; // Note: it is not actually necessary to save/restore the context flags here. That's // because the saving/restoring of these flags happens naturally through the recursive // descent nature of our parser. However, we still store this here just so we can // assert that invariant holds. var saveContextFlags = contextFlags; // If we're only looking ahead, then tell the scanner to only lookahead as well. // Otherwise, if we're actually speculatively parsing, then tell the scanner to do the // same. var result = isLookAhead ? scanner.lookAhead(callback) : scanner.tryScan(callback); ts.Debug.assert(saveContextFlags === contextFlags); // If our callback returned something 'falsy' or we're just looking ahead, // then unconditionally restore us to where we were. if (!result || isLookAhead) { currentToken = saveToken; parseDiagnostics.length = saveParseDiagnosticsLength; parseErrorBeforeNextFinishedNode = saveParseErrorBeforeNextFinishedNode; } return result; } /** Invokes the provided callback then unconditionally restores the parser to the state it * was in immediately prior to invoking the callback. The result of invoking the callback * is returned from this function. */ function lookAhead(callback) { return speculationHelper(callback, /*isLookAhead*/ true); } /** Invokes the provided callback. If the callback returns something falsy, then it restores * the parser to the state it was in immediately prior to invoking the callback. If the * callback returns something truthy, then the parser state is not rolled back. The result * of invoking the callback is returned from this function. */ function tryParse(callback) { return speculationHelper(callback, /*isLookAhead*/ false); } // Ignore strict mode flag because we will report an error in type checker instead. function isIdentifier() { if (token() === 75 /* Identifier */) { return true; } // If we have a 'yield' keyword, and we're in the [yield] context, then 'yield' is // considered a keyword and is not an identifier. if (token() === 121 /* YieldKeyword */ && inYieldContext()) { return false; } // If we have a 'await' keyword, and we're in the [Await] context, then 'await' is // considered a keyword and is not an identifier. if (token() === 127 /* AwaitKeyword */ && inAwaitContext()) { return false; } return token() > 112 /* LastReservedWord */; } function parseExpected(kind, diagnosticMessage, shouldAdvance) { if (shouldAdvance === void 0) { shouldAdvance = true; } if (token() === kind) { if (shouldAdvance) { nextToken(); } return true; } // Report specific message if provided with one. Otherwise, report generic fallback message. if (diagnosticMessage) { parseErrorAtCurrentToken(diagnosticMessage); } else { parseErrorAtCurrentToken(ts.Diagnostics._0_expected, ts.tokenToString(kind)); } return false; } function parseExpectedJSDoc(kind) { if (token() === kind) { nextTokenJSDoc(); return true; } parseErrorAtCurrentToken(ts.Diagnostics._0_expected, ts.tokenToString(kind)); return false; } function parseOptional(t) { if (token() === t) { nextToken(); return true; } return false; } function parseOptionalToken(t) { if (token() === t) { return parseTokenNode(); } return undefined; } function parseOptionalTokenJSDoc(t) { if (token() === t) { return parseTokenNodeJSDoc(); } return undefined; } function parseExpectedToken(t, diagnosticMessage, arg0) { return parseOptionalToken(t) || createMissingNode(t, /*reportAtCurrentPosition*/ false, diagnosticMessage || ts.Diagnostics._0_expected, arg0 || ts.tokenToString(t)); } function parseExpectedTokenJSDoc(t) { return parseOptionalTokenJSDoc(t) || createMissingNode(t, /*reportAtCurrentPosition*/ false, ts.Diagnostics._0_expected, ts.tokenToString(t)); } function parseTokenNode() { var node = createNode(token()); nextToken(); return finishNode(node); } function parseTokenNodeJSDoc() { var node = createNode(token()); nextTokenJSDoc(); return finishNode(node); } function canParseSemicolon() { // If there's a real semicolon, then we can always parse it out. if (token() === 26 /* SemicolonToken */) { return true; } // We can parse out an optional semicolon in ASI cases in the following cases. return token() === 19 /* CloseBraceToken */ || token() === 1 /* EndOfFileToken */ || scanner.hasPrecedingLineBreak(); } function parseSemicolon() { if (canParseSemicolon()) { if (token() === 26 /* SemicolonToken */) { // consume the semicolon if it was explicitly provided. nextToken(); } return true; } else { return parseExpected(26 /* SemicolonToken */); } } function createNode(kind, pos) { nodeCount++; var p = pos >= 0 ? pos : scanner.getStartPos(); return ts.isNodeKind(kind) || kind === 0 /* Unknown */ ? new NodeConstructor(kind, p, p) : kind === 75 /* Identifier */ ? new IdentifierConstructor(kind, p, p) : kind === 76 /* PrivateIdentifier */ ? new PrivateIdentifierConstructor(kind, p, p) : new TokenConstructor(kind, p, p); } function createNodeWithJSDoc(kind, pos) { var node = createNode(kind, pos); if (scanner.getTokenFlags() & 2 /* PrecedingJSDocComment */ && (kind !== 226 /* ExpressionStatement */ || token() !== 20 /* OpenParenToken */)) { addJSDocComment(node); } return node; } function createNodeArray(elements, pos, end) { // Since the element list of a node array is typically created by starting with an empty array and // repeatedly calling push(), the list may not have the optimal memory layout. We invoke slice() for // small arrays (1 to 4 elements) to give the VM a chance to allocate an optimal representation. var length = elements.length; var array = (length >= 1 && length <= 4 ? elements.slice() : elements); array.pos = pos; array.end = end === undefined ? scanner.getStartPos() : end; return array; } function finishNode(node, end) { node.end = end === undefined ? scanner.getStartPos() : end; if (contextFlags) { node.flags |= contextFlags; } // Keep track on the node if we encountered an error while parsing it. If we did, then // we cannot reuse the node incrementally. Once we've marked this node, clear out the // flag so that we don't mark any subsequent nodes. if (parseErrorBeforeNextFinishedNode) { parseErrorBeforeNextFinishedNode = false; node.flags |= 65536 /* ThisNodeHasError */; } return node; } function createMissingNode(kind, reportAtCurrentPosition, diagnosticMessage, arg0) { if (reportAtCurrentPosition) { parseErrorAtPosition(scanner.getStartPos(), 0, diagnosticMessage, arg0); } else if (diagnosticMessage) { parseErrorAtCurrentToken(diagnosticMessage, arg0); } var result = createNode(kind); if (kind === 75 /* Identifier */) { result.escapedText = ""; } else if (ts.isLiteralKind(kind) || ts.isTemplateLiteralKind(kind)) { result.text = ""; } return finishNode(result); } function internIdentifier(text) { var identifier = identifiers.get(text); if (identifier === undefined) { identifiers.set(text, identifier = text); } return identifier; } // An identifier that starts with two underscores has an extra underscore character prepended to it to avoid issues // with magic property names like '__proto__'. The 'identifiers' object is used to share a single string instance for // each identifier in order to reduce memory consumption. function createIdentifier(isIdentifier, diagnosticMessage, privateIdentifierDiagnosticMessage) { identifierCount++; if (isIdentifier) { var node = createNode(75 /* Identifier */); // Store original token kind if it is not just an Identifier so we can report appropriate error later in type checker if (token() !== 75 /* Identifier */) { node.originalKeywordKind = token(); } node.escapedText = ts.escapeLeadingUnderscores(internIdentifier(scanner.getTokenValue())); nextTokenWithoutCheck(); return finishNode(node); } if (token() === 76 /* PrivateIdentifier */) { parseErrorAtCurrentToken(privateIdentifierDiagnosticMessage || ts.Diagnostics.Private_identifiers_are_not_allowed_outside_class_bodies); return createIdentifier(/*isIdentifier*/ true); } // Only for end of file because the error gets reported incorrectly on embedded script tags. var reportAtCurrentPosition = token() === 1 /* EndOfFileToken */; var isReservedWord = scanner.isReservedWord(); var msgArg = scanner.getTokenText(); var defaultMessage = isReservedWord ? ts.Diagnostics.Identifier_expected_0_is_a_reserved_word_that_cannot_be_used_here : ts.Diagnostics.Identifier_expected; return createMissingNode(75 /* Identifier */, reportAtCurrentPosition, diagnosticMessage || defaultMessage, msgArg); } function parseIdentifier(diagnosticMessage, privateIdentifierDiagnosticMessage) { return createIdentifier(isIdentifier(), diagnosticMessage, privateIdentifierDiagnosticMessage); } function parseIdentifierName(diagnosticMessage) { return createIdentifier(ts.tokenIsIdentifierOrKeyword(token()), diagnosticMessage); } function isLiteralPropertyName() { return ts.tokenIsIdentifierOrKeyword(token()) || token() === 10 /* StringLiteral */ || token() === 8 /* NumericLiteral */; } function parsePropertyNameWorker(allowComputedPropertyNames) { if (token() === 10 /* StringLiteral */ || token() === 8 /* NumericLiteral */) { var node = parseLiteralNode(); node.text = internIdentifier(node.text); return node; } if (allowComputedPropertyNames && token() === 22 /* OpenBracketToken */) { return parseComputedPropertyName(); } if (token() === 76 /* PrivateIdentifier */) { return parsePrivateIdentifier(); } return parseIdentifierName(); } function parsePropertyName() { return parsePropertyNameWorker(/*allowComputedPropertyNames*/ true); } function parseComputedPropertyName() { // PropertyName [Yield]: // LiteralPropertyName // ComputedPropertyName[?Yield] var node = createNode(154 /* ComputedPropertyName */); parseExpected(22 /* OpenBracketToken */); // We parse any expression (including a comma expression). But the grammar // says that only an assignment expression is allowed, so the grammar checker // will error if it sees a comma expression. node.expression = allowInAnd(parseExpression); parseExpected(23 /* CloseBracketToken */); return finishNode(node); } function internPrivateIdentifier(text) { var privateIdentifier = privateIdentifiers.get(text); if (privateIdentifier === undefined) { privateIdentifiers.set(text, privateIdentifier = text); } return privateIdentifier; } function parsePrivateIdentifier() { var node = createNode(76 /* PrivateIdentifier */); node.escapedText = ts.escapeLeadingUnderscores(internPrivateIdentifier(scanner.getTokenText())); nextToken(); return finishNode(node); } function parseContextualModifier(t) { return token() === t && tryParse(nextTokenCanFollowModifier); } function nextTokenIsOnSameLineAndCanFollowModifier() { nextToken(); if (scanner.hasPrecedingLineBreak()) { return false; } return canFollowModifier(); } function nextTokenCanFollowModifier() { switch (token()) { case 81 /* ConstKeyword */: // 'const' is only a modifier if followed by 'enum'. return nextToken() === 88 /* EnumKeyword */; case 89 /* ExportKeyword */: nextToken(); if (token() === 84 /* DefaultKeyword */) { return lookAhead(nextTokenCanFollowDefaultKeyword); } if (token() === 145 /* TypeKeyword */) { return lookAhead(nextTokenCanFollowExportModifier); } return canFollowExportModifier(); case 84 /* DefaultKeyword */: return nextTokenCanFollowDefaultKeyword(); case 120 /* StaticKeyword */: case 131 /* GetKeyword */: case 142 /* SetKeyword */: nextToken(); return canFollowModifier(); default: return nextTokenIsOnSameLineAndCanFollowModifier(); } } function canFollowExportModifier() { return token() !== 41 /* AsteriskToken */ && token() !== 123 /* AsKeyword */ && token() !== 18 /* OpenBraceToken */ && canFollowModifier(); } function nextTokenCanFollowExportModifier() { nextToken(); return canFollowExportModifier(); } function parseAnyContextualModifier() { return ts.isModifierKind(token()) && tryParse(nextTokenCanFollowModifier); } function canFollowModifier() { return token() === 22 /* OpenBracketToken */ || token() === 18 /* OpenBraceToken */ || token() === 41 /* AsteriskToken */ || token() === 25 /* DotDotDotToken */ || isLiteralPropertyName(); } function nextTokenCanFollowDefaultKeyword() { nextToken(); return token() === 80 /* ClassKeyword */ || token() === 94 /* FunctionKeyword */ || token() === 114 /* InterfaceKeyword */ || (token() === 122 /* AbstractKeyword */ && lookAhead(nextTokenIsClassKeywordOnSameLine)) || (token() === 126 /* AsyncKeyword */ && lookAhead(nextTokenIsFunctionKeywordOnSameLine)); } // True if positioned at the start of a list element function isListElement(parsingContext, inErrorRecovery) { var node = currentNode(parsingContext); if (node) { return true; } switch (parsingContext) { case 0 /* SourceElements */: case 1 /* BlockStatements */: case 3 /* SwitchClauseStatements */: // If we're in error recovery, then we don't want to treat ';' as an empty statement. // The problem is that ';' can show up in far too many contexts, and if we see one // and assume it's a statement, then we may bail out inappropriately from whatever // we're parsing. For example, if we have a semicolon in the middle of a class, then // we really don't want to assume the class is over and we're on a statement in the // outer module. We just want to consume and move on. return !(token() === 26 /* SemicolonToken */ && inErrorRecovery) && isStartOfStatement(); case 2 /* SwitchClauses */: return token() === 78 /* CaseKeyword */ || token() === 84 /* DefaultKeyword */; case 4 /* TypeMembers */: return lookAhead(isTypeMemberStart); case 5 /* ClassMembers */: // We allow semicolons as class elements (as specified by ES6) as long as we're // not in error recovery. If we're in error recovery, we don't want an errant // semicolon to be treated as a class member (since they're almost always used // for statements. return lookAhead(isClassMemberStart) || (token() === 26 /* SemicolonToken */ && !inErrorRecovery); case 6 /* EnumMembers */: // Include open bracket computed properties. This technically also lets in indexers, // which would be a candidate for improved error reporting. return token() === 22 /* OpenBracketToken */ || isLiteralPropertyName(); case 12 /* ObjectLiteralMembers */: switch (token()) { case 22 /* OpenBracketToken */: case 41 /* AsteriskToken */: case 25 /* DotDotDotToken */: case 24 /* DotToken */: // Not an object literal member, but don't want to close the object (see `tests/cases/fourslash/completionsDotInObjectLiteral.ts`) return true; default: return isLiteralPropertyName(); } case 18 /* RestProperties */: return isLiteralPropertyName(); case 9 /* ObjectBindingElements */: return token() === 22 /* OpenBracketToken */ || token() === 25 /* DotDotDotToken */ || isLiteralPropertyName(); case 7 /* HeritageClauseElement */: // If we see `{ ... }` then only consume it as an expression if it is followed by `,` or `{` // That way we won't consume the body of a class in its heritage clause. if (token() === 18 /* OpenBraceToken */) { return lookAhead(isValidHeritageClauseObjectLiteral); } if (!inErrorRecovery) { return isStartOfLeftHandSideExpression() && !isHeritageClauseExtendsOrImplementsKeyword(); } else { // If we're in error recovery we tighten up what we're willing to match. // That way we don't treat something like "this" as a valid heritage clause // element during recovery. return isIdentifier() && !isHeritageClauseExtendsOrImplementsKeyword(); } case 8 /* VariableDeclarations */: return isIdentifierOrPrivateIdentifierOrPattern(); case 10 /* ArrayBindingElements */: return token() === 27 /* CommaToken */ || token() === 25 /* DotDotDotToken */ || isIdentifierOrPrivateIdentifierOrPattern(); case 19 /* TypeParameters */: return isIdentifier(); case 15 /* ArrayLiteralMembers */: switch (token()) { case 27 /* CommaToken */: case 24 /* DotToken */: // Not an array literal member, but don't want to close the array (see `tests/cases/fourslash/completionsDotInArrayLiteralInObjectLiteral.ts`) return true; } // falls through case 11 /* ArgumentExpressions */: return token() === 25 /* DotDotDotToken */ || isStartOfExpression(); case 16 /* Parameters */: return isStartOfParameter(/*isJSDocParameter*/ false); case 17 /* JSDocParameters */: return isStartOfParameter(/*isJSDocParameter*/ true); case 20 /* TypeArguments */: case 21 /* TupleElementTypes */: return token() === 27 /* CommaToken */ || isStartOfType(); case 22 /* HeritageClauses */: return isHeritageClause(); case 23 /* ImportOrExportSpecifiers */: return ts.tokenIsIdentifierOrKeyword(token()); case 13 /* JsxAttributes */: return ts.tokenIsIdentifierOrKeyword(token()) || token() === 18 /* OpenBraceToken */; case 14 /* JsxChildren */: return true; } return ts.Debug.fail("Non-exhaustive case in 'isListElement'."); } function isValidHeritageClauseObjectLiteral() { ts.Debug.assert(token() === 18 /* OpenBraceToken */); if (nextToken() === 19 /* CloseBraceToken */) { // if we see "extends {}" then only treat the {} as what we're extending (and not // the class body) if we have: // // extends {} { // extends {}, // extends {} extends // extends {} implements var next = nextToken(); return next === 27 /* CommaToken */ || next === 18 /* OpenBraceToken */ || next === 90 /* ExtendsKeyword */ || next === 113 /* ImplementsKeyword */; } return true; } function nextTokenIsIdentifier() { nextToken(); return isIdentifier(); } function nextTokenIsIdentifierOrKeyword() { nextToken(); return ts.tokenIsIdentifierOrKeyword(token()); } function nextTokenIsIdentifierOrKeywordOrGreaterThan() { nextToken(); return ts.tokenIsIdentifierOrKeywordOrGreaterThan(token()); } function isHeritageClauseExtendsOrImplementsKeyword() { if (token() === 113 /* ImplementsKeyword */ || token() === 90 /* ExtendsKeyword */) { return lookAhead(nextTokenIsStartOfExpression); } return false; } function nextTokenIsStartOfExpression() { nextToken(); return isStartOfExpression(); } function nextTokenIsStartOfType() { nextToken(); return isStartOfType(); } // True if positioned at a list terminator function isListTerminator(kind) { if (token() === 1 /* EndOfFileToken */) { // Being at the end of the file ends all lists. return true; } switch (kind) { case 1 /* BlockStatements */: case 2 /* SwitchClauses */: case 4 /* TypeMembers */: case 5 /* ClassMembers */: case 6 /* EnumMembers */: case 12 /* ObjectLiteralMembers */: case 9 /* ObjectBindingElements */: case 23 /* ImportOrExportSpecifiers */: return token() === 19 /* CloseBraceToken */; case 3 /* SwitchClauseStatements */: return token() === 19 /* CloseBraceToken */ || token() === 78 /* CaseKeyword */ || token() === 84 /* DefaultKeyword */; case 7 /* HeritageClauseElement */: return token() === 18 /* OpenBraceToken */ || token() === 90 /* ExtendsKeyword */ || token() === 113 /* ImplementsKeyword */; case 8 /* VariableDeclarations */: return isVariableDeclaratorListTerminator(); case 19 /* TypeParameters */: // Tokens other than '>' are here for better error recovery return token() === 31 /* GreaterThanToken */ || token() === 20 /* OpenParenToken */ || token() === 18 /* OpenBraceToken */ || token() === 90 /* ExtendsKeyword */ || token() === 113 /* ImplementsKeyword */; case 11 /* ArgumentExpressions */: // Tokens other than ')' are here for better error recovery return token() === 21 /* CloseParenToken */ || token() === 26 /* SemicolonToken */; case 15 /* ArrayLiteralMembers */: case 21 /* TupleElementTypes */: case 10 /* ArrayBindingElements */: return token() === 23 /* CloseBracketToken */; case 17 /* JSDocParameters */: case 16 /* Parameters */: case 18 /* RestProperties */: // Tokens other than ')' and ']' (the latter for index signatures) are here for better error recovery return token() === 21 /* CloseParenToken */ || token() === 23 /* CloseBracketToken */ /*|| token === SyntaxKind.OpenBraceToken*/; case 20 /* TypeArguments */: // All other tokens should cause the type-argument to terminate except comma token return token() !== 27 /* CommaToken */; case 22 /* HeritageClauses */: return token() === 18 /* OpenBraceToken */ || token() === 19 /* CloseBraceToken */; case 13 /* JsxAttributes */: return token() === 31 /* GreaterThanToken */ || token() === 43 /* SlashToken */; case 14 /* JsxChildren */: return token() === 29 /* LessThanToken */ && lookAhead(nextTokenIsSlash); default: return false; } } function isVariableDeclaratorListTerminator() { // If we can consume a semicolon (either explicitly, or with ASI), then consider us done // with parsing the list of variable declarators. if (canParseSemicolon()) { return true; } // in the case where we're parsing the variable declarator of a 'for-in' statement, we // are done if we see an 'in' keyword in front of us. Same with for-of if (isInOrOfKeyword(token())) { return true; } // ERROR RECOVERY TWEAK: // For better error recovery, if we see an '=>' then we just stop immediately. We've got an // arrow function here and it's going to be very unlikely that we'll resynchronize and get // another variable declaration. if (token() === 38 /* EqualsGreaterThanToken */) { return true; } // Keep trying to parse out variable declarators. return false; } // True if positioned at element or terminator of the current list or any enclosing list function isInSomeParsingContext() { for (var kind = 0; kind < 24 /* Count */; kind++) { if (parsingContext & (1 << kind)) { if (isListElement(kind, /*inErrorRecovery*/ true) || isListTerminator(kind)) { return true; } } } return false; } // Parses a list of elements function parseList(kind, parseElement) { var saveParsingContext = parsingContext; parsingContext |= 1 << kind; var list = []; var listPos = getNodePos(); while (!isListTerminator(kind)) { if (isListElement(kind, /*inErrorRecovery*/ false)) { var element = parseListElement(kind, parseElement); list.push(element); continue; } if (abortParsingListOrMoveToNextToken(kind)) { break; } } parsingContext = saveParsingContext; return createNodeArray(list, listPos); } function parseListElement(parsingContext, parseElement) { var node = currentNode(parsingContext); if (node) { return consumeNode(node); } return parseElement(); } function currentNode(parsingContext) { // If we don't have a cursor or the parsing context isn't reusable, there's nothing to reuse. // // If there is an outstanding parse error that we've encountered, but not attached to // some node, then we cannot get a node from the old source tree. This is because we // want to mark the next node we encounter as being unusable. // // Note: This may be too conservative. Perhaps we could reuse the node and set the bit // on it (or its leftmost child) as having the error. For now though, being conservative // is nice and likely won't ever affect perf. if (!syntaxCursor || !isReusableParsingContext(parsingContext) || parseErrorBeforeNextFinishedNode) { return undefined; } var node = syntaxCursor.currentNode(scanner.getStartPos()); // Can't reuse a missing node. // Can't reuse a node that intersected the change range. // Can't reuse a node that contains a parse error. This is necessary so that we // produce the same set of errors again. if (ts.nodeIsMissing(node) || node.intersectsChange || ts.containsParseError(node)) { return undefined; } // We can only reuse a node if it was parsed under the same strict mode that we're // currently in. i.e. if we originally parsed a node in non-strict mode, but then // the user added 'using strict' at the top of the file, then we can't use that node // again as the presence of strict mode may cause us to parse the tokens in the file // differently. // // Note: we *can* reuse tokens when the strict mode changes. That's because tokens // are unaffected by strict mode. It's just the parser will decide what to do with it // differently depending on what mode it is in. // // This also applies to all our other context flags as well. var nodeContextFlags = node.flags & 25358336 /* ContextFlags */; if (nodeContextFlags !== contextFlags) { return undefined; } // Ok, we have a node that looks like it could be reused. Now verify that it is valid // in the current list parsing context that we're currently at. if (!canReuseNode(node, parsingContext)) { return undefined; } if (node.jsDocCache) { // jsDocCache may include tags from parent nodes, which might have been modified. node.jsDocCache = undefined; } return node; } function consumeNode(node) { // Move the scanner so it is after the node we just consumed. scanner.setTextPos(node.end); nextToken(); return node; } function isReusableParsingContext(parsingContext) { switch (parsingContext) { case 5 /* ClassMembers */: case 2 /* SwitchClauses */: case 0 /* SourceElements */: case 1 /* BlockStatements */: case 3 /* SwitchClauseStatements */: case 6 /* EnumMembers */: case 4 /* TypeMembers */: case 8 /* VariableDeclarations */: case 17 /* JSDocParameters */: case 16 /* Parameters */: return true; } return false; } function canReuseNode(node, parsingContext) { switch (parsingContext) { case 5 /* ClassMembers */: return isReusableClassMember(node); case 2 /* SwitchClauses */: return isReusableSwitchClause(node); case 0 /* SourceElements */: case 1 /* BlockStatements */: case 3 /* SwitchClauseStatements */: return isReusableStatement(node); case 6 /* EnumMembers */: return isReusableEnumMember(node); case 4 /* TypeMembers */: return isReusableTypeMember(node); case 8 /* VariableDeclarations */: return isReusableVariableDeclaration(node); case 17 /* JSDocParameters */: case 16 /* Parameters */: return isReusableParameter(node); // Any other lists we do not care about reusing nodes in. But feel free to add if // you can do so safely. Danger areas involve nodes that may involve speculative // parsing. If speculative parsing is involved with the node, then the range the // parser reached while looking ahead might be in the edited range (see the example // in canReuseVariableDeclaratorNode for a good case of this). // case ParsingContext.HeritageClauses: // This would probably be safe to reuse. There is no speculative parsing with // heritage clauses. // case ParsingContext.TypeParameters: // This would probably be safe to reuse. There is no speculative parsing with // type parameters. Note that that's because type *parameters* only occur in // unambiguous *type* contexts. While type *arguments* occur in very ambiguous // *expression* contexts. // case ParsingContext.TupleElementTypes: // This would probably be safe to reuse. There is no speculative parsing with // tuple types. // Technically, type argument list types are probably safe to reuse. While // speculative parsing is involved with them (since type argument lists are only // produced from speculative parsing a < as a type argument list), we only have // the types because speculative parsing succeeded. Thus, the lookahead never // went past the end of the list and rewound. // case ParsingContext.TypeArguments: // Note: these are almost certainly not safe to ever reuse. Expressions commonly // need a large amount of lookahead, and we should not reuse them as they may // have actually intersected the edit. // case ParsingContext.ArgumentExpressions: // This is not safe to reuse for the same reason as the 'AssignmentExpression' // cases. i.e. a property assignment may end with an expression, and thus might // have lookahead far beyond it's old node. // case ParsingContext.ObjectLiteralMembers: // This is probably not safe to reuse. There can be speculative parsing with // type names in a heritage clause. There can be generic names in the type // name list, and there can be left hand side expressions (which can have type // arguments.) // case ParsingContext.HeritageClauseElement: // Perhaps safe to reuse, but it's unlikely we'd see more than a dozen attributes // on any given element. Same for children. // case ParsingContext.JsxAttributes: // case ParsingContext.JsxChildren: } return false; } function isReusableClassMember(node) { if (node) { switch (node.kind) { case 162 /* Constructor */: case 167 /* IndexSignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 159 /* PropertyDeclaration */: case 222 /* SemicolonClassElement */: return true; case 161 /* MethodDeclaration */: // Method declarations are not necessarily reusable. An object-literal // may have a method calls "constructor(...)" and we must reparse that // into an actual .ConstructorDeclaration. var methodDeclaration = node; var nameIsConstructor = methodDeclaration.name.kind === 75 /* Identifier */ && methodDeclaration.name.originalKeywordKind === 129 /* ConstructorKeyword */; return !nameIsConstructor; } } return false; } function isReusableSwitchClause(node) { if (node) { switch (node.kind) { case 277 /* CaseClause */: case 278 /* DefaultClause */: return true; } } return false; } function isReusableStatement(node) { if (node) { switch (node.kind) { case 244 /* FunctionDeclaration */: case 225 /* VariableStatement */: case 223 /* Block */: case 227 /* IfStatement */: case 226 /* ExpressionStatement */: case 239 /* ThrowStatement */: case 235 /* ReturnStatement */: case 237 /* SwitchStatement */: case 234 /* BreakStatement */: case 233 /* ContinueStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: case 230 /* ForStatement */: case 229 /* WhileStatement */: case 236 /* WithStatement */: case 224 /* EmptyStatement */: case 240 /* TryStatement */: case 238 /* LabeledStatement */: case 228 /* DoStatement */: case 241 /* DebuggerStatement */: case 254 /* ImportDeclaration */: case 253 /* ImportEqualsDeclaration */: case 260 /* ExportDeclaration */: case 259 /* ExportAssignment */: case 249 /* ModuleDeclaration */: case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: case 248 /* EnumDeclaration */: case 247 /* TypeAliasDeclaration */: return true; } } return false; } function isReusableEnumMember(node) { return node.kind === 284 /* EnumMember */; } function isReusableTypeMember(node) { if (node) { switch (node.kind) { case 166 /* ConstructSignature */: case 160 /* MethodSignature */: case 167 /* IndexSignature */: case 158 /* PropertySignature */: case 165 /* CallSignature */: return true; } } return false; } function isReusableVariableDeclaration(node) { if (node.kind !== 242 /* VariableDeclaration */) { return false; } // Very subtle incremental parsing bug. Consider the following code: // // let v = new List < A, B // // This is actually legal code. It's a list of variable declarators "v = new List() // // then we have a problem. "v = new List= 0) { // Always preserve a trailing comma by marking it on the NodeArray result.hasTrailingComma = true; } return result; } function getExpectedCommaDiagnostic(kind) { return kind === 6 /* EnumMembers */ ? ts.Diagnostics.An_enum_member_name_must_be_followed_by_a_or : undefined; } function createMissingList() { var list = createNodeArray([], getNodePos()); list.isMissingList = true; return list; } function isMissingList(arr) { return !!arr.isMissingList; } function parseBracketedList(kind, parseElement, open, close) { if (parseExpected(open)) { var result = parseDelimitedList(kind, parseElement); parseExpected(close); return result; } return createMissingList(); } function parseEntityName(allowReservedWords, diagnosticMessage) { var entity = allowReservedWords ? parseIdentifierName(diagnosticMessage) : parseIdentifier(diagnosticMessage); var dotPos = scanner.getStartPos(); while (parseOptional(24 /* DotToken */)) { if (token() === 29 /* LessThanToken */) { // the entity is part of a JSDoc-style generic, so record the trailing dot for later error reporting entity.jsdocDotPos = dotPos; break; } dotPos = scanner.getStartPos(); entity = createQualifiedName(entity, parseRightSideOfDot(allowReservedWords, /* allowPrivateIdentifiers */ false)); } return entity; } function createQualifiedName(entity, name) { var node = createNode(153 /* QualifiedName */, entity.pos); node.left = entity; node.right = name; return finishNode(node); } function parseRightSideOfDot(allowIdentifierNames, allowPrivateIdentifiers) { // Technically a keyword is valid here as all identifiers and keywords are identifier names. // However, often we'll encounter this in error situations when the identifier or keyword // is actually starting another valid construct. // // So, we check for the following specific case: // // name. // identifierOrKeyword identifierNameOrKeyword // // Note: the newlines are important here. For example, if that above code // were rewritten into: // // name.identifierOrKeyword // identifierNameOrKeyword // // Then we would consider it valid. That's because ASI would take effect and // the code would be implicitly: "name.identifierOrKeyword; identifierNameOrKeyword". // In the first case though, ASI will not take effect because there is not a // line terminator after the identifier or keyword. if (scanner.hasPrecedingLineBreak() && ts.tokenIsIdentifierOrKeyword(token())) { var matchesPattern = lookAhead(nextTokenIsIdentifierOrKeywordOnSameLine); if (matchesPattern) { // Report that we need an identifier. However, report it right after the dot, // and not on the next token. This is because the next token might actually // be an identifier and the error would be quite confusing. return createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ true, ts.Diagnostics.Identifier_expected); } } if (token() === 76 /* PrivateIdentifier */) { var node = parsePrivateIdentifier(); return allowPrivateIdentifiers ? node : createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ true, ts.Diagnostics.Identifier_expected); } return allowIdentifierNames ? parseIdentifierName() : parseIdentifier(); } function parseTemplateExpression(isTaggedTemplate) { var template = createNode(211 /* TemplateExpression */); template.head = parseTemplateHead(isTaggedTemplate); ts.Debug.assert(template.head.kind === 15 /* TemplateHead */, "Template head has wrong token kind"); var list = []; var listPos = getNodePos(); do { list.push(parseTemplateSpan(isTaggedTemplate)); } while (ts.last(list).literal.kind === 16 /* TemplateMiddle */); template.templateSpans = createNodeArray(list, listPos); return finishNode(template); } function parseTemplateSpan(isTaggedTemplate) { var span = createNode(221 /* TemplateSpan */); span.expression = allowInAnd(parseExpression); var literal; if (token() === 19 /* CloseBraceToken */) { reScanTemplateToken(isTaggedTemplate); literal = parseTemplateMiddleOrTemplateTail(); } else { literal = parseExpectedToken(17 /* TemplateTail */, ts.Diagnostics._0_expected, ts.tokenToString(19 /* CloseBraceToken */)); } span.literal = literal; return finishNode(span); } function parseLiteralNode() { return parseLiteralLikeNode(token()); } function parseTemplateHead(isTaggedTemplate) { if (isTaggedTemplate) { reScanTemplateHeadOrNoSubstitutionTemplate(); } var fragment = parseLiteralLikeNode(token()); ts.Debug.assert(fragment.kind === 15 /* TemplateHead */, "Template head has wrong token kind"); return fragment; } function parseTemplateMiddleOrTemplateTail() { var fragment = parseLiteralLikeNode(token()); ts.Debug.assert(fragment.kind === 16 /* TemplateMiddle */ || fragment.kind === 17 /* TemplateTail */, "Template fragment has wrong token kind"); return fragment; } function parseLiteralLikeNode(kind) { var node = createNode(kind); node.text = scanner.getTokenValue(); switch (kind) { case 14 /* NoSubstitutionTemplateLiteral */: case 15 /* TemplateHead */: case 16 /* TemplateMiddle */: case 17 /* TemplateTail */: var isLast = kind === 14 /* NoSubstitutionTemplateLiteral */ || kind === 17 /* TemplateTail */; var tokenText = scanner.getTokenText(); node.rawText = tokenText.substring(1, tokenText.length - (scanner.isUnterminated() ? 0 : isLast ? 1 : 2)); break; } if (scanner.hasExtendedUnicodeEscape()) { node.hasExtendedUnicodeEscape = true; } if (scanner.isUnterminated()) { node.isUnterminated = true; } // Octal literals are not allowed in strict mode or ES5 // Note that theoretically the following condition would hold true literals like 009, // which is not octal.But because of how the scanner separates the tokens, we would // never get a token like this. Instead, we would get 00 and 9 as two separate tokens. // We also do not need to check for negatives because any prefix operator would be part of a // parent unary expression. if (node.kind === 8 /* NumericLiteral */) { node.numericLiteralFlags = scanner.getTokenFlags() & 1008 /* NumericLiteralFlags */; } if (ts.isTemplateLiteralKind(node.kind)) { node.templateFlags = scanner.getTokenFlags() & 2048 /* ContainsInvalidEscape */; } nextToken(); finishNode(node); return node; } // TYPES function parseTypeReference() { var node = createNode(169 /* TypeReference */); node.typeName = parseEntityName(/*allowReservedWords*/ true, ts.Diagnostics.Type_expected); if (!scanner.hasPrecedingLineBreak() && reScanLessThanToken() === 29 /* LessThanToken */) { node.typeArguments = parseBracketedList(20 /* TypeArguments */, parseType, 29 /* LessThanToken */, 31 /* GreaterThanToken */); } return finishNode(node); } // If true, we should abort parsing an error function. function typeHasArrowFunctionBlockingParseError(node) { switch (node.kind) { case 169 /* TypeReference */: return ts.nodeIsMissing(node.typeName); case 170 /* FunctionType */: case 171 /* ConstructorType */: { var _a = node, parameters = _a.parameters, type = _a.type; return isMissingList(parameters) || typeHasArrowFunctionBlockingParseError(type); } case 182 /* ParenthesizedType */: return typeHasArrowFunctionBlockingParseError(node.type); default: return false; } } function parseThisTypePredicate(lhs) { nextToken(); var node = createNode(168 /* TypePredicate */, lhs.pos); node.parameterName = lhs; node.type = parseType(); return finishNode(node); } function parseThisTypeNode() { var node = createNode(183 /* ThisType */); nextToken(); return finishNode(node); } function parseJSDocAllType(postFixEquals) { var result = createNode(295 /* JSDocAllType */); if (postFixEquals) { return createPostfixType(299 /* JSDocOptionalType */, result); } else { nextToken(); } return finishNode(result); } function parseJSDocNonNullableType() { var result = createNode(298 /* JSDocNonNullableType */); nextToken(); result.type = parseNonArrayType(); return finishNode(result); } function parseJSDocUnknownOrNullableType() { var pos = scanner.getStartPos(); // skip the ? nextToken(); // Need to lookahead to decide if this is a nullable or unknown type. // Here are cases where we'll pick the unknown type: // // Foo(?, // { a: ? } // Foo(?) // Foo // Foo(?= // (?| if (token() === 27 /* CommaToken */ || token() === 19 /* CloseBraceToken */ || token() === 21 /* CloseParenToken */ || token() === 31 /* GreaterThanToken */ || token() === 62 /* EqualsToken */ || token() === 51 /* BarToken */) { var result = createNode(296 /* JSDocUnknownType */, pos); return finishNode(result); } else { var result = createNode(297 /* JSDocNullableType */, pos); result.type = parseType(); return finishNode(result); } } function parseJSDocFunctionType() { if (lookAhead(nextTokenIsOpenParen)) { var result = createNodeWithJSDoc(300 /* JSDocFunctionType */); nextToken(); fillSignature(58 /* ColonToken */, 4 /* Type */ | 32 /* JSDoc */, result); return finishNode(result); } var node = createNode(169 /* TypeReference */); node.typeName = parseIdentifierName(); return finishNode(node); } function parseJSDocParameter() { var parameter = createNode(156 /* Parameter */); if (token() === 104 /* ThisKeyword */ || token() === 99 /* NewKeyword */) { parameter.name = parseIdentifierName(); parseExpected(58 /* ColonToken */); } parameter.type = parseJSDocType(); return finishNode(parameter); } function parseJSDocType() { scanner.setInJSDocType(true); var moduleSpecifier = parseOptionalToken(135 /* ModuleKeyword */); if (moduleSpecifier) { var moduleTag = createNode(302 /* JSDocNamepathType */, moduleSpecifier.pos); terminate: while (true) { switch (token()) { case 19 /* CloseBraceToken */: case 1 /* EndOfFileToken */: case 27 /* CommaToken */: case 5 /* WhitespaceTrivia */: break terminate; default: nextTokenJSDoc(); } } scanner.setInJSDocType(false); return finishNode(moduleTag); } var dotdotdot = parseOptionalToken(25 /* DotDotDotToken */); var type = parseTypeOrTypePredicate(); scanner.setInJSDocType(false); if (dotdotdot) { var variadic = createNode(301 /* JSDocVariadicType */, dotdotdot.pos); variadic.type = type; type = finishNode(variadic); } if (token() === 62 /* EqualsToken */) { return createPostfixType(299 /* JSDocOptionalType */, type); } return type; } function parseTypeQuery() { var node = createNode(172 /* TypeQuery */); parseExpected(108 /* TypeOfKeyword */); node.exprName = parseEntityName(/*allowReservedWords*/ true); return finishNode(node); } function parseTypeParameter() { var node = createNode(155 /* TypeParameter */); node.name = parseIdentifier(); if (parseOptional(90 /* ExtendsKeyword */)) { // It's not uncommon for people to write improper constraints to a generic. If the // user writes a constraint that is an expression and not an actual type, then parse // it out as an expression (so we can recover well), but report that a type is needed // instead. if (isStartOfType() || !isStartOfExpression()) { node.constraint = parseType(); } else { // It was not a type, and it looked like an expression. Parse out an expression // here so we recover well. Note: it is important that we call parseUnaryExpression // and not parseExpression here. If the user has: // // // // We do *not* want to consume the `>` as we're consuming the expression for "". node.expression = parseUnaryExpressionOrHigher(); } } if (parseOptional(62 /* EqualsToken */)) { node.default = parseType(); } return finishNode(node); } function parseTypeParameters() { if (token() === 29 /* LessThanToken */) { return parseBracketedList(19 /* TypeParameters */, parseTypeParameter, 29 /* LessThanToken */, 31 /* GreaterThanToken */); } } function parseParameterType() { if (parseOptional(58 /* ColonToken */)) { return parseType(); } return undefined; } function isStartOfParameter(isJSDocParameter) { return token() === 25 /* DotDotDotToken */ || isIdentifierOrPrivateIdentifierOrPattern() || ts.isModifierKind(token()) || token() === 59 /* AtToken */ || isStartOfType(/*inStartOfParameter*/ !isJSDocParameter); } function parseParameter() { var node = createNodeWithJSDoc(156 /* Parameter */); if (token() === 104 /* ThisKeyword */) { node.name = createIdentifier(/*isIdentifier*/ true); node.type = parseParameterType(); return finishNode(node); } node.decorators = parseDecorators(); node.modifiers = parseModifiers(); node.dotDotDotToken = parseOptionalToken(25 /* DotDotDotToken */); // FormalParameter [Yield,Await]: // BindingElement[?Yield,?Await] node.name = parseIdentifierOrPattern(ts.Diagnostics.Private_identifiers_cannot_be_used_as_parameters); if (ts.getFullWidth(node.name) === 0 && !node.modifiers && ts.isModifierKind(token())) { // in cases like // 'use strict' // function foo(static) // isParameter('static') === true, because of isModifier('static') // however 'static' is not a legal identifier in a strict mode. // so result of this function will be ParameterDeclaration (flags = 0, name = missing, type = undefined, initializer = undefined) // and current token will not change => parsing of the enclosing parameter list will last till the end of time (or OOM) // to avoid this we'll advance cursor to the next token. nextToken(); } node.questionToken = parseOptionalToken(57 /* QuestionToken */); node.type = parseParameterType(); node.initializer = parseInitializer(); return finishNode(node); } /** * Note: If returnToken is EqualsGreaterThanToken, `signature.type` will always be defined. * @returns If return type parsing succeeds */ function fillSignature(returnToken, flags, signature) { if (!(flags & 32 /* JSDoc */)) { signature.typeParameters = parseTypeParameters(); } var parametersParsedSuccessfully = parseParameterList(signature, flags); if (shouldParseReturnType(returnToken, !!(flags & 4 /* Type */))) { signature.type = parseTypeOrTypePredicate(); if (typeHasArrowFunctionBlockingParseError(signature.type)) return false; } return parametersParsedSuccessfully; } function shouldParseReturnType(returnToken, isType) { if (returnToken === 38 /* EqualsGreaterThanToken */) { parseExpected(returnToken); return true; } else if (parseOptional(58 /* ColonToken */)) { return true; } else if (isType && token() === 38 /* EqualsGreaterThanToken */) { // This is easy to get backward, especially in type contexts, so parse the type anyway parseErrorAtCurrentToken(ts.Diagnostics._0_expected, ts.tokenToString(58 /* ColonToken */)); nextToken(); return true; } return false; } // Returns true on success. function parseParameterList(signature, flags) { // FormalParameters [Yield,Await]: (modified) // [empty] // FormalParameterList[?Yield,Await] // // FormalParameter[Yield,Await]: (modified) // BindingElement[?Yield,Await] // // BindingElement [Yield,Await]: (modified) // SingleNameBinding[?Yield,?Await] // BindingPattern[?Yield,?Await]Initializer [In, ?Yield,?Await] opt // // SingleNameBinding [Yield,Await]: // BindingIdentifier[?Yield,?Await]Initializer [In, ?Yield,?Await] opt if (!parseExpected(20 /* OpenParenToken */)) { signature.parameters = createMissingList(); return false; } var savedYieldContext = inYieldContext(); var savedAwaitContext = inAwaitContext(); setYieldContext(!!(flags & 1 /* Yield */)); setAwaitContext(!!(flags & 2 /* Await */)); signature.parameters = flags & 32 /* JSDoc */ ? parseDelimitedList(17 /* JSDocParameters */, parseJSDocParameter) : parseDelimitedList(16 /* Parameters */, parseParameter); setYieldContext(savedYieldContext); setAwaitContext(savedAwaitContext); return parseExpected(21 /* CloseParenToken */); } function parseTypeMemberSemicolon() { // We allow type members to be separated by commas or (possibly ASI) semicolons. // First check if it was a comma. If so, we're done with the member. if (parseOptional(27 /* CommaToken */)) { return; } // Didn't have a comma. We must have a (possible ASI) semicolon. parseSemicolon(); } function parseSignatureMember(kind) { var node = createNodeWithJSDoc(kind); if (kind === 166 /* ConstructSignature */) { parseExpected(99 /* NewKeyword */); } fillSignature(58 /* ColonToken */, 4 /* Type */, node); parseTypeMemberSemicolon(); return finishNode(node); } function isIndexSignature() { return token() === 22 /* OpenBracketToken */ && lookAhead(isUnambiguouslyIndexSignature); } function isUnambiguouslyIndexSignature() { // The only allowed sequence is: // // [id: // // However, for error recovery, we also check the following cases: // // [... // [id, // [id?, // [id?: // [id?] // [public id // [private id // [protected id // [] // nextToken(); if (token() === 25 /* DotDotDotToken */ || token() === 23 /* CloseBracketToken */) { return true; } if (ts.isModifierKind(token())) { nextToken(); if (isIdentifier()) { return true; } } else if (!isIdentifier()) { return false; } else { // Skip the identifier nextToken(); } // A colon signifies a well formed indexer // A comma should be a badly formed indexer because comma expressions are not allowed // in computed properties. if (token() === 58 /* ColonToken */ || token() === 27 /* CommaToken */) { return true; } // Question mark could be an indexer with an optional property, // or it could be a conditional expression in a computed property. if (token() !== 57 /* QuestionToken */) { return false; } // If any of the following tokens are after the question mark, it cannot // be a conditional expression, so treat it as an indexer. nextToken(); return token() === 58 /* ColonToken */ || token() === 27 /* CommaToken */ || token() === 23 /* CloseBracketToken */; } function parseIndexSignatureDeclaration(node) { node.kind = 167 /* IndexSignature */; node.parameters = parseBracketedList(16 /* Parameters */, parseParameter, 22 /* OpenBracketToken */, 23 /* CloseBracketToken */); node.type = parseTypeAnnotation(); parseTypeMemberSemicolon(); return finishNode(node); } function parsePropertyOrMethodSignature(node) { node.name = parsePropertyName(); node.questionToken = parseOptionalToken(57 /* QuestionToken */); if (token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */) { node.kind = 160 /* MethodSignature */; // Method signatures don't exist in expression contexts. So they have neither // [Yield] nor [Await] fillSignature(58 /* ColonToken */, 4 /* Type */, node); } else { node.kind = 158 /* PropertySignature */; node.type = parseTypeAnnotation(); if (token() === 62 /* EqualsToken */) { // Although type literal properties cannot not have initializers, we attempt // to parse an initializer so we can report in the checker that an interface // property or type literal property cannot have an initializer. node.initializer = parseInitializer(); } } parseTypeMemberSemicolon(); return finishNode(node); } function isTypeMemberStart() { // Return true if we have the start of a signature member if (token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */) { return true; } var idToken = false; // Eat up all modifiers, but hold on to the last one in case it is actually an identifier while (ts.isModifierKind(token())) { idToken = true; nextToken(); } // Index signatures and computed property names are type members if (token() === 22 /* OpenBracketToken */) { return true; } // Try to get the first property-like token following all modifiers if (isLiteralPropertyName()) { idToken = true; nextToken(); } // If we were able to get any potential identifier, check that it is // the start of a member declaration if (idToken) { return token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */ || token() === 57 /* QuestionToken */ || token() === 58 /* ColonToken */ || token() === 27 /* CommaToken */ || canParseSemicolon(); } return false; } function parseTypeMember() { if (token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */) { return parseSignatureMember(165 /* CallSignature */); } if (token() === 99 /* NewKeyword */ && lookAhead(nextTokenIsOpenParenOrLessThan)) { return parseSignatureMember(166 /* ConstructSignature */); } var node = createNodeWithJSDoc(0 /* Unknown */); node.modifiers = parseModifiers(); if (isIndexSignature()) { return parseIndexSignatureDeclaration(node); } return parsePropertyOrMethodSignature(node); } function nextTokenIsOpenParenOrLessThan() { nextToken(); return token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */; } function nextTokenIsDot() { return nextToken() === 24 /* DotToken */; } function nextTokenIsOpenParenOrLessThanOrDot() { switch (nextToken()) { case 20 /* OpenParenToken */: case 29 /* LessThanToken */: case 24 /* DotToken */: return true; } return false; } function parseTypeLiteral() { var node = createNode(173 /* TypeLiteral */); node.members = parseObjectTypeMembers(); return finishNode(node); } function parseObjectTypeMembers() { var members; if (parseExpected(18 /* OpenBraceToken */)) { members = parseList(4 /* TypeMembers */, parseTypeMember); parseExpected(19 /* CloseBraceToken */); } else { members = createMissingList(); } return members; } function isStartOfMappedType() { nextToken(); if (token() === 39 /* PlusToken */ || token() === 40 /* MinusToken */) { return nextToken() === 138 /* ReadonlyKeyword */; } if (token() === 138 /* ReadonlyKeyword */) { nextToken(); } return token() === 22 /* OpenBracketToken */ && nextTokenIsIdentifier() && nextToken() === 97 /* InKeyword */; } function parseMappedTypeParameter() { var node = createNode(155 /* TypeParameter */); node.name = parseIdentifier(); parseExpected(97 /* InKeyword */); node.constraint = parseType(); return finishNode(node); } function parseMappedType() { var node = createNode(186 /* MappedType */); parseExpected(18 /* OpenBraceToken */); if (token() === 138 /* ReadonlyKeyword */ || token() === 39 /* PlusToken */ || token() === 40 /* MinusToken */) { node.readonlyToken = parseTokenNode(); if (node.readonlyToken.kind !== 138 /* ReadonlyKeyword */) { parseExpectedToken(138 /* ReadonlyKeyword */); } } parseExpected(22 /* OpenBracketToken */); node.typeParameter = parseMappedTypeParameter(); parseExpected(23 /* CloseBracketToken */); if (token() === 57 /* QuestionToken */ || token() === 39 /* PlusToken */ || token() === 40 /* MinusToken */) { node.questionToken = parseTokenNode(); if (node.questionToken.kind !== 57 /* QuestionToken */) { parseExpectedToken(57 /* QuestionToken */); } } node.type = parseTypeAnnotation(); parseSemicolon(); parseExpected(19 /* CloseBraceToken */); return finishNode(node); } function parseTupleElementType() { var pos = getNodePos(); if (parseOptional(25 /* DotDotDotToken */)) { var node = createNode(177 /* RestType */, pos); node.type = parseType(); return finishNode(node); } var type = parseType(); if (!(contextFlags & 4194304 /* JSDoc */) && type.kind === 297 /* JSDocNullableType */ && type.pos === type.type.pos) { type.kind = 176 /* OptionalType */; } return type; } function parseTupleType() { var node = createNode(175 /* TupleType */); node.elementTypes = parseBracketedList(21 /* TupleElementTypes */, parseTupleElementType, 22 /* OpenBracketToken */, 23 /* CloseBracketToken */); return finishNode(node); } function parseParenthesizedType() { var node = createNode(182 /* ParenthesizedType */); parseExpected(20 /* OpenParenToken */); node.type = parseType(); parseExpected(21 /* CloseParenToken */); return finishNode(node); } function parseFunctionOrConstructorType() { var pos = getNodePos(); var kind = parseOptional(99 /* NewKeyword */) ? 171 /* ConstructorType */ : 170 /* FunctionType */; var node = createNodeWithJSDoc(kind, pos); fillSignature(38 /* EqualsGreaterThanToken */, 4 /* Type */, node); return finishNode(node); } function parseKeywordAndNoDot() { var node = parseTokenNode(); return token() === 24 /* DotToken */ ? undefined : node; } function parseLiteralTypeNode(negative) { var node = createNode(187 /* LiteralType */); var unaryMinusExpression; if (negative) { unaryMinusExpression = createNode(207 /* PrefixUnaryExpression */); unaryMinusExpression.operator = 40 /* MinusToken */; nextToken(); } var expression = token() === 106 /* TrueKeyword */ || token() === 91 /* FalseKeyword */ ? parseTokenNode() : parseLiteralLikeNode(token()); if (negative) { unaryMinusExpression.operand = expression; finishNode(unaryMinusExpression); expression = unaryMinusExpression; } node.literal = expression; return finishNode(node); } function isStartOfTypeOfImportType() { nextToken(); return token() === 96 /* ImportKeyword */; } function parseImportType() { sourceFile.flags |= 1048576 /* PossiblyContainsDynamicImport */; var node = createNode(188 /* ImportType */); if (parseOptional(108 /* TypeOfKeyword */)) { node.isTypeOf = true; } parseExpected(96 /* ImportKeyword */); parseExpected(20 /* OpenParenToken */); node.argument = parseType(); parseExpected(21 /* CloseParenToken */); if (parseOptional(24 /* DotToken */)) { node.qualifier = parseEntityName(/*allowReservedWords*/ true, ts.Diagnostics.Type_expected); } if (!scanner.hasPrecedingLineBreak() && reScanLessThanToken() === 29 /* LessThanToken */) { node.typeArguments = parseBracketedList(20 /* TypeArguments */, parseType, 29 /* LessThanToken */, 31 /* GreaterThanToken */); } return finishNode(node); } function nextTokenIsNumericOrBigIntLiteral() { nextToken(); return token() === 8 /* NumericLiteral */ || token() === 9 /* BigIntLiteral */; } function parseNonArrayType() { switch (token()) { case 125 /* AnyKeyword */: case 148 /* UnknownKeyword */: case 143 /* StringKeyword */: case 140 /* NumberKeyword */: case 151 /* BigIntKeyword */: case 144 /* SymbolKeyword */: case 128 /* BooleanKeyword */: case 146 /* UndefinedKeyword */: case 137 /* NeverKeyword */: case 141 /* ObjectKeyword */: // If these are followed by a dot, then parse these out as a dotted type reference instead. return tryParse(parseKeywordAndNoDot) || parseTypeReference(); case 41 /* AsteriskToken */: return parseJSDocAllType(/*postfixEquals*/ false); case 65 /* AsteriskEqualsToken */: return parseJSDocAllType(/*postfixEquals*/ true); case 60 /* QuestionQuestionToken */: // If there is '??', consider that is prefix '?' in JSDoc type. scanner.reScanQuestionToken(); // falls through case 57 /* QuestionToken */: return parseJSDocUnknownOrNullableType(); case 94 /* FunctionKeyword */: return parseJSDocFunctionType(); case 53 /* ExclamationToken */: return parseJSDocNonNullableType(); case 14 /* NoSubstitutionTemplateLiteral */: case 10 /* StringLiteral */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: return parseLiteralTypeNode(); case 40 /* MinusToken */: return lookAhead(nextTokenIsNumericOrBigIntLiteral) ? parseLiteralTypeNode(/*negative*/ true) : parseTypeReference(); case 110 /* VoidKeyword */: case 100 /* NullKeyword */: return parseTokenNode(); case 104 /* ThisKeyword */: { var thisKeyword = parseThisTypeNode(); if (token() === 133 /* IsKeyword */ && !scanner.hasPrecedingLineBreak()) { return parseThisTypePredicate(thisKeyword); } else { return thisKeyword; } } case 108 /* TypeOfKeyword */: return lookAhead(isStartOfTypeOfImportType) ? parseImportType() : parseTypeQuery(); case 18 /* OpenBraceToken */: return lookAhead(isStartOfMappedType) ? parseMappedType() : parseTypeLiteral(); case 22 /* OpenBracketToken */: return parseTupleType(); case 20 /* OpenParenToken */: return parseParenthesizedType(); case 96 /* ImportKeyword */: return parseImportType(); case 124 /* AssertsKeyword */: return lookAhead(nextTokenIsIdentifierOrKeywordOnSameLine) ? parseAssertsTypePredicate() : parseTypeReference(); default: return parseTypeReference(); } } function isStartOfType(inStartOfParameter) { switch (token()) { case 125 /* AnyKeyword */: case 148 /* UnknownKeyword */: case 143 /* StringKeyword */: case 140 /* NumberKeyword */: case 151 /* BigIntKeyword */: case 128 /* BooleanKeyword */: case 138 /* ReadonlyKeyword */: case 144 /* SymbolKeyword */: case 147 /* UniqueKeyword */: case 110 /* VoidKeyword */: case 146 /* UndefinedKeyword */: case 100 /* NullKeyword */: case 104 /* ThisKeyword */: case 108 /* TypeOfKeyword */: case 137 /* NeverKeyword */: case 18 /* OpenBraceToken */: case 22 /* OpenBracketToken */: case 29 /* LessThanToken */: case 51 /* BarToken */: case 50 /* AmpersandToken */: case 99 /* NewKeyword */: case 10 /* StringLiteral */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 141 /* ObjectKeyword */: case 41 /* AsteriskToken */: case 57 /* QuestionToken */: case 53 /* ExclamationToken */: case 25 /* DotDotDotToken */: case 132 /* InferKeyword */: case 96 /* ImportKeyword */: case 124 /* AssertsKeyword */: return true; case 94 /* FunctionKeyword */: return !inStartOfParameter; case 40 /* MinusToken */: return !inStartOfParameter && lookAhead(nextTokenIsNumericOrBigIntLiteral); case 20 /* OpenParenToken */: // Only consider '(' the start of a type if followed by ')', '...', an identifier, a modifier, // or something that starts a type. We don't want to consider things like '(1)' a type. return !inStartOfParameter && lookAhead(isStartOfParenthesizedOrFunctionType); default: return isIdentifier(); } } function isStartOfParenthesizedOrFunctionType() { nextToken(); return token() === 21 /* CloseParenToken */ || isStartOfParameter(/*isJSDocParameter*/ false) || isStartOfType(); } function parsePostfixTypeOrHigher() { var type = parseNonArrayType(); while (!scanner.hasPrecedingLineBreak()) { switch (token()) { case 53 /* ExclamationToken */: type = createPostfixType(298 /* JSDocNonNullableType */, type); break; case 57 /* QuestionToken */: // If not in JSDoc and next token is start of a type we have a conditional type if (!(contextFlags & 4194304 /* JSDoc */) && lookAhead(nextTokenIsStartOfType)) { return type; } type = createPostfixType(297 /* JSDocNullableType */, type); break; case 22 /* OpenBracketToken */: parseExpected(22 /* OpenBracketToken */); if (isStartOfType()) { var node = createNode(185 /* IndexedAccessType */, type.pos); node.objectType = type; node.indexType = parseType(); parseExpected(23 /* CloseBracketToken */); type = finishNode(node); } else { var node = createNode(174 /* ArrayType */, type.pos); node.elementType = type; parseExpected(23 /* CloseBracketToken */); type = finishNode(node); } break; default: return type; } } return type; } function createPostfixType(kind, type) { nextToken(); var postfix = createNode(kind, type.pos); postfix.type = type; return finishNode(postfix); } function parseTypeOperator(operator) { var node = createNode(184 /* TypeOperator */); parseExpected(operator); node.operator = operator; node.type = parseTypeOperatorOrHigher(); return finishNode(node); } function parseInferType() { var node = createNode(181 /* InferType */); parseExpected(132 /* InferKeyword */); var typeParameter = createNode(155 /* TypeParameter */); typeParameter.name = parseIdentifier(); node.typeParameter = finishNode(typeParameter); return finishNode(node); } function parseTypeOperatorOrHigher() { var operator = token(); switch (operator) { case 134 /* KeyOfKeyword */: case 147 /* UniqueKeyword */: case 138 /* ReadonlyKeyword */: return parseTypeOperator(operator); case 132 /* InferKeyword */: return parseInferType(); } return parsePostfixTypeOrHigher(); } function parseUnionOrIntersectionType(kind, parseConstituentType, operator) { var start = scanner.getStartPos(); var hasLeadingOperator = parseOptional(operator); var type = parseConstituentType(); if (token() === operator || hasLeadingOperator) { var types = [type]; while (parseOptional(operator)) { types.push(parseConstituentType()); } var node = createNode(kind, start); node.types = createNodeArray(types, start); type = finishNode(node); } return type; } function parseIntersectionTypeOrHigher() { return parseUnionOrIntersectionType(179 /* IntersectionType */, parseTypeOperatorOrHigher, 50 /* AmpersandToken */); } function parseUnionTypeOrHigher() { return parseUnionOrIntersectionType(178 /* UnionType */, parseIntersectionTypeOrHigher, 51 /* BarToken */); } function isStartOfFunctionType() { if (token() === 29 /* LessThanToken */) { return true; } return token() === 20 /* OpenParenToken */ && lookAhead(isUnambiguouslyStartOfFunctionType); } function skipParameterStart() { if (ts.isModifierKind(token())) { // Skip modifiers parseModifiers(); } if (isIdentifier() || token() === 104 /* ThisKeyword */) { nextToken(); return true; } if (token() === 22 /* OpenBracketToken */ || token() === 18 /* OpenBraceToken */) { // Return true if we can parse an array or object binding pattern with no errors var previousErrorCount = parseDiagnostics.length; parseIdentifierOrPattern(); return previousErrorCount === parseDiagnostics.length; } return false; } function isUnambiguouslyStartOfFunctionType() { nextToken(); if (token() === 21 /* CloseParenToken */ || token() === 25 /* DotDotDotToken */) { // ( ) // ( ... return true; } if (skipParameterStart()) { // We successfully skipped modifiers (if any) and an identifier or binding pattern, // now see if we have something that indicates a parameter declaration if (token() === 58 /* ColonToken */ || token() === 27 /* CommaToken */ || token() === 57 /* QuestionToken */ || token() === 62 /* EqualsToken */) { // ( xxx : // ( xxx , // ( xxx ? // ( xxx = return true; } if (token() === 21 /* CloseParenToken */) { nextToken(); if (token() === 38 /* EqualsGreaterThanToken */) { // ( xxx ) => return true; } } } return false; } function parseTypeOrTypePredicate() { var typePredicateVariable = isIdentifier() && tryParse(parseTypePredicatePrefix); var type = parseType(); if (typePredicateVariable) { var node = createNode(168 /* TypePredicate */, typePredicateVariable.pos); node.assertsModifier = undefined; node.parameterName = typePredicateVariable; node.type = type; return finishNode(node); } else { return type; } } function parseTypePredicatePrefix() { var id = parseIdentifier(); if (token() === 133 /* IsKeyword */ && !scanner.hasPrecedingLineBreak()) { nextToken(); return id; } } function parseAssertsTypePredicate() { var node = createNode(168 /* TypePredicate */); node.assertsModifier = parseExpectedToken(124 /* AssertsKeyword */); node.parameterName = token() === 104 /* ThisKeyword */ ? parseThisTypeNode() : parseIdentifier(); node.type = parseOptional(133 /* IsKeyword */) ? parseType() : undefined; return finishNode(node); } function parseType() { // The rules about 'yield' only apply to actual code/expression contexts. They don't // apply to 'type' contexts. So we disable these parameters here before moving on. return doOutsideOfContext(40960 /* TypeExcludesFlags */, parseTypeWorker); } function parseTypeWorker(noConditionalTypes) { if (isStartOfFunctionType() || token() === 99 /* NewKeyword */) { return parseFunctionOrConstructorType(); } var type = parseUnionTypeOrHigher(); if (!noConditionalTypes && !scanner.hasPrecedingLineBreak() && parseOptional(90 /* ExtendsKeyword */)) { var node = createNode(180 /* ConditionalType */, type.pos); node.checkType = type; // The type following 'extends' is not permitted to be another conditional type node.extendsType = parseTypeWorker(/*noConditionalTypes*/ true); parseExpected(57 /* QuestionToken */); node.trueType = parseTypeWorker(); parseExpected(58 /* ColonToken */); node.falseType = parseTypeWorker(); return finishNode(node); } return type; } function parseTypeAnnotation() { return parseOptional(58 /* ColonToken */) ? parseType() : undefined; } // EXPRESSIONS function isStartOfLeftHandSideExpression() { switch (token()) { case 104 /* ThisKeyword */: case 102 /* SuperKeyword */: case 100 /* NullKeyword */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 15 /* TemplateHead */: case 20 /* OpenParenToken */: case 22 /* OpenBracketToken */: case 18 /* OpenBraceToken */: case 94 /* FunctionKeyword */: case 80 /* ClassKeyword */: case 99 /* NewKeyword */: case 43 /* SlashToken */: case 67 /* SlashEqualsToken */: case 75 /* Identifier */: return true; case 96 /* ImportKeyword */: return lookAhead(nextTokenIsOpenParenOrLessThanOrDot); default: return isIdentifier(); } } function isStartOfExpression() { if (isStartOfLeftHandSideExpression()) { return true; } switch (token()) { case 39 /* PlusToken */: case 40 /* MinusToken */: case 54 /* TildeToken */: case 53 /* ExclamationToken */: case 85 /* DeleteKeyword */: case 108 /* TypeOfKeyword */: case 110 /* VoidKeyword */: case 45 /* PlusPlusToken */: case 46 /* MinusMinusToken */: case 29 /* LessThanToken */: case 127 /* AwaitKeyword */: case 121 /* YieldKeyword */: case 76 /* PrivateIdentifier */: // Yield/await always starts an expression. Either it is an identifier (in which case // it is definitely an expression). Or it's a keyword (either because we're in // a generator or async function, or in strict mode (or both)) and it started a yield or await expression. return true; default: // Error tolerance. If we see the start of some binary operator, we consider // that the start of an expression. That way we'll parse out a missing identifier, // give a good message about an identifier being missing, and then consume the // rest of the binary expression. if (isBinaryOperator()) { return true; } return isIdentifier(); } } function isStartOfExpressionStatement() { // As per the grammar, none of '{' or 'function' or 'class' can start an expression statement. return token() !== 18 /* OpenBraceToken */ && token() !== 94 /* FunctionKeyword */ && token() !== 80 /* ClassKeyword */ && token() !== 59 /* AtToken */ && isStartOfExpression(); } function parseExpression() { // Expression[in]: // AssignmentExpression[in] // Expression[in] , AssignmentExpression[in] // clear the decorator context when parsing Expression, as it should be unambiguous when parsing a decorator var saveDecoratorContext = inDecoratorContext(); if (saveDecoratorContext) { setDecoratorContext(/*val*/ false); } var expr = parseAssignmentExpressionOrHigher(); var operatorToken; while ((operatorToken = parseOptionalToken(27 /* CommaToken */))) { expr = makeBinaryExpression(expr, operatorToken, parseAssignmentExpressionOrHigher()); } if (saveDecoratorContext) { setDecoratorContext(/*val*/ true); } return expr; } function parseInitializer() { return parseOptional(62 /* EqualsToken */) ? parseAssignmentExpressionOrHigher() : undefined; } function parseAssignmentExpressionOrHigher() { // AssignmentExpression[in,yield]: // 1) ConditionalExpression[?in,?yield] // 2) LeftHandSideExpression = AssignmentExpression[?in,?yield] // 3) LeftHandSideExpression AssignmentOperator AssignmentExpression[?in,?yield] // 4) ArrowFunctionExpression[?in,?yield] // 5) AsyncArrowFunctionExpression[in,yield,await] // 6) [+Yield] YieldExpression[?In] // // Note: for ease of implementation we treat productions '2' and '3' as the same thing. // (i.e. they're both BinaryExpressions with an assignment operator in it). // First, do the simple check if we have a YieldExpression (production '6'). if (isYieldExpression()) { return parseYieldExpression(); } // Then, check if we have an arrow function (production '4' and '5') that starts with a parenthesized // parameter list or is an async arrow function. // AsyncArrowFunctionExpression: // 1) async[no LineTerminator here]AsyncArrowBindingIdentifier[?Yield][no LineTerminator here]=>AsyncConciseBody[?In] // 2) CoverCallExpressionAndAsyncArrowHead[?Yield, ?Await][no LineTerminator here]=>AsyncConciseBody[?In] // Production (1) of AsyncArrowFunctionExpression is parsed in "tryParseAsyncSimpleArrowFunctionExpression". // And production (2) is parsed in "tryParseParenthesizedArrowFunctionExpression". // // If we do successfully parse arrow-function, we must *not* recurse for productions 1, 2 or 3. An ArrowFunction is // not a LeftHandSideExpression, nor does it start a ConditionalExpression. So we are done // with AssignmentExpression if we see one. var arrowExpression = tryParseParenthesizedArrowFunctionExpression() || tryParseAsyncSimpleArrowFunctionExpression(); if (arrowExpression) { return arrowExpression; } // Now try to see if we're in production '1', '2' or '3'. A conditional expression can // start with a LogicalOrExpression, while the assignment productions can only start with // LeftHandSideExpressions. // // So, first, we try to just parse out a BinaryExpression. If we get something that is a // LeftHandSide or higher, then we can try to parse out the assignment expression part. // Otherwise, we try to parse out the conditional expression bit. We want to allow any // binary expression here, so we pass in the 'lowest' precedence here so that it matches // and consumes anything. var expr = parseBinaryExpressionOrHigher(/*precedence*/ 0); // To avoid a look-ahead, we did not handle the case of an arrow function with a single un-parenthesized // parameter ('x => ...') above. We handle it here by checking if the parsed expression was a single // identifier and the current token is an arrow. if (expr.kind === 75 /* Identifier */ && token() === 38 /* EqualsGreaterThanToken */) { return parseSimpleArrowFunctionExpression(expr); } // Now see if we might be in cases '2' or '3'. // If the expression was a LHS expression, and we have an assignment operator, then // we're in '2' or '3'. Consume the assignment and return. // // Note: we call reScanGreaterToken so that we get an appropriately merged token // for cases like `> > =` becoming `>>=` if (ts.isLeftHandSideExpression(expr) && ts.isAssignmentOperator(reScanGreaterToken())) { return makeBinaryExpression(expr, parseTokenNode(), parseAssignmentExpressionOrHigher()); } // It wasn't an assignment or a lambda. This is a conditional expression: return parseConditionalExpressionRest(expr); } function isYieldExpression() { if (token() === 121 /* YieldKeyword */) { // If we have a 'yield' keyword, and this is a context where yield expressions are // allowed, then definitely parse out a yield expression. if (inYieldContext()) { return true; } // We're in a context where 'yield expr' is not allowed. However, if we can // definitely tell that the user was trying to parse a 'yield expr' and not // just a normal expr that start with a 'yield' identifier, then parse out // a 'yield expr'. We can then report an error later that they are only // allowed in generator expressions. // // for example, if we see 'yield(foo)', then we'll have to treat that as an // invocation expression of something called 'yield'. However, if we have // 'yield foo' then that is not legal as a normal expression, so we can // definitely recognize this as a yield expression. // // for now we just check if the next token is an identifier. More heuristics // can be added here later as necessary. We just need to make sure that we // don't accidentally consume something legal. return lookAhead(nextTokenIsIdentifierOrKeywordOrLiteralOnSameLine); } return false; } function nextTokenIsIdentifierOnSameLine() { nextToken(); return !scanner.hasPrecedingLineBreak() && isIdentifier(); } function parseYieldExpression() { var node = createNode(212 /* YieldExpression */); // YieldExpression[In] : // yield // yield [no LineTerminator here] [Lexical goal InputElementRegExp]AssignmentExpression[?In, Yield] // yield [no LineTerminator here] * [Lexical goal InputElementRegExp]AssignmentExpression[?In, Yield] nextToken(); if (!scanner.hasPrecedingLineBreak() && (token() === 41 /* AsteriskToken */ || isStartOfExpression())) { node.asteriskToken = parseOptionalToken(41 /* AsteriskToken */); node.expression = parseAssignmentExpressionOrHigher(); return finishNode(node); } else { // if the next token is not on the same line as yield. or we don't have an '*' or // the start of an expression, then this is just a simple "yield" expression. return finishNode(node); } } function parseSimpleArrowFunctionExpression(identifier, asyncModifier) { ts.Debug.assert(token() === 38 /* EqualsGreaterThanToken */, "parseSimpleArrowFunctionExpression should only have been called if we had a =>"); var node; if (asyncModifier) { node = createNode(202 /* ArrowFunction */, asyncModifier.pos); node.modifiers = asyncModifier; } else { node = createNode(202 /* ArrowFunction */, identifier.pos); } var parameter = createNode(156 /* Parameter */, identifier.pos); parameter.name = identifier; finishNode(parameter); node.parameters = createNodeArray([parameter], parameter.pos, parameter.end); node.equalsGreaterThanToken = parseExpectedToken(38 /* EqualsGreaterThanToken */); node.body = parseArrowFunctionExpressionBody(/*isAsync*/ !!asyncModifier); return addJSDocComment(finishNode(node)); } function tryParseParenthesizedArrowFunctionExpression() { var triState = isParenthesizedArrowFunctionExpression(); if (triState === 0 /* False */) { // It's definitely not a parenthesized arrow function expression. return undefined; } // If we definitely have an arrow function, then we can just parse one, not requiring a // following => or { token. Otherwise, we *might* have an arrow function. Try to parse // it out, but don't allow any ambiguity, and return 'undefined' if this could be an // expression instead. var arrowFunction = triState === 1 /* True */ ? parseParenthesizedArrowFunctionExpressionHead(/*allowAmbiguity*/ true) : tryParse(parsePossibleParenthesizedArrowFunctionExpressionHead); if (!arrowFunction) { // Didn't appear to actually be a parenthesized arrow function. Just bail out. return undefined; } var isAsync = hasModifierOfKind(arrowFunction, 126 /* AsyncKeyword */); // If we have an arrow, then try to parse the body. Even if not, try to parse if we // have an opening brace, just in case we're in an error state. var lastToken = token(); arrowFunction.equalsGreaterThanToken = parseExpectedToken(38 /* EqualsGreaterThanToken */); arrowFunction.body = (lastToken === 38 /* EqualsGreaterThanToken */ || lastToken === 18 /* OpenBraceToken */) ? parseArrowFunctionExpressionBody(isAsync) : parseIdentifier(); return finishNode(arrowFunction); } // True -> We definitely expect a parenthesized arrow function here. // False -> There *cannot* be a parenthesized arrow function here. // Unknown -> There *might* be a parenthesized arrow function here. // Speculatively look ahead to be sure, and rollback if not. function isParenthesizedArrowFunctionExpression() { if (token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */ || token() === 126 /* AsyncKeyword */) { return lookAhead(isParenthesizedArrowFunctionExpressionWorker); } if (token() === 38 /* EqualsGreaterThanToken */) { // ERROR RECOVERY TWEAK: // If we see a standalone => try to parse it as an arrow function expression as that's // likely what the user intended to write. return 1 /* True */; } // Definitely not a parenthesized arrow function. return 0 /* False */; } function isParenthesizedArrowFunctionExpressionWorker() { if (token() === 126 /* AsyncKeyword */) { nextToken(); if (scanner.hasPrecedingLineBreak()) { return 0 /* False */; } if (token() !== 20 /* OpenParenToken */ && token() !== 29 /* LessThanToken */) { return 0 /* False */; } } var first = token(); var second = nextToken(); if (first === 20 /* OpenParenToken */) { if (second === 21 /* CloseParenToken */) { // Simple cases: "() =>", "(): ", and "() {". // This is an arrow function with no parameters. // The last one is not actually an arrow function, // but this is probably what the user intended. var third = nextToken(); switch (third) { case 38 /* EqualsGreaterThanToken */: case 58 /* ColonToken */: case 18 /* OpenBraceToken */: return 1 /* True */; default: return 0 /* False */; } } // If encounter "([" or "({", this could be the start of a binding pattern. // Examples: // ([ x ]) => { } // ({ x }) => { } // ([ x ]) // ({ x }) if (second === 22 /* OpenBracketToken */ || second === 18 /* OpenBraceToken */) { return 2 /* Unknown */; } // Simple case: "(..." // This is an arrow function with a rest parameter. if (second === 25 /* DotDotDotToken */) { return 1 /* True */; } // Check for "(xxx yyy", where xxx is a modifier and yyy is an identifier. This // isn't actually allowed, but we want to treat it as a lambda so we can provide // a good error message. if (ts.isModifierKind(second) && second !== 126 /* AsyncKeyword */ && lookAhead(nextTokenIsIdentifier)) { return 1 /* True */; } // If we had "(" followed by something that's not an identifier, // then this definitely doesn't look like a lambda. "this" is not // valid, but we want to parse it and then give a semantic error. if (!isIdentifier() && second !== 104 /* ThisKeyword */) { return 0 /* False */; } switch (nextToken()) { case 58 /* ColonToken */: // If we have something like "(a:", then we must have a // type-annotated parameter in an arrow function expression. return 1 /* True */; case 57 /* QuestionToken */: nextToken(); // If we have "(a?:" or "(a?," or "(a?=" or "(a?)" then it is definitely a lambda. if (token() === 58 /* ColonToken */ || token() === 27 /* CommaToken */ || token() === 62 /* EqualsToken */ || token() === 21 /* CloseParenToken */) { return 1 /* True */; } // Otherwise it is definitely not a lambda. return 0 /* False */; case 27 /* CommaToken */: case 62 /* EqualsToken */: case 21 /* CloseParenToken */: // If we have "(a," or "(a=" or "(a)" this *could* be an arrow function return 2 /* Unknown */; } // It is definitely not an arrow function return 0 /* False */; } else { ts.Debug.assert(first === 29 /* LessThanToken */); // If we have "<" not followed by an identifier, // then this definitely is not an arrow function. if (!isIdentifier()) { return 0 /* False */; } // JSX overrides if (sourceFile.languageVariant === 1 /* JSX */) { var isArrowFunctionInJsx = lookAhead(function () { var third = nextToken(); if (third === 90 /* ExtendsKeyword */) { var fourth = nextToken(); switch (fourth) { case 62 /* EqualsToken */: case 31 /* GreaterThanToken */: return false; default: return true; } } else if (third === 27 /* CommaToken */) { return true; } return false; }); if (isArrowFunctionInJsx) { return 1 /* True */; } return 0 /* False */; } // This *could* be a parenthesized arrow function. return 2 /* Unknown */; } } function parsePossibleParenthesizedArrowFunctionExpressionHead() { var tokenPos = scanner.getTokenPos(); if (notParenthesizedArrow && notParenthesizedArrow.has(tokenPos.toString())) { return undefined; } var result = parseParenthesizedArrowFunctionExpressionHead(/*allowAmbiguity*/ false); if (!result) { (notParenthesizedArrow || (notParenthesizedArrow = ts.createMap())).set(tokenPos.toString(), true); } return result; } function tryParseAsyncSimpleArrowFunctionExpression() { // We do a check here so that we won't be doing unnecessarily call to "lookAhead" if (token() === 126 /* AsyncKeyword */) { if (lookAhead(isUnParenthesizedAsyncArrowFunctionWorker) === 1 /* True */) { var asyncModifier = parseModifiersForArrowFunction(); var expr = parseBinaryExpressionOrHigher(/*precedence*/ 0); return parseSimpleArrowFunctionExpression(expr, asyncModifier); } } return undefined; } function isUnParenthesizedAsyncArrowFunctionWorker() { // AsyncArrowFunctionExpression: // 1) async[no LineTerminator here]AsyncArrowBindingIdentifier[?Yield][no LineTerminator here]=>AsyncConciseBody[?In] // 2) CoverCallExpressionAndAsyncArrowHead[?Yield, ?Await][no LineTerminator here]=>AsyncConciseBody[?In] if (token() === 126 /* AsyncKeyword */) { nextToken(); // If the "async" is followed by "=>" token then it is not a beginning of an async arrow-function // but instead a simple arrow-function which will be parsed inside "parseAssignmentExpressionOrHigher" if (scanner.hasPrecedingLineBreak() || token() === 38 /* EqualsGreaterThanToken */) { return 0 /* False */; } // Check for un-parenthesized AsyncArrowFunction var expr = parseBinaryExpressionOrHigher(/*precedence*/ 0); if (!scanner.hasPrecedingLineBreak() && expr.kind === 75 /* Identifier */ && token() === 38 /* EqualsGreaterThanToken */) { return 1 /* True */; } } return 0 /* False */; } function parseParenthesizedArrowFunctionExpressionHead(allowAmbiguity) { var node = createNodeWithJSDoc(202 /* ArrowFunction */); node.modifiers = parseModifiersForArrowFunction(); var isAsync = hasModifierOfKind(node, 126 /* AsyncKeyword */) ? 2 /* Await */ : 0 /* None */; // Arrow functions are never generators. // // If we're speculatively parsing a signature for a parenthesized arrow function, then // we have to have a complete parameter list. Otherwise we might see something like // a => (b => c) // And think that "(b =>" was actually a parenthesized arrow function with a missing // close paren. if (!fillSignature(58 /* ColonToken */, isAsync, node) && !allowAmbiguity) { return undefined; } // Parsing a signature isn't enough. // Parenthesized arrow signatures often look like other valid expressions. // For instance: // - "(x = 10)" is an assignment expression parsed as a signature with a default parameter value. // - "(x,y)" is a comma expression parsed as a signature with two parameters. // - "a ? (b): c" will have "(b):" parsed as a signature with a return type annotation. // - "a ? (b): function() {}" will too, since function() is a valid JSDoc function type. // // So we need just a bit of lookahead to ensure that it can only be a signature. var hasJSDocFunctionType = node.type && ts.isJSDocFunctionType(node.type); if (!allowAmbiguity && token() !== 38 /* EqualsGreaterThanToken */ && (hasJSDocFunctionType || token() !== 18 /* OpenBraceToken */)) { // Returning undefined here will cause our caller to rewind to where we started from. return undefined; } return node; } function parseArrowFunctionExpressionBody(isAsync) { if (token() === 18 /* OpenBraceToken */) { return parseFunctionBlock(isAsync ? 2 /* Await */ : 0 /* None */); } if (token() !== 26 /* SemicolonToken */ && token() !== 94 /* FunctionKeyword */ && token() !== 80 /* ClassKeyword */ && isStartOfStatement() && !isStartOfExpressionStatement()) { // Check if we got a plain statement (i.e. no expression-statements, no function/class expressions/declarations) // // Here we try to recover from a potential error situation in the case where the // user meant to supply a block. For example, if the user wrote: // // a => // let v = 0; // } // // they may be missing an open brace. Check to see if that's the case so we can // try to recover better. If we don't do this, then the next close curly we see may end // up preemptively closing the containing construct. // // Note: even when 'IgnoreMissingOpenBrace' is passed, parseBody will still error. return parseFunctionBlock(16 /* IgnoreMissingOpenBrace */ | (isAsync ? 2 /* Await */ : 0 /* None */)); } return isAsync ? doInAwaitContext(parseAssignmentExpressionOrHigher) : doOutsideOfAwaitContext(parseAssignmentExpressionOrHigher); } function parseConditionalExpressionRest(leftOperand) { // Note: we are passed in an expression which was produced from parseBinaryExpressionOrHigher. var questionToken = parseOptionalToken(57 /* QuestionToken */); if (!questionToken) { return leftOperand; } // Note: we explicitly 'allowIn' in the whenTrue part of the condition expression, and // we do not that for the 'whenFalse' part. var node = createNode(210 /* ConditionalExpression */, leftOperand.pos); node.condition = leftOperand; node.questionToken = questionToken; node.whenTrue = doOutsideOfContext(disallowInAndDecoratorContext, parseAssignmentExpressionOrHigher); node.colonToken = parseExpectedToken(58 /* ColonToken */); node.whenFalse = ts.nodeIsPresent(node.colonToken) ? parseAssignmentExpressionOrHigher() : createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ false, ts.Diagnostics._0_expected, ts.tokenToString(58 /* ColonToken */)); return finishNode(node); } function parseBinaryExpressionOrHigher(precedence) { var leftOperand = parseUnaryExpressionOrHigher(); return parseBinaryExpressionRest(precedence, leftOperand); } function isInOrOfKeyword(t) { return t === 97 /* InKeyword */ || t === 152 /* OfKeyword */; } function parseBinaryExpressionRest(precedence, leftOperand) { while (true) { // We either have a binary operator here, or we're finished. We call // reScanGreaterToken so that we merge token sequences like > and = into >= reScanGreaterToken(); var newPrecedence = ts.getBinaryOperatorPrecedence(token()); // Check the precedence to see if we should "take" this operator // - For left associative operator (all operator but **), consume the operator, // recursively call the function below, and parse binaryExpression as a rightOperand // of the caller if the new precedence of the operator is greater then or equal to the current precedence. // For example: // a - b - c; // ^token; leftOperand = b. Return b to the caller as a rightOperand // a * b - c // ^token; leftOperand = b. Return b to the caller as a rightOperand // a - b * c; // ^token; leftOperand = b. Return b * c to the caller as a rightOperand // - For right associative operator (**), consume the operator, recursively call the function // and parse binaryExpression as a rightOperand of the caller if the new precedence of // the operator is strictly grater than the current precedence // For example: // a ** b ** c; // ^^token; leftOperand = b. Return b ** c to the caller as a rightOperand // a - b ** c; // ^^token; leftOperand = b. Return b ** c to the caller as a rightOperand // a ** b - c // ^token; leftOperand = b. Return b to the caller as a rightOperand var consumeCurrentOperator = token() === 42 /* AsteriskAsteriskToken */ ? newPrecedence >= precedence : newPrecedence > precedence; if (!consumeCurrentOperator) { break; } if (token() === 97 /* InKeyword */ && inDisallowInContext()) { break; } if (token() === 123 /* AsKeyword */) { // Make sure we *do* perform ASI for constructs like this: // var x = foo // as (Bar) // This should be parsed as an initialized variable, followed // by a function call to 'as' with the argument 'Bar' if (scanner.hasPrecedingLineBreak()) { break; } else { nextToken(); leftOperand = makeAsExpression(leftOperand, parseType()); } } else { leftOperand = makeBinaryExpression(leftOperand, parseTokenNode(), parseBinaryExpressionOrHigher(newPrecedence)); } } return leftOperand; } function isBinaryOperator() { if (inDisallowInContext() && token() === 97 /* InKeyword */) { return false; } return ts.getBinaryOperatorPrecedence(token()) > 0; } function makeBinaryExpression(left, operatorToken, right) { var node = createNode(209 /* BinaryExpression */, left.pos); node.left = left; node.operatorToken = operatorToken; node.right = right; return finishNode(node); } function makeAsExpression(left, right) { var node = createNode(217 /* AsExpression */, left.pos); node.expression = left; node.type = right; return finishNode(node); } function parsePrefixUnaryExpression() { var node = createNode(207 /* PrefixUnaryExpression */); node.operator = token(); nextToken(); node.operand = parseSimpleUnaryExpression(); return finishNode(node); } function parseDeleteExpression() { var node = createNode(203 /* DeleteExpression */); nextToken(); node.expression = parseSimpleUnaryExpression(); return finishNode(node); } function parseTypeOfExpression() { var node = createNode(204 /* TypeOfExpression */); nextToken(); node.expression = parseSimpleUnaryExpression(); return finishNode(node); } function parseVoidExpression() { var node = createNode(205 /* VoidExpression */); nextToken(); node.expression = parseSimpleUnaryExpression(); return finishNode(node); } function isAwaitExpression() { if (token() === 127 /* AwaitKeyword */) { if (inAwaitContext()) { return true; } // here we are using similar heuristics as 'isYieldExpression' return lookAhead(nextTokenIsIdentifierOrKeywordOrLiteralOnSameLine); } return false; } function parseAwaitExpression() { var node = createNode(206 /* AwaitExpression */); nextToken(); node.expression = parseSimpleUnaryExpression(); return finishNode(node); } /** * Parse ES7 exponential expression and await expression * * ES7 ExponentiationExpression: * 1) UnaryExpression[?Yield] * 2) UpdateExpression[?Yield] ** ExponentiationExpression[?Yield] * */ function parseUnaryExpressionOrHigher() { /** * ES7 UpdateExpression: * 1) LeftHandSideExpression[?Yield] * 2) LeftHandSideExpression[?Yield][no LineTerminator here]++ * 3) LeftHandSideExpression[?Yield][no LineTerminator here]-- * 4) ++UnaryExpression[?Yield] * 5) --UnaryExpression[?Yield] */ if (isUpdateExpression()) { var updateExpression = parseUpdateExpression(); return token() === 42 /* AsteriskAsteriskToken */ ? parseBinaryExpressionRest(ts.getBinaryOperatorPrecedence(token()), updateExpression) : updateExpression; } /** * ES7 UnaryExpression: * 1) UpdateExpression[?yield] * 2) delete UpdateExpression[?yield] * 3) void UpdateExpression[?yield] * 4) typeof UpdateExpression[?yield] * 5) + UpdateExpression[?yield] * 6) - UpdateExpression[?yield] * 7) ~ UpdateExpression[?yield] * 8) ! UpdateExpression[?yield] */ var unaryOperator = token(); var simpleUnaryExpression = parseSimpleUnaryExpression(); if (token() === 42 /* AsteriskAsteriskToken */) { var pos = ts.skipTrivia(sourceText, simpleUnaryExpression.pos); var end = simpleUnaryExpression.end; if (simpleUnaryExpression.kind === 199 /* TypeAssertionExpression */) { parseErrorAt(pos, end, ts.Diagnostics.A_type_assertion_expression_is_not_allowed_in_the_left_hand_side_of_an_exponentiation_expression_Consider_enclosing_the_expression_in_parentheses); } else { parseErrorAt(pos, end, ts.Diagnostics.An_unary_expression_with_the_0_operator_is_not_allowed_in_the_left_hand_side_of_an_exponentiation_expression_Consider_enclosing_the_expression_in_parentheses, ts.tokenToString(unaryOperator)); } } return simpleUnaryExpression; } /** * Parse ES7 simple-unary expression or higher: * * ES7 UnaryExpression: * 1) UpdateExpression[?yield] * 2) delete UnaryExpression[?yield] * 3) void UnaryExpression[?yield] * 4) typeof UnaryExpression[?yield] * 5) + UnaryExpression[?yield] * 6) - UnaryExpression[?yield] * 7) ~ UnaryExpression[?yield] * 8) ! UnaryExpression[?yield] * 9) [+Await] await UnaryExpression[?yield] */ function parseSimpleUnaryExpression() { switch (token()) { case 39 /* PlusToken */: case 40 /* MinusToken */: case 54 /* TildeToken */: case 53 /* ExclamationToken */: return parsePrefixUnaryExpression(); case 85 /* DeleteKeyword */: return parseDeleteExpression(); case 108 /* TypeOfKeyword */: return parseTypeOfExpression(); case 110 /* VoidKeyword */: return parseVoidExpression(); case 29 /* LessThanToken */: // This is modified UnaryExpression grammar in TypeScript // UnaryExpression (modified): // < type > UnaryExpression return parseTypeAssertion(); case 127 /* AwaitKeyword */: if (isAwaitExpression()) { return parseAwaitExpression(); } // falls through default: return parseUpdateExpression(); } } /** * Check if the current token can possibly be an ES7 increment expression. * * ES7 UpdateExpression: * LeftHandSideExpression[?Yield] * LeftHandSideExpression[?Yield][no LineTerminator here]++ * LeftHandSideExpression[?Yield][no LineTerminator here]-- * ++LeftHandSideExpression[?Yield] * --LeftHandSideExpression[?Yield] */ function isUpdateExpression() { // This function is called inside parseUnaryExpression to decide // whether to call parseSimpleUnaryExpression or call parseUpdateExpression directly switch (token()) { case 39 /* PlusToken */: case 40 /* MinusToken */: case 54 /* TildeToken */: case 53 /* ExclamationToken */: case 85 /* DeleteKeyword */: case 108 /* TypeOfKeyword */: case 110 /* VoidKeyword */: case 127 /* AwaitKeyword */: return false; case 29 /* LessThanToken */: // If we are not in JSX context, we are parsing TypeAssertion which is an UnaryExpression if (sourceFile.languageVariant !== 1 /* JSX */) { return false; } // We are in JSX context and the token is part of JSXElement. // falls through default: return true; } } /** * Parse ES7 UpdateExpression. UpdateExpression is used instead of ES6's PostFixExpression. * * ES7 UpdateExpression[yield]: * 1) LeftHandSideExpression[?yield] * 2) LeftHandSideExpression[?yield] [[no LineTerminator here]]++ * 3) LeftHandSideExpression[?yield] [[no LineTerminator here]]-- * 4) ++LeftHandSideExpression[?yield] * 5) --LeftHandSideExpression[?yield] * In TypeScript (2), (3) are parsed as PostfixUnaryExpression. (4), (5) are parsed as PrefixUnaryExpression */ function parseUpdateExpression() { if (token() === 45 /* PlusPlusToken */ || token() === 46 /* MinusMinusToken */) { var node = createNode(207 /* PrefixUnaryExpression */); node.operator = token(); nextToken(); node.operand = parseLeftHandSideExpressionOrHigher(); return finishNode(node); } else if (sourceFile.languageVariant === 1 /* JSX */ && token() === 29 /* LessThanToken */ && lookAhead(nextTokenIsIdentifierOrKeywordOrGreaterThan)) { // JSXElement is part of primaryExpression return parseJsxElementOrSelfClosingElementOrFragment(/*inExpressionContext*/ true); } var expression = parseLeftHandSideExpressionOrHigher(); ts.Debug.assert(ts.isLeftHandSideExpression(expression)); if ((token() === 45 /* PlusPlusToken */ || token() === 46 /* MinusMinusToken */) && !scanner.hasPrecedingLineBreak()) { var node = createNode(208 /* PostfixUnaryExpression */, expression.pos); node.operand = expression; node.operator = token(); nextToken(); return finishNode(node); } return expression; } function parseLeftHandSideExpressionOrHigher() { // Original Ecma: // LeftHandSideExpression: See 11.2 // NewExpression // CallExpression // // Our simplification: // // LeftHandSideExpression: See 11.2 // MemberExpression // CallExpression // // See comment in parseMemberExpressionOrHigher on how we replaced NewExpression with // MemberExpression to make our lives easier. // // to best understand the below code, it's important to see how CallExpression expands // out into its own productions: // // CallExpression: // MemberExpression Arguments // CallExpression Arguments // CallExpression[Expression] // CallExpression.IdentifierName // import (AssignmentExpression) // super Arguments // super.IdentifierName // // Because of the recursion in these calls, we need to bottom out first. There are three // bottom out states we can run into: 1) We see 'super' which must start either of // the last two CallExpression productions. 2) We see 'import' which must start import call. // 3)we have a MemberExpression which either completes the LeftHandSideExpression, // or starts the beginning of the first four CallExpression productions. var expression; if (token() === 96 /* ImportKeyword */) { if (lookAhead(nextTokenIsOpenParenOrLessThan)) { // We don't want to eagerly consume all import keyword as import call expression so we look ahead to find "(" // For example: // var foo3 = require("subfolder // import * as foo1 from "module-from-node // We want this import to be a statement rather than import call expression sourceFile.flags |= 1048576 /* PossiblyContainsDynamicImport */; expression = parseTokenNode(); } else if (lookAhead(nextTokenIsDot)) { // This is an 'import.*' metaproperty (i.e. 'import.meta') var fullStart = scanner.getStartPos(); nextToken(); // advance past the 'import' nextToken(); // advance past the dot var node = createNode(219 /* MetaProperty */, fullStart); node.keywordToken = 96 /* ImportKeyword */; node.name = parseIdentifierName(); expression = finishNode(node); sourceFile.flags |= 2097152 /* PossiblyContainsImportMeta */; } else { expression = parseMemberExpressionOrHigher(); } } else { expression = token() === 102 /* SuperKeyword */ ? parseSuperExpression() : parseMemberExpressionOrHigher(); } // Now, we *may* be complete. However, we might have consumed the start of a // CallExpression or OptionalExpression. As such, we need to consume the rest // of it here to be complete. return parseCallExpressionRest(expression); } function parseMemberExpressionOrHigher() { // Note: to make our lives simpler, we decompose the NewExpression productions and // place ObjectCreationExpression and FunctionExpression into PrimaryExpression. // like so: // // PrimaryExpression : See 11.1 // this // Identifier // Literal // ArrayLiteral // ObjectLiteral // (Expression) // FunctionExpression // new MemberExpression Arguments? // // MemberExpression : See 11.2 // PrimaryExpression // MemberExpression[Expression] // MemberExpression.IdentifierName // // CallExpression : See 11.2 // MemberExpression // CallExpression Arguments // CallExpression[Expression] // CallExpression.IdentifierName // // Technically this is ambiguous. i.e. CallExpression defines: // // CallExpression: // CallExpression Arguments // // If you see: "new Foo()" // // Then that could be treated as a single ObjectCreationExpression, or it could be // treated as the invocation of "new Foo". We disambiguate that in code (to match // the original grammar) by making sure that if we see an ObjectCreationExpression // we always consume arguments if they are there. So we treat "new Foo()" as an // object creation only, and not at all as an invocation. Another way to think // about this is that for every "new" that we see, we will consume an argument list if // it is there as part of the *associated* object creation node. Any additional // argument lists we see, will become invocation expressions. // // Because there are no other places in the grammar now that refer to FunctionExpression // or ObjectCreationExpression, it is safe to push down into the PrimaryExpression // production. // // Because CallExpression and MemberExpression are left recursive, we need to bottom out // of the recursion immediately. So we parse out a primary expression to start with. var expression = parsePrimaryExpression(); return parseMemberExpressionRest(expression, /*allowOptionalChain*/ true); } function parseSuperExpression() { var expression = parseTokenNode(); if (token() === 29 /* LessThanToken */) { var startPos = getNodePos(); var typeArguments = tryParse(parseTypeArgumentsInExpression); if (typeArguments !== undefined) { parseErrorAt(startPos, getNodePos(), ts.Diagnostics.super_may_not_use_type_arguments); } } if (token() === 20 /* OpenParenToken */ || token() === 24 /* DotToken */ || token() === 22 /* OpenBracketToken */) { return expression; } // If we have seen "super" it must be followed by '(' or '.'. // If it wasn't then just try to parse out a '.' and report an error. var node = createNode(194 /* PropertyAccessExpression */, expression.pos); node.expression = expression; parseExpectedToken(24 /* DotToken */, ts.Diagnostics.super_must_be_followed_by_an_argument_list_or_member_access); // private names will never work with `super` (`super.#foo`), but that's a semantic error, not syntactic node.name = parseRightSideOfDot(/*allowIdentifierNames*/ true, /*allowPrivateIdentifiers*/ true); return finishNode(node); } function parseJsxElementOrSelfClosingElementOrFragment(inExpressionContext) { var opening = parseJsxOpeningOrSelfClosingElementOrOpeningFragment(inExpressionContext); var result; if (opening.kind === 268 /* JsxOpeningElement */) { var node = createNode(266 /* JsxElement */, opening.pos); node.openingElement = opening; node.children = parseJsxChildren(node.openingElement); node.closingElement = parseJsxClosingElement(inExpressionContext); if (!tagNamesAreEquivalent(node.openingElement.tagName, node.closingElement.tagName)) { parseErrorAtRange(node.closingElement, ts.Diagnostics.Expected_corresponding_JSX_closing_tag_for_0, ts.getTextOfNodeFromSourceText(sourceText, node.openingElement.tagName)); } result = finishNode(node); } else if (opening.kind === 271 /* JsxOpeningFragment */) { var node = createNode(270 /* JsxFragment */, opening.pos); node.openingFragment = opening; node.children = parseJsxChildren(node.openingFragment); node.closingFragment = parseJsxClosingFragment(inExpressionContext); result = finishNode(node); } else { ts.Debug.assert(opening.kind === 267 /* JsxSelfClosingElement */); // Nothing else to do for self-closing elements result = opening; } // If the user writes the invalid code '
' in an expression context (i.e. not wrapped in // an enclosing tag), we'll naively try to parse ^ this as a 'less than' operator and the remainder of the tag // as garbage, which will cause the formatter to badly mangle the JSX. Perform a speculative parse of a JSX // element if we see a < token so that we can wrap it in a synthetic binary expression so the formatter // does less damage and we can report a better error. // Since JSX elements are invalid < operands anyway, this lookahead parse will only occur in error scenarios // of one sort or another. if (inExpressionContext && token() === 29 /* LessThanToken */) { var invalidElement = tryParse(function () { return parseJsxElementOrSelfClosingElementOrFragment(/*inExpressionContext*/ true); }); if (invalidElement) { parseErrorAtCurrentToken(ts.Diagnostics.JSX_expressions_must_have_one_parent_element); var badNode = createNode(209 /* BinaryExpression */, result.pos); badNode.end = invalidElement.end; badNode.left = result; badNode.right = invalidElement; badNode.operatorToken = createMissingNode(27 /* CommaToken */, /*reportAtCurrentPosition*/ false); badNode.operatorToken.pos = badNode.operatorToken.end = badNode.right.pos; return badNode; } } return result; } function parseJsxText() { var node = createNode(11 /* JsxText */); node.text = scanner.getTokenValue(); node.containsOnlyTriviaWhiteSpaces = currentToken === 12 /* JsxTextAllWhiteSpaces */; currentToken = scanner.scanJsxToken(); return finishNode(node); } function parseJsxChild(openingTag, token) { switch (token) { case 1 /* EndOfFileToken */: // If we hit EOF, issue the error at the tag that lacks the closing element // rather than at the end of the file (which is useless) if (ts.isJsxOpeningFragment(openingTag)) { parseErrorAtRange(openingTag, ts.Diagnostics.JSX_fragment_has_no_corresponding_closing_tag); } else { // We want the error span to cover only 'Foo.Bar' in < Foo.Bar > // or to cover only 'Foo' in < Foo > var tag = openingTag.tagName; var start = ts.skipTrivia(sourceText, tag.pos); parseErrorAt(start, tag.end, ts.Diagnostics.JSX_element_0_has_no_corresponding_closing_tag, ts.getTextOfNodeFromSourceText(sourceText, openingTag.tagName)); } return undefined; case 30 /* LessThanSlashToken */: case 7 /* ConflictMarkerTrivia */: return undefined; case 11 /* JsxText */: case 12 /* JsxTextAllWhiteSpaces */: return parseJsxText(); case 18 /* OpenBraceToken */: return parseJsxExpression(/*inExpressionContext*/ false); case 29 /* LessThanToken */: return parseJsxElementOrSelfClosingElementOrFragment(/*inExpressionContext*/ false); default: return ts.Debug.assertNever(token); } } function parseJsxChildren(openingTag) { var list = []; var listPos = getNodePos(); var saveParsingContext = parsingContext; parsingContext |= 1 << 14 /* JsxChildren */; while (true) { var child = parseJsxChild(openingTag, currentToken = scanner.reScanJsxToken()); if (!child) break; list.push(child); } parsingContext = saveParsingContext; return createNodeArray(list, listPos); } function parseJsxAttributes() { var jsxAttributes = createNode(274 /* JsxAttributes */); jsxAttributes.properties = parseList(13 /* JsxAttributes */, parseJsxAttribute); return finishNode(jsxAttributes); } function parseJsxOpeningOrSelfClosingElementOrOpeningFragment(inExpressionContext) { var fullStart = scanner.getStartPos(); parseExpected(29 /* LessThanToken */); if (token() === 31 /* GreaterThanToken */) { // See below for explanation of scanJsxText var node_1 = createNode(271 /* JsxOpeningFragment */, fullStart); scanJsxText(); return finishNode(node_1); } var tagName = parseJsxElementName(); var typeArguments = tryParseTypeArguments(); var attributes = parseJsxAttributes(); var node; if (token() === 31 /* GreaterThanToken */) { // Closing tag, so scan the immediately-following text with the JSX scanning instead // of regular scanning to avoid treating illegal characters (e.g. '#') as immediate // scanning errors node = createNode(268 /* JsxOpeningElement */, fullStart); scanJsxText(); } else { parseExpected(43 /* SlashToken */); if (inExpressionContext) { parseExpected(31 /* GreaterThanToken */); } else { parseExpected(31 /* GreaterThanToken */, /*diagnostic*/ undefined, /*shouldAdvance*/ false); scanJsxText(); } node = createNode(267 /* JsxSelfClosingElement */, fullStart); } node.tagName = tagName; node.typeArguments = typeArguments; node.attributes = attributes; return finishNode(node); } function parseJsxElementName() { scanJsxIdentifier(); // JsxElement can have name in the form of // propertyAccessExpression // primaryExpression in the form of an identifier and "this" keyword // We can't just simply use parseLeftHandSideExpressionOrHigher because then we will start consider class,function etc as a keyword // We only want to consider "this" as a primaryExpression var expression = token() === 104 /* ThisKeyword */ ? parseTokenNode() : parseIdentifierName(); while (parseOptional(24 /* DotToken */)) { var propertyAccess = createNode(194 /* PropertyAccessExpression */, expression.pos); propertyAccess.expression = expression; propertyAccess.name = parseRightSideOfDot(/*allowIdentifierNames*/ true, /*allowPrivateIdentifiers*/ false); expression = finishNode(propertyAccess); } return expression; } function parseJsxExpression(inExpressionContext) { var node = createNode(276 /* JsxExpression */); if (!parseExpected(18 /* OpenBraceToken */)) { return undefined; } if (token() !== 19 /* CloseBraceToken */) { node.dotDotDotToken = parseOptionalToken(25 /* DotDotDotToken */); // Only an AssignmentExpression is valid here per the JSX spec, // but we can unambiguously parse a comma sequence and provide // a better error message in grammar checking. node.expression = parseExpression(); } if (inExpressionContext) { parseExpected(19 /* CloseBraceToken */); } else { if (parseExpected(19 /* CloseBraceToken */, /*message*/ undefined, /*shouldAdvance*/ false)) { scanJsxText(); } } return finishNode(node); } function parseJsxAttribute() { if (token() === 18 /* OpenBraceToken */) { return parseJsxSpreadAttribute(); } scanJsxIdentifier(); var node = createNode(273 /* JsxAttribute */); node.name = parseIdentifierName(); if (token() === 62 /* EqualsToken */) { switch (scanJsxAttributeValue()) { case 10 /* StringLiteral */: node.initializer = parseLiteralNode(); break; default: node.initializer = parseJsxExpression(/*inExpressionContext*/ true); break; } } return finishNode(node); } function parseJsxSpreadAttribute() { var node = createNode(275 /* JsxSpreadAttribute */); parseExpected(18 /* OpenBraceToken */); parseExpected(25 /* DotDotDotToken */); node.expression = parseExpression(); parseExpected(19 /* CloseBraceToken */); return finishNode(node); } function parseJsxClosingElement(inExpressionContext) { var node = createNode(269 /* JsxClosingElement */); parseExpected(30 /* LessThanSlashToken */); node.tagName = parseJsxElementName(); if (inExpressionContext) { parseExpected(31 /* GreaterThanToken */); } else { parseExpected(31 /* GreaterThanToken */, /*diagnostic*/ undefined, /*shouldAdvance*/ false); scanJsxText(); } return finishNode(node); } function parseJsxClosingFragment(inExpressionContext) { var node = createNode(272 /* JsxClosingFragment */); parseExpected(30 /* LessThanSlashToken */); if (ts.tokenIsIdentifierOrKeyword(token())) { parseErrorAtRange(parseJsxElementName(), ts.Diagnostics.Expected_corresponding_closing_tag_for_JSX_fragment); } if (inExpressionContext) { parseExpected(31 /* GreaterThanToken */); } else { parseExpected(31 /* GreaterThanToken */, /*diagnostic*/ undefined, /*shouldAdvance*/ false); scanJsxText(); } return finishNode(node); } function parseTypeAssertion() { var node = createNode(199 /* TypeAssertionExpression */); parseExpected(29 /* LessThanToken */); node.type = parseType(); parseExpected(31 /* GreaterThanToken */); node.expression = parseSimpleUnaryExpression(); return finishNode(node); } function nextTokenIsIdentifierOrKeywordOrOpenBracketOrTemplate() { nextToken(); return ts.tokenIsIdentifierOrKeyword(token()) || token() === 22 /* OpenBracketToken */ || isTemplateStartOfTaggedTemplate(); } function isStartOfOptionalPropertyOrElementAccessChain() { return token() === 28 /* QuestionDotToken */ && lookAhead(nextTokenIsIdentifierOrKeywordOrOpenBracketOrTemplate); } function tryReparseOptionalChain(node) { if (node.flags & 32 /* OptionalChain */) { return true; } // check for an optional chain in a non-null expression if (ts.isNonNullExpression(node)) { var expr = node.expression; while (ts.isNonNullExpression(expr) && !(expr.flags & 32 /* OptionalChain */)) { expr = expr.expression; } if (expr.flags & 32 /* OptionalChain */) { // this is part of an optional chain. Walk down from `node` to `expression` and set the flag. while (ts.isNonNullExpression(node)) { node.flags |= 32 /* OptionalChain */; node = node.expression; } return true; } } return false; } function parsePropertyAccessExpressionRest(expression, questionDotToken) { var propertyAccess = createNode(194 /* PropertyAccessExpression */, expression.pos); propertyAccess.expression = expression; propertyAccess.questionDotToken = questionDotToken; propertyAccess.name = parseRightSideOfDot(/*allowIdentifierNames*/ true, /*allowPrivateIdentifiers*/ true); if (questionDotToken || tryReparseOptionalChain(expression)) { propertyAccess.flags |= 32 /* OptionalChain */; if (ts.isPrivateIdentifier(propertyAccess.name)) { parseErrorAtRange(propertyAccess.name, ts.Diagnostics.An_optional_chain_cannot_contain_private_identifiers); } } return finishNode(propertyAccess); } function parseElementAccessExpressionRest(expression, questionDotToken) { var indexedAccess = createNode(195 /* ElementAccessExpression */, expression.pos); indexedAccess.expression = expression; indexedAccess.questionDotToken = questionDotToken; if (token() === 23 /* CloseBracketToken */) { indexedAccess.argumentExpression = createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ true, ts.Diagnostics.An_element_access_expression_should_take_an_argument); } else { var argument = allowInAnd(parseExpression); if (ts.isStringOrNumericLiteralLike(argument)) { argument.text = internIdentifier(argument.text); } indexedAccess.argumentExpression = argument; } parseExpected(23 /* CloseBracketToken */); if (questionDotToken || tryReparseOptionalChain(expression)) { indexedAccess.flags |= 32 /* OptionalChain */; } return finishNode(indexedAccess); } function parseMemberExpressionRest(expression, allowOptionalChain) { while (true) { var questionDotToken = void 0; var isPropertyAccess = false; if (allowOptionalChain && isStartOfOptionalPropertyOrElementAccessChain()) { questionDotToken = parseExpectedToken(28 /* QuestionDotToken */); isPropertyAccess = ts.tokenIsIdentifierOrKeyword(token()); } else { isPropertyAccess = parseOptional(24 /* DotToken */); } if (isPropertyAccess) { expression = parsePropertyAccessExpressionRest(expression, questionDotToken); continue; } if (!questionDotToken && token() === 53 /* ExclamationToken */ && !scanner.hasPrecedingLineBreak()) { nextToken(); var nonNullExpression = createNode(218 /* NonNullExpression */, expression.pos); nonNullExpression.expression = expression; expression = finishNode(nonNullExpression); continue; } // when in the [Decorator] context, we do not parse ElementAccess as it could be part of a ComputedPropertyName if ((questionDotToken || !inDecoratorContext()) && parseOptional(22 /* OpenBracketToken */)) { expression = parseElementAccessExpressionRest(expression, questionDotToken); continue; } if (isTemplateStartOfTaggedTemplate()) { expression = parseTaggedTemplateRest(expression, questionDotToken, /*typeArguments*/ undefined); continue; } return expression; } } function isTemplateStartOfTaggedTemplate() { return token() === 14 /* NoSubstitutionTemplateLiteral */ || token() === 15 /* TemplateHead */; } function parseTaggedTemplateRest(tag, questionDotToken, typeArguments) { var tagExpression = createNode(198 /* TaggedTemplateExpression */, tag.pos); tagExpression.tag = tag; tagExpression.questionDotToken = questionDotToken; tagExpression.typeArguments = typeArguments; tagExpression.template = token() === 14 /* NoSubstitutionTemplateLiteral */ ? (reScanTemplateHeadOrNoSubstitutionTemplate(), parseLiteralNode()) : parseTemplateExpression(/*isTaggedTemplate*/ true); if (questionDotToken || tag.flags & 32 /* OptionalChain */) { tagExpression.flags |= 32 /* OptionalChain */; } return finishNode(tagExpression); } function parseCallExpressionRest(expression) { while (true) { expression = parseMemberExpressionRest(expression, /*allowOptionalChain*/ true); var questionDotToken = parseOptionalToken(28 /* QuestionDotToken */); // handle 'foo<()' if (token() === 29 /* LessThanToken */ || token() === 47 /* LessThanLessThanToken */) { // See if this is the start of a generic invocation. If so, consume it and // keep checking for postfix expressions. Otherwise, it's just a '<' that's // part of an arithmetic expression. Break out so we consume it higher in the // stack. var typeArguments = tryParse(parseTypeArgumentsInExpression); if (typeArguments) { if (isTemplateStartOfTaggedTemplate()) { expression = parseTaggedTemplateRest(expression, questionDotToken, typeArguments); continue; } var callExpr = createNode(196 /* CallExpression */, expression.pos); callExpr.expression = expression; callExpr.questionDotToken = questionDotToken; callExpr.typeArguments = typeArguments; callExpr.arguments = parseArgumentList(); if (questionDotToken || tryReparseOptionalChain(expression)) { callExpr.flags |= 32 /* OptionalChain */; } expression = finishNode(callExpr); continue; } } else if (token() === 20 /* OpenParenToken */) { var callExpr = createNode(196 /* CallExpression */, expression.pos); callExpr.expression = expression; callExpr.questionDotToken = questionDotToken; callExpr.arguments = parseArgumentList(); if (questionDotToken || tryReparseOptionalChain(expression)) { callExpr.flags |= 32 /* OptionalChain */; } expression = finishNode(callExpr); continue; } if (questionDotToken) { // We failed to parse anything, so report a missing identifier here. var propertyAccess = createNode(194 /* PropertyAccessExpression */, expression.pos); propertyAccess.expression = expression; propertyAccess.questionDotToken = questionDotToken; propertyAccess.name = createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ false, ts.Diagnostics.Identifier_expected); propertyAccess.flags |= 32 /* OptionalChain */; expression = finishNode(propertyAccess); } break; } return expression; } function parseArgumentList() { parseExpected(20 /* OpenParenToken */); var result = parseDelimitedList(11 /* ArgumentExpressions */, parseArgumentExpression); parseExpected(21 /* CloseParenToken */); return result; } function parseTypeArgumentsInExpression() { if (reScanLessThanToken() !== 29 /* LessThanToken */) { return undefined; } nextToken(); var typeArguments = parseDelimitedList(20 /* TypeArguments */, parseType); if (!parseExpected(31 /* GreaterThanToken */)) { // If it doesn't have the closing `>` then it's definitely not an type argument list. return undefined; } // If we have a '<', then only parse this as a argument list if the type arguments // are complete and we have an open paren. if we don't, rewind and return nothing. return typeArguments && canFollowTypeArgumentsInExpression() ? typeArguments : undefined; } function canFollowTypeArgumentsInExpression() { switch (token()) { case 20 /* OpenParenToken */: // foo( case 14 /* NoSubstitutionTemplateLiteral */: // foo `...` case 15 /* TemplateHead */: // foo `...${100}...` // these are the only tokens can legally follow a type argument // list. So we definitely want to treat them as type arg lists. // falls through case 24 /* DotToken */: // foo. case 21 /* CloseParenToken */: // foo) case 23 /* CloseBracketToken */: // foo] case 58 /* ColonToken */: // foo: case 26 /* SemicolonToken */: // foo; case 57 /* QuestionToken */: // foo? case 34 /* EqualsEqualsToken */: // foo == case 36 /* EqualsEqualsEqualsToken */: // foo === case 35 /* ExclamationEqualsToken */: // foo != case 37 /* ExclamationEqualsEqualsToken */: // foo !== case 55 /* AmpersandAmpersandToken */: // foo && case 56 /* BarBarToken */: // foo || case 60 /* QuestionQuestionToken */: // foo ?? case 52 /* CaretToken */: // foo ^ case 50 /* AmpersandToken */: // foo & case 51 /* BarToken */: // foo | case 19 /* CloseBraceToken */: // foo } case 1 /* EndOfFileToken */: // foo // these cases can't legally follow a type arg list. However, they're not legal // expressions either. The user is probably in the middle of a generic type. So // treat it as such. return true; case 27 /* CommaToken */: // foo, case 18 /* OpenBraceToken */: // foo { // We don't want to treat these as type arguments. Otherwise we'll parse this // as an invocation expression. Instead, we want to parse out the expression // in isolation from the type arguments. // falls through default: // Anything else treat as an expression. return false; } } function parsePrimaryExpression() { switch (token()) { case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: return parseLiteralNode(); case 104 /* ThisKeyword */: case 102 /* SuperKeyword */: case 100 /* NullKeyword */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: return parseTokenNode(); case 20 /* OpenParenToken */: return parseParenthesizedExpression(); case 22 /* OpenBracketToken */: return parseArrayLiteralExpression(); case 18 /* OpenBraceToken */: return parseObjectLiteralExpression(); case 126 /* AsyncKeyword */: // Async arrow functions are parsed earlier in parseAssignmentExpressionOrHigher. // If we encounter `async [no LineTerminator here] function` then this is an async // function; otherwise, its an identifier. if (!lookAhead(nextTokenIsFunctionKeywordOnSameLine)) { break; } return parseFunctionExpression(); case 80 /* ClassKeyword */: return parseClassExpression(); case 94 /* FunctionKeyword */: return parseFunctionExpression(); case 99 /* NewKeyword */: return parseNewExpressionOrNewDotTarget(); case 43 /* SlashToken */: case 67 /* SlashEqualsToken */: if (reScanSlashToken() === 13 /* RegularExpressionLiteral */) { return parseLiteralNode(); } break; case 15 /* TemplateHead */: return parseTemplateExpression(/* isTaggedTemplate */ false); } return parseIdentifier(ts.Diagnostics.Expression_expected); } function parseParenthesizedExpression() { var node = createNodeWithJSDoc(200 /* ParenthesizedExpression */); parseExpected(20 /* OpenParenToken */); node.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); return finishNode(node); } function parseSpreadElement() { var node = createNode(213 /* SpreadElement */); parseExpected(25 /* DotDotDotToken */); node.expression = parseAssignmentExpressionOrHigher(); return finishNode(node); } function parseArgumentOrArrayLiteralElement() { return token() === 25 /* DotDotDotToken */ ? parseSpreadElement() : token() === 27 /* CommaToken */ ? createNode(215 /* OmittedExpression */) : parseAssignmentExpressionOrHigher(); } function parseArgumentExpression() { return doOutsideOfContext(disallowInAndDecoratorContext, parseArgumentOrArrayLiteralElement); } function parseArrayLiteralExpression() { var node = createNode(192 /* ArrayLiteralExpression */); parseExpected(22 /* OpenBracketToken */); if (scanner.hasPrecedingLineBreak()) { node.multiLine = true; } node.elements = parseDelimitedList(15 /* ArrayLiteralMembers */, parseArgumentOrArrayLiteralElement); parseExpected(23 /* CloseBracketToken */); return finishNode(node); } function parseObjectLiteralElement() { var node = createNodeWithJSDoc(0 /* Unknown */); if (parseOptionalToken(25 /* DotDotDotToken */)) { node.kind = 283 /* SpreadAssignment */; node.expression = parseAssignmentExpressionOrHigher(); return finishNode(node); } node.decorators = parseDecorators(); node.modifiers = parseModifiers(); if (parseContextualModifier(131 /* GetKeyword */)) { return parseAccessorDeclaration(node, 163 /* GetAccessor */); } if (parseContextualModifier(142 /* SetKeyword */)) { return parseAccessorDeclaration(node, 164 /* SetAccessor */); } var asteriskToken = parseOptionalToken(41 /* AsteriskToken */); var tokenIsIdentifier = isIdentifier(); node.name = parsePropertyName(); // Disallowing of optional property assignments and definite assignment assertion happens in the grammar checker. node.questionToken = parseOptionalToken(57 /* QuestionToken */); node.exclamationToken = parseOptionalToken(53 /* ExclamationToken */); if (asteriskToken || token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */) { return parseMethodDeclaration(node, asteriskToken); } // check if it is short-hand property assignment or normal property assignment // NOTE: if token is EqualsToken it is interpreted as CoverInitializedName production // CoverInitializedName[Yield] : // IdentifierReference[?Yield] Initializer[In, ?Yield] // this is necessary because ObjectLiteral productions are also used to cover grammar for ObjectAssignmentPattern var isShorthandPropertyAssignment = tokenIsIdentifier && (token() !== 58 /* ColonToken */); if (isShorthandPropertyAssignment) { node.kind = 282 /* ShorthandPropertyAssignment */; var equalsToken = parseOptionalToken(62 /* EqualsToken */); if (equalsToken) { node.equalsToken = equalsToken; node.objectAssignmentInitializer = allowInAnd(parseAssignmentExpressionOrHigher); } } else { node.kind = 281 /* PropertyAssignment */; parseExpected(58 /* ColonToken */); node.initializer = allowInAnd(parseAssignmentExpressionOrHigher); } return finishNode(node); } function parseObjectLiteralExpression() { var node = createNode(193 /* ObjectLiteralExpression */); var openBracePosition = scanner.getTokenPos(); parseExpected(18 /* OpenBraceToken */); if (scanner.hasPrecedingLineBreak()) { node.multiLine = true; } node.properties = parseDelimitedList(12 /* ObjectLiteralMembers */, parseObjectLiteralElement, /*considerSemicolonAsDelimiter*/ true); if (!parseExpected(19 /* CloseBraceToken */)) { var lastError = ts.lastOrUndefined(parseDiagnostics); if (lastError && lastError.code === ts.Diagnostics._0_expected.code) { ts.addRelatedInfo(lastError, ts.createFileDiagnostic(sourceFile, openBracePosition, 1, ts.Diagnostics.The_parser_expected_to_find_a_to_match_the_token_here)); } } return finishNode(node); } function parseFunctionExpression() { // GeneratorExpression: // function* BindingIdentifier [Yield][opt](FormalParameters[Yield]){ GeneratorBody } // // FunctionExpression: // function BindingIdentifier[opt](FormalParameters){ FunctionBody } var saveDecoratorContext = inDecoratorContext(); if (saveDecoratorContext) { setDecoratorContext(/*val*/ false); } var node = createNodeWithJSDoc(201 /* FunctionExpression */); node.modifiers = parseModifiers(); parseExpected(94 /* FunctionKeyword */); node.asteriskToken = parseOptionalToken(41 /* AsteriskToken */); var isGenerator = node.asteriskToken ? 1 /* Yield */ : 0 /* None */; var isAsync = hasModifierOfKind(node, 126 /* AsyncKeyword */) ? 2 /* Await */ : 0 /* None */; node.name = isGenerator && isAsync ? doInYieldAndAwaitContext(parseOptionalIdentifier) : isGenerator ? doInYieldContext(parseOptionalIdentifier) : isAsync ? doInAwaitContext(parseOptionalIdentifier) : parseOptionalIdentifier(); fillSignature(58 /* ColonToken */, isGenerator | isAsync, node); node.body = parseFunctionBlock(isGenerator | isAsync); if (saveDecoratorContext) { setDecoratorContext(/*val*/ true); } return finishNode(node); } function parseOptionalIdentifier() { return isIdentifier() ? parseIdentifier() : undefined; } function parseNewExpressionOrNewDotTarget() { var fullStart = scanner.getStartPos(); parseExpected(99 /* NewKeyword */); if (parseOptional(24 /* DotToken */)) { var node_2 = createNode(219 /* MetaProperty */, fullStart); node_2.keywordToken = 99 /* NewKeyword */; node_2.name = parseIdentifierName(); return finishNode(node_2); } var expression = parsePrimaryExpression(); var typeArguments; while (true) { expression = parseMemberExpressionRest(expression, /*allowOptionalChain*/ false); typeArguments = tryParse(parseTypeArgumentsInExpression); if (isTemplateStartOfTaggedTemplate()) { ts.Debug.assert(!!typeArguments, "Expected a type argument list; all plain tagged template starts should be consumed in 'parseMemberExpressionRest'"); expression = parseTaggedTemplateRest(expression, /*optionalChain*/ undefined, typeArguments); typeArguments = undefined; } break; } var node = createNode(197 /* NewExpression */, fullStart); node.expression = expression; node.typeArguments = typeArguments; if (token() === 20 /* OpenParenToken */) { node.arguments = parseArgumentList(); } else if (node.typeArguments) { parseErrorAt(fullStart, scanner.getStartPos(), ts.Diagnostics.A_new_expression_with_type_arguments_must_always_be_followed_by_a_parenthesized_argument_list); } return finishNode(node); } // STATEMENTS function parseBlock(ignoreMissingOpenBrace, diagnosticMessage) { var node = createNode(223 /* Block */); var openBracePosition = scanner.getTokenPos(); if (parseExpected(18 /* OpenBraceToken */, diagnosticMessage) || ignoreMissingOpenBrace) { if (scanner.hasPrecedingLineBreak()) { node.multiLine = true; } node.statements = parseList(1 /* BlockStatements */, parseStatement); if (!parseExpected(19 /* CloseBraceToken */)) { var lastError = ts.lastOrUndefined(parseDiagnostics); if (lastError && lastError.code === ts.Diagnostics._0_expected.code) { ts.addRelatedInfo(lastError, ts.createFileDiagnostic(sourceFile, openBracePosition, 1, ts.Diagnostics.The_parser_expected_to_find_a_to_match_the_token_here)); } } } else { node.statements = createMissingList(); } return finishNode(node); } function parseFunctionBlock(flags, diagnosticMessage) { var savedYieldContext = inYieldContext(); setYieldContext(!!(flags & 1 /* Yield */)); var savedAwaitContext = inAwaitContext(); setAwaitContext(!!(flags & 2 /* Await */)); // We may be in a [Decorator] context when parsing a function expression or // arrow function. The body of the function is not in [Decorator] context. var saveDecoratorContext = inDecoratorContext(); if (saveDecoratorContext) { setDecoratorContext(/*val*/ false); } var block = parseBlock(!!(flags & 16 /* IgnoreMissingOpenBrace */), diagnosticMessage); if (saveDecoratorContext) { setDecoratorContext(/*val*/ true); } setYieldContext(savedYieldContext); setAwaitContext(savedAwaitContext); return block; } function parseEmptyStatement() { var node = createNode(224 /* EmptyStatement */); parseExpected(26 /* SemicolonToken */); return finishNode(node); } function parseIfStatement() { var node = createNode(227 /* IfStatement */); parseExpected(95 /* IfKeyword */); parseExpected(20 /* OpenParenToken */); node.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); node.thenStatement = parseStatement(); node.elseStatement = parseOptional(87 /* ElseKeyword */) ? parseStatement() : undefined; return finishNode(node); } function parseDoStatement() { var node = createNode(228 /* DoStatement */); parseExpected(86 /* DoKeyword */); node.statement = parseStatement(); parseExpected(111 /* WhileKeyword */); parseExpected(20 /* OpenParenToken */); node.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); // From: https://mail.mozilla.org/pipermail/es-discuss/2011-August/016188.html // 157 min --- All allen at wirfs-brock.com CONF --- "do{;}while(false)false" prohibited in // spec but allowed in consensus reality. Approved -- this is the de-facto standard whereby // do;while(0)x will have a semicolon inserted before x. parseOptional(26 /* SemicolonToken */); return finishNode(node); } function parseWhileStatement() { var node = createNode(229 /* WhileStatement */); parseExpected(111 /* WhileKeyword */); parseExpected(20 /* OpenParenToken */); node.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); node.statement = parseStatement(); return finishNode(node); } function parseForOrForInOrForOfStatement() { var pos = getNodePos(); parseExpected(93 /* ForKeyword */); var awaitToken = parseOptionalToken(127 /* AwaitKeyword */); parseExpected(20 /* OpenParenToken */); var initializer; if (token() !== 26 /* SemicolonToken */) { if (token() === 109 /* VarKeyword */ || token() === 115 /* LetKeyword */ || token() === 81 /* ConstKeyword */) { initializer = parseVariableDeclarationList(/*inForStatementInitializer*/ true); } else { initializer = disallowInAnd(parseExpression); } } var forOrForInOrForOfStatement; if (awaitToken ? parseExpected(152 /* OfKeyword */) : parseOptional(152 /* OfKeyword */)) { var forOfStatement = createNode(232 /* ForOfStatement */, pos); forOfStatement.awaitModifier = awaitToken; forOfStatement.initializer = initializer; forOfStatement.expression = allowInAnd(parseAssignmentExpressionOrHigher); parseExpected(21 /* CloseParenToken */); forOrForInOrForOfStatement = forOfStatement; } else if (parseOptional(97 /* InKeyword */)) { var forInStatement = createNode(231 /* ForInStatement */, pos); forInStatement.initializer = initializer; forInStatement.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); forOrForInOrForOfStatement = forInStatement; } else { var forStatement = createNode(230 /* ForStatement */, pos); forStatement.initializer = initializer; parseExpected(26 /* SemicolonToken */); if (token() !== 26 /* SemicolonToken */ && token() !== 21 /* CloseParenToken */) { forStatement.condition = allowInAnd(parseExpression); } parseExpected(26 /* SemicolonToken */); if (token() !== 21 /* CloseParenToken */) { forStatement.incrementor = allowInAnd(parseExpression); } parseExpected(21 /* CloseParenToken */); forOrForInOrForOfStatement = forStatement; } forOrForInOrForOfStatement.statement = parseStatement(); return finishNode(forOrForInOrForOfStatement); } function parseBreakOrContinueStatement(kind) { var node = createNode(kind); parseExpected(kind === 234 /* BreakStatement */ ? 77 /* BreakKeyword */ : 82 /* ContinueKeyword */); if (!canParseSemicolon()) { node.label = parseIdentifier(); } parseSemicolon(); return finishNode(node); } function parseReturnStatement() { var node = createNode(235 /* ReturnStatement */); parseExpected(101 /* ReturnKeyword */); if (!canParseSemicolon()) { node.expression = allowInAnd(parseExpression); } parseSemicolon(); return finishNode(node); } function parseWithStatement() { var node = createNode(236 /* WithStatement */); parseExpected(112 /* WithKeyword */); parseExpected(20 /* OpenParenToken */); node.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); node.statement = doInsideOfContext(16777216 /* InWithStatement */, parseStatement); return finishNode(node); } function parseCaseClause() { var node = createNode(277 /* CaseClause */); parseExpected(78 /* CaseKeyword */); node.expression = allowInAnd(parseExpression); parseExpected(58 /* ColonToken */); node.statements = parseList(3 /* SwitchClauseStatements */, parseStatement); return finishNode(node); } function parseDefaultClause() { var node = createNode(278 /* DefaultClause */); parseExpected(84 /* DefaultKeyword */); parseExpected(58 /* ColonToken */); node.statements = parseList(3 /* SwitchClauseStatements */, parseStatement); return finishNode(node); } function parseCaseOrDefaultClause() { return token() === 78 /* CaseKeyword */ ? parseCaseClause() : parseDefaultClause(); } function parseSwitchStatement() { var node = createNode(237 /* SwitchStatement */); parseExpected(103 /* SwitchKeyword */); parseExpected(20 /* OpenParenToken */); node.expression = allowInAnd(parseExpression); parseExpected(21 /* CloseParenToken */); var caseBlock = createNode(251 /* CaseBlock */); parseExpected(18 /* OpenBraceToken */); caseBlock.clauses = parseList(2 /* SwitchClauses */, parseCaseOrDefaultClause); parseExpected(19 /* CloseBraceToken */); node.caseBlock = finishNode(caseBlock); return finishNode(node); } function parseThrowStatement() { // ThrowStatement[Yield] : // throw [no LineTerminator here]Expression[In, ?Yield]; // Because of automatic semicolon insertion, we need to report error if this // throw could be terminated with a semicolon. Note: we can't call 'parseExpression' // directly as that might consume an expression on the following line. // We just return 'undefined' in that case. The actual error will be reported in the // grammar walker. var node = createNode(239 /* ThrowStatement */); parseExpected(105 /* ThrowKeyword */); node.expression = scanner.hasPrecedingLineBreak() ? undefined : allowInAnd(parseExpression); parseSemicolon(); return finishNode(node); } // TODO: Review for error recovery function parseTryStatement() { var node = createNode(240 /* TryStatement */); parseExpected(107 /* TryKeyword */); node.tryBlock = parseBlock(/*ignoreMissingOpenBrace*/ false); node.catchClause = token() === 79 /* CatchKeyword */ ? parseCatchClause() : undefined; // If we don't have a catch clause, then we must have a finally clause. Try to parse // one out no matter what. if (!node.catchClause || token() === 92 /* FinallyKeyword */) { parseExpected(92 /* FinallyKeyword */); node.finallyBlock = parseBlock(/*ignoreMissingOpenBrace*/ false); } return finishNode(node); } function parseCatchClause() { var result = createNode(280 /* CatchClause */); parseExpected(79 /* CatchKeyword */); if (parseOptional(20 /* OpenParenToken */)) { result.variableDeclaration = parseVariableDeclaration(); parseExpected(21 /* CloseParenToken */); } else { // Keep shape of node to avoid degrading performance. result.variableDeclaration = undefined; } result.block = parseBlock(/*ignoreMissingOpenBrace*/ false); return finishNode(result); } function parseDebuggerStatement() { var node = createNode(241 /* DebuggerStatement */); parseExpected(83 /* DebuggerKeyword */); parseSemicolon(); return finishNode(node); } function parseExpressionOrLabeledStatement() { // Avoiding having to do the lookahead for a labeled statement by just trying to parse // out an expression, seeing if it is identifier and then seeing if it is followed by // a colon. var node = createNodeWithJSDoc(token() === 75 /* Identifier */ ? 0 /* Unknown */ : 226 /* ExpressionStatement */); var expression = allowInAnd(parseExpression); if (expression.kind === 75 /* Identifier */ && parseOptional(58 /* ColonToken */)) { node.kind = 238 /* LabeledStatement */; node.label = expression; node.statement = parseStatement(); } else { node.kind = 226 /* ExpressionStatement */; node.expression = expression; parseSemicolon(); } return finishNode(node); } function nextTokenIsIdentifierOrKeywordOnSameLine() { nextToken(); return ts.tokenIsIdentifierOrKeyword(token()) && !scanner.hasPrecedingLineBreak(); } function nextTokenIsClassKeywordOnSameLine() { nextToken(); return token() === 80 /* ClassKeyword */ && !scanner.hasPrecedingLineBreak(); } function nextTokenIsFunctionKeywordOnSameLine() { nextToken(); return token() === 94 /* FunctionKeyword */ && !scanner.hasPrecedingLineBreak(); } function nextTokenIsIdentifierOrKeywordOrLiteralOnSameLine() { nextToken(); return (ts.tokenIsIdentifierOrKeyword(token()) || token() === 8 /* NumericLiteral */ || token() === 9 /* BigIntLiteral */ || token() === 10 /* StringLiteral */) && !scanner.hasPrecedingLineBreak(); } function isDeclaration() { while (true) { switch (token()) { case 109 /* VarKeyword */: case 115 /* LetKeyword */: case 81 /* ConstKeyword */: case 94 /* FunctionKeyword */: case 80 /* ClassKeyword */: case 88 /* EnumKeyword */: return true; // 'declare', 'module', 'namespace', 'interface'* and 'type' are all legal JavaScript identifiers; // however, an identifier cannot be followed by another identifier on the same line. This is what we // count on to parse out the respective declarations. For instance, we exploit this to say that // // namespace n // // can be none other than the beginning of a namespace declaration, but need to respect that JavaScript sees // // namespace // n // // as the identifier 'namespace' on one line followed by the identifier 'n' on another. // We need to look one token ahead to see if it permissible to try parsing a declaration. // // *Note*: 'interface' is actually a strict mode reserved word. So while // // "use strict" // interface // I {} // // could be legal, it would add complexity for very little gain. case 114 /* InterfaceKeyword */: case 145 /* TypeKeyword */: return nextTokenIsIdentifierOnSameLine(); case 135 /* ModuleKeyword */: case 136 /* NamespaceKeyword */: return nextTokenIsIdentifierOrStringLiteralOnSameLine(); case 122 /* AbstractKeyword */: case 126 /* AsyncKeyword */: case 130 /* DeclareKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 119 /* PublicKeyword */: case 138 /* ReadonlyKeyword */: nextToken(); // ASI takes effect for this modifier. if (scanner.hasPrecedingLineBreak()) { return false; } continue; case 150 /* GlobalKeyword */: nextToken(); return token() === 18 /* OpenBraceToken */ || token() === 75 /* Identifier */ || token() === 89 /* ExportKeyword */; case 96 /* ImportKeyword */: nextToken(); return token() === 10 /* StringLiteral */ || token() === 41 /* AsteriskToken */ || token() === 18 /* OpenBraceToken */ || ts.tokenIsIdentifierOrKeyword(token()); case 89 /* ExportKeyword */: var currentToken_1 = nextToken(); if (currentToken_1 === 145 /* TypeKeyword */) { currentToken_1 = lookAhead(nextToken); } if (currentToken_1 === 62 /* EqualsToken */ || currentToken_1 === 41 /* AsteriskToken */ || currentToken_1 === 18 /* OpenBraceToken */ || currentToken_1 === 84 /* DefaultKeyword */ || currentToken_1 === 123 /* AsKeyword */) { return true; } continue; case 120 /* StaticKeyword */: nextToken(); continue; default: return false; } } } function isStartOfDeclaration() { return lookAhead(isDeclaration); } function isStartOfStatement() { switch (token()) { case 59 /* AtToken */: case 26 /* SemicolonToken */: case 18 /* OpenBraceToken */: case 109 /* VarKeyword */: case 115 /* LetKeyword */: case 94 /* FunctionKeyword */: case 80 /* ClassKeyword */: case 88 /* EnumKeyword */: case 95 /* IfKeyword */: case 86 /* DoKeyword */: case 111 /* WhileKeyword */: case 93 /* ForKeyword */: case 82 /* ContinueKeyword */: case 77 /* BreakKeyword */: case 101 /* ReturnKeyword */: case 112 /* WithKeyword */: case 103 /* SwitchKeyword */: case 105 /* ThrowKeyword */: case 107 /* TryKeyword */: case 83 /* DebuggerKeyword */: // 'catch' and 'finally' do not actually indicate that the code is part of a statement, // however, we say they are here so that we may gracefully parse them and error later. // falls through case 79 /* CatchKeyword */: case 92 /* FinallyKeyword */: return true; case 96 /* ImportKeyword */: return isStartOfDeclaration() || lookAhead(nextTokenIsOpenParenOrLessThanOrDot); case 81 /* ConstKeyword */: case 89 /* ExportKeyword */: return isStartOfDeclaration(); case 126 /* AsyncKeyword */: case 130 /* DeclareKeyword */: case 114 /* InterfaceKeyword */: case 135 /* ModuleKeyword */: case 136 /* NamespaceKeyword */: case 145 /* TypeKeyword */: case 150 /* GlobalKeyword */: // When these don't start a declaration, they're an identifier in an expression statement return true; case 119 /* PublicKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 120 /* StaticKeyword */: case 138 /* ReadonlyKeyword */: // When these don't start a declaration, they may be the start of a class member if an identifier // immediately follows. Otherwise they're an identifier in an expression statement. return isStartOfDeclaration() || !lookAhead(nextTokenIsIdentifierOrKeywordOnSameLine); default: return isStartOfExpression(); } } function nextTokenIsIdentifierOrStartOfDestructuring() { nextToken(); return isIdentifier() || token() === 18 /* OpenBraceToken */ || token() === 22 /* OpenBracketToken */; } function isLetDeclaration() { // In ES6 'let' always starts a lexical declaration if followed by an identifier or { // or [. return lookAhead(nextTokenIsIdentifierOrStartOfDestructuring); } function parseStatement() { switch (token()) { case 26 /* SemicolonToken */: return parseEmptyStatement(); case 18 /* OpenBraceToken */: return parseBlock(/*ignoreMissingOpenBrace*/ false); case 109 /* VarKeyword */: return parseVariableStatement(createNodeWithJSDoc(242 /* VariableDeclaration */)); case 115 /* LetKeyword */: if (isLetDeclaration()) { return parseVariableStatement(createNodeWithJSDoc(242 /* VariableDeclaration */)); } break; case 94 /* FunctionKeyword */: return parseFunctionDeclaration(createNodeWithJSDoc(244 /* FunctionDeclaration */)); case 80 /* ClassKeyword */: return parseClassDeclaration(createNodeWithJSDoc(245 /* ClassDeclaration */)); case 95 /* IfKeyword */: return parseIfStatement(); case 86 /* DoKeyword */: return parseDoStatement(); case 111 /* WhileKeyword */: return parseWhileStatement(); case 93 /* ForKeyword */: return parseForOrForInOrForOfStatement(); case 82 /* ContinueKeyword */: return parseBreakOrContinueStatement(233 /* ContinueStatement */); case 77 /* BreakKeyword */: return parseBreakOrContinueStatement(234 /* BreakStatement */); case 101 /* ReturnKeyword */: return parseReturnStatement(); case 112 /* WithKeyword */: return parseWithStatement(); case 103 /* SwitchKeyword */: return parseSwitchStatement(); case 105 /* ThrowKeyword */: return parseThrowStatement(); case 107 /* TryKeyword */: // Include 'catch' and 'finally' for error recovery. // falls through case 79 /* CatchKeyword */: case 92 /* FinallyKeyword */: return parseTryStatement(); case 83 /* DebuggerKeyword */: return parseDebuggerStatement(); case 59 /* AtToken */: return parseDeclaration(); case 126 /* AsyncKeyword */: case 114 /* InterfaceKeyword */: case 145 /* TypeKeyword */: case 135 /* ModuleKeyword */: case 136 /* NamespaceKeyword */: case 130 /* DeclareKeyword */: case 81 /* ConstKeyword */: case 88 /* EnumKeyword */: case 89 /* ExportKeyword */: case 96 /* ImportKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 119 /* PublicKeyword */: case 122 /* AbstractKeyword */: case 120 /* StaticKeyword */: case 138 /* ReadonlyKeyword */: case 150 /* GlobalKeyword */: if (isStartOfDeclaration()) { return parseDeclaration(); } break; } return parseExpressionOrLabeledStatement(); } function isDeclareModifier(modifier) { return modifier.kind === 130 /* DeclareKeyword */; } function parseDeclaration() { var modifiers = lookAhead(function () { return (parseDecorators(), parseModifiers()); }); // `parseListElement` attempted to get the reused node at this position, // but the ambient context flag was not yet set, so the node appeared // not reusable in that context. var isAmbient = ts.some(modifiers, isDeclareModifier); if (isAmbient) { var node_3 = tryReuseAmbientDeclaration(); if (node_3) { return node_3; } } var node = createNodeWithJSDoc(0 /* Unknown */); node.decorators = parseDecorators(); node.modifiers = parseModifiers(); if (isAmbient) { for (var _i = 0, _a = node.modifiers; _i < _a.length; _i++) { var m = _a[_i]; m.flags |= 8388608 /* Ambient */; } return doInsideOfContext(8388608 /* Ambient */, function () { return parseDeclarationWorker(node); }); } else { return parseDeclarationWorker(node); } } function tryReuseAmbientDeclaration() { return doInsideOfContext(8388608 /* Ambient */, function () { var node = currentNode(parsingContext); if (node) { return consumeNode(node); } }); } function parseDeclarationWorker(node) { switch (token()) { case 109 /* VarKeyword */: case 115 /* LetKeyword */: case 81 /* ConstKeyword */: return parseVariableStatement(node); case 94 /* FunctionKeyword */: return parseFunctionDeclaration(node); case 80 /* ClassKeyword */: return parseClassDeclaration(node); case 114 /* InterfaceKeyword */: return parseInterfaceDeclaration(node); case 145 /* TypeKeyword */: return parseTypeAliasDeclaration(node); case 88 /* EnumKeyword */: return parseEnumDeclaration(node); case 150 /* GlobalKeyword */: case 135 /* ModuleKeyword */: case 136 /* NamespaceKeyword */: return parseModuleDeclaration(node); case 96 /* ImportKeyword */: return parseImportDeclarationOrImportEqualsDeclaration(node); case 89 /* ExportKeyword */: nextToken(); switch (token()) { case 84 /* DefaultKeyword */: case 62 /* EqualsToken */: return parseExportAssignment(node); case 123 /* AsKeyword */: return parseNamespaceExportDeclaration(node); default: return parseExportDeclaration(node); } default: if (node.decorators || node.modifiers) { // We reached this point because we encountered decorators and/or modifiers and assumed a declaration // would follow. For recovery and error reporting purposes, return an incomplete declaration. var missing = createMissingNode(264 /* MissingDeclaration */, /*reportAtCurrentPosition*/ true, ts.Diagnostics.Declaration_expected); missing.pos = node.pos; missing.decorators = node.decorators; missing.modifiers = node.modifiers; return finishNode(missing); } return undefined; // TODO: GH#18217 } } function nextTokenIsIdentifierOrStringLiteralOnSameLine() { nextToken(); return !scanner.hasPrecedingLineBreak() && (isIdentifier() || token() === 10 /* StringLiteral */); } function parseFunctionBlockOrSemicolon(flags, diagnosticMessage) { if (token() !== 18 /* OpenBraceToken */ && canParseSemicolon()) { parseSemicolon(); return; } return parseFunctionBlock(flags, diagnosticMessage); } // DECLARATIONS function parseArrayBindingElement() { if (token() === 27 /* CommaToken */) { return createNode(215 /* OmittedExpression */); } var node = createNode(191 /* BindingElement */); node.dotDotDotToken = parseOptionalToken(25 /* DotDotDotToken */); node.name = parseIdentifierOrPattern(); node.initializer = parseInitializer(); return finishNode(node); } function parseObjectBindingElement() { var node = createNode(191 /* BindingElement */); node.dotDotDotToken = parseOptionalToken(25 /* DotDotDotToken */); var tokenIsIdentifier = isIdentifier(); var propertyName = parsePropertyName(); if (tokenIsIdentifier && token() !== 58 /* ColonToken */) { node.name = propertyName; } else { parseExpected(58 /* ColonToken */); node.propertyName = propertyName; node.name = parseIdentifierOrPattern(); } node.initializer = parseInitializer(); return finishNode(node); } function parseObjectBindingPattern() { var node = createNode(189 /* ObjectBindingPattern */); parseExpected(18 /* OpenBraceToken */); node.elements = parseDelimitedList(9 /* ObjectBindingElements */, parseObjectBindingElement); parseExpected(19 /* CloseBraceToken */); return finishNode(node); } function parseArrayBindingPattern() { var node = createNode(190 /* ArrayBindingPattern */); parseExpected(22 /* OpenBracketToken */); node.elements = parseDelimitedList(10 /* ArrayBindingElements */, parseArrayBindingElement); parseExpected(23 /* CloseBracketToken */); return finishNode(node); } function isIdentifierOrPrivateIdentifierOrPattern() { return token() === 18 /* OpenBraceToken */ || token() === 22 /* OpenBracketToken */ || token() === 76 /* PrivateIdentifier */ || isIdentifier(); } function parseIdentifierOrPattern(privateIdentifierDiagnosticMessage) { if (token() === 22 /* OpenBracketToken */) { return parseArrayBindingPattern(); } if (token() === 18 /* OpenBraceToken */) { return parseObjectBindingPattern(); } return parseIdentifier(/*diagnosticMessage*/ undefined, privateIdentifierDiagnosticMessage); } function parseVariableDeclarationAllowExclamation() { return parseVariableDeclaration(/*allowExclamation*/ true); } function parseVariableDeclaration(allowExclamation) { var node = createNode(242 /* VariableDeclaration */); node.name = parseIdentifierOrPattern(ts.Diagnostics.Private_identifiers_are_not_allowed_in_variable_declarations); if (allowExclamation && node.name.kind === 75 /* Identifier */ && token() === 53 /* ExclamationToken */ && !scanner.hasPrecedingLineBreak()) { node.exclamationToken = parseTokenNode(); } node.type = parseTypeAnnotation(); if (!isInOrOfKeyword(token())) { node.initializer = parseInitializer(); } return finishNode(node); } function parseVariableDeclarationList(inForStatementInitializer) { var node = createNode(243 /* VariableDeclarationList */); switch (token()) { case 109 /* VarKeyword */: break; case 115 /* LetKeyword */: node.flags |= 1 /* Let */; break; case 81 /* ConstKeyword */: node.flags |= 2 /* Const */; break; default: ts.Debug.fail(); } nextToken(); // The user may have written the following: // // for (let of X) { } // // In this case, we want to parse an empty declaration list, and then parse 'of' // as a keyword. The reason this is not automatic is that 'of' is a valid identifier. // So we need to look ahead to determine if 'of' should be treated as a keyword in // this context. // The checker will then give an error that there is an empty declaration list. if (token() === 152 /* OfKeyword */ && lookAhead(canFollowContextualOfKeyword)) { node.declarations = createMissingList(); } else { var savedDisallowIn = inDisallowInContext(); setDisallowInContext(inForStatementInitializer); node.declarations = parseDelimitedList(8 /* VariableDeclarations */, inForStatementInitializer ? parseVariableDeclaration : parseVariableDeclarationAllowExclamation); setDisallowInContext(savedDisallowIn); } return finishNode(node); } function canFollowContextualOfKeyword() { return nextTokenIsIdentifier() && nextToken() === 21 /* CloseParenToken */; } function parseVariableStatement(node) { node.kind = 225 /* VariableStatement */; node.declarationList = parseVariableDeclarationList(/*inForStatementInitializer*/ false); parseSemicolon(); return finishNode(node); } function parseFunctionDeclaration(node) { node.kind = 244 /* FunctionDeclaration */; parseExpected(94 /* FunctionKeyword */); node.asteriskToken = parseOptionalToken(41 /* AsteriskToken */); node.name = hasModifierOfKind(node, 84 /* DefaultKeyword */) ? parseOptionalIdentifier() : parseIdentifier(); var isGenerator = node.asteriskToken ? 1 /* Yield */ : 0 /* None */; var isAsync = hasModifierOfKind(node, 126 /* AsyncKeyword */) ? 2 /* Await */ : 0 /* None */; fillSignature(58 /* ColonToken */, isGenerator | isAsync, node); node.body = parseFunctionBlockOrSemicolon(isGenerator | isAsync, ts.Diagnostics.or_expected); return finishNode(node); } function parseConstructorName() { if (token() === 129 /* ConstructorKeyword */) { return parseExpected(129 /* ConstructorKeyword */); } if (token() === 10 /* StringLiteral */ && lookAhead(nextToken) === 20 /* OpenParenToken */) { return tryParse(function () { var literalNode = parseLiteralNode(); return literalNode.text === "constructor" ? literalNode : undefined; }); } } function tryParseConstructorDeclaration(node) { return tryParse(function () { if (parseConstructorName()) { node.kind = 162 /* Constructor */; fillSignature(58 /* ColonToken */, 0 /* None */, node); node.body = parseFunctionBlockOrSemicolon(0 /* None */, ts.Diagnostics.or_expected); return finishNode(node); } }); } function parseMethodDeclaration(node, asteriskToken, diagnosticMessage) { node.kind = 161 /* MethodDeclaration */; node.asteriskToken = asteriskToken; var isGenerator = asteriskToken ? 1 /* Yield */ : 0 /* None */; var isAsync = hasModifierOfKind(node, 126 /* AsyncKeyword */) ? 2 /* Await */ : 0 /* None */; fillSignature(58 /* ColonToken */, isGenerator | isAsync, node); node.body = parseFunctionBlockOrSemicolon(isGenerator | isAsync, diagnosticMessage); return finishNode(node); } function parsePropertyDeclaration(node) { node.kind = 159 /* PropertyDeclaration */; if (!node.questionToken && token() === 53 /* ExclamationToken */ && !scanner.hasPrecedingLineBreak()) { node.exclamationToken = parseTokenNode(); } node.type = parseTypeAnnotation(); node.initializer = doOutsideOfContext(8192 /* YieldContext */ | 32768 /* AwaitContext */ | 4096 /* DisallowInContext */, parseInitializer); parseSemicolon(); return finishNode(node); } function parsePropertyOrMethodDeclaration(node) { var asteriskToken = parseOptionalToken(41 /* AsteriskToken */); node.name = parsePropertyName(); // Note: this is not legal as per the grammar. But we allow it in the parser and // report an error in the grammar checker. node.questionToken = parseOptionalToken(57 /* QuestionToken */); if (asteriskToken || token() === 20 /* OpenParenToken */ || token() === 29 /* LessThanToken */) { return parseMethodDeclaration(node, asteriskToken, ts.Diagnostics.or_expected); } return parsePropertyDeclaration(node); } function parseAccessorDeclaration(node, kind) { node.kind = kind; node.name = parsePropertyName(); fillSignature(58 /* ColonToken */, 0 /* None */, node); node.body = parseFunctionBlockOrSemicolon(0 /* None */); return finishNode(node); } function isClassMemberStart() { var idToken; if (token() === 59 /* AtToken */) { return true; } // Eat up all modifiers, but hold on to the last one in case it is actually an identifier. while (ts.isModifierKind(token())) { idToken = token(); // If the idToken is a class modifier (protected, private, public, and static), it is // certain that we are starting to parse class member. This allows better error recovery // Example: // public foo() ... // true // public @dec blah ... // true; we will then report an error later // export public ... // true; we will then report an error later if (ts.isClassMemberModifier(idToken)) { return true; } nextToken(); } if (token() === 41 /* AsteriskToken */) { return true; } // Try to get the first property-like token following all modifiers. // This can either be an identifier or the 'get' or 'set' keywords. if (isLiteralPropertyName()) { idToken = token(); nextToken(); } // Index signatures and computed properties are class members; we can parse. if (token() === 22 /* OpenBracketToken */) { return true; } // If we were able to get any potential identifier... if (idToken !== undefined) { // If we have a non-keyword identifier, or if we have an accessor, then it's safe to parse. if (!ts.isKeyword(idToken) || idToken === 142 /* SetKeyword */ || idToken === 131 /* GetKeyword */) { return true; } // If it *is* a keyword, but not an accessor, check a little farther along // to see if it should actually be parsed as a class member. switch (token()) { case 20 /* OpenParenToken */: // Method declaration case 29 /* LessThanToken */: // Generic Method declaration case 53 /* ExclamationToken */: // Non-null assertion on property name case 58 /* ColonToken */: // Type Annotation for declaration case 62 /* EqualsToken */: // Initializer for declaration case 57 /* QuestionToken */: // Not valid, but permitted so that it gets caught later on. return true; default: // Covers // - Semicolons (declaration termination) // - Closing braces (end-of-class, must be declaration) // - End-of-files (not valid, but permitted so that it gets caught later on) // - Line-breaks (enabling *automatic semicolon insertion*) return canParseSemicolon(); } } return false; } function parseDecorators() { var list; var listPos = getNodePos(); while (true) { var decoratorStart = getNodePos(); if (!parseOptional(59 /* AtToken */)) { break; } var decorator = createNode(157 /* Decorator */, decoratorStart); decorator.expression = doInDecoratorContext(parseLeftHandSideExpressionOrHigher); finishNode(decorator); (list || (list = [])).push(decorator); } return list && createNodeArray(list, listPos); } /* * There are situations in which a modifier like 'const' will appear unexpectedly, such as on a class member. * In those situations, if we are entirely sure that 'const' is not valid on its own (such as when ASI takes effect * and turns it into a standalone declaration), then it is better to parse it and report an error later. * * In such situations, 'permitInvalidConstAsModifier' should be set to true. */ function parseModifiers(permitInvalidConstAsModifier) { var list; var listPos = getNodePos(); while (true) { var modifierStart = scanner.getStartPos(); var modifierKind = token(); if (token() === 81 /* ConstKeyword */ && permitInvalidConstAsModifier) { // We need to ensure that any subsequent modifiers appear on the same line // so that when 'const' is a standalone declaration, we don't issue an error. if (!tryParse(nextTokenIsOnSameLineAndCanFollowModifier)) { break; } } else { if (!parseAnyContextualModifier()) { break; } } var modifier = finishNode(createNode(modifierKind, modifierStart)); (list || (list = [])).push(modifier); } return list && createNodeArray(list, listPos); } function parseModifiersForArrowFunction() { var modifiers; if (token() === 126 /* AsyncKeyword */) { var modifierStart = scanner.getStartPos(); var modifierKind = token(); nextToken(); var modifier = finishNode(createNode(modifierKind, modifierStart)); modifiers = createNodeArray([modifier], modifierStart); } return modifiers; } function parseClassElement() { if (token() === 26 /* SemicolonToken */) { var result = createNode(222 /* SemicolonClassElement */); nextToken(); return finishNode(result); } var node = createNodeWithJSDoc(0 /* Unknown */); node.decorators = parseDecorators(); node.modifiers = parseModifiers(/*permitInvalidConstAsModifier*/ true); if (parseContextualModifier(131 /* GetKeyword */)) { return parseAccessorDeclaration(node, 163 /* GetAccessor */); } if (parseContextualModifier(142 /* SetKeyword */)) { return parseAccessorDeclaration(node, 164 /* SetAccessor */); } if (token() === 129 /* ConstructorKeyword */ || token() === 10 /* StringLiteral */) { var constructorDeclaration = tryParseConstructorDeclaration(node); if (constructorDeclaration) { return constructorDeclaration; } } if (isIndexSignature()) { return parseIndexSignatureDeclaration(node); } // It is very important that we check this *after* checking indexers because // the [ token can start an index signature or a computed property name if (ts.tokenIsIdentifierOrKeyword(token()) || token() === 10 /* StringLiteral */ || token() === 8 /* NumericLiteral */ || token() === 41 /* AsteriskToken */ || token() === 22 /* OpenBracketToken */) { var isAmbient = node.modifiers && ts.some(node.modifiers, isDeclareModifier); if (isAmbient) { for (var _i = 0, _a = node.modifiers; _i < _a.length; _i++) { var m = _a[_i]; m.flags |= 8388608 /* Ambient */; } return doInsideOfContext(8388608 /* Ambient */, function () { return parsePropertyOrMethodDeclaration(node); }); } else { return parsePropertyOrMethodDeclaration(node); } } if (node.decorators || node.modifiers) { // treat this as a property declaration with a missing name. node.name = createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ true, ts.Diagnostics.Declaration_expected); return parsePropertyDeclaration(node); } // 'isClassMemberStart' should have hinted not to attempt parsing. return ts.Debug.fail("Should not have attempted to parse class member declaration."); } function parseClassExpression() { return parseClassDeclarationOrExpression(createNodeWithJSDoc(0 /* Unknown */), 214 /* ClassExpression */); } function parseClassDeclaration(node) { return parseClassDeclarationOrExpression(node, 245 /* ClassDeclaration */); } function parseClassDeclarationOrExpression(node, kind) { node.kind = kind; parseExpected(80 /* ClassKeyword */); node.name = parseNameOfClassDeclarationOrExpression(); node.typeParameters = parseTypeParameters(); node.heritageClauses = parseHeritageClauses(); if (parseExpected(18 /* OpenBraceToken */)) { // ClassTail[Yield,Await] : (Modified) See 14.5 // ClassHeritage[?Yield,?Await]opt { ClassBody[?Yield,?Await]opt } node.members = parseClassMembers(); parseExpected(19 /* CloseBraceToken */); } else { node.members = createMissingList(); } return finishNode(node); } function parseNameOfClassDeclarationOrExpression() { // implements is a future reserved word so // 'class implements' might mean either // - class expression with omitted name, 'implements' starts heritage clause // - class with name 'implements' // 'isImplementsClause' helps to disambiguate between these two cases return isIdentifier() && !isImplementsClause() ? parseIdentifier() : undefined; } function isImplementsClause() { return token() === 113 /* ImplementsKeyword */ && lookAhead(nextTokenIsIdentifierOrKeyword); } function parseHeritageClauses() { // ClassTail[Yield,Await] : (Modified) See 14.5 // ClassHeritage[?Yield,?Await]opt { ClassBody[?Yield,?Await]opt } if (isHeritageClause()) { return parseList(22 /* HeritageClauses */, parseHeritageClause); } return undefined; } function parseHeritageClause() { var tok = token(); ts.Debug.assert(tok === 90 /* ExtendsKeyword */ || tok === 113 /* ImplementsKeyword */); // isListElement() should ensure this. var node = createNode(279 /* HeritageClause */); node.token = tok; nextToken(); node.types = parseDelimitedList(7 /* HeritageClauseElement */, parseExpressionWithTypeArguments); return finishNode(node); } function parseExpressionWithTypeArguments() { var node = createNode(216 /* ExpressionWithTypeArguments */); node.expression = parseLeftHandSideExpressionOrHigher(); node.typeArguments = tryParseTypeArguments(); return finishNode(node); } function tryParseTypeArguments() { return token() === 29 /* LessThanToken */ ? parseBracketedList(20 /* TypeArguments */, parseType, 29 /* LessThanToken */, 31 /* GreaterThanToken */) : undefined; } function isHeritageClause() { return token() === 90 /* ExtendsKeyword */ || token() === 113 /* ImplementsKeyword */; } function parseClassMembers() { return parseList(5 /* ClassMembers */, parseClassElement); } function parseInterfaceDeclaration(node) { node.kind = 246 /* InterfaceDeclaration */; parseExpected(114 /* InterfaceKeyword */); node.name = parseIdentifier(); node.typeParameters = parseTypeParameters(); node.heritageClauses = parseHeritageClauses(); node.members = parseObjectTypeMembers(); return finishNode(node); } function parseTypeAliasDeclaration(node) { node.kind = 247 /* TypeAliasDeclaration */; parseExpected(145 /* TypeKeyword */); node.name = parseIdentifier(); node.typeParameters = parseTypeParameters(); parseExpected(62 /* EqualsToken */); node.type = parseType(); parseSemicolon(); return finishNode(node); } // In an ambient declaration, the grammar only allows integer literals as initializers. // In a non-ambient declaration, the grammar allows uninitialized members only in a // ConstantEnumMemberSection, which starts at the beginning of an enum declaration // or any time an integer literal initializer is encountered. function parseEnumMember() { var node = createNodeWithJSDoc(284 /* EnumMember */); node.name = parsePropertyName(); node.initializer = allowInAnd(parseInitializer); return finishNode(node); } function parseEnumDeclaration(node) { node.kind = 248 /* EnumDeclaration */; parseExpected(88 /* EnumKeyword */); node.name = parseIdentifier(); if (parseExpected(18 /* OpenBraceToken */)) { node.members = doOutsideOfYieldAndAwaitContext(function () { return parseDelimitedList(6 /* EnumMembers */, parseEnumMember); }); parseExpected(19 /* CloseBraceToken */); } else { node.members = createMissingList(); } return finishNode(node); } function parseModuleBlock() { var node = createNode(250 /* ModuleBlock */); if (parseExpected(18 /* OpenBraceToken */)) { node.statements = parseList(1 /* BlockStatements */, parseStatement); parseExpected(19 /* CloseBraceToken */); } else { node.statements = createMissingList(); } return finishNode(node); } function parseModuleOrNamespaceDeclaration(node, flags) { node.kind = 249 /* ModuleDeclaration */; // If we are parsing a dotted namespace name, we want to // propagate the 'Namespace' flag across the names if set. var namespaceFlag = flags & 16 /* Namespace */; node.flags |= flags; node.name = parseIdentifier(); node.body = parseOptional(24 /* DotToken */) ? parseModuleOrNamespaceDeclaration(createNode(0 /* Unknown */), 4 /* NestedNamespace */ | namespaceFlag) : parseModuleBlock(); return finishNode(node); } function parseAmbientExternalModuleDeclaration(node) { node.kind = 249 /* ModuleDeclaration */; if (token() === 150 /* GlobalKeyword */) { // parse 'global' as name of global scope augmentation node.name = parseIdentifier(); node.flags |= 1024 /* GlobalAugmentation */; } else { node.name = parseLiteralNode(); node.name.text = internIdentifier(node.name.text); } if (token() === 18 /* OpenBraceToken */) { node.body = parseModuleBlock(); } else { parseSemicolon(); } return finishNode(node); } function parseModuleDeclaration(node) { var flags = 0; if (token() === 150 /* GlobalKeyword */) { // global augmentation return parseAmbientExternalModuleDeclaration(node); } else if (parseOptional(136 /* NamespaceKeyword */)) { flags |= 16 /* Namespace */; } else { parseExpected(135 /* ModuleKeyword */); if (token() === 10 /* StringLiteral */) { return parseAmbientExternalModuleDeclaration(node); } } return parseModuleOrNamespaceDeclaration(node, flags); } function isExternalModuleReference() { return token() === 139 /* RequireKeyword */ && lookAhead(nextTokenIsOpenParen); } function nextTokenIsOpenParen() { return nextToken() === 20 /* OpenParenToken */; } function nextTokenIsSlash() { return nextToken() === 43 /* SlashToken */; } function parseNamespaceExportDeclaration(node) { node.kind = 252 /* NamespaceExportDeclaration */; parseExpected(123 /* AsKeyword */); parseExpected(136 /* NamespaceKeyword */); node.name = parseIdentifier(); parseSemicolon(); return finishNode(node); } function parseImportDeclarationOrImportEqualsDeclaration(node) { parseExpected(96 /* ImportKeyword */); var afterImportPos = scanner.getStartPos(); var identifier; if (isIdentifier()) { identifier = parseIdentifier(); } var isTypeOnly = false; if (token() !== 149 /* FromKeyword */ && (identifier === null || identifier === void 0 ? void 0 : identifier.escapedText) === "type" && (isIdentifier() || tokenAfterImportDefinitelyProducesImportDeclaration())) { isTypeOnly = true; identifier = isIdentifier() ? parseIdentifier() : undefined; } if (identifier && !tokenAfterImportedIdentifierDefinitelyProducesImportDeclaration()) { return parseImportEqualsDeclaration(node, identifier, isTypeOnly); } // Import statement node.kind = 254 /* ImportDeclaration */; // ImportDeclaration: // import ImportClause from ModuleSpecifier ; // import ModuleSpecifier; if (identifier || // import id token() === 41 /* AsteriskToken */ || // import * token() === 18 /* OpenBraceToken */ // import { ) { node.importClause = parseImportClause(identifier, afterImportPos, isTypeOnly); parseExpected(149 /* FromKeyword */); } node.moduleSpecifier = parseModuleSpecifier(); parseSemicolon(); return finishNode(node); } function tokenAfterImportDefinitelyProducesImportDeclaration() { return token() === 41 /* AsteriskToken */ || token() === 18 /* OpenBraceToken */; } function tokenAfterImportedIdentifierDefinitelyProducesImportDeclaration() { // In `import id ___`, the current token decides whether to produce // an ImportDeclaration or ImportEqualsDeclaration. return token() === 27 /* CommaToken */ || token() === 149 /* FromKeyword */; } function parseImportEqualsDeclaration(node, identifier, isTypeOnly) { node.kind = 253 /* ImportEqualsDeclaration */; node.name = identifier; parseExpected(62 /* EqualsToken */); node.moduleReference = parseModuleReference(); parseSemicolon(); var finished = finishNode(node); if (isTypeOnly) { parseErrorAtRange(finished, ts.Diagnostics.Only_ECMAScript_imports_may_use_import_type); } return finished; } function parseImportClause(identifier, fullStart, isTypeOnly) { // ImportClause: // ImportedDefaultBinding // NameSpaceImport // NamedImports // ImportedDefaultBinding, NameSpaceImport // ImportedDefaultBinding, NamedImports var importClause = createNode(255 /* ImportClause */, fullStart); importClause.isTypeOnly = isTypeOnly; if (identifier) { // ImportedDefaultBinding: // ImportedBinding importClause.name = identifier; } // If there was no default import or if there is comma token after default import // parse namespace or named imports if (!importClause.name || parseOptional(27 /* CommaToken */)) { importClause.namedBindings = token() === 41 /* AsteriskToken */ ? parseNamespaceImport() : parseNamedImportsOrExports(257 /* NamedImports */); } return finishNode(importClause); } function parseModuleReference() { return isExternalModuleReference() ? parseExternalModuleReference() : parseEntityName(/*allowReservedWords*/ false); } function parseExternalModuleReference() { var node = createNode(265 /* ExternalModuleReference */); parseExpected(139 /* RequireKeyword */); parseExpected(20 /* OpenParenToken */); node.expression = parseModuleSpecifier(); parseExpected(21 /* CloseParenToken */); return finishNode(node); } function parseModuleSpecifier() { if (token() === 10 /* StringLiteral */) { var result = parseLiteralNode(); result.text = internIdentifier(result.text); return result; } else { // We allow arbitrary expressions here, even though the grammar only allows string // literals. We check to ensure that it is only a string literal later in the grammar // check pass. return parseExpression(); } } function parseNamespaceImport() { // NameSpaceImport: // * as ImportedBinding var namespaceImport = createNode(256 /* NamespaceImport */); parseExpected(41 /* AsteriskToken */); parseExpected(123 /* AsKeyword */); namespaceImport.name = parseIdentifier(); return finishNode(namespaceImport); } function parseNamedImportsOrExports(kind) { var node = createNode(kind); // NamedImports: // { } // { ImportsList } // { ImportsList, } // ImportsList: // ImportSpecifier // ImportsList, ImportSpecifier node.elements = parseBracketedList(23 /* ImportOrExportSpecifiers */, kind === 257 /* NamedImports */ ? parseImportSpecifier : parseExportSpecifier, 18 /* OpenBraceToken */, 19 /* CloseBraceToken */); return finishNode(node); } function parseExportSpecifier() { return parseImportOrExportSpecifier(263 /* ExportSpecifier */); } function parseImportSpecifier() { return parseImportOrExportSpecifier(258 /* ImportSpecifier */); } function parseImportOrExportSpecifier(kind) { var node = createNode(kind); // ImportSpecifier: // BindingIdentifier // IdentifierName as BindingIdentifier // ExportSpecifier: // IdentifierName // IdentifierName as IdentifierName var checkIdentifierIsKeyword = ts.isKeyword(token()) && !isIdentifier(); var checkIdentifierStart = scanner.getTokenPos(); var checkIdentifierEnd = scanner.getTextPos(); var identifierName = parseIdentifierName(); if (token() === 123 /* AsKeyword */) { node.propertyName = identifierName; parseExpected(123 /* AsKeyword */); checkIdentifierIsKeyword = ts.isKeyword(token()) && !isIdentifier(); checkIdentifierStart = scanner.getTokenPos(); checkIdentifierEnd = scanner.getTextPos(); node.name = parseIdentifierName(); } else { node.name = identifierName; } if (kind === 258 /* ImportSpecifier */ && checkIdentifierIsKeyword) { parseErrorAt(checkIdentifierStart, checkIdentifierEnd, ts.Diagnostics.Identifier_expected); } return finishNode(node); } function parseNamespaceExport(pos) { var node = createNode(262 /* NamespaceExport */, pos); node.name = parseIdentifier(); return finishNode(node); } function parseExportDeclaration(node) { node.kind = 260 /* ExportDeclaration */; node.isTypeOnly = parseOptional(145 /* TypeKeyword */); var namespaceExportPos = scanner.getStartPos(); if (parseOptional(41 /* AsteriskToken */)) { if (parseOptional(123 /* AsKeyword */)) { node.exportClause = parseNamespaceExport(namespaceExportPos); } parseExpected(149 /* FromKeyword */); node.moduleSpecifier = parseModuleSpecifier(); } else { node.exportClause = parseNamedImportsOrExports(261 /* NamedExports */); // It is not uncommon to accidentally omit the 'from' keyword. Additionally, in editing scenarios, // the 'from' keyword can be parsed as a named export when the export clause is unterminated (i.e. `export { from "moduleName";`) // If we don't have a 'from' keyword, see if we have a string literal such that ASI won't take effect. if (token() === 149 /* FromKeyword */ || (token() === 10 /* StringLiteral */ && !scanner.hasPrecedingLineBreak())) { parseExpected(149 /* FromKeyword */); node.moduleSpecifier = parseModuleSpecifier(); } } parseSemicolon(); return finishNode(node); } function parseExportAssignment(node) { node.kind = 259 /* ExportAssignment */; if (parseOptional(62 /* EqualsToken */)) { node.isExportEquals = true; } else { parseExpected(84 /* DefaultKeyword */); } node.expression = parseAssignmentExpressionOrHigher(); parseSemicolon(); return finishNode(node); } function setExternalModuleIndicator(sourceFile) { // Try to use the first top-level import/export when available, then // fall back to looking for an 'import.meta' somewhere in the tree if necessary. sourceFile.externalModuleIndicator = ts.forEach(sourceFile.statements, isAnExternalModuleIndicatorNode) || getImportMetaIfNecessary(sourceFile); } function isAnExternalModuleIndicatorNode(node) { return hasModifierOfKind(node, 89 /* ExportKeyword */) || node.kind === 253 /* ImportEqualsDeclaration */ && node.moduleReference.kind === 265 /* ExternalModuleReference */ || node.kind === 254 /* ImportDeclaration */ || node.kind === 259 /* ExportAssignment */ || node.kind === 260 /* ExportDeclaration */ ? node : undefined; } function getImportMetaIfNecessary(sourceFile) { return sourceFile.flags & 2097152 /* PossiblyContainsImportMeta */ ? walkTreeForExternalModuleIndicators(sourceFile) : undefined; } function walkTreeForExternalModuleIndicators(node) { return isImportMeta(node) ? node : forEachChild(node, walkTreeForExternalModuleIndicators); } /** Do not use hasModifier inside the parser; it relies on parent pointers. Use this instead. */ function hasModifierOfKind(node, kind) { return ts.some(node.modifiers, function (m) { return m.kind === kind; }); } function isImportMeta(node) { return ts.isMetaProperty(node) && node.keywordToken === 96 /* ImportKeyword */ && node.name.escapedText === "meta"; } var ParsingContext; (function (ParsingContext) { ParsingContext[ParsingContext["SourceElements"] = 0] = "SourceElements"; ParsingContext[ParsingContext["BlockStatements"] = 1] = "BlockStatements"; ParsingContext[ParsingContext["SwitchClauses"] = 2] = "SwitchClauses"; ParsingContext[ParsingContext["SwitchClauseStatements"] = 3] = "SwitchClauseStatements"; ParsingContext[ParsingContext["TypeMembers"] = 4] = "TypeMembers"; ParsingContext[ParsingContext["ClassMembers"] = 5] = "ClassMembers"; ParsingContext[ParsingContext["EnumMembers"] = 6] = "EnumMembers"; ParsingContext[ParsingContext["HeritageClauseElement"] = 7] = "HeritageClauseElement"; ParsingContext[ParsingContext["VariableDeclarations"] = 8] = "VariableDeclarations"; ParsingContext[ParsingContext["ObjectBindingElements"] = 9] = "ObjectBindingElements"; ParsingContext[ParsingContext["ArrayBindingElements"] = 10] = "ArrayBindingElements"; ParsingContext[ParsingContext["ArgumentExpressions"] = 11] = "ArgumentExpressions"; ParsingContext[ParsingContext["ObjectLiteralMembers"] = 12] = "ObjectLiteralMembers"; ParsingContext[ParsingContext["JsxAttributes"] = 13] = "JsxAttributes"; ParsingContext[ParsingContext["JsxChildren"] = 14] = "JsxChildren"; ParsingContext[ParsingContext["ArrayLiteralMembers"] = 15] = "ArrayLiteralMembers"; ParsingContext[ParsingContext["Parameters"] = 16] = "Parameters"; ParsingContext[ParsingContext["JSDocParameters"] = 17] = "JSDocParameters"; ParsingContext[ParsingContext["RestProperties"] = 18] = "RestProperties"; ParsingContext[ParsingContext["TypeParameters"] = 19] = "TypeParameters"; ParsingContext[ParsingContext["TypeArguments"] = 20] = "TypeArguments"; ParsingContext[ParsingContext["TupleElementTypes"] = 21] = "TupleElementTypes"; ParsingContext[ParsingContext["HeritageClauses"] = 22] = "HeritageClauses"; ParsingContext[ParsingContext["ImportOrExportSpecifiers"] = 23] = "ImportOrExportSpecifiers"; ParsingContext[ParsingContext["Count"] = 24] = "Count"; // Number of parsing contexts })(ParsingContext || (ParsingContext = {})); var Tristate; (function (Tristate) { Tristate[Tristate["False"] = 0] = "False"; Tristate[Tristate["True"] = 1] = "True"; Tristate[Tristate["Unknown"] = 2] = "Unknown"; })(Tristate || (Tristate = {})); var JSDocParser; (function (JSDocParser) { function parseJSDocTypeExpressionForTests(content, start, length) { initializeState(content, 99 /* Latest */, /*_syntaxCursor:*/ undefined, 1 /* JS */); sourceFile = createSourceFile("file.js", 99 /* Latest */, 1 /* JS */, /*isDeclarationFile*/ false); scanner.setText(content, start, length); currentToken = scanner.scan(); var jsDocTypeExpression = parseJSDocTypeExpression(); var diagnostics = parseDiagnostics; clearState(); return jsDocTypeExpression ? { jsDocTypeExpression: jsDocTypeExpression, diagnostics: diagnostics } : undefined; } JSDocParser.parseJSDocTypeExpressionForTests = parseJSDocTypeExpressionForTests; // Parses out a JSDoc type expression. function parseJSDocTypeExpression(mayOmitBraces) { var result = createNode(294 /* JSDocTypeExpression */); var hasBrace = (mayOmitBraces ? parseOptional : parseExpected)(18 /* OpenBraceToken */); result.type = doInsideOfContext(4194304 /* JSDoc */, parseJSDocType); if (!mayOmitBraces || hasBrace) { parseExpectedJSDoc(19 /* CloseBraceToken */); } fixupParentReferences(result); return finishNode(result); } JSDocParser.parseJSDocTypeExpression = parseJSDocTypeExpression; function parseIsolatedJSDocComment(content, start, length) { initializeState(content, 99 /* Latest */, /*_syntaxCursor:*/ undefined, 1 /* JS */); sourceFile = { languageVariant: 0 /* Standard */, text: content }; var jsDoc = doInsideOfContext(4194304 /* JSDoc */, function () { return parseJSDocCommentWorker(start, length); }); var diagnostics = parseDiagnostics; clearState(); return jsDoc ? { jsDoc: jsDoc, diagnostics: diagnostics } : undefined; } JSDocParser.parseIsolatedJSDocComment = parseIsolatedJSDocComment; function parseJSDocComment(parent, start, length) { var _a; var saveToken = currentToken; var saveParseDiagnosticsLength = parseDiagnostics.length; var saveParseErrorBeforeNextFinishedNode = parseErrorBeforeNextFinishedNode; var comment = doInsideOfContext(4194304 /* JSDoc */, function () { return parseJSDocCommentWorker(start, length); }); if (comment) { comment.parent = parent; } if (contextFlags & 131072 /* JavaScriptFile */) { if (!sourceFile.jsDocDiagnostics) { sourceFile.jsDocDiagnostics = []; } (_a = sourceFile.jsDocDiagnostics).push.apply(_a, parseDiagnostics); } currentToken = saveToken; parseDiagnostics.length = saveParseDiagnosticsLength; parseErrorBeforeNextFinishedNode = saveParseErrorBeforeNextFinishedNode; return comment; } JSDocParser.parseJSDocComment = parseJSDocComment; var JSDocState; (function (JSDocState) { JSDocState[JSDocState["BeginningOfLine"] = 0] = "BeginningOfLine"; JSDocState[JSDocState["SawAsterisk"] = 1] = "SawAsterisk"; JSDocState[JSDocState["SavingComments"] = 2] = "SavingComments"; JSDocState[JSDocState["SavingBackticks"] = 3] = "SavingBackticks"; })(JSDocState || (JSDocState = {})); var PropertyLikeParse; (function (PropertyLikeParse) { PropertyLikeParse[PropertyLikeParse["Property"] = 1] = "Property"; PropertyLikeParse[PropertyLikeParse["Parameter"] = 2] = "Parameter"; PropertyLikeParse[PropertyLikeParse["CallbackParameter"] = 4] = "CallbackParameter"; })(PropertyLikeParse || (PropertyLikeParse = {})); function parseJSDocCommentWorker(start, length) { if (start === void 0) { start = 0; } var content = sourceText; var end = length === undefined ? content.length : start + length; length = end - start; ts.Debug.assert(start >= 0); ts.Debug.assert(start <= end); ts.Debug.assert(end <= content.length); // Check for /** (JSDoc opening part) if (!isJSDocLikeText(content, start)) { return undefined; } var tags; var tagsPos; var tagsEnd; var comments = []; // + 3 for leading /**, - 5 in total for /** */ return scanner.scanRange(start + 3, length - 5, function () { // Initially we can parse out a tag. We also have seen a starting asterisk. // This is so that /** * @type */ doesn't parse. var state = 1 /* SawAsterisk */; var margin; // + 4 for leading '/** ' var indent = start - Math.max(content.lastIndexOf("\n", start), 0) + 4; function pushComment(text) { if (!margin) { margin = indent; } comments.push(text); indent += text.length; } nextTokenJSDoc(); while (parseOptionalJsdoc(5 /* WhitespaceTrivia */)) ; if (parseOptionalJsdoc(4 /* NewLineTrivia */)) { state = 0 /* BeginningOfLine */; indent = 0; } loop: while (true) { switch (token()) { case 59 /* AtToken */: if (state === 0 /* BeginningOfLine */ || state === 1 /* SawAsterisk */) { removeTrailingWhitespace(comments); addTag(parseTag(indent)); // NOTE: According to usejsdoc.org, a tag goes to end of line, except the last tag. // Real-world comments may break this rule, so "BeginningOfLine" will not be a real line beginning // for malformed examples like `/** @param {string} x @returns {number} the length */` state = 0 /* BeginningOfLine */; margin = undefined; } else { pushComment(scanner.getTokenText()); } break; case 4 /* NewLineTrivia */: comments.push(scanner.getTokenText()); state = 0 /* BeginningOfLine */; indent = 0; break; case 41 /* AsteriskToken */: var asterisk = scanner.getTokenText(); if (state === 1 /* SawAsterisk */ || state === 2 /* SavingComments */) { // If we've already seen an asterisk, then we can no longer parse a tag on this line state = 2 /* SavingComments */; pushComment(asterisk); } else { // Ignore the first asterisk on a line state = 1 /* SawAsterisk */; indent += asterisk.length; } break; case 5 /* WhitespaceTrivia */: // only collect whitespace if we're already saving comments or have just crossed the comment indent margin var whitespace = scanner.getTokenText(); if (state === 2 /* SavingComments */) { comments.push(whitespace); } else if (margin !== undefined && indent + whitespace.length > margin) { comments.push(whitespace.slice(margin - indent - 1)); } indent += whitespace.length; break; case 1 /* EndOfFileToken */: break loop; default: // Anything else is doc comment text. We just save it. Because it // wasn't a tag, we can no longer parse a tag on this line until we hit the next // line break. state = 2 /* SavingComments */; pushComment(scanner.getTokenText()); break; } nextTokenJSDoc(); } removeLeadingNewlines(comments); removeTrailingWhitespace(comments); return createJSDocComment(); }); function removeLeadingNewlines(comments) { while (comments.length && (comments[0] === "\n" || comments[0] === "\r")) { comments.shift(); } } function removeTrailingWhitespace(comments) { while (comments.length && comments[comments.length - 1].trim() === "") { comments.pop(); } } function createJSDocComment() { var result = createNode(303 /* JSDocComment */, start); result.tags = tags && createNodeArray(tags, tagsPos, tagsEnd); result.comment = comments.length ? comments.join("") : undefined; return finishNode(result, end); } function isNextNonwhitespaceTokenEndOfFile() { // We must use infinite lookahead, as there could be any number of newlines :( while (true) { nextTokenJSDoc(); if (token() === 1 /* EndOfFileToken */) { return true; } if (!(token() === 5 /* WhitespaceTrivia */ || token() === 4 /* NewLineTrivia */)) { return false; } } } function skipWhitespace() { if (token() === 5 /* WhitespaceTrivia */ || token() === 4 /* NewLineTrivia */) { if (lookAhead(isNextNonwhitespaceTokenEndOfFile)) { return; // Don't skip whitespace prior to EoF (or end of comment) - that shouldn't be included in any node's range } } while (token() === 5 /* WhitespaceTrivia */ || token() === 4 /* NewLineTrivia */) { nextTokenJSDoc(); } } function skipWhitespaceOrAsterisk() { if (token() === 5 /* WhitespaceTrivia */ || token() === 4 /* NewLineTrivia */) { if (lookAhead(isNextNonwhitespaceTokenEndOfFile)) { return ""; // Don't skip whitespace prior to EoF (or end of comment) - that shouldn't be included in any node's range } } var precedingLineBreak = scanner.hasPrecedingLineBreak(); var seenLineBreak = false; var indentText = ""; while ((precedingLineBreak && token() === 41 /* AsteriskToken */) || token() === 5 /* WhitespaceTrivia */ || token() === 4 /* NewLineTrivia */) { indentText += scanner.getTokenText(); if (token() === 4 /* NewLineTrivia */) { precedingLineBreak = true; seenLineBreak = true; indentText = ""; } else if (token() === 41 /* AsteriskToken */) { precedingLineBreak = false; } nextTokenJSDoc(); } return seenLineBreak ? indentText : ""; } function parseTag(margin) { ts.Debug.assert(token() === 59 /* AtToken */); var start = scanner.getTokenPos(); nextTokenJSDoc(); var tagName = parseJSDocIdentifierName(/*message*/ undefined); var indentText = skipWhitespaceOrAsterisk(); var tag; switch (tagName.escapedText) { case "author": tag = parseAuthorTag(start, tagName, margin); break; case "implements": tag = parseImplementsTag(start, tagName); break; case "augments": case "extends": tag = parseAugmentsTag(start, tagName); break; case "class": case "constructor": tag = parseSimpleTag(start, 310 /* JSDocClassTag */, tagName); break; case "public": tag = parseSimpleTag(start, 311 /* JSDocPublicTag */, tagName); break; case "private": tag = parseSimpleTag(start, 312 /* JSDocPrivateTag */, tagName); break; case "protected": tag = parseSimpleTag(start, 313 /* JSDocProtectedTag */, tagName); break; case "readonly": tag = parseSimpleTag(start, 314 /* JSDocReadonlyTag */, tagName); break; case "this": tag = parseThisTag(start, tagName); break; case "enum": tag = parseEnumTag(start, tagName); break; case "arg": case "argument": case "param": return parseParameterOrPropertyTag(start, tagName, 2 /* Parameter */, margin); case "return": case "returns": tag = parseReturnTag(start, tagName); break; case "template": tag = parseTemplateTag(start, tagName); break; case "type": tag = parseTypeTag(start, tagName); break; case "typedef": tag = parseTypedefTag(start, tagName, margin); break; case "callback": tag = parseCallbackTag(start, tagName, margin); break; default: tag = parseUnknownTag(start, tagName); break; } if (!tag.comment) { // some tags, like typedef and callback, have already parsed their comments earlier if (!indentText) { margin += tag.end - tag.pos; } tag.comment = parseTagComments(margin, indentText.slice(margin)); } return tag; } function parseTagComments(indent, initialMargin) { var comments = []; var state = 0 /* BeginningOfLine */; var margin; function pushComment(text) { if (!margin) { margin = indent; } comments.push(text); indent += text.length; } if (initialMargin !== undefined) { // jump straight to saving comments if there is some initial indentation if (initialMargin !== "") { pushComment(initialMargin); } state = 1 /* SawAsterisk */; } var tok = token(); loop: while (true) { switch (tok) { case 4 /* NewLineTrivia */: if (state >= 1 /* SawAsterisk */) { state = 0 /* BeginningOfLine */; // don't use pushComment here because we want to keep the margin unchanged comments.push(scanner.getTokenText()); } indent = 0; break; case 59 /* AtToken */: if (state === 3 /* SavingBackticks */) { comments.push(scanner.getTokenText()); break; } scanner.setTextPos(scanner.getTextPos() - 1); // falls through case 1 /* EndOfFileToken */: // Done break loop; case 5 /* WhitespaceTrivia */: if (state === 2 /* SavingComments */ || state === 3 /* SavingBackticks */) { pushComment(scanner.getTokenText()); } else { var whitespace = scanner.getTokenText(); // if the whitespace crosses the margin, take only the whitespace that passes the margin if (margin !== undefined && indent + whitespace.length > margin) { comments.push(whitespace.slice(margin - indent)); } indent += whitespace.length; } break; case 18 /* OpenBraceToken */: state = 2 /* SavingComments */; if (lookAhead(function () { return nextTokenJSDoc() === 59 /* AtToken */ && ts.tokenIsIdentifierOrKeyword(nextTokenJSDoc()) && scanner.getTokenText() === "link"; })) { pushComment(scanner.getTokenText()); nextTokenJSDoc(); pushComment(scanner.getTokenText()); nextTokenJSDoc(); } pushComment(scanner.getTokenText()); break; case 61 /* BacktickToken */: if (state === 3 /* SavingBackticks */) { state = 2 /* SavingComments */; } else { state = 3 /* SavingBackticks */; } pushComment(scanner.getTokenText()); break; case 41 /* AsteriskToken */: if (state === 0 /* BeginningOfLine */) { // leading asterisks start recording on the *next* (non-whitespace) token state = 1 /* SawAsterisk */; indent += 1; break; } // record the * as a comment // falls through default: if (state !== 3 /* SavingBackticks */) { state = 2 /* SavingComments */; // leading identifiers start recording as well } pushComment(scanner.getTokenText()); break; } tok = nextTokenJSDoc(); } removeLeadingNewlines(comments); removeTrailingWhitespace(comments); return comments.length === 0 ? undefined : comments.join(""); } function parseUnknownTag(start, tagName) { var result = createNode(306 /* JSDocTag */, start); result.tagName = tagName; return finishNode(result); } function addTag(tag) { if (!tag) { return; } if (!tags) { tags = [tag]; tagsPos = tag.pos; } else { tags.push(tag); } tagsEnd = tag.end; } function tryParseTypeExpression() { skipWhitespaceOrAsterisk(); return token() === 18 /* OpenBraceToken */ ? parseJSDocTypeExpression() : undefined; } function parseBracketNameInPropertyAndParamTag() { // Looking for something like '[foo]', 'foo', '[foo.bar]' or 'foo.bar' var isBracketed = parseOptionalJsdoc(22 /* OpenBracketToken */); if (isBracketed) { skipWhitespace(); } // a markdown-quoted name: `arg` is not legal jsdoc, but occurs in the wild var isBackquoted = parseOptionalJsdoc(61 /* BacktickToken */); var name = parseJSDocEntityName(); if (isBackquoted) { parseExpectedTokenJSDoc(61 /* BacktickToken */); } if (isBracketed) { skipWhitespace(); // May have an optional default, e.g. '[foo = 42]' if (parseOptionalToken(62 /* EqualsToken */)) { parseExpression(); } parseExpected(23 /* CloseBracketToken */); } return { name: name, isBracketed: isBracketed }; } function isObjectOrObjectArrayTypeReference(node) { switch (node.kind) { case 141 /* ObjectKeyword */: return true; case 174 /* ArrayType */: return isObjectOrObjectArrayTypeReference(node.elementType); default: return ts.isTypeReferenceNode(node) && ts.isIdentifier(node.typeName) && node.typeName.escapedText === "Object" && !node.typeArguments; } } function parseParameterOrPropertyTag(start, tagName, target, indent) { var typeExpression = tryParseTypeExpression(); var isNameFirst = !typeExpression; skipWhitespaceOrAsterisk(); var _a = parseBracketNameInPropertyAndParamTag(), name = _a.name, isBracketed = _a.isBracketed; skipWhitespace(); if (isNameFirst) { typeExpression = tryParseTypeExpression(); } var result = target === 1 /* Property */ ? createNode(323 /* JSDocPropertyTag */, start) : createNode(317 /* JSDocParameterTag */, start); var comment = parseTagComments(indent + scanner.getStartPos() - start); var nestedTypeLiteral = target !== 4 /* CallbackParameter */ && parseNestedTypeLiteral(typeExpression, name, target, indent); if (nestedTypeLiteral) { typeExpression = nestedTypeLiteral; isNameFirst = true; } result.tagName = tagName; result.typeExpression = typeExpression; result.name = name; result.isNameFirst = isNameFirst; result.isBracketed = isBracketed; result.comment = comment; return finishNode(result); } function parseNestedTypeLiteral(typeExpression, name, target, indent) { if (typeExpression && isObjectOrObjectArrayTypeReference(typeExpression.type)) { var typeLiteralExpression = createNode(294 /* JSDocTypeExpression */, scanner.getTokenPos()); var child = void 0; var jsdocTypeLiteral = void 0; var start_3 = scanner.getStartPos(); var children = void 0; while (child = tryParse(function () { return parseChildParameterOrPropertyTag(target, indent, name); })) { if (child.kind === 317 /* JSDocParameterTag */ || child.kind === 323 /* JSDocPropertyTag */) { children = ts.append(children, child); } } if (children) { jsdocTypeLiteral = createNode(304 /* JSDocTypeLiteral */, start_3); jsdocTypeLiteral.jsDocPropertyTags = children; if (typeExpression.type.kind === 174 /* ArrayType */) { jsdocTypeLiteral.isArrayType = true; } typeLiteralExpression.type = finishNode(jsdocTypeLiteral); return finishNode(typeLiteralExpression); } } } function parseReturnTag(start, tagName) { if (ts.some(tags, ts.isJSDocReturnTag)) { parseErrorAt(tagName.pos, scanner.getTokenPos(), ts.Diagnostics._0_tag_already_specified, tagName.escapedText); } var result = createNode(318 /* JSDocReturnTag */, start); result.tagName = tagName; result.typeExpression = tryParseTypeExpression(); return finishNode(result); } function parseTypeTag(start, tagName) { if (ts.some(tags, ts.isJSDocTypeTag)) { parseErrorAt(tagName.pos, scanner.getTokenPos(), ts.Diagnostics._0_tag_already_specified, tagName.escapedText); } var result = createNode(320 /* JSDocTypeTag */, start); result.tagName = tagName; result.typeExpression = parseJSDocTypeExpression(/*mayOmitBraces*/ true); return finishNode(result); } function parseAuthorTag(start, tagName, indent) { var result = createNode(309 /* JSDocAuthorTag */, start); result.tagName = tagName; var authorInfoWithEmail = tryParse(function () { return tryParseAuthorNameAndEmail(); }); if (!authorInfoWithEmail) { return finishNode(result); } result.comment = authorInfoWithEmail; if (lookAhead(function () { return nextToken() !== 4 /* NewLineTrivia */; })) { var comment = parseTagComments(indent); if (comment) { result.comment += comment; } } return finishNode(result); } function tryParseAuthorNameAndEmail() { var comments = []; var seenLessThan = false; var seenGreaterThan = false; var token = scanner.getToken(); loop: while (true) { switch (token) { case 75 /* Identifier */: case 5 /* WhitespaceTrivia */: case 24 /* DotToken */: case 59 /* AtToken */: comments.push(scanner.getTokenText()); break; case 29 /* LessThanToken */: if (seenLessThan || seenGreaterThan) { return; } seenLessThan = true; comments.push(scanner.getTokenText()); break; case 31 /* GreaterThanToken */: if (!seenLessThan || seenGreaterThan) { return; } seenGreaterThan = true; comments.push(scanner.getTokenText()); scanner.setTextPos(scanner.getTokenPos() + 1); break loop; case 4 /* NewLineTrivia */: case 1 /* EndOfFileToken */: break loop; } token = nextTokenJSDoc(); } if (seenLessThan && seenGreaterThan) { return comments.length === 0 ? undefined : comments.join(""); } } function parseImplementsTag(start, tagName) { var result = createNode(308 /* JSDocImplementsTag */, start); result.tagName = tagName; result.class = parseExpressionWithTypeArgumentsForAugments(); return finishNode(result); } function parseAugmentsTag(start, tagName) { var result = createNode(307 /* JSDocAugmentsTag */, start); result.tagName = tagName; result.class = parseExpressionWithTypeArgumentsForAugments(); return finishNode(result); } function parseExpressionWithTypeArgumentsForAugments() { var usedBrace = parseOptional(18 /* OpenBraceToken */); var node = createNode(216 /* ExpressionWithTypeArguments */); node.expression = parsePropertyAccessEntityNameExpression(); node.typeArguments = tryParseTypeArguments(); var res = finishNode(node); if (usedBrace) { parseExpected(19 /* CloseBraceToken */); } return res; } function parsePropertyAccessEntityNameExpression() { var node = parseJSDocIdentifierName(); while (parseOptional(24 /* DotToken */)) { var prop = createNode(194 /* PropertyAccessExpression */, node.pos); prop.expression = node; prop.name = parseJSDocIdentifierName(); node = finishNode(prop); } return node; } function parseSimpleTag(start, kind, tagName) { var tag = createNode(kind, start); tag.tagName = tagName; return finishNode(tag); } function parseThisTag(start, tagName) { var tag = createNode(319 /* JSDocThisTag */, start); tag.tagName = tagName; tag.typeExpression = parseJSDocTypeExpression(/*mayOmitBraces*/ true); skipWhitespace(); return finishNode(tag); } function parseEnumTag(start, tagName) { var tag = createNode(316 /* JSDocEnumTag */, start); tag.tagName = tagName; tag.typeExpression = parseJSDocTypeExpression(/*mayOmitBraces*/ true); skipWhitespace(); return finishNode(tag); } function parseTypedefTag(start, tagName, indent) { var typeExpression = tryParseTypeExpression(); skipWhitespaceOrAsterisk(); var typedefTag = createNode(322 /* JSDocTypedefTag */, start); typedefTag.tagName = tagName; typedefTag.fullName = parseJSDocTypeNameWithNamespace(); typedefTag.name = getJSDocTypeAliasName(typedefTag.fullName); skipWhitespace(); typedefTag.comment = parseTagComments(indent); typedefTag.typeExpression = typeExpression; var end; if (!typeExpression || isObjectOrObjectArrayTypeReference(typeExpression.type)) { var child = void 0; var jsdocTypeLiteral = void 0; var childTypeTag = void 0; while (child = tryParse(function () { return parseChildPropertyTag(indent); })) { if (!jsdocTypeLiteral) { jsdocTypeLiteral = createNode(304 /* JSDocTypeLiteral */, start); } if (child.kind === 320 /* JSDocTypeTag */) { if (childTypeTag) { break; } else { childTypeTag = child; } } else { jsdocTypeLiteral.jsDocPropertyTags = ts.append(jsdocTypeLiteral.jsDocPropertyTags, child); } } if (jsdocTypeLiteral) { if (typeExpression && typeExpression.type.kind === 174 /* ArrayType */) { jsdocTypeLiteral.isArrayType = true; } typedefTag.typeExpression = childTypeTag && childTypeTag.typeExpression && !isObjectOrObjectArrayTypeReference(childTypeTag.typeExpression.type) ? childTypeTag.typeExpression : finishNode(jsdocTypeLiteral); end = typedefTag.typeExpression.end; } } // Only include the characters between the name end and the next token if a comment was actually parsed out - otherwise it's just whitespace return finishNode(typedefTag, end || typedefTag.comment !== undefined ? scanner.getStartPos() : (typedefTag.fullName || typedefTag.typeExpression || typedefTag.tagName).end); } function parseJSDocTypeNameWithNamespace(nested) { var pos = scanner.getTokenPos(); if (!ts.tokenIsIdentifierOrKeyword(token())) { return undefined; } var typeNameOrNamespaceName = parseJSDocIdentifierName(); if (parseOptional(24 /* DotToken */)) { var jsDocNamespaceNode = createNode(249 /* ModuleDeclaration */, pos); if (nested) { jsDocNamespaceNode.flags |= 4 /* NestedNamespace */; } jsDocNamespaceNode.name = typeNameOrNamespaceName; jsDocNamespaceNode.body = parseJSDocTypeNameWithNamespace(/*nested*/ true); return finishNode(jsDocNamespaceNode); } if (nested) { typeNameOrNamespaceName.isInJSDocNamespace = true; } return typeNameOrNamespaceName; } function parseCallbackTag(start, tagName, indent) { var callbackTag = createNode(315 /* JSDocCallbackTag */, start); callbackTag.tagName = tagName; callbackTag.fullName = parseJSDocTypeNameWithNamespace(); callbackTag.name = getJSDocTypeAliasName(callbackTag.fullName); skipWhitespace(); callbackTag.comment = parseTagComments(indent); var child; var jsdocSignature = createNode(305 /* JSDocSignature */, start); jsdocSignature.parameters = []; while (child = tryParse(function () { return parseChildParameterOrPropertyTag(4 /* CallbackParameter */, indent); })) { jsdocSignature.parameters = ts.append(jsdocSignature.parameters, child); } var returnTag = tryParse(function () { if (parseOptionalJsdoc(59 /* AtToken */)) { var tag = parseTag(indent); if (tag && tag.kind === 318 /* JSDocReturnTag */) { return tag; } } }); if (returnTag) { jsdocSignature.type = returnTag; } callbackTag.typeExpression = finishNode(jsdocSignature); return finishNode(callbackTag); } function getJSDocTypeAliasName(fullName) { if (fullName) { var rightNode = fullName; while (true) { if (ts.isIdentifier(rightNode) || !rightNode.body) { return ts.isIdentifier(rightNode) ? rightNode : rightNode.name; } rightNode = rightNode.body; } } } function escapedTextsEqual(a, b) { while (!ts.isIdentifier(a) || !ts.isIdentifier(b)) { if (!ts.isIdentifier(a) && !ts.isIdentifier(b) && a.right.escapedText === b.right.escapedText) { a = a.left; b = b.left; } else { return false; } } return a.escapedText === b.escapedText; } function parseChildPropertyTag(indent) { return parseChildParameterOrPropertyTag(1 /* Property */, indent); } function parseChildParameterOrPropertyTag(target, indent, name) { var canParseTag = true; var seenAsterisk = false; while (true) { switch (nextTokenJSDoc()) { case 59 /* AtToken */: if (canParseTag) { var child = tryParseChildTag(target, indent); if (child && (child.kind === 317 /* JSDocParameterTag */ || child.kind === 323 /* JSDocPropertyTag */) && target !== 4 /* CallbackParameter */ && name && (ts.isIdentifier(child.name) || !escapedTextsEqual(name, child.name.left))) { return false; } return child; } seenAsterisk = false; break; case 4 /* NewLineTrivia */: canParseTag = true; seenAsterisk = false; break; case 41 /* AsteriskToken */: if (seenAsterisk) { canParseTag = false; } seenAsterisk = true; break; case 75 /* Identifier */: canParseTag = false; break; case 1 /* EndOfFileToken */: return false; } } } function tryParseChildTag(target, indent) { ts.Debug.assert(token() === 59 /* AtToken */); var start = scanner.getStartPos(); nextTokenJSDoc(); var tagName = parseJSDocIdentifierName(); skipWhitespace(); var t; switch (tagName.escapedText) { case "type": return target === 1 /* Property */ && parseTypeTag(start, tagName); case "prop": case "property": t = 1 /* Property */; break; case "arg": case "argument": case "param": t = 2 /* Parameter */ | 4 /* CallbackParameter */; break; default: return false; } if (!(target & t)) { return false; } return parseParameterOrPropertyTag(start, tagName, target, indent); } function parseTemplateTag(start, tagName) { // the template tag looks like '@template {Constraint} T,U,V' var constraint; if (token() === 18 /* OpenBraceToken */) { constraint = parseJSDocTypeExpression(); } var typeParameters = []; var typeParametersPos = getNodePos(); do { skipWhitespace(); var typeParameter = createNode(155 /* TypeParameter */); typeParameter.name = parseJSDocIdentifierName(ts.Diagnostics.Unexpected_token_A_type_parameter_name_was_expected_without_curly_braces); finishNode(typeParameter); skipWhitespaceOrAsterisk(); typeParameters.push(typeParameter); } while (parseOptionalJsdoc(27 /* CommaToken */)); var result = createNode(321 /* JSDocTemplateTag */, start); result.tagName = tagName; result.constraint = constraint; result.typeParameters = createNodeArray(typeParameters, typeParametersPos); finishNode(result); return result; } function parseOptionalJsdoc(t) { if (token() === t) { nextTokenJSDoc(); return true; } return false; } function parseJSDocEntityName() { var entity = parseJSDocIdentifierName(); if (parseOptional(22 /* OpenBracketToken */)) { parseExpected(23 /* CloseBracketToken */); // Note that y[] is accepted as an entity name, but the postfix brackets are not saved for checking. // Technically usejsdoc.org requires them for specifying a property of a type equivalent to Array<{ x: ...}> // but it's not worth it to enforce that restriction. } while (parseOptional(24 /* DotToken */)) { var name = parseJSDocIdentifierName(); if (parseOptional(22 /* OpenBracketToken */)) { parseExpected(23 /* CloseBracketToken */); } entity = createQualifiedName(entity, name); } return entity; } function parseJSDocIdentifierName(message) { if (!ts.tokenIsIdentifierOrKeyword(token())) { return createMissingNode(75 /* Identifier */, /*reportAtCurrentPosition*/ !message, message || ts.Diagnostics.Identifier_expected); } identifierCount++; var pos = scanner.getTokenPos(); var end = scanner.getTextPos(); var result = createNode(75 /* Identifier */, pos); if (token() !== 75 /* Identifier */) { result.originalKeywordKind = token(); } result.escapedText = ts.escapeLeadingUnderscores(internIdentifier(scanner.getTokenValue())); finishNode(result, end); nextTokenJSDoc(); return result; } } })(JSDocParser = Parser.JSDocParser || (Parser.JSDocParser = {})); })(Parser || (Parser = {})); var IncrementalParser; (function (IncrementalParser) { function updateSourceFile(sourceFile, newText, textChangeRange, aggressiveChecks) { aggressiveChecks = aggressiveChecks || ts.Debug.shouldAssert(2 /* Aggressive */); checkChangeRange(sourceFile, newText, textChangeRange, aggressiveChecks); if (ts.textChangeRangeIsUnchanged(textChangeRange)) { // if the text didn't change, then we can just return our current source file as-is. return sourceFile; } if (sourceFile.statements.length === 0) { // If we don't have any statements in the current source file, then there's no real // way to incrementally parse. So just do a full parse instead. return Parser.parseSourceFile(sourceFile.fileName, newText, sourceFile.languageVersion, /*syntaxCursor*/ undefined, /*setParentNodes*/ true, sourceFile.scriptKind); } // Make sure we're not trying to incrementally update a source file more than once. Once // we do an update the original source file is considered unusable from that point onwards. // // This is because we do incremental parsing in-place. i.e. we take nodes from the old // tree and give them new positions and parents. From that point on, trusting the old // tree at all is not possible as far too much of it may violate invariants. var incrementalSourceFile = sourceFile; ts.Debug.assert(!incrementalSourceFile.hasBeenIncrementallyParsed); incrementalSourceFile.hasBeenIncrementallyParsed = true; var oldText = sourceFile.text; var syntaxCursor = createSyntaxCursor(sourceFile); // Make the actual change larger so that we know to reparse anything whose lookahead // might have intersected the change. var changeRange = extendToAffectedRange(sourceFile, textChangeRange); checkChangeRange(sourceFile, newText, changeRange, aggressiveChecks); // Ensure that extending the affected range only moved the start of the change range // earlier in the file. ts.Debug.assert(changeRange.span.start <= textChangeRange.span.start); ts.Debug.assert(ts.textSpanEnd(changeRange.span) === ts.textSpanEnd(textChangeRange.span)); ts.Debug.assert(ts.textSpanEnd(ts.textChangeRangeNewSpan(changeRange)) === ts.textSpanEnd(ts.textChangeRangeNewSpan(textChangeRange))); // The is the amount the nodes after the edit range need to be adjusted. It can be // positive (if the edit added characters), negative (if the edit deleted characters) // or zero (if this was a pure overwrite with nothing added/removed). var delta = ts.textChangeRangeNewSpan(changeRange).length - changeRange.span.length; // If we added or removed characters during the edit, then we need to go and adjust all // the nodes after the edit. Those nodes may move forward (if we inserted chars) or they // may move backward (if we deleted chars). // // Doing this helps us out in two ways. First, it means that any nodes/tokens we want // to reuse are already at the appropriate position in the new text. That way when we // reuse them, we don't have to figure out if they need to be adjusted. Second, it makes // it very easy to determine if we can reuse a node. If the node's position is at where // we are in the text, then we can reuse it. Otherwise we can't. If the node's position // is ahead of us, then we'll need to rescan tokens. If the node's position is behind // us, then we'll need to skip it or crumble it as appropriate // // We will also adjust the positions of nodes that intersect the change range as well. // By doing this, we ensure that all the positions in the old tree are consistent, not // just the positions of nodes entirely before/after the change range. By being // consistent, we can then easily map from positions to nodes in the old tree easily. // // Also, mark any syntax elements that intersect the changed span. We know, up front, // that we cannot reuse these elements. updateTokenPositionsAndMarkElements(incrementalSourceFile, changeRange.span.start, ts.textSpanEnd(changeRange.span), ts.textSpanEnd(ts.textChangeRangeNewSpan(changeRange)), delta, oldText, newText, aggressiveChecks); // Now that we've set up our internal incremental state just proceed and parse the // source file in the normal fashion. When possible the parser will retrieve and // reuse nodes from the old tree. // // Note: passing in 'true' for setNodeParents is very important. When incrementally // parsing, we will be reusing nodes from the old tree, and placing it into new // parents. If we don't set the parents now, we'll end up with an observably // inconsistent tree. Setting the parents on the new tree should be very fast. We // will immediately bail out of walking any subtrees when we can see that their parents // are already correct. var result = Parser.parseSourceFile(sourceFile.fileName, newText, sourceFile.languageVersion, syntaxCursor, /*setParentNodes*/ true, sourceFile.scriptKind); result.commentDirectives = getNewCommentDirectives(sourceFile.commentDirectives, result.commentDirectives, changeRange.span.start, ts.textSpanEnd(changeRange.span), delta, oldText, newText, aggressiveChecks); return result; } IncrementalParser.updateSourceFile = updateSourceFile; function getNewCommentDirectives(oldDirectives, newDirectives, changeStart, changeRangeOldEnd, delta, oldText, newText, aggressiveChecks) { if (!oldDirectives) return newDirectives; var commentDirectives; var addedNewlyScannedDirectives = false; for (var _i = 0, oldDirectives_1 = oldDirectives; _i < oldDirectives_1.length; _i++) { var directive = oldDirectives_1[_i]; var range = directive.range, type = directive.type; // Range before the change if (range.end < changeStart) { commentDirectives = ts.append(commentDirectives, directive); } else if (range.pos > changeRangeOldEnd) { addNewlyScannedDirectives(); // Node is entirely past the change range. We need to move both its pos and // end, forward or backward appropriately. var updatedDirective = { range: { pos: range.pos + delta, end: range.end + delta }, type: type }; commentDirectives = ts.append(commentDirectives, updatedDirective); if (aggressiveChecks) { ts.Debug.assert(oldText.substring(range.pos, range.end) === newText.substring(updatedDirective.range.pos, updatedDirective.range.end)); } } // Ignore ranges that fall in change range } addNewlyScannedDirectives(); return commentDirectives; function addNewlyScannedDirectives() { if (addedNewlyScannedDirectives) return; addedNewlyScannedDirectives = true; if (!commentDirectives) { commentDirectives = newDirectives; } else if (newDirectives) { commentDirectives.push.apply(commentDirectives, newDirectives); } } } function moveElementEntirelyPastChangeRange(element, isArray, delta, oldText, newText, aggressiveChecks) { if (isArray) { visitArray(element); } else { visitNode(element); } return; function visitNode(node) { var text = ""; if (aggressiveChecks && shouldCheckNode(node)) { text = oldText.substring(node.pos, node.end); } // Ditch any existing LS children we may have created. This way we can avoid // moving them forward. if (node._children) { node._children = undefined; } node.pos += delta; node.end += delta; if (aggressiveChecks && shouldCheckNode(node)) { ts.Debug.assert(text === newText.substring(node.pos, node.end)); } forEachChild(node, visitNode, visitArray); if (ts.hasJSDocNodes(node)) { for (var _i = 0, _a = node.jsDoc; _i < _a.length; _i++) { var jsDocComment = _a[_i]; visitNode(jsDocComment); } } checkNodePositions(node, aggressiveChecks); } function visitArray(array) { array._children = undefined; array.pos += delta; array.end += delta; for (var _i = 0, array_8 = array; _i < array_8.length; _i++) { var node = array_8[_i]; visitNode(node); } } } function shouldCheckNode(node) { switch (node.kind) { case 10 /* StringLiteral */: case 8 /* NumericLiteral */: case 75 /* Identifier */: return true; } return false; } function adjustIntersectingElement(element, changeStart, changeRangeOldEnd, changeRangeNewEnd, delta) { ts.Debug.assert(element.end >= changeStart, "Adjusting an element that was entirely before the change range"); ts.Debug.assert(element.pos <= changeRangeOldEnd, "Adjusting an element that was entirely after the change range"); ts.Debug.assert(element.pos <= element.end); // We have an element that intersects the change range in some way. It may have its // start, or its end (or both) in the changed range. We want to adjust any part // that intersects such that the final tree is in a consistent state. i.e. all // children have spans within the span of their parent, and all siblings are ordered // properly. // We may need to update both the 'pos' and the 'end' of the element. // If the 'pos' is before the start of the change, then we don't need to touch it. // If it isn't, then the 'pos' must be inside the change. How we update it will // depend if delta is positive or negative. If delta is positive then we have // something like: // // -------------------AAA----------------- // -------------------BBBCCCCCCC----------------- // // In this case, we consider any node that started in the change range to still be // starting at the same position. // // however, if the delta is negative, then we instead have something like this: // // -------------------XXXYYYYYYY----------------- // -------------------ZZZ----------------- // // In this case, any element that started in the 'X' range will keep its position. // However any element that started after that will have their pos adjusted to be // at the end of the new range. i.e. any node that started in the 'Y' range will // be adjusted to have their start at the end of the 'Z' range. // // The element will keep its position if possible. Or Move backward to the new-end // if it's in the 'Y' range. element.pos = Math.min(element.pos, changeRangeNewEnd); // If the 'end' is after the change range, then we always adjust it by the delta // amount. However, if the end is in the change range, then how we adjust it // will depend on if delta is positive or negative. If delta is positive then we // have something like: // // -------------------AAA----------------- // -------------------BBBCCCCCCC----------------- // // In this case, we consider any node that ended inside the change range to keep its // end position. // // however, if the delta is negative, then we instead have something like this: // // -------------------XXXYYYYYYY----------------- // -------------------ZZZ----------------- // // In this case, any element that ended in the 'X' range will keep its position. // However any element that ended after that will have their pos adjusted to be // at the end of the new range. i.e. any node that ended in the 'Y' range will // be adjusted to have their end at the end of the 'Z' range. if (element.end >= changeRangeOldEnd) { // Element ends after the change range. Always adjust the end pos. element.end += delta; } else { // Element ends in the change range. The element will keep its position if // possible. Or Move backward to the new-end if it's in the 'Y' range. element.end = Math.min(element.end, changeRangeNewEnd); } ts.Debug.assert(element.pos <= element.end); if (element.parent) { ts.Debug.assert(element.pos >= element.parent.pos); ts.Debug.assert(element.end <= element.parent.end); } } function checkNodePositions(node, aggressiveChecks) { if (aggressiveChecks) { var pos_2 = node.pos; var visitNode_1 = function (child) { ts.Debug.assert(child.pos >= pos_2); pos_2 = child.end; }; if (ts.hasJSDocNodes(node)) { for (var _i = 0, _a = node.jsDoc; _i < _a.length; _i++) { var jsDocComment = _a[_i]; visitNode_1(jsDocComment); } } forEachChild(node, visitNode_1); ts.Debug.assert(pos_2 <= node.end); } } function updateTokenPositionsAndMarkElements(sourceFile, changeStart, changeRangeOldEnd, changeRangeNewEnd, delta, oldText, newText, aggressiveChecks) { visitNode(sourceFile); return; function visitNode(child) { ts.Debug.assert(child.pos <= child.end); if (child.pos > changeRangeOldEnd) { // Node is entirely past the change range. We need to move both its pos and // end, forward or backward appropriately. moveElementEntirelyPastChangeRange(child, /*isArray*/ false, delta, oldText, newText, aggressiveChecks); return; } // Check if the element intersects the change range. If it does, then it is not // reusable. Also, we'll need to recurse to see what constituent portions we may // be able to use. var fullEnd = child.end; if (fullEnd >= changeStart) { child.intersectsChange = true; child._children = undefined; // Adjust the pos or end (or both) of the intersecting element accordingly. adjustIntersectingElement(child, changeStart, changeRangeOldEnd, changeRangeNewEnd, delta); forEachChild(child, visitNode, visitArray); if (ts.hasJSDocNodes(child)) { for (var _i = 0, _a = child.jsDoc; _i < _a.length; _i++) { var jsDocComment = _a[_i]; visitNode(jsDocComment); } } checkNodePositions(child, aggressiveChecks); return; } // Otherwise, the node is entirely before the change range. No need to do anything with it. ts.Debug.assert(fullEnd < changeStart); } function visitArray(array) { ts.Debug.assert(array.pos <= array.end); if (array.pos > changeRangeOldEnd) { // Array is entirely after the change range. We need to move it, and move any of // its children. moveElementEntirelyPastChangeRange(array, /*isArray*/ true, delta, oldText, newText, aggressiveChecks); return; } // Check if the element intersects the change range. If it does, then it is not // reusable. Also, we'll need to recurse to see what constituent portions we may // be able to use. var fullEnd = array.end; if (fullEnd >= changeStart) { array.intersectsChange = true; array._children = undefined; // Adjust the pos or end (or both) of the intersecting array accordingly. adjustIntersectingElement(array, changeStart, changeRangeOldEnd, changeRangeNewEnd, delta); for (var _i = 0, array_9 = array; _i < array_9.length; _i++) { var node = array_9[_i]; visitNode(node); } return; } // Otherwise, the array is entirely before the change range. No need to do anything with it. ts.Debug.assert(fullEnd < changeStart); } } function extendToAffectedRange(sourceFile, changeRange) { // Consider the following code: // void foo() { /; } // // If the text changes with an insertion of / just before the semicolon then we end up with: // void foo() { //; } // // If we were to just use the changeRange a is, then we would not rescan the { token // (as it does not intersect the actual original change range). Because an edit may // change the token touching it, we actually need to look back *at least* one token so // that the prior token sees that change. var maxLookahead = 1; var start = changeRange.span.start; // the first iteration aligns us with the change start. subsequent iteration move us to // the left by maxLookahead tokens. We only need to do this as long as we're not at the // start of the tree. for (var i = 0; start > 0 && i <= maxLookahead; i++) { var nearestNode = findNearestNodeStartingBeforeOrAtPosition(sourceFile, start); ts.Debug.assert(nearestNode.pos <= start); var position = nearestNode.pos; start = Math.max(0, position - 1); } var finalSpan = ts.createTextSpanFromBounds(start, ts.textSpanEnd(changeRange.span)); var finalLength = changeRange.newLength + (changeRange.span.start - start); return ts.createTextChangeRange(finalSpan, finalLength); } function findNearestNodeStartingBeforeOrAtPosition(sourceFile, position) { var bestResult = sourceFile; var lastNodeEntirelyBeforePosition; forEachChild(sourceFile, visit); if (lastNodeEntirelyBeforePosition) { var lastChildOfLastEntireNodeBeforePosition = getLastDescendant(lastNodeEntirelyBeforePosition); if (lastChildOfLastEntireNodeBeforePosition.pos > bestResult.pos) { bestResult = lastChildOfLastEntireNodeBeforePosition; } } return bestResult; function getLastDescendant(node) { while (true) { var lastChild = ts.getLastChild(node); if (lastChild) { node = lastChild; } else { return node; } } } function visit(child) { if (ts.nodeIsMissing(child)) { // Missing nodes are effectively invisible to us. We never even consider them // When trying to find the nearest node before us. return; } // If the child intersects this position, then this node is currently the nearest // node that starts before the position. if (child.pos <= position) { if (child.pos >= bestResult.pos) { // This node starts before the position, and is closer to the position than // the previous best node we found. It is now the new best node. bestResult = child; } // Now, the node may overlap the position, or it may end entirely before the // position. If it overlaps with the position, then either it, or one of its // children must be the nearest node before the position. So we can just // recurse into this child to see if we can find something better. if (position < child.end) { // The nearest node is either this child, or one of the children inside // of it. We've already marked this child as the best so far. Recurse // in case one of the children is better. forEachChild(child, visit); // Once we look at the children of this node, then there's no need to // continue any further. return true; } else { ts.Debug.assert(child.end <= position); // The child ends entirely before this position. Say you have the following // (where $ is the position) // // ? $ : <...> <...> // // We would want to find the nearest preceding node in "complex expr 2". // To support that, we keep track of this node, and once we're done searching // for a best node, we recurse down this node to see if we can find a good // result in it. // // This approach allows us to quickly skip over nodes that are entirely // before the position, while still allowing us to find any nodes in the // last one that might be what we want. lastNodeEntirelyBeforePosition = child; } } else { ts.Debug.assert(child.pos > position); // We're now at a node that is entirely past the position we're searching for. // This node (and all following nodes) could never contribute to the result, // so just skip them by returning 'true' here. return true; } } } function checkChangeRange(sourceFile, newText, textChangeRange, aggressiveChecks) { var oldText = sourceFile.text; if (textChangeRange) { ts.Debug.assert((oldText.length - textChangeRange.span.length + textChangeRange.newLength) === newText.length); if (aggressiveChecks || ts.Debug.shouldAssert(3 /* VeryAggressive */)) { var oldTextPrefix = oldText.substr(0, textChangeRange.span.start); var newTextPrefix = newText.substr(0, textChangeRange.span.start); ts.Debug.assert(oldTextPrefix === newTextPrefix); var oldTextSuffix = oldText.substring(ts.textSpanEnd(textChangeRange.span), oldText.length); var newTextSuffix = newText.substring(ts.textSpanEnd(ts.textChangeRangeNewSpan(textChangeRange)), newText.length); ts.Debug.assert(oldTextSuffix === newTextSuffix); } } } function createSyntaxCursor(sourceFile) { var currentArray = sourceFile.statements; var currentArrayIndex = 0; ts.Debug.assert(currentArrayIndex < currentArray.length); var current = currentArray[currentArrayIndex]; var lastQueriedPosition = -1 /* Value */; return { currentNode: function (position) { // Only compute the current node if the position is different than the last time // we were asked. The parser commonly asks for the node at the same position // twice. Once to know if can read an appropriate list element at a certain point, // and then to actually read and consume the node. if (position !== lastQueriedPosition) { // Much of the time the parser will need the very next node in the array that // we just returned a node from.So just simply check for that case and move // forward in the array instead of searching for the node again. if (current && current.end === position && currentArrayIndex < (currentArray.length - 1)) { currentArrayIndex++; current = currentArray[currentArrayIndex]; } // If we don't have a node, or the node we have isn't in the right position, // then try to find a viable node at the position requested. if (!current || current.pos !== position) { findHighestListElementThatStartsAtPosition(position); } } // Cache this query so that we don't do any extra work if the parser calls back // into us. Note: this is very common as the parser will make pairs of calls like // 'isListElement -> parseListElement'. If we were unable to find a node when // called with 'isListElement', we don't want to redo the work when parseListElement // is called immediately after. lastQueriedPosition = position; // Either we don'd have a node, or we have a node at the position being asked for. ts.Debug.assert(!current || current.pos === position); return current; } }; // Finds the highest element in the tree we can find that starts at the provided position. // The element must be a direct child of some node list in the tree. This way after we // return it, we can easily return its next sibling in the list. function findHighestListElementThatStartsAtPosition(position) { // Clear out any cached state about the last node we found. currentArray = undefined; currentArrayIndex = -1 /* Value */; current = undefined; // Recurse into the source file to find the highest node at this position. forEachChild(sourceFile, visitNode, visitArray); return; function visitNode(node) { if (position >= node.pos && position < node.end) { // Position was within this node. Keep searching deeper to find the node. forEachChild(node, visitNode, visitArray); // don't proceed any further in the search. return true; } // position wasn't in this node, have to keep searching. return false; } function visitArray(array) { if (position >= array.pos && position < array.end) { // position was in this array. Search through this array to see if we find a // viable element. for (var i = 0; i < array.length; i++) { var child = array[i]; if (child) { if (child.pos === position) { // Found the right node. We're done. currentArray = array; currentArrayIndex = i; current = child; return true; } else { if (child.pos < position && position < child.end) { // Position in somewhere within this child. Search in it and // stop searching in this array. forEachChild(child, visitNode, visitArray); return true; } } } } } // position wasn't in this array, have to keep searching. return false; } } } var InvalidPosition; (function (InvalidPosition) { InvalidPosition[InvalidPosition["Value"] = -1] = "Value"; })(InvalidPosition || (InvalidPosition = {})); })(IncrementalParser || (IncrementalParser = {})); /** @internal */ function isDeclarationFileName(fileName) { return ts.fileExtensionIs(fileName, ".d.ts" /* Dts */); } ts.isDeclarationFileName = isDeclarationFileName; /*@internal*/ function processCommentPragmas(context, sourceText) { var pragmas = []; for (var _i = 0, _a = ts.getLeadingCommentRanges(sourceText, 0) || ts.emptyArray; _i < _a.length; _i++) { var range = _a[_i]; var comment = sourceText.substring(range.pos, range.end); extractPragmas(pragmas, range, comment); } context.pragmas = ts.createMap(); for (var _b = 0, pragmas_1 = pragmas; _b < pragmas_1.length; _b++) { var pragma = pragmas_1[_b]; if (context.pragmas.has(pragma.name)) { var currentValue = context.pragmas.get(pragma.name); if (currentValue instanceof Array) { currentValue.push(pragma.args); } else { context.pragmas.set(pragma.name, [currentValue, pragma.args]); } continue; } context.pragmas.set(pragma.name, pragma.args); } } ts.processCommentPragmas = processCommentPragmas; /*@internal*/ function processPragmasIntoFields(context, reportDiagnostic) { context.checkJsDirective = undefined; context.referencedFiles = []; context.typeReferenceDirectives = []; context.libReferenceDirectives = []; context.amdDependencies = []; context.hasNoDefaultLib = false; context.pragmas.forEach(function (entryOrList, key) { // TODO: The below should be strongly type-guarded and not need casts/explicit annotations, since entryOrList is related to // key and key is constrained to a union; but it's not (see GH#21483 for at least partial fix) :( switch (key) { case "reference": { var referencedFiles_1 = context.referencedFiles; var typeReferenceDirectives_1 = context.typeReferenceDirectives; var libReferenceDirectives_1 = context.libReferenceDirectives; ts.forEach(ts.toArray(entryOrList), function (arg) { var _a = arg.arguments, types = _a.types, lib = _a.lib, path = _a.path; if (arg.arguments["no-default-lib"]) { context.hasNoDefaultLib = true; } else if (types) { typeReferenceDirectives_1.push({ pos: types.pos, end: types.end, fileName: types.value }); } else if (lib) { libReferenceDirectives_1.push({ pos: lib.pos, end: lib.end, fileName: lib.value }); } else if (path) { referencedFiles_1.push({ pos: path.pos, end: path.end, fileName: path.value }); } else { reportDiagnostic(arg.range.pos, arg.range.end - arg.range.pos, ts.Diagnostics.Invalid_reference_directive_syntax); } }); break; } case "amd-dependency": { context.amdDependencies = ts.map(ts.toArray(entryOrList), function (x) { return ({ name: x.arguments.name, path: x.arguments.path }); }); break; } case "amd-module": { if (entryOrList instanceof Array) { for (var _i = 0, entryOrList_1 = entryOrList; _i < entryOrList_1.length; _i++) { var entry = entryOrList_1[_i]; if (context.moduleName) { // TODO: It's probably fine to issue this diagnostic on all instances of the pragma reportDiagnostic(entry.range.pos, entry.range.end - entry.range.pos, ts.Diagnostics.An_AMD_module_cannot_have_multiple_name_assignments); } context.moduleName = entry.arguments.name; } } else { context.moduleName = entryOrList.arguments.name; } break; } case "ts-nocheck": case "ts-check": { // _last_ of either nocheck or check in a file is the "winner" ts.forEach(ts.toArray(entryOrList), function (entry) { if (!context.checkJsDirective || entry.range.pos > context.checkJsDirective.pos) { context.checkJsDirective = { enabled: key === "ts-check", end: entry.range.end, pos: entry.range.pos }; } }); break; } case "jsx": return; // Accessed directly default: ts.Debug.fail("Unhandled pragma kind"); // Can this be made into an assertNever in the future? } }); } ts.processPragmasIntoFields = processPragmasIntoFields; var namedArgRegExCache = ts.createMap(); function getNamedArgRegEx(name) { if (namedArgRegExCache.has(name)) { return namedArgRegExCache.get(name); } var result = new RegExp("(\\s" + name + "\\s*=\\s*)('|\")(.+?)\\2", "im"); namedArgRegExCache.set(name, result); return result; } var tripleSlashXMLCommentStartRegEx = /^\/\/\/\s*<(\S+)\s.*?\/>/im; var singleLinePragmaRegEx = /^\/\/\/?\s*@(\S+)\s*(.*)\s*$/im; function extractPragmas(pragmas, range, text) { var tripleSlash = range.kind === 2 /* SingleLineCommentTrivia */ && tripleSlashXMLCommentStartRegEx.exec(text); if (tripleSlash) { var name = tripleSlash[1].toLowerCase(); // Technically unsafe cast, but we do it so the below check to make it safe typechecks var pragma = ts.commentPragmas[name]; if (!pragma || !(pragma.kind & 1 /* TripleSlashXML */)) { return; } if (pragma.args) { var argument = {}; for (var _i = 0, _a = pragma.args; _i < _a.length; _i++) { var arg = _a[_i]; var matcher = getNamedArgRegEx(arg.name); var matchResult = matcher.exec(text); if (!matchResult && !arg.optional) { return; // Missing required argument, don't parse } else if (matchResult) { if (arg.captureSpan) { var startPos = range.pos + matchResult.index + matchResult[1].length + matchResult[2].length; argument[arg.name] = { value: matchResult[3], pos: startPos, end: startPos + matchResult[3].length }; } else { argument[arg.name] = matchResult[3]; } } } pragmas.push({ name: name, args: { arguments: argument, range: range } }); } else { pragmas.push({ name: name, args: { arguments: {}, range: range } }); } return; } var singleLine = range.kind === 2 /* SingleLineCommentTrivia */ && singleLinePragmaRegEx.exec(text); if (singleLine) { return addPragmaForMatch(pragmas, range, 2 /* SingleLine */, singleLine); } if (range.kind === 3 /* MultiLineCommentTrivia */) { var multiLinePragmaRegEx = /\s*@(\S+)\s*(.*)\s*$/gim; // Defined inline since it uses the "g" flag, which keeps a persistent index (for iterating) var multiLineMatch = void 0; while (multiLineMatch = multiLinePragmaRegEx.exec(text)) { addPragmaForMatch(pragmas, range, 4 /* MultiLine */, multiLineMatch); } } } function addPragmaForMatch(pragmas, range, kind, match) { if (!match) return; var name = match[1].toLowerCase(); // Technically unsafe cast, but we do it so they below check to make it safe typechecks var pragma = ts.commentPragmas[name]; if (!pragma || !(pragma.kind & kind)) { return; } var args = match[2]; // Split on spaces and match up positionally with definition var argument = getNamedPragmaArguments(pragma, args); if (argument === "fail") return; // Missing required argument, fail to parse it pragmas.push({ name: name, args: { arguments: argument, range: range } }); return; } function getNamedPragmaArguments(pragma, text) { if (!text) return {}; if (!pragma.args) return {}; var args = text.split(/\s+/); var argMap = {}; for (var i = 0; i < pragma.args.length; i++) { var argument = pragma.args[i]; if (!args[i] && !argument.optional) { return "fail"; } if (argument.captureSpan) { return ts.Debug.fail("Capture spans not yet implemented for non-xml pragmas"); } argMap[argument.name] = args[i]; } return argMap; } /** @internal */ function tagNamesAreEquivalent(lhs, rhs) { if (lhs.kind !== rhs.kind) { return false; } if (lhs.kind === 75 /* Identifier */) { return lhs.escapedText === rhs.escapedText; } if (lhs.kind === 104 /* ThisKeyword */) { return true; } // If we are at this statement then we must have PropertyAccessExpression and because tag name in Jsx element can only // take forms of JsxTagNameExpression which includes an identifier, "this" expression, or another propertyAccessExpression // it is safe to case the expression property as such. See parseJsxElementName for how we parse tag name in Jsx element return lhs.name.escapedText === rhs.name.escapedText && tagNamesAreEquivalent(lhs.expression, rhs.expression); } ts.tagNamesAreEquivalent = tagNamesAreEquivalent; })(ts || (ts = {})); var ts; (function (ts) { /* @internal */ ts.compileOnSaveCommandLineOption = { name: "compileOnSave", type: "boolean" }; // NOTE: The order here is important to default lib ordering as entries will have the same // order in the generated program (see `getDefaultLibPriority` in program.ts). This // order also affects overload resolution when a type declared in one lib is // augmented in another lib. var libEntries = [ // JavaScript only ["es5", "lib.es5.d.ts"], ["es6", "lib.es2015.d.ts"], ["es2015", "lib.es2015.d.ts"], ["es7", "lib.es2016.d.ts"], ["es2016", "lib.es2016.d.ts"], ["es2017", "lib.es2017.d.ts"], ["es2018", "lib.es2018.d.ts"], ["es2019", "lib.es2019.d.ts"], ["es2020", "lib.es2020.d.ts"], ["esnext", "lib.esnext.d.ts"], // Host only ["dom", "lib.dom.d.ts"], ["dom.iterable", "lib.dom.iterable.d.ts"], ["webworker", "lib.webworker.d.ts"], ["webworker.importscripts", "lib.webworker.importscripts.d.ts"], ["scripthost", "lib.scripthost.d.ts"], // ES2015 Or ESNext By-feature options ["es2015.core", "lib.es2015.core.d.ts"], ["es2015.collection", "lib.es2015.collection.d.ts"], ["es2015.generator", "lib.es2015.generator.d.ts"], ["es2015.iterable", "lib.es2015.iterable.d.ts"], ["es2015.promise", "lib.es2015.promise.d.ts"], ["es2015.proxy", "lib.es2015.proxy.d.ts"], ["es2015.reflect", "lib.es2015.reflect.d.ts"], ["es2015.symbol", "lib.es2015.symbol.d.ts"], ["es2015.symbol.wellknown", "lib.es2015.symbol.wellknown.d.ts"], ["es2016.array.include", "lib.es2016.array.include.d.ts"], ["es2017.object", "lib.es2017.object.d.ts"], ["es2017.sharedmemory", "lib.es2017.sharedmemory.d.ts"], ["es2017.string", "lib.es2017.string.d.ts"], ["es2017.intl", "lib.es2017.intl.d.ts"], ["es2017.typedarrays", "lib.es2017.typedarrays.d.ts"], ["es2018.asyncgenerator", "lib.es2018.asyncgenerator.d.ts"], ["es2018.asynciterable", "lib.es2018.asynciterable.d.ts"], ["es2018.intl", "lib.es2018.intl.d.ts"], ["es2018.promise", "lib.es2018.promise.d.ts"], ["es2018.regexp", "lib.es2018.regexp.d.ts"], ["es2019.array", "lib.es2019.array.d.ts"], ["es2019.object", "lib.es2019.object.d.ts"], ["es2019.string", "lib.es2019.string.d.ts"], ["es2019.symbol", "lib.es2019.symbol.d.ts"], ["es2020.bigint", "lib.es2020.bigint.d.ts"], ["es2020.promise", "lib.es2020.promise.d.ts"], ["es2020.string", "lib.es2020.string.d.ts"], ["es2020.symbol.wellknown", "lib.es2020.symbol.wellknown.d.ts"], ["esnext.array", "lib.es2019.array.d.ts"], ["esnext.symbol", "lib.es2019.symbol.d.ts"], ["esnext.asynciterable", "lib.es2018.asynciterable.d.ts"], ["esnext.intl", "lib.esnext.intl.d.ts"], ["esnext.bigint", "lib.es2020.bigint.d.ts"], ["esnext.string", "lib.esnext.string.d.ts"], ["esnext.promise", "lib.esnext.promise.d.ts"] ]; /** * An array of supported "lib" reference file names used to determine the order for inclusion * when referenced, as well as for spelling suggestions. This ensures the correct ordering for * overload resolution when a type declared in one lib is extended by another. */ /* @internal */ ts.libs = libEntries.map(function (entry) { return entry[0]; }); /** * A map of lib names to lib files. This map is used both for parsing the "lib" command line * option as well as for resolving lib reference directives. */ /* @internal */ ts.libMap = ts.createMapFromEntries(libEntries); // Watch related options /* @internal */ ts.optionsForWatch = [ { name: "watchFile", type: ts.createMapFromTemplate({ fixedpollinginterval: ts.WatchFileKind.FixedPollingInterval, prioritypollinginterval: ts.WatchFileKind.PriorityPollingInterval, dynamicprioritypolling: ts.WatchFileKind.DynamicPriorityPolling, usefsevents: ts.WatchFileKind.UseFsEvents, usefseventsonparentdirectory: ts.WatchFileKind.UseFsEventsOnParentDirectory, }), category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Specify_strategy_for_watching_file_Colon_FixedPollingInterval_default_PriorityPollingInterval_DynamicPriorityPolling_UseFsEvents_UseFsEventsOnParentDirectory, }, { name: "watchDirectory", type: ts.createMapFromTemplate({ usefsevents: ts.WatchDirectoryKind.UseFsEvents, fixedpollinginterval: ts.WatchDirectoryKind.FixedPollingInterval, dynamicprioritypolling: ts.WatchDirectoryKind.DynamicPriorityPolling, }), category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Specify_strategy_for_watching_directory_on_platforms_that_don_t_support_recursive_watching_natively_Colon_UseFsEvents_default_FixedPollingInterval_DynamicPriorityPolling, }, { name: "fallbackPolling", type: ts.createMapFromTemplate({ fixedinterval: ts.PollingWatchKind.FixedInterval, priorityinterval: ts.PollingWatchKind.PriorityInterval, dynamicpriority: ts.PollingWatchKind.DynamicPriority, }), category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Specify_strategy_for_creating_a_polling_watch_when_it_fails_to_create_using_file_system_events_Colon_FixedInterval_default_PriorityInterval_DynamicPriority, }, { name: "synchronousWatchDirectory", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Synchronously_call_callbacks_and_update_the_state_of_directory_watchers_on_platforms_that_don_t_support_recursive_watching_natively, }, ]; /* @internal */ ts.commonOptionsWithBuild = [ { name: "help", shortName: "h", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Print_this_message, }, { name: "help", shortName: "?", type: "boolean" }, { name: "watch", shortName: "w", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Watch_input_files, }, { name: "preserveWatchOutput", type: "boolean", showInSimplifiedHelpView: false, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Whether_to_keep_outdated_console_output_in_watch_mode_instead_of_clearing_the_screen, }, { name: "listFiles", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Print_names_of_files_part_of_the_compilation }, { name: "listEmittedFiles", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Print_names_of_generated_files_part_of_the_compilation }, { name: "pretty", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Stylize_errors_and_messages_using_color_and_context_experimental }, { name: "traceResolution", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Enable_tracing_of_the_name_resolution_process }, { name: "diagnostics", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Show_diagnostic_information }, { name: "extendedDiagnostics", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Show_verbose_diagnostic_information }, { name: "generateCpuProfile", type: "string", isFilePath: true, paramType: ts.Diagnostics.FILE_OR_DIRECTORY, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Generates_a_CPU_profile }, { name: "incremental", shortName: "i", type: "boolean", category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Enable_incremental_compilation, transpileOptionValue: undefined }, { name: "assumeChangesOnlyAffectDirectDependencies", type: "boolean", affectsSemanticDiagnostics: true, affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Have_recompiles_in_incremental_and_watch_assume_that_changes_within_a_file_will_only_affect_files_directly_depending_on_it }, { name: "locale", type: "string", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.The_locale_used_when_displaying_messages_to_the_user_e_g_en_us }, ]; /* @internal */ ts.optionDeclarations = __spreadArrays(ts.commonOptionsWithBuild, [ { name: "all", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Show_all_compiler_options, }, { name: "version", shortName: "v", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Print_the_compiler_s_version, }, { name: "init", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Initializes_a_TypeScript_project_and_creates_a_tsconfig_json_file, }, { name: "project", shortName: "p", type: "string", isFilePath: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, paramType: ts.Diagnostics.FILE_OR_DIRECTORY, description: ts.Diagnostics.Compile_the_project_given_the_path_to_its_configuration_file_or_to_a_folder_with_a_tsconfig_json, }, { name: "build", type: "boolean", shortName: "b", showInSimplifiedHelpView: true, category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Build_one_or_more_projects_and_their_dependencies_if_out_of_date }, { name: "showConfig", type: "boolean", category: ts.Diagnostics.Command_line_Options, isCommandLineOnly: true, description: ts.Diagnostics.Print_the_final_configuration_instead_of_building }, { name: "listFilesOnly", type: "boolean", category: ts.Diagnostics.Command_line_Options, affectsSemanticDiagnostics: true, affectsEmit: true, isCommandLineOnly: true, description: ts.Diagnostics.Print_names_of_files_that_are_part_of_the_compilation_and_then_stop_processing }, // Basic { name: "target", shortName: "t", type: ts.createMapFromTemplate({ es3: 0 /* ES3 */, es5: 1 /* ES5 */, es6: 2 /* ES2015 */, es2015: 2 /* ES2015 */, es2016: 3 /* ES2016 */, es2017: 4 /* ES2017 */, es2018: 5 /* ES2018 */, es2019: 6 /* ES2019 */, es2020: 7 /* ES2020 */, esnext: 99 /* ESNext */, }), affectsSourceFile: true, affectsModuleResolution: true, affectsEmit: true, paramType: ts.Diagnostics.VERSION, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Specify_ECMAScript_target_version_Colon_ES3_default_ES5_ES2015_ES2016_ES2017_ES2018_ES2019_ES2020_or_ESNEXT, }, { name: "module", shortName: "m", type: ts.createMapFromTemplate({ none: ts.ModuleKind.None, commonjs: ts.ModuleKind.CommonJS, amd: ts.ModuleKind.AMD, system: ts.ModuleKind.System, umd: ts.ModuleKind.UMD, es6: ts.ModuleKind.ES2015, es2015: ts.ModuleKind.ES2015, es2020: ts.ModuleKind.ES2020, esnext: ts.ModuleKind.ESNext }), affectsModuleResolution: true, affectsEmit: true, paramType: ts.Diagnostics.KIND, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Specify_module_code_generation_Colon_none_commonjs_amd_system_umd_es2015_es2020_or_ESNext, }, { name: "lib", type: "list", element: { name: "lib", type: ts.libMap }, affectsModuleResolution: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Specify_library_files_to_be_included_in_the_compilation, transpileOptionValue: undefined }, { name: "allowJs", type: "boolean", affectsModuleResolution: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Allow_javascript_files_to_be_compiled }, { name: "checkJs", type: "boolean", category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Report_errors_in_js_files }, { name: "jsx", type: ts.createMapFromTemplate({ "preserve": 1 /* Preserve */, "react-native": 3 /* ReactNative */, "react": 2 /* React */ }), affectsSourceFile: true, paramType: ts.Diagnostics.KIND, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Specify_JSX_code_generation_Colon_preserve_react_native_or_react, }, { name: "declaration", shortName: "d", type: "boolean", affectsEmit: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Generates_corresponding_d_ts_file, transpileOptionValue: undefined }, { name: "declarationMap", type: "boolean", affectsEmit: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Generates_a_sourcemap_for_each_corresponding_d_ts_file, transpileOptionValue: undefined }, { name: "emitDeclarationOnly", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Only_emit_d_ts_declaration_files, transpileOptionValue: undefined }, { name: "sourceMap", type: "boolean", affectsEmit: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Generates_corresponding_map_file, }, { name: "outFile", type: "string", affectsEmit: true, isFilePath: true, paramType: ts.Diagnostics.FILE, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Concatenate_and_emit_output_to_single_file, transpileOptionValue: undefined }, { name: "outDir", type: "string", affectsEmit: true, isFilePath: true, paramType: ts.Diagnostics.DIRECTORY, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Redirect_output_structure_to_the_directory, }, { name: "rootDir", type: "string", affectsEmit: true, isFilePath: true, paramType: ts.Diagnostics.LOCATION, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Specify_the_root_directory_of_input_files_Use_to_control_the_output_directory_structure_with_outDir, }, { name: "composite", type: "boolean", affectsEmit: true, isTSConfigOnly: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Enable_project_compilation, transpileOptionValue: undefined }, { name: "tsBuildInfoFile", type: "string", affectsEmit: true, isFilePath: true, paramType: ts.Diagnostics.FILE, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Specify_file_to_store_incremental_compilation_information, transpileOptionValue: undefined }, { name: "removeComments", type: "boolean", affectsEmit: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Do_not_emit_comments_to_output, }, { name: "noEmit", type: "boolean", affectsEmit: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Do_not_emit_outputs, transpileOptionValue: undefined }, { name: "importHelpers", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Import_emit_helpers_from_tslib }, { name: "importsNotUsedAsValues", type: ts.createMapFromTemplate({ remove: 0 /* Remove */, preserve: 1 /* Preserve */, error: 2 /* Error */ }), affectsEmit: true, affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Specify_emit_Slashchecking_behavior_for_imports_that_are_only_used_for_types }, { name: "downlevelIteration", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Provide_full_support_for_iterables_in_for_of_spread_and_destructuring_when_targeting_ES5_or_ES3 }, { name: "isolatedModules", type: "boolean", category: ts.Diagnostics.Basic_Options, description: ts.Diagnostics.Transpile_each_file_as_a_separate_module_similar_to_ts_transpileModule, transpileOptionValue: true }, // Strict Type Checks { name: "strict", type: "boolean", showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Enable_all_strict_type_checking_options }, { name: "noImplicitAny", type: "boolean", affectsSemanticDiagnostics: true, strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Raise_error_on_expressions_and_declarations_with_an_implied_any_type }, { name: "strictNullChecks", type: "boolean", affectsSemanticDiagnostics: true, strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Enable_strict_null_checks }, { name: "strictFunctionTypes", type: "boolean", affectsSemanticDiagnostics: true, strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Enable_strict_checking_of_function_types }, { name: "strictBindCallApply", type: "boolean", strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Enable_strict_bind_call_and_apply_methods_on_functions }, { name: "strictPropertyInitialization", type: "boolean", affectsSemanticDiagnostics: true, strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Enable_strict_checking_of_property_initialization_in_classes }, { name: "noImplicitThis", type: "boolean", affectsSemanticDiagnostics: true, strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Raise_error_on_this_expressions_with_an_implied_any_type, }, { name: "alwaysStrict", type: "boolean", affectsSourceFile: true, strictFlag: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Strict_Type_Checking_Options, description: ts.Diagnostics.Parse_in_strict_mode_and_emit_use_strict_for_each_source_file }, // Additional Checks { name: "noUnusedLocals", type: "boolean", affectsSemanticDiagnostics: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Additional_Checks, description: ts.Diagnostics.Report_errors_on_unused_locals, }, { name: "noUnusedParameters", type: "boolean", affectsSemanticDiagnostics: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Additional_Checks, description: ts.Diagnostics.Report_errors_on_unused_parameters, }, { name: "noImplicitReturns", type: "boolean", affectsSemanticDiagnostics: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Additional_Checks, description: ts.Diagnostics.Report_error_when_not_all_code_paths_in_function_return_a_value }, { name: "noFallthroughCasesInSwitch", type: "boolean", affectsBindDiagnostics: true, affectsSemanticDiagnostics: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Additional_Checks, description: ts.Diagnostics.Report_errors_for_fallthrough_cases_in_switch_statement }, // Module Resolution { name: "moduleResolution", type: ts.createMapFromTemplate({ node: ts.ModuleResolutionKind.NodeJs, classic: ts.ModuleResolutionKind.Classic, }), affectsModuleResolution: true, paramType: ts.Diagnostics.STRATEGY, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Specify_module_resolution_strategy_Colon_node_Node_js_or_classic_TypeScript_pre_1_6, }, { name: "baseUrl", type: "string", affectsModuleResolution: true, isFilePath: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Base_directory_to_resolve_non_absolute_module_names }, { // this option can only be specified in tsconfig.json // use type = object to copy the value as-is name: "paths", type: "object", affectsModuleResolution: true, isTSConfigOnly: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.A_series_of_entries_which_re_map_imports_to_lookup_locations_relative_to_the_baseUrl, transpileOptionValue: undefined }, { // this option can only be specified in tsconfig.json // use type = object to copy the value as-is name: "rootDirs", type: "list", isTSConfigOnly: true, element: { name: "rootDirs", type: "string", isFilePath: true }, affectsModuleResolution: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.List_of_root_folders_whose_combined_content_represents_the_structure_of_the_project_at_runtime, transpileOptionValue: undefined }, { name: "typeRoots", type: "list", element: { name: "typeRoots", type: "string", isFilePath: true }, affectsModuleResolution: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.List_of_folders_to_include_type_definitions_from }, { name: "types", type: "list", element: { name: "types", type: "string" }, affectsModuleResolution: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Type_declaration_files_to_be_included_in_compilation, transpileOptionValue: undefined }, { name: "allowSyntheticDefaultImports", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Allow_default_imports_from_modules_with_no_default_export_This_does_not_affect_code_emit_just_typechecking }, { name: "esModuleInterop", type: "boolean", affectsSemanticDiagnostics: true, affectsEmit: true, showInSimplifiedHelpView: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Enables_emit_interoperability_between_CommonJS_and_ES_Modules_via_creation_of_namespace_objects_for_all_imports_Implies_allowSyntheticDefaultImports }, { name: "preserveSymlinks", type: "boolean", category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Do_not_resolve_the_real_path_of_symlinks, }, { name: "allowUmdGlobalAccess", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Module_Resolution_Options, description: ts.Diagnostics.Allow_accessing_UMD_globals_from_modules, }, // Source Maps { name: "sourceRoot", type: "string", affectsEmit: true, paramType: ts.Diagnostics.LOCATION, category: ts.Diagnostics.Source_Map_Options, description: ts.Diagnostics.Specify_the_location_where_debugger_should_locate_TypeScript_files_instead_of_source_locations, }, { name: "mapRoot", type: "string", affectsEmit: true, paramType: ts.Diagnostics.LOCATION, category: ts.Diagnostics.Source_Map_Options, description: ts.Diagnostics.Specify_the_location_where_debugger_should_locate_map_files_instead_of_generated_locations, }, { name: "inlineSourceMap", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Source_Map_Options, description: ts.Diagnostics.Emit_a_single_file_with_source_maps_instead_of_having_a_separate_file }, { name: "inlineSources", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Source_Map_Options, description: ts.Diagnostics.Emit_the_source_alongside_the_sourcemaps_within_a_single_file_requires_inlineSourceMap_or_sourceMap_to_be_set }, // Experimental { name: "experimentalDecorators", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Experimental_Options, description: ts.Diagnostics.Enables_experimental_support_for_ES7_decorators }, { name: "emitDecoratorMetadata", type: "boolean", affectsSemanticDiagnostics: true, affectsEmit: true, category: ts.Diagnostics.Experimental_Options, description: ts.Diagnostics.Enables_experimental_support_for_emitting_type_metadata_for_decorators }, // Advanced { name: "jsxFactory", type: "string", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Specify_the_JSX_factory_function_to_use_when_targeting_react_JSX_emit_e_g_React_createElement_or_h }, { name: "resolveJsonModule", type: "boolean", affectsModuleResolution: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Include_modules_imported_with_json_extension }, { name: "out", type: "string", affectsEmit: true, isFilePath: false, // for correct behaviour, please use outFile category: ts.Diagnostics.Advanced_Options, paramType: ts.Diagnostics.FILE, description: ts.Diagnostics.Deprecated_Use_outFile_instead_Concatenate_and_emit_output_to_single_file, transpileOptionValue: undefined }, { name: "reactNamespace", type: "string", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Deprecated_Use_jsxFactory_instead_Specify_the_object_invoked_for_createElement_when_targeting_react_JSX_emit }, { name: "skipDefaultLibCheck", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Deprecated_Use_skipLibCheck_instead_Skip_type_checking_of_default_library_declaration_files }, { name: "charset", type: "string", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.The_character_set_of_the_input_files }, { name: "emitBOM", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Emit_a_UTF_8_Byte_Order_Mark_BOM_in_the_beginning_of_output_files }, { name: "newLine", type: ts.createMapFromTemplate({ crlf: 0 /* CarriageReturnLineFeed */, lf: 1 /* LineFeed */ }), affectsEmit: true, paramType: ts.Diagnostics.NEWLINE, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Specify_the_end_of_line_sequence_to_be_used_when_emitting_files_Colon_CRLF_dos_or_LF_unix, }, { name: "noErrorTruncation", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_truncate_error_messages }, { name: "noLib", type: "boolean", affectsModuleResolution: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_include_the_default_library_file_lib_d_ts, // We are not returning a sourceFile for lib file when asked by the program, // so pass --noLib to avoid reporting a file not found error. transpileOptionValue: true }, { name: "noResolve", type: "boolean", affectsModuleResolution: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_add_triple_slash_references_or_imported_modules_to_the_list_of_compiled_files, // We are not doing a full typecheck, we are not resolving the whole context, // so pass --noResolve to avoid reporting missing file errors. transpileOptionValue: true }, { name: "stripInternal", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_emit_declarations_for_code_that_has_an_internal_annotation, }, { name: "disableSizeLimit", type: "boolean", affectsSourceFile: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Disable_size_limitations_on_JavaScript_projects }, { name: "disableSourceOfProjectReferenceRedirect", type: "boolean", isTSConfigOnly: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Disable_use_of_source_files_instead_of_declaration_files_from_referenced_projects }, { name: "disableSolutionSearching", type: "boolean", isTSConfigOnly: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Disable_solution_searching_for_this_project }, { name: "noImplicitUseStrict", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_emit_use_strict_directives_in_module_output }, { name: "noEmitHelpers", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_generate_custom_helper_functions_like_extends_in_compiled_output }, { name: "noEmitOnError", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_emit_outputs_if_any_errors_were_reported, transpileOptionValue: undefined }, { name: "preserveConstEnums", type: "boolean", affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_erase_const_enum_declarations_in_generated_code }, { name: "declarationDir", type: "string", affectsEmit: true, isFilePath: true, paramType: ts.Diagnostics.DIRECTORY, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Output_directory_for_generated_declaration_files, transpileOptionValue: undefined }, { name: "skipLibCheck", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Skip_type_checking_of_declaration_files, }, { name: "allowUnusedLabels", type: "boolean", affectsBindDiagnostics: true, affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_report_errors_on_unused_labels }, { name: "allowUnreachableCode", type: "boolean", affectsBindDiagnostics: true, affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Do_not_report_errors_on_unreachable_code }, { name: "suppressExcessPropertyErrors", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Suppress_excess_property_checks_for_object_literals, }, { name: "suppressImplicitAnyIndexErrors", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Suppress_noImplicitAny_errors_for_indexing_objects_lacking_index_signatures, }, { name: "forceConsistentCasingInFileNames", type: "boolean", affectsModuleResolution: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Disallow_inconsistently_cased_references_to_the_same_file }, { name: "maxNodeModuleJsDepth", type: "number", affectsModuleResolution: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.The_maximum_dependency_depth_to_search_under_node_modules_and_load_JavaScript_files }, { name: "noStrictGenericChecks", type: "boolean", affectsSemanticDiagnostics: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Disable_strict_checking_of_generic_signatures_in_function_types, }, { name: "useDefineForClassFields", type: "boolean", affectsSemanticDiagnostics: true, affectsEmit: true, category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Emit_class_fields_with_Define_instead_of_Set, }, { name: "keyofStringsOnly", type: "boolean", category: ts.Diagnostics.Advanced_Options, description: ts.Diagnostics.Resolve_keyof_to_string_valued_property_names_only_no_numbers_or_symbols, }, { // A list of plugins to load in the language service name: "plugins", type: "list", isTSConfigOnly: true, element: { name: "plugin", type: "object" }, description: ts.Diagnostics.List_of_language_service_plugins }, ]); /* @internal */ ts.semanticDiagnosticsOptionDeclarations = ts.optionDeclarations.filter(function (option) { return !!option.affectsSemanticDiagnostics; }); /* @internal */ ts.affectsEmitOptionDeclarations = ts.optionDeclarations.filter(function (option) { return !!option.affectsEmit; }); /* @internal */ ts.moduleResolutionOptionDeclarations = ts.optionDeclarations.filter(function (option) { return !!option.affectsModuleResolution; }); /* @internal */ ts.sourceFileAffectingCompilerOptions = ts.optionDeclarations.filter(function (option) { return !!option.affectsSourceFile || !!option.affectsModuleResolution || !!option.affectsBindDiagnostics; }); /* @internal */ ts.transpileOptionValueCompilerOptions = ts.optionDeclarations.filter(function (option) { return ts.hasProperty(option, "transpileOptionValue"); }); /* @internal */ ts.buildOpts = __spreadArrays(ts.commonOptionsWithBuild, [ { name: "verbose", shortName: "v", category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Enable_verbose_logging, type: "boolean" }, { name: "dry", shortName: "d", category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Show_what_would_be_built_or_deleted_if_specified_with_clean, type: "boolean" }, { name: "force", shortName: "f", category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Build_all_projects_including_those_that_appear_to_be_up_to_date, type: "boolean" }, { name: "clean", category: ts.Diagnostics.Command_line_Options, description: ts.Diagnostics.Delete_the_outputs_of_all_projects, type: "boolean" } ]); /* @internal */ ts.typeAcquisitionDeclarations = [ { /* @deprecated typingOptions.enableAutoDiscovery * Use typeAcquisition.enable instead. */ name: "enableAutoDiscovery", type: "boolean", }, { name: "enable", type: "boolean", }, { name: "include", type: "list", element: { name: "include", type: "string" } }, { name: "exclude", type: "list", element: { name: "exclude", type: "string" } } ]; /*@internal*/ function createOptionNameMap(optionDeclarations) { var optionsNameMap = ts.createMap(); var shortOptionNames = ts.createMap(); ts.forEach(optionDeclarations, function (option) { optionsNameMap.set(option.name.toLowerCase(), option); if (option.shortName) { shortOptionNames.set(option.shortName, option.name); } }); return { optionsNameMap: optionsNameMap, shortOptionNames: shortOptionNames }; } ts.createOptionNameMap = createOptionNameMap; var optionsNameMapCache; /* @internal */ function getOptionsNameMap() { return optionsNameMapCache || (optionsNameMapCache = createOptionNameMap(ts.optionDeclarations)); } ts.getOptionsNameMap = getOptionsNameMap; /* @internal */ ts.defaultInitCompilerOptions = { module: ts.ModuleKind.CommonJS, target: 1 /* ES5 */, strict: true, esModuleInterop: true, forceConsistentCasingInFileNames: true, skipLibCheck: true }; /* @internal */ function convertEnableAutoDiscoveryToEnable(typeAcquisition) { // Convert deprecated typingOptions.enableAutoDiscovery to typeAcquisition.enable if (typeAcquisition && typeAcquisition.enableAutoDiscovery !== undefined && typeAcquisition.enable === undefined) { return { enable: typeAcquisition.enableAutoDiscovery, include: typeAcquisition.include || [], exclude: typeAcquisition.exclude || [] }; } return typeAcquisition; } ts.convertEnableAutoDiscoveryToEnable = convertEnableAutoDiscoveryToEnable; /* @internal */ function createCompilerDiagnosticForInvalidCustomType(opt) { return createDiagnosticForInvalidCustomType(opt, ts.createCompilerDiagnostic); } ts.createCompilerDiagnosticForInvalidCustomType = createCompilerDiagnosticForInvalidCustomType; function createDiagnosticForInvalidCustomType(opt, createDiagnostic) { var namesOfType = ts.arrayFrom(opt.type.keys()).map(function (key) { return "'" + key + "'"; }).join(", "); return createDiagnostic(ts.Diagnostics.Argument_for_0_option_must_be_Colon_1, "--" + opt.name, namesOfType); } /* @internal */ function parseCustomTypeOption(opt, value, errors) { return convertJsonOptionOfCustomType(opt, trimString(value || ""), errors); } ts.parseCustomTypeOption = parseCustomTypeOption; /* @internal */ function parseListTypeOption(opt, value, errors) { if (value === void 0) { value = ""; } value = trimString(value); if (ts.startsWith(value, "-")) { return undefined; } if (value === "") { return []; } var values = value.split(","); switch (opt.element.type) { case "number": return ts.map(values, parseInt); case "string": return ts.map(values, function (v) { return v || ""; }); default: return ts.mapDefined(values, function (v) { return parseCustomTypeOption(opt.element, v, errors); }); } } ts.parseListTypeOption = parseListTypeOption; function getOptionName(option) { return option.name; } function createUnknownOptionError(unknownOption, diagnostics, createDiagnostics, unknownOptionErrorText) { var possibleOption = ts.getSpellingSuggestion(unknownOption, diagnostics.optionDeclarations, getOptionName); return possibleOption ? createDiagnostics(diagnostics.unknownDidYouMeanDiagnostic, unknownOptionErrorText || unknownOption, possibleOption.name) : createDiagnostics(diagnostics.unknownOptionDiagnostic, unknownOptionErrorText || unknownOption); } /*@internal*/ function parseCommandLineWorker(diagnostics, commandLine, readFile) { var options = {}; var watchOptions; var fileNames = []; var errors = []; parseStrings(commandLine); return { options: options, watchOptions: watchOptions, fileNames: fileNames, errors: errors }; function parseStrings(args) { var i = 0; while (i < args.length) { var s = args[i]; i++; if (s.charCodeAt(0) === 64 /* at */) { parseResponseFile(s.slice(1)); } else if (s.charCodeAt(0) === 45 /* minus */) { var inputOptionName = s.slice(s.charCodeAt(1) === 45 /* minus */ ? 2 : 1); var opt = getOptionDeclarationFromName(diagnostics.getOptionsNameMap, inputOptionName, /*allowShort*/ true); if (opt) { i = parseOptionValue(args, i, diagnostics, opt, options, errors); } else { var watchOpt = getOptionDeclarationFromName(watchOptionsDidYouMeanDiagnostics.getOptionsNameMap, inputOptionName, /*allowShort*/ true); if (watchOpt) { i = parseOptionValue(args, i, watchOptionsDidYouMeanDiagnostics, watchOpt, watchOptions || (watchOptions = {}), errors); } else { errors.push(createUnknownOptionError(inputOptionName, diagnostics, ts.createCompilerDiagnostic, s)); } } } else { fileNames.push(s); } } } function parseResponseFile(fileName) { var text = tryReadFile(fileName, readFile || (function (fileName) { return ts.sys.readFile(fileName); })); if (!ts.isString(text)) { errors.push(text); return; } var args = []; var pos = 0; while (true) { while (pos < text.length && text.charCodeAt(pos) <= 32 /* space */) pos++; if (pos >= text.length) break; var start = pos; if (text.charCodeAt(start) === 34 /* doubleQuote */) { pos++; while (pos < text.length && text.charCodeAt(pos) !== 34 /* doubleQuote */) pos++; if (pos < text.length) { args.push(text.substring(start + 1, pos)); pos++; } else { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Unterminated_quoted_string_in_response_file_0, fileName)); } } else { while (text.charCodeAt(pos) > 32 /* space */) pos++; args.push(text.substring(start, pos)); } } parseStrings(args); } } ts.parseCommandLineWorker = parseCommandLineWorker; function parseOptionValue(args, i, diagnostics, opt, options, errors) { if (opt.isTSConfigOnly) { var optValue = args[i]; if (optValue === "null") { options[opt.name] = undefined; i++; } else if (opt.type === "boolean") { if (optValue === "false") { options[opt.name] = false; i++; } else { if (optValue === "true") i++; errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Option_0_can_only_be_specified_in_tsconfig_json_file_or_set_to_false_or_null_on_command_line, opt.name)); } } else { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Option_0_can_only_be_specified_in_tsconfig_json_file_or_set_to_null_on_command_line, opt.name)); if (optValue && !ts.startsWith(optValue, "-")) i++; } } else { // Check to see if no argument was provided (e.g. "--locale" is the last command-line argument). if (!args[i] && opt.type !== "boolean") { errors.push(ts.createCompilerDiagnostic(diagnostics.optionTypeMismatchDiagnostic, opt.name, getCompilerOptionValueTypeString(opt))); } if (args[i] !== "null") { switch (opt.type) { case "number": options[opt.name] = parseInt(args[i]); i++; break; case "boolean": // boolean flag has optional value true, false, others var optValue = args[i]; options[opt.name] = optValue !== "false"; // consume next argument as boolean flag value if (optValue === "false" || optValue === "true") { i++; } break; case "string": options[opt.name] = args[i] || ""; i++; break; case "list": var result = parseListTypeOption(opt, args[i], errors); options[opt.name] = result || []; if (result) { i++; } break; // If not a primitive, the possible types are specified in what is effectively a map of options. default: options[opt.name] = parseCustomTypeOption(opt, args[i], errors); i++; break; } } else { options[opt.name] = undefined; i++; } } return i; } /*@internal*/ ts.compilerOptionsDidYouMeanDiagnostics = { getOptionsNameMap: getOptionsNameMap, optionDeclarations: ts.optionDeclarations, unknownOptionDiagnostic: ts.Diagnostics.Unknown_compiler_option_0, unknownDidYouMeanDiagnostic: ts.Diagnostics.Unknown_compiler_option_0_Did_you_mean_1, optionTypeMismatchDiagnostic: ts.Diagnostics.Compiler_option_0_expects_an_argument }; function parseCommandLine(commandLine, readFile) { return parseCommandLineWorker(ts.compilerOptionsDidYouMeanDiagnostics, commandLine, readFile); } ts.parseCommandLine = parseCommandLine; /** @internal */ function getOptionFromName(optionName, allowShort) { return getOptionDeclarationFromName(getOptionsNameMap, optionName, allowShort); } ts.getOptionFromName = getOptionFromName; function getOptionDeclarationFromName(getOptionNameMap, optionName, allowShort) { if (allowShort === void 0) { allowShort = false; } optionName = optionName.toLowerCase(); var _a = getOptionNameMap(), optionsNameMap = _a.optionsNameMap, shortOptionNames = _a.shortOptionNames; // Try to translate short option names to their full equivalents. if (allowShort) { var short = shortOptionNames.get(optionName); if (short !== undefined) { optionName = short; } } return optionsNameMap.get(optionName); } var buildOptionsNameMapCache; function getBuildOptionsNameMap() { return buildOptionsNameMapCache || (buildOptionsNameMapCache = createOptionNameMap(ts.buildOpts)); } var buildOptionsDidYouMeanDiagnostics = { getOptionsNameMap: getBuildOptionsNameMap, optionDeclarations: ts.buildOpts, unknownOptionDiagnostic: ts.Diagnostics.Unknown_build_option_0, unknownDidYouMeanDiagnostic: ts.Diagnostics.Unknown_build_option_0_Did_you_mean_1, optionTypeMismatchDiagnostic: ts.Diagnostics.Build_option_0_requires_a_value_of_type_1 }; /*@internal*/ function parseBuildCommand(args) { var _a = parseCommandLineWorker(buildOptionsDidYouMeanDiagnostics, args), options = _a.options, watchOptions = _a.watchOptions, projects = _a.fileNames, errors = _a.errors; var buildOptions = options; if (projects.length === 0) { // tsc -b invoked with no extra arguments; act as if invoked with "tsc -b ." projects.push("."); } // Nonsensical combinations if (buildOptions.clean && buildOptions.force) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Options_0_and_1_cannot_be_combined, "clean", "force")); } if (buildOptions.clean && buildOptions.verbose) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Options_0_and_1_cannot_be_combined, "clean", "verbose")); } if (buildOptions.clean && buildOptions.watch) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Options_0_and_1_cannot_be_combined, "clean", "watch")); } if (buildOptions.watch && buildOptions.dry) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Options_0_and_1_cannot_be_combined, "watch", "dry")); } return { buildOptions: buildOptions, watchOptions: watchOptions, projects: projects, errors: errors }; } ts.parseBuildCommand = parseBuildCommand; /* @internal */ function getDiagnosticText(_message) { var _args = []; for (var _i = 1; _i < arguments.length; _i++) { _args[_i - 1] = arguments[_i]; } var diagnostic = ts.createCompilerDiagnostic.apply(undefined, arguments); return diagnostic.messageText; } ts.getDiagnosticText = getDiagnosticText; /** * Reads the config file, reports errors if any and exits if the config file cannot be found */ function getParsedCommandLineOfConfigFile(configFileName, optionsToExtend, host, extendedConfigCache, watchOptionsToExtend, extraFileExtensions) { var configFileText = tryReadFile(configFileName, function (fileName) { return host.readFile(fileName); }); if (!ts.isString(configFileText)) { host.onUnRecoverableConfigFileDiagnostic(configFileText); return undefined; } var result = ts.parseJsonText(configFileName, configFileText); var cwd = host.getCurrentDirectory(); result.path = ts.toPath(configFileName, cwd, ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames)); result.resolvedPath = result.path; result.originalFileName = result.fileName; return parseJsonSourceFileConfigFileContent(result, host, ts.getNormalizedAbsolutePath(ts.getDirectoryPath(configFileName), cwd), optionsToExtend, ts.getNormalizedAbsolutePath(configFileName, cwd), /*resolutionStack*/ undefined, extraFileExtensions, extendedConfigCache, watchOptionsToExtend); } ts.getParsedCommandLineOfConfigFile = getParsedCommandLineOfConfigFile; /** * Read tsconfig.json file * @param fileName The path to the config file */ function readConfigFile(fileName, readFile) { var textOrDiagnostic = tryReadFile(fileName, readFile); return ts.isString(textOrDiagnostic) ? parseConfigFileTextToJson(fileName, textOrDiagnostic) : { config: {}, error: textOrDiagnostic }; } ts.readConfigFile = readConfigFile; /** * Parse the text of the tsconfig.json file * @param fileName The path to the config file * @param jsonText The text of the config file */ function parseConfigFileTextToJson(fileName, jsonText) { var jsonSourceFile = ts.parseJsonText(fileName, jsonText); return { config: convertToObject(jsonSourceFile, jsonSourceFile.parseDiagnostics), error: jsonSourceFile.parseDiagnostics.length ? jsonSourceFile.parseDiagnostics[0] : undefined }; } ts.parseConfigFileTextToJson = parseConfigFileTextToJson; /** * Read tsconfig.json file * @param fileName The path to the config file */ function readJsonConfigFile(fileName, readFile) { var textOrDiagnostic = tryReadFile(fileName, readFile); return ts.isString(textOrDiagnostic) ? ts.parseJsonText(fileName, textOrDiagnostic) : { parseDiagnostics: [textOrDiagnostic] }; } ts.readJsonConfigFile = readJsonConfigFile; /*@internal*/ function tryReadFile(fileName, readFile) { var text; try { text = readFile(fileName); } catch (e) { return ts.createCompilerDiagnostic(ts.Diagnostics.Cannot_read_file_0_Colon_1, fileName, e.message); } return text === undefined ? ts.createCompilerDiagnostic(ts.Diagnostics.Cannot_read_file_0, fileName) : text; } ts.tryReadFile = tryReadFile; function commandLineOptionsToMap(options) { return ts.arrayToMap(options, getOptionName); } var typeAcquisitionDidYouMeanDiagnostics = { optionDeclarations: ts.typeAcquisitionDeclarations, unknownOptionDiagnostic: ts.Diagnostics.Unknown_type_acquisition_option_0, unknownDidYouMeanDiagnostic: ts.Diagnostics.Unknown_type_acquisition_option_0_Did_you_mean_1, }; var watchOptionsNameMapCache; function getWatchOptionsNameMap() { return watchOptionsNameMapCache || (watchOptionsNameMapCache = createOptionNameMap(ts.optionsForWatch)); } var watchOptionsDidYouMeanDiagnostics = { getOptionsNameMap: getWatchOptionsNameMap, optionDeclarations: ts.optionsForWatch, unknownOptionDiagnostic: ts.Diagnostics.Unknown_watch_option_0, unknownDidYouMeanDiagnostic: ts.Diagnostics.Unknown_watch_option_0_Did_you_mean_1, optionTypeMismatchDiagnostic: ts.Diagnostics.Watch_option_0_requires_a_value_of_type_1 }; var commandLineCompilerOptionsMapCache; function getCommandLineCompilerOptionsMap() { return commandLineCompilerOptionsMapCache || (commandLineCompilerOptionsMapCache = commandLineOptionsToMap(ts.optionDeclarations)); } var commandLineWatchOptionsMapCache; function getCommandLineWatchOptionsMap() { return commandLineWatchOptionsMapCache || (commandLineWatchOptionsMapCache = commandLineOptionsToMap(ts.optionsForWatch)); } var commandLineTypeAcquisitionMapCache; function getCommandLineTypeAcquisitionMap() { return commandLineTypeAcquisitionMapCache || (commandLineTypeAcquisitionMapCache = commandLineOptionsToMap(ts.typeAcquisitionDeclarations)); } var _tsconfigRootOptions; function getTsconfigRootOptionsMap() { if (_tsconfigRootOptions === undefined) { _tsconfigRootOptions = { name: undefined, type: "object", elementOptions: commandLineOptionsToMap([ { name: "compilerOptions", type: "object", elementOptions: getCommandLineCompilerOptionsMap(), extraKeyDiagnostics: ts.compilerOptionsDidYouMeanDiagnostics, }, { name: "watchOptions", type: "object", elementOptions: getCommandLineWatchOptionsMap(), extraKeyDiagnostics: watchOptionsDidYouMeanDiagnostics, }, { name: "typingOptions", type: "object", elementOptions: getCommandLineTypeAcquisitionMap(), extraKeyDiagnostics: typeAcquisitionDidYouMeanDiagnostics, }, { name: "typeAcquisition", type: "object", elementOptions: getCommandLineTypeAcquisitionMap(), extraKeyDiagnostics: typeAcquisitionDidYouMeanDiagnostics }, { name: "extends", type: "string" }, { name: "references", type: "list", element: { name: "references", type: "object" } }, { name: "files", type: "list", element: { name: "files", type: "string" } }, { name: "include", type: "list", element: { name: "include", type: "string" } }, { name: "exclude", type: "list", element: { name: "exclude", type: "string" } }, ts.compileOnSaveCommandLineOption ]) }; } return _tsconfigRootOptions; } /** * Convert the json syntax tree into the json value */ function convertToObject(sourceFile, errors) { return convertToObjectWorker(sourceFile, errors, /*returnValue*/ true, /*knownRootOptions*/ undefined, /*jsonConversionNotifier*/ undefined); } ts.convertToObject = convertToObject; /** * Convert the json syntax tree into the json value and report errors * This returns the json value (apart from checking errors) only if returnValue provided is true. * Otherwise it just checks the errors and returns undefined */ /*@internal*/ function convertToObjectWorker(sourceFile, errors, returnValue, knownRootOptions, jsonConversionNotifier) { if (!sourceFile.statements.length) { return returnValue ? {} : undefined; } return convertPropertyValueToJson(sourceFile.statements[0].expression, knownRootOptions); function isRootOptionMap(knownOptions) { return knownRootOptions && knownRootOptions.elementOptions === knownOptions; } function convertObjectLiteralExpressionToJson(node, knownOptions, extraKeyDiagnostics, parentOption) { var result = returnValue ? {} : undefined; var _loop_3 = function (element) { if (element.kind !== 281 /* PropertyAssignment */) { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, element, ts.Diagnostics.Property_assignment_expected)); return "continue"; } if (element.questionToken) { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, element.questionToken, ts.Diagnostics.The_0_modifier_can_only_be_used_in_TypeScript_files, "?")); } if (!isDoubleQuotedString(element.name)) { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, element.name, ts.Diagnostics.String_literal_with_double_quotes_expected)); } var textOfKey = ts.isComputedNonLiteralName(element.name) ? undefined : ts.getTextOfPropertyName(element.name); var keyText = textOfKey && ts.unescapeLeadingUnderscores(textOfKey); var option = keyText && knownOptions ? knownOptions.get(keyText) : undefined; if (keyText && extraKeyDiagnostics && !option) { if (knownOptions) { errors.push(createUnknownOptionError(keyText, extraKeyDiagnostics, function (message, arg0, arg1) { return ts.createDiagnosticForNodeInSourceFile(sourceFile, element.name, message, arg0, arg1); })); } else { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, element.name, extraKeyDiagnostics.unknownOptionDiagnostic, keyText)); } } var value = convertPropertyValueToJson(element.initializer, option); if (typeof keyText !== "undefined") { if (returnValue) { result[keyText] = value; } // Notify key value set, if user asked for it if (jsonConversionNotifier && // Current callbacks are only on known parent option or if we are setting values in the root (parentOption || isRootOptionMap(knownOptions))) { var isValidOptionValue = isCompilerOptionsValue(option, value); if (parentOption) { if (isValidOptionValue) { // Notify option set in the parent if its a valid option value jsonConversionNotifier.onSetValidOptionKeyValueInParent(parentOption, option, value); } } else if (isRootOptionMap(knownOptions)) { if (isValidOptionValue) { // Notify about the valid root key value being set jsonConversionNotifier.onSetValidOptionKeyValueInRoot(keyText, element.name, value, element.initializer); } else if (!option) { // Notify about the unknown root key value being set jsonConversionNotifier.onSetUnknownOptionKeyValueInRoot(keyText, element.name, value, element.initializer); } } } } }; for (var _i = 0, _a = node.properties; _i < _a.length; _i++) { var element = _a[_i]; _loop_3(element); } return result; } function convertArrayLiteralExpressionToJson(elements, elementOption) { if (!returnValue) { return elements.forEach(function (element) { return convertPropertyValueToJson(element, elementOption); }); } // Filter out invalid values return ts.filter(elements.map(function (element) { return convertPropertyValueToJson(element, elementOption); }), function (v) { return v !== undefined; }); } function convertPropertyValueToJson(valueExpression, option) { switch (valueExpression.kind) { case 106 /* TrueKeyword */: reportInvalidOptionValue(option && option.type !== "boolean"); return true; case 91 /* FalseKeyword */: reportInvalidOptionValue(option && option.type !== "boolean"); return false; case 100 /* NullKeyword */: reportInvalidOptionValue(option && option.name === "extends"); // "extends" is the only option we don't allow null/undefined for return null; // eslint-disable-line no-null/no-null case 10 /* StringLiteral */: if (!isDoubleQuotedString(valueExpression)) { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, valueExpression, ts.Diagnostics.String_literal_with_double_quotes_expected)); } reportInvalidOptionValue(option && (ts.isString(option.type) && option.type !== "string")); var text = valueExpression.text; if (option && !ts.isString(option.type)) { var customOption = option; // Validate custom option type if (!customOption.type.has(text.toLowerCase())) { errors.push(createDiagnosticForInvalidCustomType(customOption, function (message, arg0, arg1) { return ts.createDiagnosticForNodeInSourceFile(sourceFile, valueExpression, message, arg0, arg1); })); } } return text; case 8 /* NumericLiteral */: reportInvalidOptionValue(option && option.type !== "number"); return Number(valueExpression.text); case 207 /* PrefixUnaryExpression */: if (valueExpression.operator !== 40 /* MinusToken */ || valueExpression.operand.kind !== 8 /* NumericLiteral */) { break; // not valid JSON syntax } reportInvalidOptionValue(option && option.type !== "number"); return -Number(valueExpression.operand.text); case 193 /* ObjectLiteralExpression */: reportInvalidOptionValue(option && option.type !== "object"); var objectLiteralExpression = valueExpression; // Currently having element option declaration in the tsconfig with type "object" // determines if it needs onSetValidOptionKeyValueInParent callback or not // At moment there are only "compilerOptions", "typeAcquisition" and "typingOptions" // that satifies it and need it to modify options set in them (for normalizing file paths) // vs what we set in the json // If need arises, we can modify this interface and callbacks as needed if (option) { var _a = option, elementOptions = _a.elementOptions, extraKeyDiagnostics = _a.extraKeyDiagnostics, optionName = _a.name; return convertObjectLiteralExpressionToJson(objectLiteralExpression, elementOptions, extraKeyDiagnostics, optionName); } else { return convertObjectLiteralExpressionToJson(objectLiteralExpression, /* knownOptions*/ undefined, /*extraKeyDiagnosticMessage */ undefined, /*parentOption*/ undefined); } case 192 /* ArrayLiteralExpression */: reportInvalidOptionValue(option && option.type !== "list"); return convertArrayLiteralExpressionToJson(valueExpression.elements, option && option.element); } // Not in expected format if (option) { reportInvalidOptionValue(/*isError*/ true); } else { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, valueExpression, ts.Diagnostics.Property_value_can_only_be_string_literal_numeric_literal_true_false_null_object_literal_or_array_literal)); } return undefined; function reportInvalidOptionValue(isError) { if (isError) { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, valueExpression, ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, option.name, getCompilerOptionValueTypeString(option))); } } } function isDoubleQuotedString(node) { return ts.isStringLiteral(node) && ts.isStringDoubleQuoted(node, sourceFile); } } ts.convertToObjectWorker = convertToObjectWorker; function getCompilerOptionValueTypeString(option) { return option.type === "list" ? "Array" : ts.isString(option.type) ? option.type : "string"; } function isCompilerOptionsValue(option, value) { if (option) { if (isNullOrUndefined(value)) return true; // All options are undefinable/nullable if (option.type === "list") { return ts.isArray(value); } var expectedType = ts.isString(option.type) ? option.type : "string"; return typeof value === expectedType; } return false; } /** * Generate an uncommented, complete tsconfig for use with "--showConfig" * @param configParseResult options to be generated into tsconfig.json * @param configFileName name of the parsed config file - output paths will be generated relative to this * @param host provides current directory and case sensitivity services */ /** @internal */ function convertToTSConfig(configParseResult, configFileName, host) { var getCanonicalFileName = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames); var files = ts.map(ts.filter(configParseResult.fileNames, (!configParseResult.configFileSpecs || !configParseResult.configFileSpecs.validatedIncludeSpecs) ? function (_) { return true; } : matchesSpecs(configFileName, configParseResult.configFileSpecs.validatedIncludeSpecs, configParseResult.configFileSpecs.validatedExcludeSpecs, host)), function (f) { return ts.getRelativePathFromFile(ts.getNormalizedAbsolutePath(configFileName, host.getCurrentDirectory()), ts.getNormalizedAbsolutePath(f, host.getCurrentDirectory()), getCanonicalFileName); }); var optionMap = serializeCompilerOptions(configParseResult.options, { configFilePath: ts.getNormalizedAbsolutePath(configFileName, host.getCurrentDirectory()), useCaseSensitiveFileNames: host.useCaseSensitiveFileNames }); var watchOptionMap = configParseResult.watchOptions && serializeWatchOptions(configParseResult.watchOptions); var config = __assign(__assign({ compilerOptions: __assign(__assign({}, optionMapToObject(optionMap)), { showConfig: undefined, configFile: undefined, configFilePath: undefined, help: undefined, init: undefined, listFiles: undefined, listEmittedFiles: undefined, project: undefined, build: undefined, version: undefined }), watchOptions: watchOptionMap && optionMapToObject(watchOptionMap), references: ts.map(configParseResult.projectReferences, function (r) { return (__assign(__assign({}, r), { path: r.originalPath ? r.originalPath : "", originalPath: undefined })); }), files: ts.length(files) ? files : undefined }, (configParseResult.configFileSpecs ? { include: filterSameAsDefaultInclude(configParseResult.configFileSpecs.validatedIncludeSpecs), exclude: configParseResult.configFileSpecs.validatedExcludeSpecs } : {})), { compileOnSave: !!configParseResult.compileOnSave ? true : undefined }); return config; } ts.convertToTSConfig = convertToTSConfig; function optionMapToObject(optionMap) { return __assign({}, ts.arrayFrom(optionMap.entries()).reduce(function (prev, cur) { var _a; return (__assign(__assign({}, prev), (_a = {}, _a[cur[0]] = cur[1], _a))); }, {})); } function filterSameAsDefaultInclude(specs) { if (!ts.length(specs)) return undefined; if (ts.length(specs) !== 1) return specs; if (specs[0] === "**/*") return undefined; return specs; } function matchesSpecs(path, includeSpecs, excludeSpecs, host) { if (!includeSpecs) return function (_) { return true; }; var patterns = ts.getFileMatcherPatterns(path, excludeSpecs, includeSpecs, host.useCaseSensitiveFileNames, host.getCurrentDirectory()); var excludeRe = patterns.excludePattern && ts.getRegexFromPattern(patterns.excludePattern, host.useCaseSensitiveFileNames); var includeRe = patterns.includeFilePattern && ts.getRegexFromPattern(patterns.includeFilePattern, host.useCaseSensitiveFileNames); if (includeRe) { if (excludeRe) { return function (path) { return !(includeRe.test(path) && !excludeRe.test(path)); }; } return function (path) { return !includeRe.test(path); }; } if (excludeRe) { return function (path) { return excludeRe.test(path); }; } return function (_) { return true; }; } function getCustomTypeMapOfCommandLineOption(optionDefinition) { if (optionDefinition.type === "string" || optionDefinition.type === "number" || optionDefinition.type === "boolean" || optionDefinition.type === "object") { // this is of a type CommandLineOptionOfPrimitiveType return undefined; } else if (optionDefinition.type === "list") { return getCustomTypeMapOfCommandLineOption(optionDefinition.element); } else { return optionDefinition.type; } } function getNameOfCompilerOptionValue(value, customTypeMap) { // There is a typeMap associated with this command-line option so use it to map value back to its name return ts.forEachEntry(customTypeMap, function (mapValue, key) { if (mapValue === value) { return key; } }); } function serializeCompilerOptions(options, pathOptions) { return serializeOptionBaseObject(options, getOptionsNameMap(), pathOptions); } function serializeWatchOptions(options) { return serializeOptionBaseObject(options, getWatchOptionsNameMap()); } function serializeOptionBaseObject(options, _a, pathOptions) { var optionsNameMap = _a.optionsNameMap; var result = ts.createMap(); var getCanonicalFileName = pathOptions && ts.createGetCanonicalFileName(pathOptions.useCaseSensitiveFileNames); var _loop_4 = function (name) { if (ts.hasProperty(options, name)) { // tsconfig only options cannot be specified via command line, // so we can assume that only types that can appear here string | number | boolean if (optionsNameMap.has(name) && optionsNameMap.get(name).category === ts.Diagnostics.Command_line_Options) { return "continue"; } var value = options[name]; var optionDefinition = optionsNameMap.get(name.toLowerCase()); if (optionDefinition) { var customTypeMap_1 = getCustomTypeMapOfCommandLineOption(optionDefinition); if (!customTypeMap_1) { // There is no map associated with this compiler option then use the value as-is // This is the case if the value is expect to be string, number, boolean or list of string if (pathOptions && optionDefinition.isFilePath) { result.set(name, ts.getRelativePathFromFile(pathOptions.configFilePath, ts.getNormalizedAbsolutePath(value, ts.getDirectoryPath(pathOptions.configFilePath)), getCanonicalFileName)); } else { result.set(name, value); } } else { if (optionDefinition.type === "list") { result.set(name, value.map(function (element) { return getNameOfCompilerOptionValue(element, customTypeMap_1); })); // TODO: GH#18217 } else { // There is a typeMap associated with this command-line option so use it to map value back to its name result.set(name, getNameOfCompilerOptionValue(value, customTypeMap_1)); } } } } }; for (var name in options) { _loop_4(name); } return result; } /** * Generate tsconfig configuration when running command line "--init" * @param options commandlineOptions to be generated into tsconfig.json * @param fileNames array of filenames to be generated into tsconfig.json */ /* @internal */ function generateTSConfig(options, fileNames, newLine) { var compilerOptions = ts.extend(options, ts.defaultInitCompilerOptions); var compilerOptionsMap = serializeCompilerOptions(compilerOptions); return writeConfigurations(); function getDefaultValueForOption(option) { switch (option.type) { case "number": return 1; case "boolean": return true; case "string": return option.isFilePath ? "./" : ""; case "list": return []; case "object": return {}; default: var iterResult = option.type.keys().next(); if (!iterResult.done) return iterResult.value; return ts.Debug.fail("Expected 'option.type' to have entries."); } } function makePadding(paddingLength) { return Array(paddingLength + 1).join(" "); } function isAllowedOption(_a) { var category = _a.category, name = _a.name; // Skip options which do not have a category or have category `Command_line_Options` // Exclude all possible `Advanced_Options` in tsconfig.json which were NOT defined in command line return category !== undefined && category !== ts.Diagnostics.Command_line_Options && (category !== ts.Diagnostics.Advanced_Options || compilerOptionsMap.has(name)); } function writeConfigurations() { // Filter applicable options to place in the file var categorizedOptions = ts.createMultiMap(); for (var _i = 0, optionDeclarations_1 = ts.optionDeclarations; _i < optionDeclarations_1.length; _i++) { var option = optionDeclarations_1[_i]; var category = option.category; if (isAllowedOption(option)) { categorizedOptions.add(ts.getLocaleSpecificMessage(category), option); } } // Serialize all options and their descriptions var marginLength = 0; var seenKnownKeys = 0; var entries = []; categorizedOptions.forEach(function (options, category) { if (entries.length !== 0) { entries.push({ value: "" }); } entries.push({ value: "/* " + category + " */" }); for (var _i = 0, options_1 = options; _i < options_1.length; _i++) { var option = options_1[_i]; var optionName = void 0; if (compilerOptionsMap.has(option.name)) { optionName = "\"" + option.name + "\": " + JSON.stringify(compilerOptionsMap.get(option.name)) + ((seenKnownKeys += 1) === compilerOptionsMap.size ? "" : ","); } else { optionName = "// \"" + option.name + "\": " + JSON.stringify(getDefaultValueForOption(option)) + ","; } entries.push({ value: optionName, description: "/* " + (option.description && ts.getLocaleSpecificMessage(option.description) || option.name) + " */" }); marginLength = Math.max(optionName.length, marginLength); } }); // Write the output var tab = makePadding(2); var result = []; result.push("{"); result.push(tab + "\"compilerOptions\": {"); result.push("" + tab + tab + "/* " + ts.getLocaleSpecificMessage(ts.Diagnostics.Visit_https_Colon_Slash_Slashaka_ms_Slashtsconfig_json_to_read_more_about_this_file) + " */"); result.push(""); // Print out each row, aligning all the descriptions on the same column. for (var _a = 0, entries_3 = entries; _a < entries_3.length; _a++) { var entry = entries_3[_a]; var value = entry.value, _b = entry.description, description = _b === void 0 ? "" : _b; result.push(value && "" + tab + tab + value + (description && (makePadding(marginLength - value.length + 2) + description))); } if (fileNames.length) { result.push(tab + "},"); result.push(tab + "\"files\": ["); for (var i = 0; i < fileNames.length; i++) { result.push("" + tab + tab + JSON.stringify(fileNames[i]) + (i === fileNames.length - 1 ? "" : ",")); } result.push(tab + "]"); } else { result.push(tab + "}"); } result.push("}"); return result.join(newLine) + newLine; } } ts.generateTSConfig = generateTSConfig; /* @internal */ function convertToOptionsWithAbsolutePaths(options, toAbsolutePath) { var result = {}; var optionsNameMap = getOptionsNameMap().optionsNameMap; for (var name in options) { if (ts.hasProperty(options, name)) { result[name] = convertToOptionValueWithAbsolutePaths(optionsNameMap.get(name.toLowerCase()), options[name], toAbsolutePath); } } if (result.configFilePath) { result.configFilePath = toAbsolutePath(result.configFilePath); } return result; } ts.convertToOptionsWithAbsolutePaths = convertToOptionsWithAbsolutePaths; function convertToOptionValueWithAbsolutePaths(option, value, toAbsolutePath) { if (option && !isNullOrUndefined(value)) { if (option.type === "list") { var values = value; if (option.element.isFilePath && values.length) { return values.map(toAbsolutePath); } } else if (option.isFilePath) { return toAbsolutePath(value); } } return value; } /** * Parse the contents of a config file (tsconfig.json). * @param json The contents of the config file to parse * @param host Instance of ParseConfigHost used to enumerate files in folder. * @param basePath A root directory to resolve relative path entries in the config * file to. e.g. outDir */ function parseJsonConfigFileContent(json, host, basePath, existingOptions, configFileName, resolutionStack, extraFileExtensions, extendedConfigCache, existingWatchOptions) { return parseJsonConfigFileContentWorker(json, /*sourceFile*/ undefined, host, basePath, existingOptions, existingWatchOptions, configFileName, resolutionStack, extraFileExtensions, extendedConfigCache); } ts.parseJsonConfigFileContent = parseJsonConfigFileContent; /** * Parse the contents of a config file (tsconfig.json). * @param jsonNode The contents of the config file to parse * @param host Instance of ParseConfigHost used to enumerate files in folder. * @param basePath A root directory to resolve relative path entries in the config * file to. e.g. outDir */ function parseJsonSourceFileConfigFileContent(sourceFile, host, basePath, existingOptions, configFileName, resolutionStack, extraFileExtensions, extendedConfigCache, existingWatchOptions) { return parseJsonConfigFileContentWorker(/*json*/ undefined, sourceFile, host, basePath, existingOptions, existingWatchOptions, configFileName, resolutionStack, extraFileExtensions, extendedConfigCache); } ts.parseJsonSourceFileConfigFileContent = parseJsonSourceFileConfigFileContent; /*@internal*/ function setConfigFileInOptions(options, configFile) { if (configFile) { Object.defineProperty(options, "configFile", { enumerable: false, writable: false, value: configFile }); } } ts.setConfigFileInOptions = setConfigFileInOptions; function isNullOrUndefined(x) { return x === undefined || x === null; // eslint-disable-line no-null/no-null } function directoryOfCombinedPath(fileName, basePath) { // Use the `getNormalizedAbsolutePath` function to avoid canonicalizing the path, as it must remain noncanonical // until consistent casing errors are reported return ts.getDirectoryPath(ts.getNormalizedAbsolutePath(fileName, basePath)); } /** * Parse the contents of a config file from json or json source file (tsconfig.json). * @param json The contents of the config file to parse * @param sourceFile sourceFile corresponding to the Json * @param host Instance of ParseConfigHost used to enumerate files in folder. * @param basePath A root directory to resolve relative path entries in the config * file to. e.g. outDir * @param resolutionStack Only present for backwards-compatibility. Should be empty. */ function parseJsonConfigFileContentWorker(json, sourceFile, host, basePath, existingOptions, existingWatchOptions, configFileName, resolutionStack, extraFileExtensions, extendedConfigCache) { if (existingOptions === void 0) { existingOptions = {}; } if (resolutionStack === void 0) { resolutionStack = []; } if (extraFileExtensions === void 0) { extraFileExtensions = []; } ts.Debug.assert((json === undefined && sourceFile !== undefined) || (json !== undefined && sourceFile === undefined)); var errors = []; var parsedConfig = parseConfig(json, sourceFile, host, basePath, configFileName, resolutionStack, errors, extendedConfigCache); var raw = parsedConfig.raw; var options = ts.extend(existingOptions, parsedConfig.options || {}); var watchOptions = existingWatchOptions && parsedConfig.watchOptions ? ts.extend(existingWatchOptions, parsedConfig.watchOptions) : parsedConfig.watchOptions || existingWatchOptions; options.configFilePath = configFileName && ts.normalizeSlashes(configFileName); setConfigFileInOptions(options, sourceFile); var projectReferences; var _a = getFileNames(), fileNames = _a.fileNames, wildcardDirectories = _a.wildcardDirectories, spec = _a.spec; return { options: options, watchOptions: watchOptions, fileNames: fileNames, projectReferences: projectReferences, typeAcquisition: parsedConfig.typeAcquisition || getDefaultTypeAcquisition(), raw: raw, errors: errors, wildcardDirectories: wildcardDirectories, compileOnSave: !!raw.compileOnSave, configFileSpecs: spec }; function getFileNames() { var filesSpecs; if (ts.hasProperty(raw, "files") && !isNullOrUndefined(raw.files)) { if (ts.isArray(raw.files)) { filesSpecs = raw.files; var hasReferences = ts.hasProperty(raw, "references") && !isNullOrUndefined(raw.references); var hasZeroOrNoReferences = !hasReferences || raw.references.length === 0; var hasExtends = ts.hasProperty(raw, "extends"); if (filesSpecs.length === 0 && hasZeroOrNoReferences && !hasExtends) { if (sourceFile) { var fileName = configFileName || "tsconfig.json"; var diagnosticMessage = ts.Diagnostics.The_files_list_in_config_file_0_is_empty; var nodeValue = ts.firstDefined(ts.getTsConfigPropArray(sourceFile, "files"), function (property) { return property.initializer; }); var error = nodeValue ? ts.createDiagnosticForNodeInSourceFile(sourceFile, nodeValue, diagnosticMessage, fileName) : ts.createCompilerDiagnostic(diagnosticMessage, fileName); errors.push(error); } else { createCompilerDiagnosticOnlyIfJson(ts.Diagnostics.The_files_list_in_config_file_0_is_empty, configFileName || "tsconfig.json"); } } } else { createCompilerDiagnosticOnlyIfJson(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, "files", "Array"); } } var includeSpecs; if (ts.hasProperty(raw, "include") && !isNullOrUndefined(raw.include)) { if (ts.isArray(raw.include)) { includeSpecs = raw.include; } else { createCompilerDiagnosticOnlyIfJson(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, "include", "Array"); } } var excludeSpecs; if (ts.hasProperty(raw, "exclude") && !isNullOrUndefined(raw.exclude)) { if (ts.isArray(raw.exclude)) { excludeSpecs = raw.exclude; } else { createCompilerDiagnosticOnlyIfJson(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, "exclude", "Array"); } } else if (raw.compilerOptions) { var outDir = raw.compilerOptions.outDir; var declarationDir = raw.compilerOptions.declarationDir; if (outDir || declarationDir) { excludeSpecs = [outDir, declarationDir].filter(function (d) { return !!d; }); } } if (filesSpecs === undefined && includeSpecs === undefined) { includeSpecs = ["**/*"]; } var result = matchFileNames(filesSpecs, includeSpecs, excludeSpecs, configFileName ? directoryOfCombinedPath(configFileName, basePath) : basePath, options, host, errors, extraFileExtensions, sourceFile); if (shouldReportNoInputFiles(result, canJsonReportNoInutFiles(raw), resolutionStack)) { errors.push(getErrorForNoInputFiles(result.spec, configFileName)); } if (ts.hasProperty(raw, "references") && !isNullOrUndefined(raw.references)) { if (ts.isArray(raw.references)) { for (var _i = 0, _a = raw.references; _i < _a.length; _i++) { var ref = _a[_i]; if (typeof ref.path !== "string") { createCompilerDiagnosticOnlyIfJson(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, "reference.path", "string"); } else { (projectReferences || (projectReferences = [])).push({ path: ts.getNormalizedAbsolutePath(ref.path, basePath), originalPath: ref.path, prepend: ref.prepend, circular: ref.circular }); } } } else { createCompilerDiagnosticOnlyIfJson(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, "references", "Array"); } } return result; } function createCompilerDiagnosticOnlyIfJson(message, arg0, arg1) { if (!sourceFile) { errors.push(ts.createCompilerDiagnostic(message, arg0, arg1)); } } } function isErrorNoInputFiles(error) { return error.code === ts.Diagnostics.No_inputs_were_found_in_config_file_0_Specified_include_paths_were_1_and_exclude_paths_were_2.code; } function getErrorForNoInputFiles(_a, configFileName) { var includeSpecs = _a.includeSpecs, excludeSpecs = _a.excludeSpecs; return ts.createCompilerDiagnostic(ts.Diagnostics.No_inputs_were_found_in_config_file_0_Specified_include_paths_were_1_and_exclude_paths_were_2, configFileName || "tsconfig.json", JSON.stringify(includeSpecs || []), JSON.stringify(excludeSpecs || [])); } function shouldReportNoInputFiles(result, canJsonReportNoInutFiles, resolutionStack) { return result.fileNames.length === 0 && canJsonReportNoInutFiles && (!resolutionStack || resolutionStack.length === 0); } /*@internal*/ function canJsonReportNoInutFiles(raw) { return !ts.hasProperty(raw, "files") && !ts.hasProperty(raw, "references"); } ts.canJsonReportNoInutFiles = canJsonReportNoInutFiles; /*@internal*/ function updateErrorForNoInputFiles(result, configFileName, configFileSpecs, configParseDiagnostics, canJsonReportNoInutFiles) { var existingErrors = configParseDiagnostics.length; if (shouldReportNoInputFiles(result, canJsonReportNoInutFiles)) { configParseDiagnostics.push(getErrorForNoInputFiles(configFileSpecs, configFileName)); } else { ts.filterMutate(configParseDiagnostics, function (error) { return !isErrorNoInputFiles(error); }); } return existingErrors !== configParseDiagnostics.length; } ts.updateErrorForNoInputFiles = updateErrorForNoInputFiles; function isSuccessfulParsedTsconfig(value) { return !!value.options; } /** * This *just* extracts options/include/exclude/files out of a config file. * It does *not* resolve the included files. */ function parseConfig(json, sourceFile, host, basePath, configFileName, resolutionStack, errors, extendedConfigCache) { basePath = ts.normalizeSlashes(basePath); var resolvedPath = ts.getNormalizedAbsolutePath(configFileName || "", basePath); if (resolutionStack.indexOf(resolvedPath) >= 0) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Circularity_detected_while_resolving_configuration_Colon_0, __spreadArrays(resolutionStack, [resolvedPath]).join(" -> "))); return { raw: json || convertToObject(sourceFile, errors) }; } var ownConfig = json ? parseOwnConfigOfJson(json, host, basePath, configFileName, errors) : parseOwnConfigOfJsonSourceFile(sourceFile, host, basePath, configFileName, errors); if (ownConfig.extendedConfigPath) { // copy the resolution stack so it is never reused between branches in potential diamond-problem scenarios. resolutionStack = resolutionStack.concat([resolvedPath]); var extendedConfig = getExtendedConfig(sourceFile, ownConfig.extendedConfigPath, host, basePath, resolutionStack, errors, extendedConfigCache); if (extendedConfig && isSuccessfulParsedTsconfig(extendedConfig)) { var baseRaw_1 = extendedConfig.raw; var raw_1 = ownConfig.raw; var setPropertyInRawIfNotUndefined = function (propertyName) { var value = raw_1[propertyName] || baseRaw_1[propertyName]; if (value) { raw_1[propertyName] = value; } }; setPropertyInRawIfNotUndefined("include"); setPropertyInRawIfNotUndefined("exclude"); setPropertyInRawIfNotUndefined("files"); if (raw_1.compileOnSave === undefined) { raw_1.compileOnSave = baseRaw_1.compileOnSave; } ownConfig.options = ts.assign({}, extendedConfig.options, ownConfig.options); ownConfig.watchOptions = ownConfig.watchOptions && extendedConfig.watchOptions ? ts.assign({}, extendedConfig.watchOptions, ownConfig.watchOptions) : ownConfig.watchOptions || extendedConfig.watchOptions; // TODO extend type typeAcquisition } } return ownConfig; } function parseOwnConfigOfJson(json, host, basePath, configFileName, errors) { if (ts.hasProperty(json, "excludes")) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Unknown_option_excludes_Did_you_mean_exclude)); } var options = convertCompilerOptionsFromJsonWorker(json.compilerOptions, basePath, errors, configFileName); // typingOptions has been deprecated and is only supported for backward compatibility purposes. // It should be removed in future releases - use typeAcquisition instead. var typeAcquisition = convertTypeAcquisitionFromJsonWorker(json.typeAcquisition || json.typingOptions, basePath, errors, configFileName); var watchOptions = convertWatchOptionsFromJsonWorker(json.watchOptions, basePath, errors); json.compileOnSave = convertCompileOnSaveOptionFromJson(json, basePath, errors); var extendedConfigPath; if (json.extends) { if (!ts.isString(json.extends)) { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, "extends", "string")); } else { var newBase = configFileName ? directoryOfCombinedPath(configFileName, basePath) : basePath; extendedConfigPath = getExtendsConfigPath(json.extends, host, newBase, errors, ts.createCompilerDiagnostic); } } return { raw: json, options: options, watchOptions: watchOptions, typeAcquisition: typeAcquisition, extendedConfigPath: extendedConfigPath }; } function parseOwnConfigOfJsonSourceFile(sourceFile, host, basePath, configFileName, errors) { var options = getDefaultCompilerOptions(configFileName); var typeAcquisition, typingOptionstypeAcquisition; var watchOptions; var extendedConfigPath; var optionsIterator = { onSetValidOptionKeyValueInParent: function (parentOption, option, value) { var currentOption; switch (parentOption) { case "compilerOptions": currentOption = options; break; case "watchOptions": currentOption = (watchOptions || (watchOptions = {})); break; case "typeAcquisition": currentOption = (typeAcquisition || (typeAcquisition = getDefaultTypeAcquisition(configFileName))); break; case "typingOptions": currentOption = (typingOptionstypeAcquisition || (typingOptionstypeAcquisition = getDefaultTypeAcquisition(configFileName))); break; default: ts.Debug.fail("Unknown option"); } currentOption[option.name] = normalizeOptionValue(option, basePath, value); }, onSetValidOptionKeyValueInRoot: function (key, _keyNode, value, valueNode) { switch (key) { case "extends": var newBase = configFileName ? directoryOfCombinedPath(configFileName, basePath) : basePath; extendedConfigPath = getExtendsConfigPath(value, host, newBase, errors, function (message, arg0) { return ts.createDiagnosticForNodeInSourceFile(sourceFile, valueNode, message, arg0); }); return; } }, onSetUnknownOptionKeyValueInRoot: function (key, keyNode, _value, _valueNode) { if (key === "excludes") { errors.push(ts.createDiagnosticForNodeInSourceFile(sourceFile, keyNode, ts.Diagnostics.Unknown_option_excludes_Did_you_mean_exclude)); } } }; var json = convertToObjectWorker(sourceFile, errors, /*returnValue*/ true, getTsconfigRootOptionsMap(), optionsIterator); if (!typeAcquisition) { if (typingOptionstypeAcquisition) { typeAcquisition = (typingOptionstypeAcquisition.enableAutoDiscovery !== undefined) ? { enable: typingOptionstypeAcquisition.enableAutoDiscovery, include: typingOptionstypeAcquisition.include, exclude: typingOptionstypeAcquisition.exclude } : typingOptionstypeAcquisition; } else { typeAcquisition = getDefaultTypeAcquisition(configFileName); } } return { raw: json, options: options, watchOptions: watchOptions, typeAcquisition: typeAcquisition, extendedConfigPath: extendedConfigPath }; } function getExtendsConfigPath(extendedConfig, host, basePath, errors, createDiagnostic) { extendedConfig = ts.normalizeSlashes(extendedConfig); if (ts.isRootedDiskPath(extendedConfig) || ts.startsWith(extendedConfig, "./") || ts.startsWith(extendedConfig, "../")) { var extendedConfigPath = ts.getNormalizedAbsolutePath(extendedConfig, basePath); if (!host.fileExists(extendedConfigPath) && !ts.endsWith(extendedConfigPath, ".json" /* Json */)) { extendedConfigPath = extendedConfigPath + ".json"; if (!host.fileExists(extendedConfigPath)) { errors.push(createDiagnostic(ts.Diagnostics.File_0_not_found, extendedConfig)); return undefined; } } return extendedConfigPath; } // If the path isn't a rooted or relative path, resolve like a module var resolved = ts.nodeModuleNameResolver(extendedConfig, ts.combinePaths(basePath, "tsconfig.json"), { moduleResolution: ts.ModuleResolutionKind.NodeJs }, host, /*cache*/ undefined, /*projectRefs*/ undefined, /*lookupConfig*/ true); if (resolved.resolvedModule) { return resolved.resolvedModule.resolvedFileName; } errors.push(createDiagnostic(ts.Diagnostics.File_0_not_found, extendedConfig)); return undefined; } function getExtendedConfig(sourceFile, extendedConfigPath, host, basePath, resolutionStack, errors, extendedConfigCache) { var _a; var path = host.useCaseSensitiveFileNames ? extendedConfigPath : ts.toFileNameLowerCase(extendedConfigPath); var value; var extendedResult; var extendedConfig; if (extendedConfigCache && (value = extendedConfigCache.get(path))) { (extendedResult = value.extendedResult, extendedConfig = value.extendedConfig); } else { extendedResult = readJsonConfigFile(extendedConfigPath, function (path) { return host.readFile(path); }); if (!extendedResult.parseDiagnostics.length) { var extendedDirname = ts.getDirectoryPath(extendedConfigPath); extendedConfig = parseConfig(/*json*/ undefined, extendedResult, host, extendedDirname, ts.getBaseFileName(extendedConfigPath), resolutionStack, errors, extendedConfigCache); if (isSuccessfulParsedTsconfig(extendedConfig)) { // Update the paths to reflect base path var relativeDifference_1 = ts.convertToRelativePath(extendedDirname, basePath, ts.identity); var updatePath_1 = function (path) { return ts.isRootedDiskPath(path) ? path : ts.combinePaths(relativeDifference_1, path); }; var mapPropertiesInRawIfNotUndefined = function (propertyName) { if (raw_2[propertyName]) { raw_2[propertyName] = ts.map(raw_2[propertyName], updatePath_1); } }; var raw_2 = extendedConfig.raw; mapPropertiesInRawIfNotUndefined("include"); mapPropertiesInRawIfNotUndefined("exclude"); mapPropertiesInRawIfNotUndefined("files"); } } if (extendedConfigCache) { extendedConfigCache.set(path, { extendedResult: extendedResult, extendedConfig: extendedConfig }); } } if (sourceFile) { sourceFile.extendedSourceFiles = [extendedResult.fileName]; if (extendedResult.extendedSourceFiles) { (_a = sourceFile.extendedSourceFiles).push.apply(_a, extendedResult.extendedSourceFiles); } } if (extendedResult.parseDiagnostics.length) { errors.push.apply(errors, extendedResult.parseDiagnostics); return undefined; } return extendedConfig; } function convertCompileOnSaveOptionFromJson(jsonOption, basePath, errors) { if (!ts.hasProperty(jsonOption, ts.compileOnSaveCommandLineOption.name)) { return false; } var result = convertJsonOption(ts.compileOnSaveCommandLineOption, jsonOption.compileOnSave, basePath, errors); return typeof result === "boolean" && result; } function convertCompilerOptionsFromJson(jsonOptions, basePath, configFileName) { var errors = []; var options = convertCompilerOptionsFromJsonWorker(jsonOptions, basePath, errors, configFileName); return { options: options, errors: errors }; } ts.convertCompilerOptionsFromJson = convertCompilerOptionsFromJson; function convertTypeAcquisitionFromJson(jsonOptions, basePath, configFileName) { var errors = []; var options = convertTypeAcquisitionFromJsonWorker(jsonOptions, basePath, errors, configFileName); return { options: options, errors: errors }; } ts.convertTypeAcquisitionFromJson = convertTypeAcquisitionFromJson; function getDefaultCompilerOptions(configFileName) { var options = configFileName && ts.getBaseFileName(configFileName) === "jsconfig.json" ? { allowJs: true, maxNodeModuleJsDepth: 2, allowSyntheticDefaultImports: true, skipLibCheck: true, noEmit: true } : {}; return options; } function convertCompilerOptionsFromJsonWorker(jsonOptions, basePath, errors, configFileName) { var options = getDefaultCompilerOptions(configFileName); convertOptionsFromJson(getCommandLineCompilerOptionsMap(), jsonOptions, basePath, options, ts.compilerOptionsDidYouMeanDiagnostics, errors); if (configFileName) { options.configFilePath = ts.normalizeSlashes(configFileName); } return options; } function getDefaultTypeAcquisition(configFileName) { return { enable: !!configFileName && ts.getBaseFileName(configFileName) === "jsconfig.json", include: [], exclude: [] }; } function convertTypeAcquisitionFromJsonWorker(jsonOptions, basePath, errors, configFileName) { var options = getDefaultTypeAcquisition(configFileName); var typeAcquisition = convertEnableAutoDiscoveryToEnable(jsonOptions); convertOptionsFromJson(getCommandLineTypeAcquisitionMap(), typeAcquisition, basePath, options, typeAcquisitionDidYouMeanDiagnostics, errors); return options; } function convertWatchOptionsFromJsonWorker(jsonOptions, basePath, errors) { return convertOptionsFromJson(getCommandLineWatchOptionsMap(), jsonOptions, basePath, /*defaultOptions*/ undefined, watchOptionsDidYouMeanDiagnostics, errors); } function convertOptionsFromJson(optionsNameMap, jsonOptions, basePath, defaultOptions, diagnostics, errors) { if (!jsonOptions) { return; } for (var id in jsonOptions) { var opt = optionsNameMap.get(id); if (opt) { (defaultOptions || (defaultOptions = {}))[opt.name] = convertJsonOption(opt, jsonOptions[id], basePath, errors); } else { errors.push(createUnknownOptionError(id, diagnostics, ts.createCompilerDiagnostic)); } } return defaultOptions; } function convertJsonOption(opt, value, basePath, errors) { if (isCompilerOptionsValue(opt, value)) { var optType = opt.type; if (optType === "list" && ts.isArray(value)) { return convertJsonOptionOfListType(opt, value, basePath, errors); } else if (!ts.isString(optType)) { return convertJsonOptionOfCustomType(opt, value, errors); } return normalizeNonListOptionValue(opt, basePath, value); } else { errors.push(ts.createCompilerDiagnostic(ts.Diagnostics.Compiler_option_0_requires_a_value_of_type_1, opt.name, getCompilerOptionValueTypeString(opt))); } } function normalizeOptionValue(option, basePath, value) { if (isNullOrUndefined(value)) return undefined; if (option.type === "list") { var listOption_1 = option; if (listOption_1.element.isFilePath || !ts.isString(listOption_1.element.type)) { return ts.filter(ts.map(value, function (v) { return normalizeOptionValue(listOption_1.element, basePath, v); }), function (v) { return !!v; }); } return value; } else if (!ts.isString(option.type)) { return option.type.get(ts.isString(value) ? value.toLowerCase() : value); } return normalizeNonListOptionValue(option, basePath, value); } function normalizeNonListOptionValue(option, basePath, value) { if (option.isFilePath) { value = ts.getNormalizedAbsolutePath(value, basePath); if (value === "") { value = "."; } } return value; } function convertJsonOptionOfCustomType(opt, value, errors) { if (isNullOrUndefined(value)) return undefined; var key = value.toLowerCase(); var val = opt.type.get(key); if (val !== undefined) { return val; } else { errors.push(createCompilerDiagnosticForInvalidCustomType(opt)); } } function convertJsonOptionOfListType(option, values, basePath, errors) { return ts.filter(ts.map(values, function (v) { return convertJsonOption(option.element, v, basePath, errors); }), function (v) { return !!v; }); } function trimString(s) { return typeof s.trim === "function" ? s.trim() : s.replace(/^[\s]+|[\s]+$/g, ""); } /** * Tests for a path that ends in a recursive directory wildcard. * Matches **, \**, **\, and \**\, but not a**b. * * NOTE: used \ in place of / above to avoid issues with multiline comments. * * Breakdown: * (^|\/) # matches either the beginning of the string or a directory separator. * \*\* # matches the recursive directory wildcard "**". * \/?$ # matches an optional trailing directory separator at the end of the string. */ var invalidTrailingRecursionPattern = /(^|\/)\*\*\/?$/; /** * Tests for a path where .. appears after a recursive directory wildcard. * Matches **\..\*, **\a\..\*, and **\.., but not ..\**\* * * NOTE: used \ in place of / above to avoid issues with multiline comments. * * Breakdown: * (^|\/) # matches either the beginning of the string or a directory separator. * \*\*\/ # matches a recursive directory wildcard "**" followed by a directory separator. * (.*\/)? # optionally matches any number of characters followed by a directory separator. * \.\. # matches a parent directory path component ".." * ($|\/) # matches either the end of the string or a directory separator. */ var invalidDotDotAfterRecursiveWildcardPattern = /(^|\/)\*\*\/(.*\/)?\.\.($|\/)/; /** * Tests for a path containing a wildcard character in a directory component of the path. * Matches \*\, \?\, and \a*b\, but not \a\ or \a\*. * * NOTE: used \ in place of / above to avoid issues with multiline comments. * * Breakdown: * \/ # matches a directory separator. * [^/]*? # matches any number of characters excluding directory separators (non-greedy). * [*?] # matches either a wildcard character (* or ?) * [^/]* # matches any number of characters excluding directory separators (greedy). * \/ # matches a directory separator. */ var watchRecursivePattern = /\/[^/]*?[*?][^/]*\//; /** * Matches the portion of a wildcard path that does not contain wildcards. * Matches \a of \a\*, or \a\b\c of \a\b\c\?\d. * * NOTE: used \ in place of / above to avoid issues with multiline comments. * * Breakdown: * ^ # matches the beginning of the string * [^*?]* # matches any number of non-wildcard characters * (?=\/[^/]*[*?]) # lookahead that matches a directory separator followed by * # a path component that contains at least one wildcard character (* or ?). */ var wildcardDirectoryPattern = /^[^*?]*(?=\/[^/]*[*?])/; /** * Expands an array of file specifications. * * @param filesSpecs The literal file names to include. * @param includeSpecs The wildcard file specifications to include. * @param excludeSpecs The wildcard file specifications to exclude. * @param basePath The base path for any relative file specifications. * @param options Compiler options. * @param host The host used to resolve files and directories. * @param errors An array for diagnostic reporting. */ function matchFileNames(filesSpecs, includeSpecs, excludeSpecs, basePath, options, host, errors, extraFileExtensions, jsonSourceFile) { basePath = ts.normalizePath(basePath); var validatedIncludeSpecs, validatedExcludeSpecs; // The exclude spec list is converted into a regular expression, which allows us to quickly // test whether a file or directory should be excluded before recursively traversing the // file system. if (includeSpecs) { validatedIncludeSpecs = validateSpecs(includeSpecs, errors, /*allowTrailingRecursion*/ false, jsonSourceFile, "include"); } if (excludeSpecs) { validatedExcludeSpecs = validateSpecs(excludeSpecs, errors, /*allowTrailingRecursion*/ true, jsonSourceFile, "exclude"); } // Wildcard directories (provided as part of a wildcard path) are stored in a // file map that marks whether it was a regular wildcard match (with a `*` or `?` token), // or a recursive directory. This information is used by filesystem watchers to monitor for // new entries in these paths. var wildcardDirectories = getWildcardDirectories(validatedIncludeSpecs, validatedExcludeSpecs, basePath, host.useCaseSensitiveFileNames); var spec = { filesSpecs: filesSpecs, includeSpecs: includeSpecs, excludeSpecs: excludeSpecs, validatedIncludeSpecs: validatedIncludeSpecs, validatedExcludeSpecs: validatedExcludeSpecs, wildcardDirectories: wildcardDirectories }; return getFileNamesFromConfigSpecs(spec, basePath, options, host, extraFileExtensions); } /** * Gets the file names from the provided config file specs that contain, files, include, exclude and * other properties needed to resolve the file names * @param spec The config file specs extracted with file names to include, wildcards to include/exclude and other details * @param basePath The base path for any relative file specifications. * @param options Compiler options. * @param host The host used to resolve files and directories. * @param extraFileExtensions optionaly file extra file extension information from host */ /* @internal */ function getFileNamesFromConfigSpecs(spec, basePath, options, host, extraFileExtensions) { if (extraFileExtensions === void 0) { extraFileExtensions = []; } basePath = ts.normalizePath(basePath); var keyMapper = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames); // Literal file names (provided via the "files" array in tsconfig.json) are stored in a // file map with a possibly case insensitive key. We use this map later when when including // wildcard paths. var literalFileMap = ts.createMap(); // Wildcard paths (provided via the "includes" array in tsconfig.json) are stored in a // file map with a possibly case insensitive key. We use this map to store paths matched // via wildcard, and to handle extension priority. var wildcardFileMap = ts.createMap(); // Wildcard paths of json files (provided via the "includes" array in tsconfig.json) are stored in a // file map with a possibly case insensitive key. We use this map to store paths matched // via wildcard of *.json kind var wildCardJsonFileMap = ts.createMap(); var filesSpecs = spec.filesSpecs, validatedIncludeSpecs = spec.validatedIncludeSpecs, validatedExcludeSpecs = spec.validatedExcludeSpecs, wildcardDirectories = spec.wildcardDirectories; // Rather than requery this for each file and filespec, we query the supported extensions // once and store it on the expansion context. var supportedExtensions = ts.getSupportedExtensions(options, extraFileExtensions); var supportedExtensionsWithJsonIfResolveJsonModule = ts.getSuppoertedExtensionsWithJsonIfResolveJsonModule(options, supportedExtensions); // Literal files are always included verbatim. An "include" or "exclude" specification cannot // remove a literal file. if (filesSpecs) { for (var _i = 0, filesSpecs_1 = filesSpecs; _i < filesSpecs_1.length; _i++) { var fileName = filesSpecs_1[_i]; var file = ts.getNormalizedAbsolutePath(fileName, basePath); literalFileMap.set(keyMapper(file), file); } } var jsonOnlyIncludeRegexes; if (validatedIncludeSpecs && validatedIncludeSpecs.length > 0) { var _loop_5 = function (file) { if (ts.fileExtensionIs(file, ".json" /* Json */)) { // Valid only if *.json specified if (!jsonOnlyIncludeRegexes) { var includes = validatedIncludeSpecs.filter(function (s) { return ts.endsWith(s, ".json" /* Json */); }); var includeFilePatterns = ts.map(ts.getRegularExpressionsForWildcards(includes, basePath, "files"), function (pattern) { return "^" + pattern + "$"; }); jsonOnlyIncludeRegexes = includeFilePatterns ? includeFilePatterns.map(function (pattern) { return ts.getRegexFromPattern(pattern, host.useCaseSensitiveFileNames); }) : ts.emptyArray; } var includeIndex = ts.findIndex(jsonOnlyIncludeRegexes, function (re) { return re.test(file); }); if (includeIndex !== -1) { var key_1 = keyMapper(file); if (!literalFileMap.has(key_1) && !wildCardJsonFileMap.has(key_1)) { wildCardJsonFileMap.set(key_1, file); } } return "continue"; } // If we have already included a literal or wildcard path with a // higher priority extension, we should skip this file. // // This handles cases where we may encounter both .ts and // .d.ts (or .js if "allowJs" is enabled) in the same // directory when they are compilation outputs. if (hasFileWithHigherPriorityExtension(file, literalFileMap, wildcardFileMap, supportedExtensions, keyMapper)) { return "continue"; } // We may have included a wildcard path with a lower priority // extension due to the user-defined order of entries in the // "include" array. If there is a lower priority extension in the // same directory, we should remove it. removeWildcardFilesWithLowerPriorityExtension(file, wildcardFileMap, supportedExtensions, keyMapper); var key = keyMapper(file); if (!literalFileMap.has(key) && !wildcardFileMap.has(key)) { wildcardFileMap.set(key, file); } }; for (var _a = 0, _b = host.readDirectory(basePath, supportedExtensionsWithJsonIfResolveJsonModule, validatedExcludeSpecs, validatedIncludeSpecs, /*depth*/ undefined); _a < _b.length; _a++) { var file = _b[_a]; _loop_5(file); } } var literalFiles = ts.arrayFrom(literalFileMap.values()); var wildcardFiles = ts.arrayFrom(wildcardFileMap.values()); return { fileNames: literalFiles.concat(wildcardFiles, ts.arrayFrom(wildCardJsonFileMap.values())), wildcardDirectories: wildcardDirectories, spec: spec }; } ts.getFileNamesFromConfigSpecs = getFileNamesFromConfigSpecs; function validateSpecs(specs, errors, allowTrailingRecursion, jsonSourceFile, specKey) { return specs.filter(function (spec) { var diag = specToDiagnostic(spec, allowTrailingRecursion); if (diag !== undefined) { errors.push(createDiagnostic(diag, spec)); } return diag === undefined; }); function createDiagnostic(message, spec) { var element = ts.getTsConfigPropArrayElementValue(jsonSourceFile, specKey, spec); return element ? ts.createDiagnosticForNodeInSourceFile(jsonSourceFile, element, message, spec) : ts.createCompilerDiagnostic(message, spec); } } function specToDiagnostic(spec, allowTrailingRecursion) { if (!allowTrailingRecursion && invalidTrailingRecursionPattern.test(spec)) { return ts.Diagnostics.File_specification_cannot_end_in_a_recursive_directory_wildcard_Asterisk_Asterisk_Colon_0; } else if (invalidDotDotAfterRecursiveWildcardPattern.test(spec)) { return ts.Diagnostics.File_specification_cannot_contain_a_parent_directory_that_appears_after_a_recursive_directory_wildcard_Asterisk_Asterisk_Colon_0; } } /** * Gets directories in a set of include patterns that should be watched for changes. */ function getWildcardDirectories(include, exclude, path, useCaseSensitiveFileNames) { // We watch a directory recursively if it contains a wildcard anywhere in a directory segment // of the pattern: // // /a/b/**/d - Watch /a/b recursively to catch changes to any d in any subfolder recursively // /a/b/*/d - Watch /a/b recursively to catch any d in any immediate subfolder, even if a new subfolder is added // /a/b - Watch /a/b recursively to catch changes to anything in any recursive subfoler // // We watch a directory without recursion if it contains a wildcard in the file segment of // the pattern: // // /a/b/* - Watch /a/b directly to catch any new file // /a/b/a?z - Watch /a/b directly to catch any new file matching a?z var rawExcludeRegex = ts.getRegularExpressionForWildcard(exclude, path, "exclude"); var excludeRegex = rawExcludeRegex && new RegExp(rawExcludeRegex, useCaseSensitiveFileNames ? "" : "i"); var wildcardDirectories = {}; if (include !== undefined) { var recursiveKeys = []; for (var _i = 0, include_1 = include; _i < include_1.length; _i++) { var file = include_1[_i]; var spec = ts.normalizePath(ts.combinePaths(path, file)); if (excludeRegex && excludeRegex.test(spec)) { continue; } var match = getWildcardDirectoryFromSpec(spec, useCaseSensitiveFileNames); if (match) { var key = match.key, flags = match.flags; var existingFlags = wildcardDirectories[key]; if (existingFlags === undefined || existingFlags < flags) { wildcardDirectories[key] = flags; if (flags === 1 /* Recursive */) { recursiveKeys.push(key); } } } } // Remove any subpaths under an existing recursively watched directory. for (var key in wildcardDirectories) { if (ts.hasProperty(wildcardDirectories, key)) { for (var _a = 0, recursiveKeys_1 = recursiveKeys; _a < recursiveKeys_1.length; _a++) { var recursiveKey = recursiveKeys_1[_a]; if (key !== recursiveKey && ts.containsPath(recursiveKey, key, path, !useCaseSensitiveFileNames)) { delete wildcardDirectories[key]; } } } } } return wildcardDirectories; } function getWildcardDirectoryFromSpec(spec, useCaseSensitiveFileNames) { var match = wildcardDirectoryPattern.exec(spec); if (match) { return { key: useCaseSensitiveFileNames ? match[0] : ts.toFileNameLowerCase(match[0]), flags: watchRecursivePattern.test(spec) ? 1 /* Recursive */ : 0 /* None */ }; } if (ts.isImplicitGlob(spec)) { return { key: spec, flags: 1 /* Recursive */ }; } return undefined; } /** * Determines whether a literal or wildcard file has already been included that has a higher * extension priority. * * @param file The path to the file. * @param extensionPriority The priority of the extension. * @param context The expansion context. */ function hasFileWithHigherPriorityExtension(file, literalFiles, wildcardFiles, extensions, keyMapper) { var extensionPriority = ts.getExtensionPriority(file, extensions); var adjustedExtensionPriority = ts.adjustExtensionPriority(extensionPriority, extensions); for (var i = 0 /* Highest */; i < adjustedExtensionPriority; i++) { var higherPriorityExtension = extensions[i]; var higherPriorityPath = keyMapper(ts.changeExtension(file, higherPriorityExtension)); if (literalFiles.has(higherPriorityPath) || wildcardFiles.has(higherPriorityPath)) { return true; } } return false; } /** * Removes files included via wildcard expansion with a lower extension priority that have * already been included. * * @param file The path to the file. * @param extensionPriority The priority of the extension. * @param context The expansion context. */ function removeWildcardFilesWithLowerPriorityExtension(file, wildcardFiles, extensions, keyMapper) { var extensionPriority = ts.getExtensionPriority(file, extensions); var nextExtensionPriority = ts.getNextLowestExtensionPriority(extensionPriority, extensions); for (var i = nextExtensionPriority; i < extensions.length; i++) { var lowerPriorityExtension = extensions[i]; var lowerPriorityPath = keyMapper(ts.changeExtension(file, lowerPriorityExtension)); wildcardFiles.delete(lowerPriorityPath); } } /** * Produces a cleaned version of compiler options with personally identifying info (aka, paths) removed. * Also converts enum values back to strings. */ /* @internal */ function convertCompilerOptionsForTelemetry(opts) { var out = {}; for (var key in opts) { if (opts.hasOwnProperty(key)) { var type = getOptionFromName(key); if (type !== undefined) { // Ignore unknown options out[key] = getOptionValueWithEmptyStrings(opts[key], type); } } } return out; } ts.convertCompilerOptionsForTelemetry = convertCompilerOptionsForTelemetry; function getOptionValueWithEmptyStrings(value, option) { switch (option.type) { case "object": // "paths". Can't get any useful information from the value since we blank out strings, so just return "". return ""; case "string": // Could be any arbitrary string -- use empty string instead. return ""; case "number": // Allow numbers, but be sure to check it's actually a number. return typeof value === "number" ? value : ""; case "boolean": return typeof value === "boolean" ? value : ""; case "list": var elementType_1 = option.element; return ts.isArray(value) ? value.map(function (v) { return getOptionValueWithEmptyStrings(v, elementType_1); }) : ""; default: return ts.forEachEntry(option.type, function (optionEnumValue, optionStringValue) { if (optionEnumValue === value) { return optionStringValue; } }); // TODO: GH#18217 } } })(ts || (ts = {})); var ts; (function (ts) { function trace(host) { host.trace(ts.formatMessage.apply(undefined, arguments)); } ts.trace = trace; /* @internal */ function isTraceEnabled(compilerOptions, host) { return !!compilerOptions.traceResolution && host.trace !== undefined; } ts.isTraceEnabled = isTraceEnabled; function withPackageId(packageInfo, r) { var packageId; if (r && packageInfo) { var packageJsonContent = packageInfo.packageJsonContent; if (typeof packageJsonContent.name === "string" && typeof packageJsonContent.version === "string") { packageId = { name: packageJsonContent.name, subModuleName: r.path.slice(packageInfo.packageDirectory.length + ts.directorySeparator.length), version: packageJsonContent.version }; } } return r && { path: r.path, extension: r.ext, packageId: packageId }; } function noPackageId(r) { return withPackageId(/*packageInfo*/ undefined, r); } function removeIgnoredPackageId(r) { if (r) { ts.Debug.assert(r.packageId === undefined); return { path: r.path, ext: r.extension }; } } /** * Kinds of file that we are currently looking for. * Typically there is one pass with Extensions.TypeScript, then a second pass with Extensions.JavaScript. */ var Extensions; (function (Extensions) { Extensions[Extensions["TypeScript"] = 0] = "TypeScript"; Extensions[Extensions["JavaScript"] = 1] = "JavaScript"; Extensions[Extensions["Json"] = 2] = "Json"; Extensions[Extensions["TSConfig"] = 3] = "TSConfig"; Extensions[Extensions["DtsOnly"] = 4] = "DtsOnly"; /** Only '.d.ts' */ })(Extensions || (Extensions = {})); /** Used with `Extensions.DtsOnly` to extract the path from TypeScript results. */ function resolvedTypeScriptOnly(resolved) { if (!resolved) { return undefined; } ts.Debug.assert(ts.extensionIsTS(resolved.extension)); return { fileName: resolved.path, packageId: resolved.packageId }; } function createResolvedModuleWithFailedLookupLocations(resolved, isExternalLibraryImport, failedLookupLocations, resultFromCache) { var _a; if (resultFromCache) { (_a = resultFromCache.failedLookupLocations).push.apply(_a, failedLookupLocations); return resultFromCache; } return { resolvedModule: resolved && { resolvedFileName: resolved.path, originalPath: resolved.originalPath === true ? undefined : resolved.originalPath, extension: resolved.extension, isExternalLibraryImport: isExternalLibraryImport, packageId: resolved.packageId }, failedLookupLocations: failedLookupLocations }; } function readPackageJsonField(jsonContent, fieldName, typeOfTag, state) { if (!ts.hasProperty(jsonContent, fieldName)) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_does_not_have_a_0_field, fieldName); } return; } var value = jsonContent[fieldName]; if (typeof value !== typeOfTag || value === null) { // eslint-disable-line no-null/no-null if (state.traceEnabled) { // eslint-disable-next-line no-null/no-null trace(state.host, ts.Diagnostics.Expected_type_of_0_field_in_package_json_to_be_1_got_2, fieldName, typeOfTag, value === null ? "null" : typeof value); } return; } return value; } function readPackageJsonPathField(jsonContent, fieldName, baseDirectory, state) { var fileName = readPackageJsonField(jsonContent, fieldName, "string", state); if (fileName === undefined) { return; } if (!fileName) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_had_a_falsy_0_field, fieldName); } return; } var path = ts.normalizePath(ts.combinePaths(baseDirectory, fileName)); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_has_0_field_1_that_references_2, fieldName, fileName, path); } return path; } function readPackageJsonTypesFields(jsonContent, baseDirectory, state) { return readPackageJsonPathField(jsonContent, "typings", baseDirectory, state) || readPackageJsonPathField(jsonContent, "types", baseDirectory, state); } function readPackageJsonTSConfigField(jsonContent, baseDirectory, state) { return readPackageJsonPathField(jsonContent, "tsconfig", baseDirectory, state); } function readPackageJsonMainField(jsonContent, baseDirectory, state) { return readPackageJsonPathField(jsonContent, "main", baseDirectory, state); } function readPackageJsonTypesVersionsField(jsonContent, state) { var typesVersions = readPackageJsonField(jsonContent, "typesVersions", "object", state); if (typesVersions === undefined) return; if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_has_a_typesVersions_field_with_version_specific_path_mappings); } return typesVersions; } function readPackageJsonTypesVersionPaths(jsonContent, state) { var typesVersions = readPackageJsonTypesVersionsField(jsonContent, state); if (typesVersions === undefined) return; if (state.traceEnabled) { for (var key in typesVersions) { if (ts.hasProperty(typesVersions, key) && !ts.VersionRange.tryParse(key)) { trace(state.host, ts.Diagnostics.package_json_has_a_typesVersions_entry_0_that_is_not_a_valid_semver_range, key); } } } var result = getPackageJsonTypesVersionsPaths(typesVersions); if (!result) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_does_not_have_a_typesVersions_entry_that_matches_version_0, ts.versionMajorMinor); } return; } var bestVersionKey = result.version, bestVersionPaths = result.paths; if (typeof bestVersionPaths !== "object") { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Expected_type_of_0_field_in_package_json_to_be_1_got_2, "typesVersions['" + bestVersionKey + "']", "object", typeof bestVersionPaths); } return; } return result; } var typeScriptVersion; /* @internal */ function getPackageJsonTypesVersionsPaths(typesVersions) { if (!typeScriptVersion) typeScriptVersion = new ts.Version(ts.version); for (var key in typesVersions) { if (!ts.hasProperty(typesVersions, key)) continue; var keyRange = ts.VersionRange.tryParse(key); if (keyRange === undefined) { continue; } // return the first entry whose range matches the current compiler version. if (keyRange.test(typeScriptVersion)) { return { version: key, paths: typesVersions[key] }; } } } ts.getPackageJsonTypesVersionsPaths = getPackageJsonTypesVersionsPaths; function getEffectiveTypeRoots(options, host) { if (options.typeRoots) { return options.typeRoots; } var currentDirectory; if (options.configFilePath) { currentDirectory = ts.getDirectoryPath(options.configFilePath); } else if (host.getCurrentDirectory) { currentDirectory = host.getCurrentDirectory(); } if (currentDirectory !== undefined) { return getDefaultTypeRoots(currentDirectory, host); } } ts.getEffectiveTypeRoots = getEffectiveTypeRoots; /** * Returns the path to every node_modules/@types directory from some ancestor directory. * Returns undefined if there are none. */ function getDefaultTypeRoots(currentDirectory, host) { if (!host.directoryExists) { return [ts.combinePaths(currentDirectory, nodeModulesAtTypes)]; // And if it doesn't exist, tough. } var typeRoots; ts.forEachAncestorDirectory(ts.normalizePath(currentDirectory), function (directory) { var atTypes = ts.combinePaths(directory, nodeModulesAtTypes); if (host.directoryExists(atTypes)) { (typeRoots || (typeRoots = [])).push(atTypes); } return undefined; }); return typeRoots; } var nodeModulesAtTypes = ts.combinePaths("node_modules", "@types"); /** * @param {string | undefined} containingFile - file that contains type reference directive, can be undefined if containing file is unknown. * This is possible in case if resolution is performed for directives specified via 'types' parameter. In this case initial path for secondary lookups * is assumed to be the same as root directory of the project. */ function resolveTypeReferenceDirective(typeReferenceDirectiveName, containingFile, options, host, redirectedReference) { var traceEnabled = isTraceEnabled(options, host); if (redirectedReference) { options = redirectedReference.commandLine.options; } var failedLookupLocations = []; var moduleResolutionState = { compilerOptions: options, host: host, traceEnabled: traceEnabled, failedLookupLocations: failedLookupLocations }; var typeRoots = getEffectiveTypeRoots(options, host); if (traceEnabled) { if (containingFile === undefined) { if (typeRoots === undefined) { trace(host, ts.Diagnostics.Resolving_type_reference_directive_0_containing_file_not_set_root_directory_not_set, typeReferenceDirectiveName); } else { trace(host, ts.Diagnostics.Resolving_type_reference_directive_0_containing_file_not_set_root_directory_1, typeReferenceDirectiveName, typeRoots); } } else { if (typeRoots === undefined) { trace(host, ts.Diagnostics.Resolving_type_reference_directive_0_containing_file_1_root_directory_not_set, typeReferenceDirectiveName, containingFile); } else { trace(host, ts.Diagnostics.Resolving_type_reference_directive_0_containing_file_1_root_directory_2, typeReferenceDirectiveName, containingFile, typeRoots); } } if (redirectedReference) { trace(host, ts.Diagnostics.Using_compiler_options_of_project_reference_redirect_0, redirectedReference.sourceFile.fileName); } } var resolved = primaryLookup(); var primary = true; if (!resolved) { resolved = secondaryLookup(); primary = false; } var resolvedTypeReferenceDirective; if (resolved) { var fileName = resolved.fileName, packageId = resolved.packageId; var resolvedFileName = options.preserveSymlinks ? fileName : realPath(fileName, host, traceEnabled); if (traceEnabled) { if (packageId) { trace(host, ts.Diagnostics.Type_reference_directive_0_was_successfully_resolved_to_1_with_Package_ID_2_primary_Colon_3, typeReferenceDirectiveName, resolvedFileName, ts.packageIdToString(packageId), primary); } else { trace(host, ts.Diagnostics.Type_reference_directive_0_was_successfully_resolved_to_1_primary_Colon_2, typeReferenceDirectiveName, resolvedFileName, primary); } } resolvedTypeReferenceDirective = { primary: primary, resolvedFileName: resolvedFileName, packageId: packageId, isExternalLibraryImport: pathContainsNodeModules(fileName) }; } return { resolvedTypeReferenceDirective: resolvedTypeReferenceDirective, failedLookupLocations: failedLookupLocations }; function primaryLookup() { // Check primary library paths if (typeRoots && typeRoots.length) { if (traceEnabled) { trace(host, ts.Diagnostics.Resolving_with_primary_search_path_0, typeRoots.join(", ")); } return ts.firstDefined(typeRoots, function (typeRoot) { var candidate = ts.combinePaths(typeRoot, typeReferenceDirectiveName); var candidateDirectory = ts.getDirectoryPath(candidate); var directoryExists = ts.directoryProbablyExists(candidateDirectory, host); if (!directoryExists && traceEnabled) { trace(host, ts.Diagnostics.Directory_0_does_not_exist_skipping_all_lookups_in_it, candidateDirectory); } return resolvedTypeScriptOnly(loadNodeModuleFromDirectory(Extensions.DtsOnly, candidate, !directoryExists, moduleResolutionState)); }); } else { if (traceEnabled) { trace(host, ts.Diagnostics.Root_directory_cannot_be_determined_skipping_primary_search_paths); } } } function secondaryLookup() { var initialLocationForSecondaryLookup = containingFile && ts.getDirectoryPath(containingFile); if (initialLocationForSecondaryLookup !== undefined) { // check secondary locations if (traceEnabled) { trace(host, ts.Diagnostics.Looking_up_in_node_modules_folder_initial_location_0, initialLocationForSecondaryLookup); } var result = void 0; if (!ts.isExternalModuleNameRelative(typeReferenceDirectiveName)) { var searchResult = loadModuleFromNearestNodeModulesDirectory(Extensions.DtsOnly, typeReferenceDirectiveName, initialLocationForSecondaryLookup, moduleResolutionState, /*cache*/ undefined, /*redirectedReference*/ undefined); result = searchResult && searchResult.value; } else { var candidate = ts.normalizePathAndParts(ts.combinePaths(initialLocationForSecondaryLookup, typeReferenceDirectiveName)).path; result = nodeLoadModuleByRelativeName(Extensions.DtsOnly, candidate, /*onlyRecordFailures*/ false, moduleResolutionState, /*considerPackageJson*/ true); } var resolvedFile = resolvedTypeScriptOnly(result); if (!resolvedFile && traceEnabled) { trace(host, ts.Diagnostics.Type_reference_directive_0_was_not_resolved, typeReferenceDirectiveName); } return resolvedFile; } else { if (traceEnabled) { trace(host, ts.Diagnostics.Containing_file_is_not_specified_and_root_directory_cannot_be_determined_skipping_lookup_in_node_modules_folder); } } } } ts.resolveTypeReferenceDirective = resolveTypeReferenceDirective; /** * Given a set of options, returns the set of type directive names * that should be included for this program automatically. * This list could either come from the config file, * or from enumerating the types root + initial secondary types lookup location. * More type directives might appear in the program later as a result of loading actual source files; * this list is only the set of defaults that are implicitly included. */ function getAutomaticTypeDirectiveNames(options, host) { // Use explicit type list from tsconfig.json if (options.types) { return options.types; } // Walk the primary type lookup locations var result = []; if (host.directoryExists && host.getDirectories) { var typeRoots = getEffectiveTypeRoots(options, host); if (typeRoots) { for (var _i = 0, typeRoots_1 = typeRoots; _i < typeRoots_1.length; _i++) { var root = typeRoots_1[_i]; if (host.directoryExists(root)) { for (var _a = 0, _b = host.getDirectories(root); _a < _b.length; _a++) { var typeDirectivePath = _b[_a]; var normalized = ts.normalizePath(typeDirectivePath); var packageJsonPath = ts.combinePaths(root, normalized, "package.json"); // `types-publisher` sometimes creates packages with `"typings": null` for packages that don't provide their own types. // See `createNotNeededPackageJSON` in the types-publisher` repo. // eslint-disable-next-line no-null/no-null var isNotNeededPackage = host.fileExists(packageJsonPath) && ts.readJson(packageJsonPath, host).typings === null; if (!isNotNeededPackage) { var baseFileName = ts.getBaseFileName(normalized); // At this stage, skip results with leading dot. if (baseFileName.charCodeAt(0) !== 46 /* dot */) { // Return just the type directive names result.push(baseFileName); } } } } } } } return result; } ts.getAutomaticTypeDirectiveNames = getAutomaticTypeDirectiveNames; function createModuleResolutionCache(currentDirectory, getCanonicalFileName, options) { return createModuleResolutionCacheWithMaps(createCacheWithRedirects(options), createCacheWithRedirects(options), currentDirectory, getCanonicalFileName); } ts.createModuleResolutionCache = createModuleResolutionCache; /*@internal*/ function createCacheWithRedirects(options) { var ownMap = ts.createMap(); var redirectsMap = ts.createMap(); return { ownMap: ownMap, redirectsMap: redirectsMap, getOrCreateMapOfCacheRedirects: getOrCreateMapOfCacheRedirects, clear: clear, setOwnOptions: setOwnOptions, setOwnMap: setOwnMap }; function setOwnOptions(newOptions) { options = newOptions; } function setOwnMap(newOwnMap) { ownMap = newOwnMap; } function getOrCreateMapOfCacheRedirects(redirectedReference) { if (!redirectedReference) { return ownMap; } var path = redirectedReference.sourceFile.path; var redirects = redirectsMap.get(path); if (!redirects) { // Reuse map if redirected reference map uses same resolution redirects = !options || ts.optionsHaveModuleResolutionChanges(options, redirectedReference.commandLine.options) ? ts.createMap() : ownMap; redirectsMap.set(path, redirects); } return redirects; } function clear() { ownMap.clear(); redirectsMap.clear(); } } ts.createCacheWithRedirects = createCacheWithRedirects; /*@internal*/ function createModuleResolutionCacheWithMaps(directoryToModuleNameMap, moduleNameToDirectoryMap, currentDirectory, getCanonicalFileName) { return { getOrCreateCacheForDirectory: getOrCreateCacheForDirectory, getOrCreateCacheForModuleName: getOrCreateCacheForModuleName, directoryToModuleNameMap: directoryToModuleNameMap, moduleNameToDirectoryMap: moduleNameToDirectoryMap }; function getOrCreateCacheForDirectory(directoryName, redirectedReference) { var path = ts.toPath(directoryName, currentDirectory, getCanonicalFileName); return getOrCreateCache(directoryToModuleNameMap, redirectedReference, path, ts.createMap); } function getOrCreateCacheForModuleName(nonRelativeModuleName, redirectedReference) { ts.Debug.assert(!ts.isExternalModuleNameRelative(nonRelativeModuleName)); return getOrCreateCache(moduleNameToDirectoryMap, redirectedReference, nonRelativeModuleName, createPerModuleNameCache); } function getOrCreateCache(cacheWithRedirects, redirectedReference, key, create) { var cache = cacheWithRedirects.getOrCreateMapOfCacheRedirects(redirectedReference); var result = cache.get(key); if (!result) { result = create(); cache.set(key, result); } return result; } function createPerModuleNameCache() { var directoryPathMap = ts.createMap(); return { get: get, set: set }; function get(directory) { return directoryPathMap.get(ts.toPath(directory, currentDirectory, getCanonicalFileName)); } /** * At first this function add entry directory -> module resolution result to the table. * Then it computes the set of parent folders for 'directory' that should have the same module resolution result * and for every parent folder in set it adds entry: parent -> module resolution. . * Lets say we first directory name: /a/b/c/d/e and resolution result is: /a/b/bar.ts. * Set of parent folders that should have the same result will be: * [ * /a/b/c/d, /a/b/c, /a/b * ] * this means that request for module resolution from file in any of these folder will be immediately found in cache. */ function set(directory, result) { var path = ts.toPath(directory, currentDirectory, getCanonicalFileName); // if entry is already in cache do nothing if (directoryPathMap.has(path)) { return; } directoryPathMap.set(path, result); var resolvedFileName = result.resolvedModule && (result.resolvedModule.originalPath || result.resolvedModule.resolvedFileName); // find common prefix between directory and resolved file name // this common prefix should be the shortest path that has the same resolution // directory: /a/b/c/d/e // resolvedFileName: /a/b/foo.d.ts // commonPrefix: /a/b // for failed lookups cache the result for every directory up to root var commonPrefix = resolvedFileName && getCommonPrefix(path, resolvedFileName); var current = path; while (current !== commonPrefix) { var parent = ts.getDirectoryPath(current); if (parent === current || directoryPathMap.has(parent)) { break; } directoryPathMap.set(parent, result); current = parent; } } function getCommonPrefix(directory, resolution) { var resolutionDirectory = ts.toPath(ts.getDirectoryPath(resolution), currentDirectory, getCanonicalFileName); // find first position where directory and resolution differs var i = 0; var limit = Math.min(directory.length, resolutionDirectory.length); while (i < limit && directory.charCodeAt(i) === resolutionDirectory.charCodeAt(i)) { i++; } if (i === directory.length && (resolutionDirectory.length === i || resolutionDirectory[i] === ts.directorySeparator)) { return directory; } var rootLength = ts.getRootLength(directory); if (i < rootLength) { return undefined; } var sep = directory.lastIndexOf(ts.directorySeparator, i - 1); if (sep === -1) { return undefined; } return directory.substr(0, Math.max(sep, rootLength)); } } } ts.createModuleResolutionCacheWithMaps = createModuleResolutionCacheWithMaps; function resolveModuleNameFromCache(moduleName, containingFile, cache) { var containingDirectory = ts.getDirectoryPath(containingFile); var perFolderCache = cache && cache.getOrCreateCacheForDirectory(containingDirectory); return perFolderCache && perFolderCache.get(moduleName); } ts.resolveModuleNameFromCache = resolveModuleNameFromCache; function resolveModuleName(moduleName, containingFile, compilerOptions, host, cache, redirectedReference) { var traceEnabled = isTraceEnabled(compilerOptions, host); if (redirectedReference) { compilerOptions = redirectedReference.commandLine.options; } if (traceEnabled) { trace(host, ts.Diagnostics.Resolving_module_0_from_1, moduleName, containingFile); if (redirectedReference) { trace(host, ts.Diagnostics.Using_compiler_options_of_project_reference_redirect_0, redirectedReference.sourceFile.fileName); } } var containingDirectory = ts.getDirectoryPath(containingFile); var perFolderCache = cache && cache.getOrCreateCacheForDirectory(containingDirectory, redirectedReference); var result = perFolderCache && perFolderCache.get(moduleName); if (result) { if (traceEnabled) { trace(host, ts.Diagnostics.Resolution_for_module_0_was_found_in_cache_from_location_1, moduleName, containingDirectory); } } else { var moduleResolution = compilerOptions.moduleResolution; if (moduleResolution === undefined) { moduleResolution = ts.getEmitModuleKind(compilerOptions) === ts.ModuleKind.CommonJS ? ts.ModuleResolutionKind.NodeJs : ts.ModuleResolutionKind.Classic; if (traceEnabled) { trace(host, ts.Diagnostics.Module_resolution_kind_is_not_specified_using_0, ts.ModuleResolutionKind[moduleResolution]); } } else { if (traceEnabled) { trace(host, ts.Diagnostics.Explicitly_specified_module_resolution_kind_Colon_0, ts.ModuleResolutionKind[moduleResolution]); } } ts.perfLogger.logStartResolveModule(moduleName /* , containingFile, ModuleResolutionKind[moduleResolution]*/); switch (moduleResolution) { case ts.ModuleResolutionKind.NodeJs: result = nodeModuleNameResolver(moduleName, containingFile, compilerOptions, host, cache, redirectedReference); break; case ts.ModuleResolutionKind.Classic: result = classicNameResolver(moduleName, containingFile, compilerOptions, host, cache, redirectedReference); break; default: return ts.Debug.fail("Unexpected moduleResolution: " + moduleResolution); } if (result && result.resolvedModule) ts.perfLogger.logInfoEvent("Module \"" + moduleName + "\" resolved to \"" + result.resolvedModule.resolvedFileName + "\""); ts.perfLogger.logStopResolveModule((result && result.resolvedModule) ? "" + result.resolvedModule.resolvedFileName : "null"); if (perFolderCache) { perFolderCache.set(moduleName, result); if (!ts.isExternalModuleNameRelative(moduleName)) { // put result in per-module name cache cache.getOrCreateCacheForModuleName(moduleName, redirectedReference).set(containingDirectory, result); } } } if (traceEnabled) { if (result.resolvedModule) { if (result.resolvedModule.packageId) { trace(host, ts.Diagnostics.Module_name_0_was_successfully_resolved_to_1_with_Package_ID_2, moduleName, result.resolvedModule.resolvedFileName, ts.packageIdToString(result.resolvedModule.packageId)); } else { trace(host, ts.Diagnostics.Module_name_0_was_successfully_resolved_to_1, moduleName, result.resolvedModule.resolvedFileName); } } else { trace(host, ts.Diagnostics.Module_name_0_was_not_resolved, moduleName); } } return result; } ts.resolveModuleName = resolveModuleName; /** * Any module resolution kind can be augmented with optional settings: 'baseUrl', 'paths' and 'rootDirs' - they are used to * mitigate differences between design time structure of the project and its runtime counterpart so the same import name * can be resolved successfully by TypeScript compiler and runtime module loader. * If these settings are set then loading procedure will try to use them to resolve module name and it can of failure it will * fallback to standard resolution routine. * * - baseUrl - this setting controls how non-relative module names are resolved. If this setting is specified then non-relative * names will be resolved relative to baseUrl: i.e. if baseUrl is '/a/b' then candidate location to resolve module name 'c/d' will * be '/a/b/c/d' * - paths - this setting can only be used when baseUrl is specified. allows to tune how non-relative module names * will be resolved based on the content of the module name. * Structure of 'paths' compiler options * 'paths': { * pattern-1: [...substitutions], * pattern-2: [...substitutions], * ... * pattern-n: [...substitutions] * } * Pattern here is a string that can contain zero or one '*' character. During module resolution module name will be matched against * all patterns in the list. Matching for patterns that don't contain '*' means that module name must be equal to pattern respecting the case. * If pattern contains '*' then to match pattern "*" module name must start with the and end with . * denotes part of the module name between and . * If module name can be matches with multiple patterns then pattern with the longest prefix will be picked. * After selecting pattern we'll use list of substitutions to get candidate locations of the module and the try to load module * from the candidate location. * Substitution is a string that can contain zero or one '*'. To get candidate location from substitution we'll pick every * substitution in the list and replace '*' with string. If candidate location is not rooted it * will be converted to absolute using baseUrl. * For example: * baseUrl: /a/b/c * "paths": { * // match all module names * "*": [ * "*", // use matched name as is, * // will be looked as /a/b/c/ * * "folder1/*" // substitution will convert matched name to 'folder1/', * // since it is not rooted then final candidate location will be /a/b/c/folder1/ * ], * // match module names that start with 'components/' * "components/*": [ "/root/components/*" ] // substitution will convert /components/folder1/ to '/root/components/folder1/', * // it is rooted so it will be final candidate location * } * * 'rootDirs' allows the project to be spreaded across multiple locations and resolve modules with relative names as if * they were in the same location. For example lets say there are two files * '/local/src/content/file1.ts' * '/shared/components/contracts/src/content/protocols/file2.ts' * After bundling content of '/shared/components/contracts/src' will be merged with '/local/src' so * if file1 has the following import 'import {x} from "./protocols/file2"' it will be resolved successfully in runtime. * 'rootDirs' provides the way to tell compiler that in order to get the whole project it should behave as if content of all * root dirs were merged together. * I.e. for the example above 'rootDirs' will have two entries: [ '/local/src', '/shared/components/contracts/src' ]. * Compiler will first convert './protocols/file2' into absolute path relative to the location of containing file: * '/local/src/content/protocols/file2' and try to load it - failure. * Then it will search 'rootDirs' looking for a longest matching prefix of this absolute path and if such prefix is found - absolute path will * be converted to a path relative to found rootDir entry './content/protocols/file2' (*). As a last step compiler will check all remaining * entries in 'rootDirs', use them to build absolute path out of (*) and try to resolve module from this location. */ function tryLoadModuleUsingOptionalResolutionSettings(extensions, moduleName, containingDirectory, loader, state) { var resolved = tryLoadModuleUsingPathsIfEligible(extensions, moduleName, loader, state); if (resolved) return resolved.value; if (!ts.isExternalModuleNameRelative(moduleName)) { return tryLoadModuleUsingBaseUrl(extensions, moduleName, loader, state); } else { return tryLoadModuleUsingRootDirs(extensions, moduleName, containingDirectory, loader, state); } } function tryLoadModuleUsingPathsIfEligible(extensions, moduleName, loader, state) { var _a = state.compilerOptions, baseUrl = _a.baseUrl, paths = _a.paths; if (baseUrl && paths && !ts.pathIsRelative(moduleName)) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.baseUrl_option_is_set_to_0_using_this_value_to_resolve_non_relative_module_name_1, baseUrl, moduleName); trace(state.host, ts.Diagnostics.paths_option_is_specified_looking_for_a_pattern_to_match_module_name_0, moduleName); } return tryLoadModuleUsingPaths(extensions, moduleName, baseUrl, paths, loader, /*onlyRecordFailures*/ false, state); } } function tryLoadModuleUsingRootDirs(extensions, moduleName, containingDirectory, loader, state) { if (!state.compilerOptions.rootDirs) { return undefined; } if (state.traceEnabled) { trace(state.host, ts.Diagnostics.rootDirs_option_is_set_using_it_to_resolve_relative_module_name_0, moduleName); } var candidate = ts.normalizePath(ts.combinePaths(containingDirectory, moduleName)); var matchedRootDir; var matchedNormalizedPrefix; for (var _i = 0, _a = state.compilerOptions.rootDirs; _i < _a.length; _i++) { var rootDir = _a[_i]; // rootDirs are expected to be absolute // in case of tsconfig.json this will happen automatically - compiler will expand relative names // using location of tsconfig.json as base location var normalizedRoot = ts.normalizePath(rootDir); if (!ts.endsWith(normalizedRoot, ts.directorySeparator)) { normalizedRoot += ts.directorySeparator; } var isLongestMatchingPrefix = ts.startsWith(candidate, normalizedRoot) && (matchedNormalizedPrefix === undefined || matchedNormalizedPrefix.length < normalizedRoot.length); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Checking_if_0_is_the_longest_matching_prefix_for_1_2, normalizedRoot, candidate, isLongestMatchingPrefix); } if (isLongestMatchingPrefix) { matchedNormalizedPrefix = normalizedRoot; matchedRootDir = rootDir; } } if (matchedNormalizedPrefix) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Longest_matching_prefix_for_0_is_1, candidate, matchedNormalizedPrefix); } var suffix = candidate.substr(matchedNormalizedPrefix.length); // first - try to load from a initial location if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Loading_0_from_the_root_dir_1_candidate_location_2, suffix, matchedNormalizedPrefix, candidate); } var resolvedFileName = loader(extensions, candidate, !ts.directoryProbablyExists(containingDirectory, state.host), state); if (resolvedFileName) { return resolvedFileName; } if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Trying_other_entries_in_rootDirs); } // then try to resolve using remaining entries in rootDirs for (var _b = 0, _c = state.compilerOptions.rootDirs; _b < _c.length; _b++) { var rootDir = _c[_b]; if (rootDir === matchedRootDir) { // skip the initially matched entry continue; } var candidate_1 = ts.combinePaths(ts.normalizePath(rootDir), suffix); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Loading_0_from_the_root_dir_1_candidate_location_2, suffix, rootDir, candidate_1); } var baseDirectory = ts.getDirectoryPath(candidate_1); var resolvedFileName_1 = loader(extensions, candidate_1, !ts.directoryProbablyExists(baseDirectory, state.host), state); if (resolvedFileName_1) { return resolvedFileName_1; } } if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Module_resolution_using_rootDirs_has_failed); } } return undefined; } function tryLoadModuleUsingBaseUrl(extensions, moduleName, loader, state) { var baseUrl = state.compilerOptions.baseUrl; if (!baseUrl) { return undefined; } if (state.traceEnabled) { trace(state.host, ts.Diagnostics.baseUrl_option_is_set_to_0_using_this_value_to_resolve_non_relative_module_name_1, baseUrl, moduleName); } var candidate = ts.normalizePath(ts.combinePaths(baseUrl, moduleName)); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Resolving_module_name_0_relative_to_base_url_1_2, moduleName, baseUrl, candidate); } return loader(extensions, candidate, !ts.directoryProbablyExists(ts.getDirectoryPath(candidate), state.host), state); } /** * Expose resolution logic to allow us to use Node module resolution logic from arbitrary locations. * No way to do this with `require()`: https://github.com/nodejs/node/issues/5963 * Throws an error if the module can't be resolved. */ /* @internal */ function resolveJSModule(moduleName, initialDir, host) { var _a = tryResolveJSModuleWorker(moduleName, initialDir, host), resolvedModule = _a.resolvedModule, failedLookupLocations = _a.failedLookupLocations; if (!resolvedModule) { throw new Error("Could not resolve JS module '" + moduleName + "' starting at '" + initialDir + "'. Looked in: " + failedLookupLocations.join(", ")); } return resolvedModule.resolvedFileName; } ts.resolveJSModule = resolveJSModule; /* @internal */ function tryResolveJSModule(moduleName, initialDir, host) { var resolvedModule = tryResolveJSModuleWorker(moduleName, initialDir, host).resolvedModule; return resolvedModule && resolvedModule.resolvedFileName; } ts.tryResolveJSModule = tryResolveJSModule; var jsOnlyExtensions = [Extensions.JavaScript]; var tsExtensions = [Extensions.TypeScript, Extensions.JavaScript]; var tsPlusJsonExtensions = __spreadArrays(tsExtensions, [Extensions.Json]); var tsconfigExtensions = [Extensions.TSConfig]; function tryResolveJSModuleWorker(moduleName, initialDir, host) { return nodeModuleNameResolverWorker(moduleName, initialDir, { moduleResolution: ts.ModuleResolutionKind.NodeJs, allowJs: true }, host, /*cache*/ undefined, jsOnlyExtensions, /*redirectedReferences*/ undefined); } function nodeModuleNameResolver(moduleName, containingFile, compilerOptions, host, cache, redirectedReference, lookupConfig) { return nodeModuleNameResolverWorker(moduleName, ts.getDirectoryPath(containingFile), compilerOptions, host, cache, lookupConfig ? tsconfigExtensions : (compilerOptions.resolveJsonModule ? tsPlusJsonExtensions : tsExtensions), redirectedReference); } ts.nodeModuleNameResolver = nodeModuleNameResolver; function nodeModuleNameResolverWorker(moduleName, containingDirectory, compilerOptions, host, cache, extensions, redirectedReference) { var _a, _b; var traceEnabled = isTraceEnabled(compilerOptions, host); var failedLookupLocations = []; var state = { compilerOptions: compilerOptions, host: host, traceEnabled: traceEnabled, failedLookupLocations: failedLookupLocations }; var result = ts.forEach(extensions, function (ext) { return tryResolve(ext); }); return createResolvedModuleWithFailedLookupLocations((_a = result === null || result === void 0 ? void 0 : result.value) === null || _a === void 0 ? void 0 : _a.resolved, (_b = result === null || result === void 0 ? void 0 : result.value) === null || _b === void 0 ? void 0 : _b.isExternalLibraryImport, failedLookupLocations, state.resultFromCache); function tryResolve(extensions) { var loader = function (extensions, candidate, onlyRecordFailures, state) { return nodeLoadModuleByRelativeName(extensions, candidate, onlyRecordFailures, state, /*considerPackageJson*/ true); }; var resolved = tryLoadModuleUsingOptionalResolutionSettings(extensions, moduleName, containingDirectory, loader, state); if (resolved) { return toSearchResult({ resolved: resolved, isExternalLibraryImport: pathContainsNodeModules(resolved.path) }); } if (!ts.isExternalModuleNameRelative(moduleName)) { if (traceEnabled) { trace(host, ts.Diagnostics.Loading_module_0_from_node_modules_folder_target_file_type_1, moduleName, Extensions[extensions]); } var resolved_1 = loadModuleFromNearestNodeModulesDirectory(extensions, moduleName, containingDirectory, state, cache, redirectedReference); if (!resolved_1) return undefined; var resolvedValue = resolved_1.value; if (!compilerOptions.preserveSymlinks && resolvedValue && !resolvedValue.originalPath) { var path = realPath(resolvedValue.path, host, traceEnabled); var originalPath = path === resolvedValue.path ? undefined : resolvedValue.path; resolvedValue = __assign(__assign({}, resolvedValue), { path: path, originalPath: originalPath }); } // For node_modules lookups, get the real path so that multiple accesses to an `npm link`-ed module do not create duplicate files. return { value: resolvedValue && { resolved: resolvedValue, isExternalLibraryImport: true } }; } else { var _a = ts.normalizePathAndParts(ts.combinePaths(containingDirectory, moduleName)), candidate = _a.path, parts = _a.parts; var resolved_2 = nodeLoadModuleByRelativeName(extensions, candidate, /*onlyRecordFailures*/ false, state, /*considerPackageJson*/ true); // Treat explicit "node_modules" import as an external library import. return resolved_2 && toSearchResult({ resolved: resolved_2, isExternalLibraryImport: ts.contains(parts, "node_modules") }); } } } function realPath(path, host, traceEnabled) { if (!host.realpath) { return path; } var real = ts.normalizePath(host.realpath(path)); if (traceEnabled) { trace(host, ts.Diagnostics.Resolving_real_path_for_0_result_1, path, real); } ts.Debug.assert(host.fileExists(real), path + " linked to nonexistent file " + real); return real; } function nodeLoadModuleByRelativeName(extensions, candidate, onlyRecordFailures, state, considerPackageJson) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Loading_module_as_file_Slash_folder_candidate_module_location_0_target_file_type_1, candidate, Extensions[extensions]); } if (!ts.hasTrailingDirectorySeparator(candidate)) { if (!onlyRecordFailures) { var parentOfCandidate = ts.getDirectoryPath(candidate); if (!ts.directoryProbablyExists(parentOfCandidate, state.host)) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Directory_0_does_not_exist_skipping_all_lookups_in_it, parentOfCandidate); } onlyRecordFailures = true; } } var resolvedFromFile = loadModuleFromFile(extensions, candidate, onlyRecordFailures, state); if (resolvedFromFile) { var packageDirectory = considerPackageJson ? parseNodeModuleFromPath(resolvedFromFile) : undefined; var packageInfo = packageDirectory ? getPackageJsonInfo(packageDirectory, /*onlyRecordFailures*/ false, state) : undefined; return withPackageId(packageInfo, resolvedFromFile); } } if (!onlyRecordFailures) { var candidateExists = ts.directoryProbablyExists(candidate, state.host); if (!candidateExists) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Directory_0_does_not_exist_skipping_all_lookups_in_it, candidate); } onlyRecordFailures = true; } } return loadNodeModuleFromDirectory(extensions, candidate, onlyRecordFailures, state, considerPackageJson); } /*@internal*/ ts.nodeModulesPathPart = "/node_modules/"; /*@internal*/ function pathContainsNodeModules(path) { return ts.stringContains(path, ts.nodeModulesPathPart); } ts.pathContainsNodeModules = pathContainsNodeModules; /** * This will be called on the successfully resolved path from `loadModuleFromFile`. * (Not neeeded for `loadModuleFromNodeModules` as that looks up the `package.json` as part of resolution.) * * packageDirectory is the directory of the package itself. * For `blah/node_modules/foo/index.d.ts` this is packageDirectory: "foo" * For `/node_modules/foo/bar.d.ts` this is packageDirectory: "foo" * For `/node_modules/@types/foo/bar/index.d.ts` this is packageDirectory: "@types/foo" * For `/node_modules/foo/bar/index.d.ts` this is packageDirectory: "foo" */ function parseNodeModuleFromPath(resolved) { var path = ts.normalizePath(resolved.path); var idx = path.lastIndexOf(ts.nodeModulesPathPart); if (idx === -1) { return undefined; } var indexAfterNodeModules = idx + ts.nodeModulesPathPart.length; var indexAfterPackageName = moveToNextDirectorySeparatorIfAvailable(path, indexAfterNodeModules); if (path.charCodeAt(indexAfterNodeModules) === 64 /* at */) { indexAfterPackageName = moveToNextDirectorySeparatorIfAvailable(path, indexAfterPackageName); } return path.slice(0, indexAfterPackageName); } function moveToNextDirectorySeparatorIfAvailable(path, prevSeparatorIndex) { var nextSeparatorIndex = path.indexOf(ts.directorySeparator, prevSeparatorIndex + 1); return nextSeparatorIndex === -1 ? prevSeparatorIndex : nextSeparatorIndex; } function loadModuleFromFileNoPackageId(extensions, candidate, onlyRecordFailures, state) { return noPackageId(loadModuleFromFile(extensions, candidate, onlyRecordFailures, state)); } /** * @param {boolean} onlyRecordFailures - if true then function won't try to actually load files but instead record all attempts as failures. This flag is necessary * in cases when we know upfront that all load attempts will fail (because containing folder does not exists) however we still need to record all failed lookup locations. */ function loadModuleFromFile(extensions, candidate, onlyRecordFailures, state) { if (extensions === Extensions.Json || extensions === Extensions.TSConfig) { var extensionLess = ts.tryRemoveExtension(candidate, ".json" /* Json */); return (extensionLess === undefined && extensions === Extensions.Json) ? undefined : tryAddingExtensions(extensionLess || candidate, extensions, onlyRecordFailures, state); } // First, try adding an extension. An import of "foo" could be matched by a file "foo.ts", or "foo.js" by "foo.js.ts" var resolvedByAddingExtension = tryAddingExtensions(candidate, extensions, onlyRecordFailures, state); if (resolvedByAddingExtension) { return resolvedByAddingExtension; } // If that didn't work, try stripping a ".js" or ".jsx" extension and replacing it with a TypeScript one; // e.g. "./foo.js" can be matched by "./foo.ts" or "./foo.d.ts" if (ts.hasJSFileExtension(candidate)) { var extensionless = ts.removeFileExtension(candidate); if (state.traceEnabled) { var extension = candidate.substring(extensionless.length); trace(state.host, ts.Diagnostics.File_name_0_has_a_1_extension_stripping_it, candidate, extension); } return tryAddingExtensions(extensionless, extensions, onlyRecordFailures, state); } } /** Try to return an existing file that adds one of the `extensions` to `candidate`. */ function tryAddingExtensions(candidate, extensions, onlyRecordFailures, state) { if (!onlyRecordFailures) { // check if containing folder exists - if it doesn't then just record failures for all supported extensions without disk probing var directory = ts.getDirectoryPath(candidate); if (directory) { onlyRecordFailures = !ts.directoryProbablyExists(directory, state.host); } } switch (extensions) { case Extensions.DtsOnly: return tryExtension(".d.ts" /* Dts */); case Extensions.TypeScript: return tryExtension(".ts" /* Ts */) || tryExtension(".tsx" /* Tsx */) || tryExtension(".d.ts" /* Dts */); case Extensions.JavaScript: return tryExtension(".js" /* Js */) || tryExtension(".jsx" /* Jsx */); case Extensions.TSConfig: case Extensions.Json: return tryExtension(".json" /* Json */); } function tryExtension(ext) { var path = tryFile(candidate + ext, onlyRecordFailures, state); return path === undefined ? undefined : { path: path, ext: ext }; } } /** Return the file if it exists. */ function tryFile(fileName, onlyRecordFailures, state) { if (!onlyRecordFailures) { if (state.host.fileExists(fileName)) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.File_0_exist_use_it_as_a_name_resolution_result, fileName); } return fileName; } else { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.File_0_does_not_exist, fileName); } } } state.failedLookupLocations.push(fileName); return undefined; } function loadNodeModuleFromDirectory(extensions, candidate, onlyRecordFailures, state, considerPackageJson) { if (considerPackageJson === void 0) { considerPackageJson = true; } var packageInfo = considerPackageJson ? getPackageJsonInfo(candidate, onlyRecordFailures, state) : undefined; var packageJsonContent = packageInfo && packageInfo.packageJsonContent; var versionPaths = packageInfo && packageInfo.versionPaths; return withPackageId(packageInfo, loadNodeModuleFromDirectoryWorker(extensions, candidate, onlyRecordFailures, state, packageJsonContent, versionPaths)); } function getPackageJsonInfo(packageDirectory, onlyRecordFailures, state) { var host = state.host, traceEnabled = state.traceEnabled; var directoryExists = !onlyRecordFailures && ts.directoryProbablyExists(packageDirectory, host); var packageJsonPath = ts.combinePaths(packageDirectory, "package.json"); if (directoryExists && host.fileExists(packageJsonPath)) { var packageJsonContent = ts.readJson(packageJsonPath, host); if (traceEnabled) { trace(host, ts.Diagnostics.Found_package_json_at_0, packageJsonPath); } var versionPaths = readPackageJsonTypesVersionPaths(packageJsonContent, state); return { packageDirectory: packageDirectory, packageJsonContent: packageJsonContent, versionPaths: versionPaths }; } else { if (directoryExists && traceEnabled) { trace(host, ts.Diagnostics.File_0_does_not_exist, packageJsonPath); } // record package json as one of failed lookup locations - in the future if this file will appear it will invalidate resolution results state.failedLookupLocations.push(packageJsonPath); } } function loadNodeModuleFromDirectoryWorker(extensions, candidate, onlyRecordFailures, state, jsonContent, versionPaths) { var packageFile; if (jsonContent) { switch (extensions) { case Extensions.JavaScript: case Extensions.Json: packageFile = readPackageJsonMainField(jsonContent, candidate, state); break; case Extensions.TypeScript: // When resolving typescript modules, try resolving using main field as well packageFile = readPackageJsonTypesFields(jsonContent, candidate, state) || readPackageJsonMainField(jsonContent, candidate, state); break; case Extensions.DtsOnly: packageFile = readPackageJsonTypesFields(jsonContent, candidate, state); break; case Extensions.TSConfig: packageFile = readPackageJsonTSConfigField(jsonContent, candidate, state); break; default: return ts.Debug.assertNever(extensions); } } var loader = function (extensions, candidate, onlyRecordFailures, state) { var fromFile = tryFile(candidate, onlyRecordFailures, state); if (fromFile) { var resolved = resolvedIfExtensionMatches(extensions, fromFile); if (resolved) { return noPackageId(resolved); } if (state.traceEnabled) { trace(state.host, ts.Diagnostics.File_0_has_an_unsupported_extension_so_skipping_it, fromFile); } } // Even if extensions is DtsOnly, we can still look up a .ts file as a result of package.json "types" var nextExtensions = extensions === Extensions.DtsOnly ? Extensions.TypeScript : extensions; // Don't do package.json lookup recursively, because Node.js' package lookup doesn't. return nodeLoadModuleByRelativeName(nextExtensions, candidate, onlyRecordFailures, state, /*considerPackageJson*/ false); }; var onlyRecordFailuresForPackageFile = packageFile ? !ts.directoryProbablyExists(ts.getDirectoryPath(packageFile), state.host) : undefined; var onlyRecordFailuresForIndex = onlyRecordFailures || !ts.directoryProbablyExists(candidate, state.host); var indexPath = ts.combinePaths(candidate, extensions === Extensions.TSConfig ? "tsconfig" : "index"); if (versionPaths && (!packageFile || ts.containsPath(candidate, packageFile))) { var moduleName = ts.getRelativePathFromDirectory(candidate, packageFile || indexPath, /*ignoreCase*/ false); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_has_a_typesVersions_entry_0_that_matches_compiler_version_1_looking_for_a_pattern_to_match_module_name_2, versionPaths.version, ts.version, moduleName); } var result = tryLoadModuleUsingPaths(extensions, moduleName, candidate, versionPaths.paths, loader, onlyRecordFailuresForPackageFile || onlyRecordFailuresForIndex, state); if (result) { return removeIgnoredPackageId(result.value); } } // It won't have a `packageId` set, because we disabled `considerPackageJson`. var packageFileResult = packageFile && removeIgnoredPackageId(loader(extensions, packageFile, onlyRecordFailuresForPackageFile, state)); if (packageFileResult) return packageFileResult; return loadModuleFromFile(extensions, indexPath, onlyRecordFailuresForIndex, state); } /** Resolve from an arbitrarily specified file. Return `undefined` if it has an unsupported extension. */ function resolvedIfExtensionMatches(extensions, path) { var ext = ts.tryGetExtensionFromPath(path); return ext !== undefined && extensionIsOk(extensions, ext) ? { path: path, ext: ext } : undefined; } /** True if `extension` is one of the supported `extensions`. */ function extensionIsOk(extensions, extension) { switch (extensions) { case Extensions.JavaScript: return extension === ".js" /* Js */ || extension === ".jsx" /* Jsx */; case Extensions.TSConfig: case Extensions.Json: return extension === ".json" /* Json */; case Extensions.TypeScript: return extension === ".ts" /* Ts */ || extension === ".tsx" /* Tsx */ || extension === ".d.ts" /* Dts */; case Extensions.DtsOnly: return extension === ".d.ts" /* Dts */; } } /* @internal */ function parsePackageName(moduleName) { var idx = moduleName.indexOf(ts.directorySeparator); if (moduleName[0] === "@") { idx = moduleName.indexOf(ts.directorySeparator, idx + 1); } return idx === -1 ? { packageName: moduleName, rest: "" } : { packageName: moduleName.slice(0, idx), rest: moduleName.slice(idx + 1) }; } ts.parsePackageName = parsePackageName; function loadModuleFromNearestNodeModulesDirectory(extensions, moduleName, directory, state, cache, redirectedReference) { return loadModuleFromNearestNodeModulesDirectoryWorker(extensions, moduleName, directory, state, /*typesScopeOnly*/ false, cache, redirectedReference); } function loadModuleFromNearestNodeModulesDirectoryTypesScope(moduleName, directory, state) { // Extensions parameter here doesn't actually matter, because typesOnly ensures we're just doing @types lookup, which is always DtsOnly. return loadModuleFromNearestNodeModulesDirectoryWorker(Extensions.DtsOnly, moduleName, directory, state, /*typesScopeOnly*/ true, /*cache*/ undefined, /*redirectedReference*/ undefined); } function loadModuleFromNearestNodeModulesDirectoryWorker(extensions, moduleName, directory, state, typesScopeOnly, cache, redirectedReference) { var perModuleNameCache = cache && cache.getOrCreateCacheForModuleName(moduleName, redirectedReference); return ts.forEachAncestorDirectory(ts.normalizeSlashes(directory), function (ancestorDirectory) { if (ts.getBaseFileName(ancestorDirectory) !== "node_modules") { var resolutionFromCache = tryFindNonRelativeModuleNameInCache(perModuleNameCache, moduleName, ancestorDirectory, state); if (resolutionFromCache) { return resolutionFromCache; } return toSearchResult(loadModuleFromImmediateNodeModulesDirectory(extensions, moduleName, ancestorDirectory, state, typesScopeOnly)); } }); } function loadModuleFromImmediateNodeModulesDirectory(extensions, moduleName, directory, state, typesScopeOnly) { var nodeModulesFolder = ts.combinePaths(directory, "node_modules"); var nodeModulesFolderExists = ts.directoryProbablyExists(nodeModulesFolder, state.host); if (!nodeModulesFolderExists && state.traceEnabled) { trace(state.host, ts.Diagnostics.Directory_0_does_not_exist_skipping_all_lookups_in_it, nodeModulesFolder); } var packageResult = typesScopeOnly ? undefined : loadModuleFromSpecificNodeModulesDirectory(extensions, moduleName, nodeModulesFolder, nodeModulesFolderExists, state); if (packageResult) { return packageResult; } if (extensions === Extensions.TypeScript || extensions === Extensions.DtsOnly) { var nodeModulesAtTypes_1 = ts.combinePaths(nodeModulesFolder, "@types"); var nodeModulesAtTypesExists = nodeModulesFolderExists; if (nodeModulesFolderExists && !ts.directoryProbablyExists(nodeModulesAtTypes_1, state.host)) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Directory_0_does_not_exist_skipping_all_lookups_in_it, nodeModulesAtTypes_1); } nodeModulesAtTypesExists = false; } return loadModuleFromSpecificNodeModulesDirectory(Extensions.DtsOnly, mangleScopedPackageNameWithTrace(moduleName, state), nodeModulesAtTypes_1, nodeModulesAtTypesExists, state); } } function loadModuleFromSpecificNodeModulesDirectory(extensions, moduleName, nodeModulesDirectory, nodeModulesDirectoryExists, state) { var candidate = ts.normalizePath(ts.combinePaths(nodeModulesDirectory, moduleName)); // First look for a nested package.json, as in `node_modules/foo/bar/package.json`. var packageInfo = getPackageJsonInfo(candidate, !nodeModulesDirectoryExists, state); if (packageInfo) { var fromFile = loadModuleFromFile(extensions, candidate, !nodeModulesDirectoryExists, state); if (fromFile) { return noPackageId(fromFile); } var fromDirectory = loadNodeModuleFromDirectoryWorker(extensions, candidate, !nodeModulesDirectoryExists, state, packageInfo.packageJsonContent, packageInfo.versionPaths); return withPackageId(packageInfo, fromDirectory); } var loader = function (extensions, candidate, onlyRecordFailures, state) { var pathAndExtension = loadModuleFromFile(extensions, candidate, onlyRecordFailures, state) || loadNodeModuleFromDirectoryWorker(extensions, candidate, onlyRecordFailures, state, packageInfo && packageInfo.packageJsonContent, packageInfo && packageInfo.versionPaths); return withPackageId(packageInfo, pathAndExtension); }; var _a = parsePackageName(moduleName), packageName = _a.packageName, rest = _a.rest; if (rest !== "") { // If "rest" is empty, we just did this search above. var packageDirectory = ts.combinePaths(nodeModulesDirectory, packageName); // Don't use a "types" or "main" from here because we're not loading the root, but a subdirectory -- just here for the packageId and path mappings. packageInfo = getPackageJsonInfo(packageDirectory, !nodeModulesDirectoryExists, state); if (packageInfo && packageInfo.versionPaths) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.package_json_has_a_typesVersions_entry_0_that_matches_compiler_version_1_looking_for_a_pattern_to_match_module_name_2, packageInfo.versionPaths.version, ts.version, rest); } var packageDirectoryExists = nodeModulesDirectoryExists && ts.directoryProbablyExists(packageDirectory, state.host); var fromPaths = tryLoadModuleUsingPaths(extensions, rest, packageDirectory, packageInfo.versionPaths.paths, loader, !packageDirectoryExists, state); if (fromPaths) { return fromPaths.value; } } } return loader(extensions, candidate, !nodeModulesDirectoryExists, state); } function tryLoadModuleUsingPaths(extensions, moduleName, baseDirectory, paths, loader, onlyRecordFailures, state) { var matchedPattern = ts.matchPatternOrExact(ts.getOwnKeys(paths), moduleName); if (matchedPattern) { var matchedStar_1 = ts.isString(matchedPattern) ? undefined : ts.matchedText(matchedPattern, moduleName); var matchedPatternText = ts.isString(matchedPattern) ? matchedPattern : ts.patternText(matchedPattern); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Module_name_0_matched_pattern_1, moduleName, matchedPatternText); } var resolved = ts.forEach(paths[matchedPatternText], function (subst) { var path = matchedStar_1 ? subst.replace("*", matchedStar_1) : subst; var candidate = ts.normalizePath(ts.combinePaths(baseDirectory, path)); if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Trying_substitution_0_candidate_module_location_Colon_1, subst, path); } // A path mapping may have an extension, in contrast to an import, which should omit it. var extension = ts.tryGetExtensionFromPath(candidate); if (extension !== undefined) { var path_1 = tryFile(candidate, onlyRecordFailures, state); if (path_1 !== undefined) { return noPackageId({ path: path_1, ext: extension }); } } return loader(extensions, candidate, onlyRecordFailures || !ts.directoryProbablyExists(ts.getDirectoryPath(candidate), state.host), state); }); return { value: resolved }; } } /** Double underscores are used in DefinitelyTyped to delimit scoped packages. */ var mangledScopedPackageSeparator = "__"; /** For a scoped package, we must look in `@types/foo__bar` instead of `@types/@foo/bar`. */ function mangleScopedPackageNameWithTrace(packageName, state) { var mangled = mangleScopedPackageName(packageName); if (state.traceEnabled && mangled !== packageName) { trace(state.host, ts.Diagnostics.Scoped_package_detected_looking_in_0, mangled); } return mangled; } /* @internal */ function getTypesPackageName(packageName) { return "@types/" + mangleScopedPackageName(packageName); } ts.getTypesPackageName = getTypesPackageName; /* @internal */ function mangleScopedPackageName(packageName) { if (ts.startsWith(packageName, "@")) { var replaceSlash = packageName.replace(ts.directorySeparator, mangledScopedPackageSeparator); if (replaceSlash !== packageName) { return replaceSlash.slice(1); // Take off the "@" } } return packageName; } ts.mangleScopedPackageName = mangleScopedPackageName; /* @internal */ function getPackageNameFromTypesPackageName(mangledName) { var withoutAtTypePrefix = ts.removePrefix(mangledName, "@types/"); if (withoutAtTypePrefix !== mangledName) { return unmangleScopedPackageName(withoutAtTypePrefix); } return mangledName; } ts.getPackageNameFromTypesPackageName = getPackageNameFromTypesPackageName; /* @internal */ function unmangleScopedPackageName(typesPackageName) { return ts.stringContains(typesPackageName, mangledScopedPackageSeparator) ? "@" + typesPackageName.replace(mangledScopedPackageSeparator, ts.directorySeparator) : typesPackageName; } ts.unmangleScopedPackageName = unmangleScopedPackageName; function tryFindNonRelativeModuleNameInCache(cache, moduleName, containingDirectory, state) { var result = cache && cache.get(containingDirectory); if (result) { if (state.traceEnabled) { trace(state.host, ts.Diagnostics.Resolution_for_module_0_was_found_in_cache_from_location_1, moduleName, containingDirectory); } state.resultFromCache = result; return { value: result.resolvedModule && { path: result.resolvedModule.resolvedFileName, originalPath: result.resolvedModule.originalPath || true, extension: result.resolvedModule.extension, packageId: result.resolvedModule.packageId } }; } } function classicNameResolver(moduleName, containingFile, compilerOptions, host, cache, redirectedReference) { var traceEnabled = isTraceEnabled(compilerOptions, host); var failedLookupLocations = []; var state = { compilerOptions: compilerOptions, host: host, traceEnabled: traceEnabled, failedLookupLocations: failedLookupLocations }; var containingDirectory = ts.getDirectoryPath(containingFile); var resolved = tryResolve(Extensions.TypeScript) || tryResolve(Extensions.JavaScript); // No originalPath because classic resolution doesn't resolve realPath return createResolvedModuleWithFailedLookupLocations(resolved && resolved.value, /*isExternalLibraryImport*/ false, failedLookupLocations, state.resultFromCache); function tryResolve(extensions) { var resolvedUsingSettings = tryLoadModuleUsingOptionalResolutionSettings(extensions, moduleName, containingDirectory, loadModuleFromFileNoPackageId, state); if (resolvedUsingSettings) { return { value: resolvedUsingSettings }; } if (!ts.isExternalModuleNameRelative(moduleName)) { var perModuleNameCache_1 = cache && cache.getOrCreateCacheForModuleName(moduleName, redirectedReference); // Climb up parent directories looking for a module. var resolved_3 = ts.forEachAncestorDirectory(containingDirectory, function (directory) { var resolutionFromCache = tryFindNonRelativeModuleNameInCache(perModuleNameCache_1, moduleName, directory, state); if (resolutionFromCache) { return resolutionFromCache; } var searchName = ts.normalizePath(ts.combinePaths(directory, moduleName)); return toSearchResult(loadModuleFromFileNoPackageId(extensions, searchName, /*onlyRecordFailures*/ false, state)); }); if (resolved_3) { return resolved_3; } if (extensions === Extensions.TypeScript) { // If we didn't find the file normally, look it up in @types. return loadModuleFromNearestNodeModulesDirectoryTypesScope(moduleName, containingDirectory, state); } } else { var candidate = ts.normalizePath(ts.combinePaths(containingDirectory, moduleName)); return toSearchResult(loadModuleFromFileNoPackageId(extensions, candidate, /*onlyRecordFailures*/ false, state)); } } } ts.classicNameResolver = classicNameResolver; /** * A host may load a module from a global cache of typings. * This is the minumum code needed to expose that functionality; the rest is in the host. */ /* @internal */ function loadModuleFromGlobalCache(moduleName, projectName, compilerOptions, host, globalCache) { var traceEnabled = isTraceEnabled(compilerOptions, host); if (traceEnabled) { trace(host, ts.Diagnostics.Auto_discovery_for_typings_is_enabled_in_project_0_Running_extra_resolution_pass_for_module_1_using_cache_location_2, projectName, moduleName, globalCache); } var failedLookupLocations = []; var state = { compilerOptions: compilerOptions, host: host, traceEnabled: traceEnabled, failedLookupLocations: failedLookupLocations }; var resolved = loadModuleFromImmediateNodeModulesDirectory(Extensions.DtsOnly, moduleName, globalCache, state, /*typesScopeOnly*/ false); return createResolvedModuleWithFailedLookupLocations(resolved, /*isExternalLibraryImport*/ true, failedLookupLocations, state.resultFromCache); } ts.loadModuleFromGlobalCache = loadModuleFromGlobalCache; /** * Wraps value to SearchResult. * @returns undefined if value is undefined or { value } otherwise */ function toSearchResult(value) { return value !== undefined ? { value: value } : undefined; } })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { var ModuleInstanceState; (function (ModuleInstanceState) { ModuleInstanceState[ModuleInstanceState["NonInstantiated"] = 0] = "NonInstantiated"; ModuleInstanceState[ModuleInstanceState["Instantiated"] = 1] = "Instantiated"; ModuleInstanceState[ModuleInstanceState["ConstEnumOnly"] = 2] = "ConstEnumOnly"; })(ModuleInstanceState = ts.ModuleInstanceState || (ts.ModuleInstanceState = {})); function getModuleInstanceState(node, visited) { if (node.body && !node.body.parent) { // getModuleInstanceStateForAliasTarget needs to walk up the parent chain, so parent pointers must be set on this tree already setParentPointers(node, node.body); } return node.body ? getModuleInstanceStateCached(node.body, visited) : 1 /* Instantiated */; } ts.getModuleInstanceState = getModuleInstanceState; function getModuleInstanceStateCached(node, visited) { if (visited === void 0) { visited = ts.createMap(); } var nodeId = "" + ts.getNodeId(node); if (visited.has(nodeId)) { return visited.get(nodeId) || 0 /* NonInstantiated */; } visited.set(nodeId, undefined); var result = getModuleInstanceStateWorker(node, visited); visited.set(nodeId, result); return result; } function getModuleInstanceStateWorker(node, visited) { // A module is uninstantiated if it contains only switch (node.kind) { // 1. interface declarations, type alias declarations case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: return 0 /* NonInstantiated */; // 2. const enum declarations case 248 /* EnumDeclaration */: if (ts.isEnumConst(node)) { return 2 /* ConstEnumOnly */; } break; // 3. non-exported import declarations case 254 /* ImportDeclaration */: case 253 /* ImportEqualsDeclaration */: if (!(ts.hasModifier(node, 1 /* Export */))) { return 0 /* NonInstantiated */; } break; // 4. Export alias declarations pointing at only uninstantiated modules or things uninstantiated modules contain case 260 /* ExportDeclaration */: var exportDeclaration = node; if (!exportDeclaration.moduleSpecifier && exportDeclaration.exportClause && exportDeclaration.exportClause.kind === 261 /* NamedExports */) { var state = 0 /* NonInstantiated */; for (var _i = 0, _a = exportDeclaration.exportClause.elements; _i < _a.length; _i++) { var specifier = _a[_i]; var specifierState = getModuleInstanceStateForAliasTarget(specifier, visited); if (specifierState > state) { state = specifierState; } if (state === 1 /* Instantiated */) { return state; } } return state; } break; // 5. other uninstantiated module declarations. case 250 /* ModuleBlock */: { var state_1 = 0 /* NonInstantiated */; ts.forEachChild(node, function (n) { var childState = getModuleInstanceStateCached(n, visited); switch (childState) { case 0 /* NonInstantiated */: // child is non-instantiated - continue searching return; case 2 /* ConstEnumOnly */: // child is const enum only - record state and continue searching state_1 = 2 /* ConstEnumOnly */; return; case 1 /* Instantiated */: // child is instantiated - record state and stop state_1 = 1 /* Instantiated */; return true; default: ts.Debug.assertNever(childState); } }); return state_1; } case 249 /* ModuleDeclaration */: return getModuleInstanceState(node, visited); case 75 /* Identifier */: // Only jsdoc typedef definition can exist in jsdoc namespace, and it should // be considered the same as type alias if (node.isInJSDocNamespace) { return 0 /* NonInstantiated */; } } return 1 /* Instantiated */; } function getModuleInstanceStateForAliasTarget(specifier, visited) { var name = specifier.propertyName || specifier.name; var p = specifier.parent; while (p) { if (ts.isBlock(p) || ts.isModuleBlock(p) || ts.isSourceFile(p)) { var statements = p.statements; var found = void 0; for (var _i = 0, statements_1 = statements; _i < statements_1.length; _i++) { var statement = statements_1[_i]; if (ts.nodeHasName(statement, name)) { if (!statement.parent) { setParentPointers(p, statement); } var state = getModuleInstanceStateCached(statement, visited); if (found === undefined || state > found) { found = state; } if (found === 1 /* Instantiated */) { return found; } } } if (found !== undefined) { return found; } } p = p.parent; } return 1 /* Instantiated */; // Couldn't locate, assume could refer to a value } var ContainerFlags; (function (ContainerFlags) { // The current node is not a container, and no container manipulation should happen before // recursing into it. ContainerFlags[ContainerFlags["None"] = 0] = "None"; // The current node is a container. It should be set as the current container (and block- // container) before recursing into it. The current node does not have locals. Examples: // // Classes, ObjectLiterals, TypeLiterals, Interfaces... ContainerFlags[ContainerFlags["IsContainer"] = 1] = "IsContainer"; // The current node is a block-scoped-container. It should be set as the current block- // container before recursing into it. Examples: // // Blocks (when not parented by functions), Catch clauses, For/For-in/For-of statements... ContainerFlags[ContainerFlags["IsBlockScopedContainer"] = 2] = "IsBlockScopedContainer"; // The current node is the container of a control flow path. The current control flow should // be saved and restored, and a new control flow initialized within the container. ContainerFlags[ContainerFlags["IsControlFlowContainer"] = 4] = "IsControlFlowContainer"; ContainerFlags[ContainerFlags["IsFunctionLike"] = 8] = "IsFunctionLike"; ContainerFlags[ContainerFlags["IsFunctionExpression"] = 16] = "IsFunctionExpression"; ContainerFlags[ContainerFlags["HasLocals"] = 32] = "HasLocals"; ContainerFlags[ContainerFlags["IsInterface"] = 64] = "IsInterface"; ContainerFlags[ContainerFlags["IsObjectLiteralOrClassExpressionMethod"] = 128] = "IsObjectLiteralOrClassExpressionMethod"; })(ContainerFlags || (ContainerFlags = {})); function initFlowNode(node) { ts.Debug.attachFlowNodeDebugInfo(node); return node; } var binder = createBinder(); function bindSourceFile(file, options) { ts.performance.mark("beforeBind"); ts.perfLogger.logStartBindFile("" + file.fileName); binder(file, options); ts.perfLogger.logStopBindFile(); ts.performance.mark("afterBind"); ts.performance.measure("Bind", "beforeBind", "afterBind"); } ts.bindSourceFile = bindSourceFile; function createBinder() { var file; var options; var languageVersion; var parent; var container; var thisParentContainer; // Container one level up var blockScopeContainer; var lastContainer; var delayedTypeAliases; var seenThisKeyword; // state used by control flow analysis var currentFlow; var currentBreakTarget; var currentContinueTarget; var currentReturnTarget; var currentTrueTarget; var currentFalseTarget; var currentExceptionTarget; var preSwitchCaseFlow; var activeLabelList; var hasExplicitReturn; // state used for emit helpers var emitFlags; // If this file is an external module, then it is automatically in strict-mode according to // ES6. If it is not an external module, then we'll determine if it is in strict mode or // not depending on if we see "use strict" in certain places or if we hit a class/namespace // or if compiler options contain alwaysStrict. var inStrictMode; var symbolCount = 0; var Symbol; var classifiableNames; var unreachableFlow = { flags: 1 /* Unreachable */ }; var reportedUnreachableFlow = { flags: 1 /* Unreachable */ }; // state used to aggregate transform flags during bind. var subtreeTransformFlags = 0 /* None */; var skipTransformFlagAggregation; /** * Inside the binder, we may create a diagnostic for an as-yet unbound node (with potentially no parent pointers, implying no accessible source file) * If so, the node _must_ be in the current file (as that's the only way anything could have traversed to it to yield it as the error node) * This version of `createDiagnosticForNode` uses the binder's context to account for this, and always yields correct diagnostics even in these situations. */ function createDiagnosticForNode(node, message, arg0, arg1, arg2) { return ts.createDiagnosticForNodeInSourceFile(ts.getSourceFileOfNode(node) || file, node, message, arg0, arg1, arg2); } function bindSourceFile(f, opts) { file = f; options = opts; languageVersion = ts.getEmitScriptTarget(options); inStrictMode = bindInStrictMode(file, opts); classifiableNames = ts.createUnderscoreEscapedMap(); symbolCount = 0; skipTransformFlagAggregation = file.isDeclarationFile; Symbol = ts.objectAllocator.getSymbolConstructor(); // Attach debugging information if necessary ts.Debug.attachFlowNodeDebugInfo(unreachableFlow); ts.Debug.attachFlowNodeDebugInfo(reportedUnreachableFlow); if (!file.locals) { bind(file); file.symbolCount = symbolCount; file.classifiableNames = classifiableNames; delayedBindJSDocTypedefTag(); } file = undefined; options = undefined; languageVersion = undefined; parent = undefined; container = undefined; thisParentContainer = undefined; blockScopeContainer = undefined; lastContainer = undefined; delayedTypeAliases = undefined; seenThisKeyword = false; currentFlow = undefined; currentBreakTarget = undefined; currentContinueTarget = undefined; currentReturnTarget = undefined; currentTrueTarget = undefined; currentFalseTarget = undefined; currentExceptionTarget = undefined; activeLabelList = undefined; hasExplicitReturn = false; emitFlags = 0 /* None */; subtreeTransformFlags = 0 /* None */; } return bindSourceFile; function bindInStrictMode(file, opts) { if (ts.getStrictOptionValue(opts, "alwaysStrict") && !file.isDeclarationFile) { // bind in strict mode source files with alwaysStrict option return true; } else { return !!file.externalModuleIndicator; } } function createSymbol(flags, name) { symbolCount++; return new Symbol(flags, name); } function addDeclarationToSymbol(symbol, node, symbolFlags) { symbol.flags |= symbolFlags; node.symbol = symbol; symbol.declarations = ts.appendIfUnique(symbol.declarations, node); if (symbolFlags & (32 /* Class */ | 384 /* Enum */ | 1536 /* Module */ | 3 /* Variable */) && !symbol.exports) { symbol.exports = ts.createSymbolTable(); } if (symbolFlags & (32 /* Class */ | 64 /* Interface */ | 2048 /* TypeLiteral */ | 4096 /* ObjectLiteral */) && !symbol.members) { symbol.members = ts.createSymbolTable(); } // On merge of const enum module with class or function, reset const enum only flag (namespaces will already recalculate) if (symbol.constEnumOnlyModule && (symbol.flags & (16 /* Function */ | 32 /* Class */ | 256 /* RegularEnum */))) { symbol.constEnumOnlyModule = false; } if (symbolFlags & 111551 /* Value */) { ts.setValueDeclaration(symbol, node); } } // Should not be called on a declaration with a computed property name, // unless it is a well known Symbol. function getDeclarationName(node) { if (node.kind === 259 /* ExportAssignment */) { return node.isExportEquals ? "export=" /* ExportEquals */ : "default" /* Default */; } var name = ts.getNameOfDeclaration(node); if (name) { if (ts.isAmbientModule(node)) { var moduleName = ts.getTextOfIdentifierOrLiteral(name); return (ts.isGlobalScopeAugmentation(node) ? "__global" : "\"" + moduleName + "\""); } if (name.kind === 154 /* ComputedPropertyName */) { var nameExpression = name.expression; // treat computed property names where expression is string/numeric literal as just string/numeric literal if (ts.isStringOrNumericLiteralLike(nameExpression)) { return ts.escapeLeadingUnderscores(nameExpression.text); } if (ts.isSignedNumericLiteral(nameExpression)) { return ts.tokenToString(nameExpression.operator) + nameExpression.operand.text; } ts.Debug.assert(ts.isWellKnownSymbolSyntactically(nameExpression)); return ts.getPropertyNameForKnownSymbolName(ts.idText(nameExpression.name)); } if (ts.isWellKnownSymbolSyntactically(name)) { return ts.getPropertyNameForKnownSymbolName(ts.idText(name.name)); } if (ts.isPrivateIdentifier(name)) { // containingClass exists because private names only allowed inside classes var containingClass = ts.getContainingClass(node); if (!containingClass) { // we can get here in cases where there is already a parse error. return undefined; } var containingClassSymbol = containingClass.symbol; return ts.getSymbolNameForPrivateIdentifier(containingClassSymbol, name.escapedText); } return ts.isPropertyNameLiteral(name) ? ts.getEscapedTextOfIdentifierOrLiteral(name) : undefined; } switch (node.kind) { case 162 /* Constructor */: return "__constructor" /* Constructor */; case 170 /* FunctionType */: case 165 /* CallSignature */: case 305 /* JSDocSignature */: return "__call" /* Call */; case 171 /* ConstructorType */: case 166 /* ConstructSignature */: return "__new" /* New */; case 167 /* IndexSignature */: return "__index" /* Index */; case 260 /* ExportDeclaration */: return "__export" /* ExportStar */; case 290 /* SourceFile */: // json file should behave as // module.exports = ... return "export=" /* ExportEquals */; case 209 /* BinaryExpression */: if (ts.getAssignmentDeclarationKind(node) === 2 /* ModuleExports */) { // module.exports = ... return "export=" /* ExportEquals */; } ts.Debug.fail("Unknown binary declaration kind"); break; case 300 /* JSDocFunctionType */: return (ts.isJSDocConstructSignature(node) ? "__new" /* New */ : "__call" /* Call */); case 156 /* Parameter */: // Parameters with names are handled at the top of this function. Parameters // without names can only come from JSDocFunctionTypes. ts.Debug.assert(node.parent.kind === 300 /* JSDocFunctionType */, "Impossible parameter parent kind", function () { return "parent is: " + (ts.SyntaxKind ? ts.SyntaxKind[node.parent.kind] : node.parent.kind) + ", expected JSDocFunctionType"; }); var functionType = node.parent; var index = functionType.parameters.indexOf(node); return "arg" + index; } } function getDisplayName(node) { return ts.isNamedDeclaration(node) ? ts.declarationNameToString(node.name) : ts.unescapeLeadingUnderscores(ts.Debug.checkDefined(getDeclarationName(node))); } /** * Declares a Symbol for the node and adds it to symbols. Reports errors for conflicting identifier names. * @param symbolTable - The symbol table which node will be added to. * @param parent - node's parent declaration. * @param node - The declaration to be added to the symbol table * @param includes - The SymbolFlags that node has in addition to its declaration type (eg: export, ambient, etc.) * @param excludes - The flags which node cannot be declared alongside in a symbol table. Used to report forbidden declarations. */ function declareSymbol(symbolTable, parent, node, includes, excludes, isReplaceableByMethod) { ts.Debug.assert(!ts.hasDynamicName(node)); var isDefaultExport = ts.hasModifier(node, 512 /* Default */) || ts.isExportSpecifier(node) && node.name.escapedText === "default"; // The exported symbol for an export default function/class node is always named "default" var name = isDefaultExport && parent ? "default" /* Default */ : getDeclarationName(node); var symbol; if (name === undefined) { symbol = createSymbol(0 /* None */, "__missing" /* Missing */); } else { // Check and see if the symbol table already has a symbol with this name. If not, // create a new symbol with this name and add it to the table. Note that we don't // give the new symbol any flags *yet*. This ensures that it will not conflict // with the 'excludes' flags we pass in. // // If we do get an existing symbol, see if it conflicts with the new symbol we're // creating. For example, a 'var' symbol and a 'class' symbol will conflict within // the same symbol table. If we have a conflict, report the issue on each // declaration we have for this symbol, and then create a new symbol for this // declaration. // // Note that when properties declared in Javascript constructors // (marked by isReplaceableByMethod) conflict with another symbol, the property loses. // Always. This allows the common Javascript pattern of overwriting a prototype method // with an bound instance method of the same type: `this.method = this.method.bind(this)` // // If we created a new symbol, either because we didn't have a symbol with this name // in the symbol table, or we conflicted with an existing symbol, then just add this // node as the sole declaration of the new symbol. // // Otherwise, we'll be merging into a compatible existing symbol (for example when // you have multiple 'vars' with the same name in the same container). In this case // just add this node into the declarations list of the symbol. symbol = symbolTable.get(name); if (includes & 2885600 /* Classifiable */) { classifiableNames.set(name, true); } if (!symbol) { symbolTable.set(name, symbol = createSymbol(0 /* None */, name)); if (isReplaceableByMethod) symbol.isReplaceableByMethod = true; } else if (isReplaceableByMethod && !symbol.isReplaceableByMethod) { // A symbol already exists, so don't add this as a declaration. return symbol; } else if (symbol.flags & excludes) { if (symbol.isReplaceableByMethod) { // Javascript constructor-declared symbols can be discarded in favor of // prototype symbols like methods. symbolTable.set(name, symbol = createSymbol(0 /* None */, name)); } else if (!(includes & 3 /* Variable */ && symbol.flags & 67108864 /* Assignment */)) { // Assignment declarations are allowed to merge with variables, no matter what other flags they have. if (ts.isNamedDeclaration(node)) { node.name.parent = node; } // Report errors every position with duplicate declaration // Report errors on previous encountered declarations var message_1 = symbol.flags & 2 /* BlockScopedVariable */ ? ts.Diagnostics.Cannot_redeclare_block_scoped_variable_0 : ts.Diagnostics.Duplicate_identifier_0; var messageNeedsName_1 = true; if (symbol.flags & 384 /* Enum */ || includes & 384 /* Enum */) { message_1 = ts.Diagnostics.Enum_declarations_can_only_merge_with_namespace_or_other_enum_declarations; messageNeedsName_1 = false; } var multipleDefaultExports_1 = false; if (ts.length(symbol.declarations)) { // If the current node is a default export of some sort, then check if // there are any other default exports that we need to error on. // We'll know whether we have other default exports depending on if `symbol` already has a declaration list set. if (isDefaultExport) { message_1 = ts.Diagnostics.A_module_cannot_have_multiple_default_exports; messageNeedsName_1 = false; multipleDefaultExports_1 = true; } else { // This is to properly report an error in the case "export default { }" is after export default of class declaration or function declaration. // Error on multiple export default in the following case: // 1. multiple export default of class declaration or function declaration by checking NodeFlags.Default // 2. multiple export default of export assignment. This one doesn't have NodeFlags.Default on (as export default doesn't considered as modifiers) if (symbol.declarations && symbol.declarations.length && (node.kind === 259 /* ExportAssignment */ && !node.isExportEquals)) { message_1 = ts.Diagnostics.A_module_cannot_have_multiple_default_exports; messageNeedsName_1 = false; multipleDefaultExports_1 = true; } } } var relatedInformation_1 = []; if (ts.isTypeAliasDeclaration(node) && ts.nodeIsMissing(node.type) && ts.hasModifier(node, 1 /* Export */) && symbol.flags & (2097152 /* Alias */ | 788968 /* Type */ | 1920 /* Namespace */)) { // export type T; - may have meant export type { T }? relatedInformation_1.push(createDiagnosticForNode(node, ts.Diagnostics.Did_you_mean_0, "export type { " + ts.unescapeLeadingUnderscores(node.name.escapedText) + " }")); } var declarationName_1 = ts.getNameOfDeclaration(node) || node; ts.forEach(symbol.declarations, function (declaration, index) { var decl = ts.getNameOfDeclaration(declaration) || declaration; var diag = createDiagnosticForNode(decl, message_1, messageNeedsName_1 ? getDisplayName(declaration) : undefined); file.bindDiagnostics.push(multipleDefaultExports_1 ? ts.addRelatedInfo(diag, createDiagnosticForNode(declarationName_1, index === 0 ? ts.Diagnostics.Another_export_default_is_here : ts.Diagnostics.and_here)) : diag); if (multipleDefaultExports_1) { relatedInformation_1.push(createDiagnosticForNode(decl, ts.Diagnostics.The_first_export_default_is_here)); } }); var diag = createDiagnosticForNode(declarationName_1, message_1, messageNeedsName_1 ? getDisplayName(node) : undefined); file.bindDiagnostics.push(ts.addRelatedInfo.apply(void 0, __spreadArrays([diag], relatedInformation_1))); symbol = createSymbol(0 /* None */, name); } } } addDeclarationToSymbol(symbol, node, includes); if (symbol.parent) { ts.Debug.assert(symbol.parent === parent, "Existing symbol parent should match new one"); } else { symbol.parent = parent; } return symbol; } function declareModuleMember(node, symbolFlags, symbolExcludes) { var hasExportModifier = ts.getCombinedModifierFlags(node) & 1 /* Export */; if (symbolFlags & 2097152 /* Alias */) { if (node.kind === 263 /* ExportSpecifier */ || (node.kind === 253 /* ImportEqualsDeclaration */ && hasExportModifier)) { return declareSymbol(container.symbol.exports, container.symbol, node, symbolFlags, symbolExcludes); } else { return declareSymbol(container.locals, /*parent*/ undefined, node, symbolFlags, symbolExcludes); } } else { // Exported module members are given 2 symbols: A local symbol that is classified with an ExportValue flag, // and an associated export symbol with all the correct flags set on it. There are 2 main reasons: // // 1. We treat locals and exports of the same name as mutually exclusive within a container. // That means the binder will issue a Duplicate Identifier error if you mix locals and exports // with the same name in the same container. // TODO: Make this a more specific error and decouple it from the exclusion logic. // 2. When we checkIdentifier in the checker, we set its resolved symbol to the local symbol, // but return the export symbol (by calling getExportSymbolOfValueSymbolIfExported). That way // when the emitter comes back to it, it knows not to qualify the name if it was found in a containing scope. // NOTE: Nested ambient modules always should go to to 'locals' table to prevent their automatic merge // during global merging in the checker. Why? The only case when ambient module is permitted inside another module is module augmentation // and this case is specially handled. Module augmentations should only be merged with original module definition // and should never be merged directly with other augmentation, and the latter case would be possible if automatic merge is allowed. if (ts.isJSDocTypeAlias(node)) ts.Debug.assert(ts.isInJSFile(node)); // We shouldn't add symbols for JSDoc nodes if not in a JS file. if ((!ts.isAmbientModule(node) && (hasExportModifier || container.flags & 64 /* ExportContext */)) || ts.isJSDocTypeAlias(node)) { if (!container.locals || (ts.hasModifier(node, 512 /* Default */) && !getDeclarationName(node))) { return declareSymbol(container.symbol.exports, container.symbol, node, symbolFlags, symbolExcludes); // No local symbol for an unnamed default! } var exportKind = symbolFlags & 111551 /* Value */ ? 1048576 /* ExportValue */ : 0; var local = declareSymbol(container.locals, /*parent*/ undefined, node, exportKind, symbolExcludes); local.exportSymbol = declareSymbol(container.symbol.exports, container.symbol, node, symbolFlags, symbolExcludes); node.localSymbol = local; return local; } else { return declareSymbol(container.locals, /*parent*/ undefined, node, symbolFlags, symbolExcludes); } } } // All container nodes are kept on a linked list in declaration order. This list is used by // the getLocalNameOfContainer function in the type checker to validate that the local name // used for a container is unique. function bindContainer(node, containerFlags) { // Before we recurse into a node's children, we first save the existing parent, container // and block-container. Then after we pop out of processing the children, we restore // these saved values. var saveContainer = container; var saveThisParentContainer = thisParentContainer; var savedBlockScopeContainer = blockScopeContainer; // Depending on what kind of node this is, we may have to adjust the current container // and block-container. If the current node is a container, then it is automatically // considered the current block-container as well. Also, for containers that we know // may contain locals, we eagerly initialize the .locals field. We do this because // it's highly likely that the .locals will be needed to place some child in (for example, // a parameter, or variable declaration). // // However, we do not proactively create the .locals for block-containers because it's // totally normal and common for block-containers to never actually have a block-scoped // variable in them. We don't want to end up allocating an object for every 'block' we // run into when most of them won't be necessary. // // Finally, if this is a block-container, then we clear out any existing .locals object // it may contain within it. This happens in incremental scenarios. Because we can be // reusing a node from a previous compilation, that node may have had 'locals' created // for it. We must clear this so we don't accidentally move any stale data forward from // a previous compilation. if (containerFlags & 1 /* IsContainer */) { if (node.kind !== 202 /* ArrowFunction */) { thisParentContainer = container; } container = blockScopeContainer = node; if (containerFlags & 32 /* HasLocals */) { container.locals = ts.createSymbolTable(); } addToContainerChain(container); } else if (containerFlags & 2 /* IsBlockScopedContainer */) { blockScopeContainer = node; blockScopeContainer.locals = undefined; } if (containerFlags & 4 /* IsControlFlowContainer */) { var saveCurrentFlow = currentFlow; var saveBreakTarget = currentBreakTarget; var saveContinueTarget = currentContinueTarget; var saveReturnTarget = currentReturnTarget; var saveExceptionTarget = currentExceptionTarget; var saveActiveLabelList = activeLabelList; var saveHasExplicitReturn = hasExplicitReturn; var isIIFE = containerFlags & 16 /* IsFunctionExpression */ && !ts.hasModifier(node, 256 /* Async */) && !node.asteriskToken && !!ts.getImmediatelyInvokedFunctionExpression(node); // A non-async, non-generator IIFE is considered part of the containing control flow. Return statements behave // similarly to break statements that exit to a label just past the statement body. if (!isIIFE) { currentFlow = initFlowNode({ flags: 2 /* Start */ }); if (containerFlags & (16 /* IsFunctionExpression */ | 128 /* IsObjectLiteralOrClassExpressionMethod */)) { currentFlow.node = node; } } // We create a return control flow graph for IIFEs and constructors. For constructors // we use the return control flow graph in strict property initialization checks. currentReturnTarget = isIIFE || node.kind === 162 /* Constructor */ ? createBranchLabel() : undefined; currentExceptionTarget = undefined; currentBreakTarget = undefined; currentContinueTarget = undefined; activeLabelList = undefined; hasExplicitReturn = false; bindChildren(node); // Reset all reachability check related flags on node (for incremental scenarios) node.flags &= ~2816 /* ReachabilityAndEmitFlags */; if (!(currentFlow.flags & 1 /* Unreachable */) && containerFlags & 8 /* IsFunctionLike */ && ts.nodeIsPresent(node.body)) { node.flags |= 256 /* HasImplicitReturn */; if (hasExplicitReturn) node.flags |= 512 /* HasExplicitReturn */; node.endFlowNode = currentFlow; } if (node.kind === 290 /* SourceFile */) { node.flags |= emitFlags; } if (currentReturnTarget) { addAntecedent(currentReturnTarget, currentFlow); currentFlow = finishFlowLabel(currentReturnTarget); if (node.kind === 162 /* Constructor */) { node.returnFlowNode = currentFlow; } } if (!isIIFE) { currentFlow = saveCurrentFlow; } currentBreakTarget = saveBreakTarget; currentContinueTarget = saveContinueTarget; currentReturnTarget = saveReturnTarget; currentExceptionTarget = saveExceptionTarget; activeLabelList = saveActiveLabelList; hasExplicitReturn = saveHasExplicitReturn; } else if (containerFlags & 64 /* IsInterface */) { seenThisKeyword = false; bindChildren(node); node.flags = seenThisKeyword ? node.flags | 128 /* ContainsThis */ : node.flags & ~128 /* ContainsThis */; } else { bindChildren(node); } container = saveContainer; thisParentContainer = saveThisParentContainer; blockScopeContainer = savedBlockScopeContainer; } function bindChildren(node) { if (skipTransformFlagAggregation) { bindChildrenWorker(node); } else if (node.transformFlags & 536870912 /* HasComputedFlags */) { skipTransformFlagAggregation = true; bindChildrenWorker(node); skipTransformFlagAggregation = false; subtreeTransformFlags |= node.transformFlags & ~getTransformFlagsSubtreeExclusions(node.kind); } else { var savedSubtreeTransformFlags = subtreeTransformFlags; subtreeTransformFlags = 0; bindChildrenWorker(node); subtreeTransformFlags = savedSubtreeTransformFlags | computeTransformFlagsForNode(node, subtreeTransformFlags); } } function bindEachFunctionsFirst(nodes) { bindEach(nodes, function (n) { return n.kind === 244 /* FunctionDeclaration */ ? bind(n) : undefined; }); bindEach(nodes, function (n) { return n.kind !== 244 /* FunctionDeclaration */ ? bind(n) : undefined; }); } function bindEach(nodes, bindFunction) { if (bindFunction === void 0) { bindFunction = bind; } if (nodes === undefined) { return; } if (skipTransformFlagAggregation) { ts.forEach(nodes, bindFunction); } else { var savedSubtreeTransformFlags = subtreeTransformFlags; subtreeTransformFlags = 0 /* None */; var nodeArrayFlags = 0 /* None */; for (var _i = 0, nodes_2 = nodes; _i < nodes_2.length; _i++) { var node = nodes_2[_i]; bindFunction(node); nodeArrayFlags |= node.transformFlags & ~536870912 /* HasComputedFlags */; } nodes.transformFlags = nodeArrayFlags | 536870912 /* HasComputedFlags */; subtreeTransformFlags |= savedSubtreeTransformFlags; } } function bindEachChild(node) { ts.forEachChild(node, bind, bindEach); } function bindChildrenWorker(node) { if (checkUnreachable(node)) { bindEachChild(node); bindJSDoc(node); return; } if (node.kind >= 225 /* FirstStatement */ && node.kind <= 241 /* LastStatement */ && !options.allowUnreachableCode) { node.flowNode = currentFlow; } switch (node.kind) { case 229 /* WhileStatement */: bindWhileStatement(node); break; case 228 /* DoStatement */: bindDoStatement(node); break; case 230 /* ForStatement */: bindForStatement(node); break; case 231 /* ForInStatement */: case 232 /* ForOfStatement */: bindForInOrForOfStatement(node); break; case 227 /* IfStatement */: bindIfStatement(node); break; case 235 /* ReturnStatement */: case 239 /* ThrowStatement */: bindReturnOrThrow(node); break; case 234 /* BreakStatement */: case 233 /* ContinueStatement */: bindBreakOrContinueStatement(node); break; case 240 /* TryStatement */: bindTryStatement(node); break; case 237 /* SwitchStatement */: bindSwitchStatement(node); break; case 251 /* CaseBlock */: bindCaseBlock(node); break; case 277 /* CaseClause */: bindCaseClause(node); break; case 226 /* ExpressionStatement */: bindExpressionStatement(node); break; case 238 /* LabeledStatement */: bindLabeledStatement(node); break; case 207 /* PrefixUnaryExpression */: bindPrefixUnaryExpressionFlow(node); break; case 208 /* PostfixUnaryExpression */: bindPostfixUnaryExpressionFlow(node); break; case 209 /* BinaryExpression */: bindBinaryExpressionFlow(node); break; case 203 /* DeleteExpression */: bindDeleteExpressionFlow(node); break; case 210 /* ConditionalExpression */: bindConditionalExpressionFlow(node); break; case 242 /* VariableDeclaration */: bindVariableDeclarationFlow(node); break; case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: bindAccessExpressionFlow(node); break; case 196 /* CallExpression */: bindCallExpressionFlow(node); break; case 218 /* NonNullExpression */: bindNonNullExpressionFlow(node); break; case 322 /* JSDocTypedefTag */: case 315 /* JSDocCallbackTag */: case 316 /* JSDocEnumTag */: bindJSDocTypeAlias(node); break; // In source files and blocks, bind functions first to match hoisting that occurs at runtime case 290 /* SourceFile */: { bindEachFunctionsFirst(node.statements); bind(node.endOfFileToken); break; } case 223 /* Block */: case 250 /* ModuleBlock */: bindEachFunctionsFirst(node.statements); break; default: bindEachChild(node); break; } bindJSDoc(node); } function isNarrowingExpression(expr) { switch (expr.kind) { case 75 /* Identifier */: case 104 /* ThisKeyword */: case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return containsNarrowableReference(expr); case 196 /* CallExpression */: return hasNarrowableArgument(expr); case 200 /* ParenthesizedExpression */: return isNarrowingExpression(expr.expression); case 209 /* BinaryExpression */: return isNarrowingBinaryExpression(expr); case 207 /* PrefixUnaryExpression */: return expr.operator === 53 /* ExclamationToken */ && isNarrowingExpression(expr.operand); case 204 /* TypeOfExpression */: return isNarrowingExpression(expr.expression); } return false; } function isNarrowableReference(expr) { return expr.kind === 75 /* Identifier */ || expr.kind === 104 /* ThisKeyword */ || expr.kind === 102 /* SuperKeyword */ || (ts.isPropertyAccessExpression(expr) || ts.isNonNullExpression(expr) || ts.isParenthesizedExpression(expr)) && isNarrowableReference(expr.expression) || ts.isElementAccessExpression(expr) && ts.isStringOrNumericLiteralLike(expr.argumentExpression) && isNarrowableReference(expr.expression); } function containsNarrowableReference(expr) { return isNarrowableReference(expr) || ts.isOptionalChain(expr) && containsNarrowableReference(expr.expression); } function hasNarrowableArgument(expr) { if (expr.arguments) { for (var _i = 0, _a = expr.arguments; _i < _a.length; _i++) { var argument = _a[_i]; if (containsNarrowableReference(argument)) { return true; } } } if (expr.expression.kind === 194 /* PropertyAccessExpression */ && containsNarrowableReference(expr.expression.expression)) { return true; } return false; } function isNarrowingTypeofOperands(expr1, expr2) { return ts.isTypeOfExpression(expr1) && isNarrowableOperand(expr1.expression) && ts.isStringLiteralLike(expr2); } function isNarrowableInOperands(left, right) { return ts.isStringLiteralLike(left) && isNarrowingExpression(right); } function isNarrowingBinaryExpression(expr) { switch (expr.operatorToken.kind) { case 62 /* EqualsToken */: return containsNarrowableReference(expr.left); case 34 /* EqualsEqualsToken */: case 35 /* ExclamationEqualsToken */: case 36 /* EqualsEqualsEqualsToken */: case 37 /* ExclamationEqualsEqualsToken */: return isNarrowableOperand(expr.left) || isNarrowableOperand(expr.right) || isNarrowingTypeofOperands(expr.right, expr.left) || isNarrowingTypeofOperands(expr.left, expr.right); case 98 /* InstanceOfKeyword */: return isNarrowableOperand(expr.left); case 97 /* InKeyword */: return isNarrowableInOperands(expr.left, expr.right); case 27 /* CommaToken */: return isNarrowingExpression(expr.right); } return false; } function isNarrowableOperand(expr) { switch (expr.kind) { case 200 /* ParenthesizedExpression */: return isNarrowableOperand(expr.expression); case 209 /* BinaryExpression */: switch (expr.operatorToken.kind) { case 62 /* EqualsToken */: return isNarrowableOperand(expr.left); case 27 /* CommaToken */: return isNarrowableOperand(expr.right); } } return containsNarrowableReference(expr); } function createBranchLabel() { return initFlowNode({ flags: 4 /* BranchLabel */, antecedents: undefined }); } function createLoopLabel() { return initFlowNode({ flags: 8 /* LoopLabel */, antecedents: undefined }); } function createReduceLabel(target, antecedents, antecedent) { return initFlowNode({ flags: 1024 /* ReduceLabel */, target: target, antecedents: antecedents, antecedent: antecedent }); } function setFlowNodeReferenced(flow) { // On first reference we set the Referenced flag, thereafter we set the Shared flag flow.flags |= flow.flags & 2048 /* Referenced */ ? 4096 /* Shared */ : 2048 /* Referenced */; } function addAntecedent(label, antecedent) { if (!(antecedent.flags & 1 /* Unreachable */) && !ts.contains(label.antecedents, antecedent)) { (label.antecedents || (label.antecedents = [])).push(antecedent); setFlowNodeReferenced(antecedent); } } function createFlowCondition(flags, antecedent, expression) { if (antecedent.flags & 1 /* Unreachable */) { return antecedent; } if (!expression) { return flags & 32 /* TrueCondition */ ? antecedent : unreachableFlow; } if ((expression.kind === 106 /* TrueKeyword */ && flags & 64 /* FalseCondition */ || expression.kind === 91 /* FalseKeyword */ && flags & 32 /* TrueCondition */) && !ts.isExpressionOfOptionalChainRoot(expression) && !ts.isNullishCoalesce(expression.parent)) { return unreachableFlow; } if (!isNarrowingExpression(expression)) { return antecedent; } setFlowNodeReferenced(antecedent); return initFlowNode({ flags: flags, antecedent: antecedent, node: expression }); } function createFlowSwitchClause(antecedent, switchStatement, clauseStart, clauseEnd) { setFlowNodeReferenced(antecedent); return initFlowNode({ flags: 128 /* SwitchClause */, antecedent: antecedent, switchStatement: switchStatement, clauseStart: clauseStart, clauseEnd: clauseEnd }); } function createFlowMutation(flags, antecedent, node) { setFlowNodeReferenced(antecedent); var result = initFlowNode({ flags: flags, antecedent: antecedent, node: node }); if (currentExceptionTarget) { addAntecedent(currentExceptionTarget, result); } return result; } function createFlowCall(antecedent, node) { setFlowNodeReferenced(antecedent); return initFlowNode({ flags: 512 /* Call */, antecedent: antecedent, node: node }); } function finishFlowLabel(flow) { var antecedents = flow.antecedents; if (!antecedents) { return unreachableFlow; } if (antecedents.length === 1) { return antecedents[0]; } return flow; } function isStatementCondition(node) { var parent = node.parent; switch (parent.kind) { case 227 /* IfStatement */: case 229 /* WhileStatement */: case 228 /* DoStatement */: return parent.expression === node; case 230 /* ForStatement */: case 210 /* ConditionalExpression */: return parent.condition === node; } return false; } function isLogicalExpression(node) { while (true) { if (node.kind === 200 /* ParenthesizedExpression */) { node = node.expression; } else if (node.kind === 207 /* PrefixUnaryExpression */ && node.operator === 53 /* ExclamationToken */) { node = node.operand; } else { return node.kind === 209 /* BinaryExpression */ && (node.operatorToken.kind === 55 /* AmpersandAmpersandToken */ || node.operatorToken.kind === 56 /* BarBarToken */ || node.operatorToken.kind === 60 /* QuestionQuestionToken */); } } } function isTopLevelLogicalExpression(node) { while (ts.isParenthesizedExpression(node.parent) || ts.isPrefixUnaryExpression(node.parent) && node.parent.operator === 53 /* ExclamationToken */) { node = node.parent; } return !isStatementCondition(node) && !isLogicalExpression(node.parent) && !(ts.isOptionalChain(node.parent) && node.parent.expression === node); } function doWithConditionalBranches(action, value, trueTarget, falseTarget) { var savedTrueTarget = currentTrueTarget; var savedFalseTarget = currentFalseTarget; currentTrueTarget = trueTarget; currentFalseTarget = falseTarget; action(value); currentTrueTarget = savedTrueTarget; currentFalseTarget = savedFalseTarget; } function bindCondition(node, trueTarget, falseTarget) { doWithConditionalBranches(bind, node, trueTarget, falseTarget); if (!node || !isLogicalExpression(node) && !(ts.isOptionalChain(node) && ts.isOutermostOptionalChain(node))) { addAntecedent(trueTarget, createFlowCondition(32 /* TrueCondition */, currentFlow, node)); addAntecedent(falseTarget, createFlowCondition(64 /* FalseCondition */, currentFlow, node)); } } function bindIterativeStatement(node, breakTarget, continueTarget) { var saveBreakTarget = currentBreakTarget; var saveContinueTarget = currentContinueTarget; currentBreakTarget = breakTarget; currentContinueTarget = continueTarget; bind(node); currentBreakTarget = saveBreakTarget; currentContinueTarget = saveContinueTarget; } function setContinueTarget(node, target) { var label = activeLabelList; while (label && node.parent.kind === 238 /* LabeledStatement */) { label.continueTarget = target; label = label.next; node = node.parent; } return target; } function bindWhileStatement(node) { var preWhileLabel = setContinueTarget(node, createLoopLabel()); var preBodyLabel = createBranchLabel(); var postWhileLabel = createBranchLabel(); addAntecedent(preWhileLabel, currentFlow); currentFlow = preWhileLabel; bindCondition(node.expression, preBodyLabel, postWhileLabel); currentFlow = finishFlowLabel(preBodyLabel); bindIterativeStatement(node.statement, postWhileLabel, preWhileLabel); addAntecedent(preWhileLabel, currentFlow); currentFlow = finishFlowLabel(postWhileLabel); } function bindDoStatement(node) { var preDoLabel = createLoopLabel(); var preConditionLabel = setContinueTarget(node, createBranchLabel()); var postDoLabel = createBranchLabel(); addAntecedent(preDoLabel, currentFlow); currentFlow = preDoLabel; bindIterativeStatement(node.statement, postDoLabel, preConditionLabel); addAntecedent(preConditionLabel, currentFlow); currentFlow = finishFlowLabel(preConditionLabel); bindCondition(node.expression, preDoLabel, postDoLabel); currentFlow = finishFlowLabel(postDoLabel); } function bindForStatement(node) { var preLoopLabel = setContinueTarget(node, createLoopLabel()); var preBodyLabel = createBranchLabel(); var postLoopLabel = createBranchLabel(); bind(node.initializer); addAntecedent(preLoopLabel, currentFlow); currentFlow = preLoopLabel; bindCondition(node.condition, preBodyLabel, postLoopLabel); currentFlow = finishFlowLabel(preBodyLabel); bindIterativeStatement(node.statement, postLoopLabel, preLoopLabel); bind(node.incrementor); addAntecedent(preLoopLabel, currentFlow); currentFlow = finishFlowLabel(postLoopLabel); } function bindForInOrForOfStatement(node) { var preLoopLabel = setContinueTarget(node, createLoopLabel()); var postLoopLabel = createBranchLabel(); bind(node.expression); addAntecedent(preLoopLabel, currentFlow); currentFlow = preLoopLabel; if (node.kind === 232 /* ForOfStatement */) { bind(node.awaitModifier); } addAntecedent(postLoopLabel, currentFlow); bind(node.initializer); if (node.initializer.kind !== 243 /* VariableDeclarationList */) { bindAssignmentTargetFlow(node.initializer); } bindIterativeStatement(node.statement, postLoopLabel, preLoopLabel); addAntecedent(preLoopLabel, currentFlow); currentFlow = finishFlowLabel(postLoopLabel); } function bindIfStatement(node) { var thenLabel = createBranchLabel(); var elseLabel = createBranchLabel(); var postIfLabel = createBranchLabel(); bindCondition(node.expression, thenLabel, elseLabel); currentFlow = finishFlowLabel(thenLabel); bind(node.thenStatement); addAntecedent(postIfLabel, currentFlow); currentFlow = finishFlowLabel(elseLabel); bind(node.elseStatement); addAntecedent(postIfLabel, currentFlow); currentFlow = finishFlowLabel(postIfLabel); } function bindReturnOrThrow(node) { bind(node.expression); if (node.kind === 235 /* ReturnStatement */) { hasExplicitReturn = true; if (currentReturnTarget) { addAntecedent(currentReturnTarget, currentFlow); } } currentFlow = unreachableFlow; } function findActiveLabel(name) { for (var label = activeLabelList; label; label = label.next) { if (label.name === name) { return label; } } return undefined; } function bindBreakOrContinueFlow(node, breakTarget, continueTarget) { var flowLabel = node.kind === 234 /* BreakStatement */ ? breakTarget : continueTarget; if (flowLabel) { addAntecedent(flowLabel, currentFlow); currentFlow = unreachableFlow; } } function bindBreakOrContinueStatement(node) { bind(node.label); if (node.label) { var activeLabel = findActiveLabel(node.label.escapedText); if (activeLabel) { activeLabel.referenced = true; bindBreakOrContinueFlow(node, activeLabel.breakTarget, activeLabel.continueTarget); } } else { bindBreakOrContinueFlow(node, currentBreakTarget, currentContinueTarget); } } function bindTryStatement(node) { // We conservatively assume that *any* code in the try block can cause an exception, but we only need // to track code that causes mutations (because only mutations widen the possible control flow type of // a variable). The exceptionLabel is the target label for control flows that result from exceptions. // We add all mutation flow nodes as antecedents of this label such that we can analyze them as possible // antecedents of the start of catch or finally blocks. Furthermore, we add the current control flow to // represent exceptions that occur before any mutations. var saveReturnTarget = currentReturnTarget; var saveExceptionTarget = currentExceptionTarget; var normalExitLabel = createBranchLabel(); var returnLabel = createBranchLabel(); var exceptionLabel = createBranchLabel(); if (node.finallyBlock) { currentReturnTarget = returnLabel; } addAntecedent(exceptionLabel, currentFlow); currentExceptionTarget = exceptionLabel; bind(node.tryBlock); addAntecedent(normalExitLabel, currentFlow); if (node.catchClause) { // Start of catch clause is the target of exceptions from try block. currentFlow = finishFlowLabel(exceptionLabel); // The currentExceptionTarget now represents control flows from exceptions in the catch clause. // Effectively, in a try-catch-finally, if an exception occurs in the try block, the catch block // acts like a second try block. exceptionLabel = createBranchLabel(); addAntecedent(exceptionLabel, currentFlow); currentExceptionTarget = exceptionLabel; bind(node.catchClause); addAntecedent(normalExitLabel, currentFlow); } currentReturnTarget = saveReturnTarget; currentExceptionTarget = saveExceptionTarget; if (node.finallyBlock) { // Possible ways control can reach the finally block: // 1) Normal completion of try block of a try-finally or try-catch-finally // 2) Normal completion of catch block (following exception in try block) of a try-catch-finally // 3) Return in try or catch block of a try-finally or try-catch-finally // 4) Exception in try block of a try-finally // 5) Exception in catch block of a try-catch-finally // When analyzing a control flow graph that starts inside a finally block we want to consider all // five possibilities above. However, when analyzing a control flow graph that starts outside (past) // the finally block, we only want to consider the first two (if we're past a finally block then it // must have completed normally). Likewise, when analyzing a control flow graph from return statements // in try or catch blocks in an IIFE, we only want to consider the third. To make this possible, we // inject a ReduceLabel node into the control flow graph. This node contains an alternate reduced // set of antecedents for the pre-finally label. As control flow analysis passes by a ReduceLabel // node, the pre-finally label is temporarily switched to the reduced antecedent set. var finallyLabel = createBranchLabel(); finallyLabel.antecedents = ts.concatenate(ts.concatenate(normalExitLabel.antecedents, exceptionLabel.antecedents), returnLabel.antecedents); currentFlow = finallyLabel; bind(node.finallyBlock); if (currentFlow.flags & 1 /* Unreachable */) { // If the end of the finally block is unreachable, the end of the entire try statement is unreachable. currentFlow = unreachableFlow; } else { // If we have an IIFE return target and return statements in the try or catch blocks, add a control // flow that goes back through the finally block and back through only the return statements. if (currentReturnTarget && returnLabel.antecedents) { addAntecedent(currentReturnTarget, createReduceLabel(finallyLabel, returnLabel.antecedents, currentFlow)); } // If the end of the finally block is reachable, but the end of the try and catch blocks are not, // convert the current flow to unreachable. For example, 'try { return 1; } finally { ... }' should // result in an unreachable current control flow. currentFlow = normalExitLabel.antecedents ? createReduceLabel(finallyLabel, normalExitLabel.antecedents, currentFlow) : unreachableFlow; } } else { currentFlow = finishFlowLabel(normalExitLabel); } } function bindSwitchStatement(node) { var postSwitchLabel = createBranchLabel(); bind(node.expression); var saveBreakTarget = currentBreakTarget; var savePreSwitchCaseFlow = preSwitchCaseFlow; currentBreakTarget = postSwitchLabel; preSwitchCaseFlow = currentFlow; bind(node.caseBlock); addAntecedent(postSwitchLabel, currentFlow); var hasDefault = ts.forEach(node.caseBlock.clauses, function (c) { return c.kind === 278 /* DefaultClause */; }); // We mark a switch statement as possibly exhaustive if it has no default clause and if all // case clauses have unreachable end points (e.g. they all return). Note, we no longer need // this property in control flow analysis, it's there only for backwards compatibility. node.possiblyExhaustive = !hasDefault && !postSwitchLabel.antecedents; if (!hasDefault) { addAntecedent(postSwitchLabel, createFlowSwitchClause(preSwitchCaseFlow, node, 0, 0)); } currentBreakTarget = saveBreakTarget; preSwitchCaseFlow = savePreSwitchCaseFlow; currentFlow = finishFlowLabel(postSwitchLabel); } function bindCaseBlock(node) { var savedSubtreeTransformFlags = subtreeTransformFlags; subtreeTransformFlags = 0; var clauses = node.clauses; var isNarrowingSwitch = isNarrowingExpression(node.parent.expression); var fallthroughFlow = unreachableFlow; for (var i = 0; i < clauses.length; i++) { var clauseStart = i; while (!clauses[i].statements.length && i + 1 < clauses.length) { bind(clauses[i]); i++; } var preCaseLabel = createBranchLabel(); addAntecedent(preCaseLabel, isNarrowingSwitch ? createFlowSwitchClause(preSwitchCaseFlow, node.parent, clauseStart, i + 1) : preSwitchCaseFlow); addAntecedent(preCaseLabel, fallthroughFlow); currentFlow = finishFlowLabel(preCaseLabel); var clause = clauses[i]; bind(clause); fallthroughFlow = currentFlow; if (!(currentFlow.flags & 1 /* Unreachable */) && i !== clauses.length - 1 && options.noFallthroughCasesInSwitch) { clause.fallthroughFlowNode = currentFlow; } } clauses.transformFlags = subtreeTransformFlags | 536870912 /* HasComputedFlags */; subtreeTransformFlags |= savedSubtreeTransformFlags; } function bindCaseClause(node) { var saveCurrentFlow = currentFlow; currentFlow = preSwitchCaseFlow; bind(node.expression); currentFlow = saveCurrentFlow; bindEach(node.statements); } function bindExpressionStatement(node) { bind(node.expression); // A top level call expression with a dotted function name and at least one argument // is potentially an assertion and is therefore included in the control flow. if (node.expression.kind === 196 /* CallExpression */) { var call = node.expression; if (ts.isDottedName(call.expression)) { currentFlow = createFlowCall(currentFlow, call); } } } function bindLabeledStatement(node) { var postStatementLabel = createBranchLabel(); activeLabelList = { next: activeLabelList, name: node.label.escapedText, breakTarget: postStatementLabel, continueTarget: undefined, referenced: false }; bind(node.label); bind(node.statement); if (!activeLabelList.referenced && !options.allowUnusedLabels) { errorOrSuggestionOnNode(ts.unusedLabelIsError(options), node.label, ts.Diagnostics.Unused_label); } activeLabelList = activeLabelList.next; addAntecedent(postStatementLabel, currentFlow); currentFlow = finishFlowLabel(postStatementLabel); } function bindDestructuringTargetFlow(node) { if (node.kind === 209 /* BinaryExpression */ && node.operatorToken.kind === 62 /* EqualsToken */) { bindAssignmentTargetFlow(node.left); } else { bindAssignmentTargetFlow(node); } } function bindAssignmentTargetFlow(node) { if (isNarrowableReference(node)) { currentFlow = createFlowMutation(16 /* Assignment */, currentFlow, node); } else if (node.kind === 192 /* ArrayLiteralExpression */) { for (var _i = 0, _a = node.elements; _i < _a.length; _i++) { var e = _a[_i]; if (e.kind === 213 /* SpreadElement */) { bindAssignmentTargetFlow(e.expression); } else { bindDestructuringTargetFlow(e); } } } else if (node.kind === 193 /* ObjectLiteralExpression */) { for (var _b = 0, _c = node.properties; _b < _c.length; _b++) { var p = _c[_b]; if (p.kind === 281 /* PropertyAssignment */) { bindDestructuringTargetFlow(p.initializer); } else if (p.kind === 282 /* ShorthandPropertyAssignment */) { bindAssignmentTargetFlow(p.name); } else if (p.kind === 283 /* SpreadAssignment */) { bindAssignmentTargetFlow(p.expression); } } } } function bindLogicalExpression(node, trueTarget, falseTarget) { var preRightLabel = createBranchLabel(); if (node.operatorToken.kind === 55 /* AmpersandAmpersandToken */) { bindCondition(node.left, preRightLabel, falseTarget); } else { bindCondition(node.left, trueTarget, preRightLabel); } currentFlow = finishFlowLabel(preRightLabel); bind(node.operatorToken); bindCondition(node.right, trueTarget, falseTarget); } function bindPrefixUnaryExpressionFlow(node) { if (node.operator === 53 /* ExclamationToken */) { var saveTrueTarget = currentTrueTarget; currentTrueTarget = currentFalseTarget; currentFalseTarget = saveTrueTarget; bindEachChild(node); currentFalseTarget = currentTrueTarget; currentTrueTarget = saveTrueTarget; } else { bindEachChild(node); if (node.operator === 45 /* PlusPlusToken */ || node.operator === 46 /* MinusMinusToken */) { bindAssignmentTargetFlow(node.operand); } } } function bindPostfixUnaryExpressionFlow(node) { bindEachChild(node); if (node.operator === 45 /* PlusPlusToken */ || node.operator === 46 /* MinusMinusToken */) { bindAssignmentTargetFlow(node.operand); } } var BindBinaryExpressionFlowState; (function (BindBinaryExpressionFlowState) { BindBinaryExpressionFlowState[BindBinaryExpressionFlowState["BindThenBindChildren"] = 0] = "BindThenBindChildren"; BindBinaryExpressionFlowState[BindBinaryExpressionFlowState["MaybeBindLeft"] = 1] = "MaybeBindLeft"; BindBinaryExpressionFlowState[BindBinaryExpressionFlowState["BindToken"] = 2] = "BindToken"; BindBinaryExpressionFlowState[BindBinaryExpressionFlowState["BindRight"] = 3] = "BindRight"; BindBinaryExpressionFlowState[BindBinaryExpressionFlowState["FinishBind"] = 4] = "FinishBind"; })(BindBinaryExpressionFlowState || (BindBinaryExpressionFlowState = {})); function bindBinaryExpressionFlow(node) { var workStacks = { expr: [node], state: [1 /* MaybeBindLeft */], inStrictMode: [undefined], parent: [undefined], subtreeFlags: [undefined] }; var stackIndex = 0; while (stackIndex >= 0) { node = workStacks.expr[stackIndex]; switch (workStacks.state[stackIndex]) { case 0 /* BindThenBindChildren */: { // This state is used only when recuring, to emulate the work that `bind` does before // reaching `bindChildren`. A normal call to `bindBinaryExpressionFlow` will already have done this work. node.parent = parent; var saveInStrictMode = inStrictMode; bindWorker(node); var saveParent = parent; parent = node; var subtreeFlagsState = void 0; // While this next part does the work of `bindChildren` before it descends into `bindChildrenWorker` // and uses `subtreeFlagsState` to queue up the work that needs to be done once the node is bound. if (skipTransformFlagAggregation) { // do nothing extra } else if (node.transformFlags & 536870912 /* HasComputedFlags */) { skipTransformFlagAggregation = true; subtreeFlagsState = -1; } else { var savedSubtreeTransformFlags = subtreeTransformFlags; subtreeTransformFlags = 0; subtreeFlagsState = savedSubtreeTransformFlags; } advanceState(1 /* MaybeBindLeft */, saveInStrictMode, saveParent, subtreeFlagsState); break; } case 1 /* MaybeBindLeft */: { var operator = node.operatorToken.kind; // TODO: bindLogicalExpression is recursive - if we want to handle deeply nested `&&` expressions // we'll need to handle the `bindLogicalExpression` scenarios in this state machine, too // For now, though, since the common cases are chained `+`, leaving it recursive is fine if (operator === 55 /* AmpersandAmpersandToken */ || operator === 56 /* BarBarToken */ || operator === 60 /* QuestionQuestionToken */) { if (isTopLevelLogicalExpression(node)) { var postExpressionLabel = createBranchLabel(); bindLogicalExpression(node, postExpressionLabel, postExpressionLabel); currentFlow = finishFlowLabel(postExpressionLabel); } else { bindLogicalExpression(node, currentTrueTarget, currentFalseTarget); } completeNode(); } else { advanceState(2 /* BindToken */); maybeBind(node.left); } break; } case 2 /* BindToken */: { advanceState(3 /* BindRight */); maybeBind(node.operatorToken); break; } case 3 /* BindRight */: { advanceState(4 /* FinishBind */); maybeBind(node.right); break; } case 4 /* FinishBind */: { var operator = node.operatorToken.kind; if (ts.isAssignmentOperator(operator) && !ts.isAssignmentTarget(node)) { bindAssignmentTargetFlow(node.left); if (operator === 62 /* EqualsToken */ && node.left.kind === 195 /* ElementAccessExpression */) { var elementAccess = node.left; if (isNarrowableOperand(elementAccess.expression)) { currentFlow = createFlowMutation(256 /* ArrayMutation */, currentFlow, node); } } } completeNode(); break; } default: return ts.Debug.fail("Invalid state " + workStacks.state[stackIndex] + " for bindBinaryExpressionFlow"); } } /** * Note that `advanceState` sets the _current_ head state, and that `maybeBind` potentially pushes on a new * head state; so `advanceState` must be called before any `maybeBind` during a state's execution. */ function advanceState(state, isInStrictMode, parent, subtreeFlags) { workStacks.state[stackIndex] = state; if (isInStrictMode !== undefined) { workStacks.inStrictMode[stackIndex] = isInStrictMode; } if (parent !== undefined) { workStacks.parent[stackIndex] = parent; } if (subtreeFlags !== undefined) { workStacks.subtreeFlags[stackIndex] = subtreeFlags; } } function completeNode() { if (workStacks.inStrictMode[stackIndex] !== undefined) { if (workStacks.subtreeFlags[stackIndex] === -1) { skipTransformFlagAggregation = false; subtreeTransformFlags |= node.transformFlags & ~getTransformFlagsSubtreeExclusions(node.kind); } else if (workStacks.subtreeFlags[stackIndex] !== undefined) { subtreeTransformFlags = workStacks.subtreeFlags[stackIndex] | computeTransformFlagsForNode(node, subtreeTransformFlags); } inStrictMode = workStacks.inStrictMode[stackIndex]; parent = workStacks.parent[stackIndex]; } stackIndex--; } /** * If `node` is a BinaryExpression, adds it to the local work stack, otherwise recursively binds it */ function maybeBind(node) { if (node && ts.isBinaryExpression(node)) { stackIndex++; workStacks.expr[stackIndex] = node; workStacks.state[stackIndex] = 0 /* BindThenBindChildren */; workStacks.inStrictMode[stackIndex] = undefined; workStacks.parent[stackIndex] = undefined; workStacks.subtreeFlags[stackIndex] = undefined; } else { bind(node); } } } function bindDeleteExpressionFlow(node) { bindEachChild(node); if (node.expression.kind === 194 /* PropertyAccessExpression */) { bindAssignmentTargetFlow(node.expression); } } function bindConditionalExpressionFlow(node) { var trueLabel = createBranchLabel(); var falseLabel = createBranchLabel(); var postExpressionLabel = createBranchLabel(); bindCondition(node.condition, trueLabel, falseLabel); currentFlow = finishFlowLabel(trueLabel); bind(node.questionToken); bind(node.whenTrue); addAntecedent(postExpressionLabel, currentFlow); currentFlow = finishFlowLabel(falseLabel); bind(node.colonToken); bind(node.whenFalse); addAntecedent(postExpressionLabel, currentFlow); currentFlow = finishFlowLabel(postExpressionLabel); } function bindInitializedVariableFlow(node) { var name = !ts.isOmittedExpression(node) ? node.name : undefined; if (ts.isBindingPattern(name)) { for (var _i = 0, _a = name.elements; _i < _a.length; _i++) { var child = _a[_i]; bindInitializedVariableFlow(child); } } else { currentFlow = createFlowMutation(16 /* Assignment */, currentFlow, node); } } function bindVariableDeclarationFlow(node) { bindEachChild(node); if (node.initializer || ts.isForInOrOfStatement(node.parent.parent)) { bindInitializedVariableFlow(node); } } function bindJSDocTypeAlias(node) { node.tagName.parent = node; if (node.kind !== 316 /* JSDocEnumTag */ && node.fullName) { setParentPointers(node, node.fullName); } } function bindJSDocClassTag(node) { bindEachChild(node); var host = ts.getHostSignatureFromJSDoc(node); if (host && host.kind !== 161 /* MethodDeclaration */) { addDeclarationToSymbol(host.symbol, host, 32 /* Class */); } } function bindOptionalExpression(node, trueTarget, falseTarget) { doWithConditionalBranches(bind, node, trueTarget, falseTarget); if (!ts.isOptionalChain(node) || ts.isOutermostOptionalChain(node)) { addAntecedent(trueTarget, createFlowCondition(32 /* TrueCondition */, currentFlow, node)); addAntecedent(falseTarget, createFlowCondition(64 /* FalseCondition */, currentFlow, node)); } } function bindOptionalChainRest(node) { switch (node.kind) { case 194 /* PropertyAccessExpression */: bind(node.questionDotToken); bind(node.name); break; case 195 /* ElementAccessExpression */: bind(node.questionDotToken); bind(node.argumentExpression); break; case 196 /* CallExpression */: bind(node.questionDotToken); bindEach(node.typeArguments); bindEach(node.arguments); break; } } function bindOptionalChain(node, trueTarget, falseTarget) { // For an optional chain, we emulate the behavior of a logical expression: // // a?.b -> a && a.b // a?.b.c -> a && a.b.c // a?.b?.c -> a && a.b && a.b.c // a?.[x = 1] -> a && a[x = 1] // // To do this we descend through the chain until we reach the root of a chain (the expression with a `?.`) // and build it's CFA graph as if it were the first condition (`a && ...`). Then we bind the rest // of the node as part of the "true" branch, and continue to do so as we ascend back up to the outermost // chain node. We then treat the entire node as the right side of the expression. var preChainLabel = ts.isOptionalChainRoot(node) ? createBranchLabel() : undefined; bindOptionalExpression(node.expression, preChainLabel || trueTarget, falseTarget); if (preChainLabel) { currentFlow = finishFlowLabel(preChainLabel); } doWithConditionalBranches(bindOptionalChainRest, node, trueTarget, falseTarget); if (ts.isOutermostOptionalChain(node)) { addAntecedent(trueTarget, createFlowCondition(32 /* TrueCondition */, currentFlow, node)); addAntecedent(falseTarget, createFlowCondition(64 /* FalseCondition */, currentFlow, node)); } } function bindOptionalChainFlow(node) { if (isTopLevelLogicalExpression(node)) { var postExpressionLabel = createBranchLabel(); bindOptionalChain(node, postExpressionLabel, postExpressionLabel); currentFlow = finishFlowLabel(postExpressionLabel); } else { bindOptionalChain(node, currentTrueTarget, currentFalseTarget); } } function bindNonNullExpressionFlow(node) { if (ts.isOptionalChain(node)) { bindOptionalChainFlow(node); } else { bindEachChild(node); } } function bindAccessExpressionFlow(node) { if (ts.isOptionalChain(node)) { bindOptionalChainFlow(node); } else { bindEachChild(node); } } function bindCallExpressionFlow(node) { if (ts.isOptionalChain(node)) { bindOptionalChainFlow(node); } else { // If the target of the call expression is a function expression or arrow function we have // an immediately invoked function expression (IIFE). Initialize the flowNode property to // the current control flow (which includes evaluation of the IIFE arguments). var expr = ts.skipParentheses(node.expression); if (expr.kind === 201 /* FunctionExpression */ || expr.kind === 202 /* ArrowFunction */) { bindEach(node.typeArguments); bindEach(node.arguments); bind(node.expression); } else { bindEachChild(node); } } if (node.expression.kind === 194 /* PropertyAccessExpression */) { var propertyAccess = node.expression; if (ts.isIdentifier(propertyAccess.name) && isNarrowableOperand(propertyAccess.expression) && ts.isPushOrUnshiftIdentifier(propertyAccess.name)) { currentFlow = createFlowMutation(256 /* ArrayMutation */, currentFlow, node); } } } function getContainerFlags(node) { switch (node.kind) { case 214 /* ClassExpression */: case 245 /* ClassDeclaration */: case 248 /* EnumDeclaration */: case 193 /* ObjectLiteralExpression */: case 173 /* TypeLiteral */: case 304 /* JSDocTypeLiteral */: case 274 /* JsxAttributes */: return 1 /* IsContainer */; case 246 /* InterfaceDeclaration */: return 1 /* IsContainer */ | 64 /* IsInterface */; case 249 /* ModuleDeclaration */: case 247 /* TypeAliasDeclaration */: case 186 /* MappedType */: return 1 /* IsContainer */ | 32 /* HasLocals */; case 290 /* SourceFile */: return 1 /* IsContainer */ | 4 /* IsControlFlowContainer */ | 32 /* HasLocals */; case 161 /* MethodDeclaration */: if (ts.isObjectLiteralOrClassExpressionMethod(node)) { return 1 /* IsContainer */ | 4 /* IsControlFlowContainer */ | 32 /* HasLocals */ | 8 /* IsFunctionLike */ | 128 /* IsObjectLiteralOrClassExpressionMethod */; } // falls through case 162 /* Constructor */: case 244 /* FunctionDeclaration */: case 160 /* MethodSignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 165 /* CallSignature */: case 305 /* JSDocSignature */: case 300 /* JSDocFunctionType */: case 170 /* FunctionType */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: case 171 /* ConstructorType */: return 1 /* IsContainer */ | 4 /* IsControlFlowContainer */ | 32 /* HasLocals */ | 8 /* IsFunctionLike */; case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return 1 /* IsContainer */ | 4 /* IsControlFlowContainer */ | 32 /* HasLocals */ | 8 /* IsFunctionLike */ | 16 /* IsFunctionExpression */; case 250 /* ModuleBlock */: return 4 /* IsControlFlowContainer */; case 159 /* PropertyDeclaration */: return node.initializer ? 4 /* IsControlFlowContainer */ : 0; case 280 /* CatchClause */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: case 251 /* CaseBlock */: return 2 /* IsBlockScopedContainer */; case 223 /* Block */: // do not treat blocks directly inside a function as a block-scoped-container. // Locals that reside in this block should go to the function locals. Otherwise 'x' // would not appear to be a redeclaration of a block scoped local in the following // example: // // function foo() { // var x; // let x; // } // // If we placed 'var x' into the function locals and 'let x' into the locals of // the block, then there would be no collision. // // By not creating a new block-scoped-container here, we ensure that both 'var x' // and 'let x' go into the Function-container's locals, and we do get a collision // conflict. return ts.isFunctionLike(node.parent) ? 0 /* None */ : 2 /* IsBlockScopedContainer */; } return 0 /* None */; } function addToContainerChain(next) { if (lastContainer) { lastContainer.nextContainer = next; } lastContainer = next; } function declareSymbolAndAddToSymbolTable(node, symbolFlags, symbolExcludes) { switch (container.kind) { // Modules, source files, and classes need specialized handling for how their // members are declared (for example, a member of a class will go into a specific // symbol table depending on if it is static or not). We defer to specialized // handlers to take care of declaring these child members. case 249 /* ModuleDeclaration */: return declareModuleMember(node, symbolFlags, symbolExcludes); case 290 /* SourceFile */: return declareSourceFileMember(node, symbolFlags, symbolExcludes); case 214 /* ClassExpression */: case 245 /* ClassDeclaration */: return declareClassMember(node, symbolFlags, symbolExcludes); case 248 /* EnumDeclaration */: return declareSymbol(container.symbol.exports, container.symbol, node, symbolFlags, symbolExcludes); case 173 /* TypeLiteral */: case 304 /* JSDocTypeLiteral */: case 193 /* ObjectLiteralExpression */: case 246 /* InterfaceDeclaration */: case 274 /* JsxAttributes */: // Interface/Object-types always have their children added to the 'members' of // their container. They are only accessible through an instance of their // container, and are never in scope otherwise (even inside the body of the // object / type / interface declaring them). An exception is type parameters, // which are in scope without qualification (similar to 'locals'). return declareSymbol(container.symbol.members, container.symbol, node, symbolFlags, symbolExcludes); case 170 /* FunctionType */: case 171 /* ConstructorType */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 305 /* JSDocSignature */: case 167 /* IndexSignature */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 300 /* JSDocFunctionType */: case 322 /* JSDocTypedefTag */: case 315 /* JSDocCallbackTag */: case 247 /* TypeAliasDeclaration */: case 186 /* MappedType */: // All the children of these container types are never visible through another // symbol (i.e. through another symbol's 'exports' or 'members'). Instead, // they're only accessed 'lexically' (i.e. from code that exists underneath // their container in the tree). To accomplish this, we simply add their declared // symbol to the 'locals' of the container. These symbols can then be found as // the type checker walks up the containers, checking them for matching names. return declareSymbol(container.locals, /*parent*/ undefined, node, symbolFlags, symbolExcludes); } } function declareClassMember(node, symbolFlags, symbolExcludes) { return ts.hasModifier(node, 32 /* Static */) ? declareSymbol(container.symbol.exports, container.symbol, node, symbolFlags, symbolExcludes) : declareSymbol(container.symbol.members, container.symbol, node, symbolFlags, symbolExcludes); } function declareSourceFileMember(node, symbolFlags, symbolExcludes) { return ts.isExternalModule(file) ? declareModuleMember(node, symbolFlags, symbolExcludes) : declareSymbol(file.locals, /*parent*/ undefined, node, symbolFlags, symbolExcludes); } function hasExportDeclarations(node) { var body = ts.isSourceFile(node) ? node : ts.tryCast(node.body, ts.isModuleBlock); return !!body && body.statements.some(function (s) { return ts.isExportDeclaration(s) || ts.isExportAssignment(s); }); } function setExportContextFlag(node) { // A declaration source file or ambient module declaration that contains no export declarations (but possibly regular // declarations with export modifiers) is an export context in which declarations are implicitly exported. if (node.flags & 8388608 /* Ambient */ && !hasExportDeclarations(node)) { node.flags |= 64 /* ExportContext */; } else { node.flags &= ~64 /* ExportContext */; } } function bindModuleDeclaration(node) { setExportContextFlag(node); if (ts.isAmbientModule(node)) { if (ts.hasModifier(node, 1 /* Export */)) { errorOnFirstToken(node, ts.Diagnostics.export_modifier_cannot_be_applied_to_ambient_modules_and_module_augmentations_since_they_are_always_visible); } if (ts.isModuleAugmentationExternal(node)) { declareModuleSymbol(node); } else { var pattern = void 0; if (node.name.kind === 10 /* StringLiteral */) { var text = node.name.text; if (ts.hasZeroOrOneAsteriskCharacter(text)) { pattern = ts.tryParsePattern(text); } else { errorOnFirstToken(node.name, ts.Diagnostics.Pattern_0_can_have_at_most_one_Asterisk_character, text); } } var symbol = declareSymbolAndAddToSymbolTable(node, 512 /* ValueModule */, 110735 /* ValueModuleExcludes */); file.patternAmbientModules = ts.append(file.patternAmbientModules, pattern && { pattern: pattern, symbol: symbol }); } } else { var state = declareModuleSymbol(node); if (state !== 0 /* NonInstantiated */) { var symbol = node.symbol; // if module was already merged with some function, class or non-const enum, treat it as non-const-enum-only symbol.constEnumOnlyModule = (!(symbol.flags & (16 /* Function */ | 32 /* Class */ | 256 /* RegularEnum */))) // Current must be `const enum` only && state === 2 /* ConstEnumOnly */ // Can't have been set to 'false' in a previous merged symbol. ('undefined' OK) && symbol.constEnumOnlyModule !== false; } } } function declareModuleSymbol(node) { var state = getModuleInstanceState(node); var instantiated = state !== 0 /* NonInstantiated */; declareSymbolAndAddToSymbolTable(node, instantiated ? 512 /* ValueModule */ : 1024 /* NamespaceModule */, instantiated ? 110735 /* ValueModuleExcludes */ : 0 /* NamespaceModuleExcludes */); return state; } function bindFunctionOrConstructorType(node) { // For a given function symbol "<...>(...) => T" we want to generate a symbol identical // to the one we would get for: { <...>(...): T } // // We do that by making an anonymous type literal symbol, and then setting the function // symbol as its sole member. To the rest of the system, this symbol will be indistinguishable // from an actual type literal symbol you would have gotten had you used the long form. var symbol = createSymbol(131072 /* Signature */, getDeclarationName(node)); // TODO: GH#18217 addDeclarationToSymbol(symbol, node, 131072 /* Signature */); var typeLiteralSymbol = createSymbol(2048 /* TypeLiteral */, "__type" /* Type */); addDeclarationToSymbol(typeLiteralSymbol, node, 2048 /* TypeLiteral */); typeLiteralSymbol.members = ts.createSymbolTable(); typeLiteralSymbol.members.set(symbol.escapedName, symbol); } function bindObjectLiteralExpression(node) { var ElementKind; (function (ElementKind) { ElementKind[ElementKind["Property"] = 1] = "Property"; ElementKind[ElementKind["Accessor"] = 2] = "Accessor"; })(ElementKind || (ElementKind = {})); if (inStrictMode && !ts.isAssignmentTarget(node)) { var seen = ts.createUnderscoreEscapedMap(); for (var _i = 0, _a = node.properties; _i < _a.length; _i++) { var prop = _a[_i]; if (prop.kind === 283 /* SpreadAssignment */ || prop.name.kind !== 75 /* Identifier */) { continue; } var identifier = prop.name; // ECMA-262 11.1.5 Object Initializer // If previous is not undefined then throw a SyntaxError exception if any of the following conditions are true // a.This production is contained in strict code and IsDataDescriptor(previous) is true and // IsDataDescriptor(propId.descriptor) is true. // b.IsDataDescriptor(previous) is true and IsAccessorDescriptor(propId.descriptor) is true. // c.IsAccessorDescriptor(previous) is true and IsDataDescriptor(propId.descriptor) is true. // d.IsAccessorDescriptor(previous) is true and IsAccessorDescriptor(propId.descriptor) is true // and either both previous and propId.descriptor have[[Get]] fields or both previous and propId.descriptor have[[Set]] fields var currentKind = prop.kind === 281 /* PropertyAssignment */ || prop.kind === 282 /* ShorthandPropertyAssignment */ || prop.kind === 161 /* MethodDeclaration */ ? 1 /* Property */ : 2 /* Accessor */; var existingKind = seen.get(identifier.escapedText); if (!existingKind) { seen.set(identifier.escapedText, currentKind); continue; } if (currentKind === 1 /* Property */ && existingKind === 1 /* Property */) { var span = ts.getErrorSpanForNode(file, identifier); file.bindDiagnostics.push(ts.createFileDiagnostic(file, span.start, span.length, ts.Diagnostics.An_object_literal_cannot_have_multiple_properties_with_the_same_name_in_strict_mode)); } } } return bindAnonymousDeclaration(node, 4096 /* ObjectLiteral */, "__object" /* Object */); } function bindJsxAttributes(node) { return bindAnonymousDeclaration(node, 4096 /* ObjectLiteral */, "__jsxAttributes" /* JSXAttributes */); } function bindJsxAttribute(node, symbolFlags, symbolExcludes) { return declareSymbolAndAddToSymbolTable(node, symbolFlags, symbolExcludes); } function bindAnonymousDeclaration(node, symbolFlags, name) { var symbol = createSymbol(symbolFlags, name); if (symbolFlags & (8 /* EnumMember */ | 106500 /* ClassMember */)) { symbol.parent = container.symbol; } addDeclarationToSymbol(symbol, node, symbolFlags); return symbol; } function bindBlockScopedDeclaration(node, symbolFlags, symbolExcludes) { switch (blockScopeContainer.kind) { case 249 /* ModuleDeclaration */: declareModuleMember(node, symbolFlags, symbolExcludes); break; case 290 /* SourceFile */: if (ts.isExternalOrCommonJsModule(container)) { declareModuleMember(node, symbolFlags, symbolExcludes); break; } // falls through default: if (!blockScopeContainer.locals) { blockScopeContainer.locals = ts.createSymbolTable(); addToContainerChain(blockScopeContainer); } declareSymbol(blockScopeContainer.locals, /*parent*/ undefined, node, symbolFlags, symbolExcludes); } } function delayedBindJSDocTypedefTag() { if (!delayedTypeAliases) { return; } var saveContainer = container; var saveLastContainer = lastContainer; var saveBlockScopeContainer = blockScopeContainer; var saveParent = parent; var saveCurrentFlow = currentFlow; for (var _i = 0, delayedTypeAliases_1 = delayedTypeAliases; _i < delayedTypeAliases_1.length; _i++) { var typeAlias = delayedTypeAliases_1[_i]; var host = ts.getJSDocHost(typeAlias); container = ts.findAncestor(host.parent, function (n) { return !!(getContainerFlags(n) & 1 /* IsContainer */); }) || file; blockScopeContainer = ts.getEnclosingBlockScopeContainer(host) || file; currentFlow = initFlowNode({ flags: 2 /* Start */ }); parent = typeAlias; bind(typeAlias.typeExpression); var declName = ts.getNameOfDeclaration(typeAlias); if ((ts.isJSDocEnumTag(typeAlias) || !typeAlias.fullName) && declName && ts.isPropertyAccessEntityNameExpression(declName.parent)) { // typedef anchored to an A.B.C assignment - we need to bind into B's namespace under name C var isTopLevel = isTopLevelNamespaceAssignment(declName.parent); if (isTopLevel) { bindPotentiallyMissingNamespaces(file.symbol, declName.parent, isTopLevel, !!ts.findAncestor(declName, function (d) { return ts.isPropertyAccessExpression(d) && d.name.escapedText === "prototype"; }), /*containerIsClass*/ false); var oldContainer = container; switch (ts.getAssignmentDeclarationPropertyAccessKind(declName.parent)) { case 1 /* ExportsProperty */: case 2 /* ModuleExports */: if (!ts.isExternalOrCommonJsModule(file)) { container = undefined; } else { container = file; } break; case 4 /* ThisProperty */: container = declName.parent.expression; break; case 3 /* PrototypeProperty */: container = declName.parent.expression.name; break; case 5 /* Property */: container = isExportsOrModuleExportsOrAlias(file, declName.parent.expression) ? file : ts.isPropertyAccessExpression(declName.parent.expression) ? declName.parent.expression.name : declName.parent.expression; break; case 0 /* None */: return ts.Debug.fail("Shouldn't have detected typedef or enum on non-assignment declaration"); } if (container) { declareModuleMember(typeAlias, 524288 /* TypeAlias */, 788968 /* TypeAliasExcludes */); } container = oldContainer; } } else if (ts.isJSDocEnumTag(typeAlias) || !typeAlias.fullName || typeAlias.fullName.kind === 75 /* Identifier */) { parent = typeAlias.parent; bindBlockScopedDeclaration(typeAlias, 524288 /* TypeAlias */, 788968 /* TypeAliasExcludes */); } else { bind(typeAlias.fullName); } } container = saveContainer; lastContainer = saveLastContainer; blockScopeContainer = saveBlockScopeContainer; parent = saveParent; currentFlow = saveCurrentFlow; } // The binder visits every node in the syntax tree so it is a convenient place to perform a single localized // check for reserved words used as identifiers in strict mode code. function checkStrictModeIdentifier(node) { if (inStrictMode && node.originalKeywordKind >= 113 /* FirstFutureReservedWord */ && node.originalKeywordKind <= 121 /* LastFutureReservedWord */ && !ts.isIdentifierName(node) && !(node.flags & 8388608 /* Ambient */) && !(node.flags & 4194304 /* JSDoc */)) { // Report error only if there are no parse errors in file if (!file.parseDiagnostics.length) { file.bindDiagnostics.push(createDiagnosticForNode(node, getStrictModeIdentifierMessage(node), ts.declarationNameToString(node))); } } } function getStrictModeIdentifierMessage(node) { // Provide specialized messages to help the user understand why we think they're in // strict mode. if (ts.getContainingClass(node)) { return ts.Diagnostics.Identifier_expected_0_is_a_reserved_word_in_strict_mode_Class_definitions_are_automatically_in_strict_mode; } if (file.externalModuleIndicator) { return ts.Diagnostics.Identifier_expected_0_is_a_reserved_word_in_strict_mode_Modules_are_automatically_in_strict_mode; } return ts.Diagnostics.Identifier_expected_0_is_a_reserved_word_in_strict_mode; } // The binder visits every node, so this is a good place to check for // the reserved private name (there is only one) function checkPrivateIdentifier(node) { if (node.escapedText === "#constructor") { // Report error only if there are no parse errors in file if (!file.parseDiagnostics.length) { file.bindDiagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.constructor_is_a_reserved_word, ts.declarationNameToString(node))); } } } function checkStrictModeBinaryExpression(node) { if (inStrictMode && ts.isLeftHandSideExpression(node.left) && ts.isAssignmentOperator(node.operatorToken.kind)) { // ECMA 262 (Annex C) The identifier eval or arguments may not appear as the LeftHandSideExpression of an // Assignment operator(11.13) or of a PostfixExpression(11.3) checkStrictModeEvalOrArguments(node, node.left); } } function checkStrictModeCatchClause(node) { // It is a SyntaxError if a TryStatement with a Catch occurs within strict code and the Identifier of the // Catch production is eval or arguments if (inStrictMode && node.variableDeclaration) { checkStrictModeEvalOrArguments(node, node.variableDeclaration.name); } } function checkStrictModeDeleteExpression(node) { // Grammar checking if (inStrictMode && node.expression.kind === 75 /* Identifier */) { // When a delete operator occurs within strict mode code, a SyntaxError is thrown if its // UnaryExpression is a direct reference to a variable, function argument, or function name var span = ts.getErrorSpanForNode(file, node.expression); file.bindDiagnostics.push(ts.createFileDiagnostic(file, span.start, span.length, ts.Diagnostics.delete_cannot_be_called_on_an_identifier_in_strict_mode)); } } function isEvalOrArgumentsIdentifier(node) { return ts.isIdentifier(node) && (node.escapedText === "eval" || node.escapedText === "arguments"); } function checkStrictModeEvalOrArguments(contextNode, name) { if (name && name.kind === 75 /* Identifier */) { var identifier = name; if (isEvalOrArgumentsIdentifier(identifier)) { // We check first if the name is inside class declaration or class expression; if so give explicit message // otherwise report generic error message. var span = ts.getErrorSpanForNode(file, name); file.bindDiagnostics.push(ts.createFileDiagnostic(file, span.start, span.length, getStrictModeEvalOrArgumentsMessage(contextNode), ts.idText(identifier))); } } } function getStrictModeEvalOrArgumentsMessage(node) { // Provide specialized messages to help the user understand why we think they're in // strict mode. if (ts.getContainingClass(node)) { return ts.Diagnostics.Invalid_use_of_0_Class_definitions_are_automatically_in_strict_mode; } if (file.externalModuleIndicator) { return ts.Diagnostics.Invalid_use_of_0_Modules_are_automatically_in_strict_mode; } return ts.Diagnostics.Invalid_use_of_0_in_strict_mode; } function checkStrictModeFunctionName(node) { if (inStrictMode) { // It is a SyntaxError if the identifier eval or arguments appears within a FormalParameterList of a strict mode FunctionDeclaration or FunctionExpression (13.1)) checkStrictModeEvalOrArguments(node, node.name); } } function getStrictModeBlockScopeFunctionDeclarationMessage(node) { // Provide specialized messages to help the user understand why we think they're in // strict mode. if (ts.getContainingClass(node)) { return ts.Diagnostics.Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_Class_definitions_are_automatically_in_strict_mode; } if (file.externalModuleIndicator) { return ts.Diagnostics.Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5_Modules_are_automatically_in_strict_mode; } return ts.Diagnostics.Function_declarations_are_not_allowed_inside_blocks_in_strict_mode_when_targeting_ES3_or_ES5; } function checkStrictModeFunctionDeclaration(node) { if (languageVersion < 2 /* ES2015 */) { // Report error if function is not top level function declaration if (blockScopeContainer.kind !== 290 /* SourceFile */ && blockScopeContainer.kind !== 249 /* ModuleDeclaration */ && !ts.isFunctionLike(blockScopeContainer)) { // We check first if the name is inside class declaration or class expression; if so give explicit message // otherwise report generic error message. var errorSpan = ts.getErrorSpanForNode(file, node); file.bindDiagnostics.push(ts.createFileDiagnostic(file, errorSpan.start, errorSpan.length, getStrictModeBlockScopeFunctionDeclarationMessage(node))); } } } function checkStrictModeNumericLiteral(node) { if (inStrictMode && node.numericLiteralFlags & 32 /* Octal */) { file.bindDiagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.Octal_literals_are_not_allowed_in_strict_mode)); } } function checkStrictModePostfixUnaryExpression(node) { // Grammar checking // The identifier eval or arguments may not appear as the LeftHandSideExpression of an // Assignment operator(11.13) or of a PostfixExpression(11.3) or as the UnaryExpression // operated upon by a Prefix Increment(11.4.4) or a Prefix Decrement(11.4.5) operator. if (inStrictMode) { checkStrictModeEvalOrArguments(node, node.operand); } } function checkStrictModePrefixUnaryExpression(node) { // Grammar checking if (inStrictMode) { if (node.operator === 45 /* PlusPlusToken */ || node.operator === 46 /* MinusMinusToken */) { checkStrictModeEvalOrArguments(node, node.operand); } } } function checkStrictModeWithStatement(node) { // Grammar checking for withStatement if (inStrictMode) { errorOnFirstToken(node, ts.Diagnostics.with_statements_are_not_allowed_in_strict_mode); } } function checkStrictModeLabeledStatement(node) { // Grammar checking for labeledStatement if (inStrictMode && options.target >= 2 /* ES2015 */) { if (ts.isDeclarationStatement(node.statement) || ts.isVariableStatement(node.statement)) { errorOnFirstToken(node.label, ts.Diagnostics.A_label_is_not_allowed_here); } } } function errorOnFirstToken(node, message, arg0, arg1, arg2) { var span = ts.getSpanOfTokenAtPosition(file, node.pos); file.bindDiagnostics.push(ts.createFileDiagnostic(file, span.start, span.length, message, arg0, arg1, arg2)); } function errorOrSuggestionOnNode(isError, node, message) { errorOrSuggestionOnRange(isError, node, node, message); } function errorOrSuggestionOnRange(isError, startNode, endNode, message) { addErrorOrSuggestionDiagnostic(isError, { pos: ts.getTokenPosOfNode(startNode, file), end: endNode.end }, message); } function addErrorOrSuggestionDiagnostic(isError, range, message) { var diag = ts.createFileDiagnostic(file, range.pos, range.end - range.pos, message); if (isError) { file.bindDiagnostics.push(diag); } else { file.bindSuggestionDiagnostics = ts.append(file.bindSuggestionDiagnostics, __assign(__assign({}, diag), { category: ts.DiagnosticCategory.Suggestion })); } } function bind(node) { if (!node) { return; } node.parent = parent; var saveInStrictMode = inStrictMode; // Even though in the AST the jsdoc @typedef node belongs to the current node, // its symbol might be in the same scope with the current node's symbol. Consider: // // /** @typedef {string | number} MyType */ // function foo(); // // Here the current node is "foo", which is a container, but the scope of "MyType" should // not be inside "foo". Therefore we always bind @typedef before bind the parent node, // and skip binding this tag later when binding all the other jsdoc tags. // First we bind declaration nodes to a symbol if possible. We'll both create a symbol // and then potentially add the symbol to an appropriate symbol table. Possible // destination symbol tables are: // // 1) The 'exports' table of the current container's symbol. // 2) The 'members' table of the current container's symbol. // 3) The 'locals' table of the current container. // // However, not all symbols will end up in any of these tables. 'Anonymous' symbols // (like TypeLiterals for example) will not be put in any table. bindWorker(node); // Then we recurse into the children of the node to bind them as well. For certain // symbols we do specialized work when we recurse. For example, we'll keep track of // the current 'container' node when it changes. This helps us know which symbol table // a local should go into for example. Since terminal nodes are known not to have // children, as an optimization we don't process those. if (node.kind > 152 /* LastToken */) { var saveParent = parent; parent = node; var containerFlags = getContainerFlags(node); if (containerFlags === 0 /* None */) { bindChildren(node); } else { bindContainer(node, containerFlags); } parent = saveParent; } else if (!skipTransformFlagAggregation && (node.transformFlags & 536870912 /* HasComputedFlags */) === 0) { subtreeTransformFlags |= computeTransformFlagsForNode(node, 0); var saveParent = parent; if (node.kind === 1 /* EndOfFileToken */) parent = node; bindJSDoc(node); parent = saveParent; } inStrictMode = saveInStrictMode; } function bindJSDoc(node) { if (ts.hasJSDocNodes(node)) { if (ts.isInJSFile(node)) { for (var _i = 0, _a = node.jsDoc; _i < _a.length; _i++) { var j = _a[_i]; bind(j); } } else { for (var _b = 0, _c = node.jsDoc; _b < _c.length; _b++) { var j = _c[_b]; setParentPointers(node, j); } } } } function updateStrictModeStatementList(statements) { if (!inStrictMode) { for (var _i = 0, statements_2 = statements; _i < statements_2.length; _i++) { var statement = statements_2[_i]; if (!ts.isPrologueDirective(statement)) { return; } if (isUseStrictPrologueDirective(statement)) { inStrictMode = true; return; } } } } /// Should be called only on prologue directives (isPrologueDirective(node) should be true) function isUseStrictPrologueDirective(node) { var nodeText = ts.getSourceTextOfNodeFromSourceFile(file, node.expression); // Note: the node text must be exactly "use strict" or 'use strict'. It is not ok for the // string to contain unicode escapes (as per ES5). return nodeText === '"use strict"' || nodeText === "'use strict'"; } function bindWorker(node) { switch (node.kind) { /* Strict mode checks */ case 75 /* Identifier */: // for typedef type names with namespaces, bind the new jsdoc type symbol here // because it requires all containing namespaces to be in effect, namely the // current "blockScopeContainer" needs to be set to its immediate namespace parent. if (node.isInJSDocNamespace) { var parentNode = node.parent; while (parentNode && !ts.isJSDocTypeAlias(parentNode)) { parentNode = parentNode.parent; } bindBlockScopedDeclaration(parentNode, 524288 /* TypeAlias */, 788968 /* TypeAliasExcludes */); break; } // falls through case 104 /* ThisKeyword */: if (currentFlow && (ts.isExpression(node) || parent.kind === 282 /* ShorthandPropertyAssignment */)) { node.flowNode = currentFlow; } return checkStrictModeIdentifier(node); case 76 /* PrivateIdentifier */: return checkPrivateIdentifier(node); case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: var expr = node; if (currentFlow && isNarrowableReference(expr)) { expr.flowNode = currentFlow; } if (ts.isSpecialPropertyDeclaration(expr)) { bindSpecialPropertyDeclaration(expr); } if (ts.isInJSFile(expr) && file.commonJsModuleIndicator && ts.isModuleExportsAccessExpression(expr) && !lookupSymbolForNameWorker(blockScopeContainer, "module")) { declareSymbol(file.locals, /*parent*/ undefined, expr.expression, 1 /* FunctionScopedVariable */ | 134217728 /* ModuleExports */, 111550 /* FunctionScopedVariableExcludes */); } break; case 209 /* BinaryExpression */: var specialKind = ts.getAssignmentDeclarationKind(node); switch (specialKind) { case 1 /* ExportsProperty */: bindExportsPropertyAssignment(node); break; case 2 /* ModuleExports */: bindModuleExportsAssignment(node); break; case 3 /* PrototypeProperty */: bindPrototypePropertyAssignment(node.left, node); break; case 6 /* Prototype */: bindPrototypeAssignment(node); break; case 4 /* ThisProperty */: bindThisPropertyAssignment(node); break; case 5 /* Property */: bindSpecialPropertyAssignment(node); break; case 0 /* None */: // Nothing to do break; default: ts.Debug.fail("Unknown binary expression special property assignment kind"); } return checkStrictModeBinaryExpression(node); case 280 /* CatchClause */: return checkStrictModeCatchClause(node); case 203 /* DeleteExpression */: return checkStrictModeDeleteExpression(node); case 8 /* NumericLiteral */: return checkStrictModeNumericLiteral(node); case 208 /* PostfixUnaryExpression */: return checkStrictModePostfixUnaryExpression(node); case 207 /* PrefixUnaryExpression */: return checkStrictModePrefixUnaryExpression(node); case 236 /* WithStatement */: return checkStrictModeWithStatement(node); case 238 /* LabeledStatement */: return checkStrictModeLabeledStatement(node); case 183 /* ThisType */: seenThisKeyword = true; return; case 168 /* TypePredicate */: break; // Binding the children will handle everything case 155 /* TypeParameter */: return bindTypeParameter(node); case 156 /* Parameter */: return bindParameter(node); case 242 /* VariableDeclaration */: return bindVariableDeclarationOrBindingElement(node); case 191 /* BindingElement */: node.flowNode = currentFlow; return bindVariableDeclarationOrBindingElement(node); case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: return bindPropertyWorker(node); case 281 /* PropertyAssignment */: case 282 /* ShorthandPropertyAssignment */: return bindPropertyOrMethodOrAccessor(node, 4 /* Property */, 0 /* PropertyExcludes */); case 284 /* EnumMember */: return bindPropertyOrMethodOrAccessor(node, 8 /* EnumMember */, 900095 /* EnumMemberExcludes */); case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: return declareSymbolAndAddToSymbolTable(node, 131072 /* Signature */, 0 /* None */); case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: // If this is an ObjectLiteralExpression method, then it sits in the same space // as other properties in the object literal. So we use SymbolFlags.PropertyExcludes // so that it will conflict with any other object literal members with the same // name. return bindPropertyOrMethodOrAccessor(node, 8192 /* Method */ | (node.questionToken ? 16777216 /* Optional */ : 0 /* None */), ts.isObjectLiteralMethod(node) ? 0 /* PropertyExcludes */ : 103359 /* MethodExcludes */); case 244 /* FunctionDeclaration */: return bindFunctionDeclaration(node); case 162 /* Constructor */: return declareSymbolAndAddToSymbolTable(node, 16384 /* Constructor */, /*symbolExcludes:*/ 0 /* None */); case 163 /* GetAccessor */: return bindPropertyOrMethodOrAccessor(node, 32768 /* GetAccessor */, 46015 /* GetAccessorExcludes */); case 164 /* SetAccessor */: return bindPropertyOrMethodOrAccessor(node, 65536 /* SetAccessor */, 78783 /* SetAccessorExcludes */); case 170 /* FunctionType */: case 300 /* JSDocFunctionType */: case 305 /* JSDocSignature */: case 171 /* ConstructorType */: return bindFunctionOrConstructorType(node); case 173 /* TypeLiteral */: case 304 /* JSDocTypeLiteral */: case 186 /* MappedType */: return bindAnonymousTypeWorker(node); case 310 /* JSDocClassTag */: return bindJSDocClassTag(node); case 193 /* ObjectLiteralExpression */: return bindObjectLiteralExpression(node); case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return bindFunctionExpression(node); case 196 /* CallExpression */: var assignmentKind = ts.getAssignmentDeclarationKind(node); switch (assignmentKind) { case 7 /* ObjectDefinePropertyValue */: return bindObjectDefinePropertyAssignment(node); case 8 /* ObjectDefinePropertyExports */: return bindObjectDefinePropertyExport(node); case 9 /* ObjectDefinePrototypeProperty */: return bindObjectDefinePrototypeProperty(node); case 0 /* None */: break; // Nothing to do default: return ts.Debug.fail("Unknown call expression assignment declaration kind"); } if (ts.isInJSFile(node)) { bindCallExpression(node); } break; // Members of classes, interfaces, and modules case 214 /* ClassExpression */: case 245 /* ClassDeclaration */: // All classes are automatically in strict mode in ES6. inStrictMode = true; return bindClassLikeDeclaration(node); case 246 /* InterfaceDeclaration */: return bindBlockScopedDeclaration(node, 64 /* Interface */, 788872 /* InterfaceExcludes */); case 247 /* TypeAliasDeclaration */: return bindBlockScopedDeclaration(node, 524288 /* TypeAlias */, 788968 /* TypeAliasExcludes */); case 248 /* EnumDeclaration */: return bindEnumDeclaration(node); case 249 /* ModuleDeclaration */: return bindModuleDeclaration(node); // Jsx-attributes case 274 /* JsxAttributes */: return bindJsxAttributes(node); case 273 /* JsxAttribute */: return bindJsxAttribute(node, 4 /* Property */, 0 /* PropertyExcludes */); // Imports and exports case 253 /* ImportEqualsDeclaration */: case 256 /* NamespaceImport */: case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: return declareSymbolAndAddToSymbolTable(node, 2097152 /* Alias */, 2097152 /* AliasExcludes */); case 252 /* NamespaceExportDeclaration */: return bindNamespaceExportDeclaration(node); case 255 /* ImportClause */: return bindImportClause(node); case 260 /* ExportDeclaration */: return bindExportDeclaration(node); case 259 /* ExportAssignment */: return bindExportAssignment(node); case 290 /* SourceFile */: updateStrictModeStatementList(node.statements); return bindSourceFileIfExternalModule(); case 223 /* Block */: if (!ts.isFunctionLike(node.parent)) { return; } // falls through case 250 /* ModuleBlock */: return updateStrictModeStatementList(node.statements); case 317 /* JSDocParameterTag */: if (node.parent.kind === 305 /* JSDocSignature */) { return bindParameter(node); } if (node.parent.kind !== 304 /* JSDocTypeLiteral */) { break; } // falls through case 323 /* JSDocPropertyTag */: var propTag = node; var flags = propTag.isBracketed || propTag.typeExpression && propTag.typeExpression.type.kind === 299 /* JSDocOptionalType */ ? 4 /* Property */ | 16777216 /* Optional */ : 4 /* Property */; return declareSymbolAndAddToSymbolTable(propTag, flags, 0 /* PropertyExcludes */); case 322 /* JSDocTypedefTag */: case 315 /* JSDocCallbackTag */: case 316 /* JSDocEnumTag */: return (delayedTypeAliases || (delayedTypeAliases = [])).push(node); } } function bindPropertyWorker(node) { return bindPropertyOrMethodOrAccessor(node, 4 /* Property */ | (node.questionToken ? 16777216 /* Optional */ : 0 /* None */), 0 /* PropertyExcludes */); } function bindAnonymousTypeWorker(node) { return bindAnonymousDeclaration(node, 2048 /* TypeLiteral */, "__type" /* Type */); } function bindSourceFileIfExternalModule() { setExportContextFlag(file); if (ts.isExternalModule(file)) { bindSourceFileAsExternalModule(); } else if (ts.isJsonSourceFile(file)) { bindSourceFileAsExternalModule(); // Create symbol equivalent for the module.exports = {} var originalSymbol = file.symbol; declareSymbol(file.symbol.exports, file.symbol, file, 4 /* Property */, 67108863 /* All */); file.symbol = originalSymbol; } } function bindSourceFileAsExternalModule() { bindAnonymousDeclaration(file, 512 /* ValueModule */, "\"" + ts.removeFileExtension(file.fileName) + "\""); } function bindExportAssignment(node) { if (!container.symbol || !container.symbol.exports) { // Export assignment in some sort of block construct bindAnonymousDeclaration(node, 2097152 /* Alias */, getDeclarationName(node)); } else { var flags = ts.exportAssignmentIsAlias(node) // An export default clause with an EntityNameExpression or a class expression exports all meanings of that identifier or expression; ? 2097152 /* Alias */ // An export default clause with any other expression exports a value : 4 /* Property */; // If there is an `export default x;` alias declaration, can't `export default` anything else. // (In contrast, you can still have `export default function f() {}` and `export default interface I {}`.) var symbol = declareSymbol(container.symbol.exports, container.symbol, node, flags, 67108863 /* All */); if (node.isExportEquals) { // Will be an error later, since the module already has other exports. Just make sure this has a valueDeclaration set. ts.setValueDeclaration(symbol, node); } } } function bindNamespaceExportDeclaration(node) { if (node.modifiers && node.modifiers.length) { file.bindDiagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.Modifiers_cannot_appear_here)); } var diag = !ts.isSourceFile(node.parent) ? ts.Diagnostics.Global_module_exports_may_only_appear_at_top_level : !ts.isExternalModule(node.parent) ? ts.Diagnostics.Global_module_exports_may_only_appear_in_module_files : !node.parent.isDeclarationFile ? ts.Diagnostics.Global_module_exports_may_only_appear_in_declaration_files : undefined; if (diag) { file.bindDiagnostics.push(createDiagnosticForNode(node, diag)); } else { file.symbol.globalExports = file.symbol.globalExports || ts.createSymbolTable(); declareSymbol(file.symbol.globalExports, file.symbol, node, 2097152 /* Alias */, 2097152 /* AliasExcludes */); } } function bindExportDeclaration(node) { if (!container.symbol || !container.symbol.exports) { // Export * in some sort of block construct bindAnonymousDeclaration(node, 8388608 /* ExportStar */, getDeclarationName(node)); } else if (!node.exportClause) { // All export * declarations are collected in an __export symbol declareSymbol(container.symbol.exports, container.symbol, node, 8388608 /* ExportStar */, 0 /* None */); } else if (ts.isNamespaceExport(node.exportClause)) { // declareSymbol walks up parents to find name text, parent _must_ be set // but won't be set by the normal binder walk until `bindChildren` later on. node.exportClause.parent = node; declareSymbol(container.symbol.exports, container.symbol, node.exportClause, 2097152 /* Alias */, 2097152 /* AliasExcludes */); } } function bindImportClause(node) { if (node.name) { declareSymbolAndAddToSymbolTable(node, 2097152 /* Alias */, 2097152 /* AliasExcludes */); } } function setCommonJsModuleIndicator(node) { if (file.externalModuleIndicator) { return false; } if (!file.commonJsModuleIndicator) { file.commonJsModuleIndicator = node; bindSourceFileAsExternalModule(); } return true; } function bindObjectDefinePropertyExport(node) { if (!setCommonJsModuleIndicator(node)) { return; } var symbol = forEachIdentifierInEntityName(node.arguments[0], /*parent*/ undefined, function (id, symbol) { if (symbol) { addDeclarationToSymbol(symbol, id, 1536 /* Module */ | 67108864 /* Assignment */); } return symbol; }); if (symbol) { var flags = 4 /* Property */ | 1048576 /* ExportValue */; declareSymbol(symbol.exports, symbol, node, flags, 0 /* None */); } } function bindExportsPropertyAssignment(node) { // When we create a property via 'exports.foo = bar', the 'exports.foo' property access // expression is the declaration if (!setCommonJsModuleIndicator(node)) { return; } var symbol = forEachIdentifierInEntityName(node.left.expression, /*parent*/ undefined, function (id, symbol) { if (symbol) { addDeclarationToSymbol(symbol, id, 1536 /* Module */ | 67108864 /* Assignment */); } return symbol; }); if (symbol) { var flags = ts.isClassExpression(node.right) ? 4 /* Property */ | 1048576 /* ExportValue */ | 32 /* Class */ : 4 /* Property */ | 1048576 /* ExportValue */; declareSymbol(symbol.exports, symbol, node.left, flags, 0 /* None */); } } function bindModuleExportsAssignment(node) { // A common practice in node modules is to set 'export = module.exports = {}', this ensures that 'exports' // is still pointing to 'module.exports'. // We do not want to consider this as 'export=' since a module can have only one of these. // Similarly we do not want to treat 'module.exports = exports' as an 'export='. if (!setCommonJsModuleIndicator(node)) { return; } var assignedExpression = ts.getRightMostAssignedExpression(node.right); if (ts.isEmptyObjectLiteral(assignedExpression) || container === file && isExportsOrModuleExportsOrAlias(file, assignedExpression)) { return; } // 'module.exports = expr' assignment var flags = ts.exportAssignmentIsAlias(node) ? 2097152 /* Alias */ : 4 /* Property */ | 1048576 /* ExportValue */ | 512 /* ValueModule */; var symbol = declareSymbol(file.symbol.exports, file.symbol, node, flags | 67108864 /* Assignment */, 0 /* None */); ts.setValueDeclaration(symbol, node); } function bindThisPropertyAssignment(node) { ts.Debug.assert(ts.isInJSFile(node)); // private identifiers *must* be declared (even in JS files) var hasPrivateIdentifier = (ts.isBinaryExpression(node) && ts.isPropertyAccessExpression(node.left) && ts.isPrivateIdentifier(node.left.name)) || (ts.isPropertyAccessExpression(node) && ts.isPrivateIdentifier(node.name)); if (hasPrivateIdentifier) { return; } var thisContainer = ts.getThisContainer(node, /*includeArrowFunctions*/ false); switch (thisContainer.kind) { case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: var constructorSymbol = thisContainer.symbol; // For `f.prototype.m = function() { this.x = 0; }`, `this.x = 0` should modify `f`'s members, not the function expression. if (ts.isBinaryExpression(thisContainer.parent) && thisContainer.parent.operatorToken.kind === 62 /* EqualsToken */) { var l = thisContainer.parent.left; if (ts.isBindableStaticAccessExpression(l) && ts.isPrototypeAccess(l.expression)) { constructorSymbol = lookupSymbolForPropertyAccess(l.expression.expression, thisParentContainer); } } if (constructorSymbol && constructorSymbol.valueDeclaration) { // Declare a 'member' if the container is an ES5 class or ES6 constructor constructorSymbol.members = constructorSymbol.members || ts.createSymbolTable(); // It's acceptable for multiple 'this' assignments of the same identifier to occur if (ts.hasDynamicName(node)) { bindDynamicallyNamedThisPropertyAssignment(node, constructorSymbol); } else { declareSymbol(constructorSymbol.members, constructorSymbol, node, 4 /* Property */ | 67108864 /* Assignment */, 0 /* PropertyExcludes */ & ~4 /* Property */); } addDeclarationToSymbol(constructorSymbol, constructorSymbol.valueDeclaration, 32 /* Class */); } break; case 162 /* Constructor */: case 159 /* PropertyDeclaration */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: // this.foo assignment in a JavaScript class // Bind this property to the containing class var containingClass = thisContainer.parent; var symbolTable = ts.hasModifier(thisContainer, 32 /* Static */) ? containingClass.symbol.exports : containingClass.symbol.members; if (ts.hasDynamicName(node)) { bindDynamicallyNamedThisPropertyAssignment(node, containingClass.symbol); } else { declareSymbol(symbolTable, containingClass.symbol, node, 4 /* Property */ | 67108864 /* Assignment */, 0 /* None */, /*isReplaceableByMethod*/ true); } break; case 290 /* SourceFile */: // this.property = assignment in a source file -- declare symbol in exports for a module, in locals for a script if (ts.hasDynamicName(node)) { break; } else if (thisContainer.commonJsModuleIndicator) { declareSymbol(thisContainer.symbol.exports, thisContainer.symbol, node, 4 /* Property */ | 1048576 /* ExportValue */, 0 /* None */); } else { declareSymbolAndAddToSymbolTable(node, 1 /* FunctionScopedVariable */, 111550 /* FunctionScopedVariableExcludes */); } break; default: ts.Debug.failBadSyntaxKind(thisContainer); } } function bindDynamicallyNamedThisPropertyAssignment(node, symbol) { bindAnonymousDeclaration(node, 4 /* Property */, "__computed" /* Computed */); addLateBoundAssignmentDeclarationToSymbol(node, symbol); } function addLateBoundAssignmentDeclarationToSymbol(node, symbol) { if (symbol) { var members = symbol.assignmentDeclarationMembers || (symbol.assignmentDeclarationMembers = ts.createMap()); members.set("" + ts.getNodeId(node), node); } } function bindSpecialPropertyDeclaration(node) { if (node.expression.kind === 104 /* ThisKeyword */) { bindThisPropertyAssignment(node); } else if (ts.isBindableStaticAccessExpression(node) && node.parent.parent.kind === 290 /* SourceFile */) { if (ts.isPrototypeAccess(node.expression)) { bindPrototypePropertyAssignment(node, node.parent); } else { bindStaticPropertyAssignment(node); } } } /** For `x.prototype = { p, ... }`, declare members p,... if `x` is function/class/{}, or not declared. */ function bindPrototypeAssignment(node) { node.left.parent = node; node.right.parent = node; bindPropertyAssignment(node.left.expression, node.left, /*isPrototypeProperty*/ false, /*containerIsClass*/ true); } function bindObjectDefinePrototypeProperty(node) { var namespaceSymbol = lookupSymbolForPropertyAccess(node.arguments[0].expression); if (namespaceSymbol && namespaceSymbol.valueDeclaration) { // Ensure the namespace symbol becomes class-like addDeclarationToSymbol(namespaceSymbol, namespaceSymbol.valueDeclaration, 32 /* Class */); } bindPotentiallyNewExpandoMemberToNamespace(node, namespaceSymbol, /*isPrototypeProperty*/ true); } /** * For `x.prototype.y = z`, declare a member `y` on `x` if `x` is a function or class, or not declared. * Note that jsdoc preceding an ExpressionStatement like `x.prototype.y;` is also treated as a declaration. */ function bindPrototypePropertyAssignment(lhs, parent) { // Look up the function in the local scope, since prototype assignments should // follow the function declaration var classPrototype = lhs.expression; var constructorFunction = classPrototype.expression; // Fix up parent pointers since we're going to use these nodes before we bind into them lhs.parent = parent; constructorFunction.parent = classPrototype; classPrototype.parent = lhs; bindPropertyAssignment(constructorFunction, lhs, /*isPrototypeProperty*/ true, /*containerIsClass*/ true); } function bindObjectDefinePropertyAssignment(node) { var namespaceSymbol = lookupSymbolForPropertyAccess(node.arguments[0]); var isToplevel = node.parent.parent.kind === 290 /* SourceFile */; namespaceSymbol = bindPotentiallyMissingNamespaces(namespaceSymbol, node.arguments[0], isToplevel, /*isPrototypeProperty*/ false, /*containerIsClass*/ false); bindPotentiallyNewExpandoMemberToNamespace(node, namespaceSymbol, /*isPrototypeProperty*/ false); } function bindSpecialPropertyAssignment(node) { // Class declarations in Typescript do not allow property declarations var parentSymbol = lookupSymbolForPropertyAccess(node.left.expression); if (!ts.isInJSFile(node) && !ts.isFunctionSymbol(parentSymbol)) { return; } // Fix up parent pointers since we're going to use these nodes before we bind into them node.left.parent = node; node.right.parent = node; if (ts.isIdentifier(node.left.expression) && container === file && isExportsOrModuleExportsOrAlias(file, node.left.expression)) { // This can be an alias for the 'exports' or 'module.exports' names, e.g. // var util = module.exports; // util.property = function ... bindExportsPropertyAssignment(node); } else if (ts.hasDynamicName(node)) { bindAnonymousDeclaration(node, 4 /* Property */ | 67108864 /* Assignment */, "__computed" /* Computed */); var sym = bindPotentiallyMissingNamespaces(parentSymbol, node.left.expression, isTopLevelNamespaceAssignment(node.left), /*isPrototype*/ false, /*containerIsClass*/ false); addLateBoundAssignmentDeclarationToSymbol(node, sym); } else { bindStaticPropertyAssignment(ts.cast(node.left, ts.isBindableStaticNameExpression)); } } /** * For nodes like `x.y = z`, declare a member 'y' on 'x' if x is a function (or IIFE) or class or {}, or not declared. * Also works for expression statements preceded by JSDoc, like / ** @type number * / x.y; */ function bindStaticPropertyAssignment(node) { ts.Debug.assert(!ts.isIdentifier(node)); node.expression.parent = node; bindPropertyAssignment(node.expression, node, /*isPrototypeProperty*/ false, /*containerIsClass*/ false); } function bindPotentiallyMissingNamespaces(namespaceSymbol, entityName, isToplevel, isPrototypeProperty, containerIsClass) { if (isToplevel && !isPrototypeProperty) { // make symbols or add declarations for intermediate containers var flags_1 = 1536 /* Module */ | 67108864 /* Assignment */; var excludeFlags_1 = 110735 /* ValueModuleExcludes */ & ~67108864 /* Assignment */; namespaceSymbol = forEachIdentifierInEntityName(entityName, namespaceSymbol, function (id, symbol, parent) { if (symbol) { addDeclarationToSymbol(symbol, id, flags_1); return symbol; } else { var table = parent ? parent.exports : file.jsGlobalAugmentations || (file.jsGlobalAugmentations = ts.createSymbolTable()); return declareSymbol(table, parent, id, flags_1, excludeFlags_1); } }); } if (containerIsClass && namespaceSymbol && namespaceSymbol.valueDeclaration) { addDeclarationToSymbol(namespaceSymbol, namespaceSymbol.valueDeclaration, 32 /* Class */); } return namespaceSymbol; } function bindPotentiallyNewExpandoMemberToNamespace(declaration, namespaceSymbol, isPrototypeProperty) { if (!namespaceSymbol || !isExpandoSymbol(namespaceSymbol)) { return; } // Set up the members collection if it doesn't exist already var symbolTable = isPrototypeProperty ? (namespaceSymbol.members || (namespaceSymbol.members = ts.createSymbolTable())) : (namespaceSymbol.exports || (namespaceSymbol.exports = ts.createSymbolTable())); var includes = 0 /* None */; var excludes = 0 /* None */; // Method-like if (ts.isFunctionLikeDeclaration(ts.getAssignedExpandoInitializer(declaration))) { includes = 8192 /* Method */; excludes = 103359 /* MethodExcludes */; } // Maybe accessor-like else if (ts.isCallExpression(declaration) && ts.isBindableObjectDefinePropertyCall(declaration)) { if (ts.some(declaration.arguments[2].properties, function (p) { var id = ts.getNameOfDeclaration(p); return !!id && ts.isIdentifier(id) && ts.idText(id) === "set"; })) { // We mix in `SymbolFLags.Property` so in the checker `getTypeOfVariableParameterOrProperty` is used for this // symbol, instead of `getTypeOfAccessor` (which will assert as there is no real accessor declaration) includes |= 65536 /* SetAccessor */ | 4 /* Property */; excludes |= 78783 /* SetAccessorExcludes */; } if (ts.some(declaration.arguments[2].properties, function (p) { var id = ts.getNameOfDeclaration(p); return !!id && ts.isIdentifier(id) && ts.idText(id) === "get"; })) { includes |= 32768 /* GetAccessor */ | 4 /* Property */; excludes |= 46015 /* GetAccessorExcludes */; } } if (includes === 0 /* None */) { includes = 4 /* Property */; excludes = 0 /* PropertyExcludes */; } declareSymbol(symbolTable, namespaceSymbol, declaration, includes | 67108864 /* Assignment */, excludes & ~67108864 /* Assignment */); } function isTopLevelNamespaceAssignment(propertyAccess) { return ts.isBinaryExpression(propertyAccess.parent) ? getParentOfBinaryExpression(propertyAccess.parent).parent.kind === 290 /* SourceFile */ : propertyAccess.parent.parent.kind === 290 /* SourceFile */; } function bindPropertyAssignment(name, propertyAccess, isPrototypeProperty, containerIsClass) { var namespaceSymbol = lookupSymbolForPropertyAccess(name); var isToplevel = isTopLevelNamespaceAssignment(propertyAccess); namespaceSymbol = bindPotentiallyMissingNamespaces(namespaceSymbol, propertyAccess.expression, isToplevel, isPrototypeProperty, containerIsClass); bindPotentiallyNewExpandoMemberToNamespace(propertyAccess, namespaceSymbol, isPrototypeProperty); } /** * Javascript expando values are: * - Functions * - classes * - namespaces * - variables initialized with function expressions * - with class expressions * - with empty object literals * - with non-empty object literals if assigned to the prototype property */ function isExpandoSymbol(symbol) { if (symbol.flags & (16 /* Function */ | 32 /* Class */ | 1024 /* NamespaceModule */)) { return true; } var node = symbol.valueDeclaration; if (node && ts.isCallExpression(node)) { return !!ts.getAssignedExpandoInitializer(node); } var init = !node ? undefined : ts.isVariableDeclaration(node) ? node.initializer : ts.isBinaryExpression(node) ? node.right : ts.isPropertyAccessExpression(node) && ts.isBinaryExpression(node.parent) ? node.parent.right : undefined; init = init && ts.getRightMostAssignedExpression(init); if (init) { var isPrototypeAssignment = ts.isPrototypeAccess(ts.isVariableDeclaration(node) ? node.name : ts.isBinaryExpression(node) ? node.left : node); return !!ts.getExpandoInitializer(ts.isBinaryExpression(init) && (init.operatorToken.kind === 56 /* BarBarToken */ || init.operatorToken.kind === 60 /* QuestionQuestionToken */) ? init.right : init, isPrototypeAssignment); } return false; } function getParentOfBinaryExpression(expr) { while (ts.isBinaryExpression(expr.parent)) { expr = expr.parent; } return expr.parent; } function lookupSymbolForPropertyAccess(node, lookupContainer) { if (lookupContainer === void 0) { lookupContainer = container; } if (ts.isIdentifier(node)) { return lookupSymbolForNameWorker(lookupContainer, node.escapedText); } else { var symbol = lookupSymbolForPropertyAccess(node.expression); return symbol && symbol.exports && symbol.exports.get(ts.getElementOrPropertyAccessName(node)); } } function forEachIdentifierInEntityName(e, parent, action) { if (isExportsOrModuleExportsOrAlias(file, e)) { return file.symbol; } else if (ts.isIdentifier(e)) { return action(e, lookupSymbolForPropertyAccess(e), parent); } else { var s = forEachIdentifierInEntityName(e.expression, parent, action); var name = ts.getNameOrArgument(e); // unreachable if (ts.isPrivateIdentifier(name)) { ts.Debug.fail("unexpected PrivateIdentifier"); } return action(name, s && s.exports && s.exports.get(ts.getElementOrPropertyAccessName(e)), s); } } function bindCallExpression(node) { // We're only inspecting call expressions to detect CommonJS modules, so we can skip // this check if we've already seen the module indicator if (!file.commonJsModuleIndicator && ts.isRequireCall(node, /*checkArgumentIsStringLiteralLike*/ false)) { setCommonJsModuleIndicator(node); } } function bindClassLikeDeclaration(node) { if (node.kind === 245 /* ClassDeclaration */) { bindBlockScopedDeclaration(node, 32 /* Class */, 899503 /* ClassExcludes */); } else { var bindingName = node.name ? node.name.escapedText : "__class" /* Class */; bindAnonymousDeclaration(node, 32 /* Class */, bindingName); // Add name of class expression into the map for semantic classifier if (node.name) { classifiableNames.set(node.name.escapedText, true); } } var symbol = node.symbol; // TypeScript 1.0 spec (April 2014): 8.4 // Every class automatically contains a static property member named 'prototype', the // type of which is an instantiation of the class type with type Any supplied as a type // argument for each type parameter. It is an error to explicitly declare a static // property member with the name 'prototype'. // // Note: we check for this here because this class may be merging into a module. The // module might have an exported variable called 'prototype'. We can't allow that as // that would clash with the built-in 'prototype' for the class. var prototypeSymbol = createSymbol(4 /* Property */ | 4194304 /* Prototype */, "prototype"); var symbolExport = symbol.exports.get(prototypeSymbol.escapedName); if (symbolExport) { if (node.name) { node.name.parent = node; } file.bindDiagnostics.push(createDiagnosticForNode(symbolExport.declarations[0], ts.Diagnostics.Duplicate_identifier_0, ts.symbolName(prototypeSymbol))); } symbol.exports.set(prototypeSymbol.escapedName, prototypeSymbol); prototypeSymbol.parent = symbol; } function bindEnumDeclaration(node) { return ts.isEnumConst(node) ? bindBlockScopedDeclaration(node, 128 /* ConstEnum */, 899967 /* ConstEnumExcludes */) : bindBlockScopedDeclaration(node, 256 /* RegularEnum */, 899327 /* RegularEnumExcludes */); } function bindVariableDeclarationOrBindingElement(node) { if (inStrictMode) { checkStrictModeEvalOrArguments(node, node.name); } if (!ts.isBindingPattern(node.name)) { if (ts.isBlockOrCatchScoped(node)) { bindBlockScopedDeclaration(node, 2 /* BlockScopedVariable */, 111551 /* BlockScopedVariableExcludes */); } else if (ts.isParameterDeclaration(node)) { // It is safe to walk up parent chain to find whether the node is a destructuring parameter declaration // because its parent chain has already been set up, since parents are set before descending into children. // // If node is a binding element in parameter declaration, we need to use ParameterExcludes. // Using ParameterExcludes flag allows the compiler to report an error on duplicate identifiers in Parameter Declaration // For example: // function foo([a,a]) {} // Duplicate Identifier error // function bar(a,a) {} // Duplicate Identifier error, parameter declaration in this case is handled in bindParameter // // which correctly set excluded symbols declareSymbolAndAddToSymbolTable(node, 1 /* FunctionScopedVariable */, 111551 /* ParameterExcludes */); } else { declareSymbolAndAddToSymbolTable(node, 1 /* FunctionScopedVariable */, 111550 /* FunctionScopedVariableExcludes */); } } } function bindParameter(node) { if (node.kind === 317 /* JSDocParameterTag */ && container.kind !== 305 /* JSDocSignature */) { return; } if (inStrictMode && !(node.flags & 8388608 /* Ambient */)) { // It is a SyntaxError if the identifier eval or arguments appears within a FormalParameterList of a // strict mode FunctionLikeDeclaration or FunctionExpression(13.1) checkStrictModeEvalOrArguments(node, node.name); } if (ts.isBindingPattern(node.name)) { bindAnonymousDeclaration(node, 1 /* FunctionScopedVariable */, "__" + node.parent.parameters.indexOf(node)); } else { declareSymbolAndAddToSymbolTable(node, 1 /* FunctionScopedVariable */, 111551 /* ParameterExcludes */); } // If this is a property-parameter, then also declare the property symbol into the // containing class. if (ts.isParameterPropertyDeclaration(node, node.parent)) { var classDeclaration = node.parent.parent; declareSymbol(classDeclaration.symbol.members, classDeclaration.symbol, node, 4 /* Property */ | (node.questionToken ? 16777216 /* Optional */ : 0 /* None */), 0 /* PropertyExcludes */); } } function bindFunctionDeclaration(node) { if (!file.isDeclarationFile && !(node.flags & 8388608 /* Ambient */)) { if (ts.isAsyncFunction(node)) { emitFlags |= 2048 /* HasAsyncFunctions */; } } checkStrictModeFunctionName(node); if (inStrictMode) { checkStrictModeFunctionDeclaration(node); bindBlockScopedDeclaration(node, 16 /* Function */, 110991 /* FunctionExcludes */); } else { declareSymbolAndAddToSymbolTable(node, 16 /* Function */, 110991 /* FunctionExcludes */); } } function bindFunctionExpression(node) { if (!file.isDeclarationFile && !(node.flags & 8388608 /* Ambient */)) { if (ts.isAsyncFunction(node)) { emitFlags |= 2048 /* HasAsyncFunctions */; } } if (currentFlow) { node.flowNode = currentFlow; } checkStrictModeFunctionName(node); var bindingName = node.name ? node.name.escapedText : "__function" /* Function */; return bindAnonymousDeclaration(node, 16 /* Function */, bindingName); } function bindPropertyOrMethodOrAccessor(node, symbolFlags, symbolExcludes) { if (!file.isDeclarationFile && !(node.flags & 8388608 /* Ambient */) && ts.isAsyncFunction(node)) { emitFlags |= 2048 /* HasAsyncFunctions */; } if (currentFlow && ts.isObjectLiteralOrClassExpressionMethod(node)) { node.flowNode = currentFlow; } return ts.hasDynamicName(node) ? bindAnonymousDeclaration(node, symbolFlags, "__computed" /* Computed */) : declareSymbolAndAddToSymbolTable(node, symbolFlags, symbolExcludes); } function getInferTypeContainer(node) { var extendsType = ts.findAncestor(node, function (n) { return n.parent && ts.isConditionalTypeNode(n.parent) && n.parent.extendsType === n; }); return extendsType && extendsType.parent; } function bindTypeParameter(node) { if (ts.isJSDocTemplateTag(node.parent)) { var container_1 = ts.find(node.parent.parent.tags, ts.isJSDocTypeAlias) || ts.getHostSignatureFromJSDoc(node.parent); // TODO: GH#18217 if (container_1) { if (!container_1.locals) { container_1.locals = ts.createSymbolTable(); } declareSymbol(container_1.locals, /*parent*/ undefined, node, 262144 /* TypeParameter */, 526824 /* TypeParameterExcludes */); } else { declareSymbolAndAddToSymbolTable(node, 262144 /* TypeParameter */, 526824 /* TypeParameterExcludes */); } } else if (node.parent.kind === 181 /* InferType */) { var container_2 = getInferTypeContainer(node.parent); if (container_2) { if (!container_2.locals) { container_2.locals = ts.createSymbolTable(); } declareSymbol(container_2.locals, /*parent*/ undefined, node, 262144 /* TypeParameter */, 526824 /* TypeParameterExcludes */); } else { bindAnonymousDeclaration(node, 262144 /* TypeParameter */, getDeclarationName(node)); // TODO: GH#18217 } } else { declareSymbolAndAddToSymbolTable(node, 262144 /* TypeParameter */, 526824 /* TypeParameterExcludes */); } } // reachability checks function shouldReportErrorOnModuleDeclaration(node) { var instanceState = getModuleInstanceState(node); return instanceState === 1 /* Instantiated */ || (instanceState === 2 /* ConstEnumOnly */ && !!options.preserveConstEnums); } function checkUnreachable(node) { if (!(currentFlow.flags & 1 /* Unreachable */)) { return false; } if (currentFlow === unreachableFlow) { var reportError = // report error on all statements except empty ones (ts.isStatementButNotDeclaration(node) && node.kind !== 224 /* EmptyStatement */) || // report error on class declarations node.kind === 245 /* ClassDeclaration */ || // report error on instantiated modules or const-enums only modules if preserveConstEnums is set (node.kind === 249 /* ModuleDeclaration */ && shouldReportErrorOnModuleDeclaration(node)); if (reportError) { currentFlow = reportedUnreachableFlow; if (!options.allowUnreachableCode) { // unreachable code is reported if // - user has explicitly asked about it AND // - statement is in not ambient context (statements in ambient context is already an error // so we should not report extras) AND // - node is not variable statement OR // - node is block scoped variable statement OR // - node is not block scoped variable statement and at least one variable declaration has initializer // Rationale: we don't want to report errors on non-initialized var's since they are hoisted // On the other side we do want to report errors on non-initialized 'lets' because of TDZ var isError_1 = ts.unreachableCodeIsError(options) && !(node.flags & 8388608 /* Ambient */) && (!ts.isVariableStatement(node) || !!(ts.getCombinedNodeFlags(node.declarationList) & 3 /* BlockScoped */) || node.declarationList.declarations.some(function (d) { return !!d.initializer; })); eachUnreachableRange(node, function (start, end) { return errorOrSuggestionOnRange(isError_1, start, end, ts.Diagnostics.Unreachable_code_detected); }); } } } return true; } } function eachUnreachableRange(node, cb) { if (ts.isStatement(node) && isExecutableStatement(node) && ts.isBlock(node.parent)) { var statements = node.parent.statements; var slice_1 = ts.sliceAfter(statements, node); ts.getRangesWhere(slice_1, isExecutableStatement, function (start, afterEnd) { return cb(slice_1[start], slice_1[afterEnd - 1]); }); } else { cb(node, node); } } // As opposed to a pure declaration like an `interface` function isExecutableStatement(s) { // Don't remove statements that can validly be used before they appear. return !ts.isFunctionDeclaration(s) && !isPurelyTypeDeclaration(s) && !ts.isEnumDeclaration(s) && // `var x;` may declare a variable used above !(ts.isVariableStatement(s) && !(ts.getCombinedNodeFlags(s) & (1 /* Let */ | 2 /* Const */)) && s.declarationList.declarations.some(function (d) { return !d.initializer; })); } function isPurelyTypeDeclaration(s) { switch (s.kind) { case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: return true; case 249 /* ModuleDeclaration */: return getModuleInstanceState(s) !== 1 /* Instantiated */; case 248 /* EnumDeclaration */: return ts.hasModifier(s, 2048 /* Const */); default: return false; } } function isExportsOrModuleExportsOrAlias(sourceFile, node) { var i = 0; var q = [node]; while (q.length && i < 100) { i++; node = q.shift(); if (ts.isExportsIdentifier(node) || ts.isModuleExportsAccessExpression(node)) { return true; } else if (ts.isIdentifier(node)) { var symbol = lookupSymbolForNameWorker(sourceFile, node.escapedText); if (!!symbol && !!symbol.valueDeclaration && ts.isVariableDeclaration(symbol.valueDeclaration) && !!symbol.valueDeclaration.initializer) { var init = symbol.valueDeclaration.initializer; q.push(init); if (ts.isAssignmentExpression(init, /*excludeCompoundAssignment*/ true)) { q.push(init.left); q.push(init.right); } } } } return false; } ts.isExportsOrModuleExportsOrAlias = isExportsOrModuleExportsOrAlias; function lookupSymbolForNameWorker(container, name) { var local = container.locals && container.locals.get(name); if (local) { return local.exportSymbol || local; } if (ts.isSourceFile(container) && container.jsGlobalAugmentations && container.jsGlobalAugmentations.has(name)) { return container.jsGlobalAugmentations.get(name); } return container.symbol && container.symbol.exports && container.symbol.exports.get(name); } /** * Computes the transform flags for a node, given the transform flags of its subtree * * @param node The node to analyze * @param subtreeFlags Transform flags computed for this node's subtree */ function computeTransformFlagsForNode(node, subtreeFlags) { var kind = node.kind; switch (kind) { case 196 /* CallExpression */: return computeCallExpression(node, subtreeFlags); case 197 /* NewExpression */: return computeNewExpression(node, subtreeFlags); case 249 /* ModuleDeclaration */: return computeModuleDeclaration(node, subtreeFlags); case 200 /* ParenthesizedExpression */: return computeParenthesizedExpression(node, subtreeFlags); case 209 /* BinaryExpression */: return computeBinaryExpression(node, subtreeFlags); case 226 /* ExpressionStatement */: return computeExpressionStatement(node, subtreeFlags); case 156 /* Parameter */: return computeParameter(node, subtreeFlags); case 202 /* ArrowFunction */: return computeArrowFunction(node, subtreeFlags); case 201 /* FunctionExpression */: return computeFunctionExpression(node, subtreeFlags); case 244 /* FunctionDeclaration */: return computeFunctionDeclaration(node, subtreeFlags); case 242 /* VariableDeclaration */: return computeVariableDeclaration(node, subtreeFlags); case 243 /* VariableDeclarationList */: return computeVariableDeclarationList(node, subtreeFlags); case 225 /* VariableStatement */: return computeVariableStatement(node, subtreeFlags); case 238 /* LabeledStatement */: return computeLabeledStatement(node, subtreeFlags); case 245 /* ClassDeclaration */: return computeClassDeclaration(node, subtreeFlags); case 214 /* ClassExpression */: return computeClassExpression(node, subtreeFlags); case 279 /* HeritageClause */: return computeHeritageClause(node, subtreeFlags); case 280 /* CatchClause */: return computeCatchClause(node, subtreeFlags); case 216 /* ExpressionWithTypeArguments */: return computeExpressionWithTypeArguments(node, subtreeFlags); case 162 /* Constructor */: return computeConstructor(node, subtreeFlags); case 159 /* PropertyDeclaration */: return computePropertyDeclaration(node, subtreeFlags); case 161 /* MethodDeclaration */: return computeMethod(node, subtreeFlags); case 163 /* GetAccessor */: case 164 /* SetAccessor */: return computeAccessor(node, subtreeFlags); case 253 /* ImportEqualsDeclaration */: return computeImportEquals(node, subtreeFlags); case 194 /* PropertyAccessExpression */: return computePropertyAccess(node, subtreeFlags); case 195 /* ElementAccessExpression */: return computeElementAccess(node, subtreeFlags); case 267 /* JsxSelfClosingElement */: case 268 /* JsxOpeningElement */: return computeJsxOpeningLikeElement(node, subtreeFlags); default: return computeOther(node, kind, subtreeFlags); } } ts.computeTransformFlagsForNode = computeTransformFlagsForNode; function computeCallExpression(node, subtreeFlags) { var transformFlags = subtreeFlags; var callee = ts.skipOuterExpressions(node.expression); var expression = node.expression; if (node.flags & 32 /* OptionalChain */) { transformFlags |= 8 /* ContainsES2020 */; } if (node.typeArguments) { transformFlags |= 1 /* AssertTypeScript */; } if (subtreeFlags & 8192 /* ContainsRestOrSpread */ || ts.isSuperOrSuperProperty(callee)) { // If the this node contains a SpreadExpression, or is a super call, then it is an ES6 // node. transformFlags |= 256 /* AssertES2015 */; if (ts.isSuperProperty(callee)) { transformFlags |= 4096 /* ContainsLexicalThis */; } } if (expression.kind === 96 /* ImportKeyword */) { transformFlags |= 2097152 /* ContainsDynamicImport */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536879104 /* ArrayLiteralOrCallOrNewExcludes */; } function computeNewExpression(node, subtreeFlags) { var transformFlags = subtreeFlags; if (node.typeArguments) { transformFlags |= 1 /* AssertTypeScript */; } if (subtreeFlags & 8192 /* ContainsRestOrSpread */) { // If the this node contains a SpreadElementExpression then it is an ES6 // node. transformFlags |= 256 /* AssertES2015 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536879104 /* ArrayLiteralOrCallOrNewExcludes */; } function computeJsxOpeningLikeElement(node, subtreeFlags) { var transformFlags = subtreeFlags | 2 /* AssertJsx */; if (node.typeArguments) { transformFlags |= 1 /* AssertTypeScript */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeBinaryExpression(node, subtreeFlags) { var transformFlags = subtreeFlags; var operatorTokenKind = node.operatorToken.kind; var leftKind = node.left.kind; if (operatorTokenKind === 60 /* QuestionQuestionToken */) { transformFlags |= 8 /* AssertES2020 */; } else if (operatorTokenKind === 62 /* EqualsToken */ && leftKind === 193 /* ObjectLiteralExpression */) { // Destructuring object assignments with are ES2015 syntax // and possibly ES2018 if they contain rest transformFlags |= 32 /* AssertES2018 */ | 256 /* AssertES2015 */ | 1024 /* AssertDestructuringAssignment */; } else if (operatorTokenKind === 62 /* EqualsToken */ && leftKind === 192 /* ArrayLiteralExpression */) { // Destructuring assignments are ES2015 syntax. transformFlags |= 256 /* AssertES2015 */ | 1024 /* AssertDestructuringAssignment */; } else if (operatorTokenKind === 42 /* AsteriskAsteriskToken */ || operatorTokenKind === 66 /* AsteriskAsteriskEqualsToken */) { // Exponentiation is ES2016 syntax. transformFlags |= 128 /* AssertES2016 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeParameter(node, subtreeFlags) { var transformFlags = subtreeFlags; var name = node.name; var initializer = node.initializer; var dotDotDotToken = node.dotDotDotToken; // The '?' token, type annotations, decorators, and 'this' parameters are TypeSCript // syntax. if (node.questionToken || node.type || (subtreeFlags & 2048 /* ContainsTypeScriptClassSyntax */ && ts.some(node.decorators)) || ts.isThisIdentifier(name)) { transformFlags |= 1 /* AssertTypeScript */; } // If a parameter has an accessibility modifier, then it is TypeScript syntax. if (ts.hasModifier(node, 92 /* ParameterPropertyModifier */)) { transformFlags |= 1 /* AssertTypeScript */ | 2048 /* ContainsTypeScriptClassSyntax */; } // parameters with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } // If a parameter has an initializer, a binding pattern or a dotDotDot token, then // it is ES6 syntax and its container must emit default value assignments or parameter destructuring downlevel. if (subtreeFlags & 131072 /* ContainsBindingPattern */ || initializer || dotDotDotToken) { transformFlags |= 256 /* AssertES2015 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* ParameterExcludes */; } function computeParenthesizedExpression(node, subtreeFlags) { var transformFlags = subtreeFlags; var expression = node.expression; var expressionKind = expression.kind; // If the node is synthesized, it means the emitter put the parentheses there, // not the user. If we didn't want them, the emitter would not have put them // there. if (expressionKind === 217 /* AsExpression */ || expressionKind === 199 /* TypeAssertionExpression */) { transformFlags |= 1 /* AssertTypeScript */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* OuterExpressionExcludes */; } function computeClassDeclaration(node, subtreeFlags) { var transformFlags; if (ts.hasModifier(node, 2 /* Ambient */)) { // An ambient declaration is TypeScript syntax. transformFlags = 1 /* AssertTypeScript */; } else { // A ClassDeclaration is ES6 syntax. transformFlags = subtreeFlags | 256 /* AssertES2015 */; // A class with a parameter property assignment or decorator is TypeScript syntax. // An exported declaration may be TypeScript syntax, but is handled by the visitor // for a namespace declaration. if ((subtreeFlags & 2048 /* ContainsTypeScriptClassSyntax */) || node.typeParameters) { transformFlags |= 1 /* AssertTypeScript */; } } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536905728 /* ClassExcludes */; } function computeClassExpression(node, subtreeFlags) { // A ClassExpression is ES6 syntax. var transformFlags = subtreeFlags | 256 /* AssertES2015 */; // A class with a parameter property assignment or decorator is TypeScript syntax. if (subtreeFlags & 2048 /* ContainsTypeScriptClassSyntax */ || node.typeParameters) { transformFlags |= 1 /* AssertTypeScript */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536905728 /* ClassExcludes */; } function computeHeritageClause(node, subtreeFlags) { var transformFlags = subtreeFlags; switch (node.token) { case 90 /* ExtendsKeyword */: // An `extends` HeritageClause is ES6 syntax. transformFlags |= 256 /* AssertES2015 */; break; case 113 /* ImplementsKeyword */: // An `implements` HeritageClause is TypeScript syntax. transformFlags |= 1 /* AssertTypeScript */; break; default: ts.Debug.fail("Unexpected token for heritage clause"); break; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeCatchClause(node, subtreeFlags) { var transformFlags = subtreeFlags; if (!node.variableDeclaration) { transformFlags |= 16 /* AssertES2019 */; } else if (ts.isBindingPattern(node.variableDeclaration.name)) { transformFlags |= 256 /* AssertES2015 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536887296 /* CatchClauseExcludes */; } function computeExpressionWithTypeArguments(node, subtreeFlags) { // An ExpressionWithTypeArguments is ES6 syntax, as it is used in the // extends clause of a class. var transformFlags = subtreeFlags | 256 /* AssertES2015 */; // If an ExpressionWithTypeArguments contains type arguments, then it // is TypeScript syntax. if (node.typeArguments) { transformFlags |= 1 /* AssertTypeScript */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeConstructor(node, subtreeFlags) { var transformFlags = subtreeFlags; // TypeScript-specific modifiers and overloads are TypeScript syntax if (ts.hasModifier(node, 2270 /* TypeScriptModifier */) || !node.body) { transformFlags |= 1 /* AssertTypeScript */; } // function declarations with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~538923008 /* ConstructorExcludes */; } function computeMethod(node, subtreeFlags) { // A MethodDeclaration is ES6 syntax. var transformFlags = subtreeFlags | 256 /* AssertES2015 */; // Decorators, TypeScript-specific modifiers, type parameters, type annotations, and // overloads are TypeScript syntax. if (node.decorators || ts.hasModifier(node, 2270 /* TypeScriptModifier */) || node.typeParameters || node.type || !node.body || node.questionToken) { transformFlags |= 1 /* AssertTypeScript */; } // function declarations with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } // An async method declaration is ES2017 syntax. if (ts.hasModifier(node, 256 /* Async */)) { transformFlags |= node.asteriskToken ? 32 /* AssertES2018 */ : 64 /* AssertES2017 */; } if (node.asteriskToken) { transformFlags |= 512 /* AssertGenerator */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return propagatePropertyNameFlags(node.name, transformFlags & ~538923008 /* MethodOrAccessorExcludes */); } function computeAccessor(node, subtreeFlags) { var transformFlags = subtreeFlags; // Decorators, TypeScript-specific modifiers, type annotations, and overloads are // TypeScript syntax. if (node.decorators || ts.hasModifier(node, 2270 /* TypeScriptModifier */) || node.type || !node.body) { transformFlags |= 1 /* AssertTypeScript */; } // function declarations with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return propagatePropertyNameFlags(node.name, transformFlags & ~538923008 /* MethodOrAccessorExcludes */); } function computePropertyDeclaration(node, subtreeFlags) { var transformFlags = subtreeFlags | 4194304 /* ContainsClassFields */; // Decorators, TypeScript-specific modifiers, and type annotations are TypeScript syntax. if (ts.some(node.decorators) || ts.hasModifier(node, 2270 /* TypeScriptModifier */) || node.type || node.questionToken || node.exclamationToken) { transformFlags |= 1 /* AssertTypeScript */; } // Hoisted variables related to class properties should live within the TypeScript class wrapper. if (ts.isComputedPropertyName(node.name) || (ts.hasStaticModifier(node) && node.initializer)) { transformFlags |= 2048 /* ContainsTypeScriptClassSyntax */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return propagatePropertyNameFlags(node.name, transformFlags & ~536875008 /* PropertyExcludes */); } function computeFunctionDeclaration(node, subtreeFlags) { var transformFlags; var modifierFlags = ts.getModifierFlags(node); var body = node.body; if (!body || (modifierFlags & 2 /* Ambient */)) { // An ambient declaration is TypeScript syntax. // A FunctionDeclaration without a body is an overload and is TypeScript syntax. transformFlags = 1 /* AssertTypeScript */; } else { transformFlags = subtreeFlags | 1048576 /* ContainsHoistedDeclarationOrCompletion */; // TypeScript-specific modifiers, type parameters, and type annotations are TypeScript // syntax. if (modifierFlags & 2270 /* TypeScriptModifier */ || node.typeParameters || node.type) { transformFlags |= 1 /* AssertTypeScript */; } // An async function declaration is ES2017 syntax. if (modifierFlags & 256 /* Async */) { transformFlags |= node.asteriskToken ? 32 /* AssertES2018 */ : 64 /* AssertES2017 */; } // function declarations with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } // If a FunctionDeclaration is generator function and is the body of a // transformed async function, then this node can be transformed to a // down-level generator. // Currently we do not support transforming any other generator functions // down level. if (node.asteriskToken) { transformFlags |= 512 /* AssertGenerator */; } } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~538925056 /* FunctionExcludes */; } function computeFunctionExpression(node, subtreeFlags) { var transformFlags = subtreeFlags; // TypeScript-specific modifiers, type parameters, and type annotations are TypeScript // syntax. if (ts.hasModifier(node, 2270 /* TypeScriptModifier */) || node.typeParameters || node.type) { transformFlags |= 1 /* AssertTypeScript */; } // An async function expression is ES2017 syntax. if (ts.hasModifier(node, 256 /* Async */)) { transformFlags |= node.asteriskToken ? 32 /* AssertES2018 */ : 64 /* AssertES2017 */; } // function expressions with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } // If a FunctionExpression is generator function and is the body of a // transformed async function, then this node can be transformed to a // down-level generator. if (node.asteriskToken) { transformFlags |= 512 /* AssertGenerator */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~538925056 /* FunctionExcludes */; } function computeArrowFunction(node, subtreeFlags) { // An ArrowFunction is ES6 syntax, and excludes markers that should not escape the scope of an ArrowFunction. var transformFlags = subtreeFlags | 256 /* AssertES2015 */; // TypeScript-specific modifiers, type parameters, and type annotations are TypeScript // syntax. if (ts.hasModifier(node, 2270 /* TypeScriptModifier */) || node.typeParameters || node.type) { transformFlags |= 1 /* AssertTypeScript */; } // An async arrow function is ES2017 syntax. if (ts.hasModifier(node, 256 /* Async */)) { transformFlags |= 64 /* AssertES2017 */; } // arrow functions with object rest destructuring are ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~538920960 /* ArrowFunctionExcludes */; } function computePropertyAccess(node, subtreeFlags) { var transformFlags = subtreeFlags; if (node.flags & 32 /* OptionalChain */) { transformFlags |= 8 /* ContainsES2020 */; } // If a PropertyAccessExpression starts with a super keyword, then it is // ES6 syntax, and requires a lexical `this` binding. if (node.expression.kind === 102 /* SuperKeyword */) { // super inside of an async function requires hoisting the super access (ES2017). // same for super inside of an async generator, which is ES2018. transformFlags |= 64 /* ContainsES2017 */ | 32 /* ContainsES2018 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* PropertyAccessExcludes */; } function computeElementAccess(node, subtreeFlags) { var transformFlags = subtreeFlags; if (node.flags & 32 /* OptionalChain */) { transformFlags |= 8 /* ContainsES2020 */; } // If an ElementAccessExpression starts with a super keyword, then it is // ES6 syntax, and requires a lexical `this` binding. if (node.expression.kind === 102 /* SuperKeyword */) { // super inside of an async function requires hoisting the super access (ES2017). // same for super inside of an async generator, which is ES2018. transformFlags |= 64 /* ContainsES2017 */ | 32 /* ContainsES2018 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* PropertyAccessExcludes */; } function computeVariableDeclaration(node, subtreeFlags) { var transformFlags = subtreeFlags; transformFlags |= 256 /* AssertES2015 */ | 131072 /* ContainsBindingPattern */; // TODO(rbuckton): Why are these set unconditionally? // A VariableDeclaration containing ObjectRest is ES2018 syntax if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */; } // Type annotations are TypeScript syntax. if (node.type || node.exclamationToken) { transformFlags |= 1 /* AssertTypeScript */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeVariableStatement(node, subtreeFlags) { var transformFlags; var declarationListTransformFlags = node.declarationList.transformFlags; // An ambient declaration is TypeScript syntax. if (ts.hasModifier(node, 2 /* Ambient */)) { transformFlags = 1 /* AssertTypeScript */; } else { transformFlags = subtreeFlags; if (declarationListTransformFlags & 131072 /* ContainsBindingPattern */) { transformFlags |= 256 /* AssertES2015 */; } } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeLabeledStatement(node, subtreeFlags) { var transformFlags = subtreeFlags; // A labeled statement containing a block scoped binding *may* need to be transformed from ES6. if (subtreeFlags & 65536 /* ContainsBlockScopedBinding */ && ts.isIterationStatement(node, /*lookInLabeledStatements*/ true)) { transformFlags |= 256 /* AssertES2015 */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeImportEquals(node, subtreeFlags) { var transformFlags = subtreeFlags; // An ImportEqualsDeclaration with a namespace reference is TypeScript. if (!ts.isExternalModuleImportEqualsDeclaration(node)) { transformFlags |= 1 /* AssertTypeScript */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeExpressionStatement(node, subtreeFlags) { var transformFlags = subtreeFlags; node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~536870912 /* NodeExcludes */; } function computeModuleDeclaration(node, subtreeFlags) { var transformFlags = 1 /* AssertTypeScript */; var modifierFlags = ts.getModifierFlags(node); if ((modifierFlags & 2 /* Ambient */) === 0) { transformFlags |= subtreeFlags; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~537991168 /* ModuleExcludes */; } function computeVariableDeclarationList(node, subtreeFlags) { var transformFlags = subtreeFlags | 1048576 /* ContainsHoistedDeclarationOrCompletion */; if (subtreeFlags & 131072 /* ContainsBindingPattern */) { transformFlags |= 256 /* AssertES2015 */; } // If a VariableDeclarationList is `let` or `const`, then it is ES6 syntax. if (node.flags & 3 /* BlockScoped */) { transformFlags |= 256 /* AssertES2015 */ | 65536 /* ContainsBlockScopedBinding */; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~537018368 /* VariableDeclarationListExcludes */; } function computeOther(node, kind, subtreeFlags) { // Mark transformations needed for each node var transformFlags = subtreeFlags; var excludeFlags = 536870912 /* NodeExcludes */; switch (kind) { case 126 /* AsyncKeyword */: // async is ES2017 syntax, but may be ES2018 syntax (for async generators) transformFlags |= 32 /* AssertES2018 */ | 64 /* AssertES2017 */; break; case 206 /* AwaitExpression */: // await is ES2017 syntax, but may be ES2018 syntax (for async generators) transformFlags |= 32 /* AssertES2018 */ | 64 /* AssertES2017 */ | 524288 /* ContainsAwait */; break; case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: case 326 /* PartiallyEmittedExpression */: // These nodes are TypeScript syntax. transformFlags |= 1 /* AssertTypeScript */; excludeFlags = 536870912 /* OuterExpressionExcludes */; break; case 119 /* PublicKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 122 /* AbstractKeyword */: case 130 /* DeclareKeyword */: case 81 /* ConstKeyword */: case 248 /* EnumDeclaration */: case 284 /* EnumMember */: case 218 /* NonNullExpression */: case 138 /* ReadonlyKeyword */: // These nodes are TypeScript syntax. transformFlags |= 1 /* AssertTypeScript */; break; case 266 /* JsxElement */: case 11 /* JsxText */: case 269 /* JsxClosingElement */: case 270 /* JsxFragment */: case 271 /* JsxOpeningFragment */: case 272 /* JsxClosingFragment */: case 273 /* JsxAttribute */: case 274 /* JsxAttributes */: case 275 /* JsxSpreadAttribute */: case 276 /* JsxExpression */: // These nodes are Jsx syntax. transformFlags |= 2 /* AssertJsx */; break; case 14 /* NoSubstitutionTemplateLiteral */: case 15 /* TemplateHead */: case 16 /* TemplateMiddle */: case 17 /* TemplateTail */: if (node.templateFlags) { transformFlags |= 32 /* AssertES2018 */; break; } // falls through case 198 /* TaggedTemplateExpression */: if (ts.hasInvalidEscape(node.template)) { transformFlags |= 32 /* AssertES2018 */; break; } // falls through case 211 /* TemplateExpression */: case 282 /* ShorthandPropertyAssignment */: case 120 /* StaticKeyword */: case 219 /* MetaProperty */: // These nodes are ES6 syntax. transformFlags |= 256 /* AssertES2015 */; break; case 10 /* StringLiteral */: if (node.hasExtendedUnicodeEscape) { transformFlags |= 256 /* AssertES2015 */; } break; case 8 /* NumericLiteral */: if (node.numericLiteralFlags & 384 /* BinaryOrOctalSpecifier */) { transformFlags |= 256 /* AssertES2015 */; } break; case 9 /* BigIntLiteral */: transformFlags |= 4 /* AssertESNext */; break; case 232 /* ForOfStatement */: // This node is either ES2015 syntax or ES2017 syntax (if it is a for-await-of). if (node.awaitModifier) { transformFlags |= 32 /* AssertES2018 */; } transformFlags |= 256 /* AssertES2015 */; break; case 212 /* YieldExpression */: // This node is either ES2015 syntax (in a generator) or ES2017 syntax (in an async // generator). transformFlags |= 32 /* AssertES2018 */ | 256 /* AssertES2015 */ | 262144 /* ContainsYield */; break; case 125 /* AnyKeyword */: case 140 /* NumberKeyword */: case 151 /* BigIntKeyword */: case 137 /* NeverKeyword */: case 141 /* ObjectKeyword */: case 143 /* StringKeyword */: case 128 /* BooleanKeyword */: case 144 /* SymbolKeyword */: case 110 /* VoidKeyword */: case 155 /* TypeParameter */: case 158 /* PropertySignature */: case 160 /* MethodSignature */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: case 168 /* TypePredicate */: case 169 /* TypeReference */: case 170 /* FunctionType */: case 171 /* ConstructorType */: case 172 /* TypeQuery */: case 173 /* TypeLiteral */: case 174 /* ArrayType */: case 175 /* TupleType */: case 176 /* OptionalType */: case 177 /* RestType */: case 178 /* UnionType */: case 179 /* IntersectionType */: case 180 /* ConditionalType */: case 181 /* InferType */: case 182 /* ParenthesizedType */: case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: case 183 /* ThisType */: case 184 /* TypeOperator */: case 185 /* IndexedAccessType */: case 186 /* MappedType */: case 187 /* LiteralType */: case 252 /* NamespaceExportDeclaration */: // Types and signatures are TypeScript syntax, and exclude all other facts. transformFlags = 1 /* AssertTypeScript */; excludeFlags = -2 /* TypeExcludes */; break; case 154 /* ComputedPropertyName */: // Even though computed property names are ES6, we don't treat them as such. // This is so that they can flow through PropertyName transforms unaffected. // Instead, we mark the container as ES6, so that it can properly handle the transform. transformFlags |= 32768 /* ContainsComputedPropertyName */; break; case 213 /* SpreadElement */: transformFlags |= 256 /* AssertES2015 */ | 8192 /* ContainsRestOrSpread */; break; case 283 /* SpreadAssignment */: transformFlags |= 32 /* AssertES2018 */ | 16384 /* ContainsObjectRestOrSpread */; break; case 102 /* SuperKeyword */: // This node is ES6 syntax. transformFlags |= 256 /* AssertES2015 */; excludeFlags = 536870912 /* OuterExpressionExcludes */; // must be set to persist `Super` break; case 104 /* ThisKeyword */: // Mark this node and its ancestors as containing a lexical `this` keyword. transformFlags |= 4096 /* ContainsLexicalThis */; break; case 189 /* ObjectBindingPattern */: transformFlags |= 256 /* AssertES2015 */ | 131072 /* ContainsBindingPattern */; if (subtreeFlags & 8192 /* ContainsRestOrSpread */) { transformFlags |= 32 /* AssertES2018 */ | 16384 /* ContainsObjectRestOrSpread */; } excludeFlags = 536879104 /* BindingPatternExcludes */; break; case 190 /* ArrayBindingPattern */: transformFlags |= 256 /* AssertES2015 */ | 131072 /* ContainsBindingPattern */; excludeFlags = 536879104 /* BindingPatternExcludes */; break; case 191 /* BindingElement */: transformFlags |= 256 /* AssertES2015 */; if (node.dotDotDotToken) { transformFlags |= 8192 /* ContainsRestOrSpread */; } break; case 157 /* Decorator */: // This node is TypeScript syntax, and marks its container as also being TypeScript syntax. transformFlags |= 1 /* AssertTypeScript */ | 2048 /* ContainsTypeScriptClassSyntax */; break; case 193 /* ObjectLiteralExpression */: excludeFlags = 536922112 /* ObjectLiteralExcludes */; if (subtreeFlags & 32768 /* ContainsComputedPropertyName */) { // If an ObjectLiteralExpression contains a ComputedPropertyName, then it // is an ES6 node. transformFlags |= 256 /* AssertES2015 */; } if (subtreeFlags & 16384 /* ContainsObjectRestOrSpread */) { // If an ObjectLiteralExpression contains a spread element, then it // is an ES2018 node. transformFlags |= 32 /* AssertES2018 */; } break; case 192 /* ArrayLiteralExpression */: excludeFlags = 536879104 /* ArrayLiteralOrCallOrNewExcludes */; break; case 228 /* DoStatement */: case 229 /* WhileStatement */: case 230 /* ForStatement */: case 231 /* ForInStatement */: // A loop containing a block scoped binding *may* need to be transformed from ES6. if (subtreeFlags & 65536 /* ContainsBlockScopedBinding */) { transformFlags |= 256 /* AssertES2015 */; } break; case 290 /* SourceFile */: break; case 262 /* NamespaceExport */: transformFlags |= 4 /* AssertESNext */; break; case 235 /* ReturnStatement */: // Return statements may require an `await` in ES2018. transformFlags |= 1048576 /* ContainsHoistedDeclarationOrCompletion */ | 32 /* AssertES2018 */; break; case 233 /* ContinueStatement */: case 234 /* BreakStatement */: transformFlags |= 1048576 /* ContainsHoistedDeclarationOrCompletion */; break; case 76 /* PrivateIdentifier */: transformFlags |= 4194304 /* ContainsClassFields */; break; } node.transformFlags = transformFlags | 536870912 /* HasComputedFlags */; return transformFlags & ~excludeFlags; } function propagatePropertyNameFlags(node, transformFlags) { return transformFlags | (node.transformFlags & 4096 /* PropertyNamePropagatingFlags */); } /** * Gets the transform flags to exclude when unioning the transform flags of a subtree. * * NOTE: This needs to be kept up-to-date with the exclusions used in `computeTransformFlagsForNode`. * For performance reasons, `computeTransformFlagsForNode` uses local constant values rather * than calling this function. */ function getTransformFlagsSubtreeExclusions(kind) { if (kind >= 168 /* FirstTypeNode */ && kind <= 188 /* LastTypeNode */) { return -2 /* TypeExcludes */; } switch (kind) { case 196 /* CallExpression */: case 197 /* NewExpression */: case 192 /* ArrayLiteralExpression */: return 536879104 /* ArrayLiteralOrCallOrNewExcludes */; case 249 /* ModuleDeclaration */: return 537991168 /* ModuleExcludes */; case 156 /* Parameter */: return 536870912 /* ParameterExcludes */; case 202 /* ArrowFunction */: return 538920960 /* ArrowFunctionExcludes */; case 201 /* FunctionExpression */: case 244 /* FunctionDeclaration */: return 538925056 /* FunctionExcludes */; case 243 /* VariableDeclarationList */: return 537018368 /* VariableDeclarationListExcludes */; case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return 536905728 /* ClassExcludes */; case 162 /* Constructor */: return 538923008 /* ConstructorExcludes */; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return 538923008 /* MethodOrAccessorExcludes */; case 125 /* AnyKeyword */: case 140 /* NumberKeyword */: case 151 /* BigIntKeyword */: case 137 /* NeverKeyword */: case 143 /* StringKeyword */: case 141 /* ObjectKeyword */: case 128 /* BooleanKeyword */: case 144 /* SymbolKeyword */: case 110 /* VoidKeyword */: case 155 /* TypeParameter */: case 158 /* PropertySignature */: case 160 /* MethodSignature */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: return -2 /* TypeExcludes */; case 193 /* ObjectLiteralExpression */: return 536922112 /* ObjectLiteralExcludes */; case 280 /* CatchClause */: return 536887296 /* CatchClauseExcludes */; case 189 /* ObjectBindingPattern */: case 190 /* ArrayBindingPattern */: return 536879104 /* BindingPatternExcludes */; case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: case 326 /* PartiallyEmittedExpression */: case 200 /* ParenthesizedExpression */: case 102 /* SuperKeyword */: return 536870912 /* OuterExpressionExcludes */; case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return 536870912 /* PropertyAccessExcludes */; default: return 536870912 /* NodeExcludes */; } } ts.getTransformFlagsSubtreeExclusions = getTransformFlagsSubtreeExclusions; /** * "Binds" JSDoc nodes in TypeScript code. * Since we will never create symbols for JSDoc, we just set parent pointers instead. */ function setParentPointers(parent, child) { child.parent = parent; ts.forEachChild(child, function (grandchild) { return setParentPointers(child, grandchild); }); } })(ts || (ts = {})); /** @internal */ var ts; (function (ts) { function createGetSymbolWalker(getRestTypeOfSignature, getTypePredicateOfSignature, getReturnTypeOfSignature, getBaseTypes, resolveStructuredTypeMembers, getTypeOfSymbol, getResolvedSymbol, getIndexTypeOfStructuredType, getConstraintOfTypeParameter, getFirstIdentifier, getTypeArguments) { return getSymbolWalker; function getSymbolWalker(accept) { if (accept === void 0) { accept = function () { return true; }; } var visitedTypes = []; // Sparse array from id to type var visitedSymbols = []; // Sparse array from id to symbol return { walkType: function (type) { try { visitType(type); return { visitedTypes: ts.getOwnValues(visitedTypes), visitedSymbols: ts.getOwnValues(visitedSymbols) }; } finally { ts.clear(visitedTypes); ts.clear(visitedSymbols); } }, walkSymbol: function (symbol) { try { visitSymbol(symbol); return { visitedTypes: ts.getOwnValues(visitedTypes), visitedSymbols: ts.getOwnValues(visitedSymbols) }; } finally { ts.clear(visitedTypes); ts.clear(visitedSymbols); } }, }; function visitType(type) { if (!type) { return; } if (visitedTypes[type.id]) { return; } visitedTypes[type.id] = type; // Reuse visitSymbol to visit the type's symbol, // but be sure to bail on recuring into the type if accept declines the symbol. var shouldBail = visitSymbol(type.symbol); if (shouldBail) return; // Visit the type's related types, if any if (type.flags & 524288 /* Object */) { var objectType = type; var objectFlags = objectType.objectFlags; if (objectFlags & 4 /* Reference */) { visitTypeReference(type); } if (objectFlags & 32 /* Mapped */) { visitMappedType(type); } if (objectFlags & (1 /* Class */ | 2 /* Interface */)) { visitInterfaceType(type); } if (objectFlags & (8 /* Tuple */ | 16 /* Anonymous */)) { visitObjectType(objectType); } } if (type.flags & 262144 /* TypeParameter */) { visitTypeParameter(type); } if (type.flags & 3145728 /* UnionOrIntersection */) { visitUnionOrIntersectionType(type); } if (type.flags & 4194304 /* Index */) { visitIndexType(type); } if (type.flags & 8388608 /* IndexedAccess */) { visitIndexedAccessType(type); } } function visitTypeReference(type) { visitType(type.target); ts.forEach(getTypeArguments(type), visitType); } function visitTypeParameter(type) { visitType(getConstraintOfTypeParameter(type)); } function visitUnionOrIntersectionType(type) { ts.forEach(type.types, visitType); } function visitIndexType(type) { visitType(type.type); } function visitIndexedAccessType(type) { visitType(type.objectType); visitType(type.indexType); visitType(type.constraint); } function visitMappedType(type) { visitType(type.typeParameter); visitType(type.constraintType); visitType(type.templateType); visitType(type.modifiersType); } function visitSignature(signature) { var typePredicate = getTypePredicateOfSignature(signature); if (typePredicate) { visitType(typePredicate.type); } ts.forEach(signature.typeParameters, visitType); for (var _i = 0, _a = signature.parameters; _i < _a.length; _i++) { var parameter = _a[_i]; visitSymbol(parameter); } visitType(getRestTypeOfSignature(signature)); visitType(getReturnTypeOfSignature(signature)); } function visitInterfaceType(interfaceT) { visitObjectType(interfaceT); ts.forEach(interfaceT.typeParameters, visitType); ts.forEach(getBaseTypes(interfaceT), visitType); visitType(interfaceT.thisType); } function visitObjectType(type) { var stringIndexType = getIndexTypeOfStructuredType(type, 0 /* String */); visitType(stringIndexType); var numberIndexType = getIndexTypeOfStructuredType(type, 1 /* Number */); visitType(numberIndexType); // The two checks above *should* have already resolved the type (if needed), so this should be cached var resolved = resolveStructuredTypeMembers(type); for (var _i = 0, _a = resolved.callSignatures; _i < _a.length; _i++) { var signature = _a[_i]; visitSignature(signature); } for (var _b = 0, _c = resolved.constructSignatures; _b < _c.length; _b++) { var signature = _c[_b]; visitSignature(signature); } for (var _d = 0, _e = resolved.properties; _d < _e.length; _d++) { var p = _e[_d]; visitSymbol(p); } } function visitSymbol(symbol) { if (!symbol) { return false; } var symbolId = ts.getSymbolId(symbol); if (visitedSymbols[symbolId]) { return false; } visitedSymbols[symbolId] = symbol; if (!accept(symbol)) { return true; } var t = getTypeOfSymbol(symbol); visitType(t); // Should handle members on classes and such if (symbol.exports) { symbol.exports.forEach(visitSymbol); } ts.forEach(symbol.declarations, function (d) { // Type queries are too far resolved when we just visit the symbol's type // (their type resolved directly to the member deeply referenced) // So to get the intervening symbols, we need to check if there's a type // query node on any of the symbol's declarations and get symbols there if (d.type && d.type.kind === 172 /* TypeQuery */) { var query = d.type; var entity = getResolvedSymbol(getFirstIdentifier(query.exprName)); visitSymbol(entity); } }); return false; } } } ts.createGetSymbolWalker = createGetSymbolWalker; })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { var ambientModuleSymbolRegex = /^".+"$/; var anon = "(anonymous)"; var nextSymbolId = 1; var nextNodeId = 1; var nextMergeId = 1; var nextFlowId = 1; var IterationUse; (function (IterationUse) { IterationUse[IterationUse["AllowsSyncIterablesFlag"] = 1] = "AllowsSyncIterablesFlag"; IterationUse[IterationUse["AllowsAsyncIterablesFlag"] = 2] = "AllowsAsyncIterablesFlag"; IterationUse[IterationUse["AllowsStringInputFlag"] = 4] = "AllowsStringInputFlag"; IterationUse[IterationUse["ForOfFlag"] = 8] = "ForOfFlag"; IterationUse[IterationUse["YieldStarFlag"] = 16] = "YieldStarFlag"; IterationUse[IterationUse["SpreadFlag"] = 32] = "SpreadFlag"; IterationUse[IterationUse["DestructuringFlag"] = 64] = "DestructuringFlag"; // Spread, Destructuring, Array element assignment IterationUse[IterationUse["Element"] = 1] = "Element"; IterationUse[IterationUse["Spread"] = 33] = "Spread"; IterationUse[IterationUse["Destructuring"] = 65] = "Destructuring"; IterationUse[IterationUse["ForOf"] = 13] = "ForOf"; IterationUse[IterationUse["ForAwaitOf"] = 15] = "ForAwaitOf"; IterationUse[IterationUse["YieldStar"] = 17] = "YieldStar"; IterationUse[IterationUse["AsyncYieldStar"] = 19] = "AsyncYieldStar"; IterationUse[IterationUse["GeneratorReturnType"] = 1] = "GeneratorReturnType"; IterationUse[IterationUse["AsyncGeneratorReturnType"] = 2] = "AsyncGeneratorReturnType"; })(IterationUse || (IterationUse = {})); var IterationTypeKind; (function (IterationTypeKind) { IterationTypeKind[IterationTypeKind["Yield"] = 0] = "Yield"; IterationTypeKind[IterationTypeKind["Return"] = 1] = "Return"; IterationTypeKind[IterationTypeKind["Next"] = 2] = "Next"; })(IterationTypeKind || (IterationTypeKind = {})); var WideningKind; (function (WideningKind) { WideningKind[WideningKind["Normal"] = 0] = "Normal"; WideningKind[WideningKind["FunctionReturn"] = 1] = "FunctionReturn"; WideningKind[WideningKind["GeneratorNext"] = 2] = "GeneratorNext"; WideningKind[WideningKind["GeneratorYield"] = 3] = "GeneratorYield"; })(WideningKind || (WideningKind = {})); var TypeFacts; (function (TypeFacts) { TypeFacts[TypeFacts["None"] = 0] = "None"; TypeFacts[TypeFacts["TypeofEQString"] = 1] = "TypeofEQString"; TypeFacts[TypeFacts["TypeofEQNumber"] = 2] = "TypeofEQNumber"; TypeFacts[TypeFacts["TypeofEQBigInt"] = 4] = "TypeofEQBigInt"; TypeFacts[TypeFacts["TypeofEQBoolean"] = 8] = "TypeofEQBoolean"; TypeFacts[TypeFacts["TypeofEQSymbol"] = 16] = "TypeofEQSymbol"; TypeFacts[TypeFacts["TypeofEQObject"] = 32] = "TypeofEQObject"; TypeFacts[TypeFacts["TypeofEQFunction"] = 64] = "TypeofEQFunction"; TypeFacts[TypeFacts["TypeofEQHostObject"] = 128] = "TypeofEQHostObject"; TypeFacts[TypeFacts["TypeofNEString"] = 256] = "TypeofNEString"; TypeFacts[TypeFacts["TypeofNENumber"] = 512] = "TypeofNENumber"; TypeFacts[TypeFacts["TypeofNEBigInt"] = 1024] = "TypeofNEBigInt"; TypeFacts[TypeFacts["TypeofNEBoolean"] = 2048] = "TypeofNEBoolean"; TypeFacts[TypeFacts["TypeofNESymbol"] = 4096] = "TypeofNESymbol"; TypeFacts[TypeFacts["TypeofNEObject"] = 8192] = "TypeofNEObject"; TypeFacts[TypeFacts["TypeofNEFunction"] = 16384] = "TypeofNEFunction"; TypeFacts[TypeFacts["TypeofNEHostObject"] = 32768] = "TypeofNEHostObject"; TypeFacts[TypeFacts["EQUndefined"] = 65536] = "EQUndefined"; TypeFacts[TypeFacts["EQNull"] = 131072] = "EQNull"; TypeFacts[TypeFacts["EQUndefinedOrNull"] = 262144] = "EQUndefinedOrNull"; TypeFacts[TypeFacts["NEUndefined"] = 524288] = "NEUndefined"; TypeFacts[TypeFacts["NENull"] = 1048576] = "NENull"; TypeFacts[TypeFacts["NEUndefinedOrNull"] = 2097152] = "NEUndefinedOrNull"; TypeFacts[TypeFacts["Truthy"] = 4194304] = "Truthy"; TypeFacts[TypeFacts["Falsy"] = 8388608] = "Falsy"; TypeFacts[TypeFacts["All"] = 16777215] = "All"; // The following members encode facts about particular kinds of types for use in the getTypeFacts function. // The presence of a particular fact means that the given test is true for some (and possibly all) values // of that kind of type. TypeFacts[TypeFacts["BaseStringStrictFacts"] = 3735041] = "BaseStringStrictFacts"; TypeFacts[TypeFacts["BaseStringFacts"] = 12582401] = "BaseStringFacts"; TypeFacts[TypeFacts["StringStrictFacts"] = 16317953] = "StringStrictFacts"; TypeFacts[TypeFacts["StringFacts"] = 16776705] = "StringFacts"; TypeFacts[TypeFacts["EmptyStringStrictFacts"] = 12123649] = "EmptyStringStrictFacts"; TypeFacts[TypeFacts["EmptyStringFacts"] = 12582401] = "EmptyStringFacts"; TypeFacts[TypeFacts["NonEmptyStringStrictFacts"] = 7929345] = "NonEmptyStringStrictFacts"; TypeFacts[TypeFacts["NonEmptyStringFacts"] = 16776705] = "NonEmptyStringFacts"; TypeFacts[TypeFacts["BaseNumberStrictFacts"] = 3734786] = "BaseNumberStrictFacts"; TypeFacts[TypeFacts["BaseNumberFacts"] = 12582146] = "BaseNumberFacts"; TypeFacts[TypeFacts["NumberStrictFacts"] = 16317698] = "NumberStrictFacts"; TypeFacts[TypeFacts["NumberFacts"] = 16776450] = "NumberFacts"; TypeFacts[TypeFacts["ZeroNumberStrictFacts"] = 12123394] = "ZeroNumberStrictFacts"; TypeFacts[TypeFacts["ZeroNumberFacts"] = 12582146] = "ZeroNumberFacts"; TypeFacts[TypeFacts["NonZeroNumberStrictFacts"] = 7929090] = "NonZeroNumberStrictFacts"; TypeFacts[TypeFacts["NonZeroNumberFacts"] = 16776450] = "NonZeroNumberFacts"; TypeFacts[TypeFacts["BaseBigIntStrictFacts"] = 3734276] = "BaseBigIntStrictFacts"; TypeFacts[TypeFacts["BaseBigIntFacts"] = 12581636] = "BaseBigIntFacts"; TypeFacts[TypeFacts["BigIntStrictFacts"] = 16317188] = "BigIntStrictFacts"; TypeFacts[TypeFacts["BigIntFacts"] = 16775940] = "BigIntFacts"; TypeFacts[TypeFacts["ZeroBigIntStrictFacts"] = 12122884] = "ZeroBigIntStrictFacts"; TypeFacts[TypeFacts["ZeroBigIntFacts"] = 12581636] = "ZeroBigIntFacts"; TypeFacts[TypeFacts["NonZeroBigIntStrictFacts"] = 7928580] = "NonZeroBigIntStrictFacts"; TypeFacts[TypeFacts["NonZeroBigIntFacts"] = 16775940] = "NonZeroBigIntFacts"; TypeFacts[TypeFacts["BaseBooleanStrictFacts"] = 3733256] = "BaseBooleanStrictFacts"; TypeFacts[TypeFacts["BaseBooleanFacts"] = 12580616] = "BaseBooleanFacts"; TypeFacts[TypeFacts["BooleanStrictFacts"] = 16316168] = "BooleanStrictFacts"; TypeFacts[TypeFacts["BooleanFacts"] = 16774920] = "BooleanFacts"; TypeFacts[TypeFacts["FalseStrictFacts"] = 12121864] = "FalseStrictFacts"; TypeFacts[TypeFacts["FalseFacts"] = 12580616] = "FalseFacts"; TypeFacts[TypeFacts["TrueStrictFacts"] = 7927560] = "TrueStrictFacts"; TypeFacts[TypeFacts["TrueFacts"] = 16774920] = "TrueFacts"; TypeFacts[TypeFacts["SymbolStrictFacts"] = 7925520] = "SymbolStrictFacts"; TypeFacts[TypeFacts["SymbolFacts"] = 16772880] = "SymbolFacts"; TypeFacts[TypeFacts["ObjectStrictFacts"] = 7888800] = "ObjectStrictFacts"; TypeFacts[TypeFacts["ObjectFacts"] = 16736160] = "ObjectFacts"; TypeFacts[TypeFacts["FunctionStrictFacts"] = 7880640] = "FunctionStrictFacts"; TypeFacts[TypeFacts["FunctionFacts"] = 16728000] = "FunctionFacts"; TypeFacts[TypeFacts["UndefinedFacts"] = 9830144] = "UndefinedFacts"; TypeFacts[TypeFacts["NullFacts"] = 9363232] = "NullFacts"; TypeFacts[TypeFacts["EmptyObjectStrictFacts"] = 16318463] = "EmptyObjectStrictFacts"; TypeFacts[TypeFacts["EmptyObjectFacts"] = 16777215] = "EmptyObjectFacts"; })(TypeFacts || (TypeFacts = {})); var typeofEQFacts = ts.createMapFromTemplate({ string: 1 /* TypeofEQString */, number: 2 /* TypeofEQNumber */, bigint: 4 /* TypeofEQBigInt */, boolean: 8 /* TypeofEQBoolean */, symbol: 16 /* TypeofEQSymbol */, undefined: 65536 /* EQUndefined */, object: 32 /* TypeofEQObject */, function: 64 /* TypeofEQFunction */ }); var typeofNEFacts = ts.createMapFromTemplate({ string: 256 /* TypeofNEString */, number: 512 /* TypeofNENumber */, bigint: 1024 /* TypeofNEBigInt */, boolean: 2048 /* TypeofNEBoolean */, symbol: 4096 /* TypeofNESymbol */, undefined: 524288 /* NEUndefined */, object: 8192 /* TypeofNEObject */, function: 16384 /* TypeofNEFunction */ }); var TypeSystemPropertyName; (function (TypeSystemPropertyName) { TypeSystemPropertyName[TypeSystemPropertyName["Type"] = 0] = "Type"; TypeSystemPropertyName[TypeSystemPropertyName["ResolvedBaseConstructorType"] = 1] = "ResolvedBaseConstructorType"; TypeSystemPropertyName[TypeSystemPropertyName["DeclaredType"] = 2] = "DeclaredType"; TypeSystemPropertyName[TypeSystemPropertyName["ResolvedReturnType"] = 3] = "ResolvedReturnType"; TypeSystemPropertyName[TypeSystemPropertyName["ImmediateBaseConstraint"] = 4] = "ImmediateBaseConstraint"; TypeSystemPropertyName[TypeSystemPropertyName["EnumTagType"] = 5] = "EnumTagType"; TypeSystemPropertyName[TypeSystemPropertyName["ResolvedTypeArguments"] = 6] = "ResolvedTypeArguments"; })(TypeSystemPropertyName || (TypeSystemPropertyName = {})); var CheckMode; (function (CheckMode) { CheckMode[CheckMode["Normal"] = 0] = "Normal"; CheckMode[CheckMode["Contextual"] = 1] = "Contextual"; CheckMode[CheckMode["Inferential"] = 2] = "Inferential"; CheckMode[CheckMode["SkipContextSensitive"] = 4] = "SkipContextSensitive"; CheckMode[CheckMode["SkipGenericFunctions"] = 8] = "SkipGenericFunctions"; CheckMode[CheckMode["IsForSignatureHelp"] = 16] = "IsForSignatureHelp"; })(CheckMode || (CheckMode = {})); var AccessFlags; (function (AccessFlags) { AccessFlags[AccessFlags["None"] = 0] = "None"; AccessFlags[AccessFlags["NoIndexSignatures"] = 1] = "NoIndexSignatures"; AccessFlags[AccessFlags["Writing"] = 2] = "Writing"; AccessFlags[AccessFlags["CacheSymbol"] = 4] = "CacheSymbol"; AccessFlags[AccessFlags["NoTupleBoundsCheck"] = 8] = "NoTupleBoundsCheck"; })(AccessFlags || (AccessFlags = {})); var SignatureCheckMode; (function (SignatureCheckMode) { SignatureCheckMode[SignatureCheckMode["BivariantCallback"] = 1] = "BivariantCallback"; SignatureCheckMode[SignatureCheckMode["StrictCallback"] = 2] = "StrictCallback"; SignatureCheckMode[SignatureCheckMode["IgnoreReturnTypes"] = 4] = "IgnoreReturnTypes"; SignatureCheckMode[SignatureCheckMode["StrictArity"] = 8] = "StrictArity"; SignatureCheckMode[SignatureCheckMode["Callback"] = 3] = "Callback"; })(SignatureCheckMode || (SignatureCheckMode = {})); var IntersectionState; (function (IntersectionState) { IntersectionState[IntersectionState["None"] = 0] = "None"; IntersectionState[IntersectionState["Source"] = 1] = "Source"; IntersectionState[IntersectionState["Target"] = 2] = "Target"; IntersectionState[IntersectionState["PropertyCheck"] = 4] = "PropertyCheck"; IntersectionState[IntersectionState["InPropertyCheck"] = 8] = "InPropertyCheck"; })(IntersectionState || (IntersectionState = {})); var MappedTypeModifiers; (function (MappedTypeModifiers) { MappedTypeModifiers[MappedTypeModifiers["IncludeReadonly"] = 1] = "IncludeReadonly"; MappedTypeModifiers[MappedTypeModifiers["ExcludeReadonly"] = 2] = "ExcludeReadonly"; MappedTypeModifiers[MappedTypeModifiers["IncludeOptional"] = 4] = "IncludeOptional"; MappedTypeModifiers[MappedTypeModifiers["ExcludeOptional"] = 8] = "ExcludeOptional"; })(MappedTypeModifiers || (MappedTypeModifiers = {})); var ExpandingFlags; (function (ExpandingFlags) { ExpandingFlags[ExpandingFlags["None"] = 0] = "None"; ExpandingFlags[ExpandingFlags["Source"] = 1] = "Source"; ExpandingFlags[ExpandingFlags["Target"] = 2] = "Target"; ExpandingFlags[ExpandingFlags["Both"] = 3] = "Both"; })(ExpandingFlags || (ExpandingFlags = {})); var MembersOrExportsResolutionKind; (function (MembersOrExportsResolutionKind) { MembersOrExportsResolutionKind["resolvedExports"] = "resolvedExports"; MembersOrExportsResolutionKind["resolvedMembers"] = "resolvedMembers"; })(MembersOrExportsResolutionKind || (MembersOrExportsResolutionKind = {})); var UnusedKind; (function (UnusedKind) { UnusedKind[UnusedKind["Local"] = 0] = "Local"; UnusedKind[UnusedKind["Parameter"] = 1] = "Parameter"; })(UnusedKind || (UnusedKind = {})); var isNotOverloadAndNotAccessor = ts.and(isNotOverload, isNotAccessor); var DeclarationMeaning; (function (DeclarationMeaning) { DeclarationMeaning[DeclarationMeaning["GetAccessor"] = 1] = "GetAccessor"; DeclarationMeaning[DeclarationMeaning["SetAccessor"] = 2] = "SetAccessor"; DeclarationMeaning[DeclarationMeaning["PropertyAssignment"] = 4] = "PropertyAssignment"; DeclarationMeaning[DeclarationMeaning["Method"] = 8] = "Method"; DeclarationMeaning[DeclarationMeaning["GetOrSetAccessor"] = 3] = "GetOrSetAccessor"; DeclarationMeaning[DeclarationMeaning["PropertyAssignmentOrMethod"] = 12] = "PropertyAssignmentOrMethod"; })(DeclarationMeaning || (DeclarationMeaning = {})); var DeclarationSpaces; (function (DeclarationSpaces) { DeclarationSpaces[DeclarationSpaces["None"] = 0] = "None"; DeclarationSpaces[DeclarationSpaces["ExportValue"] = 1] = "ExportValue"; DeclarationSpaces[DeclarationSpaces["ExportType"] = 2] = "ExportType"; DeclarationSpaces[DeclarationSpaces["ExportNamespace"] = 4] = "ExportNamespace"; })(DeclarationSpaces || (DeclarationSpaces = {})); function SymbolLinks() { } function NodeLinks() { this.flags = 0; } function getNodeId(node) { if (!node.id) { node.id = nextNodeId; nextNodeId++; } return node.id; } ts.getNodeId = getNodeId; function getSymbolId(symbol) { if (!symbol.id) { symbol.id = nextSymbolId; nextSymbolId++; } return symbol.id; } ts.getSymbolId = getSymbolId; function isInstantiatedModule(node, preserveConstEnums) { var moduleState = ts.getModuleInstanceState(node); return moduleState === 1 /* Instantiated */ || (preserveConstEnums && moduleState === 2 /* ConstEnumOnly */); } ts.isInstantiatedModule = isInstantiatedModule; function createTypeChecker(host, produceDiagnostics) { var getPackagesSet = ts.memoize(function () { var set = ts.createMap(); host.getSourceFiles().forEach(function (sf) { if (!sf.resolvedModules) return; ts.forEachEntry(sf.resolvedModules, function (r) { if (r && r.packageId) set.set(r.packageId.name, true); }); }); return set; }); // Cancellation that controls whether or not we can cancel in the middle of type checking. // In general cancelling is *not* safe for the type checker. We might be in the middle of // computing something, and we will leave our internals in an inconsistent state. Callers // who set the cancellation token should catch if a cancellation exception occurs, and // should throw away and create a new TypeChecker. // // Currently we only support setting the cancellation token when getting diagnostics. This // is because diagnostics can be quite expensive, and we want to allow hosts to bail out if // they no longer need the information (for example, if the user started editing again). var cancellationToken; var requestedExternalEmitHelpers; var externalHelpersModule; var Symbol = ts.objectAllocator.getSymbolConstructor(); var Type = ts.objectAllocator.getTypeConstructor(); var Signature = ts.objectAllocator.getSignatureConstructor(); var typeCount = 0; var symbolCount = 0; var enumCount = 0; var totalInstantiationCount = 0; var instantiationCount = 0; var instantiationDepth = 0; var constraintDepth = 0; var currentNode; var emptySymbols = ts.createSymbolTable(); var arrayVariances = [1 /* Covariant */]; var compilerOptions = host.getCompilerOptions(); var languageVersion = ts.getEmitScriptTarget(compilerOptions); var moduleKind = ts.getEmitModuleKind(compilerOptions); var allowSyntheticDefaultImports = ts.getAllowSyntheticDefaultImports(compilerOptions); var strictNullChecks = ts.getStrictOptionValue(compilerOptions, "strictNullChecks"); var strictFunctionTypes = ts.getStrictOptionValue(compilerOptions, "strictFunctionTypes"); var strictBindCallApply = ts.getStrictOptionValue(compilerOptions, "strictBindCallApply"); var strictPropertyInitialization = ts.getStrictOptionValue(compilerOptions, "strictPropertyInitialization"); var noImplicitAny = ts.getStrictOptionValue(compilerOptions, "noImplicitAny"); var noImplicitThis = ts.getStrictOptionValue(compilerOptions, "noImplicitThis"); var keyofStringsOnly = !!compilerOptions.keyofStringsOnly; var freshObjectLiteralFlag = compilerOptions.suppressExcessPropertyErrors ? 0 : 32768 /* FreshLiteral */; var emitResolver = createResolver(); var nodeBuilder = createNodeBuilder(); var globals = ts.createSymbolTable(); var undefinedSymbol = createSymbol(4 /* Property */, "undefined"); undefinedSymbol.declarations = []; var globalThisSymbol = createSymbol(1536 /* Module */, "globalThis", 8 /* Readonly */); globalThisSymbol.exports = globals; globalThisSymbol.declarations = []; globals.set(globalThisSymbol.escapedName, globalThisSymbol); var argumentsSymbol = createSymbol(4 /* Property */, "arguments"); var requireSymbol = createSymbol(4 /* Property */, "require"); /** This will be set during calls to `getResolvedSignature` where services determines an apparent number of arguments greater than what is actually provided. */ var apparentArgumentCount; // for public members that accept a Node or one of its subtypes, we must guard against // synthetic nodes created during transformations by calling `getParseTreeNode`. // for most of these, we perform the guard only on `checker` to avoid any possible // extra cost of calling `getParseTreeNode` when calling these functions from inside the // checker. var checker = { getNodeCount: function () { return ts.sum(host.getSourceFiles(), "nodeCount"); }, getIdentifierCount: function () { return ts.sum(host.getSourceFiles(), "identifierCount"); }, getSymbolCount: function () { return ts.sum(host.getSourceFiles(), "symbolCount") + symbolCount; }, getTypeCount: function () { return typeCount; }, getInstantiationCount: function () { return totalInstantiationCount; }, getRelationCacheSizes: function () { return ({ assignable: assignableRelation.size, identity: identityRelation.size, subtype: subtypeRelation.size, strictSubtype: strictSubtypeRelation.size, }); }, isUndefinedSymbol: function (symbol) { return symbol === undefinedSymbol; }, isArgumentsSymbol: function (symbol) { return symbol === argumentsSymbol; }, isUnknownSymbol: function (symbol) { return symbol === unknownSymbol; }, getMergedSymbol: getMergedSymbol, getDiagnostics: getDiagnostics, getGlobalDiagnostics: getGlobalDiagnostics, getTypeOfSymbolAtLocation: function (symbol, location) { location = ts.getParseTreeNode(location); return location ? getTypeOfSymbolAtLocation(symbol, location) : errorType; }, getSymbolsOfParameterPropertyDeclaration: function (parameterIn, parameterName) { var parameter = ts.getParseTreeNode(parameterIn, ts.isParameter); if (parameter === undefined) return ts.Debug.fail("Cannot get symbols of a synthetic parameter that cannot be resolved to a parse-tree node."); return getSymbolsOfParameterPropertyDeclaration(parameter, ts.escapeLeadingUnderscores(parameterName)); }, getDeclaredTypeOfSymbol: getDeclaredTypeOfSymbol, getPropertiesOfType: getPropertiesOfType, getPropertyOfType: function (type, name) { return getPropertyOfType(type, ts.escapeLeadingUnderscores(name)); }, getPrivateIdentifierPropertyOfType: function (leftType, name, location) { var node = ts.getParseTreeNode(location); if (!node) { return undefined; } var propName = ts.escapeLeadingUnderscores(name); var lexicallyScopedIdentifier = lookupSymbolForPrivateIdentifierDeclaration(propName, node); return lexicallyScopedIdentifier ? getPrivateIdentifierPropertyOfType(leftType, lexicallyScopedIdentifier) : undefined; }, getTypeOfPropertyOfType: function (type, name) { return getTypeOfPropertyOfType(type, ts.escapeLeadingUnderscores(name)); }, getIndexInfoOfType: getIndexInfoOfType, getSignaturesOfType: getSignaturesOfType, getIndexTypeOfType: getIndexTypeOfType, getBaseTypes: getBaseTypes, getBaseTypeOfLiteralType: getBaseTypeOfLiteralType, getWidenedType: getWidenedType, getTypeFromTypeNode: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isTypeNode); return node ? getTypeFromTypeNode(node) : errorType; }, getParameterType: getTypeAtPosition, getPromisedTypeOfPromise: getPromisedTypeOfPromise, getReturnTypeOfSignature: getReturnTypeOfSignature, isNullableType: isNullableType, getNullableType: getNullableType, getNonNullableType: getNonNullableType, getNonOptionalType: removeOptionalTypeMarker, getTypeArguments: getTypeArguments, typeToTypeNode: nodeBuilder.typeToTypeNode, indexInfoToIndexSignatureDeclaration: nodeBuilder.indexInfoToIndexSignatureDeclaration, signatureToSignatureDeclaration: nodeBuilder.signatureToSignatureDeclaration, symbolToEntityName: nodeBuilder.symbolToEntityName, symbolToExpression: nodeBuilder.symbolToExpression, symbolToTypeParameterDeclarations: nodeBuilder.symbolToTypeParameterDeclarations, symbolToParameterDeclaration: nodeBuilder.symbolToParameterDeclaration, typeParameterToDeclaration: nodeBuilder.typeParameterToDeclaration, getSymbolsInScope: function (location, meaning) { location = ts.getParseTreeNode(location); return location ? getSymbolsInScope(location, meaning) : []; }, getSymbolAtLocation: function (node) { node = ts.getParseTreeNode(node); // set ignoreErrors: true because any lookups invoked by the API shouldn't cause any new errors return node ? getSymbolAtLocation(node, /*ignoreErrors*/ true) : undefined; }, getShorthandAssignmentValueSymbol: function (node) { node = ts.getParseTreeNode(node); return node ? getShorthandAssignmentValueSymbol(node) : undefined; }, getExportSpecifierLocalTargetSymbol: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isExportSpecifier); return node ? getExportSpecifierLocalTargetSymbol(node) : undefined; }, getExportSymbolOfSymbol: function (symbol) { return getMergedSymbol(symbol.exportSymbol || symbol); }, getTypeAtLocation: function (node) { node = ts.getParseTreeNode(node); return node ? getTypeOfNode(node) : errorType; }, getTypeOfAssignmentPattern: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isAssignmentPattern); return node && getTypeOfAssignmentPattern(node) || errorType; }, getPropertySymbolOfDestructuringAssignment: function (locationIn) { var location = ts.getParseTreeNode(locationIn, ts.isIdentifier); return location ? getPropertySymbolOfDestructuringAssignment(location) : undefined; }, signatureToString: function (signature, enclosingDeclaration, flags, kind) { return signatureToString(signature, ts.getParseTreeNode(enclosingDeclaration), flags, kind); }, typeToString: function (type, enclosingDeclaration, flags) { return typeToString(type, ts.getParseTreeNode(enclosingDeclaration), flags); }, symbolToString: function (symbol, enclosingDeclaration, meaning, flags) { return symbolToString(symbol, ts.getParseTreeNode(enclosingDeclaration), meaning, flags); }, typePredicateToString: function (predicate, enclosingDeclaration, flags) { return typePredicateToString(predicate, ts.getParseTreeNode(enclosingDeclaration), flags); }, writeSignature: function (signature, enclosingDeclaration, flags, kind, writer) { return signatureToString(signature, ts.getParseTreeNode(enclosingDeclaration), flags, kind, writer); }, writeType: function (type, enclosingDeclaration, flags, writer) { return typeToString(type, ts.getParseTreeNode(enclosingDeclaration), flags, writer); }, writeSymbol: function (symbol, enclosingDeclaration, meaning, flags, writer) { return symbolToString(symbol, ts.getParseTreeNode(enclosingDeclaration), meaning, flags, writer); }, writeTypePredicate: function (predicate, enclosingDeclaration, flags, writer) { return typePredicateToString(predicate, ts.getParseTreeNode(enclosingDeclaration), flags, writer); }, getAugmentedPropertiesOfType: getAugmentedPropertiesOfType, getRootSymbols: getRootSymbols, getContextualType: function (nodeIn, contextFlags) { var node = ts.getParseTreeNode(nodeIn, ts.isExpression); if (!node) { return undefined; } var containingCall = ts.findAncestor(node, ts.isCallLikeExpression); var containingCallResolvedSignature = containingCall && getNodeLinks(containingCall).resolvedSignature; if (contextFlags & 4 /* Completions */ && containingCall) { var toMarkSkip = node; do { getNodeLinks(toMarkSkip).skipDirectInference = true; toMarkSkip = toMarkSkip.parent; } while (toMarkSkip && toMarkSkip !== containingCall); getNodeLinks(containingCall).resolvedSignature = undefined; } var result = getContextualType(node, contextFlags); if (contextFlags & 4 /* Completions */ && containingCall) { var toMarkSkip = node; do { getNodeLinks(toMarkSkip).skipDirectInference = undefined; toMarkSkip = toMarkSkip.parent; } while (toMarkSkip && toMarkSkip !== containingCall); getNodeLinks(containingCall).resolvedSignature = containingCallResolvedSignature; } return result; }, getContextualTypeForObjectLiteralElement: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isObjectLiteralElementLike); return node ? getContextualTypeForObjectLiteralElement(node) : undefined; }, getContextualTypeForArgumentAtIndex: function (nodeIn, argIndex) { var node = ts.getParseTreeNode(nodeIn, ts.isCallLikeExpression); return node && getContextualTypeForArgumentAtIndex(node, argIndex); }, getContextualTypeForJsxAttribute: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isJsxAttributeLike); return node && getContextualTypeForJsxAttribute(node); }, isContextSensitive: isContextSensitive, getFullyQualifiedName: getFullyQualifiedName, getResolvedSignature: function (node, candidatesOutArray, argumentCount) { return getResolvedSignatureWorker(node, candidatesOutArray, argumentCount, 0 /* Normal */); }, getResolvedSignatureForSignatureHelp: function (node, candidatesOutArray, argumentCount) { return getResolvedSignatureWorker(node, candidatesOutArray, argumentCount, 16 /* IsForSignatureHelp */); }, getExpandedParameters: getExpandedParameters, hasEffectiveRestParameter: hasEffectiveRestParameter, getConstantValue: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, canHaveConstantValue); return node ? getConstantValue(node) : undefined; }, isValidPropertyAccess: function (nodeIn, propertyName) { var node = ts.getParseTreeNode(nodeIn, ts.isPropertyAccessOrQualifiedNameOrImportTypeNode); return !!node && isValidPropertyAccess(node, ts.escapeLeadingUnderscores(propertyName)); }, isValidPropertyAccessForCompletions: function (nodeIn, type, property) { var node = ts.getParseTreeNode(nodeIn, ts.isPropertyAccessExpression); return !!node && isValidPropertyAccessForCompletions(node, type, property); }, getSignatureFromDeclaration: function (declarationIn) { var declaration = ts.getParseTreeNode(declarationIn, ts.isFunctionLike); return declaration ? getSignatureFromDeclaration(declaration) : undefined; }, isImplementationOfOverload: function (node) { var parsed = ts.getParseTreeNode(node, ts.isFunctionLike); return parsed ? isImplementationOfOverload(parsed) : undefined; }, getImmediateAliasedSymbol: getImmediateAliasedSymbol, getAliasedSymbol: resolveAlias, getEmitResolver: getEmitResolver, getExportsOfModule: getExportsOfModuleAsArray, getExportsAndPropertiesOfModule: getExportsAndPropertiesOfModule, getSymbolWalker: ts.createGetSymbolWalker(getRestTypeOfSignature, getTypePredicateOfSignature, getReturnTypeOfSignature, getBaseTypes, resolveStructuredTypeMembers, getTypeOfSymbol, getResolvedSymbol, getIndexTypeOfStructuredType, getConstraintOfTypeParameter, ts.getFirstIdentifier, getTypeArguments), getAmbientModules: getAmbientModules, getJsxIntrinsicTagNamesAt: getJsxIntrinsicTagNamesAt, isOptionalParameter: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isParameter); return node ? isOptionalParameter(node) : false; }, tryGetMemberInModuleExports: function (name, symbol) { return tryGetMemberInModuleExports(ts.escapeLeadingUnderscores(name), symbol); }, tryGetMemberInModuleExportsAndProperties: function (name, symbol) { return tryGetMemberInModuleExportsAndProperties(ts.escapeLeadingUnderscores(name), symbol); }, tryFindAmbientModuleWithoutAugmentations: function (moduleName) { // we deliberately exclude augmentations // since we are only interested in declarations of the module itself return tryFindAmbientModule(moduleName, /*withAugmentations*/ false); }, getApparentType: getApparentType, getUnionType: getUnionType, isTypeAssignableTo: isTypeAssignableTo, createAnonymousType: createAnonymousType, createSignature: createSignature, createSymbol: createSymbol, createIndexInfo: createIndexInfo, getAnyType: function () { return anyType; }, getStringType: function () { return stringType; }, getNumberType: function () { return numberType; }, createPromiseType: createPromiseType, createArrayType: createArrayType, getElementTypeOfArrayType: getElementTypeOfArrayType, getBooleanType: function () { return booleanType; }, getFalseType: function (fresh) { return fresh ? falseType : regularFalseType; }, getTrueType: function (fresh) { return fresh ? trueType : regularTrueType; }, getVoidType: function () { return voidType; }, getUndefinedType: function () { return undefinedType; }, getNullType: function () { return nullType; }, getESSymbolType: function () { return esSymbolType; }, getNeverType: function () { return neverType; }, getOptionalType: function () { return optionalType; }, isSymbolAccessible: isSymbolAccessible, isArrayType: isArrayType, isTupleType: isTupleType, isArrayLikeType: isArrayLikeType, isTypeInvalidDueToUnionDiscriminant: isTypeInvalidDueToUnionDiscriminant, getAllPossiblePropertiesOfTypes: getAllPossiblePropertiesOfTypes, getSuggestedSymbolForNonexistentProperty: getSuggestedSymbolForNonexistentProperty, getSuggestionForNonexistentProperty: getSuggestionForNonexistentProperty, getSuggestedSymbolForNonexistentSymbol: function (location, name, meaning) { return getSuggestedSymbolForNonexistentSymbol(location, ts.escapeLeadingUnderscores(name), meaning); }, getSuggestionForNonexistentSymbol: function (location, name, meaning) { return getSuggestionForNonexistentSymbol(location, ts.escapeLeadingUnderscores(name), meaning); }, getSuggestedSymbolForNonexistentModule: getSuggestedSymbolForNonexistentModule, getSuggestionForNonexistentExport: getSuggestionForNonexistentExport, getBaseConstraintOfType: getBaseConstraintOfType, getDefaultFromTypeParameter: function (type) { return type && type.flags & 262144 /* TypeParameter */ ? getDefaultFromTypeParameter(type) : undefined; }, resolveName: function (name, location, meaning, excludeGlobals) { return resolveName(location, ts.escapeLeadingUnderscores(name), meaning, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false, excludeGlobals); }, getJsxNamespace: function (n) { return ts.unescapeLeadingUnderscores(getJsxNamespace(n)); }, getAccessibleSymbolChain: getAccessibleSymbolChain, getTypePredicateOfSignature: getTypePredicateOfSignature, resolveExternalModuleName: function (moduleSpecifier) { return resolveExternalModuleName(moduleSpecifier, moduleSpecifier, /*ignoreErrors*/ true); }, resolveExternalModuleSymbol: resolveExternalModuleSymbol, tryGetThisTypeAt: function (node, includeGlobalThis) { node = ts.getParseTreeNode(node); return node && tryGetThisTypeAt(node, includeGlobalThis); }, getTypeArgumentConstraint: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isTypeNode); return node && getTypeArgumentConstraint(node); }, getSuggestionDiagnostics: function (file, ct) { if (ts.skipTypeChecking(file, compilerOptions, host)) { return ts.emptyArray; } var diagnostics; try { // Record the cancellation token so it can be checked later on during checkSourceElement. // Do this in a finally block so we can ensure that it gets reset back to nothing after // this call is done. cancellationToken = ct; // Ensure file is type checked checkSourceFile(file); ts.Debug.assert(!!(getNodeLinks(file).flags & 1 /* TypeChecked */)); diagnostics = ts.addRange(diagnostics, suggestionDiagnostics.getDiagnostics(file.fileName)); checkUnusedIdentifiers(getPotentiallyUnusedIdentifiers(file), function (containingNode, kind, diag) { if (!ts.containsParseError(containingNode) && !unusedIsError(kind, !!(containingNode.flags & 8388608 /* Ambient */))) { (diagnostics || (diagnostics = [])).push(__assign(__assign({}, diag), { category: ts.DiagnosticCategory.Suggestion })); } }); return diagnostics || ts.emptyArray; } finally { cancellationToken = undefined; } }, runWithCancellationToken: function (token, callback) { try { cancellationToken = token; return callback(checker); } finally { cancellationToken = undefined; } }, getLocalTypeParametersOfClassOrInterfaceOrTypeAlias: getLocalTypeParametersOfClassOrInterfaceOrTypeAlias, isDeclarationVisible: isDeclarationVisible, }; function getResolvedSignatureWorker(nodeIn, candidatesOutArray, argumentCount, checkMode) { var node = ts.getParseTreeNode(nodeIn, ts.isCallLikeExpression); apparentArgumentCount = argumentCount; var res = node ? getResolvedSignature(node, candidatesOutArray, checkMode) : undefined; apparentArgumentCount = undefined; return res; } var tupleTypes = ts.createMap(); var unionTypes = ts.createMap(); var intersectionTypes = ts.createMap(); var literalTypes = ts.createMap(); var indexedAccessTypes = ts.createMap(); var substitutionTypes = ts.createMap(); var evolvingArrayTypes = []; var undefinedProperties = ts.createMap(); var unknownSymbol = createSymbol(4 /* Property */, "unknown"); var resolvingSymbol = createSymbol(0, "__resolving__" /* Resolving */); var anyType = createIntrinsicType(1 /* Any */, "any"); var autoType = createIntrinsicType(1 /* Any */, "any"); var wildcardType = createIntrinsicType(1 /* Any */, "any"); var errorType = createIntrinsicType(1 /* Any */, "error"); var nonInferrableAnyType = createIntrinsicType(1 /* Any */, "any", 524288 /* ContainsWideningType */); var unknownType = createIntrinsicType(2 /* Unknown */, "unknown"); var undefinedType = createIntrinsicType(32768 /* Undefined */, "undefined"); var undefinedWideningType = strictNullChecks ? undefinedType : createIntrinsicType(32768 /* Undefined */, "undefined", 524288 /* ContainsWideningType */); var optionalType = createIntrinsicType(32768 /* Undefined */, "undefined"); var nullType = createIntrinsicType(65536 /* Null */, "null"); var nullWideningType = strictNullChecks ? nullType : createIntrinsicType(65536 /* Null */, "null", 524288 /* ContainsWideningType */); var stringType = createIntrinsicType(4 /* String */, "string"); var numberType = createIntrinsicType(8 /* Number */, "number"); var bigintType = createIntrinsicType(64 /* BigInt */, "bigint"); var falseType = createIntrinsicType(512 /* BooleanLiteral */, "false"); var regularFalseType = createIntrinsicType(512 /* BooleanLiteral */, "false"); var trueType = createIntrinsicType(512 /* BooleanLiteral */, "true"); var regularTrueType = createIntrinsicType(512 /* BooleanLiteral */, "true"); trueType.regularType = regularTrueType; trueType.freshType = trueType; regularTrueType.regularType = regularTrueType; regularTrueType.freshType = trueType; falseType.regularType = regularFalseType; falseType.freshType = falseType; regularFalseType.regularType = regularFalseType; regularFalseType.freshType = falseType; var booleanType = createBooleanType([regularFalseType, regularTrueType]); // Also mark all combinations of fresh/regular booleans as "Boolean" so they print as `boolean` instead of `true | false` // (The union is cached, so simply doing the marking here is sufficient) createBooleanType([regularFalseType, trueType]); createBooleanType([falseType, regularTrueType]); createBooleanType([falseType, trueType]); var esSymbolType = createIntrinsicType(4096 /* ESSymbol */, "symbol"); var voidType = createIntrinsicType(16384 /* Void */, "void"); var neverType = createIntrinsicType(131072 /* Never */, "never"); var silentNeverType = createIntrinsicType(131072 /* Never */, "never"); var nonInferrableType = createIntrinsicType(131072 /* Never */, "never", 2097152 /* NonInferrableType */); var implicitNeverType = createIntrinsicType(131072 /* Never */, "never"); var unreachableNeverType = createIntrinsicType(131072 /* Never */, "never"); var nonPrimitiveType = createIntrinsicType(67108864 /* NonPrimitive */, "object"); var stringNumberSymbolType = getUnionType([stringType, numberType, esSymbolType]); var keyofConstraintType = keyofStringsOnly ? stringType : stringNumberSymbolType; var numberOrBigIntType = getUnionType([numberType, bigintType]); var restrictiveMapper = makeFunctionTypeMapper(function (t) { return t.flags & 262144 /* TypeParameter */ ? getRestrictiveTypeParameter(t) : t; }); var permissiveMapper = makeFunctionTypeMapper(function (t) { return t.flags & 262144 /* TypeParameter */ ? wildcardType : t; }); var emptyObjectType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var emptyJsxObjectType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); emptyJsxObjectType.objectFlags |= 4096 /* JsxAttributes */; var emptyTypeLiteralSymbol = createSymbol(2048 /* TypeLiteral */, "__type" /* Type */); emptyTypeLiteralSymbol.members = ts.createSymbolTable(); var emptyTypeLiteralType = createAnonymousType(emptyTypeLiteralSymbol, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var emptyGenericType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); emptyGenericType.instantiations = ts.createMap(); var anyFunctionType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); // The anyFunctionType contains the anyFunctionType by definition. The flag is further propagated // in getPropagatingFlagsOfTypes, and it is checked in inferFromTypes. anyFunctionType.objectFlags |= 2097152 /* NonInferrableType */; var noConstraintType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var circularConstraintType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var resolvingDefaultType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var markerSuperType = createTypeParameter(); var markerSubType = createTypeParameter(); markerSubType.constraint = markerSuperType; var markerOtherType = createTypeParameter(); var noTypePredicate = createTypePredicate(1 /* Identifier */, "<>", 0, anyType); var anySignature = createSignature(undefined, undefined, undefined, ts.emptyArray, anyType, /*resolvedTypePredicate*/ undefined, 0, 0 /* None */); var unknownSignature = createSignature(undefined, undefined, undefined, ts.emptyArray, errorType, /*resolvedTypePredicate*/ undefined, 0, 0 /* None */); var resolvingSignature = createSignature(undefined, undefined, undefined, ts.emptyArray, anyType, /*resolvedTypePredicate*/ undefined, 0, 0 /* None */); var silentNeverSignature = createSignature(undefined, undefined, undefined, ts.emptyArray, silentNeverType, /*resolvedTypePredicate*/ undefined, 0, 0 /* None */); var enumNumberIndexInfo = createIndexInfo(stringType, /*isReadonly*/ true); var iterationTypesCache = ts.createMap(); // cache for common IterationTypes instances var noIterationTypes = { get yieldType() { return ts.Debug.fail("Not supported"); }, get returnType() { return ts.Debug.fail("Not supported"); }, get nextType() { return ts.Debug.fail("Not supported"); }, }; var anyIterationTypes = createIterationTypes(anyType, anyType, anyType); var anyIterationTypesExceptNext = createIterationTypes(anyType, anyType, unknownType); var defaultIterationTypes = createIterationTypes(neverType, anyType, undefinedType); // default iteration types for `Iterator`. var asyncIterationTypesResolver = { iterableCacheKey: "iterationTypesOfAsyncIterable", iteratorCacheKey: "iterationTypesOfAsyncIterator", iteratorSymbolName: "asyncIterator", getGlobalIteratorType: getGlobalAsyncIteratorType, getGlobalIterableType: getGlobalAsyncIterableType, getGlobalIterableIteratorType: getGlobalAsyncIterableIteratorType, getGlobalGeneratorType: getGlobalAsyncGeneratorType, resolveIterationType: getAwaitedType, mustHaveANextMethodDiagnostic: ts.Diagnostics.An_async_iterator_must_have_a_next_method, mustBeAMethodDiagnostic: ts.Diagnostics.The_0_property_of_an_async_iterator_must_be_a_method, mustHaveAValueDiagnostic: ts.Diagnostics.The_type_returned_by_the_0_method_of_an_async_iterator_must_be_a_promise_for_a_type_with_a_value_property, }; var syncIterationTypesResolver = { iterableCacheKey: "iterationTypesOfIterable", iteratorCacheKey: "iterationTypesOfIterator", iteratorSymbolName: "iterator", getGlobalIteratorType: getGlobalIteratorType, getGlobalIterableType: getGlobalIterableType, getGlobalIterableIteratorType: getGlobalIterableIteratorType, getGlobalGeneratorType: getGlobalGeneratorType, resolveIterationType: function (type, _errorNode) { return type; }, mustHaveANextMethodDiagnostic: ts.Diagnostics.An_iterator_must_have_a_next_method, mustBeAMethodDiagnostic: ts.Diagnostics.The_0_property_of_an_iterator_must_be_a_method, mustHaveAValueDiagnostic: ts.Diagnostics.The_type_returned_by_the_0_method_of_an_iterator_must_have_a_value_property, }; /** Key is "/path/to/a.ts|/path/to/b.ts". */ var amalgamatedDuplicates; var reverseMappedCache = ts.createMap(); var ambientModulesCache; /** * List of every ambient module with a "*" wildcard. * Unlike other ambient modules, these can't be stored in `globals` because symbol tables only deal with exact matches. * This is only used if there is no exact match. */ var patternAmbientModules; var patternAmbientModuleAugmentations; var globalObjectType; var globalFunctionType; var globalCallableFunctionType; var globalNewableFunctionType; var globalArrayType; var globalReadonlyArrayType; var globalStringType; var globalNumberType; var globalBooleanType; var globalRegExpType; var globalThisType; var anyArrayType; var autoArrayType; var anyReadonlyArrayType; var deferredGlobalNonNullableTypeAlias; // The library files are only loaded when the feature is used. // This allows users to just specify library files they want to used through --lib // and they will not get an error from not having unrelated library files var deferredGlobalESSymbolConstructorSymbol; var deferredGlobalESSymbolType; var deferredGlobalTypedPropertyDescriptorType; var deferredGlobalPromiseType; var deferredGlobalPromiseLikeType; var deferredGlobalPromiseConstructorSymbol; var deferredGlobalPromiseConstructorLikeType; var deferredGlobalIterableType; var deferredGlobalIteratorType; var deferredGlobalIterableIteratorType; var deferredGlobalGeneratorType; var deferredGlobalIteratorYieldResultType; var deferredGlobalIteratorReturnResultType; var deferredGlobalAsyncIterableType; var deferredGlobalAsyncIteratorType; var deferredGlobalAsyncIterableIteratorType; var deferredGlobalAsyncGeneratorType; var deferredGlobalTemplateStringsArrayType; var deferredGlobalImportMetaType; var deferredGlobalExtractSymbol; var deferredGlobalOmitSymbol; var deferredGlobalBigIntType; var allPotentiallyUnusedIdentifiers = ts.createMap(); // key is file name var flowLoopStart = 0; var flowLoopCount = 0; var sharedFlowCount = 0; var flowAnalysisDisabled = false; var flowInvocationCount = 0; var lastFlowNode; var lastFlowNodeReachable; var flowTypeCache; var emptyStringType = getLiteralType(""); var zeroType = getLiteralType(0); var zeroBigIntType = getLiteralType({ negative: false, base10Value: "0" }); var resolutionTargets = []; var resolutionResults = []; var resolutionPropertyNames = []; var suggestionCount = 0; var maximumSuggestionCount = 10; var mergedSymbols = []; var symbolLinks = []; var nodeLinks = []; var flowLoopCaches = []; var flowLoopNodes = []; var flowLoopKeys = []; var flowLoopTypes = []; var sharedFlowNodes = []; var sharedFlowTypes = []; var flowNodeReachable = []; var potentialThisCollisions = []; var potentialNewTargetCollisions = []; var potentialWeakMapCollisions = []; var awaitedTypeStack = []; var diagnostics = ts.createDiagnosticCollection(); var suggestionDiagnostics = ts.createDiagnosticCollection(); var typeofTypesByName = ts.createMapFromTemplate({ string: stringType, number: numberType, bigint: bigintType, boolean: booleanType, symbol: esSymbolType, undefined: undefinedType }); var typeofType = createTypeofType(); var _jsxNamespace; var _jsxFactoryEntity; var outofbandVarianceMarkerHandler; var subtypeRelation = ts.createMap(); var strictSubtypeRelation = ts.createMap(); var assignableRelation = ts.createMap(); var comparableRelation = ts.createMap(); var identityRelation = ts.createMap(); var enumRelation = ts.createMap(); var builtinGlobals = ts.createSymbolTable(); builtinGlobals.set(undefinedSymbol.escapedName, undefinedSymbol); initializeTypeChecker(); return checker; function getJsxNamespace(location) { if (location) { var file = ts.getSourceFileOfNode(location); if (file) { if (file.localJsxNamespace) { return file.localJsxNamespace; } var jsxPragma = file.pragmas.get("jsx"); if (jsxPragma) { var chosenpragma = ts.isArray(jsxPragma) ? jsxPragma[0] : jsxPragma; file.localJsxFactory = ts.parseIsolatedEntityName(chosenpragma.arguments.factory, languageVersion); ts.visitNode(file.localJsxFactory, markAsSynthetic); if (file.localJsxFactory) { return file.localJsxNamespace = ts.getFirstIdentifier(file.localJsxFactory).escapedText; } } } } if (!_jsxNamespace) { _jsxNamespace = "React"; if (compilerOptions.jsxFactory) { _jsxFactoryEntity = ts.parseIsolatedEntityName(compilerOptions.jsxFactory, languageVersion); ts.visitNode(_jsxFactoryEntity, markAsSynthetic); if (_jsxFactoryEntity) { _jsxNamespace = ts.getFirstIdentifier(_jsxFactoryEntity).escapedText; } } else if (compilerOptions.reactNamespace) { _jsxNamespace = ts.escapeLeadingUnderscores(compilerOptions.reactNamespace); } } if (!_jsxFactoryEntity) { _jsxFactoryEntity = ts.createQualifiedName(ts.createIdentifier(ts.unescapeLeadingUnderscores(_jsxNamespace)), "createElement"); } return _jsxNamespace; function markAsSynthetic(node) { node.pos = -1; node.end = -1; return ts.visitEachChild(node, markAsSynthetic, ts.nullTransformationContext); } } function getEmitResolver(sourceFile, cancellationToken) { // Ensure we have all the type information in place for this file so that all the // emitter questions of this resolver will return the right information. getDiagnostics(sourceFile, cancellationToken); return emitResolver; } function lookupOrIssueError(location, message, arg0, arg1, arg2, arg3) { var diagnostic = location ? ts.createDiagnosticForNode(location, message, arg0, arg1, arg2, arg3) : ts.createCompilerDiagnostic(message, arg0, arg1, arg2, arg3); var existing = diagnostics.lookup(diagnostic); if (existing) { return existing; } else { diagnostics.add(diagnostic); return diagnostic; } } function error(location, message, arg0, arg1, arg2, arg3) { var diagnostic = location ? ts.createDiagnosticForNode(location, message, arg0, arg1, arg2, arg3) : ts.createCompilerDiagnostic(message, arg0, arg1, arg2, arg3); diagnostics.add(diagnostic); return diagnostic; } function addErrorOrSuggestion(isError, diagnostic) { if (isError) { diagnostics.add(diagnostic); } else { suggestionDiagnostics.add(__assign(__assign({}, diagnostic), { category: ts.DiagnosticCategory.Suggestion })); } } function errorOrSuggestion(isError, location, message, arg0, arg1, arg2, arg3) { addErrorOrSuggestion(isError, "message" in message ? ts.createDiagnosticForNode(location, message, arg0, arg1, arg2, arg3) : ts.createDiagnosticForNodeFromMessageChain(location, message)); // eslint-disable-line no-in-operator } function errorAndMaybeSuggestAwait(location, maybeMissingAwait, message, arg0, arg1, arg2, arg3) { var diagnostic = error(location, message, arg0, arg1, arg2, arg3); if (maybeMissingAwait) { var related = ts.createDiagnosticForNode(location, ts.Diagnostics.Did_you_forget_to_use_await); ts.addRelatedInfo(diagnostic, related); } return diagnostic; } function createSymbol(flags, name, checkFlags) { symbolCount++; var symbol = (new Symbol(flags | 33554432 /* Transient */, name)); symbol.checkFlags = checkFlags || 0; return symbol; } function getExcludedSymbolFlags(flags) { var result = 0; if (flags & 2 /* BlockScopedVariable */) result |= 111551 /* BlockScopedVariableExcludes */; if (flags & 1 /* FunctionScopedVariable */) result |= 111550 /* FunctionScopedVariableExcludes */; if (flags & 4 /* Property */) result |= 0 /* PropertyExcludes */; if (flags & 8 /* EnumMember */) result |= 900095 /* EnumMemberExcludes */; if (flags & 16 /* Function */) result |= 110991 /* FunctionExcludes */; if (flags & 32 /* Class */) result |= 899503 /* ClassExcludes */; if (flags & 64 /* Interface */) result |= 788872 /* InterfaceExcludes */; if (flags & 256 /* RegularEnum */) result |= 899327 /* RegularEnumExcludes */; if (flags & 128 /* ConstEnum */) result |= 899967 /* ConstEnumExcludes */; if (flags & 512 /* ValueModule */) result |= 110735 /* ValueModuleExcludes */; if (flags & 8192 /* Method */) result |= 103359 /* MethodExcludes */; if (flags & 32768 /* GetAccessor */) result |= 46015 /* GetAccessorExcludes */; if (flags & 65536 /* SetAccessor */) result |= 78783 /* SetAccessorExcludes */; if (flags & 262144 /* TypeParameter */) result |= 526824 /* TypeParameterExcludes */; if (flags & 524288 /* TypeAlias */) result |= 788968 /* TypeAliasExcludes */; if (flags & 2097152 /* Alias */) result |= 2097152 /* AliasExcludes */; return result; } function recordMergedSymbol(target, source) { if (!source.mergeId) { source.mergeId = nextMergeId; nextMergeId++; } mergedSymbols[source.mergeId] = target; } function cloneSymbol(symbol) { var result = createSymbol(symbol.flags, symbol.escapedName); result.declarations = symbol.declarations ? symbol.declarations.slice() : []; result.parent = symbol.parent; if (symbol.valueDeclaration) result.valueDeclaration = symbol.valueDeclaration; if (symbol.constEnumOnlyModule) result.constEnumOnlyModule = true; if (symbol.members) result.members = ts.cloneMap(symbol.members); if (symbol.exports) result.exports = ts.cloneMap(symbol.exports); recordMergedSymbol(result, symbol); return result; } /** * Note: if target is transient, then it is mutable, and mergeSymbol with both mutate and return it. * If target is not transient, mergeSymbol will produce a transient clone, mutate that and return it. */ function mergeSymbol(target, source, unidirectional) { if (unidirectional === void 0) { unidirectional = false; } if (!(target.flags & getExcludedSymbolFlags(source.flags)) || (source.flags | target.flags) & 67108864 /* Assignment */) { if (source === target) { // This can happen when an export assigned namespace exports something also erroneously exported at the top level // See `declarationFileNoCrashOnExtraExportModifier` for an example return target; } if (!(target.flags & 33554432 /* Transient */)) { var resolvedTarget = resolveSymbol(target); if (resolvedTarget === unknownSymbol) { return source; } target = cloneSymbol(resolvedTarget); } // Javascript static-property-assignment declarations always merge, even though they are also values if (source.flags & 512 /* ValueModule */ && target.flags & 512 /* ValueModule */ && target.constEnumOnlyModule && !source.constEnumOnlyModule) { // reset flag when merging instantiated module into value module that has only const enums target.constEnumOnlyModule = false; } target.flags |= source.flags; if (source.valueDeclaration) { ts.setValueDeclaration(target, source.valueDeclaration); } ts.addRange(target.declarations, source.declarations); if (source.members) { if (!target.members) target.members = ts.createSymbolTable(); mergeSymbolTable(target.members, source.members, unidirectional); } if (source.exports) { if (!target.exports) target.exports = ts.createSymbolTable(); mergeSymbolTable(target.exports, source.exports, unidirectional); } if (!unidirectional) { recordMergedSymbol(target, source); } } else if (target.flags & 1024 /* NamespaceModule */) { // Do not report an error when merging `var globalThis` with the built-in `globalThis`, // as we will already report a "Declaration name conflicts..." error, and this error // won't make much sense. if (target !== globalThisSymbol) { error(ts.getNameOfDeclaration(source.declarations[0]), ts.Diagnostics.Cannot_augment_module_0_with_value_exports_because_it_resolves_to_a_non_module_entity, symbolToString(target)); } } else { // error var isEitherEnum = !!(target.flags & 384 /* Enum */ || source.flags & 384 /* Enum */); var isEitherBlockScoped_1 = !!(target.flags & 2 /* BlockScopedVariable */ || source.flags & 2 /* BlockScopedVariable */); var message = isEitherEnum ? ts.Diagnostics.Enum_declarations_can_only_merge_with_namespace_or_other_enum_declarations : isEitherBlockScoped_1 ? ts.Diagnostics.Cannot_redeclare_block_scoped_variable_0 : ts.Diagnostics.Duplicate_identifier_0; var sourceSymbolFile = source.declarations && ts.getSourceFileOfNode(source.declarations[0]); var targetSymbolFile = target.declarations && ts.getSourceFileOfNode(target.declarations[0]); var symbolName_1 = symbolToString(source); // Collect top-level duplicate identifier errors into one mapping, so we can then merge their diagnostics if there are a bunch if (sourceSymbolFile && targetSymbolFile && amalgamatedDuplicates && !isEitherEnum && sourceSymbolFile !== targetSymbolFile) { var firstFile_1 = ts.comparePaths(sourceSymbolFile.path, targetSymbolFile.path) === -1 /* LessThan */ ? sourceSymbolFile : targetSymbolFile; var secondFile_1 = firstFile_1 === sourceSymbolFile ? targetSymbolFile : sourceSymbolFile; var filesDuplicates = ts.getOrUpdate(amalgamatedDuplicates, firstFile_1.path + "|" + secondFile_1.path, function () { return ({ firstFile: firstFile_1, secondFile: secondFile_1, conflictingSymbols: ts.createMap() }); }); var conflictingSymbolInfo = ts.getOrUpdate(filesDuplicates.conflictingSymbols, symbolName_1, function () { return ({ isBlockScoped: isEitherBlockScoped_1, firstFileLocations: [], secondFileLocations: [] }); }); addDuplicateLocations(conflictingSymbolInfo.firstFileLocations, source); addDuplicateLocations(conflictingSymbolInfo.secondFileLocations, target); } else { addDuplicateDeclarationErrorsForSymbols(source, message, symbolName_1, target); addDuplicateDeclarationErrorsForSymbols(target, message, symbolName_1, source); } } return target; function addDuplicateLocations(locs, symbol) { for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; ts.pushIfUnique(locs, decl); } } } function addDuplicateDeclarationErrorsForSymbols(target, message, symbolName, source) { ts.forEach(target.declarations, function (node) { addDuplicateDeclarationError(node, message, symbolName, source.declarations); }); } function addDuplicateDeclarationError(node, message, symbolName, relatedNodes) { var errorNode = (ts.getExpandoInitializer(node, /*isPrototypeAssignment*/ false) ? ts.getNameOfExpando(node) : ts.getNameOfDeclaration(node)) || node; var err = lookupOrIssueError(errorNode, message, symbolName); var _loop_6 = function (relatedNode) { var adjustedNode = (ts.getExpandoInitializer(relatedNode, /*isPrototypeAssignment*/ false) ? ts.getNameOfExpando(relatedNode) : ts.getNameOfDeclaration(relatedNode)) || relatedNode; if (adjustedNode === errorNode) return "continue"; err.relatedInformation = err.relatedInformation || []; var leadingMessage = ts.createDiagnosticForNode(adjustedNode, ts.Diagnostics._0_was_also_declared_here, symbolName); var followOnMessage = ts.createDiagnosticForNode(adjustedNode, ts.Diagnostics.and_here); if (ts.length(err.relatedInformation) >= 5 || ts.some(err.relatedInformation, function (r) { return ts.compareDiagnostics(r, followOnMessage) === 0 /* EqualTo */ || ts.compareDiagnostics(r, leadingMessage) === 0 /* EqualTo */; })) return "continue"; ts.addRelatedInfo(err, !ts.length(err.relatedInformation) ? leadingMessage : followOnMessage); }; for (var _i = 0, _a = relatedNodes || ts.emptyArray; _i < _a.length; _i++) { var relatedNode = _a[_i]; _loop_6(relatedNode); } } function combineSymbolTables(first, second) { if (!ts.hasEntries(first)) return second; if (!ts.hasEntries(second)) return first; var combined = ts.createSymbolTable(); mergeSymbolTable(combined, first); mergeSymbolTable(combined, second); return combined; } function mergeSymbolTable(target, source, unidirectional) { if (unidirectional === void 0) { unidirectional = false; } source.forEach(function (sourceSymbol, id) { var targetSymbol = target.get(id); target.set(id, targetSymbol ? mergeSymbol(targetSymbol, sourceSymbol, unidirectional) : sourceSymbol); }); } function mergeModuleAugmentation(moduleName) { var _a, _b; var moduleAugmentation = moduleName.parent; if (moduleAugmentation.symbol.declarations[0] !== moduleAugmentation) { // this is a combined symbol for multiple augmentations within the same file. // its symbol already has accumulated information for all declarations // so we need to add it just once - do the work only for first declaration ts.Debug.assert(moduleAugmentation.symbol.declarations.length > 1); return; } if (ts.isGlobalScopeAugmentation(moduleAugmentation)) { mergeSymbolTable(globals, moduleAugmentation.symbol.exports); } else { // find a module that about to be augmented // do not validate names of augmentations that are defined in ambient context var moduleNotFoundError = !(moduleName.parent.parent.flags & 8388608 /* Ambient */) ? ts.Diagnostics.Invalid_module_name_in_augmentation_module_0_cannot_be_found : undefined; var mainModule_1 = resolveExternalModuleNameWorker(moduleName, moduleName, moduleNotFoundError, /*isForAugmentation*/ true); if (!mainModule_1) { return; } // obtain item referenced by 'export=' mainModule_1 = resolveExternalModuleSymbol(mainModule_1); if (mainModule_1.flags & 1920 /* Namespace */) { // If we're merging an augmentation to a pattern ambient module, we want to // perform the merge unidirectionally from the augmentation ('a.foo') to // the pattern ('*.foo'), so that 'getMergedSymbol()' on a.foo gives you // all the exports both from the pattern and from the augmentation, but // 'getMergedSymbol()' on *.foo only gives you exports from *.foo. if (ts.some(patternAmbientModules, function (module) { return mainModule_1 === module.symbol; })) { var merged = mergeSymbol(moduleAugmentation.symbol, mainModule_1, /*unidirectional*/ true); if (!patternAmbientModuleAugmentations) { patternAmbientModuleAugmentations = ts.createMap(); } // moduleName will be a StringLiteral since this is not `declare global`. patternAmbientModuleAugmentations.set(moduleName.text, merged); } else { if (((_a = mainModule_1.exports) === null || _a === void 0 ? void 0 : _a.get("__export" /* ExportStar */)) && ((_b = moduleAugmentation.symbol.exports) === null || _b === void 0 ? void 0 : _b.size)) { // We may need to merge the module augmentation's exports into the target symbols of the resolved exports var resolvedExports = getResolvedMembersOrExportsOfSymbol(mainModule_1, "resolvedExports" /* resolvedExports */); for (var _i = 0, _c = ts.arrayFrom(moduleAugmentation.symbol.exports.entries()); _i < _c.length; _i++) { var _d = _c[_i], key = _d[0], value = _d[1]; if (resolvedExports.has(key) && !mainModule_1.exports.has(key)) { mergeSymbol(resolvedExports.get(key), value); } } } mergeSymbol(mainModule_1, moduleAugmentation.symbol); } } else { // moduleName will be a StringLiteral since this is not `declare global`. error(moduleName, ts.Diagnostics.Cannot_augment_module_0_because_it_resolves_to_a_non_module_entity, moduleName.text); } } } function addToSymbolTable(target, source, message) { source.forEach(function (sourceSymbol, id) { var targetSymbol = target.get(id); if (targetSymbol) { // Error on redeclarations ts.forEach(targetSymbol.declarations, addDeclarationDiagnostic(ts.unescapeLeadingUnderscores(id), message)); } else { target.set(id, sourceSymbol); } }); function addDeclarationDiagnostic(id, message) { return function (declaration) { return diagnostics.add(ts.createDiagnosticForNode(declaration, message, id)); }; } } function getSymbolLinks(symbol) { if (symbol.flags & 33554432 /* Transient */) return symbol; var id = getSymbolId(symbol); return symbolLinks[id] || (symbolLinks[id] = new SymbolLinks()); } function getNodeLinks(node) { var nodeId = getNodeId(node); return nodeLinks[nodeId] || (nodeLinks[nodeId] = new NodeLinks()); } function isGlobalSourceFile(node) { return node.kind === 290 /* SourceFile */ && !ts.isExternalOrCommonJsModule(node); } function getSymbol(symbols, name, meaning) { if (meaning) { var symbol = getMergedSymbol(symbols.get(name)); if (symbol) { ts.Debug.assert((ts.getCheckFlags(symbol) & 1 /* Instantiated */) === 0, "Should never get an instantiated symbol here."); if (symbol.flags & meaning) { return symbol; } if (symbol.flags & 2097152 /* Alias */) { var target = resolveAlias(symbol); // Unknown symbol means an error occurred in alias resolution, treat it as positive answer to avoid cascading errors if (target === unknownSymbol || target.flags & meaning) { return symbol; } } } } // return undefined if we can't find a symbol. } /** * Get symbols that represent parameter-property-declaration as parameter and as property declaration * @param parameter a parameterDeclaration node * @param parameterName a name of the parameter to get the symbols for. * @return a tuple of two symbols */ function getSymbolsOfParameterPropertyDeclaration(parameter, parameterName) { var constructorDeclaration = parameter.parent; var classDeclaration = parameter.parent.parent; var parameterSymbol = getSymbol(constructorDeclaration.locals, parameterName, 111551 /* Value */); var propertySymbol = getSymbol(getMembersOfSymbol(classDeclaration.symbol), parameterName, 111551 /* Value */); if (parameterSymbol && propertySymbol) { return [parameterSymbol, propertySymbol]; } return ts.Debug.fail("There should exist two symbols, one as property declaration and one as parameter declaration"); } function isBlockScopedNameDeclaredBeforeUse(declaration, usage) { var declarationFile = ts.getSourceFileOfNode(declaration); var useFile = ts.getSourceFileOfNode(usage); var declContainer = ts.getEnclosingBlockScopeContainer(declaration); if (declarationFile !== useFile) { if ((moduleKind && (declarationFile.externalModuleIndicator || useFile.externalModuleIndicator)) || (!compilerOptions.outFile && !compilerOptions.out) || isInTypeQuery(usage) || declaration.flags & 8388608 /* Ambient */) { // nodes are in different files and order cannot be determined return true; } // declaration is after usage // can be legal if usage is deferred (i.e. inside function or in initializer of instance property) if (isUsedInFunctionOrInstanceProperty(usage, declaration)) { return true; } var sourceFiles = host.getSourceFiles(); return sourceFiles.indexOf(declarationFile) <= sourceFiles.indexOf(useFile); } if (declaration.pos <= usage.pos) { // declaration is before usage if (declaration.kind === 191 /* BindingElement */) { // still might be illegal if declaration and usage are both binding elements (eg var [a = b, b = b] = [1, 2]) var errorBindingElement = ts.getAncestor(usage, 191 /* BindingElement */); if (errorBindingElement) { return ts.findAncestor(errorBindingElement, ts.isBindingElement) !== ts.findAncestor(declaration, ts.isBindingElement) || declaration.pos < errorBindingElement.pos; } // or it might be illegal if usage happens before parent variable is declared (eg var [a] = a) return isBlockScopedNameDeclaredBeforeUse(ts.getAncestor(declaration, 242 /* VariableDeclaration */), usage); } else if (declaration.kind === 242 /* VariableDeclaration */) { // still might be illegal if usage is in the initializer of the variable declaration (eg var a = a) return !isImmediatelyUsedInInitializerOfBlockScopedVariable(declaration, usage); } else if (ts.isClassDeclaration(declaration)) { // still might be illegal if the usage is within a computed property name in the class (eg class A { static p = "a"; [A.p]() {} }) return !ts.findAncestor(usage, function (n) { return ts.isComputedPropertyName(n) && n.parent.parent === declaration; }); } else if (ts.isPropertyDeclaration(declaration)) { // still might be illegal if a self-referencing property initializer (eg private x = this.x) return !isPropertyImmediatelyReferencedWithinDeclaration(declaration, usage, /*stopAtAnyPropertyDeclaration*/ false); } else if (ts.isParameterPropertyDeclaration(declaration, declaration.parent)) { // foo = this.bar is illegal in esnext+useDefineForClassFields when bar is a parameter property return !(compilerOptions.target === 99 /* ESNext */ && !!compilerOptions.useDefineForClassFields && ts.getContainingClass(declaration) === ts.getContainingClass(usage) && isUsedInFunctionOrInstanceProperty(usage, declaration)); } return true; } // declaration is after usage, but it can still be legal if usage is deferred: // 1. inside an export specifier // 2. inside a function // 3. inside an instance property initializer, a reference to a non-instance property // (except when target: "esnext" and useDefineForClassFields: true and the reference is to a parameter property) // 4. inside a static property initializer, a reference to a static method in the same class // 5. inside a TS export= declaration (since we will move the export statement during emit to avoid TDZ) // or if usage is in a type context: // 1. inside a type query (typeof in type position) // 2. inside a jsdoc comment if (usage.parent.kind === 263 /* ExportSpecifier */ || (usage.parent.kind === 259 /* ExportAssignment */ && usage.parent.isExportEquals)) { // export specifiers do not use the variable, they only make it available for use return true; } // When resolving symbols for exports, the `usage` location passed in can be the export site directly if (usage.kind === 259 /* ExportAssignment */ && usage.isExportEquals) { return true; } if (!!(usage.flags & 4194304 /* JSDoc */) || isInTypeQuery(usage) || usageInTypeDeclaration()) { return true; } if (isUsedInFunctionOrInstanceProperty(usage, declaration)) { if (compilerOptions.target === 99 /* ESNext */ && !!compilerOptions.useDefineForClassFields && ts.getContainingClass(declaration) && (ts.isPropertyDeclaration(declaration) || ts.isParameterPropertyDeclaration(declaration, declaration.parent))) { return !isPropertyImmediatelyReferencedWithinDeclaration(declaration, usage, /*stopAtAnyPropertyDeclaration*/ true); } else { return true; } } return false; function usageInTypeDeclaration() { return !!ts.findAncestor(usage, function (node) { return ts.isInterfaceDeclaration(node) || ts.isTypeAliasDeclaration(node); }); } function isImmediatelyUsedInInitializerOfBlockScopedVariable(declaration, usage) { switch (declaration.parent.parent.kind) { case 225 /* VariableStatement */: case 230 /* ForStatement */: case 232 /* ForOfStatement */: // variable statement/for/for-of statement case, // use site should not be inside variable declaration (initializer of declaration or binding element) if (isSameScopeDescendentOf(usage, declaration, declContainer)) { return true; } break; } // ForIn/ForOf case - use site should not be used in expression part var grandparent = declaration.parent.parent; return ts.isForInOrOfStatement(grandparent) && isSameScopeDescendentOf(usage, grandparent.expression, declContainer); } function isUsedInFunctionOrInstanceProperty(usage, declaration) { return !!ts.findAncestor(usage, function (current) { if (current === declContainer) { return "quit"; } if (ts.isFunctionLike(current)) { return true; } var initializerOfProperty = current.parent && current.parent.kind === 159 /* PropertyDeclaration */ && current.parent.initializer === current; if (initializerOfProperty) { if (ts.hasModifier(current.parent, 32 /* Static */)) { if (declaration.kind === 161 /* MethodDeclaration */) { return true; } } else { var isDeclarationInstanceProperty = declaration.kind === 159 /* PropertyDeclaration */ && !ts.hasModifier(declaration, 32 /* Static */); if (!isDeclarationInstanceProperty || ts.getContainingClass(usage) !== ts.getContainingClass(declaration)) { return true; } } } return false; }); } /** stopAtAnyPropertyDeclaration is used for detecting ES-standard class field use-before-def errors */ function isPropertyImmediatelyReferencedWithinDeclaration(declaration, usage, stopAtAnyPropertyDeclaration) { // always legal if usage is after declaration if (usage.end > declaration.end) { return false; } // still might be legal if usage is deferred (e.g. x: any = () => this.x) // otherwise illegal if immediately referenced within the declaration (e.g. x: any = this.x) var ancestorChangingReferenceScope = ts.findAncestor(usage, function (node) { if (node === declaration) { return "quit"; } switch (node.kind) { case 202 /* ArrowFunction */: return true; case 159 /* PropertyDeclaration */: // even when stopping at any property declaration, they need to come from the same class return stopAtAnyPropertyDeclaration && (ts.isPropertyDeclaration(declaration) && node.parent === declaration.parent || ts.isParameterPropertyDeclaration(declaration, declaration.parent) && node.parent === declaration.parent.parent) ? "quit" : true; case 223 /* Block */: switch (node.parent.kind) { case 163 /* GetAccessor */: case 161 /* MethodDeclaration */: case 164 /* SetAccessor */: return true; default: return false; } default: return false; } }); return ancestorChangingReferenceScope === undefined; } } function useOuterVariableScopeInParameter(result, location, lastLocation) { var target = ts.getEmitScriptTarget(compilerOptions); var functionLocation = location; if (ts.isParameter(lastLocation) && functionLocation.body && result.valueDeclaration.pos >= functionLocation.body.pos && result.valueDeclaration.end <= functionLocation.body.end) { // check for several cases where we introduce temporaries that require moving the name/initializer of the parameter to the body // - static field in a class expression // - optional chaining pre-es2020 // - nullish coalesce pre-es2020 // - spread assignment in binding pattern pre-es2017 if (target >= 2 /* ES2015 */) { var links = getNodeLinks(functionLocation); if (links.declarationRequiresScopeChange === undefined) { links.declarationRequiresScopeChange = ts.forEach(functionLocation.parameters, requiresScopeChange) || false; } return !links.declarationRequiresScopeChange; } } return false; function requiresScopeChange(node) { return requiresScopeChangeWorker(node.name) || !!node.initializer && requiresScopeChangeWorker(node.initializer); } function requiresScopeChangeWorker(node) { switch (node.kind) { case 202 /* ArrowFunction */: case 201 /* FunctionExpression */: case 244 /* FunctionDeclaration */: case 162 /* Constructor */: // do not descend into these return false; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 281 /* PropertyAssignment */: return requiresScopeChangeWorker(node.name); case 159 /* PropertyDeclaration */: // static properties in classes introduce temporary variables if (ts.hasStaticModifier(node)) { return target < 99 /* ESNext */ || !compilerOptions.useDefineForClassFields; } return requiresScopeChangeWorker(node.name); default: // null coalesce and optional chain pre-es2020 produce temporary variables if (ts.isNullishCoalesce(node) || ts.isOptionalChain(node)) { return target < 7 /* ES2020 */; } if (ts.isBindingElement(node) && node.dotDotDotToken && ts.isObjectBindingPattern(node.parent)) { return target < 4 /* ES2017 */; } if (ts.isTypeNode(node)) return false; return ts.forEachChild(node, requiresScopeChangeWorker) || false; } } } /** * Resolve a given name for a given meaning at a given location. An error is reported if the name was not found and * the nameNotFoundMessage argument is not undefined. Returns the resolved symbol, or undefined if no symbol with * the given name can be found. * * @param isUse If true, this will count towards --noUnusedLocals / --noUnusedParameters. */ function resolveName(location, name, meaning, nameNotFoundMessage, nameArg, isUse, excludeGlobals, suggestedNameNotFoundMessage) { if (excludeGlobals === void 0) { excludeGlobals = false; } return resolveNameHelper(location, name, meaning, nameNotFoundMessage, nameArg, isUse, excludeGlobals, getSymbol, suggestedNameNotFoundMessage); } function resolveNameHelper(location, name, meaning, nameNotFoundMessage, nameArg, isUse, excludeGlobals, lookup, suggestedNameNotFoundMessage) { var originalLocation = location; // needed for did-you-mean error reporting, which gathers candidates starting from the original location var result; var lastLocation; var lastSelfReferenceLocation; var propertyWithInvalidInitializer; var associatedDeclarationForContainingInitializerOrBindingName; var withinDeferredContext = false; var errorLocation = location; var grandparent; var isInExternalModule = false; loop: while (location) { // Locals of a source file are not in scope (because they get merged into the global symbol table) if (location.locals && !isGlobalSourceFile(location)) { if (result = lookup(location.locals, name, meaning)) { var useResult = true; if (ts.isFunctionLike(location) && lastLocation && lastLocation !== location.body) { // symbol lookup restrictions for function-like declarations // - Type parameters of a function are in scope in the entire function declaration, including the parameter // list and return type. However, local types are only in scope in the function body. // - parameters are only in the scope of function body // This restriction does not apply to JSDoc comment types because they are parented // at a higher level than type parameters would normally be if (meaning & result.flags & 788968 /* Type */ && lastLocation.kind !== 303 /* JSDocComment */) { useResult = result.flags & 262144 /* TypeParameter */ // type parameters are visible in parameter list, return type and type parameter list ? lastLocation === location.type || lastLocation.kind === 156 /* Parameter */ || lastLocation.kind === 155 /* TypeParameter */ // local types not visible outside the function body : false; } if (meaning & result.flags & 3 /* Variable */) { // expression inside parameter will lookup as normal variable scope when targeting es2015+ if (useOuterVariableScopeInParameter(result, location, lastLocation)) { useResult = false; } else if (result.flags & 1 /* FunctionScopedVariable */) { // parameters are visible only inside function body, parameter list and return type // technically for parameter list case here we might mix parameters and variables declared in function, // however it is detected separately when checking initializers of parameters // to make sure that they reference no variables declared after them. useResult = lastLocation.kind === 156 /* Parameter */ || (lastLocation === location.type && !!ts.findAncestor(result.valueDeclaration, ts.isParameter)); } } } else if (location.kind === 180 /* ConditionalType */) { // A type parameter declared using 'infer T' in a conditional type is visible only in // the true branch of the conditional type. useResult = lastLocation === location.trueType; } if (useResult) { break loop; } else { result = undefined; } } } withinDeferredContext = withinDeferredContext || getIsDeferredContext(location, lastLocation); switch (location.kind) { case 290 /* SourceFile */: if (!ts.isExternalOrCommonJsModule(location)) break; isInExternalModule = true; // falls through case 249 /* ModuleDeclaration */: var moduleExports = getSymbolOfNode(location).exports || emptySymbols; if (location.kind === 290 /* SourceFile */ || (ts.isModuleDeclaration(location) && location.flags & 8388608 /* Ambient */ && !ts.isGlobalScopeAugmentation(location))) { // It's an external module. First see if the module has an export default and if the local // name of that export default matches. if (result = moduleExports.get("default" /* Default */)) { var localSymbol = ts.getLocalSymbolForExportDefault(result); if (localSymbol && (result.flags & meaning) && localSymbol.escapedName === name) { break loop; } result = undefined; } // Because of module/namespace merging, a module's exports are in scope, // yet we never want to treat an export specifier as putting a member in scope. // Therefore, if the name we find is purely an export specifier, it is not actually considered in scope. // Two things to note about this: // 1. We have to check this without calling getSymbol. The problem with calling getSymbol // on an export specifier is that it might find the export specifier itself, and try to // resolve it as an alias. This will cause the checker to consider the export specifier // a circular alias reference when it might not be. // 2. We check === SymbolFlags.Alias in order to check that the symbol is *purely* // an alias. If we used &, we'd be throwing out symbols that have non alias aspects, // which is not the desired behavior. var moduleExport = moduleExports.get(name); if (moduleExport && moduleExport.flags === 2097152 /* Alias */ && (ts.getDeclarationOfKind(moduleExport, 263 /* ExportSpecifier */) || ts.getDeclarationOfKind(moduleExport, 262 /* NamespaceExport */))) { break; } } // ES6 exports are also visible locally (except for 'default'), but commonjs exports are not (except typedefs) if (name !== "default" /* Default */ && (result = lookup(moduleExports, name, meaning & 2623475 /* ModuleMember */))) { if (ts.isSourceFile(location) && location.commonJsModuleIndicator && !result.declarations.some(ts.isJSDocTypeAlias)) { result = undefined; } else { break loop; } } break; case 248 /* EnumDeclaration */: if (result = lookup(getSymbolOfNode(location).exports, name, meaning & 8 /* EnumMember */)) { break loop; } break; case 159 /* PropertyDeclaration */: // TypeScript 1.0 spec (April 2014): 8.4.1 // Initializer expressions for instance member variables are evaluated in the scope // of the class constructor body but are not permitted to reference parameters or // local variables of the constructor. This effectively means that entities from outer scopes // by the same name as a constructor parameter or local variable are inaccessible // in initializer expressions for instance member variables. if (!ts.hasModifier(location, 32 /* Static */)) { var ctor = findConstructorDeclaration(location.parent); if (ctor && ctor.locals) { if (lookup(ctor.locals, name, meaning & 111551 /* Value */)) { // Remember the property node, it will be used later to report appropriate error propertyWithInvalidInitializer = location; } } } break; case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 246 /* InterfaceDeclaration */: // The below is used to lookup type parameters within a class or interface, as they are added to the class/interface locals // These can never be latebound, so the symbol's raw members are sufficient. `getMembersOfNode` cannot be used, as it would // trigger resolving late-bound names, which we may already be in the process of doing while we're here! if (result = lookup(getSymbolOfNode(location).members || emptySymbols, name, meaning & 788968 /* Type */)) { if (!isTypeParameterSymbolDeclaredInContainer(result, location)) { // ignore type parameters not declared in this container result = undefined; break; } if (lastLocation && ts.hasModifier(lastLocation, 32 /* Static */)) { // TypeScript 1.0 spec (April 2014): 3.4.1 // The scope of a type parameter extends over the entire declaration with which the type // parameter list is associated, with the exception of static member declarations in classes. error(errorLocation, ts.Diagnostics.Static_members_cannot_reference_class_type_parameters); return undefined; } break loop; } if (location.kind === 214 /* ClassExpression */ && meaning & 32 /* Class */) { var className = location.name; if (className && name === className.escapedText) { result = location.symbol; break loop; } } break; case 216 /* ExpressionWithTypeArguments */: // The type parameters of a class are not in scope in the base class expression. if (lastLocation === location.expression && location.parent.token === 90 /* ExtendsKeyword */) { var container = location.parent.parent; if (ts.isClassLike(container) && (result = lookup(getSymbolOfNode(container).members, name, meaning & 788968 /* Type */))) { if (nameNotFoundMessage) { error(errorLocation, ts.Diagnostics.Base_class_expressions_cannot_reference_class_type_parameters); } return undefined; } } break; // It is not legal to reference a class's own type parameters from a computed property name that // belongs to the class. For example: // // function foo() { return '' } // class C { // <-- Class's own type parameter T // [foo()]() { } // <-- Reference to T from class's own computed property // } // case 154 /* ComputedPropertyName */: grandparent = location.parent.parent; if (ts.isClassLike(grandparent) || grandparent.kind === 246 /* InterfaceDeclaration */) { // A reference to this grandparent's type parameters would be an error if (result = lookup(getSymbolOfNode(grandparent).members, name, meaning & 788968 /* Type */)) { error(errorLocation, ts.Diagnostics.A_computed_property_name_cannot_reference_a_type_parameter_from_its_containing_type); return undefined; } } break; case 202 /* ArrowFunction */: // when targeting ES6 or higher there is no 'arguments' in an arrow function // for lower compile targets the resolved symbol is used to emit an error if (compilerOptions.target >= 2 /* ES2015 */) { break; } // falls through case 161 /* MethodDeclaration */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 244 /* FunctionDeclaration */: if (meaning & 3 /* Variable */ && name === "arguments") { result = argumentsSymbol; break loop; } break; case 201 /* FunctionExpression */: if (meaning & 3 /* Variable */ && name === "arguments") { result = argumentsSymbol; break loop; } if (meaning & 16 /* Function */) { var functionName = location.name; if (functionName && name === functionName.escapedText) { result = location.symbol; break loop; } } break; case 157 /* Decorator */: // Decorators are resolved at the class declaration. Resolving at the parameter // or member would result in looking up locals in the method. // // function y() {} // class C { // method(@y x, y) {} // <-- decorator y should be resolved at the class declaration, not the parameter. // } // if (location.parent && location.parent.kind === 156 /* Parameter */) { location = location.parent; } // // function y() {} // class C { // @y method(x, y) {} // <-- decorator y should be resolved at the class declaration, not the method. // } // // class Decorators are resolved outside of the class to avoid referencing type parameters of that class. // // type T = number; // declare function y(x: T): any; // @param(1 as T) // <-- T should resolve to the type alias outside of class C // class C {} if (location.parent && (ts.isClassElement(location.parent) || location.parent.kind === 245 /* ClassDeclaration */)) { location = location.parent; } break; case 322 /* JSDocTypedefTag */: case 315 /* JSDocCallbackTag */: case 316 /* JSDocEnumTag */: // js type aliases do not resolve names from their host, so skip past it location = ts.getJSDocHost(location); break; case 156 /* Parameter */: if (lastLocation && (lastLocation === location.initializer || lastLocation === location.name && ts.isBindingPattern(lastLocation))) { if (!associatedDeclarationForContainingInitializerOrBindingName) { associatedDeclarationForContainingInitializerOrBindingName = location; } } break; case 191 /* BindingElement */: if (lastLocation && (lastLocation === location.initializer || lastLocation === location.name && ts.isBindingPattern(lastLocation))) { var root = ts.getRootDeclaration(location); if (root.kind === 156 /* Parameter */) { if (!associatedDeclarationForContainingInitializerOrBindingName) { associatedDeclarationForContainingInitializerOrBindingName = location; } } } break; } if (isSelfReferenceLocation(location)) { lastSelfReferenceLocation = location; } lastLocation = location; location = location.parent; } // We just climbed up parents looking for the name, meaning that we started in a descendant node of `lastLocation`. // If `result === lastSelfReferenceLocation.symbol`, that means that we are somewhere inside `lastSelfReferenceLocation` looking up a name, and resolving to `lastLocation` itself. // That means that this is a self-reference of `lastLocation`, and shouldn't count this when considering whether `lastLocation` is used. if (isUse && result && (!lastSelfReferenceLocation || result !== lastSelfReferenceLocation.symbol)) { result.isReferenced |= meaning; } if (!result) { if (lastLocation) { ts.Debug.assert(lastLocation.kind === 290 /* SourceFile */); if (lastLocation.commonJsModuleIndicator && name === "exports" && meaning & lastLocation.symbol.flags) { return lastLocation.symbol; } } if (!excludeGlobals) { result = lookup(globals, name, meaning); } } if (!result) { if (originalLocation && ts.isInJSFile(originalLocation) && originalLocation.parent) { if (ts.isRequireCall(originalLocation.parent, /*checkArgumentIsStringLiteralLike*/ false)) { return requireSymbol; } } } if (!result) { if (nameNotFoundMessage) { if (!errorLocation || !checkAndReportErrorForMissingPrefix(errorLocation, name, nameArg) && // TODO: GH#18217 !checkAndReportErrorForExtendingInterface(errorLocation) && !checkAndReportErrorForUsingTypeAsNamespace(errorLocation, name, meaning) && !checkAndReportErrorForExportingPrimitiveType(errorLocation, name) && !checkAndReportErrorForUsingTypeAsValue(errorLocation, name, meaning) && !checkAndReportErrorForUsingNamespaceModuleAsValue(errorLocation, name, meaning) && !checkAndReportErrorForUsingValueAsType(errorLocation, name, meaning)) { var suggestion = void 0; if (suggestedNameNotFoundMessage && suggestionCount < maximumSuggestionCount) { suggestion = getSuggestedSymbolForNonexistentSymbol(originalLocation, name, meaning); if (suggestion) { var suggestionName = symbolToString(suggestion); var diagnostic = error(errorLocation, suggestedNameNotFoundMessage, diagnosticName(nameArg), suggestionName); if (suggestion.valueDeclaration) { ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(suggestion.valueDeclaration, ts.Diagnostics._0_is_declared_here, suggestionName)); } } } if (!suggestion) { error(errorLocation, nameNotFoundMessage, diagnosticName(nameArg)); } suggestionCount++; } } return undefined; } // Perform extra checks only if error reporting was requested if (nameNotFoundMessage) { if (propertyWithInvalidInitializer && !(compilerOptions.target === 99 /* ESNext */ && compilerOptions.useDefineForClassFields)) { // We have a match, but the reference occurred within a property initializer and the identifier also binds // to a local variable in the constructor where the code will be emitted. Note that this is actually allowed // with ESNext+useDefineForClassFields because the scope semantics are different. var propertyName = propertyWithInvalidInitializer.name; error(errorLocation, ts.Diagnostics.Initializer_of_instance_member_variable_0_cannot_reference_identifier_1_declared_in_the_constructor, ts.declarationNameToString(propertyName), diagnosticName(nameArg)); return undefined; } // Only check for block-scoped variable if we have an error location and are looking for the // name with variable meaning // For example, // declare module foo { // interface bar {} // } // const foo/*1*/: foo/*2*/.bar; // The foo at /*1*/ and /*2*/ will share same symbol with two meanings: // block-scoped variable and namespace module. However, only when we // try to resolve name in /*1*/ which is used in variable position, // we want to check for block-scoped if (errorLocation && (meaning & 2 /* BlockScopedVariable */ || ((meaning & 32 /* Class */ || meaning & 384 /* Enum */) && (meaning & 111551 /* Value */) === 111551 /* Value */))) { var exportOrLocalSymbol = getExportSymbolOfValueSymbolIfExported(result); if (exportOrLocalSymbol.flags & 2 /* BlockScopedVariable */ || exportOrLocalSymbol.flags & 32 /* Class */ || exportOrLocalSymbol.flags & 384 /* Enum */) { checkResolvedBlockScopedVariable(exportOrLocalSymbol, errorLocation); } } // If we're in an external module, we can't reference value symbols created from UMD export declarations if (result && isInExternalModule && (meaning & 111551 /* Value */) === 111551 /* Value */ && !(originalLocation.flags & 4194304 /* JSDoc */)) { var merged = getMergedSymbol(result); if (ts.length(merged.declarations) && ts.every(merged.declarations, function (d) { return ts.isNamespaceExportDeclaration(d) || ts.isSourceFile(d) && !!d.symbol.globalExports; })) { errorOrSuggestion(!compilerOptions.allowUmdGlobalAccess, errorLocation, ts.Diagnostics._0_refers_to_a_UMD_global_but_the_current_file_is_a_module_Consider_adding_an_import_instead, ts.unescapeLeadingUnderscores(name)); } } // If we're in a parameter initializer or binding name, we can't reference the values of the parameter whose initializer we're within or parameters to the right if (result && associatedDeclarationForContainingInitializerOrBindingName && !withinDeferredContext && (meaning & 111551 /* Value */) === 111551 /* Value */) { var candidate = getMergedSymbol(getLateBoundSymbol(result)); var root = ts.getRootDeclaration(associatedDeclarationForContainingInitializerOrBindingName); // A parameter initializer or binding pattern initializer within a parameter cannot refer to itself if (candidate === getSymbolOfNode(associatedDeclarationForContainingInitializerOrBindingName)) { error(errorLocation, ts.Diagnostics.Parameter_0_cannot_reference_itself, ts.declarationNameToString(associatedDeclarationForContainingInitializerOrBindingName.name)); } // And it cannot refer to any declarations which come after it else if (candidate.valueDeclaration && candidate.valueDeclaration.pos > associatedDeclarationForContainingInitializerOrBindingName.pos && root.parent.locals && lookup(root.parent.locals, candidate.escapedName, meaning) === candidate) { error(errorLocation, ts.Diagnostics.Parameter_0_cannot_reference_identifier_1_declared_after_it, ts.declarationNameToString(associatedDeclarationForContainingInitializerOrBindingName.name), ts.declarationNameToString(errorLocation)); } } if (result && errorLocation && meaning & 111551 /* Value */ && result.flags & 2097152 /* Alias */) { checkSymbolUsageInExpressionContext(result, name, errorLocation); } } return result; } function checkSymbolUsageInExpressionContext(symbol, name, useSite) { if (!ts.isValidTypeOnlyAliasUseSite(useSite)) { var typeOnlyDeclaration = getTypeOnlyAliasDeclaration(symbol); if (typeOnlyDeclaration) { var isExport = ts.typeOnlyDeclarationIsExport(typeOnlyDeclaration); var message = isExport ? ts.Diagnostics._0_cannot_be_used_as_a_value_because_it_was_exported_using_export_type : ts.Diagnostics._0_cannot_be_used_as_a_value_because_it_was_imported_using_import_type; var relatedMessage = isExport ? ts.Diagnostics._0_was_exported_here : ts.Diagnostics._0_was_imported_here; var unescapedName = ts.unescapeLeadingUnderscores(name); ts.addRelatedInfo(error(useSite, message, unescapedName), ts.createDiagnosticForNode(typeOnlyDeclaration, relatedMessage, unescapedName)); } } } function getIsDeferredContext(location, lastLocation) { if (location.kind !== 202 /* ArrowFunction */ && location.kind !== 201 /* FunctionExpression */) { // initializers in instance property declaration of class like entities are executed in constructor and thus deferred return ts.isTypeQueryNode(location) || ((ts.isFunctionLikeDeclaration(location) || (location.kind === 159 /* PropertyDeclaration */ && !ts.hasModifier(location, 32 /* Static */))) && (!lastLocation || lastLocation !== location.name)); // A name is evaluated within the enclosing scope - so it shouldn't count as deferred } if (lastLocation && lastLocation === location.name) { return false; } // generator functions and async functions are not inlined in control flow when immediately invoked if (location.asteriskToken || ts.hasModifier(location, 256 /* Async */)) { return true; } return !ts.getImmediatelyInvokedFunctionExpression(location); } function isSelfReferenceLocation(node) { switch (node.kind) { case 244 /* FunctionDeclaration */: case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: case 248 /* EnumDeclaration */: case 247 /* TypeAliasDeclaration */: case 249 /* ModuleDeclaration */: // For `namespace N { N; }` return true; default: return false; } } function diagnosticName(nameArg) { return ts.isString(nameArg) ? ts.unescapeLeadingUnderscores(nameArg) : ts.declarationNameToString(nameArg); } function isTypeParameterSymbolDeclaredInContainer(symbol, container) { for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; if (decl.kind === 155 /* TypeParameter */) { var parent = ts.isJSDocTemplateTag(decl.parent) ? ts.getJSDocHost(decl.parent) : decl.parent; if (parent === container) { return !(ts.isJSDocTemplateTag(decl.parent) && ts.find(decl.parent.parent.tags, ts.isJSDocTypeAlias)); // TODO: GH#18217 } } } return false; } function checkAndReportErrorForMissingPrefix(errorLocation, name, nameArg) { if (!ts.isIdentifier(errorLocation) || errorLocation.escapedText !== name || isTypeReferenceIdentifier(errorLocation) || isInTypeQuery(errorLocation)) { return false; } var container = ts.getThisContainer(errorLocation, /*includeArrowFunctions*/ false); var location = container; while (location) { if (ts.isClassLike(location.parent)) { var classSymbol = getSymbolOfNode(location.parent); if (!classSymbol) { break; } // Check to see if a static member exists. var constructorType = getTypeOfSymbol(classSymbol); if (getPropertyOfType(constructorType, name)) { error(errorLocation, ts.Diagnostics.Cannot_find_name_0_Did_you_mean_the_static_member_1_0, diagnosticName(nameArg), symbolToString(classSymbol)); return true; } // No static member is present. // Check if we're in an instance method and look for a relevant instance member. if (location === container && !ts.hasModifier(location, 32 /* Static */)) { var instanceType = getDeclaredTypeOfSymbol(classSymbol).thisType; // TODO: GH#18217 if (getPropertyOfType(instanceType, name)) { error(errorLocation, ts.Diagnostics.Cannot_find_name_0_Did_you_mean_the_instance_member_this_0, diagnosticName(nameArg)); return true; } } } location = location.parent; } return false; } function checkAndReportErrorForExtendingInterface(errorLocation) { var expression = getEntityNameForExtendingInterface(errorLocation); if (expression && resolveEntityName(expression, 64 /* Interface */, /*ignoreErrors*/ true)) { error(errorLocation, ts.Diagnostics.Cannot_extend_an_interface_0_Did_you_mean_implements, ts.getTextOfNode(expression)); return true; } return false; } /** * Climbs up parents to an ExpressionWithTypeArguments, and returns its expression, * but returns undefined if that expression is not an EntityNameExpression. */ function getEntityNameForExtendingInterface(node) { switch (node.kind) { case 75 /* Identifier */: case 194 /* PropertyAccessExpression */: return node.parent ? getEntityNameForExtendingInterface(node.parent) : undefined; case 216 /* ExpressionWithTypeArguments */: if (ts.isEntityNameExpression(node.expression)) { return node.expression; } // falls through default: return undefined; } } function checkAndReportErrorForUsingTypeAsNamespace(errorLocation, name, meaning) { var namespaceMeaning = 1920 /* Namespace */ | (ts.isInJSFile(errorLocation) ? 111551 /* Value */ : 0); if (meaning === namespaceMeaning) { var symbol = resolveSymbol(resolveName(errorLocation, name, 788968 /* Type */ & ~namespaceMeaning, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false)); var parent = errorLocation.parent; if (symbol) { if (ts.isQualifiedName(parent)) { ts.Debug.assert(parent.left === errorLocation, "Should only be resolving left side of qualified name as a namespace"); var propName = parent.right.escapedText; var propType = getPropertyOfType(getDeclaredTypeOfSymbol(symbol), propName); if (propType) { error(parent, ts.Diagnostics.Cannot_access_0_1_because_0_is_a_type_but_not_a_namespace_Did_you_mean_to_retrieve_the_type_of_the_property_1_in_0_with_0_1, ts.unescapeLeadingUnderscores(name), ts.unescapeLeadingUnderscores(propName)); return true; } } error(errorLocation, ts.Diagnostics._0_only_refers_to_a_type_but_is_being_used_as_a_namespace_here, ts.unescapeLeadingUnderscores(name)); return true; } } return false; } function checkAndReportErrorForUsingValueAsType(errorLocation, name, meaning) { if (meaning & (788968 /* Type */ & ~1920 /* Namespace */)) { var symbol = resolveSymbol(resolveName(errorLocation, name, ~788968 /* Type */ & 111551 /* Value */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false)); if (symbol && !(symbol.flags & 1920 /* Namespace */)) { error(errorLocation, ts.Diagnostics._0_refers_to_a_value_but_is_being_used_as_a_type_here_Did_you_mean_typeof_0, ts.unescapeLeadingUnderscores(name)); return true; } } return false; } function isPrimitiveTypeName(name) { return name === "any" || name === "string" || name === "number" || name === "boolean" || name === "never" || name === "unknown"; } function checkAndReportErrorForExportingPrimitiveType(errorLocation, name) { if (isPrimitiveTypeName(name) && errorLocation.parent.kind === 263 /* ExportSpecifier */) { error(errorLocation, ts.Diagnostics.Cannot_export_0_Only_local_declarations_can_be_exported_from_a_module, name); return true; } return false; } function checkAndReportErrorForUsingTypeAsValue(errorLocation, name, meaning) { if (meaning & (111551 /* Value */ & ~1024 /* NamespaceModule */)) { if (isPrimitiveTypeName(name)) { error(errorLocation, ts.Diagnostics._0_only_refers_to_a_type_but_is_being_used_as_a_value_here, ts.unescapeLeadingUnderscores(name)); return true; } var symbol = resolveSymbol(resolveName(errorLocation, name, 788968 /* Type */ & ~111551 /* Value */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false)); if (symbol && !(symbol.flags & 1024 /* NamespaceModule */)) { var message = isES2015OrLaterConstructorName(name) ? ts.Diagnostics._0_only_refers_to_a_type_but_is_being_used_as_a_value_here_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_es2015_or_later : ts.Diagnostics._0_only_refers_to_a_type_but_is_being_used_as_a_value_here; error(errorLocation, message, ts.unescapeLeadingUnderscores(name)); return true; } } return false; } function isES2015OrLaterConstructorName(n) { switch (n) { case "Promise": case "Symbol": case "Map": case "WeakMap": case "Set": case "WeakSet": return true; } return false; } function checkAndReportErrorForUsingNamespaceModuleAsValue(errorLocation, name, meaning) { if (meaning & (111551 /* Value */ & ~1024 /* NamespaceModule */ & ~788968 /* Type */)) { var symbol = resolveSymbol(resolveName(errorLocation, name, 1024 /* NamespaceModule */ & ~111551 /* Value */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false)); if (symbol) { error(errorLocation, ts.Diagnostics.Cannot_use_namespace_0_as_a_value, ts.unescapeLeadingUnderscores(name)); return true; } } else if (meaning & (788968 /* Type */ & ~1024 /* NamespaceModule */ & ~111551 /* Value */)) { var symbol = resolveSymbol(resolveName(errorLocation, name, (512 /* ValueModule */ | 1024 /* NamespaceModule */) & ~788968 /* Type */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false)); if (symbol) { error(errorLocation, ts.Diagnostics.Cannot_use_namespace_0_as_a_type, ts.unescapeLeadingUnderscores(name)); return true; } } return false; } function checkResolvedBlockScopedVariable(result, errorLocation) { ts.Debug.assert(!!(result.flags & 2 /* BlockScopedVariable */ || result.flags & 32 /* Class */ || result.flags & 384 /* Enum */)); if (result.flags & (16 /* Function */ | 1 /* FunctionScopedVariable */ | 67108864 /* Assignment */) && result.flags & 32 /* Class */) { // constructor functions aren't block scoped return; } // Block-scoped variables cannot be used before their definition var declaration = ts.find(result.declarations, function (d) { return ts.isBlockOrCatchScoped(d) || ts.isClassLike(d) || (d.kind === 248 /* EnumDeclaration */); }); if (declaration === undefined) return ts.Debug.fail("checkResolvedBlockScopedVariable could not find block-scoped declaration"); if (!(declaration.flags & 8388608 /* Ambient */) && !isBlockScopedNameDeclaredBeforeUse(declaration, errorLocation)) { var diagnosticMessage = void 0; var declarationName = ts.declarationNameToString(ts.getNameOfDeclaration(declaration)); if (result.flags & 2 /* BlockScopedVariable */) { diagnosticMessage = error(errorLocation, ts.Diagnostics.Block_scoped_variable_0_used_before_its_declaration, declarationName); } else if (result.flags & 32 /* Class */) { diagnosticMessage = error(errorLocation, ts.Diagnostics.Class_0_used_before_its_declaration, declarationName); } else if (result.flags & 256 /* RegularEnum */) { diagnosticMessage = error(errorLocation, ts.Diagnostics.Enum_0_used_before_its_declaration, declarationName); } else { ts.Debug.assert(!!(result.flags & 128 /* ConstEnum */)); if (compilerOptions.preserveConstEnums) { diagnosticMessage = error(errorLocation, ts.Diagnostics.Class_0_used_before_its_declaration, declarationName); } } if (diagnosticMessage) { ts.addRelatedInfo(diagnosticMessage, ts.createDiagnosticForNode(declaration, ts.Diagnostics._0_is_declared_here, declarationName)); } } } /* Starting from 'initial' node walk up the parent chain until 'stopAt' node is reached. * If at any point current node is equal to 'parent' node - return true. * Return false if 'stopAt' node is reached or isFunctionLike(current) === true. */ function isSameScopeDescendentOf(initial, parent, stopAt) { return !!parent && !!ts.findAncestor(initial, function (n) { return n === stopAt || ts.isFunctionLike(n) ? "quit" : n === parent; }); } function getAnyImportSyntax(node) { switch (node.kind) { case 253 /* ImportEqualsDeclaration */: return node; case 255 /* ImportClause */: return node.parent; case 256 /* NamespaceImport */: return node.parent.parent; case 258 /* ImportSpecifier */: return node.parent.parent.parent; default: return undefined; } } function getDeclarationOfAliasSymbol(symbol) { return ts.find(symbol.declarations, isAliasSymbolDeclaration); } /** * An alias symbol is created by one of the following declarations: * import = ... * import from ... * import * as from ... * import { x as } from ... * export { x as } from ... * export * as ns from ... * export = * export default * module.exports = * {} * {name: } */ function isAliasSymbolDeclaration(node) { return node.kind === 253 /* ImportEqualsDeclaration */ || node.kind === 252 /* NamespaceExportDeclaration */ || node.kind === 255 /* ImportClause */ && !!node.name || node.kind === 256 /* NamespaceImport */ || node.kind === 262 /* NamespaceExport */ || node.kind === 258 /* ImportSpecifier */ || node.kind === 263 /* ExportSpecifier */ || node.kind === 259 /* ExportAssignment */ && ts.exportAssignmentIsAlias(node) || ts.isBinaryExpression(node) && ts.getAssignmentDeclarationKind(node) === 2 /* ModuleExports */ && ts.exportAssignmentIsAlias(node) || ts.isPropertyAccessExpression(node) && ts.isBinaryExpression(node.parent) && node.parent.left === node && node.parent.operatorToken.kind === 62 /* EqualsToken */ && isAliasableOrJsExpression(node.parent.right) || node.kind === 282 /* ShorthandPropertyAssignment */ || node.kind === 281 /* PropertyAssignment */ && isAliasableOrJsExpression(node.initializer); } function isAliasableOrJsExpression(e) { return ts.isAliasableExpression(e) || ts.isFunctionExpression(e) && isJSConstructor(e); } function getTargetOfImportEqualsDeclaration(node, dontResolveAlias) { if (node.moduleReference.kind === 265 /* ExternalModuleReference */) { var immediate = resolveExternalModuleName(node, ts.getExternalModuleImportEqualsDeclarationExpression(node)); var resolved_4 = resolveExternalModuleSymbol(immediate); markSymbolOfAliasDeclarationIfTypeOnly(node, immediate, resolved_4, /*overwriteEmpty*/ false); return resolved_4; } var resolved = getSymbolOfPartOfRightHandSideOfImportEquals(node.moduleReference, dontResolveAlias); checkAndReportErrorForResolvingImportAliasToTypeOnlySymbol(node, resolved); return resolved; } function checkAndReportErrorForResolvingImportAliasToTypeOnlySymbol(node, resolved) { if (markSymbolOfAliasDeclarationIfTypeOnly(node, /*immediateTarget*/ undefined, resolved, /*overwriteEmpty*/ false)) { var typeOnlyDeclaration = getTypeOnlyAliasDeclaration(getSymbolOfNode(node)); var isExport = ts.typeOnlyDeclarationIsExport(typeOnlyDeclaration); var message = isExport ? ts.Diagnostics.An_import_alias_cannot_reference_a_declaration_that_was_exported_using_export_type : ts.Diagnostics.An_import_alias_cannot_reference_a_declaration_that_was_imported_using_import_type; var relatedMessage = isExport ? ts.Diagnostics._0_was_exported_here : ts.Diagnostics._0_was_imported_here; // Non-null assertion is safe because the optionality comes from ImportClause, // but if an ImportClause was the typeOnlyDeclaration, it had to have a `name`. var name = ts.unescapeLeadingUnderscores(typeOnlyDeclaration.name.escapedText); ts.addRelatedInfo(error(node.moduleReference, message), ts.createDiagnosticForNode(typeOnlyDeclaration, relatedMessage, name)); } } function resolveExportByName(moduleSymbol, name, sourceNode, dontResolveAlias) { var exportValue = moduleSymbol.exports.get("export=" /* ExportEquals */); if (exportValue) { return getPropertyOfType(getTypeOfSymbol(exportValue), name); } var exportSymbol = moduleSymbol.exports.get(name); var resolved = resolveSymbol(exportSymbol, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(sourceNode, exportSymbol, resolved, /*overwriteEmpty*/ false); return resolved; } function isSyntacticDefault(node) { return ((ts.isExportAssignment(node) && !node.isExportEquals) || ts.hasModifier(node, 512 /* Default */) || ts.isExportSpecifier(node)); } function canHaveSyntheticDefault(file, moduleSymbol, dontResolveAlias) { if (!allowSyntheticDefaultImports) { return false; } // Declaration files (and ambient modules) if (!file || file.isDeclarationFile) { // Definitely cannot have a synthetic default if they have a syntactic default member specified var defaultExportSymbol = resolveExportByName(moduleSymbol, "default" /* Default */, /*sourceNode*/ undefined, /*dontResolveAlias*/ true); // Dont resolve alias because we want the immediately exported symbol's declaration if (defaultExportSymbol && ts.some(defaultExportSymbol.declarations, isSyntacticDefault)) { return false; } // It _might_ still be incorrect to assume there is no __esModule marker on the import at runtime, even if there is no `default` member // So we check a bit more, if (resolveExportByName(moduleSymbol, ts.escapeLeadingUnderscores("__esModule"), /*sourceNode*/ undefined, dontResolveAlias)) { // If there is an `__esModule` specified in the declaration (meaning someone explicitly added it or wrote it in their code), // it definitely is a module and does not have a synthetic default return false; } // There are _many_ declaration files not written with esmodules in mind that still get compiled into a format with __esModule set // Meaning there may be no default at runtime - however to be on the permissive side, we allow access to a synthetic default member // as there is no marker to indicate if the accompanying JS has `__esModule` or not, or is even native esm return true; } // TypeScript files never have a synthetic default (as they are always emitted with an __esModule marker) _unless_ they contain an export= statement if (!ts.isSourceFileJS(file)) { return hasExportAssignmentSymbol(moduleSymbol); } // JS files have a synthetic default if they do not contain ES2015+ module syntax (export = is not valid in js) _and_ do not have an __esModule marker return !file.externalModuleIndicator && !resolveExportByName(moduleSymbol, ts.escapeLeadingUnderscores("__esModule"), /*sourceNode*/ undefined, dontResolveAlias); } function getTargetOfImportClause(node, dontResolveAlias) { var moduleSymbol = resolveExternalModuleName(node, node.parent.moduleSpecifier); if (moduleSymbol) { var exportDefaultSymbol = void 0; if (ts.isShorthandAmbientModuleSymbol(moduleSymbol)) { exportDefaultSymbol = moduleSymbol; } else { exportDefaultSymbol = resolveExportByName(moduleSymbol, "default" /* Default */, node, dontResolveAlias); } var file = ts.find(moduleSymbol.declarations, ts.isSourceFile); var hasSyntheticDefault = canHaveSyntheticDefault(file, moduleSymbol, dontResolveAlias); if (!exportDefaultSymbol && !hasSyntheticDefault) { if (hasExportAssignmentSymbol(moduleSymbol)) { var compilerOptionName = moduleKind >= ts.ModuleKind.ES2015 ? "allowSyntheticDefaultImports" : "esModuleInterop"; var exportEqualsSymbol = moduleSymbol.exports.get("export=" /* ExportEquals */); var exportAssignment = exportEqualsSymbol.valueDeclaration; var err = error(node.name, ts.Diagnostics.Module_0_can_only_be_default_imported_using_the_1_flag, symbolToString(moduleSymbol), compilerOptionName); ts.addRelatedInfo(err, ts.createDiagnosticForNode(exportAssignment, ts.Diagnostics.This_module_is_declared_with_using_export_and_can_only_be_used_with_a_default_import_when_using_the_0_flag, compilerOptionName)); } else { reportNonDefaultExport(moduleSymbol, node); } } else if (hasSyntheticDefault) { // per emit behavior, a synthetic default overrides a "real" .default member if `__esModule` is not present var resolved = resolveExternalModuleSymbol(moduleSymbol, dontResolveAlias) || resolveSymbol(moduleSymbol, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(node, moduleSymbol, resolved, /*overwriteTypeOnly*/ false); return resolved; } markSymbolOfAliasDeclarationIfTypeOnly(node, exportDefaultSymbol, /*finalTarget*/ undefined, /*overwriteTypeOnly*/ false); return exportDefaultSymbol; } } function reportNonDefaultExport(moduleSymbol, node) { var _a, _b; if ((_a = moduleSymbol.exports) === null || _a === void 0 ? void 0 : _a.has(node.symbol.escapedName)) { error(node.name, ts.Diagnostics.Module_0_has_no_default_export_Did_you_mean_to_use_import_1_from_0_instead, symbolToString(moduleSymbol), symbolToString(node.symbol)); } else { var diagnostic = error(node.name, ts.Diagnostics.Module_0_has_no_default_export, symbolToString(moduleSymbol)); var exportStar = (_b = moduleSymbol.exports) === null || _b === void 0 ? void 0 : _b.get("__export" /* ExportStar */); if (exportStar) { var defaultExport = ts.find(exportStar.declarations, function (decl) { var _a, _b; return !!(ts.isExportDeclaration(decl) && decl.moduleSpecifier && ((_b = (_a = resolveExternalModuleName(decl, decl.moduleSpecifier)) === null || _a === void 0 ? void 0 : _a.exports) === null || _b === void 0 ? void 0 : _b.has("default" /* Default */))); }); if (defaultExport) { ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(defaultExport, ts.Diagnostics.export_Asterisk_does_not_re_export_a_default)); } } } } function getTargetOfNamespaceImport(node, dontResolveAlias) { var moduleSpecifier = node.parent.parent.moduleSpecifier; var immediate = resolveExternalModuleName(node, moduleSpecifier); var resolved = resolveESModuleSymbol(immediate, moduleSpecifier, dontResolveAlias, /*suppressUsageError*/ false); markSymbolOfAliasDeclarationIfTypeOnly(node, immediate, resolved, /*overwriteEmpty*/ false); return resolved; } function getTargetOfNamespaceExport(node, dontResolveAlias) { var moduleSpecifier = node.parent.moduleSpecifier; var immediate = moduleSpecifier && resolveExternalModuleName(node, moduleSpecifier); var resolved = moduleSpecifier && resolveESModuleSymbol(immediate, moduleSpecifier, dontResolveAlias, /*suppressUsageError*/ false); markSymbolOfAliasDeclarationIfTypeOnly(node, immediate, resolved, /*overwriteEmpty*/ false); return resolved; } // This function creates a synthetic symbol that combines the value side of one symbol with the // type/namespace side of another symbol. Consider this example: // // declare module graphics { // interface Point { // x: number; // y: number; // } // } // declare var graphics: { // Point: new (x: number, y: number) => graphics.Point; // } // declare module "graphics" { // export = graphics; // } // // An 'import { Point } from "graphics"' needs to create a symbol that combines the value side 'Point' // property with the type/namespace side interface 'Point'. function combineValueAndTypeSymbols(valueSymbol, typeSymbol) { if (valueSymbol === unknownSymbol && typeSymbol === unknownSymbol) { return unknownSymbol; } if (valueSymbol.flags & (788968 /* Type */ | 1920 /* Namespace */)) { return valueSymbol; } var result = createSymbol(valueSymbol.flags | typeSymbol.flags, valueSymbol.escapedName); result.declarations = ts.deduplicate(ts.concatenate(valueSymbol.declarations, typeSymbol.declarations), ts.equateValues); result.parent = valueSymbol.parent || typeSymbol.parent; if (valueSymbol.valueDeclaration) result.valueDeclaration = valueSymbol.valueDeclaration; if (typeSymbol.members) result.members = ts.cloneMap(typeSymbol.members); if (valueSymbol.exports) result.exports = ts.cloneMap(valueSymbol.exports); return result; } function getExportOfModule(symbol, specifier, dontResolveAlias) { var _a; if (symbol.flags & 1536 /* Module */) { var name = ((_a = specifier.propertyName) !== null && _a !== void 0 ? _a : specifier.name).escapedText; var exportSymbol = getExportsOfSymbol(symbol).get(name); var resolved = resolveSymbol(exportSymbol, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(specifier, exportSymbol, resolved, /*overwriteEmpty*/ false); return resolved; } } function getPropertyOfVariable(symbol, name) { if (symbol.flags & 3 /* Variable */) { var typeAnnotation = symbol.valueDeclaration.type; if (typeAnnotation) { return resolveSymbol(getPropertyOfType(getTypeFromTypeNode(typeAnnotation), name)); } } } function getExternalModuleMember(node, specifier, dontResolveAlias) { var _a; if (dontResolveAlias === void 0) { dontResolveAlias = false; } var moduleSymbol = resolveExternalModuleName(node, node.moduleSpecifier); // TODO: GH#18217 var name = specifier.propertyName || specifier.name; var suppressInteropError = name.escapedText === "default" /* Default */ && !!(compilerOptions.allowSyntheticDefaultImports || compilerOptions.esModuleInterop); var targetSymbol = resolveESModuleSymbol(moduleSymbol, node.moduleSpecifier, dontResolveAlias, suppressInteropError); if (targetSymbol) { if (name.escapedText) { if (ts.isShorthandAmbientModuleSymbol(moduleSymbol)) { return moduleSymbol; } var symbolFromVariable = void 0; // First check if module was specified with "export=". If so, get the member from the resolved type if (moduleSymbol && moduleSymbol.exports && moduleSymbol.exports.get("export=" /* ExportEquals */)) { symbolFromVariable = getPropertyOfType(getTypeOfSymbol(targetSymbol), name.escapedText); } else { symbolFromVariable = getPropertyOfVariable(targetSymbol, name.escapedText); } // if symbolFromVariable is export - get its final target symbolFromVariable = resolveSymbol(symbolFromVariable, dontResolveAlias); var symbolFromModule = getExportOfModule(targetSymbol, specifier, dontResolveAlias); if (symbolFromModule === undefined && name.escapedText === "default" /* Default */) { var file = ts.find(moduleSymbol.declarations, ts.isSourceFile); if (canHaveSyntheticDefault(file, moduleSymbol, dontResolveAlias)) { symbolFromModule = resolveExternalModuleSymbol(moduleSymbol, dontResolveAlias) || resolveSymbol(moduleSymbol, dontResolveAlias); } } var symbol = symbolFromModule && symbolFromVariable && symbolFromModule !== symbolFromVariable ? combineValueAndTypeSymbols(symbolFromVariable, symbolFromModule) : symbolFromModule || symbolFromVariable; if (!symbol) { var moduleName = getFullyQualifiedName(moduleSymbol, node); var declarationName = ts.declarationNameToString(name); var suggestion = getSuggestedSymbolForNonexistentModule(name, targetSymbol); if (suggestion !== undefined) { var suggestionName = symbolToString(suggestion); var diagnostic = error(name, ts.Diagnostics.Module_0_has_no_exported_member_1_Did_you_mean_2, moduleName, declarationName, suggestionName); if (suggestion.valueDeclaration) { ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(suggestion.valueDeclaration, ts.Diagnostics._0_is_declared_here, suggestionName)); } } else { if ((_a = moduleSymbol.exports) === null || _a === void 0 ? void 0 : _a.has("default" /* Default */)) { error(name, ts.Diagnostics.Module_0_has_no_exported_member_1_Did_you_mean_to_use_import_1_from_0_instead, moduleName, declarationName); } else { reportNonExportedMember(node, name, declarationName, moduleSymbol, moduleName); } } } return symbol; } } } function reportNonExportedMember(node, name, declarationName, moduleSymbol, moduleName) { var _a; var localSymbol = (_a = moduleSymbol.valueDeclaration.locals) === null || _a === void 0 ? void 0 : _a.get(name.escapedText); var exports = moduleSymbol.exports; if (localSymbol) { var exportedEqualsSymbol = exports === null || exports === void 0 ? void 0 : exports.get("export=" /* ExportEquals */); if (exportedEqualsSymbol) { getSymbolIfSameReference(exportedEqualsSymbol, localSymbol) ? reportInvalidImportEqualsExportMember(node, name, declarationName, moduleName) : error(name, ts.Diagnostics.Module_0_has_no_exported_member_1, moduleName, declarationName); } else { var exportedSymbol = exports ? ts.find(symbolsToArray(exports), function (symbol) { return !!getSymbolIfSameReference(symbol, localSymbol); }) : undefined; var diagnostic = exportedSymbol ? error(name, ts.Diagnostics.Module_0_declares_1_locally_but_it_is_exported_as_2, moduleName, declarationName, symbolToString(exportedSymbol)) : error(name, ts.Diagnostics.Module_0_declares_1_locally_but_it_is_not_exported, moduleName, declarationName); ts.addRelatedInfo.apply(void 0, __spreadArrays([diagnostic], ts.map(localSymbol.declarations, function (decl, index) { return ts.createDiagnosticForNode(decl, index === 0 ? ts.Diagnostics._0_is_declared_here : ts.Diagnostics.and_here, declarationName); }))); } } else { error(name, ts.Diagnostics.Module_0_has_no_exported_member_1, moduleName, declarationName); } } function reportInvalidImportEqualsExportMember(node, name, declarationName, moduleName) { if (moduleKind >= ts.ModuleKind.ES2015) { var message = compilerOptions.esModuleInterop ? ts.Diagnostics._0_can_only_be_imported_by_using_a_default_import : ts.Diagnostics._0_can_only_be_imported_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import; error(name, message, declarationName); } else { if (ts.isInJSFile(node)) { var message = compilerOptions.esModuleInterop ? ts.Diagnostics._0_can_only_be_imported_by_using_a_require_call_or_by_using_a_default_import : ts.Diagnostics._0_can_only_be_imported_by_using_a_require_call_or_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import; error(name, message, declarationName); } else { var message = compilerOptions.esModuleInterop ? ts.Diagnostics._0_can_only_be_imported_by_using_import_1_require_2_or_a_default_import : ts.Diagnostics._0_can_only_be_imported_by_using_import_1_require_2_or_by_turning_on_the_esModuleInterop_flag_and_using_a_default_import; error(name, message, declarationName, declarationName, moduleName); } } } function getTargetOfImportSpecifier(node, dontResolveAlias) { var resolved = getExternalModuleMember(node.parent.parent.parent, node, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(node, /*immediateTarget*/ undefined, resolved, /*overwriteEmpty*/ false); return resolved; } function getTargetOfNamespaceExportDeclaration(node, dontResolveAlias) { var resolved = resolveExternalModuleSymbol(node.parent.symbol, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(node, /*immediateTarget*/ undefined, resolved, /*overwriteEmpty*/ false); return resolved; } function getTargetOfExportSpecifier(node, meaning, dontResolveAlias) { var resolved = node.parent.parent.moduleSpecifier ? getExternalModuleMember(node.parent.parent, node, dontResolveAlias) : resolveEntityName(node.propertyName || node.name, meaning, /*ignoreErrors*/ false, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(node, /*immediateTarget*/ undefined, resolved, /*overwriteEmpty*/ false); return resolved; } function getTargetOfExportAssignment(node, dontResolveAlias) { var expression = ts.isExportAssignment(node) ? node.expression : node.right; var resolved = getTargetOfAliasLikeExpression(expression, dontResolveAlias); markSymbolOfAliasDeclarationIfTypeOnly(node, /*immediateTarget*/ undefined, resolved, /*overwriteEmpty*/ false); return resolved; } function getTargetOfAliasLikeExpression(expression, dontResolveAlias) { if (ts.isClassExpression(expression)) { return checkExpressionCached(expression).symbol; } if (!ts.isEntityName(expression) && !ts.isEntityNameExpression(expression)) { return undefined; } var aliasLike = resolveEntityName(expression, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */, /*ignoreErrors*/ true, dontResolveAlias); if (aliasLike) { return aliasLike; } checkExpressionCached(expression); return getNodeLinks(expression).resolvedSymbol; } function getTargetOfPropertyAssignment(node, dontRecursivelyResolve) { var expression = node.initializer; return getTargetOfAliasLikeExpression(expression, dontRecursivelyResolve); } function getTargetOfPropertyAccessExpression(node, dontRecursivelyResolve) { if (!(ts.isBinaryExpression(node.parent) && node.parent.left === node && node.parent.operatorToken.kind === 62 /* EqualsToken */)) { return undefined; } return getTargetOfAliasLikeExpression(node.parent.right, dontRecursivelyResolve); } function getTargetOfAliasDeclaration(node, dontRecursivelyResolve) { if (dontRecursivelyResolve === void 0) { dontRecursivelyResolve = false; } switch (node.kind) { case 253 /* ImportEqualsDeclaration */: return getTargetOfImportEqualsDeclaration(node, dontRecursivelyResolve); case 255 /* ImportClause */: return getTargetOfImportClause(node, dontRecursivelyResolve); case 256 /* NamespaceImport */: return getTargetOfNamespaceImport(node, dontRecursivelyResolve); case 262 /* NamespaceExport */: return getTargetOfNamespaceExport(node, dontRecursivelyResolve); case 258 /* ImportSpecifier */: return getTargetOfImportSpecifier(node, dontRecursivelyResolve); case 263 /* ExportSpecifier */: return getTargetOfExportSpecifier(node, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */, dontRecursivelyResolve); case 259 /* ExportAssignment */: case 209 /* BinaryExpression */: return getTargetOfExportAssignment(node, dontRecursivelyResolve); case 252 /* NamespaceExportDeclaration */: return getTargetOfNamespaceExportDeclaration(node, dontRecursivelyResolve); case 282 /* ShorthandPropertyAssignment */: return resolveEntityName(node.name, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */, /*ignoreErrors*/ true, dontRecursivelyResolve); case 281 /* PropertyAssignment */: return getTargetOfPropertyAssignment(node, dontRecursivelyResolve); case 194 /* PropertyAccessExpression */: return getTargetOfPropertyAccessExpression(node, dontRecursivelyResolve); default: return ts.Debug.fail(); } } /** * Indicates that a symbol is an alias that does not merge with a local declaration. * OR Is a JSContainer which may merge an alias with a local declaration */ function isNonLocalAlias(symbol, excludes) { if (excludes === void 0) { excludes = 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */; } if (!symbol) return false; return (symbol.flags & (2097152 /* Alias */ | excludes)) === 2097152 /* Alias */ || !!(symbol.flags & 2097152 /* Alias */ && symbol.flags & 67108864 /* Assignment */); } function resolveSymbol(symbol, dontResolveAlias) { return !dontResolveAlias && isNonLocalAlias(symbol) ? resolveAlias(symbol) : symbol; } function resolveAlias(symbol) { ts.Debug.assert((symbol.flags & 2097152 /* Alias */) !== 0, "Should only get Alias here."); var links = getSymbolLinks(symbol); if (!links.target) { links.target = resolvingSymbol; var node = getDeclarationOfAliasSymbol(symbol); if (!node) return ts.Debug.fail(); var target = getTargetOfAliasDeclaration(node); if (links.target === resolvingSymbol) { links.target = target || unknownSymbol; } else { error(node, ts.Diagnostics.Circular_definition_of_import_alias_0, symbolToString(symbol)); } } else if (links.target === resolvingSymbol) { links.target = unknownSymbol; } return links.target; } function tryResolveAlias(symbol) { var links = getSymbolLinks(symbol); if (links.target !== resolvingSymbol) { return resolveAlias(symbol); } return undefined; } /** * Marks a symbol as type-only if its declaration is syntactically type-only. * If it is not itself marked type-only, but resolves to a type-only alias * somewhere in its resolution chain, save a reference to the type-only alias declaration * so the alias _not_ marked type-only can be identified as _transitively_ type-only. * * This function is called on each alias declaration that could be type-only or resolve to * another type-only alias during `resolveAlias`, so that later, when an alias is used in a * JS-emitting expression, we can quickly determine if that symbol is effectively type-only * and issue an error if so. * * @param aliasDeclaration The alias declaration not marked as type-only * has already been marked as not resolving to a type-only alias. Used when recursively resolving qualified * names of import aliases, e.g. `import C = a.b.C`. If namespace `a` is not found to be type-only, the * import declaration will initially be marked as not resolving to a type-only symbol. But, namespace `b` * must still be checked for a type-only marker, overwriting the previous negative result if found. * @param immediateTarget The symbol to which the alias declaration immediately resolves * @param finalTarget The symbol to which the alias declaration ultimately resolves * @param overwriteEmpty Checks `resolvesToSymbol` for type-only declarations even if `aliasDeclaration` */ function markSymbolOfAliasDeclarationIfTypeOnly(aliasDeclaration, immediateTarget, finalTarget, overwriteEmpty) { if (!aliasDeclaration) return false; // If the declaration itself is type-only, mark it and return. // No need to check what it resolves to. var sourceSymbol = getSymbolOfNode(aliasDeclaration); if (ts.isTypeOnlyImportOrExportDeclaration(aliasDeclaration)) { var links_1 = getSymbolLinks(sourceSymbol); links_1.typeOnlyDeclaration = aliasDeclaration; return true; } var links = getSymbolLinks(sourceSymbol); return markSymbolOfAliasDeclarationIfTypeOnlyWorker(links, immediateTarget, overwriteEmpty) || markSymbolOfAliasDeclarationIfTypeOnlyWorker(links, finalTarget, overwriteEmpty); } function markSymbolOfAliasDeclarationIfTypeOnlyWorker(aliasDeclarationLinks, target, overwriteEmpty) { var _a, _b, _c; if (target && (aliasDeclarationLinks.typeOnlyDeclaration === undefined || overwriteEmpty && aliasDeclarationLinks.typeOnlyDeclaration === false)) { var exportSymbol = (_b = (_a = target.exports) === null || _a === void 0 ? void 0 : _a.get("export=" /* ExportEquals */)) !== null && _b !== void 0 ? _b : target; var typeOnly = exportSymbol.declarations && ts.find(exportSymbol.declarations, ts.isTypeOnlyImportOrExportDeclaration); aliasDeclarationLinks.typeOnlyDeclaration = (_c = typeOnly !== null && typeOnly !== void 0 ? typeOnly : getSymbolLinks(exportSymbol).typeOnlyDeclaration) !== null && _c !== void 0 ? _c : false; } return !!aliasDeclarationLinks.typeOnlyDeclaration; } /** Indicates that a symbol directly or indirectly resolves to a type-only import or export. */ function getTypeOnlyAliasDeclaration(symbol) { if (!(symbol.flags & 2097152 /* Alias */)) { return undefined; } var links = getSymbolLinks(symbol); return links.typeOnlyDeclaration || undefined; } function markExportAsReferenced(node) { var symbol = getSymbolOfNode(node); var target = resolveAlias(symbol); if (target) { var markAlias = target === unknownSymbol || ((target.flags & 111551 /* Value */) && !isConstEnumOrConstEnumOnlyModule(target) && !getTypeOnlyAliasDeclaration(symbol)); if (markAlias) { markAliasSymbolAsReferenced(symbol); } } } // When an alias symbol is referenced, we need to mark the entity it references as referenced and in turn repeat that until // we reach a non-alias or an exported entity (which is always considered referenced). We do this by checking the target of // the alias as an expression (which recursively takes us back here if the target references another alias). function markAliasSymbolAsReferenced(symbol) { var links = getSymbolLinks(symbol); if (!links.referenced) { links.referenced = true; var node = getDeclarationOfAliasSymbol(symbol); if (!node) return ts.Debug.fail(); // We defer checking of the reference of an `import =` until the import itself is referenced, // This way a chain of imports can be elided if ultimately the final input is only used in a type // position. if (ts.isInternalModuleImportEqualsDeclaration(node)) { var target = resolveSymbol(symbol); if (target === unknownSymbol || target.flags & 111551 /* Value */) { // import foo = checkExpressionCached(node.moduleReference); } } } } // Aliases that resolve to const enums are not marked as referenced because they are not emitted, // but their usage in value positions must be tracked to determine if the import can be type-only. function markConstEnumAliasAsReferenced(symbol) { var links = getSymbolLinks(symbol); if (!links.constEnumReferenced) { links.constEnumReferenced = true; } } // This function is only for imports with entity names function getSymbolOfPartOfRightHandSideOfImportEquals(entityName, dontResolveAlias) { // There are three things we might try to look for. In the following examples, // the search term is enclosed in |...|: // // import a = |b|; // Namespace // import a = |b.c|; // Value, type, namespace // import a = |b.c|.d; // Namespace if (entityName.kind === 75 /* Identifier */ && ts.isRightSideOfQualifiedNameOrPropertyAccess(entityName)) { entityName = entityName.parent; } // Check for case 1 and 3 in the above example if (entityName.kind === 75 /* Identifier */ || entityName.parent.kind === 153 /* QualifiedName */) { return resolveEntityName(entityName, 1920 /* Namespace */, /*ignoreErrors*/ false, dontResolveAlias); } else { // Case 2 in above example // entityName.kind could be a QualifiedName or a Missing identifier ts.Debug.assert(entityName.parent.kind === 253 /* ImportEqualsDeclaration */); return resolveEntityName(entityName, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */, /*ignoreErrors*/ false, dontResolveAlias); } } function getFullyQualifiedName(symbol, containingLocation) { return symbol.parent ? getFullyQualifiedName(symbol.parent, containingLocation) + "." + symbolToString(symbol) : symbolToString(symbol, containingLocation, /*meaning*/ undefined, 16 /* DoNotIncludeSymbolChain */ | 4 /* AllowAnyNodeKind */); } /** * Resolves a qualified name and any involved aliases. */ function resolveEntityName(name, meaning, ignoreErrors, dontResolveAlias, location) { if (ts.nodeIsMissing(name)) { return undefined; } var namespaceMeaning = 1920 /* Namespace */ | (ts.isInJSFile(name) ? meaning & 111551 /* Value */ : 0); var symbol; if (name.kind === 75 /* Identifier */) { var message = meaning === namespaceMeaning || ts.nodeIsSynthesized(name) ? ts.Diagnostics.Cannot_find_namespace_0 : getCannotFindNameDiagnosticForName(ts.getFirstIdentifier(name)); var symbolFromJSPrototype = ts.isInJSFile(name) && !ts.nodeIsSynthesized(name) ? resolveEntityNameFromAssignmentDeclaration(name, meaning) : undefined; symbol = getMergedSymbol(resolveName(location || name, name.escapedText, meaning, ignoreErrors || symbolFromJSPrototype ? undefined : message, name, /*isUse*/ true)); if (!symbol) { return getMergedSymbol(symbolFromJSPrototype); } } else if (name.kind === 153 /* QualifiedName */ || name.kind === 194 /* PropertyAccessExpression */) { var left = name.kind === 153 /* QualifiedName */ ? name.left : name.expression; var right = name.kind === 153 /* QualifiedName */ ? name.right : name.name; var namespace = resolveEntityName(left, namespaceMeaning, ignoreErrors, /*dontResolveAlias*/ false, location); if (!namespace || ts.nodeIsMissing(right)) { return undefined; } else if (namespace === unknownSymbol) { return namespace; } if (ts.isInJSFile(name)) { if (namespace.valueDeclaration && ts.isVariableDeclaration(namespace.valueDeclaration) && namespace.valueDeclaration.initializer && isCommonJsRequire(namespace.valueDeclaration.initializer)) { var moduleName = namespace.valueDeclaration.initializer.arguments[0]; var moduleSym = resolveExternalModuleName(moduleName, moduleName); if (moduleSym) { var resolvedModuleSymbol = resolveExternalModuleSymbol(moduleSym); if (resolvedModuleSymbol) { namespace = resolvedModuleSymbol; } } } } symbol = getMergedSymbol(getSymbol(getExportsOfSymbol(namespace), right.escapedText, meaning)); if (!symbol) { if (!ignoreErrors) { error(right, ts.Diagnostics.Namespace_0_has_no_exported_member_1, getFullyQualifiedName(namespace), ts.declarationNameToString(right)); } return undefined; } } else { throw ts.Debug.assertNever(name, "Unknown entity name kind."); } ts.Debug.assert((ts.getCheckFlags(symbol) & 1 /* Instantiated */) === 0, "Should never get an instantiated symbol here."); if (!ts.nodeIsSynthesized(name) && ts.isEntityName(name) && (symbol.flags & 2097152 /* Alias */ || name.parent.kind === 259 /* ExportAssignment */)) { markSymbolOfAliasDeclarationIfTypeOnly(ts.getAliasDeclarationFromName(name), symbol, /*finalTarget*/ undefined, /*overwriteEmpty*/ true); } return (symbol.flags & meaning) || dontResolveAlias ? symbol : resolveAlias(symbol); } /** * 1. For prototype-property methods like `A.prototype.m = function () ...`, try to resolve names in the scope of `A` too. * Note that prototype-property assignment to locations outside the current file (eg globals) doesn't work, so * name resolution won't work either. * 2. For property assignments like `{ x: function f () { } }`, try to resolve names in the scope of `f` too. */ function resolveEntityNameFromAssignmentDeclaration(name, meaning) { if (isJSDocTypeReference(name.parent)) { var secondaryLocation = getAssignmentDeclarationLocation(name.parent); if (secondaryLocation) { return resolveName(secondaryLocation, name.escapedText, meaning, /*nameNotFoundMessage*/ undefined, name, /*isUse*/ true); } } } function getAssignmentDeclarationLocation(node) { var typeAlias = ts.findAncestor(node, function (node) { return !(ts.isJSDocNode(node) || node.flags & 4194304 /* JSDoc */) ? "quit" : ts.isJSDocTypeAlias(node); }); if (typeAlias) { return; } var host = ts.getJSDocHost(node); if (ts.isExpressionStatement(host) && ts.isBinaryExpression(host.expression) && ts.getAssignmentDeclarationKind(host.expression) === 3 /* PrototypeProperty */) { // X.prototype.m = /** @param {K} p */ function () { } <-- look for K on X's declaration var symbol = getSymbolOfNode(host.expression.left); if (symbol) { return getDeclarationOfJSPrototypeContainer(symbol); } } if ((ts.isObjectLiteralMethod(host) || ts.isPropertyAssignment(host)) && ts.isBinaryExpression(host.parent.parent) && ts.getAssignmentDeclarationKind(host.parent.parent) === 6 /* Prototype */) { // X.prototype = { /** @param {K} p */m() { } } <-- look for K on X's declaration var symbol = getSymbolOfNode(host.parent.parent.left); if (symbol) { return getDeclarationOfJSPrototypeContainer(symbol); } } var sig = ts.getEffectiveJSDocHost(node); if (sig && ts.isFunctionLike(sig)) { var symbol = getSymbolOfNode(sig); return symbol && symbol.valueDeclaration; } } function getDeclarationOfJSPrototypeContainer(symbol) { var decl = symbol.parent.valueDeclaration; if (!decl) { return undefined; } var initializer = ts.isAssignmentDeclaration(decl) ? ts.getAssignedExpandoInitializer(decl) : ts.hasOnlyExpressionInitializer(decl) ? ts.getDeclaredExpandoInitializer(decl) : undefined; return initializer || decl; } /** * Get the real symbol of a declaration with an expando initializer. * * Normally, declarations have an associated symbol, but when a declaration has an expando * initializer, the expando's symbol is the one that has all the members merged into it. */ function getExpandoSymbol(symbol) { var decl = symbol.valueDeclaration; if (!decl || !ts.isInJSFile(decl) || symbol.flags & 524288 /* TypeAlias */ || ts.getExpandoInitializer(decl, /*isPrototypeAssignment*/ false)) { return undefined; } var init = ts.isVariableDeclaration(decl) ? ts.getDeclaredExpandoInitializer(decl) : ts.getAssignedExpandoInitializer(decl); if (init) { var initSymbol = getSymbolOfNode(init); if (initSymbol) { return mergeJSSymbols(initSymbol, symbol); } } } function resolveExternalModuleName(location, moduleReferenceExpression, ignoreErrors) { return resolveExternalModuleNameWorker(location, moduleReferenceExpression, ignoreErrors ? undefined : ts.Diagnostics.Cannot_find_module_0_or_its_corresponding_type_declarations); } function resolveExternalModuleNameWorker(location, moduleReferenceExpression, moduleNotFoundError, isForAugmentation) { if (isForAugmentation === void 0) { isForAugmentation = false; } return ts.isStringLiteralLike(moduleReferenceExpression) ? resolveExternalModule(location, moduleReferenceExpression.text, moduleNotFoundError, moduleReferenceExpression, isForAugmentation) : undefined; } function resolveExternalModule(location, moduleReference, moduleNotFoundError, errorNode, isForAugmentation) { if (isForAugmentation === void 0) { isForAugmentation = false; } if (ts.startsWith(moduleReference, "@types/")) { var diag = ts.Diagnostics.Cannot_import_type_declaration_files_Consider_importing_0_instead_of_1; var withoutAtTypePrefix = ts.removePrefix(moduleReference, "@types/"); error(errorNode, diag, withoutAtTypePrefix, moduleReference); } var ambientModule = tryFindAmbientModule(moduleReference, /*withAugmentations*/ true); if (ambientModule) { return ambientModule; } var currentSourceFile = ts.getSourceFileOfNode(location); var resolvedModule = ts.getResolvedModule(currentSourceFile, moduleReference); // TODO: GH#18217 var resolutionDiagnostic = resolvedModule && ts.getResolutionDiagnostic(compilerOptions, resolvedModule); var sourceFile = resolvedModule && !resolutionDiagnostic && host.getSourceFile(resolvedModule.resolvedFileName); if (sourceFile) { if (sourceFile.symbol) { if (resolvedModule.isExternalLibraryImport && !ts.resolutionExtensionIsTSOrJson(resolvedModule.extension)) { errorOnImplicitAnyModule(/*isError*/ false, errorNode, resolvedModule, moduleReference); } // merged symbol is module declaration symbol combined with all augmentations return getMergedSymbol(sourceFile.symbol); } if (moduleNotFoundError) { // report errors only if it was requested error(errorNode, ts.Diagnostics.File_0_is_not_a_module, sourceFile.fileName); } return undefined; } if (patternAmbientModules) { var pattern = ts.findBestPatternMatch(patternAmbientModules, function (_) { return _.pattern; }, moduleReference); if (pattern) { // If the module reference matched a pattern ambient module ('*.foo') but there's also a // module augmentation by the specific name requested ('a.foo'), we store the merged symbol // by the augmentation name ('a.foo'), because asking for *.foo should not give you exports // from a.foo. var augmentation = patternAmbientModuleAugmentations && patternAmbientModuleAugmentations.get(moduleReference); if (augmentation) { return getMergedSymbol(augmentation); } return getMergedSymbol(pattern.symbol); } } // May be an untyped module. If so, ignore resolutionDiagnostic. if (resolvedModule && !ts.resolutionExtensionIsTSOrJson(resolvedModule.extension) && resolutionDiagnostic === undefined || resolutionDiagnostic === ts.Diagnostics.Could_not_find_a_declaration_file_for_module_0_1_implicitly_has_an_any_type) { if (isForAugmentation) { var diag = ts.Diagnostics.Invalid_module_name_in_augmentation_Module_0_resolves_to_an_untyped_module_at_1_which_cannot_be_augmented; error(errorNode, diag, moduleReference, resolvedModule.resolvedFileName); } else { errorOnImplicitAnyModule(/*isError*/ noImplicitAny && !!moduleNotFoundError, errorNode, resolvedModule, moduleReference); } // Failed imports and untyped modules are both treated in an untyped manner; only difference is whether we give a diagnostic first. return undefined; } if (moduleNotFoundError) { // See if this was possibly a projectReference redirect if (resolvedModule) { var redirect = host.getProjectReferenceRedirect(resolvedModule.resolvedFileName); if (redirect) { error(errorNode, ts.Diagnostics.Output_file_0_has_not_been_built_from_source_file_1, redirect, resolvedModule.resolvedFileName); return undefined; } } if (resolutionDiagnostic) { error(errorNode, resolutionDiagnostic, moduleReference, resolvedModule.resolvedFileName); } else { var tsExtension = ts.tryExtractTSExtension(moduleReference); if (tsExtension) { var diag = ts.Diagnostics.An_import_path_cannot_end_with_a_0_extension_Consider_importing_1_instead; error(errorNode, diag, tsExtension, ts.removeExtension(moduleReference, tsExtension)); } else if (!compilerOptions.resolveJsonModule && ts.fileExtensionIs(moduleReference, ".json" /* Json */) && ts.getEmitModuleResolutionKind(compilerOptions) === ts.ModuleResolutionKind.NodeJs && ts.hasJsonModuleEmitEnabled(compilerOptions)) { error(errorNode, ts.Diagnostics.Cannot_find_module_0_Consider_using_resolveJsonModule_to_import_module_with_json_extension, moduleReference); } else { error(errorNode, moduleNotFoundError, moduleReference); } } } return undefined; } function errorOnImplicitAnyModule(isError, errorNode, _a, moduleReference) { var packageId = _a.packageId, resolvedFileName = _a.resolvedFileName; var errorInfo = !ts.isExternalModuleNameRelative(moduleReference) && packageId ? typesPackageExists(packageId.name) ? ts.chainDiagnosticMessages( /*details*/ undefined, ts.Diagnostics.If_the_0_package_actually_exposes_this_module_consider_sending_a_pull_request_to_amend_https_Colon_Slash_Slashgithub_com_SlashDefinitelyTyped_SlashDefinitelyTyped_Slashtree_Slashmaster_Slashtypes_Slash_1, packageId.name, ts.mangleScopedPackageName(packageId.name)) : ts.chainDiagnosticMessages( /*details*/ undefined, ts.Diagnostics.Try_npm_install_types_Slash_1_if_it_exists_or_add_a_new_declaration_d_ts_file_containing_declare_module_0, moduleReference, ts.mangleScopedPackageName(packageId.name)) : undefined; errorOrSuggestion(isError, errorNode, ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Could_not_find_a_declaration_file_for_module_0_1_implicitly_has_an_any_type, moduleReference, resolvedFileName)); } function typesPackageExists(packageName) { return getPackagesSet().has(ts.getTypesPackageName(packageName)); } function resolveExternalModuleSymbol(moduleSymbol, dontResolveAlias) { if (moduleSymbol === null || moduleSymbol === void 0 ? void 0 : moduleSymbol.exports) { var exportEquals = resolveSymbol(moduleSymbol.exports.get("export=" /* ExportEquals */), dontResolveAlias); var exported = getCommonJsExportEquals(getMergedSymbol(exportEquals), getMergedSymbol(moduleSymbol)); return getMergedSymbol(exported) || moduleSymbol; } return undefined; } function getCommonJsExportEquals(exported, moduleSymbol) { if (!exported || exported === unknownSymbol || exported === moduleSymbol || moduleSymbol.exports.size === 1 || exported.flags & 2097152 /* Alias */) { return exported; } var links = getSymbolLinks(exported); if (links.cjsExportMerged) { return links.cjsExportMerged; } var merged = exported.flags & 33554432 /* Transient */ ? exported : cloneSymbol(exported); merged.flags = merged.flags | 512 /* ValueModule */; if (merged.exports === undefined) { merged.exports = ts.createSymbolTable(); } moduleSymbol.exports.forEach(function (s, name) { if (name === "export=" /* ExportEquals */) return; merged.exports.set(name, merged.exports.has(name) ? mergeSymbol(merged.exports.get(name), s) : s); }); getSymbolLinks(merged).cjsExportMerged = merged; return links.cjsExportMerged = merged; } // An external module with an 'export =' declaration may be referenced as an ES6 module provided the 'export =' // references a symbol that is at least declared as a module or a variable. The target of the 'export =' may // combine other declarations with the module or variable (e.g. a class/module, function/module, interface/variable). function resolveESModuleSymbol(moduleSymbol, referencingLocation, dontResolveAlias, suppressInteropError) { var symbol = resolveExternalModuleSymbol(moduleSymbol, dontResolveAlias); if (!dontResolveAlias && symbol) { if (!suppressInteropError && !(symbol.flags & (1536 /* Module */ | 3 /* Variable */)) && !ts.getDeclarationOfKind(symbol, 290 /* SourceFile */)) { var compilerOptionName = moduleKind >= ts.ModuleKind.ES2015 ? "allowSyntheticDefaultImports" : "esModuleInterop"; error(referencingLocation, ts.Diagnostics.This_module_can_only_be_referenced_with_ECMAScript_imports_Slashexports_by_turning_on_the_0_flag_and_referencing_its_default_export, compilerOptionName); return symbol; } if (compilerOptions.esModuleInterop) { var referenceParent = referencingLocation.parent; if ((ts.isImportDeclaration(referenceParent) && ts.getNamespaceDeclarationNode(referenceParent)) || ts.isImportCall(referenceParent)) { var type = getTypeOfSymbol(symbol); var sigs = getSignaturesOfStructuredType(type, 0 /* Call */); if (!sigs || !sigs.length) { sigs = getSignaturesOfStructuredType(type, 1 /* Construct */); } if (sigs && sigs.length) { var moduleType = getTypeWithSyntheticDefaultImportType(type, symbol, moduleSymbol); // Create a new symbol which has the module's type less the call and construct signatures var result = createSymbol(symbol.flags, symbol.escapedName); result.declarations = symbol.declarations ? symbol.declarations.slice() : []; result.parent = symbol.parent; result.target = symbol; result.originatingImport = referenceParent; if (symbol.valueDeclaration) result.valueDeclaration = symbol.valueDeclaration; if (symbol.constEnumOnlyModule) result.constEnumOnlyModule = true; if (symbol.members) result.members = ts.cloneMap(symbol.members); if (symbol.exports) result.exports = ts.cloneMap(symbol.exports); var resolvedModuleType = resolveStructuredTypeMembers(moduleType); // Should already be resolved from the signature checks above result.type = createAnonymousType(result, resolvedModuleType.members, ts.emptyArray, ts.emptyArray, resolvedModuleType.stringIndexInfo, resolvedModuleType.numberIndexInfo); return result; } } } } return symbol; } function hasExportAssignmentSymbol(moduleSymbol) { return moduleSymbol.exports.get("export=" /* ExportEquals */) !== undefined; } function getExportsOfModuleAsArray(moduleSymbol) { return symbolsToArray(getExportsOfModule(moduleSymbol)); } function getExportsAndPropertiesOfModule(moduleSymbol) { var exports = getExportsOfModuleAsArray(moduleSymbol); var exportEquals = resolveExternalModuleSymbol(moduleSymbol); if (exportEquals !== moduleSymbol) { ts.addRange(exports, getPropertiesOfType(getTypeOfSymbol(exportEquals))); } return exports; } function tryGetMemberInModuleExports(memberName, moduleSymbol) { var symbolTable = getExportsOfModule(moduleSymbol); if (symbolTable) { return symbolTable.get(memberName); } } function tryGetMemberInModuleExportsAndProperties(memberName, moduleSymbol) { var symbol = tryGetMemberInModuleExports(memberName, moduleSymbol); if (symbol) { return symbol; } var exportEquals = resolveExternalModuleSymbol(moduleSymbol); if (exportEquals === moduleSymbol) { return undefined; } var type = getTypeOfSymbol(exportEquals); return type.flags & 131068 /* Primitive */ || ts.getObjectFlags(type) & 1 /* Class */ || isArrayOrTupleLikeType(type) ? undefined : getPropertyOfType(type, memberName); } function getExportsOfSymbol(symbol) { return symbol.flags & 6256 /* LateBindingContainer */ ? getResolvedMembersOrExportsOfSymbol(symbol, "resolvedExports" /* resolvedExports */) : symbol.flags & 1536 /* Module */ ? getExportsOfModule(symbol) : symbol.exports || emptySymbols; } function getExportsOfModule(moduleSymbol) { var links = getSymbolLinks(moduleSymbol); return links.resolvedExports || (links.resolvedExports = getExportsOfModuleWorker(moduleSymbol)); } /** * Extends one symbol table with another while collecting information on name collisions for error message generation into the `lookupTable` argument * Not passing `lookupTable` and `exportNode` disables this collection, and just extends the tables */ function extendExportSymbols(target, source, lookupTable, exportNode) { if (!source) return; source.forEach(function (sourceSymbol, id) { if (id === "default" /* Default */) return; var targetSymbol = target.get(id); if (!targetSymbol) { target.set(id, sourceSymbol); if (lookupTable && exportNode) { lookupTable.set(id, { specifierText: ts.getTextOfNode(exportNode.moduleSpecifier) }); } } else if (lookupTable && exportNode && targetSymbol && resolveSymbol(targetSymbol) !== resolveSymbol(sourceSymbol)) { var collisionTracker = lookupTable.get(id); if (!collisionTracker.exportsWithDuplicate) { collisionTracker.exportsWithDuplicate = [exportNode]; } else { collisionTracker.exportsWithDuplicate.push(exportNode); } } }); } function getExportsOfModuleWorker(moduleSymbol) { var visitedSymbols = []; // A module defined by an 'export=' consists of one export that needs to be resolved moduleSymbol = resolveExternalModuleSymbol(moduleSymbol); return visit(moduleSymbol) || emptySymbols; // The ES6 spec permits export * declarations in a module to circularly reference the module itself. For example, // module 'a' can 'export * from "b"' and 'b' can 'export * from "a"' without error. function visit(symbol) { if (!(symbol && symbol.exports && ts.pushIfUnique(visitedSymbols, symbol))) { return; } var symbols = ts.cloneMap(symbol.exports); // All export * declarations are collected in an __export symbol by the binder var exportStars = symbol.exports.get("__export" /* ExportStar */); if (exportStars) { var nestedSymbols = ts.createSymbolTable(); var lookupTable_1 = ts.createMap(); for (var _i = 0, _a = exportStars.declarations; _i < _a.length; _i++) { var node = _a[_i]; var resolvedModule = resolveExternalModuleName(node, node.moduleSpecifier); var exportedSymbols = visit(resolvedModule); extendExportSymbols(nestedSymbols, exportedSymbols, lookupTable_1, node); } lookupTable_1.forEach(function (_a, id) { var exportsWithDuplicate = _a.exportsWithDuplicate; // It's not an error if the file with multiple `export *`s with duplicate names exports a member with that name itself if (id === "export=" || !(exportsWithDuplicate && exportsWithDuplicate.length) || symbols.has(id)) { return; } for (var _i = 0, exportsWithDuplicate_1 = exportsWithDuplicate; _i < exportsWithDuplicate_1.length; _i++) { var node = exportsWithDuplicate_1[_i]; diagnostics.add(ts.createDiagnosticForNode(node, ts.Diagnostics.Module_0_has_already_exported_a_member_named_1_Consider_explicitly_re_exporting_to_resolve_the_ambiguity, lookupTable_1.get(id).specifierText, ts.unescapeLeadingUnderscores(id))); } }); extendExportSymbols(symbols, nestedSymbols); } return symbols; } } function getMergedSymbol(symbol) { var merged; return symbol && symbol.mergeId && (merged = mergedSymbols[symbol.mergeId]) ? merged : symbol; } function getSymbolOfNode(node) { return getMergedSymbol(node.symbol && getLateBoundSymbol(node.symbol)); } function getParentOfSymbol(symbol) { return getMergedSymbol(symbol.parent && getLateBoundSymbol(symbol.parent)); } function getAlternativeContainingModules(symbol, enclosingDeclaration) { var containingFile = ts.getSourceFileOfNode(enclosingDeclaration); var id = "" + getNodeId(containingFile); var links = getSymbolLinks(symbol); var results; if (links.extendedContainersByFile && (results = links.extendedContainersByFile.get(id))) { return results; } if (containingFile && containingFile.imports) { // Try to make an import using an import already in the enclosing file, if possible for (var _i = 0, _a = containingFile.imports; _i < _a.length; _i++) { var importRef = _a[_i]; if (ts.nodeIsSynthesized(importRef)) continue; // Synthetic names can't be resolved by `resolveExternalModuleName` - they'll cause a debug assert if they error var resolvedModule = resolveExternalModuleName(enclosingDeclaration, importRef, /*ignoreErrors*/ true); if (!resolvedModule) continue; var ref = getAliasForSymbolInContainer(resolvedModule, symbol); if (!ref) continue; results = ts.append(results, resolvedModule); } if (ts.length(results)) { (links.extendedContainersByFile || (links.extendedContainersByFile = ts.createMap())).set(id, results); return results; } } if (links.extendedContainers) { return links.extendedContainers; } // No results from files already being imported by this file - expand search (expensive, but not location-specific, so cached) var otherFiles = host.getSourceFiles(); for (var _b = 0, otherFiles_1 = otherFiles; _b < otherFiles_1.length; _b++) { var file = otherFiles_1[_b]; if (!ts.isExternalModule(file)) continue; var sym = getSymbolOfNode(file); var ref = getAliasForSymbolInContainer(sym, symbol); if (!ref) continue; results = ts.append(results, sym); } return links.extendedContainers = results || ts.emptyArray; } /** * Attempts to find the symbol corresponding to the container a symbol is in - usually this * is just its' `.parent`, but for locals, this value is `undefined` */ function getContainersOfSymbol(symbol, enclosingDeclaration) { var container = getParentOfSymbol(symbol); // Type parameters end up in the `members` lists but are not externally visible if (container && !(symbol.flags & 262144 /* TypeParameter */)) { var additionalContainers = ts.mapDefined(container.declarations, fileSymbolIfFileSymbolExportEqualsContainer); var reexportContainers = enclosingDeclaration && getAlternativeContainingModules(symbol, enclosingDeclaration); if (enclosingDeclaration && getAccessibleSymbolChain(container, enclosingDeclaration, 1920 /* Namespace */, /*externalOnly*/ false)) { return ts.concatenate(ts.concatenate([container], additionalContainers), reexportContainers); // This order expresses a preference for the real container if it is in scope } var res = ts.append(additionalContainers, container); return ts.concatenate(res, reexportContainers); } var candidates = ts.mapDefined(symbol.declarations, function (d) { if (!ts.isAmbientModule(d) && d.parent && hasNonGlobalAugmentationExternalModuleSymbol(d.parent)) { return getSymbolOfNode(d.parent); } if (ts.isClassExpression(d) && ts.isBinaryExpression(d.parent) && d.parent.operatorToken.kind === 62 /* EqualsToken */ && ts.isAccessExpression(d.parent.left) && ts.isEntityNameExpression(d.parent.left.expression)) { if (ts.isModuleExportsAccessExpression(d.parent.left) || ts.isExportsIdentifier(d.parent.left.expression)) { return getSymbolOfNode(ts.getSourceFileOfNode(d)); } checkExpressionCached(d.parent.left.expression); return getNodeLinks(d.parent.left.expression).resolvedSymbol; } }); if (!ts.length(candidates)) { return undefined; } return ts.mapDefined(candidates, function (candidate) { return getAliasForSymbolInContainer(candidate, symbol) ? candidate : undefined; }); function fileSymbolIfFileSymbolExportEqualsContainer(d) { return container && getFileSymbolIfFileSymbolExportEqualsContainer(d, container); } } function getFileSymbolIfFileSymbolExportEqualsContainer(d, container) { var fileSymbol = getExternalModuleContainer(d); var exported = fileSymbol && fileSymbol.exports && fileSymbol.exports.get("export=" /* ExportEquals */); return exported && getSymbolIfSameReference(exported, container) ? fileSymbol : undefined; } function getAliasForSymbolInContainer(container, symbol) { if (container === getParentOfSymbol(symbol)) { // fast path, `symbol` is either already the alias or isn't aliased return symbol; } // Check if container is a thing with an `export=` which points directly at `symbol`, and if so, return // the container itself as the alias for the symbol var exportEquals = container.exports && container.exports.get("export=" /* ExportEquals */); if (exportEquals && getSymbolIfSameReference(exportEquals, symbol)) { return container; } var exports = getExportsOfSymbol(container); var quick = exports.get(symbol.escapedName); if (quick && getSymbolIfSameReference(quick, symbol)) { return quick; } return ts.forEachEntry(exports, function (exported) { if (getSymbolIfSameReference(exported, symbol)) { return exported; } }); } /** * Checks if two symbols, through aliasing and/or merging, refer to the same thing */ function getSymbolIfSameReference(s1, s2) { if (getMergedSymbol(resolveSymbol(getMergedSymbol(s1))) === getMergedSymbol(resolveSymbol(getMergedSymbol(s2)))) { return s1; } } function getExportSymbolOfValueSymbolIfExported(symbol) { return getMergedSymbol(symbol && (symbol.flags & 1048576 /* ExportValue */) !== 0 ? symbol.exportSymbol : symbol); } function symbolIsValue(symbol) { return !!(symbol.flags & 111551 /* Value */ || symbol.flags & 2097152 /* Alias */ && resolveAlias(symbol).flags & 111551 /* Value */ && !getTypeOnlyAliasDeclaration(symbol)); } function findConstructorDeclaration(node) { var members = node.members; for (var _i = 0, members_3 = members; _i < members_3.length; _i++) { var member = members_3[_i]; if (member.kind === 162 /* Constructor */ && ts.nodeIsPresent(member.body)) { return member; } } } function createType(flags) { var result = new Type(checker, flags); typeCount++; result.id = typeCount; return result; } function createIntrinsicType(kind, intrinsicName, objectFlags) { if (objectFlags === void 0) { objectFlags = 0; } var type = createType(kind); type.intrinsicName = intrinsicName; type.objectFlags = objectFlags; return type; } function createBooleanType(trueFalseTypes) { var type = getUnionType(trueFalseTypes); type.flags |= 16 /* Boolean */; type.intrinsicName = "boolean"; return type; } function createObjectType(objectFlags, symbol) { var type = createType(524288 /* Object */); type.objectFlags = objectFlags; type.symbol = symbol; type.members = undefined; type.properties = undefined; type.callSignatures = undefined; type.constructSignatures = undefined; type.stringIndexInfo = undefined; type.numberIndexInfo = undefined; return type; } function createTypeofType() { return getUnionType(ts.arrayFrom(typeofEQFacts.keys(), getLiteralType)); } function createTypeParameter(symbol) { var type = createType(262144 /* TypeParameter */); if (symbol) type.symbol = symbol; return type; } // A reserved member name starts with two underscores, but the third character cannot be an underscore, // @, or #. A third underscore indicates an escaped form of an identifier that started // with at least two underscores. The @ character indicates that the name is denoted by a well known ES // Symbol instance and the # character indicates that the name is a PrivateIdentifier. function isReservedMemberName(name) { return name.charCodeAt(0) === 95 /* _ */ && name.charCodeAt(1) === 95 /* _ */ && name.charCodeAt(2) !== 95 /* _ */ && name.charCodeAt(2) !== 64 /* at */ && name.charCodeAt(2) !== 35 /* hash */; } function getNamedMembers(members) { var result; members.forEach(function (symbol, id) { if (!isReservedMemberName(id) && symbolIsValue(symbol)) { (result || (result = [])).push(symbol); } }); return result || ts.emptyArray; } function setStructuredTypeMembers(type, members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo) { type.members = members; type.properties = members === emptySymbols ? ts.emptyArray : getNamedMembers(members); type.callSignatures = callSignatures; type.constructSignatures = constructSignatures; type.stringIndexInfo = stringIndexInfo; type.numberIndexInfo = numberIndexInfo; return type; } function createAnonymousType(symbol, members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo) { return setStructuredTypeMembers(createObjectType(16 /* Anonymous */, symbol), members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo); } function forEachSymbolTableInScope(enclosingDeclaration, callback) { var result; var _loop_7 = function (location) { // Locals of a source file are not in scope (because they get merged into the global symbol table) if (location.locals && !isGlobalSourceFile(location)) { if (result = callback(location.locals)) { return { value: result }; } } switch (location.kind) { case 290 /* SourceFile */: if (!ts.isExternalOrCommonJsModule(location)) { break; } // falls through case 249 /* ModuleDeclaration */: var sym = getSymbolOfNode(location); // `sym` may not have exports if this module declaration is backed by the symbol for a `const` that's being rewritten // into a namespace - in such cases, it's best to just let the namespace appear empty (the const members couldn't have referred // to one another anyway) if (result = callback((sym === null || sym === void 0 ? void 0 : sym.exports) || emptySymbols)) { return { value: result }; } break; case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 246 /* InterfaceDeclaration */: // Type parameters are bound into `members` lists so they can merge across declarations // This is troublesome, since in all other respects, they behave like locals :cries: // TODO: the below is shared with similar code in `resolveName` - in fact, rephrasing all this symbol // lookup logic in terms of `resolveName` would be nice // The below is used to lookup type parameters within a class or interface, as they are added to the class/interface locals // These can never be latebound, so the symbol's raw members are sufficient. `getMembersOfNode` cannot be used, as it would // trigger resolving late-bound names, which we may already be in the process of doing while we're here! var table_1; // TODO: Should this filtered table be cached in some way? (getSymbolOfNode(location).members || emptySymbols).forEach(function (memberSymbol, key) { if (memberSymbol.flags & (788968 /* Type */ & ~67108864 /* Assignment */)) { (table_1 || (table_1 = ts.createSymbolTable())).set(key, memberSymbol); } }); if (table_1 && (result = callback(table_1))) { return { value: result }; } break; } }; for (var location = enclosingDeclaration; location; location = location.parent) { var state_2 = _loop_7(location); if (typeof state_2 === "object") return state_2.value; } return callback(globals); } function getQualifiedLeftMeaning(rightMeaning) { // If we are looking in value space, the parent meaning is value, other wise it is namespace return rightMeaning === 111551 /* Value */ ? 111551 /* Value */ : 1920 /* Namespace */; } function getAccessibleSymbolChain(symbol, enclosingDeclaration, meaning, useOnlyExternalAliasing, visitedSymbolTablesMap) { if (visitedSymbolTablesMap === void 0) { visitedSymbolTablesMap = ts.createMap(); } if (!(symbol && !isPropertyOrMethodDeclarationSymbol(symbol))) { return undefined; } var id = "" + getSymbolId(symbol); var visitedSymbolTables = visitedSymbolTablesMap.get(id); if (!visitedSymbolTables) { visitedSymbolTablesMap.set(id, visitedSymbolTables = []); } return forEachSymbolTableInScope(enclosingDeclaration, getAccessibleSymbolChainFromSymbolTable); /** * @param {ignoreQualification} boolean Set when a symbol is being looked for through the exports of another symbol (meaning we have a route to qualify it already) */ function getAccessibleSymbolChainFromSymbolTable(symbols, ignoreQualification) { if (!ts.pushIfUnique(visitedSymbolTables, symbols)) { return undefined; } var result = trySymbolTable(symbols, ignoreQualification); visitedSymbolTables.pop(); return result; } function canQualifySymbol(symbolFromSymbolTable, meaning) { // If the symbol is equivalent and doesn't need further qualification, this symbol is accessible return !needsQualification(symbolFromSymbolTable, enclosingDeclaration, meaning) || // If symbol needs qualification, make sure that parent is accessible, if it is then this symbol is accessible too !!getAccessibleSymbolChain(symbolFromSymbolTable.parent, enclosingDeclaration, getQualifiedLeftMeaning(meaning), useOnlyExternalAliasing, visitedSymbolTablesMap); } function isAccessible(symbolFromSymbolTable, resolvedAliasSymbol, ignoreQualification) { return (symbol === (resolvedAliasSymbol || symbolFromSymbolTable) || getMergedSymbol(symbol) === getMergedSymbol(resolvedAliasSymbol || symbolFromSymbolTable)) && // if the symbolFromSymbolTable is not external module (it could be if it was determined as ambient external module and would be in globals table) // and if symbolFromSymbolTable or alias resolution matches the symbol, // check the symbol can be qualified, it is only then this symbol is accessible !ts.some(symbolFromSymbolTable.declarations, hasNonGlobalAugmentationExternalModuleSymbol) && (ignoreQualification || canQualifySymbol(getMergedSymbol(symbolFromSymbolTable), meaning)); } function trySymbolTable(symbols, ignoreQualification) { // If symbol is directly available by its name in the symbol table if (isAccessible(symbols.get(symbol.escapedName), /*resolvedAliasSymbol*/ undefined, ignoreQualification)) { return [symbol]; } // Check if symbol is any of the aliases in scope var result = ts.forEachEntry(symbols, function (symbolFromSymbolTable) { if (symbolFromSymbolTable.flags & 2097152 /* Alias */ && symbolFromSymbolTable.escapedName !== "export=" /* ExportEquals */ && symbolFromSymbolTable.escapedName !== "default" /* Default */ && !(ts.isUMDExportSymbol(symbolFromSymbolTable) && enclosingDeclaration && ts.isExternalModule(ts.getSourceFileOfNode(enclosingDeclaration))) // If `!useOnlyExternalAliasing`, we can use any type of alias to get the name && (!useOnlyExternalAliasing || ts.some(symbolFromSymbolTable.declarations, ts.isExternalModuleImportEqualsDeclaration)) // While exports are generally considered to be in scope, export-specifier declared symbols are _not_ // See similar comment in `resolveName` for details && (ignoreQualification || !ts.getDeclarationOfKind(symbolFromSymbolTable, 263 /* ExportSpecifier */))) { var resolvedImportedSymbol = resolveAlias(symbolFromSymbolTable); var candidate = getCandidateListForSymbol(symbolFromSymbolTable, resolvedImportedSymbol, ignoreQualification); if (candidate) { return candidate; } } if (symbolFromSymbolTable.escapedName === symbol.escapedName && symbolFromSymbolTable.exportSymbol) { if (isAccessible(getMergedSymbol(symbolFromSymbolTable.exportSymbol), /*aliasSymbol*/ undefined, ignoreQualification)) { return [symbol]; } } }); // If there's no result and we're looking at the global symbol table, treat `globalThis` like an alias and try to lookup thru that return result || (symbols === globals ? getCandidateListForSymbol(globalThisSymbol, globalThisSymbol, ignoreQualification) : undefined); } function getCandidateListForSymbol(symbolFromSymbolTable, resolvedImportedSymbol, ignoreQualification) { if (isAccessible(symbolFromSymbolTable, resolvedImportedSymbol, ignoreQualification)) { return [symbolFromSymbolTable]; } // Look in the exported members, if we can find accessibleSymbolChain, symbol is accessible using this chain // but only if the symbolFromSymbolTable can be qualified var candidateTable = getExportsOfSymbol(resolvedImportedSymbol); var accessibleSymbolsFromExports = candidateTable && getAccessibleSymbolChainFromSymbolTable(candidateTable, /*ignoreQualification*/ true); if (accessibleSymbolsFromExports && canQualifySymbol(symbolFromSymbolTable, getQualifiedLeftMeaning(meaning))) { return [symbolFromSymbolTable].concat(accessibleSymbolsFromExports); } } } function needsQualification(symbol, enclosingDeclaration, meaning) { var qualify = false; forEachSymbolTableInScope(enclosingDeclaration, function (symbolTable) { // If symbol of this name is not available in the symbol table we are ok var symbolFromSymbolTable = getMergedSymbol(symbolTable.get(symbol.escapedName)); if (!symbolFromSymbolTable) { // Continue to the next symbol table return false; } // If the symbol with this name is present it should refer to the symbol if (symbolFromSymbolTable === symbol) { // No need to qualify return true; } // Qualify if the symbol from symbol table has same meaning as expected symbolFromSymbolTable = (symbolFromSymbolTable.flags & 2097152 /* Alias */ && !ts.getDeclarationOfKind(symbolFromSymbolTable, 263 /* ExportSpecifier */)) ? resolveAlias(symbolFromSymbolTable) : symbolFromSymbolTable; if (symbolFromSymbolTable.flags & meaning) { qualify = true; return true; } // Continue to the next symbol table return false; }); return qualify; } function isPropertyOrMethodDeclarationSymbol(symbol) { if (symbol.declarations && symbol.declarations.length) { for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; switch (declaration.kind) { case 159 /* PropertyDeclaration */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: continue; default: return false; } } return true; } return false; } function isTypeSymbolAccessible(typeSymbol, enclosingDeclaration) { var access = isSymbolAccessible(typeSymbol, enclosingDeclaration, 788968 /* Type */, /*shouldComputeAliasesToMakeVisible*/ false); return access.accessibility === 0 /* Accessible */; } function isValueSymbolAccessible(typeSymbol, enclosingDeclaration) { var access = isSymbolAccessible(typeSymbol, enclosingDeclaration, 111551 /* Value */, /*shouldComputeAliasesToMakeVisible*/ false); return access.accessibility === 0 /* Accessible */; } function isAnySymbolAccessible(symbols, enclosingDeclaration, initialSymbol, meaning, shouldComputeAliasesToMakeVisible) { if (!ts.length(symbols)) return; var hadAccessibleChain; var earlyModuleBail = false; for (var _i = 0, _a = symbols; _i < _a.length; _i++) { var symbol = _a[_i]; // Symbol is accessible if it by itself is accessible var accessibleSymbolChain = getAccessibleSymbolChain(symbol, enclosingDeclaration, meaning, /*useOnlyExternalAliasing*/ false); if (accessibleSymbolChain) { hadAccessibleChain = symbol; var hasAccessibleDeclarations = hasVisibleDeclarations(accessibleSymbolChain[0], shouldComputeAliasesToMakeVisible); if (hasAccessibleDeclarations) { return hasAccessibleDeclarations; } } else { if (ts.some(symbol.declarations, hasNonGlobalAugmentationExternalModuleSymbol)) { if (shouldComputeAliasesToMakeVisible) { earlyModuleBail = true; // Generally speaking, we want to use the aliases that already exist to refer to a module, if present // In order to do so, we need to find those aliases in order to retain them in declaration emit; so // if we are in declaration emit, we cannot use the fast path for module visibility until we've exhausted // all other visibility options (in order to capture the possible aliases used to reference the module) continue; } // Any meaning of a module symbol is always accessible via an `import` type return { accessibility: 0 /* Accessible */ }; } } // If we haven't got the accessible symbol, it doesn't mean the symbol is actually inaccessible. // It could be a qualified symbol and hence verify the path // e.g.: // module m { // export class c { // } // } // const x: typeof m.c // In the above example when we start with checking if typeof m.c symbol is accessible, // we are going to see if c can be accessed in scope directly. // But it can't, hence the accessible is going to be undefined, but that doesn't mean m.c is inaccessible // It is accessible if the parent m is accessible because then m.c can be accessed through qualification var containers = getContainersOfSymbol(symbol, enclosingDeclaration); // If we're trying to reference some object literal in, eg `var a = { x: 1 }`, the symbol for the literal, `__object`, is distinct // from the symbol of the declaration it is being assigned to. Since we can use the declaration to refer to the literal, however, // we'd like to make that connection here - potentially causing us to paint the declaration's visibility, and therefore the literal. var firstDecl = !!ts.length(symbol.declarations) && ts.first(symbol.declarations); if (!ts.length(containers) && meaning & 111551 /* Value */ && firstDecl && ts.isObjectLiteralExpression(firstDecl)) { if (firstDecl.parent && ts.isVariableDeclaration(firstDecl.parent) && firstDecl === firstDecl.parent.initializer) { containers = [getSymbolOfNode(firstDecl.parent)]; } } var parentResult = isAnySymbolAccessible(containers, enclosingDeclaration, initialSymbol, initialSymbol === symbol ? getQualifiedLeftMeaning(meaning) : meaning, shouldComputeAliasesToMakeVisible); if (parentResult) { return parentResult; } } if (earlyModuleBail) { return { accessibility: 0 /* Accessible */ }; } if (hadAccessibleChain) { return { accessibility: 1 /* NotAccessible */, errorSymbolName: symbolToString(initialSymbol, enclosingDeclaration, meaning), errorModuleName: hadAccessibleChain !== initialSymbol ? symbolToString(hadAccessibleChain, enclosingDeclaration, 1920 /* Namespace */) : undefined, }; } } /** * Check if the given symbol in given enclosing declaration is accessible and mark all associated alias to be visible if requested * * @param symbol a Symbol to check if accessible * @param enclosingDeclaration a Node containing reference to the symbol * @param meaning a SymbolFlags to check if such meaning of the symbol is accessible * @param shouldComputeAliasToMakeVisible a boolean value to indicate whether to return aliases to be mark visible in case the symbol is accessible */ function isSymbolAccessible(symbol, enclosingDeclaration, meaning, shouldComputeAliasesToMakeVisible) { if (symbol && enclosingDeclaration) { var result = isAnySymbolAccessible([symbol], enclosingDeclaration, symbol, meaning, shouldComputeAliasesToMakeVisible); if (result) { return result; } // This could be a symbol that is not exported in the external module // or it could be a symbol from different external module that is not aliased and hence cannot be named var symbolExternalModule = ts.forEach(symbol.declarations, getExternalModuleContainer); if (symbolExternalModule) { var enclosingExternalModule = getExternalModuleContainer(enclosingDeclaration); if (symbolExternalModule !== enclosingExternalModule) { // name from different external module that is not visible return { accessibility: 2 /* CannotBeNamed */, errorSymbolName: symbolToString(symbol, enclosingDeclaration, meaning), errorModuleName: symbolToString(symbolExternalModule) }; } } // Just a local name that is not accessible return { accessibility: 1 /* NotAccessible */, errorSymbolName: symbolToString(symbol, enclosingDeclaration, meaning), }; } return { accessibility: 0 /* Accessible */ }; } function getExternalModuleContainer(declaration) { var node = ts.findAncestor(declaration, hasExternalModuleSymbol); return node && getSymbolOfNode(node); } function hasExternalModuleSymbol(declaration) { return ts.isAmbientModule(declaration) || (declaration.kind === 290 /* SourceFile */ && ts.isExternalOrCommonJsModule(declaration)); } function hasNonGlobalAugmentationExternalModuleSymbol(declaration) { return ts.isModuleWithStringLiteralName(declaration) || (declaration.kind === 290 /* SourceFile */ && ts.isExternalOrCommonJsModule(declaration)); } function hasVisibleDeclarations(symbol, shouldComputeAliasToMakeVisible) { var aliasesToMakeVisible; if (!ts.every(ts.filter(symbol.declarations, function (d) { return d.kind !== 75 /* Identifier */; }), getIsDeclarationVisible)) { return undefined; } return { accessibility: 0 /* Accessible */, aliasesToMakeVisible: aliasesToMakeVisible }; function getIsDeclarationVisible(declaration) { if (!isDeclarationVisible(declaration)) { // Mark the unexported alias as visible if its parent is visible // because these kind of aliases can be used to name types in declaration file var anyImportSyntax = getAnyImportSyntax(declaration); if (anyImportSyntax && !ts.hasModifier(anyImportSyntax, 1 /* Export */) && // import clause without export isDeclarationVisible(anyImportSyntax.parent)) { return addVisibleAlias(declaration, anyImportSyntax); } else if (ts.isVariableDeclaration(declaration) && ts.isVariableStatement(declaration.parent.parent) && !ts.hasModifier(declaration.parent.parent, 1 /* Export */) && // unexported variable statement isDeclarationVisible(declaration.parent.parent.parent)) { return addVisibleAlias(declaration, declaration.parent.parent); } else if (ts.isLateVisibilityPaintedStatement(declaration) // unexported top-level statement && !ts.hasModifier(declaration, 1 /* Export */) && isDeclarationVisible(declaration.parent)) { return addVisibleAlias(declaration, declaration); } // Declaration is not visible return false; } return true; } function addVisibleAlias(declaration, aliasingStatement) { // In function "buildTypeDisplay" where we decide whether to write type-alias or serialize types, // we want to just check if type- alias is accessible or not but we don't care about emitting those alias at that time // since we will do the emitting later in trackSymbol. if (shouldComputeAliasToMakeVisible) { getNodeLinks(declaration).isVisible = true; aliasesToMakeVisible = ts.appendIfUnique(aliasesToMakeVisible, aliasingStatement); } return true; } } function isEntityNameVisible(entityName, enclosingDeclaration) { // get symbol of the first identifier of the entityName var meaning; if (entityName.parent.kind === 172 /* TypeQuery */ || ts.isExpressionWithTypeArgumentsInClassExtendsClause(entityName.parent) || entityName.parent.kind === 154 /* ComputedPropertyName */) { // Typeof value meaning = 111551 /* Value */ | 1048576 /* ExportValue */; } else if (entityName.kind === 153 /* QualifiedName */ || entityName.kind === 194 /* PropertyAccessExpression */ || entityName.parent.kind === 253 /* ImportEqualsDeclaration */) { // Left identifier from type reference or TypeAlias // Entity name of the import declaration meaning = 1920 /* Namespace */; } else { // Type Reference or TypeAlias entity = Identifier meaning = 788968 /* Type */; } var firstIdentifier = ts.getFirstIdentifier(entityName); var symbol = resolveName(enclosingDeclaration, firstIdentifier.escapedText, meaning, /*nodeNotFoundErrorMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false); // Verify if the symbol is accessible return (symbol && hasVisibleDeclarations(symbol, /*shouldComputeAliasToMakeVisible*/ true)) || { accessibility: 1 /* NotAccessible */, errorSymbolName: ts.getTextOfNode(firstIdentifier), errorNode: firstIdentifier }; } function symbolToString(symbol, enclosingDeclaration, meaning, flags, writer) { if (flags === void 0) { flags = 4 /* AllowAnyNodeKind */; } var nodeFlags = 70221824 /* IgnoreErrors */; if (flags & 2 /* UseOnlyExternalAliasing */) { nodeFlags |= 128 /* UseOnlyExternalAliasing */; } if (flags & 1 /* WriteTypeParametersOrArguments */) { nodeFlags |= 512 /* WriteTypeParametersInQualifiedName */; } if (flags & 8 /* UseAliasDefinedOutsideCurrentScope */) { nodeFlags |= 16384 /* UseAliasDefinedOutsideCurrentScope */; } if (flags & 16 /* DoNotIncludeSymbolChain */) { nodeFlags |= 134217728 /* DoNotIncludeSymbolChain */; } var builder = flags & 4 /* AllowAnyNodeKind */ ? nodeBuilder.symbolToExpression : nodeBuilder.symbolToEntityName; return writer ? symbolToStringWorker(writer).getText() : ts.usingSingleLineStringWriter(symbolToStringWorker); function symbolToStringWorker(writer) { var entity = builder(symbol, meaning, enclosingDeclaration, nodeFlags); // TODO: GH#18217 var printer = ts.createPrinter({ removeComments: true }); var sourceFile = enclosingDeclaration && ts.getSourceFileOfNode(enclosingDeclaration); printer.writeNode(4 /* Unspecified */, entity, /*sourceFile*/ sourceFile, writer); return writer; } } function signatureToString(signature, enclosingDeclaration, flags, kind, writer) { if (flags === void 0) { flags = 0 /* None */; } return writer ? signatureToStringWorker(writer).getText() : ts.usingSingleLineStringWriter(signatureToStringWorker); function signatureToStringWorker(writer) { var sigOutput; if (flags & 262144 /* WriteArrowStyleSignature */) { sigOutput = kind === 1 /* Construct */ ? 171 /* ConstructorType */ : 170 /* FunctionType */; } else { sigOutput = kind === 1 /* Construct */ ? 166 /* ConstructSignature */ : 165 /* CallSignature */; } var sig = nodeBuilder.signatureToSignatureDeclaration(signature, sigOutput, enclosingDeclaration, toNodeBuilderFlags(flags) | 70221824 /* IgnoreErrors */ | 512 /* WriteTypeParametersInQualifiedName */); var printer = ts.createPrinter({ removeComments: true, omitTrailingSemicolon: true }); var sourceFile = enclosingDeclaration && ts.getSourceFileOfNode(enclosingDeclaration); printer.writeNode(4 /* Unspecified */, sig, /*sourceFile*/ sourceFile, ts.getTrailingSemicolonDeferringWriter(writer)); // TODO: GH#18217 return writer; } } function typeToString(type, enclosingDeclaration, flags, writer) { if (flags === void 0) { flags = 1048576 /* AllowUniqueESSymbolType */ | 16384 /* UseAliasDefinedOutsideCurrentScope */; } if (writer === void 0) { writer = ts.createTextWriter(""); } var noTruncation = compilerOptions.noErrorTruncation || flags & 1 /* NoTruncation */; var typeNode = nodeBuilder.typeToTypeNode(type, enclosingDeclaration, toNodeBuilderFlags(flags) | 70221824 /* IgnoreErrors */ | (noTruncation ? 1 /* NoTruncation */ : 0), writer); if (typeNode === undefined) return ts.Debug.fail("should always get typenode"); var options = { removeComments: true }; var printer = ts.createPrinter(options); var sourceFile = enclosingDeclaration && ts.getSourceFileOfNode(enclosingDeclaration); printer.writeNode(4 /* Unspecified */, typeNode, /*sourceFile*/ sourceFile, writer); var result = writer.getText(); var maxLength = noTruncation ? ts.noTruncationMaximumTruncationLength * 2 : ts.defaultMaximumTruncationLength * 2; if (maxLength && result && result.length >= maxLength) { return result.substr(0, maxLength - "...".length) + "..."; } return result; } function getTypeNamesForErrorDisplay(left, right) { var leftStr = symbolValueDeclarationIsContextSensitive(left.symbol) ? typeToString(left, left.symbol.valueDeclaration) : typeToString(left); var rightStr = symbolValueDeclarationIsContextSensitive(right.symbol) ? typeToString(right, right.symbol.valueDeclaration) : typeToString(right); if (leftStr === rightStr) { leftStr = typeToString(left, /*enclosingDeclaration*/ undefined, 64 /* UseFullyQualifiedType */); rightStr = typeToString(right, /*enclosingDeclaration*/ undefined, 64 /* UseFullyQualifiedType */); } return [leftStr, rightStr]; } function symbolValueDeclarationIsContextSensitive(symbol) { return symbol && symbol.valueDeclaration && ts.isExpression(symbol.valueDeclaration) && !isContextSensitive(symbol.valueDeclaration); } function toNodeBuilderFlags(flags) { if (flags === void 0) { flags = 0 /* None */; } return flags & 814775659 /* NodeBuilderFlagsMask */; } function createNodeBuilder() { return { typeToTypeNode: function (type, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return typeToTypeNodeHelper(type, context); }); }, indexInfoToIndexSignatureDeclaration: function (indexInfo, kind, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return indexInfoToIndexSignatureDeclarationHelper(indexInfo, kind, context); }); }, signatureToSignatureDeclaration: function (signature, kind, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return signatureToSignatureDeclarationHelper(signature, kind, context); }); }, symbolToEntityName: function (symbol, meaning, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return symbolToName(symbol, context, meaning, /*expectsIdentifier*/ false); }); }, symbolToExpression: function (symbol, meaning, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return symbolToExpression(symbol, context, meaning); }); }, symbolToTypeParameterDeclarations: function (symbol, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return typeParametersToTypeParameterDeclarations(symbol, context); }); }, symbolToParameterDeclaration: function (symbol, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return symbolToParameterDeclaration(symbol, context); }); }, typeParameterToDeclaration: function (parameter, enclosingDeclaration, flags, tracker) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return typeParameterToDeclaration(parameter, context); }); }, symbolTableToDeclarationStatements: function (symbolTable, enclosingDeclaration, flags, tracker, bundled) { return withContext(enclosingDeclaration, flags, tracker, function (context) { return symbolTableToDeclarationStatements(symbolTable, context, bundled); }); }, }; function withContext(enclosingDeclaration, flags, tracker, cb) { ts.Debug.assert(enclosingDeclaration === undefined || (enclosingDeclaration.flags & 8 /* Synthesized */) === 0); var context = { enclosingDeclaration: enclosingDeclaration, flags: flags || 0 /* None */, // If no full tracker is provided, fake up a dummy one with a basic limited-functionality moduleResolverHost tracker: tracker && tracker.trackSymbol ? tracker : { trackSymbol: ts.noop, moduleResolverHost: flags & 134217728 /* DoNotIncludeSymbolChain */ ? { getCommonSourceDirectory: !!host.getCommonSourceDirectory ? function () { return host.getCommonSourceDirectory(); } : function () { return ""; }, getSourceFiles: function () { return host.getSourceFiles(); }, getCurrentDirectory: function () { return host.getCurrentDirectory(); }, getProbableSymlinks: ts.maybeBind(host, host.getProbableSymlinks), useCaseSensitiveFileNames: ts.maybeBind(host, host.useCaseSensitiveFileNames), redirectTargetsMap: host.redirectTargetsMap, getProjectReferenceRedirect: function (fileName) { return host.getProjectReferenceRedirect(fileName); }, isSourceOfProjectReferenceRedirect: function (fileName) { return host.isSourceOfProjectReferenceRedirect(fileName); }, fileExists: function (fileName) { return host.fileExists(fileName); }, } : undefined }, encounteredError: false, visitedTypes: undefined, symbolDepth: undefined, inferTypeParameters: undefined, approximateLength: 0 }; var resultingNode = cb(context); return context.encounteredError ? undefined : resultingNode; } function checkTruncationLength(context) { if (context.truncating) return context.truncating; return context.truncating = context.approximateLength > ((context.flags & 1 /* NoTruncation */) ? ts.noTruncationMaximumTruncationLength : ts.defaultMaximumTruncationLength); } function typeToTypeNodeHelper(type, context) { if (cancellationToken && cancellationToken.throwIfCancellationRequested) { cancellationToken.throwIfCancellationRequested(); } var inTypeAlias = context.flags & 8388608 /* InTypeAlias */; context.flags &= ~8388608 /* InTypeAlias */; if (!type) { if (!(context.flags & 262144 /* AllowEmptyUnionOrIntersection */)) { context.encounteredError = true; return undefined; // TODO: GH#18217 } context.approximateLength += 3; return ts.createKeywordTypeNode(125 /* AnyKeyword */); } if (!(context.flags & 536870912 /* NoTypeReduction */)) { type = getReducedType(type); } if (type.flags & 1 /* Any */) { context.approximateLength += 3; return ts.createKeywordTypeNode(125 /* AnyKeyword */); } if (type.flags & 2 /* Unknown */) { return ts.createKeywordTypeNode(148 /* UnknownKeyword */); } if (type.flags & 4 /* String */) { context.approximateLength += 6; return ts.createKeywordTypeNode(143 /* StringKeyword */); } if (type.flags & 8 /* Number */) { context.approximateLength += 6; return ts.createKeywordTypeNode(140 /* NumberKeyword */); } if (type.flags & 64 /* BigInt */) { context.approximateLength += 6; return ts.createKeywordTypeNode(151 /* BigIntKeyword */); } if (type.flags & 16 /* Boolean */) { context.approximateLength += 7; return ts.createKeywordTypeNode(128 /* BooleanKeyword */); } if (type.flags & 1024 /* EnumLiteral */ && !(type.flags & 1048576 /* Union */)) { var parentSymbol = getParentOfSymbol(type.symbol); var parentName = symbolToTypeNode(parentSymbol, context, 788968 /* Type */); var enumLiteralName = getDeclaredTypeOfSymbol(parentSymbol) === type ? parentName : appendReferenceToType(parentName, ts.createTypeReferenceNode(ts.symbolName(type.symbol), /*typeArguments*/ undefined)); return enumLiteralName; } if (type.flags & 1056 /* EnumLike */) { return symbolToTypeNode(type.symbol, context, 788968 /* Type */); } if (type.flags & 128 /* StringLiteral */) { context.approximateLength += (type.value.length + 2); return ts.createLiteralTypeNode(ts.setEmitFlags(ts.createLiteral(type.value, !!(context.flags & 268435456 /* UseSingleQuotesForStringLiteralType */)), 16777216 /* NoAsciiEscaping */)); } if (type.flags & 256 /* NumberLiteral */) { var value = type.value; context.approximateLength += ("" + value).length; return ts.createLiteralTypeNode(value < 0 ? ts.createPrefix(40 /* MinusToken */, ts.createLiteral(-value)) : ts.createLiteral(value)); } if (type.flags & 2048 /* BigIntLiteral */) { context.approximateLength += (ts.pseudoBigIntToString(type.value).length) + 1; return ts.createLiteralTypeNode((ts.createLiteral(type.value))); } if (type.flags & 512 /* BooleanLiteral */) { context.approximateLength += type.intrinsicName.length; return type.intrinsicName === "true" ? ts.createTrue() : ts.createFalse(); } if (type.flags & 8192 /* UniqueESSymbol */) { if (!(context.flags & 1048576 /* AllowUniqueESSymbolType */)) { if (isValueSymbolAccessible(type.symbol, context.enclosingDeclaration)) { context.approximateLength += 6; return symbolToTypeNode(type.symbol, context, 111551 /* Value */); } if (context.tracker.reportInaccessibleUniqueSymbolError) { context.tracker.reportInaccessibleUniqueSymbolError(); } } context.approximateLength += 13; return ts.createTypeOperatorNode(147 /* UniqueKeyword */, ts.createKeywordTypeNode(144 /* SymbolKeyword */)); } if (type.flags & 16384 /* Void */) { context.approximateLength += 4; return ts.createKeywordTypeNode(110 /* VoidKeyword */); } if (type.flags & 32768 /* Undefined */) { context.approximateLength += 9; return ts.createKeywordTypeNode(146 /* UndefinedKeyword */); } if (type.flags & 65536 /* Null */) { context.approximateLength += 4; return ts.createKeywordTypeNode(100 /* NullKeyword */); } if (type.flags & 131072 /* Never */) { context.approximateLength += 5; return ts.createKeywordTypeNode(137 /* NeverKeyword */); } if (type.flags & 4096 /* ESSymbol */) { context.approximateLength += 6; return ts.createKeywordTypeNode(144 /* SymbolKeyword */); } if (type.flags & 67108864 /* NonPrimitive */) { context.approximateLength += 6; return ts.createKeywordTypeNode(141 /* ObjectKeyword */); } if (isThisTypeParameter(type)) { if (context.flags & 4194304 /* InObjectTypeLiteral */) { if (!context.encounteredError && !(context.flags & 32768 /* AllowThisInObjectLiteral */)) { context.encounteredError = true; } if (context.tracker.reportInaccessibleThisError) { context.tracker.reportInaccessibleThisError(); } } context.approximateLength += 4; return ts.createThis(); } if (!inTypeAlias && type.aliasSymbol && (context.flags & 16384 /* UseAliasDefinedOutsideCurrentScope */ || isTypeSymbolAccessible(type.aliasSymbol, context.enclosingDeclaration))) { var typeArgumentNodes = mapToTypeNodes(type.aliasTypeArguments, context); if (isReservedMemberName(type.aliasSymbol.escapedName) && !(type.aliasSymbol.flags & 32 /* Class */)) return ts.createTypeReferenceNode(ts.createIdentifier(""), typeArgumentNodes); return symbolToTypeNode(type.aliasSymbol, context, 788968 /* Type */, typeArgumentNodes); } var objectFlags = ts.getObjectFlags(type); if (objectFlags & 4 /* Reference */) { ts.Debug.assert(!!(type.flags & 524288 /* Object */)); return type.node ? visitAndTransformType(type, typeReferenceToTypeNode) : typeReferenceToTypeNode(type); } if (type.flags & 262144 /* TypeParameter */ || objectFlags & 3 /* ClassOrInterface */) { if (type.flags & 262144 /* TypeParameter */ && ts.contains(context.inferTypeParameters, type)) { context.approximateLength += (ts.symbolName(type.symbol).length + 6); return ts.createInferTypeNode(typeParameterToDeclarationWithConstraint(type, context, /*constraintNode*/ undefined)); } if (context.flags & 4 /* GenerateNamesForShadowedTypeParams */ && type.flags & 262144 /* TypeParameter */ && !isTypeSymbolAccessible(type.symbol, context.enclosingDeclaration)) { var name = typeParameterToName(type, context); context.approximateLength += ts.idText(name).length; return ts.createTypeReferenceNode(ts.createIdentifier(ts.idText(name)), /*typeArguments*/ undefined); } // Ignore constraint/default when creating a usage (as opposed to declaration) of a type parameter. return type.symbol ? symbolToTypeNode(type.symbol, context, 788968 /* Type */) : ts.createTypeReferenceNode(ts.createIdentifier("?"), /*typeArguments*/ undefined); } if (type.flags & (1048576 /* Union */ | 2097152 /* Intersection */)) { var types = type.flags & 1048576 /* Union */ ? formatUnionTypes(type.types) : type.types; if (ts.length(types) === 1) { return typeToTypeNodeHelper(types[0], context); } var typeNodes = mapToTypeNodes(types, context, /*isBareList*/ true); if (typeNodes && typeNodes.length > 0) { var unionOrIntersectionTypeNode = ts.createUnionOrIntersectionTypeNode(type.flags & 1048576 /* Union */ ? 178 /* UnionType */ : 179 /* IntersectionType */, typeNodes); return unionOrIntersectionTypeNode; } else { if (!context.encounteredError && !(context.flags & 262144 /* AllowEmptyUnionOrIntersection */)) { context.encounteredError = true; } return undefined; // TODO: GH#18217 } } if (objectFlags & (16 /* Anonymous */ | 32 /* Mapped */)) { ts.Debug.assert(!!(type.flags & 524288 /* Object */)); // The type is an object literal type. return createAnonymousTypeNode(type); } if (type.flags & 4194304 /* Index */) { var indexedType = type.type; context.approximateLength += 6; var indexTypeNode = typeToTypeNodeHelper(indexedType, context); return ts.createTypeOperatorNode(indexTypeNode); } if (type.flags & 8388608 /* IndexedAccess */) { var objectTypeNode = typeToTypeNodeHelper(type.objectType, context); var indexTypeNode = typeToTypeNodeHelper(type.indexType, context); context.approximateLength += 2; return ts.createIndexedAccessTypeNode(objectTypeNode, indexTypeNode); } if (type.flags & 16777216 /* Conditional */) { var checkTypeNode = typeToTypeNodeHelper(type.checkType, context); var saveInferTypeParameters = context.inferTypeParameters; context.inferTypeParameters = type.root.inferTypeParameters; var extendsTypeNode = typeToTypeNodeHelper(type.extendsType, context); context.inferTypeParameters = saveInferTypeParameters; var trueTypeNode = typeToTypeNodeHelper(getTrueTypeFromConditionalType(type), context); var falseTypeNode = typeToTypeNodeHelper(getFalseTypeFromConditionalType(type), context); context.approximateLength += 15; return ts.createConditionalTypeNode(checkTypeNode, extendsTypeNode, trueTypeNode, falseTypeNode); } if (type.flags & 33554432 /* Substitution */) { return typeToTypeNodeHelper(type.baseType, context); } return ts.Debug.fail("Should be unreachable."); function createMappedTypeNodeFromType(type) { ts.Debug.assert(!!(type.flags & 524288 /* Object */)); var readonlyToken = type.declaration.readonlyToken ? ts.createToken(type.declaration.readonlyToken.kind) : undefined; var questionToken = type.declaration.questionToken ? ts.createToken(type.declaration.questionToken.kind) : undefined; var appropriateConstraintTypeNode; if (isMappedTypeWithKeyofConstraintDeclaration(type)) { // We have a { [P in keyof T]: X } // We do this to ensure we retain the toplevel keyof-ness of the type which may be lost due to keyof distribution during `getConstraintTypeFromMappedType` appropriateConstraintTypeNode = ts.createTypeOperatorNode(typeToTypeNodeHelper(getModifiersTypeFromMappedType(type), context)); } else { appropriateConstraintTypeNode = typeToTypeNodeHelper(getConstraintTypeFromMappedType(type), context); } var typeParameterNode = typeParameterToDeclarationWithConstraint(getTypeParameterFromMappedType(type), context, appropriateConstraintTypeNode); var templateTypeNode = typeToTypeNodeHelper(getTemplateTypeFromMappedType(type), context); var mappedTypeNode = ts.createMappedTypeNode(readonlyToken, typeParameterNode, questionToken, templateTypeNode); context.approximateLength += 10; return ts.setEmitFlags(mappedTypeNode, 1 /* SingleLine */); } function createAnonymousTypeNode(type) { var typeId = "" + type.id; var symbol = type.symbol; if (symbol) { if (isJSConstructor(symbol.valueDeclaration)) { // Instance and static types share the same symbol; only add 'typeof' for the static side. var isInstanceType = type === getDeclaredTypeOfClassOrInterface(symbol) ? 788968 /* Type */ : 111551 /* Value */; return symbolToTypeNode(symbol, context, isInstanceType); } // Always use 'typeof T' for type of class, enum, and module objects else if (symbol.flags & 32 /* Class */ && !getBaseTypeVariableOfClass(symbol) && !(symbol.valueDeclaration.kind === 214 /* ClassExpression */ && context.flags & 2048 /* WriteClassExpressionAsTypeLiteral */) || symbol.flags & (384 /* Enum */ | 512 /* ValueModule */) || shouldWriteTypeOfFunctionSymbol()) { return symbolToTypeNode(symbol, context, 111551 /* Value */); } else if (context.visitedTypes && context.visitedTypes.has(typeId)) { // If type is an anonymous type literal in a type alias declaration, use type alias name var typeAlias = getTypeAliasForTypeLiteral(type); if (typeAlias) { // The specified symbol flags need to be reinterpreted as type flags return symbolToTypeNode(typeAlias, context, 788968 /* Type */); } else { return createElidedInformationPlaceholder(context); } } else { return visitAndTransformType(type, createTypeNodeFromObjectType); } } else { // Anonymous types without a symbol are never circular. return createTypeNodeFromObjectType(type); } function shouldWriteTypeOfFunctionSymbol() { var isStaticMethodSymbol = !!(symbol.flags & 8192 /* Method */) && // typeof static method ts.some(symbol.declarations, function (declaration) { return ts.hasModifier(declaration, 32 /* Static */); }); var isNonLocalFunctionSymbol = !!(symbol.flags & 16 /* Function */) && (symbol.parent || // is exported function symbol ts.forEach(symbol.declarations, function (declaration) { return declaration.parent.kind === 290 /* SourceFile */ || declaration.parent.kind === 250 /* ModuleBlock */; })); if (isStaticMethodSymbol || isNonLocalFunctionSymbol) { // typeof is allowed only for static/non local functions return (!!(context.flags & 4096 /* UseTypeOfFunction */) || (context.visitedTypes && context.visitedTypes.has(typeId))) && // it is type of the symbol uses itself recursively (!(context.flags & 8 /* UseStructuralFallback */) || isValueSymbolAccessible(symbol, context.enclosingDeclaration)); // And the build is going to succeed without visibility error or there is no structural fallback allowed } } } function visitAndTransformType(type, transform) { var typeId = "" + type.id; var isConstructorObject = ts.getObjectFlags(type) & 16 /* Anonymous */ && type.symbol && type.symbol.flags & 32 /* Class */; var id = ts.getObjectFlags(type) & 4 /* Reference */ && type.node ? "N" + getNodeId(type.node) : type.symbol ? (isConstructorObject ? "+" : "") + getSymbolId(type.symbol) : undefined; // Since instantiations of the same anonymous type have the same symbol, tracking symbols instead // of types allows us to catch circular references to instantiations of the same anonymous type if (!context.visitedTypes) { context.visitedTypes = ts.createMap(); } if (id && !context.symbolDepth) { context.symbolDepth = ts.createMap(); } var depth; if (id) { depth = context.symbolDepth.get(id) || 0; if (depth > 10) { return createElidedInformationPlaceholder(context); } context.symbolDepth.set(id, depth + 1); } context.visitedTypes.set(typeId, true); var result = transform(type); context.visitedTypes.delete(typeId); if (id) { context.symbolDepth.set(id, depth); } return result; } function createTypeNodeFromObjectType(type) { if (isGenericMappedType(type)) { return createMappedTypeNodeFromType(type); } var resolved = resolveStructuredTypeMembers(type); if (!resolved.properties.length && !resolved.stringIndexInfo && !resolved.numberIndexInfo) { if (!resolved.callSignatures.length && !resolved.constructSignatures.length) { context.approximateLength += 2; return ts.setEmitFlags(ts.createTypeLiteralNode(/*members*/ undefined), 1 /* SingleLine */); } if (resolved.callSignatures.length === 1 && !resolved.constructSignatures.length) { var signature = resolved.callSignatures[0]; var signatureNode = signatureToSignatureDeclarationHelper(signature, 170 /* FunctionType */, context); return signatureNode; } if (resolved.constructSignatures.length === 1 && !resolved.callSignatures.length) { var signature = resolved.constructSignatures[0]; var signatureNode = signatureToSignatureDeclarationHelper(signature, 171 /* ConstructorType */, context); return signatureNode; } } var savedFlags = context.flags; context.flags |= 4194304 /* InObjectTypeLiteral */; var members = createTypeNodesFromResolvedType(resolved); context.flags = savedFlags; var typeLiteralNode = ts.createTypeLiteralNode(members); context.approximateLength += 2; return ts.setEmitFlags(typeLiteralNode, (context.flags & 1024 /* MultilineObjectLiterals */) ? 0 : 1 /* SingleLine */); } function typeReferenceToTypeNode(type) { var typeArguments = getTypeArguments(type); if (type.target === globalArrayType || type.target === globalReadonlyArrayType) { if (context.flags & 2 /* WriteArrayAsGenericType */) { var typeArgumentNode = typeToTypeNodeHelper(typeArguments[0], context); return ts.createTypeReferenceNode(type.target === globalArrayType ? "Array" : "ReadonlyArray", [typeArgumentNode]); } var elementType = typeToTypeNodeHelper(typeArguments[0], context); var arrayType = ts.createArrayTypeNode(elementType); return type.target === globalArrayType ? arrayType : ts.createTypeOperatorNode(138 /* ReadonlyKeyword */, arrayType); } else if (type.target.objectFlags & 8 /* Tuple */) { if (typeArguments.length > 0) { var arity = getTypeReferenceArity(type); var tupleConstituentNodes = mapToTypeNodes(typeArguments.slice(0, arity), context); var hasRestElement = type.target.hasRestElement; if (tupleConstituentNodes) { for (var i = type.target.minLength; i < Math.min(arity, tupleConstituentNodes.length); i++) { tupleConstituentNodes[i] = hasRestElement && i === arity - 1 ? ts.createRestTypeNode(ts.createArrayTypeNode(tupleConstituentNodes[i])) : ts.createOptionalTypeNode(tupleConstituentNodes[i]); } var tupleTypeNode = ts.createTupleTypeNode(tupleConstituentNodes); return type.target.readonly ? ts.createTypeOperatorNode(138 /* ReadonlyKeyword */, tupleTypeNode) : tupleTypeNode; } } if (context.encounteredError || (context.flags & 524288 /* AllowEmptyTuple */)) { var tupleTypeNode = ts.createTupleTypeNode([]); return type.target.readonly ? ts.createTypeOperatorNode(138 /* ReadonlyKeyword */, tupleTypeNode) : tupleTypeNode; } context.encounteredError = true; return undefined; // TODO: GH#18217 } else if (context.flags & 2048 /* WriteClassExpressionAsTypeLiteral */ && type.symbol.valueDeclaration && ts.isClassLike(type.symbol.valueDeclaration) && !isValueSymbolAccessible(type.symbol, context.enclosingDeclaration)) { return createAnonymousTypeNode(type); } else { var outerTypeParameters = type.target.outerTypeParameters; var i = 0; var resultType = void 0; if (outerTypeParameters) { var length_2 = outerTypeParameters.length; while (i < length_2) { // Find group of type arguments for type parameters with the same declaring container. var start = i; var parent = getParentSymbolOfTypeParameter(outerTypeParameters[i]); do { i++; } while (i < length_2 && getParentSymbolOfTypeParameter(outerTypeParameters[i]) === parent); // When type parameters are their own type arguments for the whole group (i.e. we have // the default outer type arguments), we don't show the group. if (!ts.rangeEquals(outerTypeParameters, typeArguments, start, i)) { var typeArgumentSlice = mapToTypeNodes(typeArguments.slice(start, i), context); var flags_2 = context.flags; context.flags |= 16 /* ForbidIndexedAccessSymbolReferences */; var ref = symbolToTypeNode(parent, context, 788968 /* Type */, typeArgumentSlice); context.flags = flags_2; resultType = !resultType ? ref : appendReferenceToType(resultType, ref); } } } var typeArgumentNodes = void 0; if (typeArguments.length > 0) { var typeParameterCount = (type.target.typeParameters || ts.emptyArray).length; typeArgumentNodes = mapToTypeNodes(typeArguments.slice(i, typeParameterCount), context); } var flags = context.flags; context.flags |= 16 /* ForbidIndexedAccessSymbolReferences */; var finalRef = symbolToTypeNode(type.symbol, context, 788968 /* Type */, typeArgumentNodes); context.flags = flags; return !resultType ? finalRef : appendReferenceToType(resultType, finalRef); } } function appendReferenceToType(root, ref) { if (ts.isImportTypeNode(root)) { // first shift type arguments var innerParams = root.typeArguments; if (root.qualifier) { (ts.isIdentifier(root.qualifier) ? root.qualifier : root.qualifier.right).typeArguments = innerParams; } root.typeArguments = ref.typeArguments; // then move qualifiers var ids = getAccessStack(ref); for (var _i = 0, ids_1 = ids; _i < ids_1.length; _i++) { var id = ids_1[_i]; root.qualifier = root.qualifier ? ts.createQualifiedName(root.qualifier, id) : id; } return root; } else { // first shift type arguments var innerParams = root.typeArguments; (ts.isIdentifier(root.typeName) ? root.typeName : root.typeName.right).typeArguments = innerParams; root.typeArguments = ref.typeArguments; // then move qualifiers var ids = getAccessStack(ref); for (var _a = 0, ids_2 = ids; _a < ids_2.length; _a++) { var id = ids_2[_a]; root.typeName = ts.createQualifiedName(root.typeName, id); } return root; } } function getAccessStack(ref) { var state = ref.typeName; var ids = []; while (!ts.isIdentifier(state)) { ids.unshift(state.right); state = state.left; } ids.unshift(state); return ids; } function createTypeNodesFromResolvedType(resolvedType) { if (checkTruncationLength(context)) { return [ts.createPropertySignature(/*modifiers*/ undefined, "...", /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined)]; } var typeElements = []; for (var _i = 0, _a = resolvedType.callSignatures; _i < _a.length; _i++) { var signature = _a[_i]; typeElements.push(signatureToSignatureDeclarationHelper(signature, 165 /* CallSignature */, context)); } for (var _b = 0, _c = resolvedType.constructSignatures; _b < _c.length; _b++) { var signature = _c[_b]; typeElements.push(signatureToSignatureDeclarationHelper(signature, 166 /* ConstructSignature */, context)); } if (resolvedType.stringIndexInfo) { var indexSignature = void 0; if (resolvedType.objectFlags & 2048 /* ReverseMapped */) { indexSignature = indexInfoToIndexSignatureDeclarationHelper(createIndexInfo(anyType, resolvedType.stringIndexInfo.isReadonly, resolvedType.stringIndexInfo.declaration), 0 /* String */, context); indexSignature.type = createElidedInformationPlaceholder(context); } else { indexSignature = indexInfoToIndexSignatureDeclarationHelper(resolvedType.stringIndexInfo, 0 /* String */, context); } typeElements.push(indexSignature); } if (resolvedType.numberIndexInfo) { typeElements.push(indexInfoToIndexSignatureDeclarationHelper(resolvedType.numberIndexInfo, 1 /* Number */, context)); } var properties = resolvedType.properties; if (!properties) { return typeElements; } var i = 0; for (var _d = 0, properties_1 = properties; _d < properties_1.length; _d++) { var propertySymbol = properties_1[_d]; i++; if (context.flags & 2048 /* WriteClassExpressionAsTypeLiteral */) { if (propertySymbol.flags & 4194304 /* Prototype */) { continue; } if (ts.getDeclarationModifierFlagsFromSymbol(propertySymbol) & (8 /* Private */ | 16 /* Protected */) && context.tracker.reportPrivateInBaseOfClassExpression) { context.tracker.reportPrivateInBaseOfClassExpression(ts.unescapeLeadingUnderscores(propertySymbol.escapedName)); } } if (checkTruncationLength(context) && (i + 2 < properties.length - 1)) { typeElements.push(ts.createPropertySignature(/*modifiers*/ undefined, "... " + (properties.length - i) + " more ...", /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined)); addPropertyToElementList(properties[properties.length - 1], context, typeElements); break; } addPropertyToElementList(propertySymbol, context, typeElements); } return typeElements.length ? typeElements : undefined; } } function createElidedInformationPlaceholder(context) { context.approximateLength += 3; if (!(context.flags & 1 /* NoTruncation */)) { return ts.createTypeReferenceNode(ts.createIdentifier("..."), /*typeArguments*/ undefined); } return ts.createKeywordTypeNode(125 /* AnyKeyword */); } function addPropertyToElementList(propertySymbol, context, typeElements) { var propertyIsReverseMapped = !!(ts.getCheckFlags(propertySymbol) & 8192 /* ReverseMapped */); var propertyType = propertyIsReverseMapped && context.flags & 33554432 /* InReverseMappedType */ ? anyType : getTypeOfSymbol(propertySymbol); var saveEnclosingDeclaration = context.enclosingDeclaration; context.enclosingDeclaration = undefined; if (context.tracker.trackSymbol && ts.getCheckFlags(propertySymbol) & 4096 /* Late */) { var decl = ts.first(propertySymbol.declarations); if (hasLateBindableName(decl)) { if (ts.isBinaryExpression(decl)) { var name = ts.getNameOfDeclaration(decl); if (name && ts.isElementAccessExpression(name) && ts.isPropertyAccessEntityNameExpression(name.argumentExpression)) { trackComputedName(name.argumentExpression, saveEnclosingDeclaration, context); } } else { trackComputedName(decl.name.expression, saveEnclosingDeclaration, context); } } } context.enclosingDeclaration = saveEnclosingDeclaration; var propertyName = getPropertyNameNodeForSymbol(propertySymbol, context); context.approximateLength += (ts.symbolName(propertySymbol).length + 1); var optionalToken = propertySymbol.flags & 16777216 /* Optional */ ? ts.createToken(57 /* QuestionToken */) : undefined; if (propertySymbol.flags & (16 /* Function */ | 8192 /* Method */) && !getPropertiesOfObjectType(propertyType).length && !isReadonlySymbol(propertySymbol)) { var signatures = getSignaturesOfType(filterType(propertyType, function (t) { return !(t.flags & 32768 /* Undefined */); }), 0 /* Call */); for (var _i = 0, signatures_1 = signatures; _i < signatures_1.length; _i++) { var signature = signatures_1[_i]; var methodDeclaration = signatureToSignatureDeclarationHelper(signature, 160 /* MethodSignature */, context); methodDeclaration.name = propertyName; methodDeclaration.questionToken = optionalToken; typeElements.push(preserveCommentsOn(methodDeclaration)); } } else { var savedFlags = context.flags; context.flags |= propertyIsReverseMapped ? 33554432 /* InReverseMappedType */ : 0; var propertyTypeNode = void 0; if (propertyIsReverseMapped && !!(savedFlags & 33554432 /* InReverseMappedType */)) { propertyTypeNode = createElidedInformationPlaceholder(context); } else { propertyTypeNode = propertyType ? serializeTypeForDeclaration(context, propertyType, propertySymbol, saveEnclosingDeclaration) : ts.createKeywordTypeNode(125 /* AnyKeyword */); } context.flags = savedFlags; var modifiers = isReadonlySymbol(propertySymbol) ? [ts.createToken(138 /* ReadonlyKeyword */)] : undefined; if (modifiers) { context.approximateLength += 9; } var propertySignature = ts.createPropertySignature(modifiers, propertyName, optionalToken, propertyTypeNode, /*initializer*/ undefined); typeElements.push(preserveCommentsOn(propertySignature)); } function preserveCommentsOn(node) { if (ts.some(propertySymbol.declarations, function (d) { return d.kind === 323 /* JSDocPropertyTag */; })) { var d = ts.find(propertySymbol.declarations, function (d) { return d.kind === 323 /* JSDocPropertyTag */; }); var commentText = d.comment; if (commentText) { ts.setSyntheticLeadingComments(node, [{ kind: 3 /* MultiLineCommentTrivia */, text: "*\n * " + commentText.replace(/\n/g, "\n * ") + "\n ", pos: -1, end: -1, hasTrailingNewLine: true }]); } } else if (propertySymbol.valueDeclaration) { // Copy comments to node for declaration emit ts.setCommentRange(node, propertySymbol.valueDeclaration); } return node; } } function mapToTypeNodes(types, context, isBareList) { if (ts.some(types)) { if (checkTruncationLength(context)) { if (!isBareList) { return [ts.createTypeReferenceNode("...", /*typeArguments*/ undefined)]; } else if (types.length > 2) { return [ typeToTypeNodeHelper(types[0], context), ts.createTypeReferenceNode("... " + (types.length - 2) + " more ...", /*typeArguments*/ undefined), typeToTypeNodeHelper(types[types.length - 1], context) ]; } } var mayHaveNameCollisions = !(context.flags & 64 /* UseFullyQualifiedType */); /** Map from type reference identifier text to [type, index in `result` where the type node is] */ var seenNames = mayHaveNameCollisions ? ts.createUnderscoreEscapedMultiMap() : undefined; var result_3 = []; var i = 0; for (var _i = 0, types_1 = types; _i < types_1.length; _i++) { var type = types_1[_i]; i++; if (checkTruncationLength(context) && (i + 2 < types.length - 1)) { result_3.push(ts.createTypeReferenceNode("... " + (types.length - i) + " more ...", /*typeArguments*/ undefined)); var typeNode_1 = typeToTypeNodeHelper(types[types.length - 1], context); if (typeNode_1) { result_3.push(typeNode_1); } break; } context.approximateLength += 2; // Account for whitespace + separator var typeNode = typeToTypeNodeHelper(type, context); if (typeNode) { result_3.push(typeNode); if (seenNames && ts.isIdentifierTypeReference(typeNode)) { seenNames.add(typeNode.typeName.escapedText, [type, result_3.length - 1]); } } } if (seenNames) { // To avoid printing types like `[Foo, Foo]` or `Bar & Bar` where // occurrences of the same name actually come from different // namespaces, go through the single-identifier type reference nodes // we just generated, and see if any names were generated more than // once while referring to different types. If so, regenerate the // type node for each entry by that name with the // `UseFullyQualifiedType` flag enabled. var saveContextFlags = context.flags; context.flags |= 64 /* UseFullyQualifiedType */; seenNames.forEach(function (types) { if (!ts.arrayIsHomogeneous(types, function (_a, _b) { var a = _a[0]; var b = _b[0]; return typesAreSameReference(a, b); })) { for (var _i = 0, types_2 = types; _i < types_2.length; _i++) { var _a = types_2[_i], type = _a[0], resultIndex = _a[1]; result_3[resultIndex] = typeToTypeNodeHelper(type, context); } } }); context.flags = saveContextFlags; } return result_3; } } function typesAreSameReference(a, b) { return a === b || !!a.symbol && a.symbol === b.symbol || !!a.aliasSymbol && a.aliasSymbol === b.aliasSymbol; } function indexInfoToIndexSignatureDeclarationHelper(indexInfo, kind, context) { var name = ts.getNameFromIndexInfo(indexInfo) || "x"; var indexerTypeNode = ts.createKeywordTypeNode(kind === 0 /* String */ ? 143 /* StringKeyword */ : 140 /* NumberKeyword */); var indexingParameter = ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, name, /*questionToken*/ undefined, indexerTypeNode, /*initializer*/ undefined); var typeNode = typeToTypeNodeHelper(indexInfo.type || anyType, context); if (!indexInfo.type && !(context.flags & 2097152 /* AllowEmptyIndexInfoType */)) { context.encounteredError = true; } context.approximateLength += (name.length + 4); return ts.createIndexSignature( /*decorators*/ undefined, indexInfo.isReadonly ? [ts.createToken(138 /* ReadonlyKeyword */)] : undefined, [indexingParameter], typeNode); } function signatureToSignatureDeclarationHelper(signature, kind, context, privateSymbolVisitor, bundledImports) { var suppressAny = context.flags & 256 /* SuppressAnyReturnType */; if (suppressAny) context.flags &= ~256 /* SuppressAnyReturnType */; // suppress only toplevel `any`s var typeParameters; var typeArguments; if (context.flags & 32 /* WriteTypeArgumentsOfSignature */ && signature.target && signature.mapper && signature.target.typeParameters) { typeArguments = signature.target.typeParameters.map(function (parameter) { return typeToTypeNodeHelper(instantiateType(parameter, signature.mapper), context); }); } else { typeParameters = signature.typeParameters && signature.typeParameters.map(function (parameter) { return typeParameterToDeclaration(parameter, context); }); } var parameters = getExpandedParameters(signature).map(function (parameter) { return symbolToParameterDeclaration(parameter, context, kind === 162 /* Constructor */, privateSymbolVisitor, bundledImports); }); if (signature.thisParameter) { var thisParameter = symbolToParameterDeclaration(signature.thisParameter, context); parameters.unshift(thisParameter); } var returnTypeNode; var typePredicate = getTypePredicateOfSignature(signature); if (typePredicate) { var assertsModifier = typePredicate.kind === 2 /* AssertsThis */ || typePredicate.kind === 3 /* AssertsIdentifier */ ? ts.createToken(124 /* AssertsKeyword */) : undefined; var parameterName = typePredicate.kind === 1 /* Identifier */ || typePredicate.kind === 3 /* AssertsIdentifier */ ? ts.setEmitFlags(ts.createIdentifier(typePredicate.parameterName), 16777216 /* NoAsciiEscaping */) : ts.createThisTypeNode(); var typeNode = typePredicate.type && typeToTypeNodeHelper(typePredicate.type, context); returnTypeNode = ts.createTypePredicateNodeWithModifier(assertsModifier, parameterName, typeNode); } else { var returnType = getReturnTypeOfSignature(signature); if (returnType && !(suppressAny && isTypeAny(returnType))) { returnTypeNode = serializeReturnTypeForSignature(context, returnType, signature, privateSymbolVisitor, bundledImports); } else if (!suppressAny) { returnTypeNode = ts.createKeywordTypeNode(125 /* AnyKeyword */); } } context.approximateLength += 3; // Usually a signature contributes a few more characters than this, but 3 is the minimum return ts.createSignatureDeclaration(kind, typeParameters, parameters, returnTypeNode, typeArguments); } function typeParameterToDeclarationWithConstraint(type, context, constraintNode) { var savedContextFlags = context.flags; context.flags &= ~512 /* WriteTypeParametersInQualifiedName */; // Avoids potential infinite loop when building for a claimspace with a generic var name = typeParameterToName(type, context); var defaultParameter = getDefaultFromTypeParameter(type); var defaultParameterNode = defaultParameter && typeToTypeNodeHelper(defaultParameter, context); context.flags = savedContextFlags; return ts.createTypeParameterDeclaration(name, constraintNode, defaultParameterNode); } function typeParameterToDeclaration(type, context, constraint) { if (constraint === void 0) { constraint = getConstraintOfTypeParameter(type); } var constraintNode = constraint && typeToTypeNodeHelper(constraint, context); return typeParameterToDeclarationWithConstraint(type, context, constraintNode); } function symbolToParameterDeclaration(parameterSymbol, context, preserveModifierFlags, privateSymbolVisitor, bundledImports) { var parameterDeclaration = ts.getDeclarationOfKind(parameterSymbol, 156 /* Parameter */); if (!parameterDeclaration && !ts.isTransientSymbol(parameterSymbol)) { parameterDeclaration = ts.getDeclarationOfKind(parameterSymbol, 317 /* JSDocParameterTag */); } var parameterType = getTypeOfSymbol(parameterSymbol); if (parameterDeclaration && isRequiredInitializedParameter(parameterDeclaration)) { parameterType = getOptionalType(parameterType); } var parameterTypeNode = serializeTypeForDeclaration(context, parameterType, parameterSymbol, context.enclosingDeclaration, privateSymbolVisitor, bundledImports); var modifiers = !(context.flags & 8192 /* OmitParameterModifiers */) && preserveModifierFlags && parameterDeclaration && parameterDeclaration.modifiers ? parameterDeclaration.modifiers.map(ts.getSynthesizedClone) : undefined; var isRest = parameterDeclaration && ts.isRestParameter(parameterDeclaration) || ts.getCheckFlags(parameterSymbol) & 32768 /* RestParameter */; var dotDotDotToken = isRest ? ts.createToken(25 /* DotDotDotToken */) : undefined; var name = parameterDeclaration ? parameterDeclaration.name ? parameterDeclaration.name.kind === 75 /* Identifier */ ? ts.setEmitFlags(ts.getSynthesizedClone(parameterDeclaration.name), 16777216 /* NoAsciiEscaping */) : parameterDeclaration.name.kind === 153 /* QualifiedName */ ? ts.setEmitFlags(ts.getSynthesizedClone(parameterDeclaration.name.right), 16777216 /* NoAsciiEscaping */) : cloneBindingName(parameterDeclaration.name) : ts.symbolName(parameterSymbol) : ts.symbolName(parameterSymbol); var isOptional = parameterDeclaration && isOptionalParameter(parameterDeclaration) || ts.getCheckFlags(parameterSymbol) & 16384 /* OptionalParameter */; var questionToken = isOptional ? ts.createToken(57 /* QuestionToken */) : undefined; var parameterNode = ts.createParameter( /*decorators*/ undefined, modifiers, dotDotDotToken, name, questionToken, parameterTypeNode, /*initializer*/ undefined); context.approximateLength += ts.symbolName(parameterSymbol).length + 3; return parameterNode; function cloneBindingName(node) { return elideInitializerAndSetEmitFlags(node); function elideInitializerAndSetEmitFlags(node) { if (context.tracker.trackSymbol && ts.isComputedPropertyName(node) && isLateBindableName(node)) { trackComputedName(node.expression, context.enclosingDeclaration, context); } var visited = ts.visitEachChild(node, elideInitializerAndSetEmitFlags, ts.nullTransformationContext, /*nodesVisitor*/ undefined, elideInitializerAndSetEmitFlags); var clone = ts.nodeIsSynthesized(visited) ? visited : ts.getSynthesizedClone(visited); if (clone.kind === 191 /* BindingElement */) { clone.initializer = undefined; } return ts.setEmitFlags(clone, 1 /* SingleLine */ | 16777216 /* NoAsciiEscaping */); } } } function trackComputedName(accessExpression, enclosingDeclaration, context) { if (!context.tracker.trackSymbol) return; // get symbol of the first identifier of the entityName var firstIdentifier = ts.getFirstIdentifier(accessExpression); var name = resolveName(firstIdentifier, firstIdentifier.escapedText, 111551 /* Value */ | 1048576 /* ExportValue */, /*nodeNotFoundErrorMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ true); if (name) { context.tracker.trackSymbol(name, enclosingDeclaration, 111551 /* Value */); } } function lookupSymbolChain(symbol, context, meaning, yieldModuleSymbol) { context.tracker.trackSymbol(symbol, context.enclosingDeclaration, meaning); // TODO: GH#18217 return lookupSymbolChainWorker(symbol, context, meaning, yieldModuleSymbol); } function lookupSymbolChainWorker(symbol, context, meaning, yieldModuleSymbol) { // Try to get qualified name if the symbol is not a type parameter and there is an enclosing declaration. var chain; var isTypeParameter = symbol.flags & 262144 /* TypeParameter */; if (!isTypeParameter && (context.enclosingDeclaration || context.flags & 64 /* UseFullyQualifiedType */) && !(context.flags & 134217728 /* DoNotIncludeSymbolChain */)) { chain = ts.Debug.checkDefined(getSymbolChain(symbol, meaning, /*endOfChain*/ true)); ts.Debug.assert(chain && chain.length > 0); } else { chain = [symbol]; } return chain; /** @param endOfChain Set to false for recursive calls; non-recursive calls should always output something. */ function getSymbolChain(symbol, meaning, endOfChain) { var accessibleSymbolChain = getAccessibleSymbolChain(symbol, context.enclosingDeclaration, meaning, !!(context.flags & 128 /* UseOnlyExternalAliasing */)); var parentSpecifiers; if (!accessibleSymbolChain || needsQualification(accessibleSymbolChain[0], context.enclosingDeclaration, accessibleSymbolChain.length === 1 ? meaning : getQualifiedLeftMeaning(meaning))) { // Go up and add our parent. var parents_1 = getContainersOfSymbol(accessibleSymbolChain ? accessibleSymbolChain[0] : symbol, context.enclosingDeclaration); if (ts.length(parents_1)) { parentSpecifiers = parents_1.map(function (symbol) { return ts.some(symbol.declarations, hasNonGlobalAugmentationExternalModuleSymbol) ? getSpecifierForModuleSymbol(symbol, context) : undefined; }); var indices = parents_1.map(function (_, i) { return i; }); indices.sort(sortByBestName); var sortedParents = indices.map(function (i) { return parents_1[i]; }); for (var _i = 0, sortedParents_1 = sortedParents; _i < sortedParents_1.length; _i++) { var parent = sortedParents_1[_i]; var parentChain = getSymbolChain(parent, getQualifiedLeftMeaning(meaning), /*endOfChain*/ false); if (parentChain) { if (parent.exports && parent.exports.get("export=" /* ExportEquals */) && getSymbolIfSameReference(parent.exports.get("export=" /* ExportEquals */), symbol)) { // parentChain root _is_ symbol - symbol is a module export=, so it kinda looks like it's own parent // No need to lookup an alias for the symbol in itself accessibleSymbolChain = parentChain; break; } accessibleSymbolChain = parentChain.concat(accessibleSymbolChain || [getAliasForSymbolInContainer(parent, symbol) || symbol]); break; } } } } if (accessibleSymbolChain) { return accessibleSymbolChain; } if ( // If this is the last part of outputting the symbol, always output. The cases apply only to parent symbols. endOfChain || // If a parent symbol is an anonymous type, don't write it. !(symbol.flags & (2048 /* TypeLiteral */ | 4096 /* ObjectLiteral */))) { // If a parent symbol is an external module, don't write it. (We prefer just `x` vs `"foo/bar".x`.) if (!endOfChain && !yieldModuleSymbol && !!ts.forEach(symbol.declarations, hasNonGlobalAugmentationExternalModuleSymbol)) { return; } return [symbol]; } function sortByBestName(a, b) { var specifierA = parentSpecifiers[a]; var specifierB = parentSpecifiers[b]; if (specifierA && specifierB) { var isBRelative = ts.pathIsRelative(specifierB); if (ts.pathIsRelative(specifierA) === isBRelative) { // Both relative or both non-relative, sort by number of parts return ts.moduleSpecifiers.countPathComponents(specifierA) - ts.moduleSpecifiers.countPathComponents(specifierB); } if (isBRelative) { // A is non-relative, B is relative: prefer A return -1; } // A is relative, B is non-relative: prefer B return 1; } return 0; } } } function typeParametersToTypeParameterDeclarations(symbol, context) { var typeParameterNodes; var targetSymbol = getTargetSymbol(symbol); if (targetSymbol.flags & (32 /* Class */ | 64 /* Interface */ | 524288 /* TypeAlias */)) { typeParameterNodes = ts.createNodeArray(ts.map(getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol), function (tp) { return typeParameterToDeclaration(tp, context); })); } return typeParameterNodes; } function lookupTypeParameterNodes(chain, index, context) { ts.Debug.assert(chain && 0 <= index && index < chain.length); var symbol = chain[index]; var symbolId = "" + getSymbolId(symbol); if (context.typeParameterSymbolList && context.typeParameterSymbolList.get(symbolId)) { return undefined; } (context.typeParameterSymbolList || (context.typeParameterSymbolList = ts.createMap())).set(symbolId, true); var typeParameterNodes; if (context.flags & 512 /* WriteTypeParametersInQualifiedName */ && index < (chain.length - 1)) { var parentSymbol = symbol; var nextSymbol_1 = chain[index + 1]; if (ts.getCheckFlags(nextSymbol_1) & 1 /* Instantiated */) { var params = getTypeParametersOfClassOrInterface(parentSymbol.flags & 2097152 /* Alias */ ? resolveAlias(parentSymbol) : parentSymbol); typeParameterNodes = mapToTypeNodes(ts.map(params, function (t) { return getMappedType(t, nextSymbol_1.mapper); }), context); } else { typeParameterNodes = typeParametersToTypeParameterDeclarations(symbol, context); } } return typeParameterNodes; } /** * Given A[B][C][D], finds A[B] */ function getTopmostIndexedAccessType(top) { if (ts.isIndexedAccessTypeNode(top.objectType)) { return getTopmostIndexedAccessType(top.objectType); } return top; } function getSpecifierForModuleSymbol(symbol, context) { var file = ts.getDeclarationOfKind(symbol, 290 /* SourceFile */); if (!file) { var equivalentFileSymbol = ts.firstDefined(symbol.declarations, function (d) { return getFileSymbolIfFileSymbolExportEqualsContainer(d, symbol); }); if (equivalentFileSymbol) { file = ts.getDeclarationOfKind(equivalentFileSymbol, 290 /* SourceFile */); } } if (file && file.moduleName !== undefined) { // Use the amd name if it is available return file.moduleName; } if (!file) { if (context.tracker.trackReferencedAmbientModule) { var ambientDecls = ts.filter(symbol.declarations, ts.isAmbientModule); if (ts.length(ambientDecls)) { for (var _i = 0, ambientDecls_1 = ambientDecls; _i < ambientDecls_1.length; _i++) { var decl = ambientDecls_1[_i]; context.tracker.trackReferencedAmbientModule(decl, symbol); } } } if (ambientModuleSymbolRegex.test(symbol.escapedName)) { return symbol.escapedName.substring(1, symbol.escapedName.length - 1); } } if (!context.enclosingDeclaration || !context.tracker.moduleResolverHost) { // If there's no context declaration, we can't lookup a non-ambient specifier, so we just use the symbol name if (ambientModuleSymbolRegex.test(symbol.escapedName)) { return symbol.escapedName.substring(1, symbol.escapedName.length - 1); } return ts.getSourceFileOfNode(ts.getNonAugmentationDeclaration(symbol)).fileName; // A resolver may not be provided for baselines and errors - in those cases we use the fileName in full } var contextFile = ts.getSourceFileOfNode(ts.getOriginalNode(context.enclosingDeclaration)); var links = getSymbolLinks(symbol); var specifier = links.specifierCache && links.specifierCache.get(contextFile.path); if (!specifier) { var isBundle_1 = (compilerOptions.out || compilerOptions.outFile); // For declaration bundles, we need to generate absolute paths relative to the common source dir for imports, // just like how the declaration emitter does for the ambient module declarations - we can easily accomplish this // using the `baseUrl` compiler option (which we would otherwise never use in declaration emit) and a non-relative // specifier preference var moduleResolverHost = context.tracker.moduleResolverHost; var specifierCompilerOptions = isBundle_1 ? __assign(__assign({}, compilerOptions), { baseUrl: moduleResolverHost.getCommonSourceDirectory() }) : compilerOptions; specifier = ts.first(ts.moduleSpecifiers.getModuleSpecifiers(symbol, specifierCompilerOptions, contextFile, moduleResolverHost, { importModuleSpecifierPreference: isBundle_1 ? "non-relative" : "relative" })); links.specifierCache = links.specifierCache || ts.createMap(); links.specifierCache.set(contextFile.path, specifier); } return specifier; } function symbolToTypeNode(symbol, context, meaning, overrideTypeArguments) { var chain = lookupSymbolChain(symbol, context, meaning, !(context.flags & 16384 /* UseAliasDefinedOutsideCurrentScope */)); // If we're using aliases outside the current scope, dont bother with the module var isTypeOf = meaning === 111551 /* Value */; if (ts.some(chain[0].declarations, hasNonGlobalAugmentationExternalModuleSymbol)) { // module is root, must use `ImportTypeNode` var nonRootParts = chain.length > 1 ? createAccessFromSymbolChain(chain, chain.length - 1, 1) : undefined; var typeParameterNodes = overrideTypeArguments || lookupTypeParameterNodes(chain, 0, context); var specifier = getSpecifierForModuleSymbol(chain[0], context); if (!(context.flags & 67108864 /* AllowNodeModulesRelativePaths */) && ts.getEmitModuleResolutionKind(compilerOptions) === ts.ModuleResolutionKind.NodeJs && specifier.indexOf("/node_modules/") >= 0) { // If ultimately we can only name the symbol with a reference that dives into a `node_modules` folder, we should error // since declaration files with these kinds of references are liable to fail when published :( context.encounteredError = true; if (context.tracker.reportLikelyUnsafeImportRequiredError) { context.tracker.reportLikelyUnsafeImportRequiredError(specifier); } } var lit = ts.createLiteralTypeNode(ts.createLiteral(specifier)); if (context.tracker.trackExternalModuleSymbolOfImportTypeNode) context.tracker.trackExternalModuleSymbolOfImportTypeNode(chain[0]); context.approximateLength += specifier.length + 10; // specifier + import("") if (!nonRootParts || ts.isEntityName(nonRootParts)) { if (nonRootParts) { var lastId = ts.isIdentifier(nonRootParts) ? nonRootParts : nonRootParts.right; lastId.typeArguments = undefined; } return ts.createImportTypeNode(lit, nonRootParts, typeParameterNodes, isTypeOf); } else { var splitNode = getTopmostIndexedAccessType(nonRootParts); var qualifier = splitNode.objectType.typeName; return ts.createIndexedAccessTypeNode(ts.createImportTypeNode(lit, qualifier, typeParameterNodes, isTypeOf), splitNode.indexType); } } var entityName = createAccessFromSymbolChain(chain, chain.length - 1, 0); if (ts.isIndexedAccessTypeNode(entityName)) { return entityName; // Indexed accesses can never be `typeof` } if (isTypeOf) { return ts.createTypeQueryNode(entityName); } else { var lastId = ts.isIdentifier(entityName) ? entityName : entityName.right; var lastTypeArgs = lastId.typeArguments; lastId.typeArguments = undefined; return ts.createTypeReferenceNode(entityName, lastTypeArgs); } function createAccessFromSymbolChain(chain, index, stopper) { var typeParameterNodes = index === (chain.length - 1) ? overrideTypeArguments : lookupTypeParameterNodes(chain, index, context); var symbol = chain[index]; var parent = chain[index - 1]; var symbolName; if (index === 0) { context.flags |= 16777216 /* InInitialEntityName */; symbolName = getNameOfSymbolAsWritten(symbol, context); context.approximateLength += (symbolName ? symbolName.length : 0) + 1; context.flags ^= 16777216 /* InInitialEntityName */; } else { if (parent && getExportsOfSymbol(parent)) { var exports_1 = getExportsOfSymbol(parent); ts.forEachEntry(exports_1, function (ex, name) { if (getSymbolIfSameReference(ex, symbol) && !isLateBoundName(name) && name !== "export=" /* ExportEquals */) { symbolName = ts.unescapeLeadingUnderscores(name); return true; } }); } } if (!symbolName) { symbolName = getNameOfSymbolAsWritten(symbol, context); } context.approximateLength += symbolName.length + 1; if (!(context.flags & 16 /* ForbidIndexedAccessSymbolReferences */) && parent && getMembersOfSymbol(parent) && getMembersOfSymbol(parent).get(symbol.escapedName) && getSymbolIfSameReference(getMembersOfSymbol(parent).get(symbol.escapedName), symbol)) { // Should use an indexed access var LHS = createAccessFromSymbolChain(chain, index - 1, stopper); if (ts.isIndexedAccessTypeNode(LHS)) { return ts.createIndexedAccessTypeNode(LHS, ts.createLiteralTypeNode(ts.createLiteral(symbolName))); } else { return ts.createIndexedAccessTypeNode(ts.createTypeReferenceNode(LHS, typeParameterNodes), ts.createLiteralTypeNode(ts.createLiteral(symbolName))); } } var identifier = ts.setEmitFlags(ts.createIdentifier(symbolName, typeParameterNodes), 16777216 /* NoAsciiEscaping */); identifier.symbol = symbol; if (index > stopper) { var LHS = createAccessFromSymbolChain(chain, index - 1, stopper); if (!ts.isEntityName(LHS)) { return ts.Debug.fail("Impossible construct - an export of an indexed access cannot be reachable"); } return ts.createQualifiedName(LHS, identifier); } return identifier; } } function typeParameterShadowsNameInScope(escapedName, context, type) { var result = resolveName(context.enclosingDeclaration, escapedName, 788968 /* Type */, /*nameNotFoundArg*/ undefined, escapedName, /*isUse*/ false); if (result) { if (result.flags & 262144 /* TypeParameter */ && result === type.symbol) { return false; } return true; } return false; } function typeParameterToName(type, context) { if (context.flags & 4 /* GenerateNamesForShadowedTypeParams */ && context.typeParameterNames) { var cached = context.typeParameterNames.get("" + getTypeId(type)); if (cached) { return cached; } } var result = symbolToName(type.symbol, context, 788968 /* Type */, /*expectsIdentifier*/ true); if (!(result.kind & 75 /* Identifier */)) { return ts.createIdentifier("(Missing type parameter)"); } if (context.flags & 4 /* GenerateNamesForShadowedTypeParams */) { var rawtext = result.escapedText; var i = 0; var text = rawtext; while ((context.typeParameterNamesByText && context.typeParameterNamesByText.get(text)) || typeParameterShadowsNameInScope(text, context, type)) { i++; text = rawtext + "_" + i; } if (text !== rawtext) { result = ts.createIdentifier(text, result.typeArguments); } (context.typeParameterNames || (context.typeParameterNames = ts.createMap())).set("" + getTypeId(type), result); (context.typeParameterNamesByText || (context.typeParameterNamesByText = ts.createMap())).set(result.escapedText, true); } return result; } function symbolToName(symbol, context, meaning, expectsIdentifier) { var chain = lookupSymbolChain(symbol, context, meaning); if (expectsIdentifier && chain.length !== 1 && !context.encounteredError && !(context.flags & 65536 /* AllowQualifedNameInPlaceOfIdentifier */)) { context.encounteredError = true; } return createEntityNameFromSymbolChain(chain, chain.length - 1); function createEntityNameFromSymbolChain(chain, index) { var typeParameterNodes = lookupTypeParameterNodes(chain, index, context); var symbol = chain[index]; if (index === 0) { context.flags |= 16777216 /* InInitialEntityName */; } var symbolName = getNameOfSymbolAsWritten(symbol, context); if (index === 0) { context.flags ^= 16777216 /* InInitialEntityName */; } var identifier = ts.setEmitFlags(ts.createIdentifier(symbolName, typeParameterNodes), 16777216 /* NoAsciiEscaping */); identifier.symbol = symbol; return index > 0 ? ts.createQualifiedName(createEntityNameFromSymbolChain(chain, index - 1), identifier) : identifier; } } function symbolToExpression(symbol, context, meaning) { var chain = lookupSymbolChain(symbol, context, meaning); return createExpressionFromSymbolChain(chain, chain.length - 1); function createExpressionFromSymbolChain(chain, index) { var typeParameterNodes = lookupTypeParameterNodes(chain, index, context); var symbol = chain[index]; if (index === 0) { context.flags |= 16777216 /* InInitialEntityName */; } var symbolName = getNameOfSymbolAsWritten(symbol, context); if (index === 0) { context.flags ^= 16777216 /* InInitialEntityName */; } var firstChar = symbolName.charCodeAt(0); if (ts.isSingleOrDoubleQuote(firstChar) && ts.some(symbol.declarations, hasNonGlobalAugmentationExternalModuleSymbol)) { return ts.createLiteral(getSpecifierForModuleSymbol(symbol, context)); } var canUsePropertyAccess = firstChar === 35 /* hash */ ? symbolName.length > 1 && ts.isIdentifierStart(symbolName.charCodeAt(1), languageVersion) : ts.isIdentifierStart(firstChar, languageVersion); if (index === 0 || canUsePropertyAccess) { var identifier = ts.setEmitFlags(ts.createIdentifier(symbolName, typeParameterNodes), 16777216 /* NoAsciiEscaping */); identifier.symbol = symbol; return index > 0 ? ts.createPropertyAccess(createExpressionFromSymbolChain(chain, index - 1), identifier) : identifier; } else { if (firstChar === 91 /* openBracket */) { symbolName = symbolName.substring(1, symbolName.length - 1); firstChar = symbolName.charCodeAt(0); } var expression = void 0; if (ts.isSingleOrDoubleQuote(firstChar)) { expression = ts.createLiteral(symbolName.substring(1, symbolName.length - 1).replace(/\\./g, function (s) { return s.substring(1); })); expression.singleQuote = firstChar === 39 /* singleQuote */; } else if (("" + +symbolName) === symbolName) { expression = ts.createLiteral(+symbolName); } if (!expression) { expression = ts.setEmitFlags(ts.createIdentifier(symbolName, typeParameterNodes), 16777216 /* NoAsciiEscaping */); expression.symbol = symbol; } return ts.createElementAccess(createExpressionFromSymbolChain(chain, index - 1), expression); } } } function isSingleQuotedStringNamed(d) { var name = ts.getNameOfDeclaration(d); if (name && ts.isStringLiteral(name) && (name.singleQuote || (!ts.nodeIsSynthesized(name) && ts.startsWith(ts.getTextOfNode(name, /*includeTrivia*/ false), "'")))) { return true; } return false; } function getPropertyNameNodeForSymbol(symbol, context) { var singleQuote = !!ts.length(symbol.declarations) && ts.every(symbol.declarations, isSingleQuotedStringNamed); var fromNameType = getPropertyNameNodeForSymbolFromNameType(symbol, context, singleQuote); if (fromNameType) { return fromNameType; } if (ts.isKnownSymbol(symbol)) { return ts.createComputedPropertyName(ts.createPropertyAccess(ts.createIdentifier("Symbol"), symbol.escapedName.substr(3))); } var rawName = ts.unescapeLeadingUnderscores(symbol.escapedName); return createPropertyNameNodeForIdentifierOrLiteral(rawName, singleQuote); } // See getNameForSymbolFromNameType for a stringy equivalent function getPropertyNameNodeForSymbolFromNameType(symbol, context, singleQuote) { var nameType = getSymbolLinks(symbol).nameType; if (nameType) { if (nameType.flags & 384 /* StringOrNumberLiteral */) { var name = "" + nameType.value; if (!ts.isIdentifierText(name, compilerOptions.target) && !isNumericLiteralName(name)) { return ts.createLiteral(name, !!singleQuote); } if (isNumericLiteralName(name) && ts.startsWith(name, "-")) { return ts.createComputedPropertyName(ts.createLiteral(+name)); } return createPropertyNameNodeForIdentifierOrLiteral(name); } if (nameType.flags & 8192 /* UniqueESSymbol */) { return ts.createComputedPropertyName(symbolToExpression(nameType.symbol, context, 111551 /* Value */)); } } } function createPropertyNameNodeForIdentifierOrLiteral(name, singleQuote) { return ts.isIdentifierText(name, compilerOptions.target) ? ts.createIdentifier(name) : ts.createLiteral(isNumericLiteralName(name) && +name >= 0 ? +name : name, !!singleQuote); } function cloneNodeBuilderContext(context) { var initial = __assign({}, context); // Make type parameters created within this context not consume the name outside this context // The symbol serializer ends up creating many sibling scopes that all need "separate" contexts when // it comes to naming things - within a normal `typeToTypeNode` call, the node builder only ever descends // through the type tree, so the only cases where we could have used distinct sibling scopes was when there // were multiple generic overloads with similar generated type parameter names // The effect: // When we write out // export const x: (x: T) => T // export const y: (x: T) => T // we write it out like that, rather than as // export const x: (x: T) => T // export const y: (x: T_1) => T_1 if (initial.typeParameterNames) { initial.typeParameterNames = ts.cloneMap(initial.typeParameterNames); } if (initial.typeParameterNamesByText) { initial.typeParameterNamesByText = ts.cloneMap(initial.typeParameterNamesByText); } if (initial.typeParameterSymbolList) { initial.typeParameterSymbolList = ts.cloneMap(initial.typeParameterSymbolList); } return initial; } function getDeclarationWithTypeAnnotation(symbol, enclosingDeclaration) { return symbol.declarations && ts.find(symbol.declarations, function (s) { return !!ts.getEffectiveTypeAnnotationNode(s) && (!enclosingDeclaration || !!ts.findAncestor(s, function (n) { return n === enclosingDeclaration; })); }); } function existingTypeNodeIsNotReferenceOrIsReferenceWithCompatibleTypeArgumentCount(existing, type) { return !(ts.getObjectFlags(type) & 4 /* Reference */) || !ts.isTypeReferenceNode(existing) || ts.length(existing.typeArguments) >= getMinTypeArgumentCount(type.target.typeParameters); } /** * Unlike `typeToTypeNodeHelper`, this handles setting up the `AllowUniqueESSymbolType` flag * so a `unique symbol` is returned when appropriate for the input symbol, rather than `typeof sym` */ function serializeTypeForDeclaration(context, type, symbol, enclosingDeclaration, includePrivateSymbol, bundled) { if (type !== errorType && enclosingDeclaration) { var declWithExistingAnnotation = getDeclarationWithTypeAnnotation(symbol, enclosingDeclaration); if (declWithExistingAnnotation && !ts.isFunctionLikeDeclaration(declWithExistingAnnotation)) { // try to reuse the existing annotation var existing = ts.getEffectiveTypeAnnotationNode(declWithExistingAnnotation); if (getTypeFromTypeNode(existing) === type && existingTypeNodeIsNotReferenceOrIsReferenceWithCompatibleTypeArgumentCount(existing, type)) { var result_4 = serializeExistingTypeNode(context, existing, includePrivateSymbol, bundled); if (result_4) { return result_4; } } } } var oldFlags = context.flags; if (type.flags & 8192 /* UniqueESSymbol */ && type.symbol === symbol) { context.flags |= 1048576 /* AllowUniqueESSymbolType */; } var result = typeToTypeNodeHelper(type, context); context.flags = oldFlags; return result; } function serializeReturnTypeForSignature(context, type, signature, includePrivateSymbol, bundled) { if (type !== errorType && context.enclosingDeclaration) { var annotation = signature.declaration && ts.getEffectiveReturnTypeNode(signature.declaration); if (!!ts.findAncestor(annotation, function (n) { return n === context.enclosingDeclaration; }) && annotation && instantiateType(getTypeFromTypeNode(annotation), signature.mapper) === type && existingTypeNodeIsNotReferenceOrIsReferenceWithCompatibleTypeArgumentCount(annotation, type)) { var result = serializeExistingTypeNode(context, annotation, includePrivateSymbol, bundled); if (result) { return result; } } } return typeToTypeNodeHelper(type, context); } function serializeExistingTypeNode(context, existing, includePrivateSymbol, bundled) { if (cancellationToken && cancellationToken.throwIfCancellationRequested) { cancellationToken.throwIfCancellationRequested(); } var hadError = false; var transformed = ts.visitNode(existing, visitExistingNodeTreeSymbols); if (hadError) { return undefined; } return transformed === existing ? ts.getMutableClone(existing) : transformed; function visitExistingNodeTreeSymbols(node) { var _a, _b; // We don't _actually_ support jsdoc namepath types, emit `any` instead if (ts.isJSDocAllType(node) || node.kind === 302 /* JSDocNamepathType */) { return ts.createKeywordTypeNode(125 /* AnyKeyword */); } if (ts.isJSDocUnknownType(node)) { return ts.createKeywordTypeNode(148 /* UnknownKeyword */); } if (ts.isJSDocNullableType(node)) { return ts.createUnionTypeNode([ts.visitNode(node.type, visitExistingNodeTreeSymbols), ts.createKeywordTypeNode(100 /* NullKeyword */)]); } if (ts.isJSDocOptionalType(node)) { return ts.createUnionTypeNode([ts.visitNode(node.type, visitExistingNodeTreeSymbols), ts.createKeywordTypeNode(146 /* UndefinedKeyword */)]); } if (ts.isJSDocNonNullableType(node)) { return ts.visitNode(node.type, visitExistingNodeTreeSymbols); } if (ts.isJSDocVariadicType(node)) { return ts.createArrayTypeNode(ts.visitNode(node.type, visitExistingNodeTreeSymbols)); } if (ts.isJSDocTypeLiteral(node)) { return ts.createTypeLiteralNode(ts.map(node.jsDocPropertyTags, function (t) { var name = ts.isIdentifier(t.name) ? t.name : t.name.right; var typeViaParent = getTypeOfPropertyOfType(getTypeFromTypeNode(node), name.escapedText); var overrideTypeNode = typeViaParent && t.typeExpression && getTypeFromTypeNode(t.typeExpression.type) !== typeViaParent ? typeToTypeNodeHelper(typeViaParent, context) : undefined; return ts.createPropertySignature( /*modifiers*/ undefined, name, t.typeExpression && ts.isJSDocOptionalType(t.typeExpression.type) ? ts.createToken(57 /* QuestionToken */) : undefined, overrideTypeNode || (t.typeExpression && ts.visitNode(t.typeExpression.type, visitExistingNodeTreeSymbols)) || ts.createKeywordTypeNode(125 /* AnyKeyword */), /*initializer*/ undefined); })); } if (ts.isTypeReferenceNode(node) && ts.isIdentifier(node.typeName) && node.typeName.escapedText === "") { return ts.setOriginalNode(ts.createKeywordTypeNode(125 /* AnyKeyword */), node); } if ((ts.isExpressionWithTypeArguments(node) || ts.isTypeReferenceNode(node)) && ts.isJSDocIndexSignature(node)) { return ts.createTypeLiteralNode([ts.createIndexSignature( /*decorators*/ undefined, /*modifiers*/ undefined, [ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotdotdotToken*/ undefined, "x", /*questionToken*/ undefined, ts.visitNode(node.typeArguments[0], visitExistingNodeTreeSymbols))], ts.visitNode(node.typeArguments[1], visitExistingNodeTreeSymbols))]); } if (ts.isJSDocFunctionType(node)) { if (ts.isJSDocConstructSignature(node)) { var newTypeNode_1; return ts.createConstructorTypeNode(ts.visitNodes(node.typeParameters, visitExistingNodeTreeSymbols), ts.mapDefined(node.parameters, function (p, i) { return p.name && ts.isIdentifier(p.name) && p.name.escapedText === "new" ? (newTypeNode_1 = p.type, undefined) : ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, getEffectiveDotDotDotForParameter(p), p.name || getEffectiveDotDotDotForParameter(p) ? "args" : "arg" + i, p.questionToken, ts.visitNode(p.type, visitExistingNodeTreeSymbols), /*initializer*/ undefined); }), ts.visitNode(newTypeNode_1 || node.type, visitExistingNodeTreeSymbols)); } else { return ts.createFunctionTypeNode(ts.visitNodes(node.typeParameters, visitExistingNodeTreeSymbols), ts.map(node.parameters, function (p, i) { return ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, getEffectiveDotDotDotForParameter(p), p.name || getEffectiveDotDotDotForParameter(p) ? "args" : "arg" + i, p.questionToken, ts.visitNode(p.type, visitExistingNodeTreeSymbols), /*initializer*/ undefined); }), ts.visitNode(node.type, visitExistingNodeTreeSymbols)); } } if (ts.isTypeReferenceNode(node) && ts.isInJSDoc(node) && (getIntendedTypeFromJSDocTypeReference(node) || unknownSymbol === resolveTypeReferenceName(getTypeReferenceName(node), 788968 /* Type */, /*ignoreErrors*/ true))) { return ts.setOriginalNode(typeToTypeNodeHelper(getTypeFromTypeNode(node), context), node); } if (ts.isLiteralImportTypeNode(node)) { return ts.updateImportTypeNode(node, ts.updateLiteralTypeNode(node.argument, rewriteModuleSpecifier(node, node.argument.literal)), node.qualifier, ts.visitNodes(node.typeArguments, visitExistingNodeTreeSymbols, ts.isTypeNode), node.isTypeOf); } if (ts.isEntityName(node) || ts.isEntityNameExpression(node)) { var leftmost = ts.getFirstIdentifier(node); if (ts.isInJSFile(node) && (ts.isExportsIdentifier(leftmost) || ts.isModuleExportsAccessExpression(leftmost.parent) || (ts.isQualifiedName(leftmost.parent) && ts.isModuleIdentifier(leftmost.parent.left) && ts.isExportsIdentifier(leftmost.parent.right)))) { hadError = true; return node; } var sym = resolveEntityName(leftmost, 67108863 /* All */, /*ignoreErrors*/ true, /*dontResolveALias*/ true); if (sym) { if (isSymbolAccessible(sym, context.enclosingDeclaration, 67108863 /* All */, /*shouldComputeAliasesToMakeVisible*/ false).accessibility !== 0 /* Accessible */) { hadError = true; } else { (_b = (_a = context.tracker) === null || _a === void 0 ? void 0 : _a.trackSymbol) === null || _b === void 0 ? void 0 : _b.call(_a, sym, context.enclosingDeclaration, 67108863 /* All */); includePrivateSymbol === null || includePrivateSymbol === void 0 ? void 0 : includePrivateSymbol(sym); } if (ts.isIdentifier(node)) { var name = sym.flags & 262144 /* TypeParameter */ ? typeParameterToName(getDeclaredTypeOfSymbol(sym), context) : ts.getMutableClone(node); name.symbol = sym; // for quickinfo, which uses identifier symbol information return ts.setEmitFlags(ts.setOriginalNode(name, node), 16777216 /* NoAsciiEscaping */); } } } return ts.visitEachChild(node, visitExistingNodeTreeSymbols, ts.nullTransformationContext); function getEffectiveDotDotDotForParameter(p) { return p.dotDotDotToken || (p.type && ts.isJSDocVariadicType(p.type) ? ts.createToken(25 /* DotDotDotToken */) : undefined); } function rewriteModuleSpecifier(parent, lit) { if (bundled) { if (context.tracker && context.tracker.moduleResolverHost) { var targetFile = getExternalModuleFileFromDeclaration(parent); if (targetFile) { var getCanonicalFileName = ts.createGetCanonicalFileName(!!host.useCaseSensitiveFileNames); var resolverHost = { getCanonicalFileName: getCanonicalFileName, getCurrentDirectory: function () { return context.tracker.moduleResolverHost.getCurrentDirectory(); }, getCommonSourceDirectory: function () { return context.tracker.moduleResolverHost.getCommonSourceDirectory(); } }; var newName = ts.getResolvedExternalModuleName(resolverHost, targetFile); return ts.createLiteral(newName); } } } else { if (context.tracker && context.tracker.trackExternalModuleSymbolOfImportTypeNode) { var moduleSym = resolveExternalModuleNameWorker(lit, lit, /*moduleNotFoundError*/ undefined); if (moduleSym) { context.tracker.trackExternalModuleSymbolOfImportTypeNode(moduleSym); } } } return lit; } } } function symbolTableToDeclarationStatements(symbolTable, context, bundled) { var serializePropertySymbolForClass = makeSerializePropertySymbol(ts.createProperty, 161 /* MethodDeclaration */, /*useAcessors*/ true); var serializePropertySymbolForInterfaceWorker = makeSerializePropertySymbol(function (_decorators, mods, name, question, type, initializer) { return ts.createPropertySignature(mods, name, question, type, initializer); }, 160 /* MethodSignature */, /*useAcessors*/ false); // TODO: Use `setOriginalNode` on original declaration names where possible so these declarations see some kind of // declaration mapping // We save the enclosing declaration off here so it's not adjusted by well-meaning declaration // emit codepaths which want to apply more specific contexts (so we can still refer to the root real declaration // we're trying to emit from later on) var enclosingDeclaration = context.enclosingDeclaration; var results = []; var visitedSymbols = ts.createMap(); var deferredPrivates; var oldcontext = context; context = __assign(__assign({}, oldcontext), { usedSymbolNames: ts.createMap(), remappedSymbolNames: ts.createMap(), tracker: __assign(__assign({}, oldcontext.tracker), { trackSymbol: function (sym, decl, meaning) { var accessibleResult = isSymbolAccessible(sym, decl, meaning, /*computeALiases*/ false); if (accessibleResult.accessibility === 0 /* Accessible */) { // Lookup the root symbol of the chain of refs we'll use to access it and serialize it var chain = lookupSymbolChainWorker(sym, context, meaning); if (!(sym.flags & 4 /* Property */)) { includePrivateSymbol(chain[0]); } } else if (oldcontext.tracker && oldcontext.tracker.trackSymbol) { oldcontext.tracker.trackSymbol(sym, decl, meaning); } } }) }); if (oldcontext.usedSymbolNames) { oldcontext.usedSymbolNames.forEach(function (_, name) { context.usedSymbolNames.set(name, true); }); } ts.forEachEntry(symbolTable, function (symbol, name) { var baseName = ts.unescapeLeadingUnderscores(name); void getInternalSymbolName(symbol, baseName); // Called to cache values into `usedSymbolNames` and `remappedSymbolNames` }); var addingDeclare = !bundled; var exportEquals = symbolTable.get("export=" /* ExportEquals */); if (exportEquals && symbolTable.size > 1 && exportEquals.flags & 2097152 /* Alias */) { symbolTable = ts.createSymbolTable(); // Remove extraneous elements from root symbol table (they'll be mixed back in when the target of the `export=` is looked up) symbolTable.set("export=" /* ExportEquals */, exportEquals); } visitSymbolTable(symbolTable); return mergeRedundantStatements(results); function isIdentifierAndNotUndefined(node) { return !!node && node.kind === 75 /* Identifier */; } function getNamesOfDeclaration(statement) { if (ts.isVariableStatement(statement)) { return ts.filter(ts.map(statement.declarationList.declarations, ts.getNameOfDeclaration), isIdentifierAndNotUndefined); } return ts.filter([ts.getNameOfDeclaration(statement)], isIdentifierAndNotUndefined); } function flattenExportAssignedNamespace(statements) { var exportAssignment = ts.find(statements, ts.isExportAssignment); var ns = ts.find(statements, ts.isModuleDeclaration); if (ns && exportAssignment && exportAssignment.isExportEquals && ts.isIdentifier(exportAssignment.expression) && ts.isIdentifier(ns.name) && ts.idText(ns.name) === ts.idText(exportAssignment.expression) && ns.body && ts.isModuleBlock(ns.body)) { // Pass 0: Correct situations where a module has both an `export = ns` and multiple top-level exports by stripping the export modifiers from // the top-level exports and exporting them in the targeted ns, as can occur when a js file has both typedefs and `module.export` assignments var excessExports = ts.filter(statements, function (s) { return !!(ts.getModifierFlags(s) & 1 /* Export */); }); if (ts.length(excessExports)) { ns.body.statements = ts.createNodeArray(__spreadArrays(ns.body.statements, [ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports(ts.map(ts.flatMap(excessExports, function (e) { return getNamesOfDeclaration(e); }), function (id) { return ts.createExportSpecifier(/*alias*/ undefined, id); })), /*moduleSpecifier*/ undefined)])); } // Pass 1: Flatten `export namespace _exports {} export = _exports;` so long as the `export=` only points at a single namespace declaration if (!ts.find(statements, function (s) { return s !== ns && ts.nodeHasName(s, ns.name); })) { results = []; ts.forEach(ns.body.statements, function (s) { addResult(s, 0 /* None */); // Recalculates the ambient (and export, if applicable from above) flag }); statements = __spreadArrays(ts.filter(statements, function (s) { return s !== ns && s !== exportAssignment; }), results); } } return statements; } function mergeExportDeclarations(statements) { // Pass 2: Combine all `export {}` declarations var exports = ts.filter(statements, function (d) { return ts.isExportDeclaration(d) && !d.moduleSpecifier && !!d.exportClause && ts.isNamedExports(d.exportClause); }); if (ts.length(exports) > 1) { var nonExports = ts.filter(statements, function (d) { return !ts.isExportDeclaration(d) || !!d.moduleSpecifier || !d.exportClause; }); statements = __spreadArrays(nonExports, [ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports(ts.flatMap(exports, function (e) { return ts.cast(e.exportClause, ts.isNamedExports).elements; })), /*moduleSpecifier*/ undefined)]); } // Pass 2b: Also combine all `export {} from "..."` declarations as needed var reexports = ts.filter(statements, function (d) { return ts.isExportDeclaration(d) && !!d.moduleSpecifier && !!d.exportClause && ts.isNamedExports(d.exportClause); }); if (ts.length(reexports) > 1) { var groups = ts.group(reexports, function (decl) { return ts.isStringLiteral(decl.moduleSpecifier) ? ">" + decl.moduleSpecifier.text : ">"; }); if (groups.length !== reexports.length) { var _loop_8 = function (group_1) { if (group_1.length > 1) { // remove group members from statements and then merge group members and add back to statements statements = __spreadArrays(ts.filter(statements, function (s) { return group_1.indexOf(s) === -1; }), [ ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports(ts.flatMap(group_1, function (e) { return ts.cast(e.exportClause, ts.isNamedExports).elements; })), group_1[0].moduleSpecifier) ]); } }; for (var _i = 0, groups_1 = groups; _i < groups_1.length; _i++) { var group_1 = groups_1[_i]; _loop_8(group_1); } } } return statements; } function inlineExportModifiers(statements) { // Pass 3: Move all `export {}`'s to `export` modifiers where possible var exportDecl = ts.find(statements, function (d) { return ts.isExportDeclaration(d) && !d.moduleSpecifier && !!d.exportClause; }); if (exportDecl && exportDecl.exportClause && ts.isNamedExports(exportDecl.exportClause)) { var replacements = ts.mapDefined(exportDecl.exportClause.elements, function (e) { if (!e.propertyName) { // export {name} - look thru `statements` for `name`, and if all results can take an `export` modifier, do so and filter it var associated = ts.filter(statements, function (s) { return ts.nodeHasName(s, e.name); }); if (ts.length(associated) && ts.every(associated, canHaveExportModifier)) { ts.forEach(associated, addExportModifier); return undefined; } } return e; }); if (!ts.length(replacements)) { // all clauses removed, filter the export declaration statements = ts.filter(statements, function (s) { return s !== exportDecl; }); } else { // some items filtered, others not - update the export declaration // (mutating because why not, we're building a whole new tree here anyway) exportDecl.exportClause.elements = ts.createNodeArray(replacements); } } return statements; } function mergeRedundantStatements(statements) { statements = flattenExportAssignedNamespace(statements); statements = mergeExportDeclarations(statements); statements = inlineExportModifiers(statements); // Not a cleanup, but as a final step: If there is a mix of `export` and non-`export` declarations, but no `export =` or `export {}` add a `export {};` so // declaration privacy is respected. if (enclosingDeclaration && ((ts.isSourceFile(enclosingDeclaration) && ts.isExternalOrCommonJsModule(enclosingDeclaration)) || ts.isModuleDeclaration(enclosingDeclaration)) && (!ts.some(statements, ts.isExternalModuleIndicator) || (!ts.hasScopeMarker(statements) && ts.some(statements, ts.needsScopeMarker)))) { statements.push(ts.createEmptyExports()); } return statements; } function canHaveExportModifier(node) { return ts.isEnumDeclaration(node) || ts.isVariableStatement(node) || ts.isFunctionDeclaration(node) || ts.isClassDeclaration(node) || (ts.isModuleDeclaration(node) && !ts.isExternalModuleAugmentation(node) && !ts.isGlobalScopeAugmentation(node)) || ts.isInterfaceDeclaration(node) || isTypeDeclaration(node); } function addExportModifier(statement) { var flags = (ts.getModifierFlags(statement) | 1 /* Export */) & ~2 /* Ambient */; statement.modifiers = ts.createNodeArray(ts.createModifiersFromModifierFlags(flags)); statement.modifierFlagsCache = 0; } function visitSymbolTable(symbolTable, suppressNewPrivateContext, propertyAsAlias) { var oldDeferredPrivates = deferredPrivates; if (!suppressNewPrivateContext) { deferredPrivates = ts.createMap(); } symbolTable.forEach(function (symbol) { serializeSymbol(symbol, /*isPrivate*/ false, !!propertyAsAlias); }); if (!suppressNewPrivateContext) { // deferredPrivates will be filled up by visiting the symbol table // And will continue to iterate as elements are added while visited `deferredPrivates` // (As that's how a map iterator is defined to work) deferredPrivates.forEach(function (symbol) { serializeSymbol(symbol, /*isPrivate*/ true, !!propertyAsAlias); }); } deferredPrivates = oldDeferredPrivates; } function serializeSymbol(symbol, isPrivate, propertyAsAlias) { // cache visited list based on merged symbol, since we want to use the unmerged top-level symbol, but // still skip reserializing it if we encounter the merged product later on var visitedSym = getMergedSymbol(symbol); if (visitedSymbols.has("" + getSymbolId(visitedSym))) { return; // Already printed } visitedSymbols.set("" + getSymbolId(visitedSym), true); // Only actually serialize symbols within the correct enclosing declaration, otherwise do nothing with the out-of-context symbol var skipMembershipCheck = !isPrivate; // We only call this on exported symbols when we know they're in the correct scope if (skipMembershipCheck || (!!ts.length(symbol.declarations) && ts.some(symbol.declarations, function (d) { return !!ts.findAncestor(d, function (n) { return n === enclosingDeclaration; }); }))) { var oldContext = context; context = cloneNodeBuilderContext(context); var result = serializeSymbolWorker(symbol, isPrivate, propertyAsAlias); context = oldContext; return result; } } // Synthesize declarations for a symbol - might be an Interface, a Class, a Namespace, a Type, a Variable (const, let, or var), an Alias // or a merge of some number of those. // An interesting challenge is ensuring that when classes merge with namespaces and interfaces, is keeping // each symbol in only one of the representations // Also, synthesizing a default export of some kind // If it's an alias: emit `export default ref` // If it's a property: emit `export default _default` with a `_default` prop // If it's a class/interface/function: emit a class/interface/function with a `default` modifier // These forms can merge, eg (`export default 12; export default interface A {}`) function serializeSymbolWorker(symbol, isPrivate, propertyAsAlias) { var symbolName = ts.unescapeLeadingUnderscores(symbol.escapedName); var isDefault = symbol.escapedName === "default" /* Default */; if (!(context.flags & 131072 /* AllowAnonymousIdentifier */) && ts.isStringANonContextualKeyword(symbolName) && !isDefault) { // Oh no. We cannot use this symbol's name as it's name... It's likely some jsdoc had an invalid name like `export` or `default` :( context.encounteredError = true; // TODO: Issue error via symbol tracker? return; // If we need to emit a private with a keyword name, we're done for, since something else will try to refer to it by that name } var needsPostExportDefault = isDefault && !!(symbol.flags & -113 /* ExportDoesNotSupportDefaultModifier */ || (symbol.flags & 16 /* Function */ && ts.length(getPropertiesOfType(getTypeOfSymbol(symbol))))) && !(symbol.flags & 2097152 /* Alias */); // An alias symbol should preclude needing to make an alias ourselves if (needsPostExportDefault) { isPrivate = true; } var modifierFlags = (!isPrivate ? 1 /* Export */ : 0) | (isDefault && !needsPostExportDefault ? 512 /* Default */ : 0); var isConstMergedWithNS = symbol.flags & 1536 /* Module */ && symbol.flags & (2 /* BlockScopedVariable */ | 1 /* FunctionScopedVariable */ | 4 /* Property */) && symbol.escapedName !== "export=" /* ExportEquals */; var isConstMergedWithNSPrintableAsSignatureMerge = isConstMergedWithNS && isTypeRepresentableAsFunctionNamespaceMerge(getTypeOfSymbol(symbol), symbol); if (symbol.flags & (16 /* Function */ | 8192 /* Method */) || isConstMergedWithNSPrintableAsSignatureMerge) { serializeAsFunctionNamespaceMerge(getTypeOfSymbol(symbol), symbol, getInternalSymbolName(symbol, symbolName), modifierFlags); } if (symbol.flags & 524288 /* TypeAlias */) { serializeTypeAlias(symbol, symbolName, modifierFlags); } // Need to skip over export= symbols below - json source files get a single `Property` flagged // symbol of name `export=` which needs to be handled like an alias. It's not great, but it is what it is. if (symbol.flags & (2 /* BlockScopedVariable */ | 1 /* FunctionScopedVariable */ | 4 /* Property */) && symbol.escapedName !== "export=" /* ExportEquals */ && !(symbol.flags & 4194304 /* Prototype */) && !(symbol.flags & 32 /* Class */) && !isConstMergedWithNSPrintableAsSignatureMerge) { serializeVariableOrProperty(symbol, symbolName, isPrivate, needsPostExportDefault, propertyAsAlias, modifierFlags); } if (symbol.flags & 384 /* Enum */) { serializeEnum(symbol, symbolName, modifierFlags); } if (symbol.flags & 32 /* Class */) { if (symbol.flags & 4 /* Property */ && ts.isBinaryExpression(symbol.valueDeclaration.parent) && ts.isClassExpression(symbol.valueDeclaration.parent.right)) { // Looks like a `module.exports.Sub = class {}` - if we serialize `symbol` as a class, the result will have no members, // since the classiness is actually from the target of the effective alias the symbol is. yes. A BlockScopedVariable|Class|Property // _really_ acts like an Alias, and none of a BlockScopedVariable, Class, or Property. This is the travesty of JS binding today. serializeAsAlias(symbol, getInternalSymbolName(symbol, symbolName), modifierFlags); } else { serializeAsClass(symbol, getInternalSymbolName(symbol, symbolName), modifierFlags); } } if ((symbol.flags & (512 /* ValueModule */ | 1024 /* NamespaceModule */) && (!isConstMergedWithNS || isTypeOnlyNamespace(symbol))) || isConstMergedWithNSPrintableAsSignatureMerge) { serializeModule(symbol, symbolName, modifierFlags); } if (symbol.flags & 64 /* Interface */) { serializeInterface(symbol, symbolName, modifierFlags); } if (symbol.flags & 2097152 /* Alias */) { serializeAsAlias(symbol, getInternalSymbolName(symbol, symbolName), modifierFlags); } if (symbol.flags & 4 /* Property */ && symbol.escapedName === "export=" /* ExportEquals */) { serializeMaybeAliasAssignment(symbol); } if (symbol.flags & 8388608 /* ExportStar */) { // synthesize export * from "moduleReference" // Straightforward - only one thing to do - make an export declaration for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var node = _a[_i]; var resolvedModule = resolveExternalModuleName(node, node.moduleSpecifier); if (!resolvedModule) continue; addResult(ts.createExportDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, /*exportClause*/ undefined, ts.createLiteral(getSpecifierForModuleSymbol(resolvedModule, context))), 0 /* None */); } } if (needsPostExportDefault) { addResult(ts.createExportAssignment(/*decorators*/ undefined, /*modifiers*/ undefined, /*isExportAssignment*/ false, ts.createIdentifier(getInternalSymbolName(symbol, symbolName))), 0 /* None */); } } function includePrivateSymbol(symbol) { if (ts.some(symbol.declarations, ts.isParameterDeclaration)) return; ts.Debug.assertIsDefined(deferredPrivates); getUnusedName(ts.unescapeLeadingUnderscores(symbol.escapedName), symbol); // Call to cache unique name for symbol deferredPrivates.set("" + getSymbolId(symbol), symbol); } function isExportingScope(enclosingDeclaration) { return ((ts.isSourceFile(enclosingDeclaration) && (ts.isExternalOrCommonJsModule(enclosingDeclaration) || ts.isJsonSourceFile(enclosingDeclaration))) || (ts.isAmbientModule(enclosingDeclaration) && !ts.isGlobalScopeAugmentation(enclosingDeclaration))); } // Prepends a `declare` and/or `export` modifier if the context requires it, and then adds `node` to `result` and returns `node` // Note: This _mutates_ `node` without using `updateNode` - the assumption being that all nodes should be manufactured fresh by the node builder function addResult(node, additionalModifierFlags) { var newModifierFlags = 0 /* None */; if (additionalModifierFlags & 1 /* Export */ && enclosingDeclaration && isExportingScope(enclosingDeclaration) && canHaveExportModifier(node)) { // Classes, namespaces, variables, functions, interfaces, and types should all be `export`ed in a module context if not private newModifierFlags |= 1 /* Export */; } if (addingDeclare && !(newModifierFlags & 1 /* Export */) && (!enclosingDeclaration || !(enclosingDeclaration.flags & 8388608 /* Ambient */)) && (ts.isEnumDeclaration(node) || ts.isVariableStatement(node) || ts.isFunctionDeclaration(node) || ts.isClassDeclaration(node) || ts.isModuleDeclaration(node))) { // Classes, namespaces, variables, enums, and functions all need `declare` modifiers to be valid in a declaration file top-level scope newModifierFlags |= 2 /* Ambient */; } if ((additionalModifierFlags & 512 /* Default */) && (ts.isClassDeclaration(node) || ts.isInterfaceDeclaration(node) || ts.isFunctionDeclaration(node))) { newModifierFlags |= 512 /* Default */; } if (newModifierFlags) { node.modifiers = ts.createNodeArray(ts.createModifiersFromModifierFlags(newModifierFlags | ts.getModifierFlags(node))); node.modifierFlagsCache = 0; // Reset computed flags cache } results.push(node); } function serializeTypeAlias(symbol, symbolName, modifierFlags) { var aliasType = getDeclaredTypeOfTypeAlias(symbol); var typeParams = getSymbolLinks(symbol).typeParameters; var typeParamDecls = ts.map(typeParams, function (p) { return typeParameterToDeclaration(p, context); }); var jsdocAliasDecl = ts.find(symbol.declarations, ts.isJSDocTypeAlias); var commentText = jsdocAliasDecl ? jsdocAliasDecl.comment || jsdocAliasDecl.parent.comment : undefined; var oldFlags = context.flags; context.flags |= 8388608 /* InTypeAlias */; addResult(ts.setSyntheticLeadingComments(ts.createTypeAliasDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, getInternalSymbolName(symbol, symbolName), typeParamDecls, typeToTypeNodeHelper(aliasType, context)), !commentText ? [] : [{ kind: 3 /* MultiLineCommentTrivia */, text: "*\n * " + commentText.replace(/\n/g, "\n * ") + "\n ", pos: -1, end: -1, hasTrailingNewLine: true }]), modifierFlags); context.flags = oldFlags; } function serializeInterface(symbol, symbolName, modifierFlags) { var interfaceType = getDeclaredTypeOfClassOrInterface(symbol); var localParams = getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol); var typeParamDecls = ts.map(localParams, function (p) { return typeParameterToDeclaration(p, context); }); var baseTypes = getBaseTypes(interfaceType); var baseType = ts.length(baseTypes) ? getIntersectionType(baseTypes) : undefined; var members = ts.flatMap(getPropertiesOfType(interfaceType), function (p) { return serializePropertySymbolForInterface(p, baseType); }); var callSignatures = serializeSignatures(0 /* Call */, interfaceType, baseType, 165 /* CallSignature */); var constructSignatures = serializeSignatures(1 /* Construct */, interfaceType, baseType, 166 /* ConstructSignature */); var indexSignatures = serializeIndexSignatures(interfaceType, baseType); var heritageClauses = !ts.length(baseTypes) ? undefined : [ts.createHeritageClause(90 /* ExtendsKeyword */, ts.mapDefined(baseTypes, function (b) { return trySerializeAsTypeReference(b); }))]; addResult(ts.createInterfaceDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, getInternalSymbolName(symbol, symbolName), typeParamDecls, heritageClauses, __spreadArrays(indexSignatures, constructSignatures, callSignatures, members)), modifierFlags); } function getNamespaceMembersForSerialization(symbol) { return !symbol.exports ? [] : ts.filter(ts.arrayFrom(symbol.exports.values()), isNamespaceMember); } function isTypeOnlyNamespace(symbol) { return ts.every(getNamespaceMembersForSerialization(symbol), function (m) { return !(resolveSymbol(m).flags & 111551 /* Value */); }); } function serializeModule(symbol, symbolName, modifierFlags) { var members = getNamespaceMembersForSerialization(symbol); // Split NS members up by declaration - members whose parent symbol is the ns symbol vs those whose is not (but were added in later via merging) var locationMap = ts.arrayToMultiMap(members, function (m) { return m.parent && m.parent === symbol ? "real" : "merged"; }); var realMembers = locationMap.get("real") || ts.emptyArray; var mergedMembers = locationMap.get("merged") || ts.emptyArray; // TODO: `suppressNewPrivateContext` is questionable -we need to simply be emitting privates in whatever scope they were declared in, rather // than whatever scope we traverse to them in. That's a bit of a complex rewrite, since we're not _actually_ tracking privates at all in advance, // so we don't even have placeholders to fill in. if (ts.length(realMembers)) { var localName = getInternalSymbolName(symbol, symbolName); serializeAsNamespaceDeclaration(realMembers, localName, modifierFlags, !!(symbol.flags & (16 /* Function */ | 67108864 /* Assignment */))); } if (ts.length(mergedMembers)) { var containingFile_1 = ts.getSourceFileOfNode(context.enclosingDeclaration); var localName = getInternalSymbolName(symbol, symbolName); var nsBody = ts.createModuleBlock([ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports(ts.mapDefined(ts.filter(mergedMembers, function (n) { return n.escapedName !== "export=" /* ExportEquals */; }), function (s) { var _a, _b; var name = ts.unescapeLeadingUnderscores(s.escapedName); var localName = getInternalSymbolName(s, name); var aliasDecl = s.declarations && getDeclarationOfAliasSymbol(s); if (containingFile_1 && (aliasDecl ? containingFile_1 !== ts.getSourceFileOfNode(aliasDecl) : !ts.some(s.declarations, function (d) { return ts.getSourceFileOfNode(d) === containingFile_1; }))) { (_b = (_a = context.tracker) === null || _a === void 0 ? void 0 : _a.reportNonlocalAugmentation) === null || _b === void 0 ? void 0 : _b.call(_a, containingFile_1, symbol, s); return undefined; } var target = aliasDecl && getTargetOfAliasDeclaration(aliasDecl, /*dontRecursivelyResolve*/ true); includePrivateSymbol(target || s); var targetName = target ? getInternalSymbolName(target, ts.unescapeLeadingUnderscores(target.escapedName)) : localName; return ts.createExportSpecifier(name === targetName ? undefined : targetName, name); })))]); addResult(ts.createModuleDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createIdentifier(localName), nsBody, 16 /* Namespace */), 0 /* None */); } } function serializeEnum(symbol, symbolName, modifierFlags) { addResult(ts.createEnumDeclaration( /*decorators*/ undefined, ts.createModifiersFromModifierFlags(isConstEnumSymbol(symbol) ? 2048 /* Const */ : 0), getInternalSymbolName(symbol, symbolName), ts.map(ts.filter(getPropertiesOfType(getTypeOfSymbol(symbol)), function (p) { return !!(p.flags & 8 /* EnumMember */); }), function (p) { // TODO: Handle computed names // I hate that to get the initialized value we need to walk back to the declarations here; but there's no // other way to get the possible const value of an enum member that I'm aware of, as the value is cached // _on the declaration_, not on the declaration's symbol... var initializedValue = p.declarations && p.declarations[0] && ts.isEnumMember(p.declarations[0]) && getConstantValue(p.declarations[0]); return ts.createEnumMember(ts.unescapeLeadingUnderscores(p.escapedName), initializedValue === undefined ? undefined : ts.createLiteral(initializedValue)); })), modifierFlags); } function serializeVariableOrProperty(symbol, symbolName, isPrivate, needsPostExportDefault, propertyAsAlias, modifierFlags) { if (propertyAsAlias) { serializeMaybeAliasAssignment(symbol); } else { var type = getTypeOfSymbol(symbol); var localName = getInternalSymbolName(symbol, symbolName); if (!(symbol.flags & 16 /* Function */) && isTypeRepresentableAsFunctionNamespaceMerge(type, symbol)) { // If the type looks like a function declaration + ns could represent it, and it's type is sourced locally, rewrite it into a function declaration + ns serializeAsFunctionNamespaceMerge(type, symbol, localName, modifierFlags); } else { // A Class + Property merge is made for a `module.exports.Member = class {}`, and it doesn't serialize well as either a class _or_ a property symbol - in fact, _it behaves like an alias!_ // `var` is `FunctionScopedVariable`, `const` and `let` are `BlockScopedVariable`, and `module.exports.thing =` is `Property` var flags = !(symbol.flags & 2 /* BlockScopedVariable */) ? undefined : isConstVariable(symbol) ? 2 /* Const */ : 1 /* Let */; var name = (needsPostExportDefault || !(symbol.flags & 4 /* Property */)) ? localName : getUnusedName(localName, symbol); var textRange = symbol.declarations && ts.find(symbol.declarations, function (d) { return ts.isVariableDeclaration(d); }); if (textRange && ts.isVariableDeclarationList(textRange.parent) && textRange.parent.declarations.length === 1) { textRange = textRange.parent.parent; } var statement = ts.setTextRange(ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(name, serializeTypeForDeclaration(context, type, symbol, enclosingDeclaration, includePrivateSymbol, bundled)) ], flags)), textRange); addResult(statement, name !== localName ? modifierFlags & ~1 /* Export */ : modifierFlags); if (name !== localName && !isPrivate) { // We rename the variable declaration we generate for Property symbols since they may have a name which // conflicts with a local declaration. For example, given input: // ``` // function g() {} // module.exports.g = g // ``` // In such a situation, we have a local variable named `g`, and a separate exported variable named `g`. // Naively, we would emit // ``` // function g() {} // export const g: typeof g; // ``` // That's obviously incorrect - the `g` in the type annotation needs to refer to the local `g`, but // the export declaration shadows it. // To work around that, we instead write // ``` // function g() {} // const g_1: typeof g; // export { g_1 as g }; // ``` // To create an export named `g` that does _not_ shadow the local `g` addResult(ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports([ts.createExportSpecifier(name, localName)])), 0 /* None */); } } } } function serializeAsFunctionNamespaceMerge(type, symbol, localName, modifierFlags) { var signatures = getSignaturesOfType(type, 0 /* Call */); for (var _i = 0, signatures_2 = signatures; _i < signatures_2.length; _i++) { var sig = signatures_2[_i]; // Each overload becomes a separate function declaration, in order var decl = signatureToSignatureDeclarationHelper(sig, 244 /* FunctionDeclaration */, context, includePrivateSymbol, bundled); decl.name = ts.createIdentifier(localName); // for expressions assigned to `var`s, use the `var` as the text range addResult(ts.setTextRange(decl, sig.declaration && ts.isVariableDeclaration(sig.declaration.parent) && sig.declaration.parent.parent || sig.declaration), modifierFlags); } // Module symbol emit will take care of module-y members, provided it has exports if (!(symbol.flags & (512 /* ValueModule */ | 1024 /* NamespaceModule */) && !!symbol.exports && !!symbol.exports.size)) { var props = ts.filter(getPropertiesOfType(type), isNamespaceMember); serializeAsNamespaceDeclaration(props, localName, modifierFlags, /*suppressNewPrivateContext*/ true); } } function serializeAsNamespaceDeclaration(props, localName, modifierFlags, suppressNewPrivateContext) { if (ts.length(props)) { var localVsRemoteMap = ts.arrayToMultiMap(props, function (p) { return !ts.length(p.declarations) || ts.some(p.declarations, function (d) { return ts.getSourceFileOfNode(d) === ts.getSourceFileOfNode(context.enclosingDeclaration); }) ? "local" : "remote"; }); var localProps = localVsRemoteMap.get("local") || ts.emptyArray; // handle remote props first - we need to make an `import` declaration that points at the module containing each remote // prop in the outermost scope (TODO: a namespace within a namespace would need to be appropriately handled by this) // Example: // import Foo_1 = require("./exporter"); // export namespace ns { // import Foo = Foo_1.Foo; // export { Foo }; // export const c: number; // } // This is needed because in JS, statements like `const x = require("./f")` support both type and value lookup, even if they're // normally just value lookup (so it functions kinda like an alias even when it's not an alias) // _Usually_, we'll simply print the top-level as an alias instead of a `var` in such situations, however is is theoretically // possible to encounter a situation where a type has members from both the current file and other files - in those situations, // emit akin to the above would be needed. // Add a namespace var fakespace = ts.createModuleDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, ts.createIdentifier(localName), ts.createModuleBlock([]), 16 /* Namespace */); fakespace.flags ^= 8 /* Synthesized */; // unset synthesized so it is usable as an enclosing declaration fakespace.parent = enclosingDeclaration; fakespace.locals = ts.createSymbolTable(props); fakespace.symbol = props[0].parent; var oldResults = results; results = []; var oldAddingDeclare = addingDeclare; addingDeclare = false; var subcontext = __assign(__assign({}, context), { enclosingDeclaration: fakespace }); var oldContext = context; context = subcontext; // TODO: implement handling for the localVsRemoteMap.get("remote") - should be difficult to trigger (see comment above), as only interesting cross-file js merges should make this possible visitSymbolTable(ts.createSymbolTable(localProps), suppressNewPrivateContext, /*propertyAsAlias*/ true); context = oldContext; addingDeclare = oldAddingDeclare; var declarations = results; results = oldResults; fakespace.flags ^= 8 /* Synthesized */; // reset synthesized fakespace.parent = undefined; fakespace.locals = undefined; fakespace.symbol = undefined; fakespace.body = ts.createModuleBlock(declarations); addResult(fakespace, modifierFlags); // namespaces can never be default exported } } function isNamespaceMember(p) { return !(p.flags & 4194304 /* Prototype */ || p.escapedName === "prototype" || p.valueDeclaration && ts.isClassLike(p.valueDeclaration.parent)); } function serializeAsClass(symbol, localName, modifierFlags) { var localParams = getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol); var typeParamDecls = ts.map(localParams, function (p) { return typeParameterToDeclaration(p, context); }); var classType = getDeclaredTypeOfClassOrInterface(symbol); var baseTypes = getBaseTypes(classType); var implementsTypes = getImplementsTypes(classType); var staticType = getTypeOfSymbol(symbol); var staticBaseType = getBaseConstructorTypeOfClass(staticType); var heritageClauses = __spreadArrays(!ts.length(baseTypes) ? [] : [ts.createHeritageClause(90 /* ExtendsKeyword */, ts.map(baseTypes, function (b) { return serializeBaseType(b, staticBaseType, localName); }))], !ts.length(implementsTypes) ? [] : [ts.createHeritageClause(113 /* ImplementsKeyword */, ts.map(implementsTypes, function (b) { return serializeBaseType(b, staticBaseType, localName); }))]); var symbolProps = getNonInterhitedProperties(classType, baseTypes, getPropertiesOfType(classType)); var publicSymbolProps = ts.filter(symbolProps, function (s) { // `valueDeclaration` could be undefined if inherited from // a union/intersection base type, but inherited properties // don't matter here. var valueDecl = s.valueDeclaration; return valueDecl && !(ts.isNamedDeclaration(valueDecl) && ts.isPrivateIdentifier(valueDecl.name)); }); var hasPrivateIdentifier = ts.some(symbolProps, function (s) { // `valueDeclaration` could be undefined if inherited from // a union/intersection base type, but inherited properties // don't matter here. var valueDecl = s.valueDeclaration; return valueDecl && ts.isNamedDeclaration(valueDecl) && ts.isPrivateIdentifier(valueDecl.name); }); // Boil down all private properties into a single one. var privateProperties = hasPrivateIdentifier ? [ts.createProperty( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createPrivateIdentifier("#private"), /*questionOrExclamationToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined)] : ts.emptyArray; var publicProperties = ts.flatMap(publicSymbolProps, function (p) { return serializePropertySymbolForClass(p, /*isStatic*/ false, baseTypes[0]); }); // Consider static members empty if symbol also has function or module meaning - function namespacey emit will handle statics var staticMembers = ts.flatMap(ts.filter(getPropertiesOfType(staticType), function (p) { return !(p.flags & 4194304 /* Prototype */) && p.escapedName !== "prototype" && !isNamespaceMember(p); }), function (p) { return serializePropertySymbolForClass(p, /*isStatic*/ true, staticBaseType); }); var constructors = serializeSignatures(1 /* Construct */, staticType, baseTypes[0], 162 /* Constructor */); for (var _i = 0, constructors_1 = constructors; _i < constructors_1.length; _i++) { var c = constructors_1[_i]; // A constructor's return type and type parameters are supposed to be controlled by the enclosing class declaration // `signatureToSignatureDeclarationHelper` appends them regardless, so for now we delete them here c.type = undefined; c.typeParameters = undefined; } var indexSignatures = serializeIndexSignatures(classType, baseTypes[0]); addResult(ts.setTextRange(ts.createClassDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, localName, typeParamDecls, heritageClauses, __spreadArrays(indexSignatures, staticMembers, constructors, publicProperties, privateProperties)), symbol.declarations && ts.filter(symbol.declarations, function (d) { return ts.isClassDeclaration(d) || ts.isClassExpression(d); })[0]), modifierFlags); } function serializeAsAlias(symbol, localName, modifierFlags) { // synthesize an alias, eg `export { symbolName as Name }` // need to mark the alias `symbol` points at // as something we need to serialize as a private declaration as well var node = getDeclarationOfAliasSymbol(symbol); if (!node) return ts.Debug.fail(); var target = getMergedSymbol(getTargetOfAliasDeclaration(node, /*dontRecursivelyResolve*/ true)); if (!target) { return; } var verbatimTargetName = ts.unescapeLeadingUnderscores(target.escapedName); if (verbatimTargetName === "export=" /* ExportEquals */ && (compilerOptions.esModuleInterop || compilerOptions.allowSyntheticDefaultImports)) { // target refers to an `export=` symbol that was hoisted into a synthetic default - rename here to match verbatimTargetName = "default" /* Default */; } var targetName = getInternalSymbolName(target, verbatimTargetName); includePrivateSymbol(target); // the target may be within the same scope - attempt to serialize it first switch (node.kind) { case 253 /* ImportEqualsDeclaration */: // Could be a local `import localName = ns.member` or // an external `import localName = require("whatever")` var isLocalImport = !(target.flags & 512 /* ValueModule */); addResult(ts.createImportEqualsDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createIdentifier(localName), isLocalImport ? symbolToName(target, context, 67108863 /* All */, /*expectsIdentifier*/ false) : ts.createExternalModuleReference(ts.createLiteral(getSpecifierForModuleSymbol(symbol, context)))), isLocalImport ? modifierFlags : 0 /* None */); break; case 252 /* NamespaceExportDeclaration */: // export as namespace foo // TODO: Not part of a file's local or export symbol tables // Is bound into file.symbol.globalExports instead, which we don't currently traverse addResult(ts.createNamespaceExportDeclaration(ts.idText(node.name)), 0 /* None */); break; case 255 /* ImportClause */: addResult(ts.createImportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createImportClause(ts.createIdentifier(localName), /*namedBindings*/ undefined), // We use `target.parent || target` below as `target.parent` is unset when the target is a module which has been export assigned // And then made into a default by the `esModuleInterop` or `allowSyntheticDefaultImports` flag // In such cases, the `target` refers to the module itself already ts.createLiteral(getSpecifierForModuleSymbol(target.parent || target, context))), 0 /* None */); break; case 256 /* NamespaceImport */: addResult(ts.createImportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createImportClause(/*importClause*/ undefined, ts.createNamespaceImport(ts.createIdentifier(localName))), ts.createLiteral(getSpecifierForModuleSymbol(target, context))), 0 /* None */); break; case 262 /* NamespaceExport */: addResult(ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamespaceExport(ts.createIdentifier(localName)), ts.createLiteral(getSpecifierForModuleSymbol(target, context))), 0 /* None */); break; case 258 /* ImportSpecifier */: addResult(ts.createImportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createImportClause(/*importClause*/ undefined, ts.createNamedImports([ ts.createImportSpecifier(localName !== verbatimTargetName ? ts.createIdentifier(verbatimTargetName) : undefined, ts.createIdentifier(localName)) ])), ts.createLiteral(getSpecifierForModuleSymbol(target.parent || target, context))), 0 /* None */); break; case 263 /* ExportSpecifier */: // does not use localName because the symbol name in this case refers to the name in the exports table, // which we must exactly preserve var specifier = node.parent.parent.moduleSpecifier; // targetName is only used when the target is local, as otherwise the target is an alias that points at // another file serializeExportSpecifier(ts.unescapeLeadingUnderscores(symbol.escapedName), specifier ? verbatimTargetName : targetName, specifier && ts.isStringLiteralLike(specifier) ? ts.createLiteral(specifier.text) : undefined); break; case 259 /* ExportAssignment */: serializeMaybeAliasAssignment(symbol); break; case 209 /* BinaryExpression */: case 194 /* PropertyAccessExpression */: // Could be best encoded as though an export specifier or as though an export assignment // If name is default or export=, do an export assignment // Otherwise do an export specifier if (symbol.escapedName === "default" /* Default */ || symbol.escapedName === "export=" /* ExportEquals */) { serializeMaybeAliasAssignment(symbol); } else { serializeExportSpecifier(localName, targetName); } break; default: return ts.Debug.failBadSyntaxKind(node, "Unhandled alias declaration kind in symbol serializer!"); } } function serializeExportSpecifier(localName, targetName, specifier) { addResult(ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports([ts.createExportSpecifier(localName !== targetName ? targetName : undefined, localName)]), specifier), 0 /* None */); } function serializeMaybeAliasAssignment(symbol) { if (symbol.flags & 4194304 /* Prototype */) { return; } var name = ts.unescapeLeadingUnderscores(symbol.escapedName); var isExportEquals = name === "export=" /* ExportEquals */; var isDefault = name === "default" /* Default */; var isExportAssignment = isExportEquals || isDefault; // synthesize export = ref // ref should refer to either be a locally scoped symbol which we need to emit, or // a reference to another namespace/module which we may need to emit an `import` statement for var aliasDecl = symbol.declarations && getDeclarationOfAliasSymbol(symbol); // serialize what the alias points to, preserve the declaration's initializer var target = aliasDecl && getTargetOfAliasDeclaration(aliasDecl, /*dontRecursivelyResolve*/ true); // If the target resolves and resolves to a thing defined in this file, emit as an alias, otherwise emit as a const if (target && ts.length(target.declarations) && ts.some(target.declarations, function (d) { return ts.getSourceFileOfNode(d) === ts.getSourceFileOfNode(enclosingDeclaration); })) { // In case `target` refers to a namespace member, look at the declaration and serialize the leftmost symbol in it // eg, `namespace A { export class B {} }; exports = A.B;` // Technically, this is all that's required in the case where the assignment is an entity name expression var expr = isExportAssignment ? ts.getExportAssignmentExpression(aliasDecl) : ts.getPropertyAssignmentAliasLikeExpression(aliasDecl); var first_1 = ts.isEntityNameExpression(expr) ? getFirstNonModuleExportsIdentifier(expr) : undefined; var referenced = first_1 && resolveEntityName(first_1, 67108863 /* All */, /*ignoreErrors*/ true, /*dontResolveAlias*/ true, enclosingDeclaration); if (referenced || target) { includePrivateSymbol(referenced || target); } // We disable the context's symbol tracker for the duration of this name serialization // as, by virtue of being here, the name is required to print something, and we don't want to // issue a visibility error on it. Only anonymous classes that an alias points at _would_ issue // a visibility error here (as they're not visible within any scope), but we want to hoist them // into the containing scope anyway, so we want to skip the visibility checks. var oldTrack = context.tracker.trackSymbol; context.tracker.trackSymbol = ts.noop; if (isExportAssignment) { results.push(ts.createExportAssignment( /*decorators*/ undefined, /*modifiers*/ undefined, isExportEquals, symbolToExpression(target, context, 67108863 /* All */))); } else { if (first_1 === expr) { // serialize as `export {target as name}` serializeExportSpecifier(name, ts.idText(first_1)); } else if (ts.isClassExpression(expr)) { serializeExportSpecifier(name, getInternalSymbolName(target, ts.symbolName(target))); } else { // serialize as `import _Ref = t.arg.et; export { _Ref as name }` var varName = getUnusedName(name, symbol); addResult(ts.createImportEqualsDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createIdentifier(varName), symbolToName(target, context, 67108863 /* All */, /*expectsIdentifier*/ false)), 0 /* None */); serializeExportSpecifier(name, varName); } } context.tracker.trackSymbol = oldTrack; } else { // serialize as an anonymous property declaration var varName = getUnusedName(name, symbol); // We have to use `getWidenedType` here since the object within a json file is unwidened within the file // (Unwidened types can only exist in expression contexts and should never be serialized) var typeToSerialize = getWidenedType(getTypeOfSymbol(getMergedSymbol(symbol))); if (isTypeRepresentableAsFunctionNamespaceMerge(typeToSerialize, symbol)) { // If there are no index signatures and `typeToSerialize` is an object type, emit as a namespace instead of a const serializeAsFunctionNamespaceMerge(typeToSerialize, symbol, varName, isExportAssignment ? 0 /* None */ : 1 /* Export */); } else { var statement = ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(varName, serializeTypeForDeclaration(context, typeToSerialize, symbol, enclosingDeclaration, includePrivateSymbol, bundled)) ], 2 /* Const */)); addResult(statement, name === varName ? 1 /* Export */ : 0 /* None */); } if (isExportAssignment) { results.push(ts.createExportAssignment( /*decorators*/ undefined, /*modifiers*/ undefined, isExportEquals, ts.createIdentifier(varName))); } else if (name !== varName) { serializeExportSpecifier(name, varName); } } } function isTypeRepresentableAsFunctionNamespaceMerge(typeToSerialize, hostSymbol) { // Only object types which are not constructable, or indexable, whose members all come from the // context source file, and whose property names are all valid identifiers and not late-bound, _and_ // whose input is not type annotated (if the input symbol has an annotation we can reuse, we should prefer it) var ctxSrc = ts.getSourceFileOfNode(context.enclosingDeclaration); return ts.getObjectFlags(typeToSerialize) & (16 /* Anonymous */ | 32 /* Mapped */) && !getIndexInfoOfType(typeToSerialize, 0 /* String */) && !getIndexInfoOfType(typeToSerialize, 1 /* Number */) && !!(ts.length(getPropertiesOfType(typeToSerialize)) || ts.length(getSignaturesOfType(typeToSerialize, 0 /* Call */))) && !ts.length(getSignaturesOfType(typeToSerialize, 1 /* Construct */)) && // TODO: could probably serialize as function + ns + class, now that that's OK !getDeclarationWithTypeAnnotation(hostSymbol, enclosingDeclaration) && !(typeToSerialize.symbol && ts.some(typeToSerialize.symbol.declarations, function (d) { return ts.getSourceFileOfNode(d) !== ctxSrc; })) && !ts.some(getPropertiesOfType(typeToSerialize), function (p) { return isLateBoundName(p.escapedName); }) && !ts.some(getPropertiesOfType(typeToSerialize), function (p) { return ts.some(p.declarations, function (d) { return ts.getSourceFileOfNode(d) !== ctxSrc; }); }) && ts.every(getPropertiesOfType(typeToSerialize), function (p) { return ts.isIdentifierText(ts.symbolName(p), languageVersion) && !ts.isStringAKeyword(ts.symbolName(p)); }); } function makeSerializePropertySymbol(createProperty, methodKind, useAccessors) { return function serializePropertySymbol(p, isStatic, baseType) { var modifierFlags = ts.getDeclarationModifierFlagsFromSymbol(p); var isPrivate = !!(modifierFlags & 8 /* Private */); if (isStatic && (p.flags & (788968 /* Type */ | 1920 /* Namespace */ | 2097152 /* Alias */))) { // Only value-only-meaning symbols can be correctly encoded as class statics, type/namespace/alias meaning symbols // need to be merged namespace members return []; } if (p.flags & 4194304 /* Prototype */ || (baseType && getPropertyOfType(baseType, p.escapedName) && isReadonlySymbol(getPropertyOfType(baseType, p.escapedName)) === isReadonlySymbol(p) && (p.flags & 16777216 /* Optional */) === (getPropertyOfType(baseType, p.escapedName).flags & 16777216 /* Optional */) && isTypeIdenticalTo(getTypeOfSymbol(p), getTypeOfPropertyOfType(baseType, p.escapedName)))) { return []; } var flag = (modifierFlags & ~256 /* Async */) | (isStatic ? 32 /* Static */ : 0); var name = getPropertyNameNodeForSymbol(p, context); var firstPropertyLikeDecl = ts.find(p.declarations, ts.or(ts.isPropertyDeclaration, ts.isAccessor, ts.isVariableDeclaration, ts.isPropertySignature, ts.isBinaryExpression, ts.isPropertyAccessExpression)); if (p.flags & 98304 /* Accessor */ && useAccessors) { var result = []; if (p.flags & 65536 /* SetAccessor */) { result.push(ts.setTextRange(ts.createSetAccessor( /*decorators*/ undefined, ts.createModifiersFromModifierFlags(flag), name, [ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "arg", /*questionToken*/ undefined, isPrivate ? undefined : serializeTypeForDeclaration(context, getTypeOfSymbol(p), p, enclosingDeclaration, includePrivateSymbol, bundled))], /*body*/ undefined), ts.find(p.declarations, ts.isSetAccessor) || firstPropertyLikeDecl)); } if (p.flags & 32768 /* GetAccessor */) { var isPrivate_1 = modifierFlags & 8 /* Private */; result.push(ts.setTextRange(ts.createGetAccessor( /*decorators*/ undefined, ts.createModifiersFromModifierFlags(flag), name, [], isPrivate_1 ? undefined : serializeTypeForDeclaration(context, getTypeOfSymbol(p), p, enclosingDeclaration, includePrivateSymbol, bundled), /*body*/ undefined), ts.find(p.declarations, ts.isGetAccessor) || firstPropertyLikeDecl)); } return result; } // This is an else/if as accessors and properties can't merge in TS, but might in JS // If this happens, we assume the accessor takes priority, as it imposes more constraints else if (p.flags & (4 /* Property */ | 3 /* Variable */)) { return ts.setTextRange(createProperty( /*decorators*/ undefined, ts.createModifiersFromModifierFlags((isReadonlySymbol(p) ? 64 /* Readonly */ : 0) | flag), name, p.flags & 16777216 /* Optional */ ? ts.createToken(57 /* QuestionToken */) : undefined, isPrivate ? undefined : serializeTypeForDeclaration(context, getTypeOfSymbol(p), p, enclosingDeclaration, includePrivateSymbol, bundled), // TODO: https://github.com/microsoft/TypeScript/pull/32372#discussion_r328386357 // interface members can't have initializers, however class members _can_ /*initializer*/ undefined), ts.find(p.declarations, ts.or(ts.isPropertyDeclaration, ts.isVariableDeclaration)) || firstPropertyLikeDecl); } if (p.flags & (8192 /* Method */ | 16 /* Function */)) { var type = getTypeOfSymbol(p); var signatures = getSignaturesOfType(type, 0 /* Call */); if (flag & 8 /* Private */) { return ts.setTextRange(createProperty( /*decorators*/ undefined, ts.createModifiersFromModifierFlags((isReadonlySymbol(p) ? 64 /* Readonly */ : 0) | flag), name, p.flags & 16777216 /* Optional */ ? ts.createToken(57 /* QuestionToken */) : undefined, /*type*/ undefined, /*initializer*/ undefined), ts.find(p.declarations, ts.isFunctionLikeDeclaration) || signatures[0] && signatures[0].declaration || p.declarations[0]); } var results_1 = []; for (var _i = 0, signatures_3 = signatures; _i < signatures_3.length; _i++) { var sig = signatures_3[_i]; // Each overload becomes a separate method declaration, in order var decl = signatureToSignatureDeclarationHelper(sig, methodKind, context); decl.name = name; // TODO: Clone if (flag) { decl.modifiers = ts.createNodeArray(ts.createModifiersFromModifierFlags(flag)); } if (p.flags & 16777216 /* Optional */) { decl.questionToken = ts.createToken(57 /* QuestionToken */); } results_1.push(ts.setTextRange(decl, sig.declaration)); } return results_1; } // The `Constructor`'s symbol isn't in the class's properties lists, obviously, since it's a signature on the static return ts.Debug.fail("Unhandled class member kind! " + (p.__debugFlags || p.flags)); }; } function serializePropertySymbolForInterface(p, baseType) { return serializePropertySymbolForInterfaceWorker(p, /*isStatic*/ false, baseType); } function serializeSignatures(kind, input, baseType, outputKind) { var signatures = getSignaturesOfType(input, kind); if (kind === 1 /* Construct */) { if (!baseType && ts.every(signatures, function (s) { return ts.length(s.parameters) === 0; })) { return []; // No base type, every constructor is empty - elide the extraneous `constructor()` } if (baseType) { // If there is a base type, if every signature in the class is identical to a signature in the baseType, elide all the declarations var baseSigs = getSignaturesOfType(baseType, 1 /* Construct */); if (!ts.length(baseSigs) && ts.every(signatures, function (s) { return ts.length(s.parameters) === 0; })) { return []; // Base had no explicit signatures, if all our signatures are also implicit, return an empty list } if (baseSigs.length === signatures.length) { var failed = false; for (var i = 0; i < baseSigs.length; i++) { if (!compareSignaturesIdentical(signatures[i], baseSigs[i], /*partialMatch*/ false, /*ignoreThisTypes*/ false, /*ignoreReturnTypes*/ true, compareTypesIdentical)) { failed = true; break; } } if (!failed) { return []; // Every signature was identical - elide constructor list as it is inherited } } } var privateProtected = 0; for (var _i = 0, signatures_4 = signatures; _i < signatures_4.length; _i++) { var s = signatures_4[_i]; if (s.declaration) { privateProtected |= ts.getSelectedModifierFlags(s.declaration, 8 /* Private */ | 16 /* Protected */); } } if (privateProtected) { return [ts.setTextRange(ts.createConstructor( /*decorators*/ undefined, ts.createModifiersFromModifierFlags(privateProtected), /*parameters*/ [], /*body*/ undefined), signatures[0].declaration)]; } } var results = []; for (var _a = 0, signatures_5 = signatures; _a < signatures_5.length; _a++) { var sig = signatures_5[_a]; // Each overload becomes a separate constructor declaration, in order var decl = signatureToSignatureDeclarationHelper(sig, outputKind, context); results.push(ts.setTextRange(decl, sig.declaration)); } return results; } function serializeIndexSignatures(input, baseType) { var results = []; for (var _i = 0, _a = [0 /* String */, 1 /* Number */]; _i < _a.length; _i++) { var type = _a[_i]; var info = getIndexInfoOfType(input, type); if (info) { if (baseType) { var baseInfo = getIndexInfoOfType(baseType, type); if (baseInfo) { if (isTypeIdenticalTo(info.type, baseInfo.type)) { continue; // elide identical index signatures } } } results.push(indexInfoToIndexSignatureDeclarationHelper(info, type, context)); } } return results; } function serializeBaseType(t, staticType, rootName) { var ref = trySerializeAsTypeReference(t); if (ref) { return ref; } var tempName = getUnusedName(rootName + "_base"); var statement = ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(tempName, typeToTypeNodeHelper(staticType, context)) ], 2 /* Const */)); addResult(statement, 0 /* None */); return ts.createExpressionWithTypeArguments(/*typeArgs*/ undefined, ts.createIdentifier(tempName)); } function trySerializeAsTypeReference(t) { var typeArgs; var reference; // We don't use `isValueSymbolAccessible` below. since that considers alternative containers (like modules) // which we can't write out in a syntactically valid way as an expression if (t.target && getAccessibleSymbolChain(t.target.symbol, enclosingDeclaration, 111551 /* Value */, /*useOnlyExternalAliasing*/ false)) { typeArgs = ts.map(getTypeArguments(t), function (t) { return typeToTypeNodeHelper(t, context); }); reference = symbolToExpression(t.target.symbol, context, 788968 /* Type */); } else if (t.symbol && getAccessibleSymbolChain(t.symbol, enclosingDeclaration, 111551 /* Value */, /*useOnlyExternalAliasing*/ false)) { reference = symbolToExpression(t.symbol, context, 788968 /* Type */); } if (reference) { return ts.createExpressionWithTypeArguments(typeArgs, reference); } } function getUnusedName(input, symbol) { if (symbol) { if (context.remappedSymbolNames.has("" + getSymbolId(symbol))) { return context.remappedSymbolNames.get("" + getSymbolId(symbol)); } } if (symbol) { input = getNameCandidateWorker(symbol, input); } var i = 0; var original = input; while (context.usedSymbolNames.has(input)) { i++; input = original + "_" + i; } context.usedSymbolNames.set(input, true); if (symbol) { context.remappedSymbolNames.set("" + getSymbolId(symbol), input); } return input; } function getNameCandidateWorker(symbol, localName) { if (localName === "default" /* Default */ || localName === "__class" /* Class */ || localName === "__function" /* Function */) { var flags = context.flags; context.flags |= 16777216 /* InInitialEntityName */; var nameCandidate = getNameOfSymbolAsWritten(symbol, context); context.flags = flags; localName = nameCandidate.length > 0 && ts.isSingleOrDoubleQuote(nameCandidate.charCodeAt(0)) ? ts.stripQuotes(nameCandidate) : nameCandidate; } if (localName === "default" /* Default */) { localName = "_default"; } else if (localName === "export=" /* ExportEquals */) { localName = "_exports"; } localName = ts.isIdentifierText(localName, languageVersion) && !ts.isStringANonContextualKeyword(localName) ? localName : "_" + localName.replace(/[^a-zA-Z0-9]/g, "_"); return localName; } function getInternalSymbolName(symbol, localName) { if (context.remappedSymbolNames.has("" + getSymbolId(symbol))) { return context.remappedSymbolNames.get("" + getSymbolId(symbol)); } localName = getNameCandidateWorker(symbol, localName); // The result of this is going to be used as the symbol's name - lock it in, so `getUnusedName` will also pick it up context.remappedSymbolNames.set("" + getSymbolId(symbol), localName); return localName; } } } function typePredicateToString(typePredicate, enclosingDeclaration, flags, writer) { if (flags === void 0) { flags = 16384 /* UseAliasDefinedOutsideCurrentScope */; } return writer ? typePredicateToStringWorker(writer).getText() : ts.usingSingleLineStringWriter(typePredicateToStringWorker); function typePredicateToStringWorker(writer) { var predicate = ts.createTypePredicateNodeWithModifier(typePredicate.kind === 2 /* AssertsThis */ || typePredicate.kind === 3 /* AssertsIdentifier */ ? ts.createToken(124 /* AssertsKeyword */) : undefined, typePredicate.kind === 1 /* Identifier */ || typePredicate.kind === 3 /* AssertsIdentifier */ ? ts.createIdentifier(typePredicate.parameterName) : ts.createThisTypeNode(), typePredicate.type && nodeBuilder.typeToTypeNode(typePredicate.type, enclosingDeclaration, toNodeBuilderFlags(flags) | 70221824 /* IgnoreErrors */ | 512 /* WriteTypeParametersInQualifiedName */) // TODO: GH#18217 ); var printer = ts.createPrinter({ removeComments: true }); var sourceFile = enclosingDeclaration && ts.getSourceFileOfNode(enclosingDeclaration); printer.writeNode(4 /* Unspecified */, predicate, /*sourceFile*/ sourceFile, writer); return writer; } } function formatUnionTypes(types) { var result = []; var flags = 0; for (var i = 0; i < types.length; i++) { var t = types[i]; flags |= t.flags; if (!(t.flags & 98304 /* Nullable */)) { if (t.flags & (512 /* BooleanLiteral */ | 1024 /* EnumLiteral */)) { var baseType = t.flags & 512 /* BooleanLiteral */ ? booleanType : getBaseTypeOfEnumLiteralType(t); if (baseType.flags & 1048576 /* Union */) { var count = baseType.types.length; if (i + count <= types.length && getRegularTypeOfLiteralType(types[i + count - 1]) === getRegularTypeOfLiteralType(baseType.types[count - 1])) { result.push(baseType); i += count - 1; continue; } } } result.push(t); } } if (flags & 65536 /* Null */) result.push(nullType); if (flags & 32768 /* Undefined */) result.push(undefinedType); return result || types; } function visibilityToString(flags) { if (flags === 8 /* Private */) { return "private"; } if (flags === 16 /* Protected */) { return "protected"; } return "public"; } function getTypeAliasForTypeLiteral(type) { if (type.symbol && type.symbol.flags & 2048 /* TypeLiteral */) { var node = ts.findAncestor(type.symbol.declarations[0].parent, function (n) { return n.kind !== 182 /* ParenthesizedType */; }); if (node.kind === 247 /* TypeAliasDeclaration */) { return getSymbolOfNode(node); } } return undefined; } function isTopLevelInExternalModuleAugmentation(node) { return node && node.parent && node.parent.kind === 250 /* ModuleBlock */ && ts.isExternalModuleAugmentation(node.parent.parent); } function isDefaultBindingContext(location) { return location.kind === 290 /* SourceFile */ || ts.isAmbientModule(location); } function getNameOfSymbolFromNameType(symbol, context) { var nameType = getSymbolLinks(symbol).nameType; if (nameType) { if (nameType.flags & 384 /* StringOrNumberLiteral */) { var name = "" + nameType.value; if (!ts.isIdentifierText(name, compilerOptions.target) && !isNumericLiteralName(name)) { return "\"" + ts.escapeString(name, 34 /* doubleQuote */) + "\""; } if (isNumericLiteralName(name) && ts.startsWith(name, "-")) { return "[" + name + "]"; } return name; } if (nameType.flags & 8192 /* UniqueESSymbol */) { return "[" + getNameOfSymbolAsWritten(nameType.symbol, context) + "]"; } } } /** * Gets a human-readable name for a symbol. * Should *not* be used for the right-hand side of a `.` -- use `symbolName(symbol)` for that instead. * * Unlike `symbolName(symbol)`, this will include quotes if the name is from a string literal. * It will also use a representation of a number as written instead of a decimal form, e.g. `0o11` instead of `9`. */ function getNameOfSymbolAsWritten(symbol, context) { if (context && symbol.escapedName === "default" /* Default */ && !(context.flags & 16384 /* UseAliasDefinedOutsideCurrentScope */) && // If it's not the first part of an entity name, it must print as `default` (!(context.flags & 16777216 /* InInitialEntityName */) || // if the symbol is synthesized, it will only be referenced externally it must print as `default` !symbol.declarations || // if not in the same binding context (source file, module declaration), it must print as `default` (context.enclosingDeclaration && ts.findAncestor(symbol.declarations[0], isDefaultBindingContext) !== ts.findAncestor(context.enclosingDeclaration, isDefaultBindingContext)))) { return "default"; } if (symbol.declarations && symbol.declarations.length) { var declaration = ts.firstDefined(symbol.declarations, function (d) { return ts.getNameOfDeclaration(d) ? d : undefined; }); // Try using a declaration with a name, first var name_2 = declaration && ts.getNameOfDeclaration(declaration); if (declaration && name_2) { if (ts.isCallExpression(declaration) && ts.isBindableObjectDefinePropertyCall(declaration)) { return ts.symbolName(symbol); } if (ts.isComputedPropertyName(name_2) && !(ts.getCheckFlags(symbol) & 4096 /* Late */)) { var nameType = getSymbolLinks(symbol).nameType; if (nameType && nameType.flags & 384 /* StringOrNumberLiteral */) { // Computed property name isn't late bound, but has a well-known name type - use name type to generate a symbol name var result = getNameOfSymbolFromNameType(symbol, context); if (result !== undefined) { return result; } } } return ts.declarationNameToString(name_2); } if (!declaration) { declaration = symbol.declarations[0]; // Declaration may be nameless, but we'll try anyway } if (declaration.parent && declaration.parent.kind === 242 /* VariableDeclaration */) { return ts.declarationNameToString(declaration.parent.name); } switch (declaration.kind) { case 214 /* ClassExpression */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: if (context && !context.encounteredError && !(context.flags & 131072 /* AllowAnonymousIdentifier */)) { context.encounteredError = true; } return declaration.kind === 214 /* ClassExpression */ ? "(Anonymous class)" : "(Anonymous function)"; } } var name = getNameOfSymbolFromNameType(symbol, context); return name !== undefined ? name : ts.symbolName(symbol); } function isDeclarationVisible(node) { if (node) { var links = getNodeLinks(node); if (links.isVisible === undefined) { links.isVisible = !!determineIfDeclarationIsVisible(); } return links.isVisible; } return false; function determineIfDeclarationIsVisible() { switch (node.kind) { case 315 /* JSDocCallbackTag */: case 322 /* JSDocTypedefTag */: case 316 /* JSDocEnumTag */: // Top-level jsdoc type aliases are considered exported // First parent is comment node, second is hosting declaration or token; we only care about those tokens or declarations whose parent is a source file return !!(node.parent && node.parent.parent && node.parent.parent.parent && ts.isSourceFile(node.parent.parent.parent)); case 191 /* BindingElement */: return isDeclarationVisible(node.parent.parent); case 242 /* VariableDeclaration */: if (ts.isBindingPattern(node.name) && !node.name.elements.length) { // If the binding pattern is empty, this variable declaration is not visible return false; } // falls through case 249 /* ModuleDeclaration */: case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: case 244 /* FunctionDeclaration */: case 248 /* EnumDeclaration */: case 253 /* ImportEqualsDeclaration */: // external module augmentation is always visible if (ts.isExternalModuleAugmentation(node)) { return true; } var parent = getDeclarationContainer(node); // If the node is not exported or it is not ambient module element (except import declaration) if (!(ts.getCombinedModifierFlags(node) & 1 /* Export */) && !(node.kind !== 253 /* ImportEqualsDeclaration */ && parent.kind !== 290 /* SourceFile */ && parent.flags & 8388608 /* Ambient */)) { return isGlobalSourceFile(parent); } // Exported members/ambient module elements (exception import declaration) are visible if parent is visible return isDeclarationVisible(parent); case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: if (ts.hasModifier(node, 8 /* Private */ | 16 /* Protected */)) { // Private/protected properties/methods are not visible return false; } // Public properties/methods are visible if its parents are visible, so: // falls through case 162 /* Constructor */: case 166 /* ConstructSignature */: case 165 /* CallSignature */: case 167 /* IndexSignature */: case 156 /* Parameter */: case 250 /* ModuleBlock */: case 170 /* FunctionType */: case 171 /* ConstructorType */: case 173 /* TypeLiteral */: case 169 /* TypeReference */: case 174 /* ArrayType */: case 175 /* TupleType */: case 178 /* UnionType */: case 179 /* IntersectionType */: case 182 /* ParenthesizedType */: return isDeclarationVisible(node.parent); // Default binding, import specifier and namespace import is visible // only on demand so by default it is not visible case 255 /* ImportClause */: case 256 /* NamespaceImport */: case 258 /* ImportSpecifier */: return false; // Type parameters are always visible case 155 /* TypeParameter */: // Source file and namespace export are always visible // falls through case 290 /* SourceFile */: case 252 /* NamespaceExportDeclaration */: return true; // Export assignments do not create name bindings outside the module case 259 /* ExportAssignment */: return false; default: return false; } } } function collectLinkedAliases(node, setVisibility) { var exportSymbol; if (node.parent && node.parent.kind === 259 /* ExportAssignment */) { exportSymbol = resolveName(node, node.escapedText, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */ | 2097152 /* Alias */, /*nameNotFoundMessage*/ undefined, node, /*isUse*/ false); } else if (node.parent.kind === 263 /* ExportSpecifier */) { exportSymbol = getTargetOfExportSpecifier(node.parent, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */ | 2097152 /* Alias */); } var result; var visited; if (exportSymbol) { visited = ts.createMap(); visited.set("" + getSymbolId(exportSymbol), true); buildVisibleNodeList(exportSymbol.declarations); } return result; function buildVisibleNodeList(declarations) { ts.forEach(declarations, function (declaration) { var resultNode = getAnyImportSyntax(declaration) || declaration; if (setVisibility) { getNodeLinks(declaration).isVisible = true; } else { result = result || []; ts.pushIfUnique(result, resultNode); } if (ts.isInternalModuleImportEqualsDeclaration(declaration)) { // Add the referenced top container visible var internalModuleReference = declaration.moduleReference; var firstIdentifier = ts.getFirstIdentifier(internalModuleReference); var importSymbol = resolveName(declaration, firstIdentifier.escapedText, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */, undefined, undefined, /*isUse*/ false); var id = importSymbol && "" + getSymbolId(importSymbol); if (importSymbol && !visited.has(id)) { visited.set(id, true); buildVisibleNodeList(importSymbol.declarations); } } }); } } /** * Push an entry on the type resolution stack. If an entry with the given target and the given property name * is already on the stack, and no entries in between already have a type, then a circularity has occurred. * In this case, the result values of the existing entry and all entries pushed after it are changed to false, * and the value false is returned. Otherwise, the new entry is just pushed onto the stack, and true is returned. * In order to see if the same query has already been done before, the target object and the propertyName both * must match the one passed in. * * @param target The symbol, type, or signature whose type is being queried * @param propertyName The property name that should be used to query the target for its type */ function pushTypeResolution(target, propertyName) { var resolutionCycleStartIndex = findResolutionCycleStartIndex(target, propertyName); if (resolutionCycleStartIndex >= 0) { // A cycle was found var length_3 = resolutionTargets.length; for (var i = resolutionCycleStartIndex; i < length_3; i++) { resolutionResults[i] = false; } return false; } resolutionTargets.push(target); resolutionResults.push(/*items*/ true); resolutionPropertyNames.push(propertyName); return true; } function findResolutionCycleStartIndex(target, propertyName) { for (var i = resolutionTargets.length - 1; i >= 0; i--) { if (hasType(resolutionTargets[i], resolutionPropertyNames[i])) { return -1; } if (resolutionTargets[i] === target && resolutionPropertyNames[i] === propertyName) { return i; } } return -1; } function hasType(target, propertyName) { switch (propertyName) { case 0 /* Type */: return !!getSymbolLinks(target).type; case 5 /* EnumTagType */: return !!(getNodeLinks(target).resolvedEnumType); case 2 /* DeclaredType */: return !!getSymbolLinks(target).declaredType; case 1 /* ResolvedBaseConstructorType */: return !!target.resolvedBaseConstructorType; case 3 /* ResolvedReturnType */: return !!target.resolvedReturnType; case 4 /* ImmediateBaseConstraint */: return !!target.immediateBaseConstraint; case 6 /* ResolvedTypeArguments */: return !!target.resolvedTypeArguments; } return ts.Debug.assertNever(propertyName); } /** * Pop an entry from the type resolution stack and return its associated result value. The result value will * be true if no circularities were detected, or false if a circularity was found. */ function popTypeResolution() { resolutionTargets.pop(); resolutionPropertyNames.pop(); return resolutionResults.pop(); } function getDeclarationContainer(node) { return ts.findAncestor(ts.getRootDeclaration(node), function (node) { switch (node.kind) { case 242 /* VariableDeclaration */: case 243 /* VariableDeclarationList */: case 258 /* ImportSpecifier */: case 257 /* NamedImports */: case 256 /* NamespaceImport */: case 255 /* ImportClause */: return false; default: return true; } }).parent; } function getTypeOfPrototypeProperty(prototype) { // TypeScript 1.0 spec (April 2014): 8.4 // Every class automatically contains a static property member named 'prototype', // the type of which is an instantiation of the class type with type Any supplied as a type argument for each type parameter. // It is an error to explicitly declare a static property member with the name 'prototype'. var classType = getDeclaredTypeOfSymbol(getParentOfSymbol(prototype)); return classType.typeParameters ? createTypeReference(classType, ts.map(classType.typeParameters, function (_) { return anyType; })) : classType; } // Return the type of the given property in the given type, or undefined if no such property exists function getTypeOfPropertyOfType(type, name) { var prop = getPropertyOfType(type, name); return prop ? getTypeOfSymbol(prop) : undefined; } function getTypeOfPropertyOrIndexSignature(type, name) { return getTypeOfPropertyOfType(type, name) || isNumericLiteralName(name) && getIndexTypeOfType(type, 1 /* Number */) || getIndexTypeOfType(type, 0 /* String */) || unknownType; } function isTypeAny(type) { return type && (type.flags & 1 /* Any */) !== 0; } // Return the type of a binding element parent. We check SymbolLinks first to see if a type has been // assigned by contextual typing. function getTypeForBindingElementParent(node) { var symbol = getSymbolOfNode(node); return symbol && getSymbolLinks(symbol).type || getTypeForVariableLikeDeclaration(node, /*includeOptionality*/ false); } function getRestType(source, properties, symbol) { source = filterType(source, function (t) { return !(t.flags & 98304 /* Nullable */); }); if (source.flags & 131072 /* Never */) { return emptyObjectType; } if (source.flags & 1048576 /* Union */) { return mapType(source, function (t) { return getRestType(t, properties, symbol); }); } var omitKeyType = getUnionType(ts.map(properties, getLiteralTypeFromPropertyName)); if (isGenericObjectType(source) || isGenericIndexType(omitKeyType)) { if (omitKeyType.flags & 131072 /* Never */) { return source; } var omitTypeAlias = getGlobalOmitSymbol(); if (!omitTypeAlias) { return errorType; } return getTypeAliasInstantiation(omitTypeAlias, [source, omitKeyType]); } var members = ts.createSymbolTable(); for (var _i = 0, _a = getPropertiesOfType(source); _i < _a.length; _i++) { var prop = _a[_i]; if (!isTypeAssignableTo(getLiteralTypeFromProperty(prop, 8576 /* StringOrNumberLiteralOrUnique */), omitKeyType) && !(ts.getDeclarationModifierFlagsFromSymbol(prop) & (8 /* Private */ | 16 /* Protected */)) && isSpreadableProperty(prop)) { members.set(prop.escapedName, getSpreadSymbol(prop, /*readonly*/ false)); } } var stringIndexInfo = getIndexInfoOfType(source, 0 /* String */); var numberIndexInfo = getIndexInfoOfType(source, 1 /* Number */); var result = createAnonymousType(symbol, members, ts.emptyArray, ts.emptyArray, stringIndexInfo, numberIndexInfo); result.objectFlags |= 131072 /* ObjectRestType */; return result; } // Determine the control flow type associated with a destructuring declaration or assignment. The following // forms of destructuring are possible: // let { x } = obj; // BindingElement // let [ x ] = obj; // BindingElement // { x } = obj; // ShorthandPropertyAssignment // { x: v } = obj; // PropertyAssignment // [ x ] = obj; // Expression // We construct a synthetic element access expression corresponding to 'obj.x' such that the control // flow analyzer doesn't have to handle all the different syntactic forms. function getFlowTypeOfDestructuring(node, declaredType) { var reference = getSyntheticElementAccess(node); return reference ? getFlowTypeOfReference(reference, declaredType) : declaredType; } function getSyntheticElementAccess(node) { var parentAccess = getParentElementAccess(node); if (parentAccess && parentAccess.flowNode) { var propName = getDestructuringPropertyName(node); if (propName) { var result = ts.createNode(195 /* ElementAccessExpression */, node.pos, node.end); result.parent = node; result.expression = parentAccess; var literal = ts.createNode(10 /* StringLiteral */, node.pos, node.end); literal.parent = result; literal.text = propName; result.argumentExpression = literal; result.flowNode = parentAccess.flowNode; return result; } } } function getParentElementAccess(node) { var ancestor = node.parent.parent; switch (ancestor.kind) { case 191 /* BindingElement */: case 281 /* PropertyAssignment */: return getSyntheticElementAccess(ancestor); case 192 /* ArrayLiteralExpression */: return getSyntheticElementAccess(node.parent); case 242 /* VariableDeclaration */: return ancestor.initializer; case 209 /* BinaryExpression */: return ancestor.right; } } function getDestructuringPropertyName(node) { var parent = node.parent; if (node.kind === 191 /* BindingElement */ && parent.kind === 189 /* ObjectBindingPattern */) { return getLiteralPropertyNameText(node.propertyName || node.name); } if (node.kind === 281 /* PropertyAssignment */ || node.kind === 282 /* ShorthandPropertyAssignment */) { return getLiteralPropertyNameText(node.name); } return "" + parent.elements.indexOf(node); } function getLiteralPropertyNameText(name) { var type = getLiteralTypeFromPropertyName(name); return type.flags & (128 /* StringLiteral */ | 256 /* NumberLiteral */) ? "" + type.value : undefined; } /** Return the inferred type for a binding element */ function getTypeForBindingElement(declaration) { var pattern = declaration.parent; var parentType = getTypeForBindingElementParent(pattern.parent); // If no type or an any type was inferred for parent, infer that for the binding element if (!parentType || isTypeAny(parentType)) { return parentType; } // Relax null check on ambient destructuring parameters, since the parameters have no implementation and are just documentation if (strictNullChecks && declaration.flags & 8388608 /* Ambient */ && ts.isParameterDeclaration(declaration)) { parentType = getNonNullableType(parentType); } // Filter `undefined` from the type we check against if the parent has an initializer and that initializer is not possibly `undefined` else if (strictNullChecks && pattern.parent.initializer && !(getTypeFacts(getTypeOfInitializer(pattern.parent.initializer)) & 65536 /* EQUndefined */)) { parentType = getTypeWithFacts(parentType, 524288 /* NEUndefined */); } var type; if (pattern.kind === 189 /* ObjectBindingPattern */) { if (declaration.dotDotDotToken) { parentType = getReducedType(parentType); if (parentType.flags & 2 /* Unknown */ || !isValidSpreadType(parentType)) { error(declaration, ts.Diagnostics.Rest_types_may_only_be_created_from_object_types); return errorType; } var literalMembers = []; for (var _i = 0, _a = pattern.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!element.dotDotDotToken) { literalMembers.push(element.propertyName || element.name); } } type = getRestType(parentType, literalMembers, declaration.symbol); } else { // Use explicitly specified property name ({ p: xxx } form), or otherwise the implied name ({ p } form) var name = declaration.propertyName || declaration.name; var indexType = getLiteralTypeFromPropertyName(name); var declaredType = getConstraintForLocation(getIndexedAccessType(parentType, indexType, name), declaration.name); type = getFlowTypeOfDestructuring(declaration, declaredType); } } else { // This elementType will be used if the specific property corresponding to this index is not // present (aka the tuple element property). This call also checks that the parentType is in // fact an iterable or array (depending on target language). var elementType = checkIteratedTypeOrElementType(65 /* Destructuring */, parentType, undefinedType, pattern); var index_1 = pattern.elements.indexOf(declaration); if (declaration.dotDotDotToken) { // If the parent is a tuple type, the rest element has a tuple type of the // remaining tuple element types. Otherwise, the rest element has an array type with same // element type as the parent type. type = everyType(parentType, isTupleType) ? mapType(parentType, function (t) { return sliceTupleType(t, index_1); }) : createArrayType(elementType); } else if (isArrayLikeType(parentType)) { var indexType = getLiteralType(index_1); var accessFlags = hasDefaultValue(declaration) ? 8 /* NoTupleBoundsCheck */ : 0; var declaredType = getConstraintForLocation(getIndexedAccessTypeOrUndefined(parentType, indexType, declaration.name, accessFlags) || errorType, declaration.name); type = getFlowTypeOfDestructuring(declaration, declaredType); } else { type = elementType; } } if (!declaration.initializer) { return type; } if (ts.getEffectiveTypeAnnotationNode(ts.walkUpBindingElementsAndPatterns(declaration))) { // In strict null checking mode, if a default value of a non-undefined type is specified, remove // undefined from the final type. return strictNullChecks && !(getFalsyFlags(checkDeclarationInitializer(declaration)) & 32768 /* Undefined */) ? getTypeWithFacts(type, 524288 /* NEUndefined */) : type; } return widenTypeInferredFromInitializer(declaration, getUnionType([getTypeWithFacts(type, 524288 /* NEUndefined */), checkDeclarationInitializer(declaration)], 2 /* Subtype */)); } function getTypeForDeclarationFromJSDocComment(declaration) { var jsdocType = ts.getJSDocType(declaration); if (jsdocType) { return getTypeFromTypeNode(jsdocType); } return undefined; } function isNullOrUndefined(node) { var expr = ts.skipParentheses(node); return expr.kind === 100 /* NullKeyword */ || expr.kind === 75 /* Identifier */ && getResolvedSymbol(expr) === undefinedSymbol; } function isEmptyArrayLiteral(node) { var expr = ts.skipParentheses(node); return expr.kind === 192 /* ArrayLiteralExpression */ && expr.elements.length === 0; } function addOptionality(type, optional) { if (optional === void 0) { optional = true; } return strictNullChecks && optional ? getOptionalType(type) : type; } // Return the inferred type for a variable, parameter, or property declaration function getTypeForVariableLikeDeclaration(declaration, includeOptionality) { // A variable declared in a for..in statement is of type string, or of type keyof T when the // right hand expression is of a type parameter type. if (ts.isVariableDeclaration(declaration) && declaration.parent.parent.kind === 231 /* ForInStatement */) { var indexType = getIndexType(getNonNullableTypeIfNeeded(checkExpression(declaration.parent.parent.expression))); return indexType.flags & (262144 /* TypeParameter */ | 4194304 /* Index */) ? getExtractStringType(indexType) : stringType; } if (ts.isVariableDeclaration(declaration) && declaration.parent.parent.kind === 232 /* ForOfStatement */) { // checkRightHandSideOfForOf will return undefined if the for-of expression type was // missing properties/signatures required to get its iteratedType (like // [Symbol.iterator] or next). This may be because we accessed properties from anyType, // or it may have led to an error inside getElementTypeOfIterable. var forOfStatement = declaration.parent.parent; return checkRightHandSideOfForOf(forOfStatement) || anyType; } if (ts.isBindingPattern(declaration.parent)) { return getTypeForBindingElement(declaration); } var isOptional = includeOptionality && (ts.isParameter(declaration) && isJSDocOptionalParameter(declaration) || !ts.isBindingElement(declaration) && !ts.isVariableDeclaration(declaration) && !!declaration.questionToken); // Use type from type annotation if one is present var declaredType = tryGetTypeFromEffectiveTypeNode(declaration); if (declaredType) { return addOptionality(declaredType, isOptional); } if ((noImplicitAny || ts.isInJSFile(declaration)) && declaration.kind === 242 /* VariableDeclaration */ && !ts.isBindingPattern(declaration.name) && !(ts.getCombinedModifierFlags(declaration) & 1 /* Export */) && !(declaration.flags & 8388608 /* Ambient */)) { // If --noImplicitAny is on or the declaration is in a Javascript file, // use control flow tracked 'any' type for non-ambient, non-exported var or let variables with no // initializer or a 'null' or 'undefined' initializer. if (!(ts.getCombinedNodeFlags(declaration) & 2 /* Const */) && (!declaration.initializer || isNullOrUndefined(declaration.initializer))) { return autoType; } // Use control flow tracked 'any[]' type for non-ambient, non-exported variables with an empty array // literal initializer. if (declaration.initializer && isEmptyArrayLiteral(declaration.initializer)) { return autoArrayType; } } if (declaration.kind === 156 /* Parameter */) { var func = declaration.parent; // For a parameter of a set accessor, use the type of the get accessor if one is present if (func.kind === 164 /* SetAccessor */ && !hasNonBindableDynamicName(func)) { var getter = ts.getDeclarationOfKind(getSymbolOfNode(declaration.parent), 163 /* GetAccessor */); if (getter) { var getterSignature = getSignatureFromDeclaration(getter); var thisParameter = getAccessorThisParameter(func); if (thisParameter && declaration === thisParameter) { // Use the type from the *getter* ts.Debug.assert(!thisParameter.type); return getTypeOfSymbol(getterSignature.thisParameter); } return getReturnTypeOfSignature(getterSignature); } } if (ts.isInJSFile(declaration)) { var typeTag = ts.getJSDocType(func); if (typeTag && ts.isFunctionTypeNode(typeTag)) { return getTypeAtPosition(getSignatureFromDeclaration(typeTag), func.parameters.indexOf(declaration)); } } // Use contextual parameter type if one is available var type = declaration.symbol.escapedName === "this" /* This */ ? getContextualThisParameterType(func) : getContextuallyTypedParameterType(declaration); if (type) { return addOptionality(type, isOptional); } } else if (ts.isInJSFile(declaration)) { var containerObjectType = getJSContainerObjectType(declaration, getSymbolOfNode(declaration), ts.getDeclaredExpandoInitializer(declaration)); if (containerObjectType) { return containerObjectType; } } // Use the type of the initializer expression if one is present and the declaration is // not a parameter of a contextually typed function if (declaration.initializer) { var type = widenTypeInferredFromInitializer(declaration, checkDeclarationInitializer(declaration)); return addOptionality(type, isOptional); } if (ts.isJsxAttribute(declaration)) { // if JSX attribute doesn't have initializer, by default the attribute will have boolean value of true. // I.e is sugar for return trueType; } // If the declaration specifies a binding pattern and is not a parameter of a contextually // typed function, use the type implied by the binding pattern if (ts.isBindingPattern(declaration.name)) { return getTypeFromBindingPattern(declaration.name, /*includePatternInType*/ false, /*reportErrors*/ true); } // No type specified and nothing can be inferred return undefined; } function getWidenedTypeForAssignmentDeclaration(symbol, resolvedSymbol) { // function/class/{} initializers are themselves containers, so they won't merge in the same way as other initializers var container = ts.getAssignedExpandoInitializer(symbol.valueDeclaration); if (container) { var tag = ts.getJSDocTypeTag(container); if (tag && tag.typeExpression) { return getTypeFromTypeNode(tag.typeExpression); } var containerObjectType = getJSContainerObjectType(symbol.valueDeclaration, symbol, container); return containerObjectType || getWidenedLiteralType(checkExpressionCached(container)); } var definedInConstructor = false; var definedInMethod = false; var jsdocType; var types; for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; var expression = (ts.isBinaryExpression(declaration) || ts.isCallExpression(declaration)) ? declaration : ts.isAccessExpression(declaration) ? ts.isBinaryExpression(declaration.parent) ? declaration.parent : declaration : undefined; if (!expression) { continue; // Non-assignment declaration merged in (eg, an Identifier to mark the thing as a namespace) - skip over it and pull type info from elsewhere } var kind = ts.isAccessExpression(expression) ? ts.getAssignmentDeclarationPropertyAccessKind(expression) : ts.getAssignmentDeclarationKind(expression); if (kind === 4 /* ThisProperty */) { if (isDeclarationInConstructor(expression)) { definedInConstructor = true; } else { definedInMethod = true; } } if (!ts.isCallExpression(expression)) { jsdocType = getAnnotatedTypeForAssignmentDeclaration(jsdocType, expression, symbol, declaration); } if (!jsdocType) { (types || (types = [])).push((ts.isBinaryExpression(expression) || ts.isCallExpression(expression)) ? getInitializerTypeFromAssignmentDeclaration(symbol, resolvedSymbol, expression, kind) : neverType); } } var type = jsdocType; if (!type) { if (!ts.length(types)) { return errorType; // No types from any declarations :( } var constructorTypes = definedInConstructor ? getConstructorDefinedThisAssignmentTypes(types, symbol.declarations) : undefined; // use only the constructor types unless they were only assigned null | undefined (including widening variants) if (definedInMethod) { var propType = getTypeOfAssignmentDeclarationPropertyOfBaseType(symbol); if (propType) { (constructorTypes || (constructorTypes = [])).push(propType); definedInConstructor = true; } } var sourceTypes = ts.some(constructorTypes, function (t) { return !!(t.flags & ~98304 /* Nullable */); }) ? constructorTypes : types; // TODO: GH#18217 type = getUnionType(sourceTypes, 2 /* Subtype */); } var widened = getWidenedType(addOptionality(type, definedInMethod && !definedInConstructor)); if (filterType(widened, function (t) { return !!(t.flags & ~98304 /* Nullable */); }) === neverType) { reportImplicitAny(symbol.valueDeclaration, anyType); return anyType; } return widened; } function getJSContainerObjectType(decl, symbol, init) { if (!ts.isInJSFile(decl) || !init || !ts.isObjectLiteralExpression(init) || init.properties.length) { return undefined; } var exports = ts.createSymbolTable(); while (ts.isBinaryExpression(decl) || ts.isPropertyAccessExpression(decl)) { var s_2 = getSymbolOfNode(decl); if (s_2 && ts.hasEntries(s_2.exports)) { mergeSymbolTable(exports, s_2.exports); } decl = ts.isBinaryExpression(decl) ? decl.parent : decl.parent.parent; } var s = getSymbolOfNode(decl); if (s && ts.hasEntries(s.exports)) { mergeSymbolTable(exports, s.exports); } var type = createAnonymousType(symbol, exports, ts.emptyArray, ts.emptyArray, undefined, undefined); type.objectFlags |= 16384 /* JSLiteral */; return type; } function getAnnotatedTypeForAssignmentDeclaration(declaredType, expression, symbol, declaration) { var typeNode = ts.getEffectiveTypeAnnotationNode(expression.parent); if (typeNode) { var type = getWidenedType(getTypeFromTypeNode(typeNode)); if (!declaredType) { return type; } else if (declaredType !== errorType && type !== errorType && !isTypeIdenticalTo(declaredType, type)) { errorNextVariableOrPropertyDeclarationMustHaveSameType(/*firstDeclaration*/ undefined, declaredType, declaration, type); } } if (symbol.parent) { var typeNode_2 = ts.getEffectiveTypeAnnotationNode(symbol.parent.valueDeclaration); if (typeNode_2) { return getTypeOfPropertyOfType(getTypeFromTypeNode(typeNode_2), symbol.escapedName); } } return declaredType; } /** If we don't have an explicit JSDoc type, get the type from the initializer. */ function getInitializerTypeFromAssignmentDeclaration(symbol, resolvedSymbol, expression, kind) { if (ts.isCallExpression(expression)) { if (resolvedSymbol) { return getTypeOfSymbol(resolvedSymbol); // This shouldn't happen except under some hopefully forbidden merges of export assignments and object define assignments } var objectLitType = checkExpressionCached(expression.arguments[2]); var valueType = getTypeOfPropertyOfType(objectLitType, "value"); if (valueType) { return valueType; } var getFunc = getTypeOfPropertyOfType(objectLitType, "get"); if (getFunc) { var getSig = getSingleCallSignature(getFunc); if (getSig) { return getReturnTypeOfSignature(getSig); } } var setFunc = getTypeOfPropertyOfType(objectLitType, "set"); if (setFunc) { var setSig = getSingleCallSignature(setFunc); if (setSig) { return getTypeOfFirstParameterOfSignature(setSig); } } return anyType; } if (containsSameNamedThisProperty(expression.left, expression.right)) { return anyType; } var type = resolvedSymbol ? getTypeOfSymbol(resolvedSymbol) : getWidenedLiteralType(checkExpressionCached(expression.right)); if (type.flags & 524288 /* Object */ && kind === 2 /* ModuleExports */ && symbol.escapedName === "export=" /* ExportEquals */) { var exportedType = resolveStructuredTypeMembers(type); var members_4 = ts.createSymbolTable(); ts.copyEntries(exportedType.members, members_4); if (resolvedSymbol && !resolvedSymbol.exports) { resolvedSymbol.exports = ts.createSymbolTable(); } (resolvedSymbol || symbol).exports.forEach(function (s, name) { var _a; var exportedMember = members_4.get(name); if (exportedMember && exportedMember !== s) { if (s.flags & 111551 /* Value */) { // If the member has an additional value-like declaration, union the types from the two declarations, // but issue an error if they occurred in two different files. The purpose is to support a JS file with // a pattern like: // // module.exports = { a: true }; // module.exports.a = 3; // // but we may have a JS file with `module.exports = { a: true }` along with a TypeScript module augmentation // declaring an `export const a: number`. In that case, we issue a duplicate identifier error, because // it's unclear what that's supposed to mean, so it's probably a mistake. if (ts.getSourceFileOfNode(s.valueDeclaration) !== ts.getSourceFileOfNode(exportedMember.valueDeclaration)) { var unescapedName = ts.unescapeLeadingUnderscores(s.escapedName); var exportedMemberName = ((_a = ts.tryCast(exportedMember.valueDeclaration, ts.isNamedDeclaration)) === null || _a === void 0 ? void 0 : _a.name) || exportedMember.valueDeclaration; ts.addRelatedInfo(error(s.valueDeclaration, ts.Diagnostics.Duplicate_identifier_0, unescapedName), ts.createDiagnosticForNode(exportedMemberName, ts.Diagnostics._0_was_also_declared_here, unescapedName)); ts.addRelatedInfo(error(exportedMemberName, ts.Diagnostics.Duplicate_identifier_0, unescapedName), ts.createDiagnosticForNode(s.valueDeclaration, ts.Diagnostics._0_was_also_declared_here, unescapedName)); } var union = createSymbol(s.flags | exportedMember.flags, name); union.type = getUnionType([getTypeOfSymbol(s), getTypeOfSymbol(exportedMember)]); union.valueDeclaration = exportedMember.valueDeclaration; union.declarations = ts.concatenate(exportedMember.declarations, s.declarations); members_4.set(name, union); } else { members_4.set(name, mergeSymbol(s, exportedMember)); } } else { members_4.set(name, s); } }); var result = createAnonymousType(exportedType.symbol, members_4, exportedType.callSignatures, exportedType.constructSignatures, exportedType.stringIndexInfo, exportedType.numberIndexInfo); result.objectFlags |= (ts.getObjectFlags(type) & 16384 /* JSLiteral */); // Propagate JSLiteral flag return result; } if (isEmptyArrayLiteralType(type)) { reportImplicitAny(expression, anyArrayType); return anyArrayType; } return type; } function containsSameNamedThisProperty(thisProperty, expression) { return ts.isPropertyAccessExpression(thisProperty) && thisProperty.expression.kind === 104 /* ThisKeyword */ && ts.forEachChildRecursively(expression, function (n) { return isMatchingReference(thisProperty, n); }); } function isDeclarationInConstructor(expression) { var thisContainer = ts.getThisContainer(expression, /*includeArrowFunctions*/ false); // Properties defined in a constructor (or base constructor, or javascript constructor function) don't get undefined added. // Function expressions that are assigned to the prototype count as methods. return thisContainer.kind === 162 /* Constructor */ || thisContainer.kind === 244 /* FunctionDeclaration */ || (thisContainer.kind === 201 /* FunctionExpression */ && !ts.isPrototypePropertyAssignment(thisContainer.parent)); } function getConstructorDefinedThisAssignmentTypes(types, declarations) { ts.Debug.assert(types.length === declarations.length); return types.filter(function (_, i) { var declaration = declarations[i]; var expression = ts.isBinaryExpression(declaration) ? declaration : ts.isBinaryExpression(declaration.parent) ? declaration.parent : undefined; return expression && isDeclarationInConstructor(expression); }); } /** check for definition in base class if any declaration is in a class */ function getTypeOfAssignmentDeclarationPropertyOfBaseType(property) { var parentDeclaration = ts.forEach(property.declarations, function (d) { var parent = ts.getThisContainer(d, /*includeArrowFunctions*/ false).parent; return ts.isClassLike(parent) && parent; }); if (parentDeclaration) { var classType = getDeclaredTypeOfSymbol(getSymbolOfNode(parentDeclaration)); var baseClassType = classType && getBaseTypes(classType)[0]; if (baseClassType) { return getTypeOfPropertyOfType(baseClassType, property.escapedName); } } } // Return the type implied by a binding pattern element. This is the type of the initializer of the element if // one is present. Otherwise, if the element is itself a binding pattern, it is the type implied by the binding // pattern. Otherwise, it is the type any. function getTypeFromBindingElement(element, includePatternInType, reportErrors) { if (element.initializer) { // The type implied by a binding pattern is independent of context, so we check the initializer with no // contextual type or, if the element itself is a binding pattern, with the type implied by that binding // pattern. var contextualType = ts.isBindingPattern(element.name) ? getTypeFromBindingPattern(element.name, /*includePatternInType*/ true, /*reportErrors*/ false) : unknownType; return addOptionality(widenTypeInferredFromInitializer(element, checkDeclarationInitializer(element, contextualType))); } if (ts.isBindingPattern(element.name)) { return getTypeFromBindingPattern(element.name, includePatternInType, reportErrors); } if (reportErrors && !declarationBelongsToPrivateAmbientMember(element)) { reportImplicitAny(element, anyType); } // When we're including the pattern in the type (an indication we're obtaining a contextual type), we // use the non-inferrable any type. Inference will never directly infer this type, but it is possible // to infer a type that contains it, e.g. for a binding pattern like [foo] or { foo }. In such cases, // widening of the binding pattern type substitutes a regular any for the non-inferrable any. return includePatternInType ? nonInferrableAnyType : anyType; } // Return the type implied by an object binding pattern function getTypeFromObjectBindingPattern(pattern, includePatternInType, reportErrors) { var members = ts.createSymbolTable(); var stringIndexInfo; var objectFlags = 128 /* ObjectLiteral */ | 1048576 /* ContainsObjectOrArrayLiteral */; ts.forEach(pattern.elements, function (e) { var name = e.propertyName || e.name; if (e.dotDotDotToken) { stringIndexInfo = createIndexInfo(anyType, /*isReadonly*/ false); return; } var exprType = getLiteralTypeFromPropertyName(name); if (!isTypeUsableAsPropertyName(exprType)) { // do not include computed properties in the implied type objectFlags |= 512 /* ObjectLiteralPatternWithComputedProperties */; return; } var text = getPropertyNameFromType(exprType); var flags = 4 /* Property */ | (e.initializer ? 16777216 /* Optional */ : 0); var symbol = createSymbol(flags, text); symbol.type = getTypeFromBindingElement(e, includePatternInType, reportErrors); symbol.bindingElement = e; members.set(symbol.escapedName, symbol); }); var result = createAnonymousType(undefined, members, ts.emptyArray, ts.emptyArray, stringIndexInfo, undefined); result.objectFlags |= objectFlags; if (includePatternInType) { result.pattern = pattern; result.objectFlags |= 1048576 /* ContainsObjectOrArrayLiteral */; } return result; } // Return the type implied by an array binding pattern function getTypeFromArrayBindingPattern(pattern, includePatternInType, reportErrors) { var elements = pattern.elements; var lastElement = ts.lastOrUndefined(elements); var hasRestElement = !!(lastElement && lastElement.kind === 191 /* BindingElement */ && lastElement.dotDotDotToken); if (elements.length === 0 || elements.length === 1 && hasRestElement) { return languageVersion >= 2 /* ES2015 */ ? createIterableType(anyType) : anyArrayType; } var elementTypes = ts.map(elements, function (e) { return ts.isOmittedExpression(e) ? anyType : getTypeFromBindingElement(e, includePatternInType, reportErrors); }); var minLength = ts.findLastIndex(elements, function (e) { return !ts.isOmittedExpression(e) && !hasDefaultValue(e); }, elements.length - (hasRestElement ? 2 : 1)) + 1; var result = createTupleType(elementTypes, minLength, hasRestElement); if (includePatternInType) { result = cloneTypeReference(result); result.pattern = pattern; result.objectFlags |= 1048576 /* ContainsObjectOrArrayLiteral */; } return result; } // Return the type implied by a binding pattern. This is the type implied purely by the binding pattern itself // and without regard to its context (i.e. without regard any type annotation or initializer associated with the // declaration in which the binding pattern is contained). For example, the implied type of [x, y] is [any, any] // and the implied type of { x, y: z = 1 } is { x: any; y: number; }. The type implied by a binding pattern is // used as the contextual type of an initializer associated with the binding pattern. Also, for a destructuring // parameter with no type annotation or initializer, the type implied by the binding pattern becomes the type of // the parameter. function getTypeFromBindingPattern(pattern, includePatternInType, reportErrors) { if (includePatternInType === void 0) { includePatternInType = false; } if (reportErrors === void 0) { reportErrors = false; } return pattern.kind === 189 /* ObjectBindingPattern */ ? getTypeFromObjectBindingPattern(pattern, includePatternInType, reportErrors) : getTypeFromArrayBindingPattern(pattern, includePatternInType, reportErrors); } // Return the type associated with a variable, parameter, or property declaration. In the simple case this is the type // specified in a type annotation or inferred from an initializer. However, in the case of a destructuring declaration it // is a bit more involved. For example: // // var [x, s = ""] = [1, "one"]; // // Here, the array literal [1, "one"] is contextually typed by the type [any, string], which is the implied type of the // binding pattern [x, s = ""]. Because the contextual type is a tuple type, the resulting type of [1, "one"] is the // tuple type [number, string]. Thus, the type inferred for 'x' is number and the type inferred for 's' is string. function getWidenedTypeForVariableLikeDeclaration(declaration, reportErrors) { return widenTypeForVariableLikeDeclaration(getTypeForVariableLikeDeclaration(declaration, /*includeOptionality*/ true), declaration, reportErrors); } function widenTypeForVariableLikeDeclaration(type, declaration, reportErrors) { if (type) { if (reportErrors) { reportErrorsFromWidening(declaration, type); } // always widen a 'unique symbol' type if the type was created for a different declaration. if (type.flags & 8192 /* UniqueESSymbol */ && (ts.isBindingElement(declaration) || !declaration.type) && type.symbol !== getSymbolOfNode(declaration)) { type = esSymbolType; } return getWidenedType(type); } // Rest parameters default to type any[], other parameters default to type any type = ts.isParameter(declaration) && declaration.dotDotDotToken ? anyArrayType : anyType; // Report implicit any errors unless this is a private property within an ambient declaration if (reportErrors) { if (!declarationBelongsToPrivateAmbientMember(declaration)) { reportImplicitAny(declaration, type); } } return type; } function declarationBelongsToPrivateAmbientMember(declaration) { var root = ts.getRootDeclaration(declaration); var memberDeclaration = root.kind === 156 /* Parameter */ ? root.parent : root; return isPrivateWithinAmbient(memberDeclaration); } function tryGetTypeFromEffectiveTypeNode(declaration) { var typeNode = ts.getEffectiveTypeAnnotationNode(declaration); if (typeNode) { return getTypeFromTypeNode(typeNode); } } function getTypeOfVariableOrParameterOrProperty(symbol) { var links = getSymbolLinks(symbol); if (!links.type) { var type = getTypeOfVariableOrParameterOrPropertyWorker(symbol); // For a contextually typed parameter it is possible that a type has already // been assigned (in assignTypeToParameterAndFixTypeParameters), and we want // to preserve this type. if (!links.type) { links.type = type; } } return links.type; } function getTypeOfVariableOrParameterOrPropertyWorker(symbol) { // Handle prototype property if (symbol.flags & 4194304 /* Prototype */) { return getTypeOfPrototypeProperty(symbol); } // CommonsJS require and module both have type any. if (symbol === requireSymbol) { return anyType; } if (symbol.flags & 134217728 /* ModuleExports */) { var fileSymbol = getSymbolOfNode(ts.getSourceFileOfNode(symbol.valueDeclaration)); var members = ts.createSymbolTable(); members.set("exports", fileSymbol); return createAnonymousType(symbol, members, ts.emptyArray, ts.emptyArray, undefined, undefined); } // Handle catch clause variables var declaration = symbol.valueDeclaration; if (ts.isCatchClauseVariableDeclarationOrBindingElement(declaration)) { return anyType; } // Handle export default expressions if (ts.isSourceFile(declaration) && ts.isJsonSourceFile(declaration)) { if (!declaration.statements.length) { return emptyObjectType; } return getWidenedType(getWidenedLiteralType(checkExpression(declaration.statements[0].expression))); } // Handle variable, parameter or property if (!pushTypeResolution(symbol, 0 /* Type */)) { // Symbol is property of some kind that is merged with something - should use `getTypeOfFuncClassEnumModule` and not `getTypeOfVariableOrParameterOrProperty` if (symbol.flags & 512 /* ValueModule */ && !(symbol.flags & 67108864 /* Assignment */)) { return getTypeOfFuncClassEnumModule(symbol); } return reportCircularityError(symbol); } var type; if (declaration.kind === 259 /* ExportAssignment */) { type = widenTypeForVariableLikeDeclaration(checkExpressionCached(declaration.expression), declaration); } else if (ts.isBinaryExpression(declaration) || (ts.isInJSFile(declaration) && (ts.isCallExpression(declaration) || (ts.isPropertyAccessExpression(declaration) || ts.isBindableStaticElementAccessExpression(declaration)) && ts.isBinaryExpression(declaration.parent)))) { type = getWidenedTypeForAssignmentDeclaration(symbol); } else if (ts.isJSDocPropertyLikeTag(declaration) || ts.isPropertyAccessExpression(declaration) || ts.isElementAccessExpression(declaration) || ts.isIdentifier(declaration) || ts.isStringLiteralLike(declaration) || ts.isNumericLiteral(declaration) || ts.isClassDeclaration(declaration) || ts.isFunctionDeclaration(declaration) || (ts.isMethodDeclaration(declaration) && !ts.isObjectLiteralMethod(declaration)) || ts.isMethodSignature(declaration) || ts.isSourceFile(declaration)) { // Symbol is property of some kind that is merged with something - should use `getTypeOfFuncClassEnumModule` and not `getTypeOfVariableOrParameterOrProperty` if (symbol.flags & (16 /* Function */ | 8192 /* Method */ | 32 /* Class */ | 384 /* Enum */ | 512 /* ValueModule */)) { return getTypeOfFuncClassEnumModule(symbol); } type = ts.isBinaryExpression(declaration.parent) ? getWidenedTypeForAssignmentDeclaration(symbol) : tryGetTypeFromEffectiveTypeNode(declaration) || anyType; } else if (ts.isPropertyAssignment(declaration)) { type = tryGetTypeFromEffectiveTypeNode(declaration) || checkPropertyAssignment(declaration); } else if (ts.isJsxAttribute(declaration)) { type = tryGetTypeFromEffectiveTypeNode(declaration) || checkJsxAttribute(declaration); } else if (ts.isShorthandPropertyAssignment(declaration)) { type = tryGetTypeFromEffectiveTypeNode(declaration) || checkExpressionForMutableLocation(declaration.name, 0 /* Normal */); } else if (ts.isObjectLiteralMethod(declaration)) { type = tryGetTypeFromEffectiveTypeNode(declaration) || checkObjectLiteralMethod(declaration, 0 /* Normal */); } else if (ts.isParameter(declaration) || ts.isPropertyDeclaration(declaration) || ts.isPropertySignature(declaration) || ts.isVariableDeclaration(declaration) || ts.isBindingElement(declaration)) { type = getWidenedTypeForVariableLikeDeclaration(declaration, /*includeOptionality*/ true); } // getTypeOfSymbol dispatches some JS merges incorrectly because their symbol flags are not mutually exclusive. // Re-dispatch based on valueDeclaration.kind instead. else if (ts.isEnumDeclaration(declaration)) { type = getTypeOfFuncClassEnumModule(symbol); } else if (ts.isEnumMember(declaration)) { type = getTypeOfEnumMember(symbol); } else if (ts.isAccessor(declaration)) { type = resolveTypeOfAccessors(symbol); } else { return ts.Debug.fail("Unhandled declaration kind! " + ts.Debug.formatSyntaxKind(declaration.kind) + " for " + ts.Debug.formatSymbol(symbol)); } if (!popTypeResolution()) { // Symbol is property of some kind that is merged with something - should use `getTypeOfFuncClassEnumModule` and not `getTypeOfVariableOrParameterOrProperty` if (symbol.flags & 512 /* ValueModule */ && !(symbol.flags & 67108864 /* Assignment */)) { return getTypeOfFuncClassEnumModule(symbol); } return reportCircularityError(symbol); } return type; } function getAnnotatedAccessorTypeNode(accessor) { if (accessor) { if (accessor.kind === 163 /* GetAccessor */) { var getterTypeAnnotation = ts.getEffectiveReturnTypeNode(accessor); return getterTypeAnnotation; } else { var setterTypeAnnotation = ts.getEffectiveSetAccessorTypeAnnotationNode(accessor); return setterTypeAnnotation; } } return undefined; } function getAnnotatedAccessorType(accessor) { var node = getAnnotatedAccessorTypeNode(accessor); return node && getTypeFromTypeNode(node); } function getAnnotatedAccessorThisParameter(accessor) { var parameter = getAccessorThisParameter(accessor); return parameter && parameter.symbol; } function getThisTypeOfDeclaration(declaration) { return getThisTypeOfSignature(getSignatureFromDeclaration(declaration)); } function getTypeOfAccessors(symbol) { var links = getSymbolLinks(symbol); return links.type || (links.type = getTypeOfAccessorsWorker(symbol)); } function getTypeOfAccessorsWorker(symbol) { if (!pushTypeResolution(symbol, 0 /* Type */)) { return errorType; } var type = resolveTypeOfAccessors(symbol); if (!popTypeResolution()) { type = anyType; if (noImplicitAny) { var getter = ts.getDeclarationOfKind(symbol, 163 /* GetAccessor */); error(getter, ts.Diagnostics._0_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_referenced_directly_or_indirectly_in_one_of_its_return_expressions, symbolToString(symbol)); } } return type; } function resolveTypeOfAccessors(symbol) { var getter = ts.getDeclarationOfKind(symbol, 163 /* GetAccessor */); var setter = ts.getDeclarationOfKind(symbol, 164 /* SetAccessor */); if (getter && ts.isInJSFile(getter)) { var jsDocType = getTypeForDeclarationFromJSDocComment(getter); if (jsDocType) { return jsDocType; } } // First try to see if the user specified a return type on the get-accessor. var getterReturnType = getAnnotatedAccessorType(getter); if (getterReturnType) { return getterReturnType; } else { // If the user didn't specify a return type, try to use the set-accessor's parameter type. var setterParameterType = getAnnotatedAccessorType(setter); if (setterParameterType) { return setterParameterType; } else { // If there are no specified types, try to infer it from the body of the get accessor if it exists. if (getter && getter.body) { return getReturnTypeFromBody(getter); } // Otherwise, fall back to 'any'. else { if (setter) { if (!isPrivateWithinAmbient(setter)) { errorOrSuggestion(noImplicitAny, setter, ts.Diagnostics.Property_0_implicitly_has_type_any_because_its_set_accessor_lacks_a_parameter_type_annotation, symbolToString(symbol)); } } else { ts.Debug.assert(!!getter, "there must exist a getter as we are current checking either setter or getter in this function"); if (!isPrivateWithinAmbient(getter)) { errorOrSuggestion(noImplicitAny, getter, ts.Diagnostics.Property_0_implicitly_has_type_any_because_its_get_accessor_lacks_a_return_type_annotation, symbolToString(symbol)); } } return anyType; } } } } function getBaseTypeVariableOfClass(symbol) { var baseConstructorType = getBaseConstructorTypeOfClass(getDeclaredTypeOfClassOrInterface(symbol)); return baseConstructorType.flags & 8650752 /* TypeVariable */ ? baseConstructorType : baseConstructorType.flags & 2097152 /* Intersection */ ? ts.find(baseConstructorType.types, function (t) { return !!(t.flags & 8650752 /* TypeVariable */); }) : undefined; } function getTypeOfFuncClassEnumModule(symbol) { var links = getSymbolLinks(symbol); var originalLinks = links; if (!links.type) { var jsDeclaration = symbol.valueDeclaration && ts.getDeclarationOfExpando(symbol.valueDeclaration); if (jsDeclaration) { var merged = mergeJSSymbols(symbol, getSymbolOfNode(jsDeclaration)); if (merged) { // note:we overwrite links because we just cloned the symbol symbol = links = merged; } } originalLinks.type = links.type = getTypeOfFuncClassEnumModuleWorker(symbol); } return links.type; } function getTypeOfFuncClassEnumModuleWorker(symbol) { var declaration = symbol.valueDeclaration; if (symbol.flags & 1536 /* Module */ && ts.isShorthandAmbientModuleSymbol(symbol)) { return anyType; } else if (declaration && (declaration.kind === 209 /* BinaryExpression */ || ts.isAccessExpression(declaration) && declaration.parent.kind === 209 /* BinaryExpression */)) { return getWidenedTypeForAssignmentDeclaration(symbol); } else if (symbol.flags & 512 /* ValueModule */ && declaration && ts.isSourceFile(declaration) && declaration.commonJsModuleIndicator) { var resolvedModule = resolveExternalModuleSymbol(symbol); if (resolvedModule !== symbol) { if (!pushTypeResolution(symbol, 0 /* Type */)) { return errorType; } var exportEquals = getMergedSymbol(symbol.exports.get("export=" /* ExportEquals */)); var type_1 = getWidenedTypeForAssignmentDeclaration(exportEquals, exportEquals === resolvedModule ? undefined : resolvedModule); if (!popTypeResolution()) { return reportCircularityError(symbol); } return type_1; } } var type = createObjectType(16 /* Anonymous */, symbol); if (symbol.flags & 32 /* Class */) { var baseTypeVariable = getBaseTypeVariableOfClass(symbol); return baseTypeVariable ? getIntersectionType([type, baseTypeVariable]) : type; } else { return strictNullChecks && symbol.flags & 16777216 /* Optional */ ? getOptionalType(type) : type; } } function getTypeOfEnumMember(symbol) { var links = getSymbolLinks(symbol); return links.type || (links.type = getDeclaredTypeOfEnumMember(symbol)); } function getTypeOfAlias(symbol) { var links = getSymbolLinks(symbol); if (!links.type) { var targetSymbol = resolveAlias(symbol); // It only makes sense to get the type of a value symbol. If the result of resolving // the alias is not a value, then it has no type. To get the type associated with a // type symbol, call getDeclaredTypeOfSymbol. // This check is important because without it, a call to getTypeOfSymbol could end // up recursively calling getTypeOfAlias, causing a stack overflow. links.type = targetSymbol.flags & 111551 /* Value */ ? getTypeOfSymbol(targetSymbol) : errorType; } return links.type; } function getTypeOfInstantiatedSymbol(symbol) { var links = getSymbolLinks(symbol); if (!links.type) { if (!pushTypeResolution(symbol, 0 /* Type */)) { return links.type = errorType; } var type = instantiateType(getTypeOfSymbol(links.target), links.mapper); if (!popTypeResolution()) { type = reportCircularityError(symbol); } links.type = type; } return links.type; } function reportCircularityError(symbol) { var declaration = symbol.valueDeclaration; // Check if variable has type annotation that circularly references the variable itself if (ts.getEffectiveTypeAnnotationNode(declaration)) { error(symbol.valueDeclaration, ts.Diagnostics._0_is_referenced_directly_or_indirectly_in_its_own_type_annotation, symbolToString(symbol)); return errorType; } // Check if variable has initializer that circularly references the variable itself if (noImplicitAny && (declaration.kind !== 156 /* Parameter */ || declaration.initializer)) { error(symbol.valueDeclaration, ts.Diagnostics._0_implicitly_has_type_any_because_it_does_not_have_a_type_annotation_and_is_referenced_directly_or_indirectly_in_its_own_initializer, symbolToString(symbol)); } // Circularities could also result from parameters in function expressions that end up // having themselves as contextual types following type argument inference. In those cases // we have already reported an implicit any error so we don't report anything here. return anyType; } function getTypeOfSymbolWithDeferredType(symbol) { var links = getSymbolLinks(symbol); if (!links.type) { ts.Debug.assertIsDefined(links.deferralParent); ts.Debug.assertIsDefined(links.deferralConstituents); links.type = links.deferralParent.flags & 1048576 /* Union */ ? getUnionType(links.deferralConstituents) : getIntersectionType(links.deferralConstituents); } return links.type; } function getTypeOfSymbol(symbol) { var checkFlags = ts.getCheckFlags(symbol); if (checkFlags & 65536 /* DeferredType */) { return getTypeOfSymbolWithDeferredType(symbol); } if (checkFlags & 1 /* Instantiated */) { return getTypeOfInstantiatedSymbol(symbol); } if (checkFlags & 262144 /* Mapped */) { return getTypeOfMappedSymbol(symbol); } if (checkFlags & 8192 /* ReverseMapped */) { return getTypeOfReverseMappedSymbol(symbol); } if (symbol.flags & (3 /* Variable */ | 4 /* Property */)) { return getTypeOfVariableOrParameterOrProperty(symbol); } if (symbol.flags & (16 /* Function */ | 8192 /* Method */ | 32 /* Class */ | 384 /* Enum */ | 512 /* ValueModule */)) { return getTypeOfFuncClassEnumModule(symbol); } if (symbol.flags & 8 /* EnumMember */) { return getTypeOfEnumMember(symbol); } if (symbol.flags & 98304 /* Accessor */) { return getTypeOfAccessors(symbol); } if (symbol.flags & 2097152 /* Alias */) { return getTypeOfAlias(symbol); } return errorType; } function isReferenceToType(type, target) { return type !== undefined && target !== undefined && (ts.getObjectFlags(type) & 4 /* Reference */) !== 0 && type.target === target; } function getTargetType(type) { return ts.getObjectFlags(type) & 4 /* Reference */ ? type.target : type; } // TODO: GH#18217 If `checkBase` is undefined, we should not call this because this will always return false. function hasBaseType(type, checkBase) { return check(type); function check(type) { if (ts.getObjectFlags(type) & (3 /* ClassOrInterface */ | 4 /* Reference */)) { var target = getTargetType(type); return target === checkBase || ts.some(getBaseTypes(target), check); } else if (type.flags & 2097152 /* Intersection */) { return ts.some(type.types, check); } return false; } } // Appends the type parameters given by a list of declarations to a set of type parameters and returns the resulting set. // The function allocates a new array if the input type parameter set is undefined, but otherwise it modifies the set // in-place and returns the same array. function appendTypeParameters(typeParameters, declarations) { for (var _i = 0, declarations_2 = declarations; _i < declarations_2.length; _i++) { var declaration = declarations_2[_i]; typeParameters = ts.appendIfUnique(typeParameters, getDeclaredTypeOfTypeParameter(getSymbolOfNode(declaration))); } return typeParameters; } // Return the outer type parameters of a node or undefined if the node has no outer type parameters. function getOuterTypeParameters(node, includeThisTypes) { while (true) { node = node.parent; // TODO: GH#18217 Use SourceFile kind check instead if (node && ts.isBinaryExpression(node)) { // prototype assignments get the outer type parameters of their constructor function var assignmentKind = ts.getAssignmentDeclarationKind(node); if (assignmentKind === 6 /* Prototype */ || assignmentKind === 3 /* PrototypeProperty */) { var symbol = getSymbolOfNode(node.left); if (symbol && symbol.parent && !ts.findAncestor(symbol.parent.valueDeclaration, function (d) { return node === d; })) { node = symbol.parent.valueDeclaration; } } } if (!node) { return undefined; } switch (node.kind) { case 225 /* VariableStatement */: case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 246 /* InterfaceDeclaration */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 160 /* MethodSignature */: case 170 /* FunctionType */: case 171 /* ConstructorType */: case 300 /* JSDocFunctionType */: case 244 /* FunctionDeclaration */: case 161 /* MethodDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 247 /* TypeAliasDeclaration */: case 321 /* JSDocTemplateTag */: case 322 /* JSDocTypedefTag */: case 316 /* JSDocEnumTag */: case 315 /* JSDocCallbackTag */: case 186 /* MappedType */: case 180 /* ConditionalType */: var outerTypeParameters = getOuterTypeParameters(node, includeThisTypes); if (node.kind === 186 /* MappedType */) { return ts.append(outerTypeParameters, getDeclaredTypeOfTypeParameter(getSymbolOfNode(node.typeParameter))); } else if (node.kind === 180 /* ConditionalType */) { return ts.concatenate(outerTypeParameters, getInferTypeParameters(node)); } else if (node.kind === 225 /* VariableStatement */ && !ts.isInJSFile(node)) { break; } var outerAndOwnTypeParameters = appendTypeParameters(outerTypeParameters, ts.getEffectiveTypeParameterDeclarations(node)); var thisType = includeThisTypes && (node.kind === 245 /* ClassDeclaration */ || node.kind === 214 /* ClassExpression */ || node.kind === 246 /* InterfaceDeclaration */ || isJSConstructor(node)) && getDeclaredTypeOfClassOrInterface(getSymbolOfNode(node)).thisType; return thisType ? ts.append(outerAndOwnTypeParameters, thisType) : outerAndOwnTypeParameters; } } } // The outer type parameters are those defined by enclosing generic classes, methods, or functions. function getOuterTypeParametersOfClassOrInterface(symbol) { var declaration = symbol.flags & 32 /* Class */ ? symbol.valueDeclaration : ts.getDeclarationOfKind(symbol, 246 /* InterfaceDeclaration */); ts.Debug.assert(!!declaration, "Class was missing valueDeclaration -OR- non-class had no interface declarations"); return getOuterTypeParameters(declaration); } // The local type parameters are the combined set of type parameters from all declarations of the class, // interface, or type alias. function getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol) { var result; for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var node = _a[_i]; if (node.kind === 246 /* InterfaceDeclaration */ || node.kind === 245 /* ClassDeclaration */ || node.kind === 214 /* ClassExpression */ || isJSConstructor(node) || ts.isTypeAlias(node)) { var declaration = node; result = appendTypeParameters(result, ts.getEffectiveTypeParameterDeclarations(declaration)); } } return result; } // The full set of type parameters for a generic class or interface type consists of its outer type parameters plus // its locally declared type parameters. function getTypeParametersOfClassOrInterface(symbol) { return ts.concatenate(getOuterTypeParametersOfClassOrInterface(symbol), getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol)); } // A type is a mixin constructor if it has a single construct signature taking no type parameters and a single // rest parameter of type any[]. function isMixinConstructorType(type) { var signatures = getSignaturesOfType(type, 1 /* Construct */); if (signatures.length === 1) { var s = signatures[0]; return !s.typeParameters && s.parameters.length === 1 && signatureHasRestParameter(s) && getElementTypeOfArrayType(getTypeOfParameter(s.parameters[0])) === anyType; } return false; } function isConstructorType(type) { if (getSignaturesOfType(type, 1 /* Construct */).length > 0) { return true; } if (type.flags & 8650752 /* TypeVariable */) { var constraint = getBaseConstraintOfType(type); return !!constraint && isMixinConstructorType(constraint); } return false; } function getBaseTypeNodeOfClass(type) { return ts.getEffectiveBaseTypeNode(type.symbol.valueDeclaration); } function getConstructorsForTypeArguments(type, typeArgumentNodes, location) { var typeArgCount = ts.length(typeArgumentNodes); var isJavascript = ts.isInJSFile(location); return ts.filter(getSignaturesOfType(type, 1 /* Construct */), function (sig) { return (isJavascript || typeArgCount >= getMinTypeArgumentCount(sig.typeParameters)) && typeArgCount <= ts.length(sig.typeParameters); }); } function getInstantiatedConstructorsForTypeArguments(type, typeArgumentNodes, location) { var signatures = getConstructorsForTypeArguments(type, typeArgumentNodes, location); var typeArguments = ts.map(typeArgumentNodes, getTypeFromTypeNode); return ts.sameMap(signatures, function (sig) { return ts.some(sig.typeParameters) ? getSignatureInstantiation(sig, typeArguments, ts.isInJSFile(location)) : sig; }); } /** * The base constructor of a class can resolve to * * undefinedType if the class has no extends clause, * * unknownType if an error occurred during resolution of the extends expression, * * nullType if the extends expression is the null value, * * anyType if the extends expression has type any, or * * an object type with at least one construct signature. */ function getBaseConstructorTypeOfClass(type) { if (!type.resolvedBaseConstructorType) { var decl = type.symbol.valueDeclaration; var extended = ts.getEffectiveBaseTypeNode(decl); var baseTypeNode = getBaseTypeNodeOfClass(type); if (!baseTypeNode) { return type.resolvedBaseConstructorType = undefinedType; } if (!pushTypeResolution(type, 1 /* ResolvedBaseConstructorType */)) { return errorType; } var baseConstructorType = checkExpression(baseTypeNode.expression); if (extended && baseTypeNode !== extended) { ts.Debug.assert(!extended.typeArguments); // Because this is in a JS file, and baseTypeNode is in an @extends tag checkExpression(extended.expression); } if (baseConstructorType.flags & (524288 /* Object */ | 2097152 /* Intersection */)) { // Resolving the members of a class requires us to resolve the base class of that class. // We force resolution here such that we catch circularities now. resolveStructuredTypeMembers(baseConstructorType); } if (!popTypeResolution()) { error(type.symbol.valueDeclaration, ts.Diagnostics._0_is_referenced_directly_or_indirectly_in_its_own_base_expression, symbolToString(type.symbol)); return type.resolvedBaseConstructorType = errorType; } if (!(baseConstructorType.flags & 1 /* Any */) && baseConstructorType !== nullWideningType && !isConstructorType(baseConstructorType)) { var err = error(baseTypeNode.expression, ts.Diagnostics.Type_0_is_not_a_constructor_function_type, typeToString(baseConstructorType)); if (baseConstructorType.flags & 262144 /* TypeParameter */) { var constraint = getConstraintFromTypeParameter(baseConstructorType); var ctorReturn = unknownType; if (constraint) { var ctorSig = getSignaturesOfType(constraint, 1 /* Construct */); if (ctorSig[0]) { ctorReturn = getReturnTypeOfSignature(ctorSig[0]); } } ts.addRelatedInfo(err, ts.createDiagnosticForNode(baseConstructorType.symbol.declarations[0], ts.Diagnostics.Did_you_mean_for_0_to_be_constrained_to_type_new_args_Colon_any_1, symbolToString(baseConstructorType.symbol), typeToString(ctorReturn))); } return type.resolvedBaseConstructorType = errorType; } type.resolvedBaseConstructorType = baseConstructorType; } return type.resolvedBaseConstructorType; } function getImplementsTypes(type) { var resolvedImplementsTypes = ts.emptyArray; for (var _i = 0, _a = type.symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; var implementsTypeNodes = ts.getEffectiveImplementsTypeNodes(declaration); if (!implementsTypeNodes) continue; for (var _b = 0, implementsTypeNodes_1 = implementsTypeNodes; _b < implementsTypeNodes_1.length; _b++) { var node = implementsTypeNodes_1[_b]; var implementsType = getTypeFromTypeNode(node); if (implementsType !== errorType) { if (resolvedImplementsTypes === ts.emptyArray) { resolvedImplementsTypes = [implementsType]; } else { resolvedImplementsTypes.push(implementsType); } } } } return resolvedImplementsTypes; } function getBaseTypes(type) { if (!type.resolvedBaseTypes) { if (type.objectFlags & 8 /* Tuple */) { type.resolvedBaseTypes = [createArrayType(getUnionType(type.typeParameters || ts.emptyArray), type.readonly)]; } else if (type.symbol.flags & (32 /* Class */ | 64 /* Interface */)) { if (type.symbol.flags & 32 /* Class */) { resolveBaseTypesOfClass(type); } if (type.symbol.flags & 64 /* Interface */) { resolveBaseTypesOfInterface(type); } } else { ts.Debug.fail("type must be class or interface"); } } return type.resolvedBaseTypes; } function resolveBaseTypesOfClass(type) { type.resolvedBaseTypes = ts.resolvingEmptyArray; var baseConstructorType = getApparentType(getBaseConstructorTypeOfClass(type)); if (!(baseConstructorType.flags & (524288 /* Object */ | 2097152 /* Intersection */ | 1 /* Any */))) { return type.resolvedBaseTypes = ts.emptyArray; } var baseTypeNode = getBaseTypeNodeOfClass(type); var baseType; var originalBaseType = baseConstructorType.symbol ? getDeclaredTypeOfSymbol(baseConstructorType.symbol) : undefined; if (baseConstructorType.symbol && baseConstructorType.symbol.flags & 32 /* Class */ && areAllOuterTypeParametersApplied(originalBaseType)) { // When base constructor type is a class with no captured type arguments we know that the constructors all have the same type parameters as the // class and all return the instance type of the class. There is no need for further checks and we can apply the // type arguments in the same manner as a type reference to get the same error reporting experience. baseType = getTypeFromClassOrInterfaceReference(baseTypeNode, baseConstructorType.symbol); } else if (baseConstructorType.flags & 1 /* Any */) { baseType = baseConstructorType; } else { // The class derives from a "class-like" constructor function, check that we have at least one construct signature // with a matching number of type parameters and use the return type of the first instantiated signature. Elsewhere // we check that all instantiated signatures return the same type. var constructors = getInstantiatedConstructorsForTypeArguments(baseConstructorType, baseTypeNode.typeArguments, baseTypeNode); if (!constructors.length) { error(baseTypeNode.expression, ts.Diagnostics.No_base_constructor_has_the_specified_number_of_type_arguments); return type.resolvedBaseTypes = ts.emptyArray; } baseType = getReturnTypeOfSignature(constructors[0]); } if (baseType === errorType) { return type.resolvedBaseTypes = ts.emptyArray; } var reducedBaseType = getReducedType(baseType); if (!isValidBaseType(reducedBaseType)) { var elaboration = elaborateNeverIntersection(/*errorInfo*/ undefined, baseType); var diagnostic = ts.chainDiagnosticMessages(elaboration, ts.Diagnostics.Base_constructor_return_type_0_is_not_an_object_type_or_intersection_of_object_types_with_statically_known_members, typeToString(reducedBaseType)); diagnostics.add(ts.createDiagnosticForNodeFromMessageChain(baseTypeNode.expression, diagnostic)); return type.resolvedBaseTypes = ts.emptyArray; } if (type === reducedBaseType || hasBaseType(reducedBaseType, type)) { error(type.symbol.valueDeclaration, ts.Diagnostics.Type_0_recursively_references_itself_as_a_base_type, typeToString(type, /*enclosingDeclaration*/ undefined, 2 /* WriteArrayAsGenericType */)); return type.resolvedBaseTypes = ts.emptyArray; } if (type.resolvedBaseTypes === ts.resolvingEmptyArray) { // Circular reference, likely through instantiation of default parameters // (otherwise there'd be an error from hasBaseType) - this is fine, but `.members` should be reset // as `getIndexedAccessType` via `instantiateType` via `getTypeFromClassOrInterfaceReference` forces a // partial instantiation of the members without the base types fully resolved type.members = undefined; } return type.resolvedBaseTypes = [reducedBaseType]; } function areAllOuterTypeParametersApplied(type) { // An unapplied type parameter has its symbol still the same as the matching argument symbol. // Since parameters are applied outer-to-inner, only the last outer parameter needs to be checked. var outerTypeParameters = type.outerTypeParameters; if (outerTypeParameters) { var last_1 = outerTypeParameters.length - 1; var typeArguments = getTypeArguments(type); return outerTypeParameters[last_1].symbol !== typeArguments[last_1].symbol; } return true; } // A valid base type is `any`, an object type or intersection of object types. function isValidBaseType(type) { if (type.flags & 262144 /* TypeParameter */) { var constraint = getBaseConstraintOfType(type); if (constraint) { return isValidBaseType(constraint); } } // TODO: Given that we allow type parmeters here now, is this `!isGenericMappedType(type)` check really needed? // There's no reason a `T` should be allowed while a `Readonly` should not. return !!(type.flags & (524288 /* Object */ | 67108864 /* NonPrimitive */ | 1 /* Any */) && !isGenericMappedType(type) || type.flags & 2097152 /* Intersection */ && ts.every(type.types, isValidBaseType)); } function resolveBaseTypesOfInterface(type) { type.resolvedBaseTypes = type.resolvedBaseTypes || ts.emptyArray; for (var _i = 0, _a = type.symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; if (declaration.kind === 246 /* InterfaceDeclaration */ && ts.getInterfaceBaseTypeNodes(declaration)) { for (var _b = 0, _c = ts.getInterfaceBaseTypeNodes(declaration); _b < _c.length; _b++) { var node = _c[_b]; var baseType = getReducedType(getTypeFromTypeNode(node)); if (baseType !== errorType) { if (isValidBaseType(baseType)) { if (type !== baseType && !hasBaseType(baseType, type)) { if (type.resolvedBaseTypes === ts.emptyArray) { type.resolvedBaseTypes = [baseType]; } else { type.resolvedBaseTypes.push(baseType); } } else { error(declaration, ts.Diagnostics.Type_0_recursively_references_itself_as_a_base_type, typeToString(type, /*enclosingDeclaration*/ undefined, 2 /* WriteArrayAsGenericType */)); } } else { error(node, ts.Diagnostics.An_interface_can_only_extend_an_object_type_or_intersection_of_object_types_with_statically_known_members); } } } } } } /** * Returns true if the interface given by the symbol is free of "this" references. * * Specifically, the result is true if the interface itself contains no references * to "this" in its body, if all base types are interfaces, * and if none of the base interfaces have a "this" type. */ function isThislessInterface(symbol) { for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; if (declaration.kind === 246 /* InterfaceDeclaration */) { if (declaration.flags & 128 /* ContainsThis */) { return false; } var baseTypeNodes = ts.getInterfaceBaseTypeNodes(declaration); if (baseTypeNodes) { for (var _b = 0, baseTypeNodes_1 = baseTypeNodes; _b < baseTypeNodes_1.length; _b++) { var node = baseTypeNodes_1[_b]; if (ts.isEntityNameExpression(node.expression)) { var baseSymbol = resolveEntityName(node.expression, 788968 /* Type */, /*ignoreErrors*/ true); if (!baseSymbol || !(baseSymbol.flags & 64 /* Interface */) || getDeclaredTypeOfClassOrInterface(baseSymbol).thisType) { return false; } } } } } } return true; } function getDeclaredTypeOfClassOrInterface(symbol) { var links = getSymbolLinks(symbol); var originalLinks = links; if (!links.declaredType) { var kind = symbol.flags & 32 /* Class */ ? 1 /* Class */ : 2 /* Interface */; var merged = mergeJSSymbols(symbol, getAssignedClassSymbol(symbol.valueDeclaration)); if (merged) { // note:we overwrite links because we just cloned the symbol symbol = links = merged; } var type = originalLinks.declaredType = links.declaredType = createObjectType(kind, symbol); var outerTypeParameters = getOuterTypeParametersOfClassOrInterface(symbol); var localTypeParameters = getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol); // A class or interface is generic if it has type parameters or a "this" type. We always give classes a "this" type // because it is not feasible to analyze all members to determine if the "this" type escapes the class (in particular, // property types inferred from initializers and method return types inferred from return statements are very hard // to exhaustively analyze). We give interfaces a "this" type if we can't definitely determine that they are free of // "this" references. if (outerTypeParameters || localTypeParameters || kind === 1 /* Class */ || !isThislessInterface(symbol)) { type.objectFlags |= 4 /* Reference */; type.typeParameters = ts.concatenate(outerTypeParameters, localTypeParameters); type.outerTypeParameters = outerTypeParameters; type.localTypeParameters = localTypeParameters; type.instantiations = ts.createMap(); type.instantiations.set(getTypeListId(type.typeParameters), type); type.target = type; type.resolvedTypeArguments = type.typeParameters; type.thisType = createTypeParameter(symbol); type.thisType.isThisType = true; type.thisType.constraint = type; } } return links.declaredType; } function getDeclaredTypeOfTypeAlias(symbol) { var links = getSymbolLinks(symbol); if (!links.declaredType) { // Note that we use the links object as the target here because the symbol object is used as the unique // identity for resolution of the 'type' property in SymbolLinks. if (!pushTypeResolution(symbol, 2 /* DeclaredType */)) { return errorType; } var declaration = ts.Debug.checkDefined(ts.find(symbol.declarations, ts.isTypeAlias), "Type alias symbol with no valid declaration found"); var typeNode = ts.isJSDocTypeAlias(declaration) ? declaration.typeExpression : declaration.type; // If typeNode is missing, we will error in checkJSDocTypedefTag. var type = typeNode ? getTypeFromTypeNode(typeNode) : errorType; if (popTypeResolution()) { var typeParameters = getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol); if (typeParameters) { // Initialize the instantiation cache for generic type aliases. The declared type corresponds to // an instantiation of the type alias with the type parameters supplied as type arguments. links.typeParameters = typeParameters; links.instantiations = ts.createMap(); links.instantiations.set(getTypeListId(typeParameters), type); } } else { type = errorType; error(ts.isNamedDeclaration(declaration) ? declaration.name : declaration || declaration, ts.Diagnostics.Type_alias_0_circularly_references_itself, symbolToString(symbol)); } links.declaredType = type; } return links.declaredType; } function isStringConcatExpression(expr) { if (ts.isStringLiteralLike(expr)) { return true; } else if (expr.kind === 209 /* BinaryExpression */) { return isStringConcatExpression(expr.left) && isStringConcatExpression(expr.right); } return false; } function isLiteralEnumMember(member) { var expr = member.initializer; if (!expr) { return !(member.flags & 8388608 /* Ambient */); } switch (expr.kind) { case 10 /* StringLiteral */: case 8 /* NumericLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: return true; case 207 /* PrefixUnaryExpression */: return expr.operator === 40 /* MinusToken */ && expr.operand.kind === 8 /* NumericLiteral */; case 75 /* Identifier */: return ts.nodeIsMissing(expr) || !!getSymbolOfNode(member.parent).exports.get(expr.escapedText); case 209 /* BinaryExpression */: return isStringConcatExpression(expr); default: return false; } } function getEnumKind(symbol) { var links = getSymbolLinks(symbol); if (links.enumKind !== undefined) { return links.enumKind; } var hasNonLiteralMember = false; for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; if (declaration.kind === 248 /* EnumDeclaration */) { for (var _b = 0, _c = declaration.members; _b < _c.length; _b++) { var member = _c[_b]; if (member.initializer && ts.isStringLiteralLike(member.initializer)) { return links.enumKind = 1 /* Literal */; } if (!isLiteralEnumMember(member)) { hasNonLiteralMember = true; } } } } return links.enumKind = hasNonLiteralMember ? 0 /* Numeric */ : 1 /* Literal */; } function getBaseTypeOfEnumLiteralType(type) { return type.flags & 1024 /* EnumLiteral */ && !(type.flags & 1048576 /* Union */) ? getDeclaredTypeOfSymbol(getParentOfSymbol(type.symbol)) : type; } function getDeclaredTypeOfEnum(symbol) { var links = getSymbolLinks(symbol); if (links.declaredType) { return links.declaredType; } if (getEnumKind(symbol) === 1 /* Literal */) { enumCount++; var memberTypeList = []; for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; if (declaration.kind === 248 /* EnumDeclaration */) { for (var _b = 0, _c = declaration.members; _b < _c.length; _b++) { var member = _c[_b]; var value = getEnumMemberValue(member); var memberType = getFreshTypeOfLiteralType(getLiteralType(value !== undefined ? value : 0, enumCount, getSymbolOfNode(member))); getSymbolLinks(getSymbolOfNode(member)).declaredType = memberType; memberTypeList.push(getRegularTypeOfLiteralType(memberType)); } } } if (memberTypeList.length) { var enumType_1 = getUnionType(memberTypeList, 1 /* Literal */, symbol, /*aliasTypeArguments*/ undefined); if (enumType_1.flags & 1048576 /* Union */) { enumType_1.flags |= 1024 /* EnumLiteral */; enumType_1.symbol = symbol; } return links.declaredType = enumType_1; } } var enumType = createType(32 /* Enum */); enumType.symbol = symbol; return links.declaredType = enumType; } function getDeclaredTypeOfEnumMember(symbol) { var links = getSymbolLinks(symbol); if (!links.declaredType) { var enumType = getDeclaredTypeOfEnum(getParentOfSymbol(symbol)); if (!links.declaredType) { links.declaredType = enumType; } } return links.declaredType; } function getDeclaredTypeOfTypeParameter(symbol) { var links = getSymbolLinks(symbol); return links.declaredType || (links.declaredType = createTypeParameter(symbol)); } function getDeclaredTypeOfAlias(symbol) { var links = getSymbolLinks(symbol); return links.declaredType || (links.declaredType = getDeclaredTypeOfSymbol(resolveAlias(symbol))); } function getDeclaredTypeOfSymbol(symbol) { return tryGetDeclaredTypeOfSymbol(symbol) || errorType; } function tryGetDeclaredTypeOfSymbol(symbol) { if (symbol.flags & (32 /* Class */ | 64 /* Interface */)) { return getDeclaredTypeOfClassOrInterface(symbol); } if (symbol.flags & 524288 /* TypeAlias */) { return getDeclaredTypeOfTypeAlias(symbol); } if (symbol.flags & 262144 /* TypeParameter */) { return getDeclaredTypeOfTypeParameter(symbol); } if (symbol.flags & 384 /* Enum */) { return getDeclaredTypeOfEnum(symbol); } if (symbol.flags & 8 /* EnumMember */) { return getDeclaredTypeOfEnumMember(symbol); } if (symbol.flags & 2097152 /* Alias */) { return getDeclaredTypeOfAlias(symbol); } return undefined; } /** * A type is free of this references if it's the any, string, number, boolean, symbol, or void keyword, a string * literal type, an array with an element type that is free of this references, or a type reference that is * free of this references. */ function isThislessType(node) { switch (node.kind) { case 125 /* AnyKeyword */: case 148 /* UnknownKeyword */: case 143 /* StringKeyword */: case 140 /* NumberKeyword */: case 151 /* BigIntKeyword */: case 128 /* BooleanKeyword */: case 144 /* SymbolKeyword */: case 141 /* ObjectKeyword */: case 110 /* VoidKeyword */: case 146 /* UndefinedKeyword */: case 100 /* NullKeyword */: case 137 /* NeverKeyword */: case 187 /* LiteralType */: return true; case 174 /* ArrayType */: return isThislessType(node.elementType); case 169 /* TypeReference */: return !node.typeArguments || node.typeArguments.every(isThislessType); } return false; } /** A type parameter is thisless if its constraint is thisless, or if it has no constraint. */ function isThislessTypeParameter(node) { var constraint = ts.getEffectiveConstraintOfTypeParameter(node); return !constraint || isThislessType(constraint); } /** * A variable-like declaration is free of this references if it has a type annotation * that is thisless, or if it has no type annotation and no initializer (and is thus of type any). */ function isThislessVariableLikeDeclaration(node) { var typeNode = ts.getEffectiveTypeAnnotationNode(node); return typeNode ? isThislessType(typeNode) : !ts.hasInitializer(node); } /** * A function-like declaration is considered free of `this` references if it has a return type * annotation that is free of this references and if each parameter is thisless and if * each type parameter (if present) is thisless. */ function isThislessFunctionLikeDeclaration(node) { var returnType = ts.getEffectiveReturnTypeNode(node); var typeParameters = ts.getEffectiveTypeParameterDeclarations(node); return (node.kind === 162 /* Constructor */ || (!!returnType && isThislessType(returnType))) && node.parameters.every(isThislessVariableLikeDeclaration) && typeParameters.every(isThislessTypeParameter); } /** * Returns true if the class or interface member given by the symbol is free of "this" references. The * function may return false for symbols that are actually free of "this" references because it is not * feasible to perform a complete analysis in all cases. In particular, property members with types * inferred from their initializers and function members with inferred return types are conservatively * assumed not to be free of "this" references. */ function isThisless(symbol) { if (symbol.declarations && symbol.declarations.length === 1) { var declaration = symbol.declarations[0]; if (declaration) { switch (declaration.kind) { case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: return isThislessVariableLikeDeclaration(declaration); case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return isThislessFunctionLikeDeclaration(declaration); } } } return false; } // The mappingThisOnly flag indicates that the only type parameter being mapped is "this". When the flag is true, // we check symbols to see if we can quickly conclude they are free of "this" references, thus needing no instantiation. function createInstantiatedSymbolTable(symbols, mapper, mappingThisOnly) { var result = ts.createSymbolTable(); for (var _i = 0, symbols_2 = symbols; _i < symbols_2.length; _i++) { var symbol = symbols_2[_i]; result.set(symbol.escapedName, mappingThisOnly && isThisless(symbol) ? symbol : instantiateSymbol(symbol, mapper)); } return result; } function addInheritedMembers(symbols, baseSymbols) { for (var _i = 0, baseSymbols_1 = baseSymbols; _i < baseSymbols_1.length; _i++) { var s = baseSymbols_1[_i]; if (!symbols.has(s.escapedName) && !isStaticPrivateIdentifierProperty(s)) { symbols.set(s.escapedName, s); } } } function isStaticPrivateIdentifierProperty(s) { return !!s.valueDeclaration && ts.isPrivateIdentifierPropertyDeclaration(s.valueDeclaration) && ts.hasModifier(s.valueDeclaration, 32 /* Static */); } function resolveDeclaredMembers(type) { if (!type.declaredProperties) { var symbol = type.symbol; var members = getMembersOfSymbol(symbol); type.declaredProperties = getNamedMembers(members); // Start with signatures at empty array in case of recursive types type.declaredCallSignatures = ts.emptyArray; type.declaredConstructSignatures = ts.emptyArray; type.declaredCallSignatures = getSignaturesOfSymbol(members.get("__call" /* Call */)); type.declaredConstructSignatures = getSignaturesOfSymbol(members.get("__new" /* New */)); type.declaredStringIndexInfo = getIndexInfoOfSymbol(symbol, 0 /* String */); type.declaredNumberIndexInfo = getIndexInfoOfSymbol(symbol, 1 /* Number */); } return type; } /** * Indicates whether a type can be used as a property name. */ function isTypeUsableAsPropertyName(type) { return !!(type.flags & 8576 /* StringOrNumberLiteralOrUnique */); } /** * Indicates whether a declaration name is definitely late-bindable. * A declaration name is only late-bindable if: * - It is a `ComputedPropertyName`. * - Its expression is an `Identifier` or either a `PropertyAccessExpression` an * `ElementAccessExpression` consisting only of these same three types of nodes. * - The type of its expression is a string or numeric literal type, or is a `unique symbol` type. */ function isLateBindableName(node) { if (!ts.isComputedPropertyName(node) && !ts.isElementAccessExpression(node)) { return false; } var expr = ts.isComputedPropertyName(node) ? node.expression : node.argumentExpression; return ts.isEntityNameExpression(expr) && isTypeUsableAsPropertyName(ts.isComputedPropertyName(node) ? checkComputedPropertyName(node) : checkExpressionCached(expr)); } function isLateBoundName(name) { return name.charCodeAt(0) === 95 /* _ */ && name.charCodeAt(1) === 95 /* _ */ && name.charCodeAt(2) === 64 /* at */; } /** * Indicates whether a declaration has a late-bindable dynamic name. */ function hasLateBindableName(node) { var name = ts.getNameOfDeclaration(node); return !!name && isLateBindableName(name); } /** * Indicates whether a declaration has a dynamic name that cannot be late-bound. */ function hasNonBindableDynamicName(node) { return ts.hasDynamicName(node) && !hasLateBindableName(node); } /** * Indicates whether a declaration name is a dynamic name that cannot be late-bound. */ function isNonBindableDynamicName(node) { return ts.isDynamicName(node) && !isLateBindableName(node); } /** * Gets the symbolic name for a member from its type. */ function getPropertyNameFromType(type) { if (type.flags & 8192 /* UniqueESSymbol */) { return type.escapedName; } if (type.flags & (128 /* StringLiteral */ | 256 /* NumberLiteral */)) { return ts.escapeLeadingUnderscores("" + type.value); } return ts.Debug.fail(); } /** * Adds a declaration to a late-bound dynamic member. This performs the same function for * late-bound members that `addDeclarationToSymbol` in binder.ts performs for early-bound * members. */ function addDeclarationToLateBoundSymbol(symbol, member, symbolFlags) { ts.Debug.assert(!!(ts.getCheckFlags(symbol) & 4096 /* Late */), "Expected a late-bound symbol."); symbol.flags |= symbolFlags; getSymbolLinks(member.symbol).lateSymbol = symbol; if (!symbol.declarations) { symbol.declarations = [member]; } else { symbol.declarations.push(member); } if (symbolFlags & 111551 /* Value */) { if (!symbol.valueDeclaration || symbol.valueDeclaration.kind !== member.kind) { symbol.valueDeclaration = member; } } } /** * Performs late-binding of a dynamic member. This performs the same function for * late-bound members that `declareSymbol` in binder.ts performs for early-bound * members. * * If a symbol is a dynamic name from a computed property, we perform an additional "late" * binding phase to attempt to resolve the name for the symbol from the type of the computed * property's expression. If the type of the expression is a string-literal, numeric-literal, * or unique symbol type, we can use that type as the name of the symbol. * * For example, given: * * const x = Symbol(); * * interface I { * [x]: number; * } * * The binder gives the property `[x]: number` a special symbol with the name "__computed". * In the late-binding phase we can type-check the expression `x` and see that it has a * unique symbol type which we can then use as the name of the member. This allows users * to define custom symbols that can be used in the members of an object type. * * @param parent The containing symbol for the member. * @param earlySymbols The early-bound symbols of the parent. * @param lateSymbols The late-bound symbols of the parent. * @param decl The member to bind. */ function lateBindMember(parent, earlySymbols, lateSymbols, decl) { ts.Debug.assert(!!decl.symbol, "The member is expected to have a symbol."); var links = getNodeLinks(decl); if (!links.resolvedSymbol) { // In the event we attempt to resolve the late-bound name of this member recursively, // fall back to the early-bound name of this member. links.resolvedSymbol = decl.symbol; var declName = ts.isBinaryExpression(decl) ? decl.left : decl.name; var type = ts.isElementAccessExpression(declName) ? checkExpressionCached(declName.argumentExpression) : checkComputedPropertyName(declName); if (isTypeUsableAsPropertyName(type)) { var memberName = getPropertyNameFromType(type); var symbolFlags = decl.symbol.flags; // Get or add a late-bound symbol for the member. This allows us to merge late-bound accessor declarations. var lateSymbol = lateSymbols.get(memberName); if (!lateSymbol) lateSymbols.set(memberName, lateSymbol = createSymbol(0 /* None */, memberName, 4096 /* Late */)); // Report an error if a late-bound member has the same name as an early-bound member, // or if we have another early-bound symbol declaration with the same name and // conflicting flags. var earlySymbol = earlySymbols && earlySymbols.get(memberName); if (lateSymbol.flags & getExcludedSymbolFlags(symbolFlags) || earlySymbol) { // If we have an existing early-bound member, combine its declarations so that we can // report an error at each declaration. var declarations = earlySymbol ? ts.concatenate(earlySymbol.declarations, lateSymbol.declarations) : lateSymbol.declarations; var name_3 = !(type.flags & 8192 /* UniqueESSymbol */) && ts.unescapeLeadingUnderscores(memberName) || ts.declarationNameToString(declName); ts.forEach(declarations, function (declaration) { return error(ts.getNameOfDeclaration(declaration) || declaration, ts.Diagnostics.Property_0_was_also_declared_here, name_3); }); error(declName || decl, ts.Diagnostics.Duplicate_property_0, name_3); lateSymbol = createSymbol(0 /* None */, memberName, 4096 /* Late */); } lateSymbol.nameType = type; addDeclarationToLateBoundSymbol(lateSymbol, decl, symbolFlags); if (lateSymbol.parent) { ts.Debug.assert(lateSymbol.parent === parent, "Existing symbol parent should match new one"); } else { lateSymbol.parent = parent; } return links.resolvedSymbol = lateSymbol; } } return links.resolvedSymbol; } function getResolvedMembersOrExportsOfSymbol(symbol, resolutionKind) { var links = getSymbolLinks(symbol); if (!links[resolutionKind]) { var isStatic = resolutionKind === "resolvedExports" /* resolvedExports */; var earlySymbols = !isStatic ? symbol.members : symbol.flags & 1536 /* Module */ ? getExportsOfModuleWorker(symbol) : symbol.exports; // In the event we recursively resolve the members/exports of the symbol, we // set the initial value of resolvedMembers/resolvedExports to the early-bound // members/exports of the symbol. links[resolutionKind] = earlySymbols || emptySymbols; // fill in any as-yet-unresolved late-bound members. var lateSymbols = ts.createSymbolTable(); for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; var members = ts.getMembersOfDeclaration(decl); if (members) { for (var _b = 0, members_5 = members; _b < members_5.length; _b++) { var member = members_5[_b]; if (isStatic === ts.hasStaticModifier(member) && hasLateBindableName(member)) { lateBindMember(symbol, earlySymbols, lateSymbols, member); } } } } var assignments = symbol.assignmentDeclarationMembers; if (assignments) { var decls = ts.arrayFrom(assignments.values()); for (var _c = 0, decls_1 = decls; _c < decls_1.length; _c++) { var member = decls_1[_c]; var assignmentKind = ts.getAssignmentDeclarationKind(member); var isInstanceMember = assignmentKind === 3 /* PrototypeProperty */ || assignmentKind === 4 /* ThisProperty */ || assignmentKind === 9 /* ObjectDefinePrototypeProperty */ || assignmentKind === 6 /* Prototype */; // A straight `Prototype` assignment probably can never have a computed name if (isStatic === !isInstanceMember && hasLateBindableName(member)) { lateBindMember(symbol, earlySymbols, lateSymbols, member); } } } links[resolutionKind] = combineSymbolTables(earlySymbols, lateSymbols) || emptySymbols; } return links[resolutionKind]; } /** * Gets a SymbolTable containing both the early- and late-bound members of a symbol. * * For a description of late-binding, see `lateBindMember`. */ function getMembersOfSymbol(symbol) { return symbol.flags & 6256 /* LateBindingContainer */ ? getResolvedMembersOrExportsOfSymbol(symbol, "resolvedMembers" /* resolvedMembers */) : symbol.members || emptySymbols; } /** * If a symbol is the dynamic name of the member of an object type, get the late-bound * symbol of the member. * * For a description of late-binding, see `lateBindMember`. */ function getLateBoundSymbol(symbol) { if (symbol.flags & 106500 /* ClassMember */ && symbol.escapedName === "__computed" /* Computed */) { var links = getSymbolLinks(symbol); if (!links.lateSymbol && ts.some(symbol.declarations, hasLateBindableName)) { // force late binding of members/exports. This will set the late-bound symbol var parent = getMergedSymbol(symbol.parent); if (ts.some(symbol.declarations, ts.hasStaticModifier)) { getExportsOfSymbol(parent); } else { getMembersOfSymbol(parent); } } return links.lateSymbol || (links.lateSymbol = symbol); } return symbol; } function getTypeWithThisArgument(type, thisArgument, needApparentType) { if (ts.getObjectFlags(type) & 4 /* Reference */) { var target = type.target; var typeArguments = getTypeArguments(type); if (ts.length(target.typeParameters) === ts.length(typeArguments)) { var ref = createTypeReference(target, ts.concatenate(typeArguments, [thisArgument || target.thisType])); return needApparentType ? getApparentType(ref) : ref; } } else if (type.flags & 2097152 /* Intersection */) { return getIntersectionType(ts.map(type.types, function (t) { return getTypeWithThisArgument(t, thisArgument, needApparentType); })); } return needApparentType ? getApparentType(type) : type; } function resolveObjectTypeMembers(type, source, typeParameters, typeArguments) { var mapper; var members; var callSignatures; var constructSignatures; var stringIndexInfo; var numberIndexInfo; if (ts.rangeEquals(typeParameters, typeArguments, 0, typeParameters.length)) { members = source.symbol ? getMembersOfSymbol(source.symbol) : ts.createSymbolTable(source.declaredProperties); callSignatures = source.declaredCallSignatures; constructSignatures = source.declaredConstructSignatures; stringIndexInfo = source.declaredStringIndexInfo; numberIndexInfo = source.declaredNumberIndexInfo; } else { mapper = createTypeMapper(typeParameters, typeArguments); members = createInstantiatedSymbolTable(source.declaredProperties, mapper, /*mappingThisOnly*/ typeParameters.length === 1); callSignatures = instantiateSignatures(source.declaredCallSignatures, mapper); constructSignatures = instantiateSignatures(source.declaredConstructSignatures, mapper); stringIndexInfo = instantiateIndexInfo(source.declaredStringIndexInfo, mapper); numberIndexInfo = instantiateIndexInfo(source.declaredNumberIndexInfo, mapper); } var baseTypes = getBaseTypes(source); if (baseTypes.length) { if (source.symbol && members === getMembersOfSymbol(source.symbol)) { members = ts.createSymbolTable(source.declaredProperties); } setStructuredTypeMembers(type, members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo); var thisArgument = ts.lastOrUndefined(typeArguments); for (var _i = 0, baseTypes_1 = baseTypes; _i < baseTypes_1.length; _i++) { var baseType = baseTypes_1[_i]; var instantiatedBaseType = thisArgument ? getTypeWithThisArgument(instantiateType(baseType, mapper), thisArgument) : baseType; addInheritedMembers(members, getPropertiesOfType(instantiatedBaseType)); callSignatures = ts.concatenate(callSignatures, getSignaturesOfType(instantiatedBaseType, 0 /* Call */)); constructSignatures = ts.concatenate(constructSignatures, getSignaturesOfType(instantiatedBaseType, 1 /* Construct */)); if (!stringIndexInfo) { stringIndexInfo = instantiatedBaseType === anyType ? createIndexInfo(anyType, /*isReadonly*/ false) : getIndexInfoOfType(instantiatedBaseType, 0 /* String */); } numberIndexInfo = numberIndexInfo || getIndexInfoOfType(instantiatedBaseType, 1 /* Number */); } } setStructuredTypeMembers(type, members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo); } function resolveClassOrInterfaceMembers(type) { resolveObjectTypeMembers(type, resolveDeclaredMembers(type), ts.emptyArray, ts.emptyArray); } function resolveTypeReferenceMembers(type) { var source = resolveDeclaredMembers(type.target); var typeParameters = ts.concatenate(source.typeParameters, [source.thisType]); var typeArguments = getTypeArguments(type); var paddedTypeArguments = typeArguments.length === typeParameters.length ? typeArguments : ts.concatenate(typeArguments, [type]); resolveObjectTypeMembers(type, source, typeParameters, paddedTypeArguments); } function createSignature(declaration, typeParameters, thisParameter, parameters, resolvedReturnType, resolvedTypePredicate, minArgumentCount, flags) { var sig = new Signature(checker, flags); sig.declaration = declaration; sig.typeParameters = typeParameters; sig.parameters = parameters; sig.thisParameter = thisParameter; sig.resolvedReturnType = resolvedReturnType; sig.resolvedTypePredicate = resolvedTypePredicate; sig.minArgumentCount = minArgumentCount; sig.target = undefined; sig.mapper = undefined; sig.unionSignatures = undefined; return sig; } function cloneSignature(sig) { var result = createSignature(sig.declaration, sig.typeParameters, sig.thisParameter, sig.parameters, /*resolvedReturnType*/ undefined, /*resolvedTypePredicate*/ undefined, sig.minArgumentCount, sig.flags & 3 /* PropagatingFlags */); result.target = sig.target; result.mapper = sig.mapper; result.unionSignatures = sig.unionSignatures; return result; } function createUnionSignature(signature, unionSignatures) { var result = cloneSignature(signature); result.unionSignatures = unionSignatures; result.target = undefined; result.mapper = undefined; return result; } function getOptionalCallSignature(signature, callChainFlags) { if ((signature.flags & 12 /* CallChainFlags */) === callChainFlags) { return signature; } if (!signature.optionalCallSignatureCache) { signature.optionalCallSignatureCache = {}; } var key = callChainFlags === 4 /* IsInnerCallChain */ ? "inner" : "outer"; return signature.optionalCallSignatureCache[key] || (signature.optionalCallSignatureCache[key] = createOptionalCallSignature(signature, callChainFlags)); } function createOptionalCallSignature(signature, callChainFlags) { ts.Debug.assert(callChainFlags === 4 /* IsInnerCallChain */ || callChainFlags === 8 /* IsOuterCallChain */, "An optional call signature can either be for an inner call chain or an outer call chain, but not both."); var result = cloneSignature(signature); result.flags |= callChainFlags; return result; } function getExpandedParameters(sig) { if (signatureHasRestParameter(sig)) { var restIndex_1 = sig.parameters.length - 1; var restParameter = sig.parameters[restIndex_1]; var restType = getTypeOfSymbol(restParameter); if (isTupleType(restType)) { var elementTypes = getTypeArguments(restType); var minLength_1 = restType.target.minLength; var tupleRestIndex_1 = restType.target.hasRestElement ? elementTypes.length - 1 : -1; var restParams = ts.map(elementTypes, function (t, i) { var name = getParameterNameAtPosition(sig, restIndex_1 + i); var checkFlags = i === tupleRestIndex_1 ? 32768 /* RestParameter */ : i >= minLength_1 ? 16384 /* OptionalParameter */ : 0; var symbol = createSymbol(1 /* FunctionScopedVariable */, name, checkFlags); symbol.type = i === tupleRestIndex_1 ? createArrayType(t) : t; return symbol; }); return ts.concatenate(sig.parameters.slice(0, restIndex_1), restParams); } } return sig.parameters; } function getDefaultConstructSignatures(classType) { var baseConstructorType = getBaseConstructorTypeOfClass(classType); var baseSignatures = getSignaturesOfType(baseConstructorType, 1 /* Construct */); if (baseSignatures.length === 0) { return [createSignature(undefined, classType.localTypeParameters, undefined, ts.emptyArray, classType, /*resolvedTypePredicate*/ undefined, 0, 0 /* None */)]; } var baseTypeNode = getBaseTypeNodeOfClass(classType); var isJavaScript = ts.isInJSFile(baseTypeNode); var typeArguments = typeArgumentsFromTypeReferenceNode(baseTypeNode); var typeArgCount = ts.length(typeArguments); var result = []; for (var _i = 0, baseSignatures_1 = baseSignatures; _i < baseSignatures_1.length; _i++) { var baseSig = baseSignatures_1[_i]; var minTypeArgumentCount = getMinTypeArgumentCount(baseSig.typeParameters); var typeParamCount = ts.length(baseSig.typeParameters); if (isJavaScript || typeArgCount >= minTypeArgumentCount && typeArgCount <= typeParamCount) { var sig = typeParamCount ? createSignatureInstantiation(baseSig, fillMissingTypeArguments(typeArguments, baseSig.typeParameters, minTypeArgumentCount, isJavaScript)) : cloneSignature(baseSig); sig.typeParameters = classType.localTypeParameters; sig.resolvedReturnType = classType; result.push(sig); } } return result; } function findMatchingSignature(signatureList, signature, partialMatch, ignoreThisTypes, ignoreReturnTypes) { for (var _i = 0, signatureList_1 = signatureList; _i < signatureList_1.length; _i++) { var s = signatureList_1[_i]; if (compareSignaturesIdentical(s, signature, partialMatch, ignoreThisTypes, ignoreReturnTypes, partialMatch ? compareTypesSubtypeOf : compareTypesIdentical)) { return s; } } } function findMatchingSignatures(signatureLists, signature, listIndex) { if (signature.typeParameters) { // We require an exact match for generic signatures, so we only return signatures from the first // signature list and only if they have exact matches in the other signature lists. if (listIndex > 0) { return undefined; } for (var i = 1; i < signatureLists.length; i++) { if (!findMatchingSignature(signatureLists[i], signature, /*partialMatch*/ false, /*ignoreThisTypes*/ false, /*ignoreReturnTypes*/ false)) { return undefined; } } return [signature]; } var result; for (var i = 0; i < signatureLists.length; i++) { // Allow matching non-generic signatures to have excess parameters and different return types. // Prefer matching this types if possible. var match = i === listIndex ? signature : findMatchingSignature(signatureLists[i], signature, /*partialMatch*/ true, /*ignoreThisTypes*/ false, /*ignoreReturnTypes*/ true); if (!match) { return undefined; } result = ts.appendIfUnique(result, match); } return result; } // The signatures of a union type are those signatures that are present in each of the constituent types. // Generic signatures must match exactly, but non-generic signatures are allowed to have extra optional // parameters and may differ in return types. When signatures differ in return types, the resulting return // type is the union of the constituent return types. function getUnionSignatures(signatureLists) { var result; var indexWithLengthOverOne; for (var i = 0; i < signatureLists.length; i++) { if (signatureLists[i].length === 0) return ts.emptyArray; if (signatureLists[i].length > 1) { indexWithLengthOverOne = indexWithLengthOverOne === undefined ? i : -1; // -1 is a signal there are multiple overload sets } for (var _i = 0, _a = signatureLists[i]; _i < _a.length; _i++) { var signature = _a[_i]; // Only process signatures with parameter lists that aren't already in the result list if (!result || !findMatchingSignature(result, signature, /*partialMatch*/ false, /*ignoreThisTypes*/ false, /*ignoreReturnTypes*/ true)) { var unionSignatures = findMatchingSignatures(signatureLists, signature, i); if (unionSignatures) { var s = signature; // Union the result types when more than one signature matches if (unionSignatures.length > 1) { var thisParameter = signature.thisParameter; var firstThisParameterOfUnionSignatures = ts.forEach(unionSignatures, function (sig) { return sig.thisParameter; }); if (firstThisParameterOfUnionSignatures) { var thisType = getIntersectionType(ts.mapDefined(unionSignatures, function (sig) { return sig.thisParameter && getTypeOfSymbol(sig.thisParameter); })); thisParameter = createSymbolWithType(firstThisParameterOfUnionSignatures, thisType); } s = createUnionSignature(signature, unionSignatures); s.thisParameter = thisParameter; } (result || (result = [])).push(s); } } } } if (!ts.length(result) && indexWithLengthOverOne !== -1) { // No sufficiently similar signature existed to subsume all the other signatures in the union - time to see if we can make a single // signature that handles all over them. We only do this when there are overloads in only one constituent. // (Overloads are conditional in nature and having overloads in multiple constituents would necessitate making a power set of // signatures from the type, whose ordering would be non-obvious) var masterList = signatureLists[indexWithLengthOverOne !== undefined ? indexWithLengthOverOne : 0]; var results = masterList.slice(); var _loop_9 = function (signatures) { if (signatures !== masterList) { var signature_1 = signatures[0]; ts.Debug.assert(!!signature_1, "getUnionSignatures bails early on empty signature lists and should not have empty lists on second pass"); results = signature_1.typeParameters && ts.some(results, function (s) { return !!s.typeParameters; }) ? undefined : ts.map(results, function (sig) { return combineSignaturesOfUnionMembers(sig, signature_1); }); if (!results) { return "break"; } } }; for (var _b = 0, signatureLists_1 = signatureLists; _b < signatureLists_1.length; _b++) { var signatures = signatureLists_1[_b]; var state_3 = _loop_9(signatures); if (state_3 === "break") break; } result = results; } return result || ts.emptyArray; } function combineUnionThisParam(left, right) { if (!left || !right) { return left || right; } // A signature `this` type might be a read or a write position... It's very possible that it should be invariant // and we should refuse to merge signatures if there are `this` types and they do not match. However, so as to be // permissive when calling, for now, we'll intersect the `this` types just like we do for param types in union signatures. var thisType = getIntersectionType([getTypeOfSymbol(left), getTypeOfSymbol(right)]); return createSymbolWithType(left, thisType); } function combineUnionParameters(left, right) { var leftCount = getParameterCount(left); var rightCount = getParameterCount(right); var longest = leftCount >= rightCount ? left : right; var shorter = longest === left ? right : left; var longestCount = longest === left ? leftCount : rightCount; var eitherHasEffectiveRest = (hasEffectiveRestParameter(left) || hasEffectiveRestParameter(right)); var needsExtraRestElement = eitherHasEffectiveRest && !hasEffectiveRestParameter(longest); var params = new Array(longestCount + (needsExtraRestElement ? 1 : 0)); for (var i = 0; i < longestCount; i++) { var longestParamType = tryGetTypeAtPosition(longest, i); var shorterParamType = tryGetTypeAtPosition(shorter, i) || unknownType; var unionParamType = getIntersectionType([longestParamType, shorterParamType]); var isRestParam = eitherHasEffectiveRest && !needsExtraRestElement && i === (longestCount - 1); var isOptional = i >= getMinArgumentCount(longest) && i >= getMinArgumentCount(shorter); var leftName = i >= leftCount ? undefined : getParameterNameAtPosition(left, i); var rightName = i >= rightCount ? undefined : getParameterNameAtPosition(right, i); var paramName = leftName === rightName ? leftName : !leftName ? rightName : !rightName ? leftName : undefined; var paramSymbol = createSymbol(1 /* FunctionScopedVariable */ | (isOptional && !isRestParam ? 16777216 /* Optional */ : 0), paramName || "arg" + i); paramSymbol.type = isRestParam ? createArrayType(unionParamType) : unionParamType; params[i] = paramSymbol; } if (needsExtraRestElement) { var restParamSymbol = createSymbol(1 /* FunctionScopedVariable */, "args"); restParamSymbol.type = createArrayType(getTypeAtPosition(shorter, longestCount)); params[longestCount] = restParamSymbol; } return params; } function combineSignaturesOfUnionMembers(left, right) { var declaration = left.declaration; var params = combineUnionParameters(left, right); var thisParam = combineUnionThisParam(left.thisParameter, right.thisParameter); var minArgCount = Math.max(left.minArgumentCount, right.minArgumentCount); var result = createSignature(declaration, left.typeParameters || right.typeParameters, thisParam, params, /*resolvedReturnType*/ undefined, /*resolvedTypePredicate*/ undefined, minArgCount, (left.flags | right.flags) & 3 /* PropagatingFlags */); result.unionSignatures = ts.concatenate(left.unionSignatures || [left], [right]); return result; } function getUnionIndexInfo(types, kind) { var indexTypes = []; var isAnyReadonly = false; for (var _i = 0, types_3 = types; _i < types_3.length; _i++) { var type = types_3[_i]; var indexInfo = getIndexInfoOfType(getApparentType(type), kind); if (!indexInfo) { return undefined; } indexTypes.push(indexInfo.type); isAnyReadonly = isAnyReadonly || indexInfo.isReadonly; } return createIndexInfo(getUnionType(indexTypes, 2 /* Subtype */), isAnyReadonly); } function resolveUnionTypeMembers(type) { // The members and properties collections are empty for union types. To get all properties of a union // type use getPropertiesOfType (only the language service uses this). var callSignatures = getUnionSignatures(ts.map(type.types, function (t) { return t === globalFunctionType ? [unknownSignature] : getSignaturesOfType(t, 0 /* Call */); })); var constructSignatures = getUnionSignatures(ts.map(type.types, function (t) { return getSignaturesOfType(t, 1 /* Construct */); })); var stringIndexInfo = getUnionIndexInfo(type.types, 0 /* String */); var numberIndexInfo = getUnionIndexInfo(type.types, 1 /* Number */); setStructuredTypeMembers(type, emptySymbols, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo); } function intersectTypes(type1, type2) { return !type1 ? type2 : !type2 ? type1 : getIntersectionType([type1, type2]); } function intersectIndexInfos(info1, info2) { return !info1 ? info2 : !info2 ? info1 : createIndexInfo(getIntersectionType([info1.type, info2.type]), info1.isReadonly && info2.isReadonly); } function unionSpreadIndexInfos(info1, info2) { return info1 && info2 && createIndexInfo(getUnionType([info1.type, info2.type]), info1.isReadonly || info2.isReadonly); } function findMixins(types) { var constructorTypeCount = ts.countWhere(types, function (t) { return getSignaturesOfType(t, 1 /* Construct */).length > 0; }); var mixinFlags = ts.map(types, isMixinConstructorType); if (constructorTypeCount > 0 && constructorTypeCount === ts.countWhere(mixinFlags, function (b) { return b; })) { var firstMixinIndex = mixinFlags.indexOf(/*searchElement*/ true); mixinFlags[firstMixinIndex] = false; } return mixinFlags; } function includeMixinType(type, types, mixinFlags, index) { var mixedTypes = []; for (var i = 0; i < types.length; i++) { if (i === index) { mixedTypes.push(type); } else if (mixinFlags[i]) { mixedTypes.push(getReturnTypeOfSignature(getSignaturesOfType(types[i], 1 /* Construct */)[0])); } } return getIntersectionType(mixedTypes); } function resolveIntersectionTypeMembers(type) { // The members and properties collections are empty for intersection types. To get all properties of an // intersection type use getPropertiesOfType (only the language service uses this). var callSignatures; var constructSignatures; var stringIndexInfo; var numberIndexInfo; var types = type.types; var mixinFlags = findMixins(types); var mixinCount = ts.countWhere(mixinFlags, function (b) { return b; }); var _loop_10 = function (i) { var t = type.types[i]; // When an intersection type contains mixin constructor types, the construct signatures from // those types are discarded and their return types are mixed into the return types of all // other construct signatures in the intersection type. For example, the intersection type // '{ new(...args: any[]) => A } & { new(s: string) => B }' has a single construct signature // 'new(s: string) => A & B'. if (!mixinFlags[i]) { var signatures = getSignaturesOfType(t, 1 /* Construct */); if (signatures.length && mixinCount > 0) { signatures = ts.map(signatures, function (s) { var clone = cloneSignature(s); clone.resolvedReturnType = includeMixinType(getReturnTypeOfSignature(s), types, mixinFlags, i); return clone; }); } constructSignatures = appendSignatures(constructSignatures, signatures); } callSignatures = appendSignatures(callSignatures, getSignaturesOfType(t, 0 /* Call */)); stringIndexInfo = intersectIndexInfos(stringIndexInfo, getIndexInfoOfType(t, 0 /* String */)); numberIndexInfo = intersectIndexInfos(numberIndexInfo, getIndexInfoOfType(t, 1 /* Number */)); }; for (var i = 0; i < types.length; i++) { _loop_10(i); } setStructuredTypeMembers(type, emptySymbols, callSignatures || ts.emptyArray, constructSignatures || ts.emptyArray, stringIndexInfo, numberIndexInfo); } function appendSignatures(signatures, newSignatures) { var _loop_11 = function (sig) { if (!signatures || ts.every(signatures, function (s) { return !compareSignaturesIdentical(s, sig, /*partialMatch*/ false, /*ignoreThisTypes*/ false, /*ignoreReturnTypes*/ false, compareTypesIdentical); })) { signatures = ts.append(signatures, sig); } }; for (var _i = 0, newSignatures_1 = newSignatures; _i < newSignatures_1.length; _i++) { var sig = newSignatures_1[_i]; _loop_11(sig); } return signatures; } /** * Converts an AnonymousType to a ResolvedType. */ function resolveAnonymousTypeMembers(type) { var symbol = getMergedSymbol(type.symbol); if (type.target) { setStructuredTypeMembers(type, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var members = createInstantiatedSymbolTable(getPropertiesOfObjectType(type.target), type.mapper, /*mappingThisOnly*/ false); var callSignatures = instantiateSignatures(getSignaturesOfType(type.target, 0 /* Call */), type.mapper); var constructSignatures = instantiateSignatures(getSignaturesOfType(type.target, 1 /* Construct */), type.mapper); var stringIndexInfo = instantiateIndexInfo(getIndexInfoOfType(type.target, 0 /* String */), type.mapper); var numberIndexInfo = instantiateIndexInfo(getIndexInfoOfType(type.target, 1 /* Number */), type.mapper); setStructuredTypeMembers(type, members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo); } else if (symbol.flags & 2048 /* TypeLiteral */) { setStructuredTypeMembers(type, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); var members = getMembersOfSymbol(symbol); var callSignatures = getSignaturesOfSymbol(members.get("__call" /* Call */)); var constructSignatures = getSignaturesOfSymbol(members.get("__new" /* New */)); var stringIndexInfo = getIndexInfoOfSymbol(symbol, 0 /* String */); var numberIndexInfo = getIndexInfoOfSymbol(symbol, 1 /* Number */); setStructuredTypeMembers(type, members, callSignatures, constructSignatures, stringIndexInfo, numberIndexInfo); } else { // Combinations of function, class, enum and module var members = emptySymbols; var stringIndexInfo = void 0; if (symbol.exports) { members = getExportsOfSymbol(symbol); if (symbol === globalThisSymbol) { var varsOnly_1 = ts.createMap(); members.forEach(function (p) { if (!(p.flags & 418 /* BlockScoped */)) { varsOnly_1.set(p.escapedName, p); } }); members = varsOnly_1; } } setStructuredTypeMembers(type, members, ts.emptyArray, ts.emptyArray, undefined, undefined); if (symbol.flags & 32 /* Class */) { var classType = getDeclaredTypeOfClassOrInterface(symbol); var baseConstructorType = getBaseConstructorTypeOfClass(classType); if (baseConstructorType.flags & (524288 /* Object */ | 2097152 /* Intersection */ | 8650752 /* TypeVariable */)) { members = ts.createSymbolTable(getNamedMembers(members)); addInheritedMembers(members, getPropertiesOfType(baseConstructorType)); } else if (baseConstructorType === anyType) { stringIndexInfo = createIndexInfo(anyType, /*isReadonly*/ false); } } var numberIndexInfo = symbol.flags & 384 /* Enum */ && (getDeclaredTypeOfSymbol(symbol).flags & 32 /* Enum */ || ts.some(type.properties, function (prop) { return !!(getTypeOfSymbol(prop).flags & 296 /* NumberLike */); })) ? enumNumberIndexInfo : undefined; setStructuredTypeMembers(type, members, ts.emptyArray, ts.emptyArray, stringIndexInfo, numberIndexInfo); // We resolve the members before computing the signatures because a signature may use // typeof with a qualified name expression that circularly references the type we are // in the process of resolving (see issue #6072). The temporarily empty signature list // will never be observed because a qualified name can't reference signatures. if (symbol.flags & (16 /* Function */ | 8192 /* Method */)) { type.callSignatures = getSignaturesOfSymbol(symbol); } // And likewise for construct signatures for classes if (symbol.flags & 32 /* Class */) { var classType_1 = getDeclaredTypeOfClassOrInterface(symbol); var constructSignatures = symbol.members ? getSignaturesOfSymbol(symbol.members.get("__constructor" /* Constructor */)) : ts.emptyArray; if (symbol.flags & 16 /* Function */) { constructSignatures = ts.addRange(constructSignatures.slice(), ts.mapDefined(type.callSignatures, function (sig) { return isJSConstructor(sig.declaration) ? createSignature(sig.declaration, sig.typeParameters, sig.thisParameter, sig.parameters, classType_1, /*resolvedTypePredicate*/ undefined, sig.minArgumentCount, sig.flags & 3 /* PropagatingFlags */) : undefined; })); } if (!constructSignatures.length) { constructSignatures = getDefaultConstructSignatures(classType_1); } type.constructSignatures = constructSignatures; } } } function resolveReverseMappedTypeMembers(type) { var indexInfo = getIndexInfoOfType(type.source, 0 /* String */); var modifiers = getMappedTypeModifiers(type.mappedType); var readonlyMask = modifiers & 1 /* IncludeReadonly */ ? false : true; var optionalMask = modifiers & 4 /* IncludeOptional */ ? 0 : 16777216 /* Optional */; var stringIndexInfo = indexInfo && createIndexInfo(inferReverseMappedType(indexInfo.type, type.mappedType, type.constraintType), readonlyMask && indexInfo.isReadonly); var members = ts.createSymbolTable(); for (var _i = 0, _a = getPropertiesOfType(type.source); _i < _a.length; _i++) { var prop = _a[_i]; var checkFlags = 8192 /* ReverseMapped */ | (readonlyMask && isReadonlySymbol(prop) ? 8 /* Readonly */ : 0); var inferredProp = createSymbol(4 /* Property */ | prop.flags & optionalMask, prop.escapedName, checkFlags); inferredProp.declarations = prop.declarations; inferredProp.nameType = getSymbolLinks(prop).nameType; inferredProp.propertyType = getTypeOfSymbol(prop); inferredProp.mappedType = type.mappedType; inferredProp.constraintType = type.constraintType; members.set(prop.escapedName, inferredProp); } setStructuredTypeMembers(type, members, ts.emptyArray, ts.emptyArray, stringIndexInfo, undefined); } // Return the lower bound of the key type in a mapped type. Intuitively, the lower // bound includes those keys that are known to always be present, for example because // because of constraints on type parameters (e.g. 'keyof T' for a constrained T). function getLowerBoundOfKeyType(type) { if (type.flags & (1 /* Any */ | 131068 /* Primitive */)) { return type; } if (type.flags & 4194304 /* Index */) { return getIndexType(getApparentType(type.type)); } if (type.flags & 16777216 /* Conditional */) { if (type.root.isDistributive) { var checkType = type.checkType; var constraint = getLowerBoundOfKeyType(checkType); if (constraint !== checkType) { return getConditionalTypeInstantiation(type, prependTypeMapping(type.root.checkType, constraint, type.mapper)); } } return type; } if (type.flags & 1048576 /* Union */) { return getUnionType(ts.sameMap(type.types, getLowerBoundOfKeyType)); } if (type.flags & 2097152 /* Intersection */) { return getIntersectionType(ts.sameMap(type.types, getLowerBoundOfKeyType)); } return neverType; } /** Resolve the members of a mapped type { [P in K]: T } */ function resolveMappedTypeMembers(type) { var members = ts.createSymbolTable(); var stringIndexInfo; var numberIndexInfo; // Resolve upfront such that recursive references see an empty object type. setStructuredTypeMembers(type, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); // In { [P in K]: T }, we refer to P as the type parameter type, K as the constraint type, // and T as the template type. var typeParameter = getTypeParameterFromMappedType(type); var constraintType = getConstraintTypeFromMappedType(type); var templateType = getTemplateTypeFromMappedType(type.target || type); var modifiersType = getApparentType(getModifiersTypeFromMappedType(type)); // The 'T' in 'keyof T' var templateModifiers = getMappedTypeModifiers(type); var include = keyofStringsOnly ? 128 /* StringLiteral */ : 8576 /* StringOrNumberLiteralOrUnique */; if (isMappedTypeWithKeyofConstraintDeclaration(type)) { // We have a { [P in keyof T]: X } for (var _i = 0, _a = getPropertiesOfType(modifiersType); _i < _a.length; _i++) { var prop = _a[_i]; addMemberForKeyType(getLiteralTypeFromProperty(prop, include)); } if (modifiersType.flags & 1 /* Any */ || getIndexInfoOfType(modifiersType, 0 /* String */)) { addMemberForKeyType(stringType); } if (!keyofStringsOnly && getIndexInfoOfType(modifiersType, 1 /* Number */)) { addMemberForKeyType(numberType); } } else { forEachType(getLowerBoundOfKeyType(constraintType), addMemberForKeyType); } setStructuredTypeMembers(type, members, ts.emptyArray, ts.emptyArray, stringIndexInfo, numberIndexInfo); function addMemberForKeyType(t) { // Create a mapper from T to the current iteration type constituent. Then, if the // mapped type is itself an instantiated type, combine the iteration mapper with the // instantiation mapper. var templateMapper = appendTypeMapping(type.mapper, typeParameter, t); // If the current iteration type constituent is a string literal type, create a property. // Otherwise, for type string create a string index signature. if (isTypeUsableAsPropertyName(t)) { var propName = getPropertyNameFromType(t); var modifiersProp = getPropertyOfType(modifiersType, propName); var isOptional = !!(templateModifiers & 4 /* IncludeOptional */ || !(templateModifiers & 8 /* ExcludeOptional */) && modifiersProp && modifiersProp.flags & 16777216 /* Optional */); var isReadonly = !!(templateModifiers & 1 /* IncludeReadonly */ || !(templateModifiers & 2 /* ExcludeReadonly */) && modifiersProp && isReadonlySymbol(modifiersProp)); var stripOptional = strictNullChecks && !isOptional && modifiersProp && modifiersProp.flags & 16777216 /* Optional */; var prop = createSymbol(4 /* Property */ | (isOptional ? 16777216 /* Optional */ : 0), propName, 262144 /* Mapped */ | (isReadonly ? 8 /* Readonly */ : 0) | (stripOptional ? 524288 /* StripOptional */ : 0)); prop.mappedType = type; prop.mapper = templateMapper; if (modifiersProp) { prop.syntheticOrigin = modifiersProp; prop.declarations = modifiersProp.declarations; } prop.nameType = t; members.set(propName, prop); } else if (t.flags & (1 /* Any */ | 4 /* String */ | 8 /* Number */ | 32 /* Enum */)) { var propType = instantiateType(templateType, templateMapper); if (t.flags & (1 /* Any */ | 4 /* String */)) { stringIndexInfo = createIndexInfo(propType, !!(templateModifiers & 1 /* IncludeReadonly */)); } else { numberIndexInfo = createIndexInfo(numberIndexInfo ? getUnionType([numberIndexInfo.type, propType]) : propType, !!(templateModifiers & 1 /* IncludeReadonly */)); } } } } function getTypeOfMappedSymbol(symbol) { if (!symbol.type) { if (!pushTypeResolution(symbol, 0 /* Type */)) { return errorType; } var templateType = getTemplateTypeFromMappedType(symbol.mappedType.target || symbol.mappedType); var propType = instantiateType(templateType, symbol.mapper); // When creating an optional property in strictNullChecks mode, if 'undefined' isn't assignable to the // type, we include 'undefined' in the type. Similarly, when creating a non-optional property in strictNullChecks // mode, if the underlying property is optional we remove 'undefined' from the type. var type = strictNullChecks && symbol.flags & 16777216 /* Optional */ && !maybeTypeOfKind(propType, 32768 /* Undefined */ | 16384 /* Void */) ? getOptionalType(propType) : symbol.checkFlags & 524288 /* StripOptional */ ? getTypeWithFacts(propType, 524288 /* NEUndefined */) : propType; if (!popTypeResolution()) { error(currentNode, ts.Diagnostics.Type_of_property_0_circularly_references_itself_in_mapped_type_1, symbolToString(symbol), typeToString(symbol.mappedType)); type = errorType; } symbol.type = type; symbol.mapper = undefined; } return symbol.type; } function getTypeParameterFromMappedType(type) { return type.typeParameter || (type.typeParameter = getDeclaredTypeOfTypeParameter(getSymbolOfNode(type.declaration.typeParameter))); } function getConstraintTypeFromMappedType(type) { return type.constraintType || (type.constraintType = getConstraintOfTypeParameter(getTypeParameterFromMappedType(type)) || errorType); } function getTemplateTypeFromMappedType(type) { return type.templateType || (type.templateType = type.declaration.type ? instantiateType(addOptionality(getTypeFromTypeNode(type.declaration.type), !!(getMappedTypeModifiers(type) & 4 /* IncludeOptional */)), type.mapper) : errorType); } function getConstraintDeclarationForMappedType(type) { return ts.getEffectiveConstraintOfTypeParameter(type.declaration.typeParameter); } function isMappedTypeWithKeyofConstraintDeclaration(type) { var constraintDeclaration = getConstraintDeclarationForMappedType(type); // TODO: GH#18217 return constraintDeclaration.kind === 184 /* TypeOperator */ && constraintDeclaration.operator === 134 /* KeyOfKeyword */; } function getModifiersTypeFromMappedType(type) { if (!type.modifiersType) { if (isMappedTypeWithKeyofConstraintDeclaration(type)) { // If the constraint declaration is a 'keyof T' node, the modifiers type is T. We check // AST nodes here because, when T is a non-generic type, the logic below eagerly resolves // 'keyof T' to a literal union type and we can't recover T from that type. type.modifiersType = instantiateType(getTypeFromTypeNode(getConstraintDeclarationForMappedType(type).type), type.mapper); } else { // Otherwise, get the declared constraint type, and if the constraint type is a type parameter, // get the constraint of that type parameter. If the resulting type is an indexed type 'keyof T', // the modifiers type is T. Otherwise, the modifiers type is unknown. var declaredType = getTypeFromMappedTypeNode(type.declaration); var constraint = getConstraintTypeFromMappedType(declaredType); var extendedConstraint = constraint && constraint.flags & 262144 /* TypeParameter */ ? getConstraintOfTypeParameter(constraint) : constraint; type.modifiersType = extendedConstraint && extendedConstraint.flags & 4194304 /* Index */ ? instantiateType(extendedConstraint.type, type.mapper) : unknownType; } } return type.modifiersType; } function getMappedTypeModifiers(type) { var declaration = type.declaration; return (declaration.readonlyToken ? declaration.readonlyToken.kind === 40 /* MinusToken */ ? 2 /* ExcludeReadonly */ : 1 /* IncludeReadonly */ : 0) | (declaration.questionToken ? declaration.questionToken.kind === 40 /* MinusToken */ ? 8 /* ExcludeOptional */ : 4 /* IncludeOptional */ : 0); } function getMappedTypeOptionality(type) { var modifiers = getMappedTypeModifiers(type); return modifiers & 8 /* ExcludeOptional */ ? -1 : modifiers & 4 /* IncludeOptional */ ? 1 : 0; } function getCombinedMappedTypeOptionality(type) { var optionality = getMappedTypeOptionality(type); var modifiersType = getModifiersTypeFromMappedType(type); return optionality || (isGenericMappedType(modifiersType) ? getMappedTypeOptionality(modifiersType) : 0); } function isPartialMappedType(type) { return !!(ts.getObjectFlags(type) & 32 /* Mapped */ && getMappedTypeModifiers(type) & 4 /* IncludeOptional */); } function isGenericMappedType(type) { return !!(ts.getObjectFlags(type) & 32 /* Mapped */) && isGenericIndexType(getConstraintTypeFromMappedType(type)); } function resolveStructuredTypeMembers(type) { if (!type.members) { if (type.flags & 524288 /* Object */) { if (type.objectFlags & 4 /* Reference */) { resolveTypeReferenceMembers(type); } else if (type.objectFlags & 3 /* ClassOrInterface */) { resolveClassOrInterfaceMembers(type); } else if (type.objectFlags & 2048 /* ReverseMapped */) { resolveReverseMappedTypeMembers(type); } else if (type.objectFlags & 16 /* Anonymous */) { resolveAnonymousTypeMembers(type); } else if (type.objectFlags & 32 /* Mapped */) { resolveMappedTypeMembers(type); } } else if (type.flags & 1048576 /* Union */) { resolveUnionTypeMembers(type); } else if (type.flags & 2097152 /* Intersection */) { resolveIntersectionTypeMembers(type); } } return type; } /** Return properties of an object type or an empty array for other types */ function getPropertiesOfObjectType(type) { if (type.flags & 524288 /* Object */) { return resolveStructuredTypeMembers(type).properties; } return ts.emptyArray; } /** If the given type is an object type and that type has a property by the given name, * return the symbol for that property. Otherwise return undefined. */ function getPropertyOfObjectType(type, name) { if (type.flags & 524288 /* Object */) { var resolved = resolveStructuredTypeMembers(type); var symbol = resolved.members.get(name); if (symbol && symbolIsValue(symbol)) { return symbol; } } } function getPropertiesOfUnionOrIntersectionType(type) { if (!type.resolvedProperties) { var members = ts.createSymbolTable(); for (var _i = 0, _a = type.types; _i < _a.length; _i++) { var current = _a[_i]; for (var _b = 0, _c = getPropertiesOfType(current); _b < _c.length; _b++) { var prop = _c[_b]; if (!members.has(prop.escapedName)) { var combinedProp = getPropertyOfUnionOrIntersectionType(type, prop.escapedName); if (combinedProp) { members.set(prop.escapedName, combinedProp); } } } // The properties of a union type are those that are present in all constituent types, so // we only need to check the properties of the first type without index signature if (type.flags & 1048576 /* Union */ && !getIndexInfoOfType(current, 0 /* String */) && !getIndexInfoOfType(current, 1 /* Number */)) { break; } } type.resolvedProperties = getNamedMembers(members); } return type.resolvedProperties; } function getPropertiesOfType(type) { type = getApparentType(getReducedType(type)); return type.flags & 3145728 /* UnionOrIntersection */ ? getPropertiesOfUnionOrIntersectionType(type) : getPropertiesOfObjectType(type); } function isTypeInvalidDueToUnionDiscriminant(contextualType, obj) { var list = obj.properties; return list.some(function (property) { var nameType = property.name && getLiteralTypeFromPropertyName(property.name); var name = nameType && isTypeUsableAsPropertyName(nameType) ? getPropertyNameFromType(nameType) : undefined; var expected = name === undefined ? undefined : getTypeOfPropertyOfType(contextualType, name); return !!expected && isLiteralType(expected) && !isTypeAssignableTo(getTypeOfNode(property), expected); }); } function getAllPossiblePropertiesOfTypes(types) { var unionType = getUnionType(types); if (!(unionType.flags & 1048576 /* Union */)) { return getAugmentedPropertiesOfType(unionType); } var props = ts.createSymbolTable(); for (var _i = 0, types_4 = types; _i < types_4.length; _i++) { var memberType = types_4[_i]; for (var _a = 0, _b = getAugmentedPropertiesOfType(memberType); _a < _b.length; _a++) { var escapedName = _b[_a].escapedName; if (!props.has(escapedName)) { var prop = createUnionOrIntersectionProperty(unionType, escapedName); // May be undefined if the property is private if (prop) props.set(escapedName, prop); } } } return ts.arrayFrom(props.values()); } function getConstraintOfType(type) { return type.flags & 262144 /* TypeParameter */ ? getConstraintOfTypeParameter(type) : type.flags & 8388608 /* IndexedAccess */ ? getConstraintOfIndexedAccess(type) : type.flags & 16777216 /* Conditional */ ? getConstraintOfConditionalType(type) : getBaseConstraintOfType(type); } function getConstraintOfTypeParameter(typeParameter) { return hasNonCircularBaseConstraint(typeParameter) ? getConstraintFromTypeParameter(typeParameter) : undefined; } function getConstraintOfIndexedAccess(type) { return hasNonCircularBaseConstraint(type) ? getConstraintFromIndexedAccess(type) : undefined; } function getSimplifiedTypeOrConstraint(type) { var simplified = getSimplifiedType(type, /*writing*/ false); return simplified !== type ? simplified : getConstraintOfType(type); } function getConstraintFromIndexedAccess(type) { var indexConstraint = getSimplifiedTypeOrConstraint(type.indexType); if (indexConstraint && indexConstraint !== type.indexType) { var indexedAccess = getIndexedAccessTypeOrUndefined(type.objectType, indexConstraint); if (indexedAccess) { return indexedAccess; } } var objectConstraint = getSimplifiedTypeOrConstraint(type.objectType); if (objectConstraint && objectConstraint !== type.objectType) { return getIndexedAccessTypeOrUndefined(objectConstraint, type.indexType); } return undefined; } function getDefaultConstraintOfConditionalType(type) { if (!type.resolvedDefaultConstraint) { // An `any` branch of a conditional type would normally be viral - specifically, without special handling here, // a conditional type with a single branch of type `any` would be assignable to anything, since it's constraint would simplify to // just `any`. This result is _usually_ unwanted - so instead here we elide an `any` branch from the constraint type, // in effect treating `any` like `never` rather than `unknown` in this location. var trueConstraint = getInferredTrueTypeFromConditionalType(type); var falseConstraint = getFalseTypeFromConditionalType(type); type.resolvedDefaultConstraint = isTypeAny(trueConstraint) ? falseConstraint : isTypeAny(falseConstraint) ? trueConstraint : getUnionType([trueConstraint, falseConstraint]); } return type.resolvedDefaultConstraint; } function getConstraintOfDistributiveConditionalType(type) { // Check if we have a conditional type of the form 'T extends U ? X : Y', where T is a constrained // type parameter. If so, create an instantiation of the conditional type where T is replaced // with its constraint. We do this because if the constraint is a union type it will be distributed // over the conditional type and possibly reduced. For example, 'T extends undefined ? never : T' // removes 'undefined' from T. // We skip returning a distributive constraint for a restrictive instantiation of a conditional type // as the constraint for all type params (check type included) have been replace with `unknown`, which // is going to produce even more false positive/negative results than the distribute constraint already does. // Please note: the distributive constraint is a kludge for emulating what a negated type could to do filter // a union - once negated types exist and are applied to the conditional false branch, this "constraint" // likely doesn't need to exist. if (type.root.isDistributive && type.restrictiveInstantiation !== type) { var simplified = getSimplifiedType(type.checkType, /*writing*/ false); var constraint = simplified === type.checkType ? getConstraintOfType(simplified) : simplified; if (constraint && constraint !== type.checkType) { var instantiated = getConditionalTypeInstantiation(type, prependTypeMapping(type.root.checkType, constraint, type.mapper)); if (!(instantiated.flags & 131072 /* Never */)) { return instantiated; } } } return undefined; } function getConstraintFromConditionalType(type) { return getConstraintOfDistributiveConditionalType(type) || getDefaultConstraintOfConditionalType(type); } function getConstraintOfConditionalType(type) { return hasNonCircularBaseConstraint(type) ? getConstraintFromConditionalType(type) : undefined; } function getEffectiveConstraintOfIntersection(types, targetIsUnion) { var constraints; var hasDisjointDomainType = false; for (var _i = 0, types_5 = types; _i < types_5.length; _i++) { var t = types_5[_i]; if (t.flags & 63176704 /* Instantiable */) { // We keep following constraints as long as we have an instantiable type that is known // not to be circular or infinite (hence we stop on index access types). var constraint = getConstraintOfType(t); while (constraint && constraint.flags & (262144 /* TypeParameter */ | 4194304 /* Index */ | 16777216 /* Conditional */)) { constraint = getConstraintOfType(constraint); } if (constraint) { constraints = ts.append(constraints, constraint); if (targetIsUnion) { constraints = ts.append(constraints, t); } } } else if (t.flags & 67238908 /* DisjointDomains */) { hasDisjointDomainType = true; } } // If the target is a union type or if we are intersecting with types belonging to one of the // disjoint domains, we may end up producing a constraint that hasn't been examined before. if (constraints && (targetIsUnion || hasDisjointDomainType)) { if (hasDisjointDomainType) { // We add any types belong to one of the disjoint domains because they might cause the final // intersection operation to reduce the union constraints. for (var _a = 0, types_6 = types; _a < types_6.length; _a++) { var t = types_6[_a]; if (t.flags & 67238908 /* DisjointDomains */) { constraints = ts.append(constraints, t); } } } return getIntersectionType(constraints); } return undefined; } function getBaseConstraintOfType(type) { if (type.flags & (58982400 /* InstantiableNonPrimitive */ | 3145728 /* UnionOrIntersection */)) { var constraint = getResolvedBaseConstraint(type); return constraint !== noConstraintType && constraint !== circularConstraintType ? constraint : undefined; } return type.flags & 4194304 /* Index */ ? keyofConstraintType : undefined; } /** * This is similar to `getBaseConstraintOfType` except it returns the input type if there's no base constraint, instead of `undefined` * It also doesn't map indexes to `string`, as where this is used this would be unneeded (and likely undesirable) */ function getBaseConstraintOrType(type) { return getBaseConstraintOfType(type) || type; } function hasNonCircularBaseConstraint(type) { return getResolvedBaseConstraint(type) !== circularConstraintType; } /** * Return the resolved base constraint of a type variable. The noConstraintType singleton is returned if the * type variable has no constraint, and the circularConstraintType singleton is returned if the constraint * circularly references the type variable. */ function getResolvedBaseConstraint(type) { var nonTerminating = false; return type.resolvedBaseConstraint || (type.resolvedBaseConstraint = getTypeWithThisArgument(getImmediateBaseConstraint(type), type)); function getImmediateBaseConstraint(t) { if (!t.immediateBaseConstraint) { if (!pushTypeResolution(t, 4 /* ImmediateBaseConstraint */)) { return circularConstraintType; } if (constraintDepth >= 50) { // We have reached 50 recursive invocations of getImmediateBaseConstraint and there is a // very high likelihood we're dealing with an infinite generic type that perpetually generates // new type identities as we descend into it. We stop the recursion here and mark this type // and the outer types as having circular constraints. error(currentNode, ts.Diagnostics.Type_instantiation_is_excessively_deep_and_possibly_infinite); nonTerminating = true; return t.immediateBaseConstraint = noConstraintType; } constraintDepth++; var result = computeBaseConstraint(getSimplifiedType(t, /*writing*/ false)); constraintDepth--; if (!popTypeResolution()) { if (t.flags & 262144 /* TypeParameter */) { var errorNode = getConstraintDeclaration(t); if (errorNode) { var diagnostic = error(errorNode, ts.Diagnostics.Type_parameter_0_has_a_circular_constraint, typeToString(t)); if (currentNode && !ts.isNodeDescendantOf(errorNode, currentNode) && !ts.isNodeDescendantOf(currentNode, errorNode)) { ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(currentNode, ts.Diagnostics.Circularity_originates_in_type_at_this_location)); } } } result = circularConstraintType; } if (nonTerminating) { result = circularConstraintType; } t.immediateBaseConstraint = result || noConstraintType; } return t.immediateBaseConstraint; } function getBaseConstraint(t) { var c = getImmediateBaseConstraint(t); return c !== noConstraintType && c !== circularConstraintType ? c : undefined; } function computeBaseConstraint(t) { if (t.flags & 262144 /* TypeParameter */) { var constraint = getConstraintFromTypeParameter(t); return t.isThisType || !constraint ? constraint : getBaseConstraint(constraint); } if (t.flags & 3145728 /* UnionOrIntersection */) { var types = t.types; var baseTypes = []; for (var _i = 0, types_7 = types; _i < types_7.length; _i++) { var type_2 = types_7[_i]; var baseType = getBaseConstraint(type_2); if (baseType) { baseTypes.push(baseType); } } return t.flags & 1048576 /* Union */ && baseTypes.length === types.length ? getUnionType(baseTypes) : t.flags & 2097152 /* Intersection */ && baseTypes.length ? getIntersectionType(baseTypes) : undefined; } if (t.flags & 4194304 /* Index */) { return keyofConstraintType; } if (t.flags & 8388608 /* IndexedAccess */) { var baseObjectType = getBaseConstraint(t.objectType); var baseIndexType = getBaseConstraint(t.indexType); var baseIndexedAccess = baseObjectType && baseIndexType && getIndexedAccessTypeOrUndefined(baseObjectType, baseIndexType); return baseIndexedAccess && getBaseConstraint(baseIndexedAccess); } if (t.flags & 16777216 /* Conditional */) { var constraint = getConstraintFromConditionalType(t); constraintDepth++; // Penalize repeating conditional types (this captures the recursion within getConstraintFromConditionalType and carries it forward) var result = constraint && getBaseConstraint(constraint); constraintDepth--; return result; } if (t.flags & 33554432 /* Substitution */) { return getBaseConstraint(t.substitute); } return t; } } function getApparentTypeOfIntersectionType(type) { return type.resolvedApparentType || (type.resolvedApparentType = getTypeWithThisArgument(type, type, /*apparentType*/ true)); } function getResolvedTypeParameterDefault(typeParameter) { if (!typeParameter.default) { if (typeParameter.target) { var targetDefault = getResolvedTypeParameterDefault(typeParameter.target); typeParameter.default = targetDefault ? instantiateType(targetDefault, typeParameter.mapper) : noConstraintType; } else { // To block recursion, set the initial value to the resolvingDefaultType. typeParameter.default = resolvingDefaultType; var defaultDeclaration = typeParameter.symbol && ts.forEach(typeParameter.symbol.declarations, function (decl) { return ts.isTypeParameterDeclaration(decl) && decl.default; }); var defaultType = defaultDeclaration ? getTypeFromTypeNode(defaultDeclaration) : noConstraintType; if (typeParameter.default === resolvingDefaultType) { // If we have not been called recursively, set the correct default type. typeParameter.default = defaultType; } } } else if (typeParameter.default === resolvingDefaultType) { // If we are called recursively for this type parameter, mark the default as circular. typeParameter.default = circularConstraintType; } return typeParameter.default; } /** * Gets the default type for a type parameter. * * If the type parameter is the result of an instantiation, this gets the instantiated * default type of its target. If the type parameter has no default type or the default is * circular, `undefined` is returned. */ function getDefaultFromTypeParameter(typeParameter) { var defaultType = getResolvedTypeParameterDefault(typeParameter); return defaultType !== noConstraintType && defaultType !== circularConstraintType ? defaultType : undefined; } function hasNonCircularTypeParameterDefault(typeParameter) { return getResolvedTypeParameterDefault(typeParameter) !== circularConstraintType; } /** * Indicates whether the declaration of a typeParameter has a default type. */ function hasTypeParameterDefault(typeParameter) { return !!(typeParameter.symbol && ts.forEach(typeParameter.symbol.declarations, function (decl) { return ts.isTypeParameterDeclaration(decl) && decl.default; })); } function getApparentTypeOfMappedType(type) { return type.resolvedApparentType || (type.resolvedApparentType = getResolvedApparentTypeOfMappedType(type)); } function getResolvedApparentTypeOfMappedType(type) { var typeVariable = getHomomorphicTypeVariable(type); if (typeVariable) { var constraint = getConstraintOfTypeParameter(typeVariable); if (constraint && (isArrayType(constraint) || isTupleType(constraint))) { return instantiateType(type, prependTypeMapping(typeVariable, constraint, type.mapper)); } } return type; } /** * For a type parameter, return the base constraint of the type parameter. For the string, number, * boolean, and symbol primitive types, return the corresponding object types. Otherwise return the * type itself. */ function getApparentType(type) { var t = type.flags & 63176704 /* Instantiable */ ? getBaseConstraintOfType(type) || unknownType : type; return ts.getObjectFlags(t) & 32 /* Mapped */ ? getApparentTypeOfMappedType(t) : t.flags & 2097152 /* Intersection */ ? getApparentTypeOfIntersectionType(t) : t.flags & 132 /* StringLike */ ? globalStringType : t.flags & 296 /* NumberLike */ ? globalNumberType : t.flags & 2112 /* BigIntLike */ ? getGlobalBigIntType(/*reportErrors*/ languageVersion >= 7 /* ES2020 */) : t.flags & 528 /* BooleanLike */ ? globalBooleanType : t.flags & 12288 /* ESSymbolLike */ ? getGlobalESSymbolType(/*reportErrors*/ languageVersion >= 2 /* ES2015 */) : t.flags & 67108864 /* NonPrimitive */ ? emptyObjectType : t.flags & 4194304 /* Index */ ? keyofConstraintType : t.flags & 2 /* Unknown */ && !strictNullChecks ? emptyObjectType : t; } function createUnionOrIntersectionProperty(containingType, name) { var singleProp; var propSet; var indexTypes; var isUnion = containingType.flags & 1048576 /* Union */; // Flags we want to propagate to the result if they exist in all source symbols var optionalFlag = isUnion ? 0 /* None */ : 16777216 /* Optional */; var syntheticFlag = 4 /* SyntheticMethod */; var checkFlags = 0; for (var _i = 0, _a = containingType.types; _i < _a.length; _i++) { var current = _a[_i]; var type = getApparentType(current); if (!(type === errorType || type.flags & 131072 /* Never */)) { var prop = getPropertyOfType(type, name); var modifiers = prop ? ts.getDeclarationModifierFlagsFromSymbol(prop) : 0; if (prop) { if (isUnion) { optionalFlag |= (prop.flags & 16777216 /* Optional */); } else { optionalFlag &= prop.flags; } if (!singleProp) { singleProp = prop; } else if (prop !== singleProp) { if (!propSet) { propSet = ts.createMap(); propSet.set("" + getSymbolId(singleProp), singleProp); } var id = "" + getSymbolId(prop); if (!propSet.has(id)) { propSet.set(id, prop); } } checkFlags |= (isReadonlySymbol(prop) ? 8 /* Readonly */ : 0) | (!(modifiers & 24 /* NonPublicAccessibilityModifier */) ? 256 /* ContainsPublic */ : 0) | (modifiers & 16 /* Protected */ ? 512 /* ContainsProtected */ : 0) | (modifiers & 8 /* Private */ ? 1024 /* ContainsPrivate */ : 0) | (modifiers & 32 /* Static */ ? 2048 /* ContainsStatic */ : 0); if (!isPrototypeProperty(prop)) { syntheticFlag = 2 /* SyntheticProperty */; } } else if (isUnion) { var indexInfo = !isLateBoundName(name) && (isNumericLiteralName(name) && getIndexInfoOfType(type, 1 /* Number */) || getIndexInfoOfType(type, 0 /* String */)); if (indexInfo) { checkFlags |= 32 /* WritePartial */ | (indexInfo.isReadonly ? 8 /* Readonly */ : 0); indexTypes = ts.append(indexTypes, isTupleType(type) ? getRestTypeOfTupleType(type) || undefinedType : indexInfo.type); } else if (isObjectLiteralType(type)) { checkFlags |= 32 /* WritePartial */; indexTypes = ts.append(indexTypes, undefinedType); } else { checkFlags |= 16 /* ReadPartial */; } } } } if (!singleProp || isUnion && (propSet || checkFlags & 48 /* Partial */) && checkFlags & (1024 /* ContainsPrivate */ | 512 /* ContainsProtected */)) { // No property was found, or, in a union, a property has a private or protected declaration in one // constituent, but is missing or has a different declaration in another constituent. return undefined; } if (!propSet && !(checkFlags & 16 /* ReadPartial */) && !indexTypes) { return singleProp; } var props = propSet ? ts.arrayFrom(propSet.values()) : [singleProp]; var declarations; var firstType; var nameType; var propTypes = []; var firstValueDeclaration; var hasNonUniformValueDeclaration = false; for (var _b = 0, props_1 = props; _b < props_1.length; _b++) { var prop = props_1[_b]; if (!firstValueDeclaration) { firstValueDeclaration = prop.valueDeclaration; } else if (prop.valueDeclaration && prop.valueDeclaration !== firstValueDeclaration) { hasNonUniformValueDeclaration = true; } declarations = ts.addRange(declarations, prop.declarations); var type = getTypeOfSymbol(prop); if (!firstType) { firstType = type; nameType = getSymbolLinks(prop).nameType; } else if (type !== firstType) { checkFlags |= 64 /* HasNonUniformType */; } if (isLiteralType(type)) { checkFlags |= 128 /* HasLiteralType */; } if (type.flags & 131072 /* Never */) { checkFlags |= 131072 /* HasNeverType */; } propTypes.push(type); } ts.addRange(propTypes, indexTypes); var result = createSymbol(4 /* Property */ | optionalFlag, name, syntheticFlag | checkFlags); result.containingType = containingType; if (!hasNonUniformValueDeclaration && firstValueDeclaration) { result.valueDeclaration = firstValueDeclaration; // Inherit information about parent type. if (firstValueDeclaration.symbol.parent) { result.parent = firstValueDeclaration.symbol.parent; } } result.declarations = declarations; result.nameType = nameType; if (propTypes.length > 2) { // When `propTypes` has the potential to explode in size when normalized, defer normalization until absolutely needed result.checkFlags |= 65536 /* DeferredType */; result.deferralParent = containingType; result.deferralConstituents = propTypes; } else { result.type = isUnion ? getUnionType(propTypes) : getIntersectionType(propTypes); } return result; } // Return the symbol for a given property in a union or intersection type, or undefined if the property // does not exist in any constituent type. Note that the returned property may only be present in some // constituents, in which case the isPartial flag is set when the containing type is union type. We need // these partial properties when identifying discriminant properties, but otherwise they are filtered out // and do not appear to be present in the union type. function getUnionOrIntersectionProperty(type, name) { var properties = type.propertyCache || (type.propertyCache = ts.createSymbolTable()); var property = properties.get(name); if (!property) { property = createUnionOrIntersectionProperty(type, name); if (property) { properties.set(name, property); } } return property; } function getPropertyOfUnionOrIntersectionType(type, name) { var property = getUnionOrIntersectionProperty(type, name); // We need to filter out partial properties in union types return property && !(ts.getCheckFlags(property) & 16 /* ReadPartial */) ? property : undefined; } /** * Return the reduced form of the given type. For a union type, it is a union of the normalized constituent types. * For an intersection of types containing one or more mututally exclusive discriminant properties, it is 'never'. * For all other types, it is simply the type itself. Discriminant properties are considered mutually exclusive when * no constituent property has type 'never', but the intersection of the constituent property types is 'never'. */ function getReducedType(type) { if (type.flags & 1048576 /* Union */ && type.objectFlags & 268435456 /* ContainsIntersections */) { return type.resolvedReducedType || (type.resolvedReducedType = getReducedUnionType(type)); } else if (type.flags & 2097152 /* Intersection */) { if (!(type.objectFlags & 268435456 /* IsNeverIntersectionComputed */)) { type.objectFlags |= 268435456 /* IsNeverIntersectionComputed */ | (ts.some(getPropertiesOfUnionOrIntersectionType(type), isNeverReducedProperty) ? 536870912 /* IsNeverIntersection */ : 0); } return type.objectFlags & 536870912 /* IsNeverIntersection */ ? neverType : type; } return type; } function getReducedUnionType(unionType) { var reducedTypes = ts.sameMap(unionType.types, getReducedType); if (reducedTypes === unionType.types) { return unionType; } var reduced = getUnionType(reducedTypes); if (reduced.flags & 1048576 /* Union */) { reduced.resolvedReducedType = reduced; } return reduced; } function isNeverReducedProperty(prop) { return isDiscriminantWithNeverType(prop) || isConflictingPrivateProperty(prop); } function isDiscriminantWithNeverType(prop) { // Return true for a synthetic non-optional property with non-uniform types, where at least one is // a literal type and none is never, that reduces to never. return !(prop.flags & 16777216 /* Optional */) && (ts.getCheckFlags(prop) & (192 /* Discriminant */ | 131072 /* HasNeverType */)) === 192 /* Discriminant */ && !!(getTypeOfSymbol(prop).flags & 131072 /* Never */); } function isConflictingPrivateProperty(prop) { // Return true for a synthetic property with multiple declarations, at least one of which is private. return !prop.valueDeclaration && !!(ts.getCheckFlags(prop) & 1024 /* ContainsPrivate */); } function elaborateNeverIntersection(errorInfo, type) { if (ts.getObjectFlags(type) & 536870912 /* IsNeverIntersection */) { var neverProp = ts.find(getPropertiesOfUnionOrIntersectionType(type), isDiscriminantWithNeverType); if (neverProp) { return ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.The_intersection_0_was_reduced_to_never_because_property_1_has_conflicting_types_in_some_constituents, typeToString(type, /*enclosingDeclaration*/ undefined, 536870912 /* NoTypeReduction */), symbolToString(neverProp)); } var privateProp = ts.find(getPropertiesOfUnionOrIntersectionType(type), isConflictingPrivateProperty); if (privateProp) { return ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.The_intersection_0_was_reduced_to_never_because_property_1_exists_in_multiple_constituents_and_is_private_in_some, typeToString(type, /*enclosingDeclaration*/ undefined, 536870912 /* NoTypeReduction */), symbolToString(privateProp)); } } return errorInfo; } /** * Return the symbol for the property with the given name in the given type. Creates synthetic union properties when * necessary, maps primitive types and type parameters are to their apparent types, and augments with properties from * Object and Function as appropriate. * * @param type a type to look up property from * @param name a name of property to look up in a given type */ function getPropertyOfType(type, name) { type = getApparentType(getReducedType(type)); if (type.flags & 524288 /* Object */) { var resolved = resolveStructuredTypeMembers(type); var symbol = resolved.members.get(name); if (symbol && symbolIsValue(symbol)) { return symbol; } var functionType = resolved === anyFunctionType ? globalFunctionType : resolved.callSignatures.length ? globalCallableFunctionType : resolved.constructSignatures.length ? globalNewableFunctionType : undefined; if (functionType) { var symbol_1 = getPropertyOfObjectType(functionType, name); if (symbol_1) { return symbol_1; } } return getPropertyOfObjectType(globalObjectType, name); } if (type.flags & 3145728 /* UnionOrIntersection */) { return getPropertyOfUnionOrIntersectionType(type, name); } return undefined; } function getSignaturesOfStructuredType(type, kind) { if (type.flags & 3670016 /* StructuredType */) { var resolved = resolveStructuredTypeMembers(type); return kind === 0 /* Call */ ? resolved.callSignatures : resolved.constructSignatures; } return ts.emptyArray; } /** * Return the signatures of the given kind in the given type. Creates synthetic union signatures when necessary and * maps primitive types and type parameters are to their apparent types. */ function getSignaturesOfType(type, kind) { return getSignaturesOfStructuredType(getApparentType(getReducedType(type)), kind); } function getIndexInfoOfStructuredType(type, kind) { if (type.flags & 3670016 /* StructuredType */) { var resolved = resolveStructuredTypeMembers(type); return kind === 0 /* String */ ? resolved.stringIndexInfo : resolved.numberIndexInfo; } } function getIndexTypeOfStructuredType(type, kind) { var info = getIndexInfoOfStructuredType(type, kind); return info && info.type; } // Return the indexing info of the given kind in the given type. Creates synthetic union index types when necessary and // maps primitive types and type parameters are to their apparent types. function getIndexInfoOfType(type, kind) { return getIndexInfoOfStructuredType(getApparentType(getReducedType(type)), kind); } // Return the index type of the given kind in the given type. Creates synthetic union index types when necessary and // maps primitive types and type parameters are to their apparent types. function getIndexTypeOfType(type, kind) { return getIndexTypeOfStructuredType(getApparentType(getReducedType(type)), kind); } function getImplicitIndexTypeOfType(type, kind) { if (isObjectTypeWithInferableIndex(type)) { var propTypes = []; for (var _i = 0, _a = getPropertiesOfType(type); _i < _a.length; _i++) { var prop = _a[_i]; if (kind === 0 /* String */ || isNumericLiteralName(prop.escapedName)) { propTypes.push(getTypeOfSymbol(prop)); } } if (kind === 0 /* String */) { ts.append(propTypes, getIndexTypeOfType(type, 1 /* Number */)); } if (propTypes.length) { return getUnionType(propTypes); } } return undefined; } // Return list of type parameters with duplicates removed (duplicate identifier errors are generated in the actual // type checking functions). function getTypeParametersFromDeclaration(declaration) { var result; for (var _i = 0, _a = ts.getEffectiveTypeParameterDeclarations(declaration); _i < _a.length; _i++) { var node = _a[_i]; result = ts.appendIfUnique(result, getDeclaredTypeOfTypeParameter(node.symbol)); } return result; } function symbolsToArray(symbols) { var result = []; symbols.forEach(function (symbol, id) { if (!isReservedMemberName(id)) { result.push(symbol); } }); return result; } function isJSDocOptionalParameter(node) { return ts.isInJSFile(node) && ( // node.type should only be a JSDocOptionalType when node is a parameter of a JSDocFunctionType node.type && node.type.kind === 299 /* JSDocOptionalType */ || ts.getJSDocParameterTags(node).some(function (_a) { var isBracketed = _a.isBracketed, typeExpression = _a.typeExpression; return isBracketed || !!typeExpression && typeExpression.type.kind === 299 /* JSDocOptionalType */; })); } function tryFindAmbientModule(moduleName, withAugmentations) { if (ts.isExternalModuleNameRelative(moduleName)) { return undefined; } var symbol = getSymbol(globals, '"' + moduleName + '"', 512 /* ValueModule */); // merged symbol is module declaration symbol combined with all augmentations return symbol && withAugmentations ? getMergedSymbol(symbol) : symbol; } function isOptionalParameter(node) { if (ts.hasQuestionToken(node) || isOptionalJSDocParameterTag(node) || isJSDocOptionalParameter(node)) { return true; } if (node.initializer) { var signature = getSignatureFromDeclaration(node.parent); var parameterIndex = node.parent.parameters.indexOf(node); ts.Debug.assert(parameterIndex >= 0); return parameterIndex >= getMinArgumentCount(signature, /*strongArityForUntypedJS*/ true); } var iife = ts.getImmediatelyInvokedFunctionExpression(node.parent); if (iife) { return !node.type && !node.dotDotDotToken && node.parent.parameters.indexOf(node) >= iife.arguments.length; } return false; } function isOptionalJSDocParameterTag(node) { if (!ts.isJSDocParameterTag(node)) { return false; } var isBracketed = node.isBracketed, typeExpression = node.typeExpression; return isBracketed || !!typeExpression && typeExpression.type.kind === 299 /* JSDocOptionalType */; } function createTypePredicate(kind, parameterName, parameterIndex, type) { return { kind: kind, parameterName: parameterName, parameterIndex: parameterIndex, type: type }; } /** * Gets the minimum number of type arguments needed to satisfy all non-optional type * parameters. */ function getMinTypeArgumentCount(typeParameters) { var minTypeArgumentCount = 0; if (typeParameters) { for (var i = 0; i < typeParameters.length; i++) { if (!hasTypeParameterDefault(typeParameters[i])) { minTypeArgumentCount = i + 1; } } } return minTypeArgumentCount; } function fillMissingTypeArguments(typeArguments, typeParameters, minTypeArgumentCount, isJavaScriptImplicitAny) { var numTypeParameters = ts.length(typeParameters); if (!numTypeParameters) { return []; } var numTypeArguments = ts.length(typeArguments); if (isJavaScriptImplicitAny || (numTypeArguments >= minTypeArgumentCount && numTypeArguments <= numTypeParameters)) { var result = typeArguments ? typeArguments.slice() : []; // Map invalid forward references in default types to the error type for (var i = numTypeArguments; i < numTypeParameters; i++) { result[i] = errorType; } var baseDefaultType = getDefaultTypeArgumentType(isJavaScriptImplicitAny); for (var i = numTypeArguments; i < numTypeParameters; i++) { var defaultType = getDefaultFromTypeParameter(typeParameters[i]); if (isJavaScriptImplicitAny && defaultType && (isTypeIdenticalTo(defaultType, unknownType) || isTypeIdenticalTo(defaultType, emptyObjectType))) { defaultType = anyType; } result[i] = defaultType ? instantiateType(defaultType, createTypeMapper(typeParameters, result)) : baseDefaultType; } result.length = typeParameters.length; return result; } return typeArguments && typeArguments.slice(); } function getSignatureFromDeclaration(declaration) { var links = getNodeLinks(declaration); if (!links.resolvedSignature) { var parameters = []; var flags = 0 /* None */; var minArgumentCount = 0; var thisParameter = void 0; var hasThisParameter = false; var iife = ts.getImmediatelyInvokedFunctionExpression(declaration); var isJSConstructSignature = ts.isJSDocConstructSignature(declaration); var isUntypedSignatureInJSFile = !iife && ts.isInJSFile(declaration) && ts.isValueSignatureDeclaration(declaration) && !ts.hasJSDocParameterTags(declaration) && !ts.getJSDocType(declaration); if (isUntypedSignatureInJSFile) { flags |= 16 /* IsUntypedSignatureInJSFile */; } // If this is a JSDoc construct signature, then skip the first parameter in the // parameter list. The first parameter represents the return type of the construct // signature. for (var i = isJSConstructSignature ? 1 : 0; i < declaration.parameters.length; i++) { var param = declaration.parameters[i]; var paramSymbol = param.symbol; var type = ts.isJSDocParameterTag(param) ? (param.typeExpression && param.typeExpression.type) : param.type; // Include parameter symbol instead of property symbol in the signature if (paramSymbol && !!(paramSymbol.flags & 4 /* Property */) && !ts.isBindingPattern(param.name)) { var resolvedSymbol = resolveName(param, paramSymbol.escapedName, 111551 /* Value */, undefined, undefined, /*isUse*/ false); paramSymbol = resolvedSymbol; } if (i === 0 && paramSymbol.escapedName === "this" /* This */) { hasThisParameter = true; thisParameter = param.symbol; } else { parameters.push(paramSymbol); } if (type && type.kind === 187 /* LiteralType */) { flags |= 2 /* HasLiteralTypes */; } // Record a new minimum argument count if this is not an optional parameter var isOptionalParameter_1 = isOptionalJSDocParameterTag(param) || param.initializer || param.questionToken || param.dotDotDotToken || iife && parameters.length > iife.arguments.length && !type || isJSDocOptionalParameter(param); if (!isOptionalParameter_1) { minArgumentCount = parameters.length; } } // If only one accessor includes a this-type annotation, the other behaves as if it had the same type annotation if ((declaration.kind === 163 /* GetAccessor */ || declaration.kind === 164 /* SetAccessor */) && !hasNonBindableDynamicName(declaration) && (!hasThisParameter || !thisParameter)) { var otherKind = declaration.kind === 163 /* GetAccessor */ ? 164 /* SetAccessor */ : 163 /* GetAccessor */; var other = ts.getDeclarationOfKind(getSymbolOfNode(declaration), otherKind); if (other) { thisParameter = getAnnotatedAccessorThisParameter(other); } } var classType = declaration.kind === 162 /* Constructor */ ? getDeclaredTypeOfClassOrInterface(getMergedSymbol(declaration.parent.symbol)) : undefined; var typeParameters = classType ? classType.localTypeParameters : getTypeParametersFromDeclaration(declaration); if (ts.hasRestParameter(declaration) || ts.isInJSFile(declaration) && maybeAddJsSyntheticRestParameter(declaration, parameters)) { flags |= 1 /* HasRestParameter */; } links.resolvedSignature = createSignature(declaration, typeParameters, thisParameter, parameters, /*resolvedReturnType*/ undefined, /*resolvedTypePredicate*/ undefined, minArgumentCount, flags); } return links.resolvedSignature; } /** * A JS function gets a synthetic rest parameter if it references `arguments` AND: * 1. It has no parameters but at least one `@param` with a type that starts with `...` * OR * 2. It has at least one parameter, and the last parameter has a matching `@param` with a type that starts with `...` */ function maybeAddJsSyntheticRestParameter(declaration, parameters) { if (ts.isJSDocSignature(declaration) || !containsArgumentsReference(declaration)) { return false; } var lastParam = ts.lastOrUndefined(declaration.parameters); var lastParamTags = lastParam ? ts.getJSDocParameterTags(lastParam) : ts.getJSDocTags(declaration).filter(ts.isJSDocParameterTag); var lastParamVariadicType = ts.firstDefined(lastParamTags, function (p) { return p.typeExpression && ts.isJSDocVariadicType(p.typeExpression.type) ? p.typeExpression.type : undefined; }); var syntheticArgsSymbol = createSymbol(3 /* Variable */, "args", 32768 /* RestParameter */); syntheticArgsSymbol.type = lastParamVariadicType ? createArrayType(getTypeFromTypeNode(lastParamVariadicType.type)) : anyArrayType; if (lastParamVariadicType) { // Replace the last parameter with a rest parameter. parameters.pop(); } parameters.push(syntheticArgsSymbol); return true; } function getSignatureOfTypeTag(node) { // should be attached to a function declaration or expression if (!(ts.isInJSFile(node) && ts.isFunctionLikeDeclaration(node))) return undefined; var typeTag = ts.getJSDocTypeTag(node); var signature = typeTag && typeTag.typeExpression && getSingleCallSignature(getTypeFromTypeNode(typeTag.typeExpression)); return signature && getErasedSignature(signature); } function getReturnTypeOfTypeTag(node) { var signature = getSignatureOfTypeTag(node); return signature && getReturnTypeOfSignature(signature); } function containsArgumentsReference(declaration) { var links = getNodeLinks(declaration); if (links.containsArgumentsReference === undefined) { if (links.flags & 8192 /* CaptureArguments */) { links.containsArgumentsReference = true; } else { links.containsArgumentsReference = traverse(declaration.body); } } return links.containsArgumentsReference; function traverse(node) { if (!node) return false; switch (node.kind) { case 75 /* Identifier */: return node.escapedText === "arguments" && ts.isExpressionNode(node); case 159 /* PropertyDeclaration */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return node.name.kind === 154 /* ComputedPropertyName */ && traverse(node.name); default: return !ts.nodeStartsNewLexicalEnvironment(node) && !ts.isPartOfTypeNode(node) && !!ts.forEachChild(node, traverse); } } } function getSignaturesOfSymbol(symbol) { if (!symbol) return ts.emptyArray; var result = []; for (var i = 0; i < symbol.declarations.length; i++) { var decl = symbol.declarations[i]; if (!ts.isFunctionLike(decl)) continue; // Don't include signature if node is the implementation of an overloaded function. A node is considered // an implementation node if it has a body and the previous node is of the same kind and immediately // precedes the implementation node (i.e. has the same parent and ends where the implementation starts). if (i > 0 && decl.body) { var previous = symbol.declarations[i - 1]; if (decl.parent === previous.parent && decl.kind === previous.kind && decl.pos === previous.end) { continue; } } result.push(getSignatureFromDeclaration(decl)); } return result; } function resolveExternalModuleTypeByLiteral(name) { var moduleSym = resolveExternalModuleName(name, name); if (moduleSym) { var resolvedModuleSymbol = resolveExternalModuleSymbol(moduleSym); if (resolvedModuleSymbol) { return getTypeOfSymbol(resolvedModuleSymbol); } } return anyType; } function getThisTypeOfSignature(signature) { if (signature.thisParameter) { return getTypeOfSymbol(signature.thisParameter); } } function getTypePredicateOfSignature(signature) { if (!signature.resolvedTypePredicate) { if (signature.target) { var targetTypePredicate = getTypePredicateOfSignature(signature.target); signature.resolvedTypePredicate = targetTypePredicate ? instantiateTypePredicate(targetTypePredicate, signature.mapper) : noTypePredicate; } else if (signature.unionSignatures) { signature.resolvedTypePredicate = getUnionTypePredicate(signature.unionSignatures) || noTypePredicate; } else { var type = signature.declaration && ts.getEffectiveReturnTypeNode(signature.declaration); var jsdocPredicate = void 0; if (!type && ts.isInJSFile(signature.declaration)) { var jsdocSignature = getSignatureOfTypeTag(signature.declaration); if (jsdocSignature && signature !== jsdocSignature) { jsdocPredicate = getTypePredicateOfSignature(jsdocSignature); } } signature.resolvedTypePredicate = type && ts.isTypePredicateNode(type) ? createTypePredicateFromTypePredicateNode(type, signature) : jsdocPredicate || noTypePredicate; } ts.Debug.assert(!!signature.resolvedTypePredicate); } return signature.resolvedTypePredicate === noTypePredicate ? undefined : signature.resolvedTypePredicate; } function createTypePredicateFromTypePredicateNode(node, signature) { var parameterName = node.parameterName; var type = node.type && getTypeFromTypeNode(node.type); return parameterName.kind === 183 /* ThisType */ ? createTypePredicate(node.assertsModifier ? 2 /* AssertsThis */ : 0 /* This */, /*parameterName*/ undefined, /*parameterIndex*/ undefined, type) : createTypePredicate(node.assertsModifier ? 3 /* AssertsIdentifier */ : 1 /* Identifier */, parameterName.escapedText, ts.findIndex(signature.parameters, function (p) { return p.escapedName === parameterName.escapedText; }), type); } function getReturnTypeOfSignature(signature) { if (!signature.resolvedReturnType) { if (!pushTypeResolution(signature, 3 /* ResolvedReturnType */)) { return errorType; } var type = signature.target ? instantiateType(getReturnTypeOfSignature(signature.target), signature.mapper) : signature.unionSignatures ? getUnionType(ts.map(signature.unionSignatures, getReturnTypeOfSignature), 2 /* Subtype */) : getReturnTypeFromAnnotation(signature.declaration) || (ts.nodeIsMissing(signature.declaration.body) ? anyType : getReturnTypeFromBody(signature.declaration)); if (signature.flags & 4 /* IsInnerCallChain */) { type = addOptionalTypeMarker(type); } else if (signature.flags & 8 /* IsOuterCallChain */) { type = getOptionalType(type); } if (!popTypeResolution()) { if (signature.declaration) { var typeNode = ts.getEffectiveReturnTypeNode(signature.declaration); if (typeNode) { error(typeNode, ts.Diagnostics.Return_type_annotation_circularly_references_itself); } else if (noImplicitAny) { var declaration = signature.declaration; var name = ts.getNameOfDeclaration(declaration); if (name) { error(name, ts.Diagnostics._0_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_referenced_directly_or_indirectly_in_one_of_its_return_expressions, ts.declarationNameToString(name)); } else { error(declaration, ts.Diagnostics.Function_implicitly_has_return_type_any_because_it_does_not_have_a_return_type_annotation_and_is_referenced_directly_or_indirectly_in_one_of_its_return_expressions); } } } type = anyType; } signature.resolvedReturnType = type; } return signature.resolvedReturnType; } function getReturnTypeFromAnnotation(declaration) { if (declaration.kind === 162 /* Constructor */) { return getDeclaredTypeOfClassOrInterface(getMergedSymbol(declaration.parent.symbol)); } if (ts.isJSDocConstructSignature(declaration)) { return getTypeFromTypeNode(declaration.parameters[0].type); // TODO: GH#18217 } var typeNode = ts.getEffectiveReturnTypeNode(declaration); if (typeNode) { return getTypeFromTypeNode(typeNode); } if (declaration.kind === 163 /* GetAccessor */ && !hasNonBindableDynamicName(declaration)) { var jsDocType = ts.isInJSFile(declaration) && getTypeForDeclarationFromJSDocComment(declaration); if (jsDocType) { return jsDocType; } var setter = ts.getDeclarationOfKind(getSymbolOfNode(declaration), 164 /* SetAccessor */); var setterType = getAnnotatedAccessorType(setter); if (setterType) { return setterType; } } return getReturnTypeOfTypeTag(declaration); } function isResolvingReturnTypeOfSignature(signature) { return !signature.resolvedReturnType && findResolutionCycleStartIndex(signature, 3 /* ResolvedReturnType */) >= 0; } function getRestTypeOfSignature(signature) { return tryGetRestTypeOfSignature(signature) || anyType; } function tryGetRestTypeOfSignature(signature) { if (signatureHasRestParameter(signature)) { var sigRestType = getTypeOfSymbol(signature.parameters[signature.parameters.length - 1]); var restType = isTupleType(sigRestType) ? getRestTypeOfTupleType(sigRestType) : sigRestType; return restType && getIndexTypeOfType(restType, 1 /* Number */); } return undefined; } function getSignatureInstantiation(signature, typeArguments, isJavascript, inferredTypeParameters) { var instantiatedSignature = getSignatureInstantiationWithoutFillingInTypeArguments(signature, fillMissingTypeArguments(typeArguments, signature.typeParameters, getMinTypeArgumentCount(signature.typeParameters), isJavascript)); if (inferredTypeParameters) { var returnSignature = getSingleCallOrConstructSignature(getReturnTypeOfSignature(instantiatedSignature)); if (returnSignature) { var newReturnSignature = cloneSignature(returnSignature); newReturnSignature.typeParameters = inferredTypeParameters; var newInstantiatedSignature = cloneSignature(instantiatedSignature); newInstantiatedSignature.resolvedReturnType = getOrCreateTypeFromSignature(newReturnSignature); return newInstantiatedSignature; } } return instantiatedSignature; } function getSignatureInstantiationWithoutFillingInTypeArguments(signature, typeArguments) { var instantiations = signature.instantiations || (signature.instantiations = ts.createMap()); var id = getTypeListId(typeArguments); var instantiation = instantiations.get(id); if (!instantiation) { instantiations.set(id, instantiation = createSignatureInstantiation(signature, typeArguments)); } return instantiation; } function createSignatureInstantiation(signature, typeArguments) { return instantiateSignature(signature, createSignatureTypeMapper(signature, typeArguments), /*eraseTypeParameters*/ true); } function createSignatureTypeMapper(signature, typeArguments) { return createTypeMapper(signature.typeParameters, typeArguments); } function getErasedSignature(signature) { return signature.typeParameters ? signature.erasedSignatureCache || (signature.erasedSignatureCache = createErasedSignature(signature)) : signature; } function createErasedSignature(signature) { // Create an instantiation of the signature where all type arguments are the any type. return instantiateSignature(signature, createTypeEraser(signature.typeParameters), /*eraseTypeParameters*/ true); } function getCanonicalSignature(signature) { return signature.typeParameters ? signature.canonicalSignatureCache || (signature.canonicalSignatureCache = createCanonicalSignature(signature)) : signature; } function createCanonicalSignature(signature) { // Create an instantiation of the signature where each unconstrained type parameter is replaced with // its original. When a generic class or interface is instantiated, each generic method in the class or // interface is instantiated with a fresh set of cloned type parameters (which we need to handle scenarios // where different generations of the same type parameter are in scope). This leads to a lot of new type // identities, and potentially a lot of work comparing those identities, so here we create an instantiation // that uses the original type identities for all unconstrained type parameters. return getSignatureInstantiation(signature, ts.map(signature.typeParameters, function (tp) { return tp.target && !getConstraintOfTypeParameter(tp.target) ? tp.target : tp; }), ts.isInJSFile(signature.declaration)); } function getBaseSignature(signature) { var typeParameters = signature.typeParameters; if (typeParameters) { var typeEraser_1 = createTypeEraser(typeParameters); var baseConstraints = ts.map(typeParameters, function (tp) { return instantiateType(getBaseConstraintOfType(tp), typeEraser_1) || unknownType; }); return instantiateSignature(signature, createTypeMapper(typeParameters, baseConstraints), /*eraseTypeParameters*/ true); } return signature; } function getOrCreateTypeFromSignature(signature) { // There are two ways to declare a construct signature, one is by declaring a class constructor // using the constructor keyword, and the other is declaring a bare construct signature in an // object type literal or interface (using the new keyword). Each way of declaring a constructor // will result in a different declaration kind. if (!signature.isolatedSignatureType) { var kind = signature.declaration ? signature.declaration.kind : 0 /* Unknown */; var isConstructor = kind === 162 /* Constructor */ || kind === 166 /* ConstructSignature */ || kind === 171 /* ConstructorType */; var type = createObjectType(16 /* Anonymous */); type.members = emptySymbols; type.properties = ts.emptyArray; type.callSignatures = !isConstructor ? [signature] : ts.emptyArray; type.constructSignatures = isConstructor ? [signature] : ts.emptyArray; signature.isolatedSignatureType = type; } return signature.isolatedSignatureType; } function getIndexSymbol(symbol) { return symbol.members.get("__index" /* Index */); } function getIndexDeclarationOfSymbol(symbol, kind) { var syntaxKind = kind === 1 /* Number */ ? 140 /* NumberKeyword */ : 143 /* StringKeyword */; var indexSymbol = getIndexSymbol(symbol); if (indexSymbol) { for (var _i = 0, _a = indexSymbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; var node = ts.cast(decl, ts.isIndexSignatureDeclaration); if (node.parameters.length === 1) { var parameter = node.parameters[0]; if (parameter.type && parameter.type.kind === syntaxKind) { return node; } } } } return undefined; } function createIndexInfo(type, isReadonly, declaration) { return { type: type, isReadonly: isReadonly, declaration: declaration }; } function getIndexInfoOfSymbol(symbol, kind) { var declaration = getIndexDeclarationOfSymbol(symbol, kind); if (declaration) { return createIndexInfo(declaration.type ? getTypeFromTypeNode(declaration.type) : anyType, ts.hasModifier(declaration, 64 /* Readonly */), declaration); } return undefined; } function getConstraintDeclaration(type) { return ts.mapDefined(ts.filter(type.symbol && type.symbol.declarations, ts.isTypeParameterDeclaration), ts.getEffectiveConstraintOfTypeParameter)[0]; } function getInferredTypeParameterConstraint(typeParameter) { var inferences; if (typeParameter.symbol) { for (var _i = 0, _a = typeParameter.symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; if (declaration.parent.kind === 181 /* InferType */) { // When an 'infer T' declaration is immediately contained in a type reference node // (such as 'Foo'), T's constraint is inferred from the constraint of the // corresponding type parameter in 'Foo'. When multiple 'infer T' declarations are // present, we form an intersection of the inferred constraint types. var grandParent = declaration.parent.parent; if (grandParent.kind === 169 /* TypeReference */) { var typeReference = grandParent; var typeParameters = getTypeParametersForTypeReference(typeReference); if (typeParameters) { var index = typeReference.typeArguments.indexOf(declaration.parent); if (index < typeParameters.length) { var declaredConstraint = getConstraintOfTypeParameter(typeParameters[index]); if (declaredConstraint) { // Type parameter constraints can reference other type parameters so // constraints need to be instantiated. If instantiation produces the // type parameter itself, we discard that inference. For example, in // type Foo = [T, U]; // type Bar = T extends Foo ? Foo : T; // the instantiated constraint for U is X, so we discard that inference. var mapper = createTypeMapper(typeParameters, getEffectiveTypeArguments(typeReference, typeParameters)); var constraint = instantiateType(declaredConstraint, mapper); if (constraint !== typeParameter) { inferences = ts.append(inferences, constraint); } } } } } // When an 'infer T' declaration is immediately contained in a rest parameter // declaration, we infer an 'unknown[]' constraint. else if (grandParent.kind === 156 /* Parameter */ && grandParent.dotDotDotToken) { inferences = ts.append(inferences, createArrayType(unknownType)); } } } } return inferences && getIntersectionType(inferences); } /** This is a worker function. Use getConstraintOfTypeParameter which guards against circular constraints. */ function getConstraintFromTypeParameter(typeParameter) { if (!typeParameter.constraint) { if (typeParameter.target) { var targetConstraint = getConstraintOfTypeParameter(typeParameter.target); typeParameter.constraint = targetConstraint ? instantiateType(targetConstraint, typeParameter.mapper) : noConstraintType; } else { var constraintDeclaration = getConstraintDeclaration(typeParameter); if (!constraintDeclaration) { typeParameter.constraint = getInferredTypeParameterConstraint(typeParameter) || noConstraintType; } else { var type = getTypeFromTypeNode(constraintDeclaration); if (type.flags & 1 /* Any */ && type !== errorType) { // Allow errorType to propegate to keep downstream errors suppressed // use keyofConstraintType as the base constraint for mapped type key constraints (unknown isn;t assignable to that, but `any` was), // use unknown otherwise type = constraintDeclaration.parent.parent.kind === 186 /* MappedType */ ? keyofConstraintType : unknownType; } typeParameter.constraint = type; } } } return typeParameter.constraint === noConstraintType ? undefined : typeParameter.constraint; } function getParentSymbolOfTypeParameter(typeParameter) { var tp = ts.getDeclarationOfKind(typeParameter.symbol, 155 /* TypeParameter */); var host = ts.isJSDocTemplateTag(tp.parent) ? ts.getHostSignatureFromJSDoc(tp.parent) : tp.parent; return host && getSymbolOfNode(host); } function getTypeListId(types) { var result = ""; if (types) { var length_4 = types.length; var i = 0; while (i < length_4) { var startId = types[i].id; var count = 1; while (i + count < length_4 && types[i + count].id === startId + count) { count++; } if (result.length) { result += ","; } result += startId; if (count > 1) { result += ":" + count; } i += count; } } return result; } // This function is used to propagate certain flags when creating new object type references and union types. // It is only necessary to do so if a constituent type might be the undefined type, the null type, the type // of an object literal or the anyFunctionType. This is because there are operations in the type checker // that care about the presence of such types at arbitrary depth in a containing type. function getPropagatingFlagsOfTypes(types, excludeKinds) { var result = 0; for (var _i = 0, types_8 = types; _i < types_8.length; _i++) { var type = types_8[_i]; if (!(type.flags & excludeKinds)) { result |= ts.getObjectFlags(type); } } return result & 3670016 /* PropagatingFlags */; } function createTypeReference(target, typeArguments) { var id = getTypeListId(typeArguments); var type = target.instantiations.get(id); if (!type) { type = createObjectType(4 /* Reference */, target.symbol); target.instantiations.set(id, type); type.objectFlags |= typeArguments ? getPropagatingFlagsOfTypes(typeArguments, /*excludeKinds*/ 0) : 0; type.target = target; type.resolvedTypeArguments = typeArguments; } return type; } function cloneTypeReference(source) { var type = createType(source.flags); type.symbol = source.symbol; type.objectFlags = source.objectFlags; type.target = source.target; type.resolvedTypeArguments = source.resolvedTypeArguments; return type; } function createDeferredTypeReference(target, node, mapper) { var aliasSymbol = getAliasSymbolForTypeNode(node); var aliasTypeArguments = getTypeArgumentsForAliasSymbol(aliasSymbol); var type = createObjectType(4 /* Reference */, target.symbol); type.target = target; type.node = node; type.mapper = mapper; type.aliasSymbol = aliasSymbol; type.aliasTypeArguments = mapper ? instantiateTypes(aliasTypeArguments, mapper) : aliasTypeArguments; return type; } function getTypeArguments(type) { var _a, _b; if (!type.resolvedTypeArguments) { if (!pushTypeResolution(type, 6 /* ResolvedTypeArguments */)) { return ((_a = type.target.localTypeParameters) === null || _a === void 0 ? void 0 : _a.map(function () { return errorType; })) || ts.emptyArray; } var node = type.node; var typeArguments = !node ? ts.emptyArray : node.kind === 169 /* TypeReference */ ? ts.concatenate(type.target.outerTypeParameters, getEffectiveTypeArguments(node, type.target.localTypeParameters)) : node.kind === 174 /* ArrayType */ ? [getTypeFromTypeNode(node.elementType)] : ts.map(node.elementTypes, getTypeFromTypeNode); if (popTypeResolution()) { type.resolvedTypeArguments = type.mapper ? instantiateTypes(typeArguments, type.mapper) : typeArguments; } else { type.resolvedTypeArguments = ((_b = type.target.localTypeParameters) === null || _b === void 0 ? void 0 : _b.map(function () { return errorType; })) || ts.emptyArray; error(type.node || currentNode, type.target.symbol ? ts.Diagnostics.Type_arguments_for_0_circularly_reference_themselves : ts.Diagnostics.Tuple_type_arguments_circularly_reference_themselves, type.target.symbol && symbolToString(type.target.symbol)); } } return type.resolvedTypeArguments; } function getTypeReferenceArity(type) { return ts.length(type.target.typeParameters); } /** * Get type from type-reference that reference to class or interface */ function getTypeFromClassOrInterfaceReference(node, symbol) { var type = getDeclaredTypeOfSymbol(getMergedSymbol(symbol)); var typeParameters = type.localTypeParameters; if (typeParameters) { var numTypeArguments = ts.length(node.typeArguments); var minTypeArgumentCount = getMinTypeArgumentCount(typeParameters); var isJs = ts.isInJSFile(node); var isJsImplicitAny = !noImplicitAny && isJs; if (!isJsImplicitAny && (numTypeArguments < minTypeArgumentCount || numTypeArguments > typeParameters.length)) { var missingAugmentsTag = isJs && ts.isExpressionWithTypeArguments(node) && !ts.isJSDocAugmentsTag(node.parent); var diag = minTypeArgumentCount === typeParameters.length ? missingAugmentsTag ? ts.Diagnostics.Expected_0_type_arguments_provide_these_with_an_extends_tag : ts.Diagnostics.Generic_type_0_requires_1_type_argument_s : missingAugmentsTag ? ts.Diagnostics.Expected_0_1_type_arguments_provide_these_with_an_extends_tag : ts.Diagnostics.Generic_type_0_requires_between_1_and_2_type_arguments; var typeStr = typeToString(type, /*enclosingDeclaration*/ undefined, 2 /* WriteArrayAsGenericType */); error(node, diag, typeStr, minTypeArgumentCount, typeParameters.length); if (!isJs) { // TODO: Adopt same permissive behavior in TS as in JS to reduce follow-on editing experience failures (requires editing fillMissingTypeArguments) return errorType; } } if (node.kind === 169 /* TypeReference */ && isDeferredTypeReferenceNode(node, ts.length(node.typeArguments) !== typeParameters.length)) { return createDeferredTypeReference(type, node, /*mapper*/ undefined); } // In a type reference, the outer type parameters of the referenced class or interface are automatically // supplied as type arguments and the type reference only specifies arguments for the local type parameters // of the class or interface. var typeArguments = ts.concatenate(type.outerTypeParameters, fillMissingTypeArguments(typeArgumentsFromTypeReferenceNode(node), typeParameters, minTypeArgumentCount, isJs)); return createTypeReference(type, typeArguments); } return checkNoTypeArguments(node, symbol) ? type : errorType; } function getTypeAliasInstantiation(symbol, typeArguments) { var type = getDeclaredTypeOfSymbol(symbol); var links = getSymbolLinks(symbol); var typeParameters = links.typeParameters; var id = getTypeListId(typeArguments); var instantiation = links.instantiations.get(id); if (!instantiation) { links.instantiations.set(id, instantiation = instantiateType(type, createTypeMapper(typeParameters, fillMissingTypeArguments(typeArguments, typeParameters, getMinTypeArgumentCount(typeParameters), ts.isInJSFile(symbol.valueDeclaration))))); } return instantiation; } /** * Get type from reference to type alias. When a type alias is generic, the declared type of the type alias may include * references to the type parameters of the alias. We replace those with the actual type arguments by instantiating the * declared type. Instantiations are cached using the type identities of the type arguments as the key. */ function getTypeFromTypeAliasReference(node, symbol) { var type = getDeclaredTypeOfSymbol(symbol); var typeParameters = getSymbolLinks(symbol).typeParameters; if (typeParameters) { var numTypeArguments = ts.length(node.typeArguments); var minTypeArgumentCount = getMinTypeArgumentCount(typeParameters); if (numTypeArguments < minTypeArgumentCount || numTypeArguments > typeParameters.length) { error(node, minTypeArgumentCount === typeParameters.length ? ts.Diagnostics.Generic_type_0_requires_1_type_argument_s : ts.Diagnostics.Generic_type_0_requires_between_1_and_2_type_arguments, symbolToString(symbol), minTypeArgumentCount, typeParameters.length); return errorType; } return getTypeAliasInstantiation(symbol, typeArgumentsFromTypeReferenceNode(node)); } return checkNoTypeArguments(node, symbol) ? type : errorType; } function getTypeReferenceName(node) { switch (node.kind) { case 169 /* TypeReference */: return node.typeName; case 216 /* ExpressionWithTypeArguments */: // We only support expressions that are simple qualified names. For other // expressions this produces undefined. var expr = node.expression; if (ts.isEntityNameExpression(expr)) { return expr; } // fall through; } return undefined; } function resolveTypeReferenceName(typeReferenceName, meaning, ignoreErrors) { if (!typeReferenceName) { return unknownSymbol; } return resolveEntityName(typeReferenceName, meaning, ignoreErrors) || unknownSymbol; } function getTypeReferenceType(node, symbol) { if (symbol === unknownSymbol) { return errorType; } symbol = getExpandoSymbol(symbol) || symbol; if (symbol.flags & (32 /* Class */ | 64 /* Interface */)) { return getTypeFromClassOrInterfaceReference(node, symbol); } if (symbol.flags & 524288 /* TypeAlias */) { return getTypeFromTypeAliasReference(node, symbol); } // Get type from reference to named type that cannot be generic (enum or type parameter) var res = tryGetDeclaredTypeOfSymbol(symbol); if (res) { return checkNoTypeArguments(node, symbol) ? getRegularTypeOfLiteralType(res) : errorType; } if (symbol.flags & 111551 /* Value */ && isJSDocTypeReference(node)) { var jsdocType = getTypeFromJSDocValueReference(node, symbol); if (jsdocType) { return jsdocType; } else { // Resolve the type reference as a Type for the purpose of reporting errors. resolveTypeReferenceName(getTypeReferenceName(node), 788968 /* Type */); return getTypeOfSymbol(symbol); } } return errorType; } /** * A JSdoc TypeReference may be to a value, but resolve it as a type anyway. * Note: If the value is imported from commonjs, it should really be an alias, * but this function's special-case code fakes alias resolution as well. */ function getTypeFromJSDocValueReference(node, symbol) { var links = getNodeLinks(node); if (!links.resolvedJSDocType) { var valueType = getTypeOfSymbol(symbol); var typeType = valueType; if (symbol.valueDeclaration) { var decl = ts.getRootDeclaration(symbol.valueDeclaration); var isRequireAlias = false; if (ts.isVariableDeclaration(decl) && decl.initializer) { var expr = decl.initializer; // skip past entity names, eg `require("x").a.b.c` while (ts.isPropertyAccessExpression(expr)) { expr = expr.expression; } isRequireAlias = ts.isCallExpression(expr) && ts.isRequireCall(expr, /*requireStringLiteralLikeArgument*/ true) && !!valueType.symbol; } var isImportTypeWithQualifier = node.kind === 188 /* ImportType */ && node.qualifier; // valueType might not have a symbol, eg, {import('./b').STRING_LITERAL} if (valueType.symbol && (isRequireAlias || isImportTypeWithQualifier)) { typeType = getTypeReferenceType(node, valueType.symbol); } } links.resolvedJSDocType = typeType; } return links.resolvedJSDocType; } function getSubstitutionType(baseType, substitute) { if (substitute.flags & 3 /* AnyOrUnknown */ || substitute === baseType) { return baseType; } var id = getTypeId(baseType) + ">" + getTypeId(substitute); var cached = substitutionTypes.get(id); if (cached) { return cached; } var result = createType(33554432 /* Substitution */); result.baseType = baseType; result.substitute = substitute; substitutionTypes.set(id, result); return result; } function isUnaryTupleTypeNode(node) { return node.kind === 175 /* TupleType */ && node.elementTypes.length === 1; } function getImpliedConstraint(type, checkNode, extendsNode) { return isUnaryTupleTypeNode(checkNode) && isUnaryTupleTypeNode(extendsNode) ? getImpliedConstraint(type, checkNode.elementTypes[0], extendsNode.elementTypes[0]) : getActualTypeVariable(getTypeFromTypeNode(checkNode)) === type ? getTypeFromTypeNode(extendsNode) : undefined; } function getConditionalFlowTypeOfType(type, node) { var constraints; while (node && !ts.isStatement(node) && node.kind !== 303 /* JSDocComment */) { var parent = node.parent; if (parent.kind === 180 /* ConditionalType */ && node === parent.trueType) { var constraint = getImpliedConstraint(type, parent.checkType, parent.extendsType); if (constraint) { constraints = ts.append(constraints, constraint); } } node = parent; } return constraints ? getSubstitutionType(type, getIntersectionType(ts.append(constraints, type))) : type; } function isJSDocTypeReference(node) { return !!(node.flags & 4194304 /* JSDoc */) && (node.kind === 169 /* TypeReference */ || node.kind === 188 /* ImportType */); } function checkNoTypeArguments(node, symbol) { if (node.typeArguments) { error(node, ts.Diagnostics.Type_0_is_not_generic, symbol ? symbolToString(symbol) : node.typeName ? ts.declarationNameToString(node.typeName) : anon); return false; } return true; } function getIntendedTypeFromJSDocTypeReference(node) { if (ts.isIdentifier(node.typeName)) { var typeArgs = node.typeArguments; switch (node.typeName.escapedText) { case "String": checkNoTypeArguments(node); return stringType; case "Number": checkNoTypeArguments(node); return numberType; case "Boolean": checkNoTypeArguments(node); return booleanType; case "Void": checkNoTypeArguments(node); return voidType; case "Undefined": checkNoTypeArguments(node); return undefinedType; case "Null": checkNoTypeArguments(node); return nullType; case "Function": case "function": checkNoTypeArguments(node); return globalFunctionType; case "array": return (!typeArgs || !typeArgs.length) && !noImplicitAny ? anyArrayType : undefined; case "promise": return (!typeArgs || !typeArgs.length) && !noImplicitAny ? createPromiseType(anyType) : undefined; case "Object": if (typeArgs && typeArgs.length === 2) { if (ts.isJSDocIndexSignature(node)) { var indexed = getTypeFromTypeNode(typeArgs[0]); var target = getTypeFromTypeNode(typeArgs[1]); var index = createIndexInfo(target, /*isReadonly*/ false); return createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, indexed === stringType ? index : undefined, indexed === numberType ? index : undefined); } return anyType; } checkNoTypeArguments(node); return !noImplicitAny ? anyType : undefined; } } } function getTypeFromJSDocNullableTypeNode(node) { var type = getTypeFromTypeNode(node.type); return strictNullChecks ? getNullableType(type, 65536 /* Null */) : type; } function getTypeFromTypeReference(node) { var links = getNodeLinks(node); if (!links.resolvedType) { // handle LS queries on the `const` in `x as const` by resolving to the type of `x` if (ts.isConstTypeReference(node) && ts.isAssertionExpression(node.parent)) { links.resolvedSymbol = unknownSymbol; return links.resolvedType = checkExpressionCached(node.parent.expression); } var symbol = void 0; var type = void 0; var meaning = 788968 /* Type */; if (isJSDocTypeReference(node)) { type = getIntendedTypeFromJSDocTypeReference(node); if (!type) { symbol = resolveTypeReferenceName(getTypeReferenceName(node), meaning, /*ignoreErrors*/ true); if (symbol === unknownSymbol) { symbol = resolveTypeReferenceName(getTypeReferenceName(node), meaning | 111551 /* Value */); } else { resolveTypeReferenceName(getTypeReferenceName(node), meaning); // Resolve again to mark errors, if any } type = getTypeReferenceType(node, symbol); } } if (!type) { symbol = resolveTypeReferenceName(getTypeReferenceName(node), meaning); type = getTypeReferenceType(node, symbol); } // Cache both the resolved symbol and the resolved type. The resolved symbol is needed when we check the // type reference in checkTypeReferenceNode. links.resolvedSymbol = symbol; links.resolvedType = type; } return links.resolvedType; } function typeArgumentsFromTypeReferenceNode(node) { return ts.map(node.typeArguments, getTypeFromTypeNode); } function getTypeFromTypeQueryNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { // TypeScript 1.0 spec (April 2014): 3.6.3 // The expression is processed as an identifier expression (section 4.3) // or property access expression(section 4.10), // the widened type(section 3.9) of which becomes the result. links.resolvedType = getRegularTypeOfLiteralType(getWidenedType(checkExpression(node.exprName))); } return links.resolvedType; } function getTypeOfGlobalSymbol(symbol, arity) { function getTypeDeclaration(symbol) { var declarations = symbol.declarations; for (var _i = 0, declarations_3 = declarations; _i < declarations_3.length; _i++) { var declaration = declarations_3[_i]; switch (declaration.kind) { case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: case 248 /* EnumDeclaration */: return declaration; } } } if (!symbol) { return arity ? emptyGenericType : emptyObjectType; } var type = getDeclaredTypeOfSymbol(symbol); if (!(type.flags & 524288 /* Object */)) { error(getTypeDeclaration(symbol), ts.Diagnostics.Global_type_0_must_be_a_class_or_interface_type, ts.symbolName(symbol)); return arity ? emptyGenericType : emptyObjectType; } if (ts.length(type.typeParameters) !== arity) { error(getTypeDeclaration(symbol), ts.Diagnostics.Global_type_0_must_have_1_type_parameter_s, ts.symbolName(symbol), arity); return arity ? emptyGenericType : emptyObjectType; } return type; } function getGlobalValueSymbol(name, reportErrors) { return getGlobalSymbol(name, 111551 /* Value */, reportErrors ? ts.Diagnostics.Cannot_find_global_value_0 : undefined); } function getGlobalTypeSymbol(name, reportErrors) { return getGlobalSymbol(name, 788968 /* Type */, reportErrors ? ts.Diagnostics.Cannot_find_global_type_0 : undefined); } function getGlobalSymbol(name, meaning, diagnostic) { // Don't track references for global symbols anyway, so value if `isReference` is arbitrary return resolveName(undefined, name, meaning, diagnostic, name, /*isUse*/ false); } function getGlobalType(name, arity, reportErrors) { var symbol = getGlobalTypeSymbol(name, reportErrors); return symbol || reportErrors ? getTypeOfGlobalSymbol(symbol, arity) : undefined; } function getGlobalTypedPropertyDescriptorType() { return deferredGlobalTypedPropertyDescriptorType || (deferredGlobalTypedPropertyDescriptorType = getGlobalType("TypedPropertyDescriptor", /*arity*/ 1, /*reportErrors*/ true)) || emptyGenericType; } function getGlobalTemplateStringsArrayType() { return deferredGlobalTemplateStringsArrayType || (deferredGlobalTemplateStringsArrayType = getGlobalType("TemplateStringsArray", /*arity*/ 0, /*reportErrors*/ true)) || emptyObjectType; } function getGlobalImportMetaType() { return deferredGlobalImportMetaType || (deferredGlobalImportMetaType = getGlobalType("ImportMeta", /*arity*/ 0, /*reportErrors*/ true)) || emptyObjectType; } function getGlobalESSymbolConstructorSymbol(reportErrors) { return deferredGlobalESSymbolConstructorSymbol || (deferredGlobalESSymbolConstructorSymbol = getGlobalValueSymbol("Symbol", reportErrors)); } function getGlobalESSymbolType(reportErrors) { return deferredGlobalESSymbolType || (deferredGlobalESSymbolType = getGlobalType("Symbol", /*arity*/ 0, reportErrors)) || emptyObjectType; } function getGlobalPromiseType(reportErrors) { return deferredGlobalPromiseType || (deferredGlobalPromiseType = getGlobalType("Promise", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalPromiseLikeType(reportErrors) { return deferredGlobalPromiseLikeType || (deferredGlobalPromiseLikeType = getGlobalType("PromiseLike", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalPromiseConstructorSymbol(reportErrors) { return deferredGlobalPromiseConstructorSymbol || (deferredGlobalPromiseConstructorSymbol = getGlobalValueSymbol("Promise", reportErrors)); } function getGlobalPromiseConstructorLikeType(reportErrors) { return deferredGlobalPromiseConstructorLikeType || (deferredGlobalPromiseConstructorLikeType = getGlobalType("PromiseConstructorLike", /*arity*/ 0, reportErrors)) || emptyObjectType; } function getGlobalAsyncIterableType(reportErrors) { return deferredGlobalAsyncIterableType || (deferredGlobalAsyncIterableType = getGlobalType("AsyncIterable", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalAsyncIteratorType(reportErrors) { return deferredGlobalAsyncIteratorType || (deferredGlobalAsyncIteratorType = getGlobalType("AsyncIterator", /*arity*/ 3, reportErrors)) || emptyGenericType; } function getGlobalAsyncIterableIteratorType(reportErrors) { return deferredGlobalAsyncIterableIteratorType || (deferredGlobalAsyncIterableIteratorType = getGlobalType("AsyncIterableIterator", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalAsyncGeneratorType(reportErrors) { return deferredGlobalAsyncGeneratorType || (deferredGlobalAsyncGeneratorType = getGlobalType("AsyncGenerator", /*arity*/ 3, reportErrors)) || emptyGenericType; } function getGlobalIterableType(reportErrors) { return deferredGlobalIterableType || (deferredGlobalIterableType = getGlobalType("Iterable", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalIteratorType(reportErrors) { return deferredGlobalIteratorType || (deferredGlobalIteratorType = getGlobalType("Iterator", /*arity*/ 3, reportErrors)) || emptyGenericType; } function getGlobalIterableIteratorType(reportErrors) { return deferredGlobalIterableIteratorType || (deferredGlobalIterableIteratorType = getGlobalType("IterableIterator", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalGeneratorType(reportErrors) { return deferredGlobalGeneratorType || (deferredGlobalGeneratorType = getGlobalType("Generator", /*arity*/ 3, reportErrors)) || emptyGenericType; } function getGlobalIteratorYieldResultType(reportErrors) { return deferredGlobalIteratorYieldResultType || (deferredGlobalIteratorYieldResultType = getGlobalType("IteratorYieldResult", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalIteratorReturnResultType(reportErrors) { return deferredGlobalIteratorReturnResultType || (deferredGlobalIteratorReturnResultType = getGlobalType("IteratorReturnResult", /*arity*/ 1, reportErrors)) || emptyGenericType; } function getGlobalTypeOrUndefined(name, arity) { if (arity === void 0) { arity = 0; } var symbol = getGlobalSymbol(name, 788968 /* Type */, /*diagnostic*/ undefined); return symbol && getTypeOfGlobalSymbol(symbol, arity); } function getGlobalExtractSymbol() { return deferredGlobalExtractSymbol || (deferredGlobalExtractSymbol = getGlobalSymbol("Extract", 524288 /* TypeAlias */, ts.Diagnostics.Cannot_find_global_type_0)); // TODO: GH#18217 } function getGlobalOmitSymbol() { return deferredGlobalOmitSymbol || (deferredGlobalOmitSymbol = getGlobalSymbol("Omit", 524288 /* TypeAlias */, ts.Diagnostics.Cannot_find_global_type_0)); // TODO: GH#18217 } function getGlobalBigIntType(reportErrors) { return deferredGlobalBigIntType || (deferredGlobalBigIntType = getGlobalType("BigInt", /*arity*/ 0, reportErrors)) || emptyObjectType; } /** * Instantiates a global type that is generic with some element type, and returns that instantiation. */ function createTypeFromGenericGlobalType(genericGlobalType, typeArguments) { return genericGlobalType !== emptyGenericType ? createTypeReference(genericGlobalType, typeArguments) : emptyObjectType; } function createTypedPropertyDescriptorType(propertyType) { return createTypeFromGenericGlobalType(getGlobalTypedPropertyDescriptorType(), [propertyType]); } function createIterableType(iteratedType) { return createTypeFromGenericGlobalType(getGlobalIterableType(/*reportErrors*/ true), [iteratedType]); } function createArrayType(elementType, readonly) { return createTypeFromGenericGlobalType(readonly ? globalReadonlyArrayType : globalArrayType, [elementType]); } function getArrayOrTupleTargetType(node) { var readonly = isReadonlyTypeOperator(node.parent); if (node.kind === 174 /* ArrayType */ || node.elementTypes.length === 1 && node.elementTypes[0].kind === 177 /* RestType */) { return readonly ? globalReadonlyArrayType : globalArrayType; } var lastElement = ts.lastOrUndefined(node.elementTypes); var restElement = lastElement && lastElement.kind === 177 /* RestType */ ? lastElement : undefined; var minLength = ts.findLastIndex(node.elementTypes, function (n) { return n.kind !== 176 /* OptionalType */ && n !== restElement; }) + 1; return getTupleTypeOfArity(node.elementTypes.length, minLength, !!restElement, readonly, /*associatedNames*/ undefined); } // Return true if the given type reference node is directly aliased or if it needs to be deferred // because it is possibly contained in a circular chain of eagerly resolved types. function isDeferredTypeReferenceNode(node, hasDefaultTypeArguments) { return !!getAliasSymbolForTypeNode(node) || isResolvedByTypeAlias(node) && (node.kind === 174 /* ArrayType */ ? mayResolveTypeAlias(node.elementType) : node.kind === 175 /* TupleType */ ? ts.some(node.elementTypes, mayResolveTypeAlias) : hasDefaultTypeArguments || ts.some(node.typeArguments, mayResolveTypeAlias)); } // Return true when the given node is transitively contained in type constructs that eagerly // resolve their constituent types. We include SyntaxKind.TypeReference because type arguments // of type aliases are eagerly resolved. function isResolvedByTypeAlias(node) { var parent = node.parent; switch (parent.kind) { case 182 /* ParenthesizedType */: case 169 /* TypeReference */: case 178 /* UnionType */: case 179 /* IntersectionType */: case 185 /* IndexedAccessType */: case 180 /* ConditionalType */: case 184 /* TypeOperator */: case 174 /* ArrayType */: case 175 /* TupleType */: return isResolvedByTypeAlias(parent); case 247 /* TypeAliasDeclaration */: return true; } return false; } // Return true if resolving the given node (i.e. getTypeFromTypeNode) possibly causes resolution // of a type alias. function mayResolveTypeAlias(node) { switch (node.kind) { case 169 /* TypeReference */: return isJSDocTypeReference(node) || !!(resolveTypeReferenceName(node.typeName, 788968 /* Type */).flags & 524288 /* TypeAlias */); case 172 /* TypeQuery */: return true; case 184 /* TypeOperator */: return node.operator !== 147 /* UniqueKeyword */ && mayResolveTypeAlias(node.type); case 182 /* ParenthesizedType */: case 176 /* OptionalType */: case 299 /* JSDocOptionalType */: case 297 /* JSDocNullableType */: case 298 /* JSDocNonNullableType */: case 294 /* JSDocTypeExpression */: return mayResolveTypeAlias(node.type); case 177 /* RestType */: return node.type.kind !== 174 /* ArrayType */ || mayResolveTypeAlias(node.type.elementType); case 178 /* UnionType */: case 179 /* IntersectionType */: return ts.some(node.types, mayResolveTypeAlias); case 185 /* IndexedAccessType */: return mayResolveTypeAlias(node.objectType) || mayResolveTypeAlias(node.indexType); case 180 /* ConditionalType */: return mayResolveTypeAlias(node.checkType) || mayResolveTypeAlias(node.extendsType) || mayResolveTypeAlias(node.trueType) || mayResolveTypeAlias(node.falseType); } return false; } function getTypeFromArrayOrTupleTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { var target = getArrayOrTupleTargetType(node); if (target === emptyGenericType) { links.resolvedType = emptyObjectType; } else if (isDeferredTypeReferenceNode(node)) { links.resolvedType = node.kind === 175 /* TupleType */ && node.elementTypes.length === 0 ? target : createDeferredTypeReference(target, node, /*mapper*/ undefined); } else { var elementTypes = node.kind === 174 /* ArrayType */ ? [getTypeFromTypeNode(node.elementType)] : ts.map(node.elementTypes, getTypeFromTypeNode); links.resolvedType = createTypeReference(target, elementTypes); } } return links.resolvedType; } function isReadonlyTypeOperator(node) { return ts.isTypeOperatorNode(node) && node.operator === 138 /* ReadonlyKeyword */; } // We represent tuple types as type references to synthesized generic interface types created by // this function. The types are of the form: // // interface Tuple extends Array { 0: T0, 1: T1, 2: T2, ... } // // Note that the generic type created by this function has no symbol associated with it. The same // is true for each of the synthesized type parameters. function createTupleTypeOfArity(arity, minLength, hasRestElement, readonly, associatedNames) { var typeParameters; var properties = []; var maxLength = hasRestElement ? arity - 1 : arity; if (arity) { typeParameters = new Array(arity); for (var i = 0; i < arity; i++) { var typeParameter = typeParameters[i] = createTypeParameter(); if (i < maxLength) { var property = createSymbol(4 /* Property */ | (i >= minLength ? 16777216 /* Optional */ : 0), "" + i, readonly ? 8 /* Readonly */ : 0); property.type = typeParameter; properties.push(property); } } } var literalTypes = []; for (var i = minLength; i <= maxLength; i++) literalTypes.push(getLiteralType(i)); var lengthSymbol = createSymbol(4 /* Property */, "length"); lengthSymbol.type = hasRestElement ? numberType : getUnionType(literalTypes); properties.push(lengthSymbol); var type = createObjectType(8 /* Tuple */ | 4 /* Reference */); type.typeParameters = typeParameters; type.outerTypeParameters = undefined; type.localTypeParameters = typeParameters; type.instantiations = ts.createMap(); type.instantiations.set(getTypeListId(type.typeParameters), type); type.target = type; type.resolvedTypeArguments = type.typeParameters; type.thisType = createTypeParameter(); type.thisType.isThisType = true; type.thisType.constraint = type; type.declaredProperties = properties; type.declaredCallSignatures = ts.emptyArray; type.declaredConstructSignatures = ts.emptyArray; type.declaredStringIndexInfo = undefined; type.declaredNumberIndexInfo = undefined; type.minLength = minLength; type.hasRestElement = hasRestElement; type.readonly = readonly; type.associatedNames = associatedNames; return type; } function getTupleTypeOfArity(arity, minLength, hasRestElement, readonly, associatedNames) { var key = arity + (hasRestElement ? "+" : ",") + minLength + (readonly ? "R" : "") + (associatedNames && associatedNames.length ? "," + associatedNames.join(",") : ""); var type = tupleTypes.get(key); if (!type) { tupleTypes.set(key, type = createTupleTypeOfArity(arity, minLength, hasRestElement, readonly, associatedNames)); } return type; } function createTupleType(elementTypes, minLength, hasRestElement, readonly, associatedNames) { if (minLength === void 0) { minLength = elementTypes.length; } if (hasRestElement === void 0) { hasRestElement = false; } if (readonly === void 0) { readonly = false; } var arity = elementTypes.length; if (arity === 1 && hasRestElement) { return createArrayType(elementTypes[0], readonly); } var tupleType = getTupleTypeOfArity(arity, minLength, arity > 0 && hasRestElement, readonly, associatedNames); return elementTypes.length ? createTypeReference(tupleType, elementTypes) : tupleType; } function sliceTupleType(type, index) { var tuple = type.target; if (tuple.hasRestElement) { // don't slice off rest element index = Math.min(index, getTypeReferenceArity(type) - 1); } return createTupleType(getTypeArguments(type).slice(index), Math.max(0, tuple.minLength - index), tuple.hasRestElement, tuple.readonly, tuple.associatedNames && tuple.associatedNames.slice(index)); } function getTypeFromOptionalTypeNode(node) { var type = getTypeFromTypeNode(node.type); return strictNullChecks ? getOptionalType(type) : type; } function getTypeId(type) { return type.id; } function containsType(types, type) { return ts.binarySearch(types, type, getTypeId, ts.compareValues) >= 0; } function insertType(types, type) { var index = ts.binarySearch(types, type, getTypeId, ts.compareValues); if (index < 0) { types.splice(~index, 0, type); return true; } return false; } function addTypeToUnion(typeSet, includes, type) { var flags = type.flags; if (flags & 1048576 /* Union */) { return addTypesToUnion(typeSet, includes, type.types); } // We ignore 'never' types in unions if (!(flags & 131072 /* Never */)) { includes |= flags & 71041023 /* IncludesMask */; if (flags & 66846720 /* StructuredOrInstantiable */) includes |= 262144 /* IncludesStructuredOrInstantiable */; if (type === wildcardType) includes |= 8388608 /* IncludesWildcard */; if (!strictNullChecks && flags & 98304 /* Nullable */) { if (!(ts.getObjectFlags(type) & 524288 /* ContainsWideningType */)) includes |= 4194304 /* IncludesNonWideningType */; } else { var len = typeSet.length; var index = len && type.id > typeSet[len - 1].id ? ~len : ts.binarySearch(typeSet, type, getTypeId, ts.compareValues); if (index < 0) { typeSet.splice(~index, 0, type); } } } return includes; } // Add the given types to the given type set. Order is preserved, duplicates are removed, // and nested types of the given kind are flattened into the set. function addTypesToUnion(typeSet, includes, types) { for (var _i = 0, types_9 = types; _i < types_9.length; _i++) { var type = types_9[_i]; includes = addTypeToUnion(typeSet, includes, type); } return includes; } function isSetOfLiteralsFromSameEnum(types) { var first = types[0]; if (first.flags & 1024 /* EnumLiteral */) { var firstEnum = getParentOfSymbol(first.symbol); for (var i = 1; i < types.length; i++) { var other = types[i]; if (!(other.flags & 1024 /* EnumLiteral */) || (firstEnum !== getParentOfSymbol(other.symbol))) { return false; } } return true; } return false; } function removeSubtypes(types, primitivesOnly) { var len = types.length; if (len === 0 || isSetOfLiteralsFromSameEnum(types)) { return true; } var i = len; var count = 0; while (i > 0) { i--; var source = types[i]; for (var _i = 0, types_10 = types; _i < types_10.length; _i++) { var target = types_10[_i]; if (source !== target) { if (count === 100000) { // After 100000 subtype checks we estimate the remaining amount of work by assuming the // same ratio of checks per element. If the estimated number of remaining type checks is // greater than an upper limit we deem the union type too complex to represent. The // upper limit is 25M for unions of primitives only, and 1M otherwise. This for example // caps union types at 5000 unique literal types and 1000 unique object types. var estimatedCount = (count / (len - i)) * len; if (estimatedCount > (primitivesOnly ? 25000000 : 1000000)) { error(currentNode, ts.Diagnostics.Expression_produces_a_union_type_that_is_too_complex_to_represent); return false; } } count++; if (isTypeRelatedTo(source, target, strictSubtypeRelation) && (!(ts.getObjectFlags(getTargetType(source)) & 1 /* Class */) || !(ts.getObjectFlags(getTargetType(target)) & 1 /* Class */) || isTypeDerivedFrom(source, target))) { ts.orderedRemoveItemAt(types, i); break; } } } } return true; } function removeRedundantLiteralTypes(types, includes) { var i = types.length; while (i > 0) { i--; var t = types[i]; var remove = t.flags & 128 /* StringLiteral */ && includes & 4 /* String */ || t.flags & 256 /* NumberLiteral */ && includes & 8 /* Number */ || t.flags & 2048 /* BigIntLiteral */ && includes & 64 /* BigInt */ || t.flags & 8192 /* UniqueESSymbol */ && includes & 4096 /* ESSymbol */ || isFreshLiteralType(t) && containsType(types, t.regularType); if (remove) { ts.orderedRemoveItemAt(types, i); } } } // We sort and deduplicate the constituent types based on object identity. If the subtypeReduction // flag is specified we also reduce the constituent type set to only include types that aren't subtypes // of other types. Subtype reduction is expensive for large union types and is possible only when union // types are known not to circularly reference themselves (as is the case with union types created by // expression constructs such as array literals and the || and ?: operators). Named types can // circularly reference themselves and therefore cannot be subtype reduced during their declaration. // For example, "type Item = string | (() => Item" is a named type that circularly references itself. function getUnionType(types, unionReduction, aliasSymbol, aliasTypeArguments) { if (unionReduction === void 0) { unionReduction = 1 /* Literal */; } if (types.length === 0) { return neverType; } if (types.length === 1) { return types[0]; } var typeSet = []; var includes = addTypesToUnion(typeSet, 0, types); if (unionReduction !== 0 /* None */) { if (includes & 3 /* AnyOrUnknown */) { return includes & 1 /* Any */ ? includes & 8388608 /* IncludesWildcard */ ? wildcardType : anyType : unknownType; } switch (unionReduction) { case 1 /* Literal */: if (includes & (2944 /* Literal */ | 8192 /* UniqueESSymbol */)) { removeRedundantLiteralTypes(typeSet, includes); } break; case 2 /* Subtype */: if (!removeSubtypes(typeSet, !(includes & 262144 /* IncludesStructuredOrInstantiable */))) { return errorType; } break; } if (typeSet.length === 0) { return includes & 65536 /* Null */ ? includes & 4194304 /* IncludesNonWideningType */ ? nullType : nullWideningType : includes & 32768 /* Undefined */ ? includes & 4194304 /* IncludesNonWideningType */ ? undefinedType : undefinedWideningType : neverType; } } var objectFlags = (includes & 66994211 /* NotPrimitiveUnion */ ? 0 : 262144 /* PrimitiveUnion */) | (includes & 2097152 /* Intersection */ ? 268435456 /* ContainsIntersections */ : 0); return getUnionTypeFromSortedList(typeSet, objectFlags, aliasSymbol, aliasTypeArguments); } function getUnionTypePredicate(signatures) { var first; var types = []; for (var _i = 0, signatures_6 = signatures; _i < signatures_6.length; _i++) { var sig = signatures_6[_i]; var pred = getTypePredicateOfSignature(sig); if (!pred || pred.kind === 2 /* AssertsThis */ || pred.kind === 3 /* AssertsIdentifier */) { continue; } if (first) { if (!typePredicateKindsMatch(first, pred)) { // No common type predicate. return undefined; } } else { first = pred; } types.push(pred.type); } if (!first) { // No union signatures had a type predicate. return undefined; } var unionType = getUnionType(types); return createTypePredicate(first.kind, first.parameterName, first.parameterIndex, unionType); } function typePredicateKindsMatch(a, b) { return a.kind === b.kind && a.parameterIndex === b.parameterIndex; } // This function assumes the constituent type list is sorted and deduplicated. function getUnionTypeFromSortedList(types, objectFlags, aliasSymbol, aliasTypeArguments) { if (types.length === 0) { return neverType; } if (types.length === 1) { return types[0]; } var id = getTypeListId(types); var type = unionTypes.get(id); if (!type) { type = createType(1048576 /* Union */); unionTypes.set(id, type); type.objectFlags = objectFlags | getPropagatingFlagsOfTypes(types, /*excludeKinds*/ 98304 /* Nullable */); type.types = types; /* Note: This is the alias symbol (or lack thereof) that we see when we first encounter this union type. For aliases of identical unions, eg `type T = A | B; type U = A | B`, the symbol of the first alias encountered is the aliasSymbol. (In the language service, the order may depend on the order in which a user takes actions, such as hovering over symbols.) It's important that we create equivalent union types only once, so that's an unfortunate side effect. */ type.aliasSymbol = aliasSymbol; type.aliasTypeArguments = aliasTypeArguments; } return type; } function getTypeFromUnionTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { var aliasSymbol = getAliasSymbolForTypeNode(node); links.resolvedType = getUnionType(ts.map(node.types, getTypeFromTypeNode), 1 /* Literal */, aliasSymbol, getTypeArgumentsForAliasSymbol(aliasSymbol)); } return links.resolvedType; } function addTypeToIntersection(typeSet, includes, type) { var flags = type.flags; if (flags & 2097152 /* Intersection */) { return addTypesToIntersection(typeSet, includes, type.types); } if (isEmptyAnonymousObjectType(type)) { if (!(includes & 16777216 /* IncludesEmptyObject */)) { includes |= 16777216 /* IncludesEmptyObject */; typeSet.set(type.id.toString(), type); } } else { if (flags & 3 /* AnyOrUnknown */) { if (type === wildcardType) includes |= 8388608 /* IncludesWildcard */; } else if ((strictNullChecks || !(flags & 98304 /* Nullable */)) && !typeSet.has(type.id.toString())) { if (type.flags & 109440 /* Unit */ && includes & 109440 /* Unit */) { // We have seen two distinct unit types which means we should reduce to an // empty intersection. Adding TypeFlags.NonPrimitive causes that to happen. includes |= 67108864 /* NonPrimitive */; } typeSet.set(type.id.toString(), type); } includes |= flags & 71041023 /* IncludesMask */; } return includes; } // Add the given types to the given type set. Order is preserved, freshness is removed from literal // types, duplicates are removed, and nested types of the given kind are flattened into the set. function addTypesToIntersection(typeSet, includes, types) { for (var _i = 0, types_11 = types; _i < types_11.length; _i++) { var type = types_11[_i]; includes = addTypeToIntersection(typeSet, includes, getRegularTypeOfLiteralType(type)); } return includes; } function removeRedundantPrimitiveTypes(types, includes) { var i = types.length; while (i > 0) { i--; var t = types[i]; var remove = t.flags & 4 /* String */ && includes & 128 /* StringLiteral */ || t.flags & 8 /* Number */ && includes & 256 /* NumberLiteral */ || t.flags & 64 /* BigInt */ && includes & 2048 /* BigIntLiteral */ || t.flags & 4096 /* ESSymbol */ && includes & 8192 /* UniqueESSymbol */; if (remove) { ts.orderedRemoveItemAt(types, i); } } } // Check that the given type has a match in every union. A given type is matched by // an identical type, and a literal type is additionally matched by its corresponding // primitive type. function eachUnionContains(unionTypes, type) { for (var _i = 0, unionTypes_1 = unionTypes; _i < unionTypes_1.length; _i++) { var u = unionTypes_1[_i]; if (!containsType(u.types, type)) { var primitive = type.flags & 128 /* StringLiteral */ ? stringType : type.flags & 256 /* NumberLiteral */ ? numberType : type.flags & 2048 /* BigIntLiteral */ ? bigintType : type.flags & 8192 /* UniqueESSymbol */ ? esSymbolType : undefined; if (!primitive || !containsType(u.types, primitive)) { return false; } } } return true; } function extractIrreducible(types, flag) { if (ts.every(types, function (t) { return !!(t.flags & 1048576 /* Union */) && ts.some(t.types, function (tt) { return !!(tt.flags & flag); }); })) { for (var i = 0; i < types.length; i++) { types[i] = filterType(types[i], function (t) { return !(t.flags & flag); }); } return true; } return false; } // If the given list of types contains more than one union of primitive types, replace the // first with a union containing an intersection of those primitive types, then remove the // other unions and return true. Otherwise, do nothing and return false. function intersectUnionsOfPrimitiveTypes(types) { var unionTypes; var index = ts.findIndex(types, function (t) { return !!(ts.getObjectFlags(t) & 262144 /* PrimitiveUnion */); }); if (index < 0) { return false; } var i = index + 1; // Remove all but the first union of primitive types and collect them in // the unionTypes array. while (i < types.length) { var t = types[i]; if (ts.getObjectFlags(t) & 262144 /* PrimitiveUnion */) { (unionTypes || (unionTypes = [types[index]])).push(t); ts.orderedRemoveItemAt(types, i); } else { i++; } } // Return false if there was only one union of primitive types if (!unionTypes) { return false; } // We have more than one union of primitive types, now intersect them. For each // type in each union we check if the type is matched in every union and if so // we include it in the result. var checked = []; var result = []; for (var _i = 0, unionTypes_2 = unionTypes; _i < unionTypes_2.length; _i++) { var u = unionTypes_2[_i]; for (var _a = 0, _b = u.types; _a < _b.length; _a++) { var t = _b[_a]; if (insertType(checked, t)) { if (eachUnionContains(unionTypes, t)) { insertType(result, t); } } } } // Finally replace the first union with the result types[index] = getUnionTypeFromSortedList(result, 262144 /* PrimitiveUnion */); return true; } function createIntersectionType(types, aliasSymbol, aliasTypeArguments) { var result = createType(2097152 /* Intersection */); result.objectFlags = getPropagatingFlagsOfTypes(types, /*excludeKinds*/ 98304 /* Nullable */); result.types = types; result.aliasSymbol = aliasSymbol; // See comment in `getUnionTypeFromSortedList`. result.aliasTypeArguments = aliasTypeArguments; return result; } // We normalize combinations of intersection and union types based on the distributive property of the '&' // operator. Specifically, because X & (A | B) is equivalent to X & A | X & B, we can transform intersection // types with union type constituents into equivalent union types with intersection type constituents and // effectively ensure that union types are always at the top level in type representations. // // We do not perform structural deduplication on intersection types. Intersection types are created only by the & // type operator and we can't reduce those because we want to support recursive intersection types. For example, // a type alias of the form "type List = T & { next: List }" cannot be reduced during its declaration. // Also, unlike union types, the order of the constituent types is preserved in order that overload resolution // for intersections of types with signatures can be deterministic. function getIntersectionType(types, aliasSymbol, aliasTypeArguments) { var typeMembershipMap = ts.createMap(); var includes = addTypesToIntersection(typeMembershipMap, 0, types); var typeSet = ts.arrayFrom(typeMembershipMap.values()); // An intersection type is considered empty if it contains // the type never, or // more than one unit type or, // an object type and a nullable type (null or undefined), or // a string-like type and a type known to be non-string-like, or // a number-like type and a type known to be non-number-like, or // a symbol-like type and a type known to be non-symbol-like, or // a void-like type and a type known to be non-void-like, or // a non-primitive type and a type known to be primitive. if (includes & 131072 /* Never */ || strictNullChecks && includes & 98304 /* Nullable */ && includes & (524288 /* Object */ | 67108864 /* NonPrimitive */ | 16777216 /* IncludesEmptyObject */) || includes & 67108864 /* NonPrimitive */ && includes & (67238908 /* DisjointDomains */ & ~67108864 /* NonPrimitive */) || includes & 132 /* StringLike */ && includes & (67238908 /* DisjointDomains */ & ~132 /* StringLike */) || includes & 296 /* NumberLike */ && includes & (67238908 /* DisjointDomains */ & ~296 /* NumberLike */) || includes & 2112 /* BigIntLike */ && includes & (67238908 /* DisjointDomains */ & ~2112 /* BigIntLike */) || includes & 12288 /* ESSymbolLike */ && includes & (67238908 /* DisjointDomains */ & ~12288 /* ESSymbolLike */) || includes & 49152 /* VoidLike */ && includes & (67238908 /* DisjointDomains */ & ~49152 /* VoidLike */)) { return neverType; } if (includes & 1 /* Any */) { return includes & 8388608 /* IncludesWildcard */ ? wildcardType : anyType; } if (!strictNullChecks && includes & 98304 /* Nullable */) { return includes & 32768 /* Undefined */ ? undefinedType : nullType; } if (includes & 4 /* String */ && includes & 128 /* StringLiteral */ || includes & 8 /* Number */ && includes & 256 /* NumberLiteral */ || includes & 64 /* BigInt */ && includes & 2048 /* BigIntLiteral */ || includes & 4096 /* ESSymbol */ && includes & 8192 /* UniqueESSymbol */) { removeRedundantPrimitiveTypes(typeSet, includes); } if (includes & 16777216 /* IncludesEmptyObject */ && includes & 524288 /* Object */) { ts.orderedRemoveItemAt(typeSet, ts.findIndex(typeSet, isEmptyAnonymousObjectType)); } if (typeSet.length === 0) { return unknownType; } if (typeSet.length === 1) { return typeSet[0]; } var id = getTypeListId(typeSet); var result = intersectionTypes.get(id); if (!result) { if (includes & 1048576 /* Union */) { if (intersectUnionsOfPrimitiveTypes(typeSet)) { // When the intersection creates a reduced set (which might mean that *all* union types have // disappeared), we restart the operation to get a new set of combined flags. Once we have // reduced we'll never reduce again, so this occurs at most once. result = getIntersectionType(typeSet, aliasSymbol, aliasTypeArguments); } else if (extractIrreducible(typeSet, 32768 /* Undefined */)) { result = getUnionType([getIntersectionType(typeSet), undefinedType], 1 /* Literal */, aliasSymbol, aliasTypeArguments); } else if (extractIrreducible(typeSet, 65536 /* Null */)) { result = getUnionType([getIntersectionType(typeSet), nullType], 1 /* Literal */, aliasSymbol, aliasTypeArguments); } else { // We are attempting to construct a type of the form X & (A | B) & Y. Transform this into a type of // the form X & A & Y | X & B & Y and recursively reduce until no union type constituents remain. // If the estimated size of the resulting union type exceeds 100000 constituents, report an error. var size = ts.reduceLeft(typeSet, function (n, t) { return n * (t.flags & 1048576 /* Union */ ? t.types.length : 1); }, 1); if (size >= 100000) { error(currentNode, ts.Diagnostics.Expression_produces_a_union_type_that_is_too_complex_to_represent); return errorType; } var unionIndex_1 = ts.findIndex(typeSet, function (t) { return (t.flags & 1048576 /* Union */) !== 0; }); var unionType = typeSet[unionIndex_1]; result = getUnionType(ts.map(unionType.types, function (t) { return getIntersectionType(ts.replaceElement(typeSet, unionIndex_1, t)); }), 1 /* Literal */, aliasSymbol, aliasTypeArguments); } } else { result = createIntersectionType(typeSet, aliasSymbol, aliasTypeArguments); } intersectionTypes.set(id, result); } return result; } function getTypeFromIntersectionTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { var aliasSymbol = getAliasSymbolForTypeNode(node); links.resolvedType = getIntersectionType(ts.map(node.types, getTypeFromTypeNode), aliasSymbol, getTypeArgumentsForAliasSymbol(aliasSymbol)); } return links.resolvedType; } function createIndexType(type, stringsOnly) { var result = createType(4194304 /* Index */); result.type = type; result.stringsOnly = stringsOnly; return result; } function getIndexTypeForGenericType(type, stringsOnly) { return stringsOnly ? type.resolvedStringIndexType || (type.resolvedStringIndexType = createIndexType(type, /*stringsOnly*/ true)) : type.resolvedIndexType || (type.resolvedIndexType = createIndexType(type, /*stringsOnly*/ false)); } function getLiteralTypeFromPropertyName(name) { if (ts.isPrivateIdentifier(name)) { return neverType; } return ts.isIdentifier(name) ? getLiteralType(ts.unescapeLeadingUnderscores(name.escapedText)) : getRegularTypeOfLiteralType(ts.isComputedPropertyName(name) ? checkComputedPropertyName(name) : checkExpression(name)); } function getBigIntLiteralType(node) { return getLiteralType({ negative: false, base10Value: ts.parsePseudoBigInt(node.text) }); } function getLiteralTypeFromProperty(prop, include) { if (!(ts.getDeclarationModifierFlagsFromSymbol(prop) & 24 /* NonPublicAccessibilityModifier */)) { var type = getSymbolLinks(getLateBoundSymbol(prop)).nameType; if (!type && !ts.isKnownSymbol(prop)) { if (prop.escapedName === "default" /* Default */) { type = getLiteralType("default"); } else { var name = prop.valueDeclaration && ts.getNameOfDeclaration(prop.valueDeclaration); type = name && getLiteralTypeFromPropertyName(name) || getLiteralType(ts.symbolName(prop)); } } if (type && type.flags & include) { return type; } } return neverType; } function getLiteralTypeFromProperties(type, include) { return getUnionType(ts.map(getPropertiesOfType(type), function (p) { return getLiteralTypeFromProperty(p, include); })); } function getNonEnumNumberIndexInfo(type) { var numberIndexInfo = getIndexInfoOfType(type, 1 /* Number */); return numberIndexInfo !== enumNumberIndexInfo ? numberIndexInfo : undefined; } function getIndexType(type, stringsOnly, noIndexSignatures) { if (stringsOnly === void 0) { stringsOnly = keyofStringsOnly; } type = getReducedType(type); return type.flags & 1048576 /* Union */ ? getIntersectionType(ts.map(type.types, function (t) { return getIndexType(t, stringsOnly, noIndexSignatures); })) : type.flags & 2097152 /* Intersection */ ? getUnionType(ts.map(type.types, function (t) { return getIndexType(t, stringsOnly, noIndexSignatures); })) : maybeTypeOfKind(type, 58982400 /* InstantiableNonPrimitive */) ? getIndexTypeForGenericType(type, stringsOnly) : ts.getObjectFlags(type) & 32 /* Mapped */ ? filterType(getConstraintTypeFromMappedType(type), function (t) { return !(noIndexSignatures && t.flags & (1 /* Any */ | 4 /* String */)); }) : type === wildcardType ? wildcardType : type.flags & 2 /* Unknown */ ? neverType : type.flags & (1 /* Any */ | 131072 /* Never */) ? keyofConstraintType : stringsOnly ? !noIndexSignatures && getIndexInfoOfType(type, 0 /* String */) ? stringType : getLiteralTypeFromProperties(type, 128 /* StringLiteral */) : !noIndexSignatures && getIndexInfoOfType(type, 0 /* String */) ? getUnionType([stringType, numberType, getLiteralTypeFromProperties(type, 8192 /* UniqueESSymbol */)]) : getNonEnumNumberIndexInfo(type) ? getUnionType([numberType, getLiteralTypeFromProperties(type, 128 /* StringLiteral */ | 8192 /* UniqueESSymbol */)]) : getLiteralTypeFromProperties(type, 8576 /* StringOrNumberLiteralOrUnique */); } function getExtractStringType(type) { if (keyofStringsOnly) { return type; } var extractTypeAlias = getGlobalExtractSymbol(); return extractTypeAlias ? getTypeAliasInstantiation(extractTypeAlias, [type, stringType]) : stringType; } function getIndexTypeOrString(type) { var indexType = getExtractStringType(getIndexType(type)); return indexType.flags & 131072 /* Never */ ? stringType : indexType; } function getTypeFromTypeOperatorNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { switch (node.operator) { case 134 /* KeyOfKeyword */: links.resolvedType = getIndexType(getTypeFromTypeNode(node.type)); break; case 147 /* UniqueKeyword */: links.resolvedType = node.type.kind === 144 /* SymbolKeyword */ ? getESSymbolLikeTypeForNode(ts.walkUpParenthesizedTypes(node.parent)) : errorType; break; case 138 /* ReadonlyKeyword */: links.resolvedType = getTypeFromTypeNode(node.type); break; default: throw ts.Debug.assertNever(node.operator); } } return links.resolvedType; } function createIndexedAccessType(objectType, indexType) { var type = createType(8388608 /* IndexedAccess */); type.objectType = objectType; type.indexType = indexType; return type; } /** * Returns if a type is or consists of a JSLiteral object type * In addition to objects which are directly literals, * * unions where every element is a jsliteral * * intersections where at least one element is a jsliteral * * and instantiable types constrained to a jsliteral * Should all count as literals and not print errors on access or assignment of possibly existing properties. * This mirrors the behavior of the index signature propagation, to which this behaves similarly (but doesn't affect assignability or inference). */ function isJSLiteralType(type) { if (noImplicitAny) { return false; // Flag is meaningless under `noImplicitAny` mode } if (ts.getObjectFlags(type) & 16384 /* JSLiteral */) { return true; } if (type.flags & 1048576 /* Union */) { return ts.every(type.types, isJSLiteralType); } if (type.flags & 2097152 /* Intersection */) { return ts.some(type.types, isJSLiteralType); } if (type.flags & 63176704 /* Instantiable */) { return isJSLiteralType(getResolvedBaseConstraint(type)); } return false; } function getPropertyNameFromIndex(indexType, accessNode) { var accessExpression = accessNode && accessNode.kind === 195 /* ElementAccessExpression */ ? accessNode : undefined; return isTypeUsableAsPropertyName(indexType) ? getPropertyNameFromType(indexType) : accessExpression && checkThatExpressionIsProperSymbolReference(accessExpression.argumentExpression, indexType, /*reportError*/ false) ? ts.getPropertyNameForKnownSymbolName(ts.idText(accessExpression.argumentExpression.name)) : accessNode && ts.isPropertyName(accessNode) ? // late bound names are handled in the first branch, so here we only need to handle normal names ts.getPropertyNameForPropertyNameNode(accessNode) : undefined; } function getPropertyTypeForIndexType(originalObjectType, objectType, indexType, fullIndexType, suppressNoImplicitAnyError, accessNode, accessFlags) { var accessExpression = accessNode && accessNode.kind === 195 /* ElementAccessExpression */ ? accessNode : undefined; var propName = accessNode && ts.isPrivateIdentifier(accessNode) ? undefined : getPropertyNameFromIndex(indexType, accessNode); if (propName !== undefined) { var prop = getPropertyOfType(objectType, propName); if (prop) { if (accessExpression) { markPropertyAsReferenced(prop, accessExpression, /*isThisAccess*/ accessExpression.expression.kind === 104 /* ThisKeyword */); if (isAssignmentToReadonlyEntity(accessExpression, prop, ts.getAssignmentTargetKind(accessExpression))) { error(accessExpression.argumentExpression, ts.Diagnostics.Cannot_assign_to_0_because_it_is_a_read_only_property, symbolToString(prop)); return undefined; } if (accessFlags & 4 /* CacheSymbol */) { getNodeLinks(accessNode).resolvedSymbol = prop; } } var propType = getTypeOfSymbol(prop); return accessExpression && ts.getAssignmentTargetKind(accessExpression) !== 1 /* Definite */ ? getFlowTypeOfReference(accessExpression, propType) : propType; } if (everyType(objectType, isTupleType) && isNumericLiteralName(propName) && +propName >= 0) { if (accessNode && everyType(objectType, function (t) { return !t.target.hasRestElement; }) && !(accessFlags & 8 /* NoTupleBoundsCheck */)) { var indexNode = getIndexNodeForAccessExpression(accessNode); if (isTupleType(objectType)) { error(indexNode, ts.Diagnostics.Tuple_type_0_of_length_1_has_no_element_at_index_2, typeToString(objectType), getTypeReferenceArity(objectType), ts.unescapeLeadingUnderscores(propName)); } else { error(indexNode, ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.unescapeLeadingUnderscores(propName), typeToString(objectType)); } } errorIfWritingToReadonlyIndex(getIndexInfoOfType(objectType, 1 /* Number */)); return mapType(objectType, function (t) { return getRestTypeOfTupleType(t) || undefinedType; }); } } if (!(indexType.flags & 98304 /* Nullable */) && isTypeAssignableToKind(indexType, 132 /* StringLike */ | 296 /* NumberLike */ | 12288 /* ESSymbolLike */)) { if (objectType.flags & (1 /* Any */ | 131072 /* Never */)) { return objectType; } var stringIndexInfo = getIndexInfoOfType(objectType, 0 /* String */); var indexInfo = isTypeAssignableToKind(indexType, 296 /* NumberLike */) && getIndexInfoOfType(objectType, 1 /* Number */) || stringIndexInfo; if (indexInfo) { if (accessFlags & 1 /* NoIndexSignatures */ && indexInfo === stringIndexInfo) { if (accessExpression) { error(accessExpression, ts.Diagnostics.Type_0_cannot_be_used_to_index_type_1, typeToString(indexType), typeToString(originalObjectType)); } return undefined; } if (accessNode && !isTypeAssignableToKind(indexType, 4 /* String */ | 8 /* Number */)) { var indexNode = getIndexNodeForAccessExpression(accessNode); error(indexNode, ts.Diagnostics.Type_0_cannot_be_used_as_an_index_type, typeToString(indexType)); return indexInfo.type; } errorIfWritingToReadonlyIndex(indexInfo); return indexInfo.type; } if (indexType.flags & 131072 /* Never */) { return neverType; } if (isJSLiteralType(objectType)) { return anyType; } if (accessExpression && !isConstEnumObjectType(objectType)) { if (objectType.symbol === globalThisSymbol && propName !== undefined && globalThisSymbol.exports.has(propName) && (globalThisSymbol.exports.get(propName).flags & 418 /* BlockScoped */)) { error(accessExpression, ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.unescapeLeadingUnderscores(propName), typeToString(objectType)); } else if (noImplicitAny && !compilerOptions.suppressImplicitAnyIndexErrors && !suppressNoImplicitAnyError) { if (propName !== undefined && typeHasStaticProperty(propName, objectType)) { error(accessExpression, ts.Diagnostics.Property_0_is_a_static_member_of_type_1, propName, typeToString(objectType)); } else if (getIndexTypeOfType(objectType, 1 /* Number */)) { error(accessExpression.argumentExpression, ts.Diagnostics.Element_implicitly_has_an_any_type_because_index_expression_is_not_of_type_number); } else { var suggestion = void 0; if (propName !== undefined && (suggestion = getSuggestionForNonexistentProperty(propName, objectType))) { if (suggestion !== undefined) { error(accessExpression.argumentExpression, ts.Diagnostics.Property_0_does_not_exist_on_type_1_Did_you_mean_2, propName, typeToString(objectType), suggestion); } } else { var suggestion_1 = getSuggestionForNonexistentIndexSignature(objectType, accessExpression, indexType); if (suggestion_1 !== undefined) { error(accessExpression, ts.Diagnostics.Element_implicitly_has_an_any_type_because_type_0_has_no_index_signature_Did_you_mean_to_call_1, typeToString(objectType), suggestion_1); } else { var errorInfo = void 0; if (indexType.flags & 1024 /* EnumLiteral */) { errorInfo = ts.chainDiagnosticMessages(/* details */ undefined, ts.Diagnostics.Property_0_does_not_exist_on_type_1, "[" + typeToString(indexType) + "]", typeToString(objectType)); } else if (indexType.flags & 8192 /* UniqueESSymbol */) { var symbolName_2 = getFullyQualifiedName(indexType.symbol, accessExpression); errorInfo = ts.chainDiagnosticMessages(/* details */ undefined, ts.Diagnostics.Property_0_does_not_exist_on_type_1, "[" + symbolName_2 + "]", typeToString(objectType)); } else if (indexType.flags & 128 /* StringLiteral */) { errorInfo = ts.chainDiagnosticMessages(/* details */ undefined, ts.Diagnostics.Property_0_does_not_exist_on_type_1, indexType.value, typeToString(objectType)); } else if (indexType.flags & 256 /* NumberLiteral */) { errorInfo = ts.chainDiagnosticMessages(/* details */ undefined, ts.Diagnostics.Property_0_does_not_exist_on_type_1, indexType.value, typeToString(objectType)); } else if (indexType.flags & (8 /* Number */ | 4 /* String */)) { errorInfo = ts.chainDiagnosticMessages(/* details */ undefined, ts.Diagnostics.No_index_signature_with_a_parameter_of_type_0_was_found_on_type_1, typeToString(indexType), typeToString(objectType)); } errorInfo = ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Element_implicitly_has_an_any_type_because_expression_of_type_0_can_t_be_used_to_index_type_1, typeToString(fullIndexType), typeToString(objectType)); diagnostics.add(ts.createDiagnosticForNodeFromMessageChain(accessExpression, errorInfo)); } } } } return undefined; } } if (isJSLiteralType(objectType)) { return anyType; } if (accessNode) { var indexNode = getIndexNodeForAccessExpression(accessNode); if (indexType.flags & (128 /* StringLiteral */ | 256 /* NumberLiteral */)) { error(indexNode, ts.Diagnostics.Property_0_does_not_exist_on_type_1, "" + indexType.value, typeToString(objectType)); } else if (indexType.flags & (4 /* String */ | 8 /* Number */)) { error(indexNode, ts.Diagnostics.Type_0_has_no_matching_index_signature_for_type_1, typeToString(objectType), typeToString(indexType)); } else { error(indexNode, ts.Diagnostics.Type_0_cannot_be_used_as_an_index_type, typeToString(indexType)); } } if (isTypeAny(indexType)) { return indexType; } return undefined; function errorIfWritingToReadonlyIndex(indexInfo) { if (indexInfo && indexInfo.isReadonly && accessExpression && (ts.isAssignmentTarget(accessExpression) || ts.isDeleteTarget(accessExpression))) { error(accessExpression, ts.Diagnostics.Index_signature_in_type_0_only_permits_reading, typeToString(objectType)); } } } function getIndexNodeForAccessExpression(accessNode) { return accessNode.kind === 195 /* ElementAccessExpression */ ? accessNode.argumentExpression : accessNode.kind === 185 /* IndexedAccessType */ ? accessNode.indexType : accessNode.kind === 154 /* ComputedPropertyName */ ? accessNode.expression : accessNode; } function isGenericObjectType(type) { if (type.flags & 3145728 /* UnionOrIntersection */) { if (!(type.objectFlags & 4194304 /* IsGenericObjectTypeComputed */)) { type.objectFlags |= 4194304 /* IsGenericObjectTypeComputed */ | (ts.some(type.types, isGenericObjectType) ? 8388608 /* IsGenericObjectType */ : 0); } return !!(type.objectFlags & 8388608 /* IsGenericObjectType */); } return !!(type.flags & 58982400 /* InstantiableNonPrimitive */) || isGenericMappedType(type); } function isGenericIndexType(type) { if (type.flags & 3145728 /* UnionOrIntersection */) { if (!(type.objectFlags & 16777216 /* IsGenericIndexTypeComputed */)) { type.objectFlags |= 16777216 /* IsGenericIndexTypeComputed */ | (ts.some(type.types, isGenericIndexType) ? 33554432 /* IsGenericIndexType */ : 0); } return !!(type.objectFlags & 33554432 /* IsGenericIndexType */); } return !!(type.flags & (58982400 /* InstantiableNonPrimitive */ | 4194304 /* Index */)); } function isThisTypeParameter(type) { return !!(type.flags & 262144 /* TypeParameter */ && type.isThisType); } function getSimplifiedType(type, writing) { return type.flags & 8388608 /* IndexedAccess */ ? getSimplifiedIndexedAccessType(type, writing) : type.flags & 16777216 /* Conditional */ ? getSimplifiedConditionalType(type, writing) : type; } function distributeIndexOverObjectType(objectType, indexType, writing) { // (T | U)[K] -> T[K] | U[K] (reading) // (T | U)[K] -> T[K] & U[K] (writing) // (T & U)[K] -> T[K] & U[K] if (objectType.flags & 3145728 /* UnionOrIntersection */) { var types = ts.map(objectType.types, function (t) { return getSimplifiedType(getIndexedAccessType(t, indexType), writing); }); return objectType.flags & 2097152 /* Intersection */ || writing ? getIntersectionType(types) : getUnionType(types); } } function distributeObjectOverIndexType(objectType, indexType, writing) { // T[A | B] -> T[A] | T[B] (reading) // T[A | B] -> T[A] & T[B] (writing) if (indexType.flags & 1048576 /* Union */) { var types = ts.map(indexType.types, function (t) { return getSimplifiedType(getIndexedAccessType(objectType, t), writing); }); return writing ? getIntersectionType(types) : getUnionType(types); } } function unwrapSubstitution(type) { if (type.flags & 33554432 /* Substitution */) { return type.substitute; } return type; } // Transform an indexed access to a simpler form, if possible. Return the simpler form, or return // the type itself if no transformation is possible. The writing flag indicates that the type is // the target of an assignment. function getSimplifiedIndexedAccessType(type, writing) { var cache = writing ? "simplifiedForWriting" : "simplifiedForReading"; if (type[cache]) { return type[cache] === circularConstraintType ? type : type[cache]; } type[cache] = circularConstraintType; // We recursively simplify the object type as it may in turn be an indexed access type. For example, with // '{ [P in T]: { [Q in U]: number } }[T][U]' we want to first simplify the inner indexed access type. var objectType = unwrapSubstitution(getSimplifiedType(type.objectType, writing)); var indexType = getSimplifiedType(type.indexType, writing); // T[A | B] -> T[A] | T[B] (reading) // T[A | B] -> T[A] & T[B] (writing) var distributedOverIndex = distributeObjectOverIndexType(objectType, indexType, writing); if (distributedOverIndex) { return type[cache] = distributedOverIndex; } // Only do the inner distributions if the index can no longer be instantiated to cause index distribution again if (!(indexType.flags & 63176704 /* Instantiable */)) { // (T | U)[K] -> T[K] | U[K] (reading) // (T | U)[K] -> T[K] & U[K] (writing) // (T & U)[K] -> T[K] & U[K] var distributedOverObject = distributeIndexOverObjectType(objectType, indexType, writing); if (distributedOverObject) { return type[cache] = distributedOverObject; } } // So ultimately (reading): // ((A & B) | C)[K1 | K2] -> ((A & B) | C)[K1] | ((A & B) | C)[K2] -> (A & B)[K1] | C[K1] | (A & B)[K2] | C[K2] -> (A[K1] & B[K1]) | C[K1] | (A[K2] & B[K2]) | C[K2] // If the object type is a mapped type { [P in K]: E }, where K is generic, instantiate E using a mapper // that substitutes the index type for P. For example, for an index access { [P in K]: Box }[X], we // construct the type Box. if (isGenericMappedType(objectType)) { return type[cache] = mapType(substituteIndexedMappedType(objectType, type.indexType), function (t) { return getSimplifiedType(t, writing); }); } return type[cache] = type; } function getSimplifiedConditionalType(type, writing) { var checkType = type.checkType; var extendsType = type.extendsType; var trueType = getTrueTypeFromConditionalType(type); var falseType = getFalseTypeFromConditionalType(type); // Simplifications for types of the form `T extends U ? T : never` and `T extends U ? never : T`. if (falseType.flags & 131072 /* Never */ && getActualTypeVariable(trueType) === getActualTypeVariable(checkType)) { if (checkType.flags & 1 /* Any */ || isTypeAssignableTo(getRestrictiveInstantiation(checkType), getRestrictiveInstantiation(extendsType))) { // Always true return getSimplifiedType(trueType, writing); } else if (isIntersectionEmpty(checkType, extendsType)) { // Always false return neverType; } } else if (trueType.flags & 131072 /* Never */ && getActualTypeVariable(falseType) === getActualTypeVariable(checkType)) { if (!(checkType.flags & 1 /* Any */) && isTypeAssignableTo(getRestrictiveInstantiation(checkType), getRestrictiveInstantiation(extendsType))) { // Always true return neverType; } else if (checkType.flags & 1 /* Any */ || isIntersectionEmpty(checkType, extendsType)) { // Always false return getSimplifiedType(falseType, writing); } } return type; } /** * Invokes union simplification logic to determine if an intersection is considered empty as a union constituent */ function isIntersectionEmpty(type1, type2) { return !!(getUnionType([intersectTypes(type1, type2), neverType]).flags & 131072 /* Never */); } function substituteIndexedMappedType(objectType, index) { var mapper = createTypeMapper([getTypeParameterFromMappedType(objectType)], [index]); var templateMapper = combineTypeMappers(objectType.mapper, mapper); return instantiateType(getTemplateTypeFromMappedType(objectType), templateMapper); } function getIndexedAccessType(objectType, indexType, accessNode) { return getIndexedAccessTypeOrUndefined(objectType, indexType, accessNode, 0 /* None */) || (accessNode ? errorType : unknownType); } function getIndexedAccessTypeOrUndefined(objectType, indexType, accessNode, accessFlags) { if (accessFlags === void 0) { accessFlags = 0 /* None */; } if (objectType === wildcardType || indexType === wildcardType) { return wildcardType; } // If the object type has a string index signature and no other members we know that the result will // always be the type of that index signature and we can simplify accordingly. if (isStringIndexSignatureOnlyType(objectType) && !(indexType.flags & 98304 /* Nullable */) && isTypeAssignableToKind(indexType, 4 /* String */ | 8 /* Number */)) { indexType = stringType; } // If the index type is generic, or if the object type is generic and doesn't originate in an expression, // we are performing a higher-order index access where we cannot meaningfully access the properties of the // object type. Note that for a generic T and a non-generic K, we eagerly resolve T[K] if it originates in // an expression. This is to preserve backwards compatibility. For example, an element access 'this["foo"]' // has always been resolved eagerly using the constraint type of 'this' at the given location. if (isGenericIndexType(indexType) || !(accessNode && accessNode.kind !== 185 /* IndexedAccessType */) && isGenericObjectType(objectType)) { if (objectType.flags & 3 /* AnyOrUnknown */) { return objectType; } // Defer the operation by creating an indexed access type. var id = objectType.id + "," + indexType.id; var type = indexedAccessTypes.get(id); if (!type) { indexedAccessTypes.set(id, type = createIndexedAccessType(objectType, indexType)); } return type; } // In the following we resolve T[K] to the type of the property in T selected by K. // We treat boolean as different from other unions to improve errors; // skipping straight to getPropertyTypeForIndexType gives errors with 'boolean' instead of 'true'. var apparentObjectType = getApparentType(getReducedType(objectType)); if (indexType.flags & 1048576 /* Union */ && !(indexType.flags & 16 /* Boolean */)) { var propTypes = []; var wasMissingProp = false; for (var _i = 0, _a = indexType.types; _i < _a.length; _i++) { var t = _a[_i]; var propType = getPropertyTypeForIndexType(objectType, apparentObjectType, t, indexType, wasMissingProp, accessNode, accessFlags); if (propType) { propTypes.push(propType); } else if (!accessNode) { // If there's no error node, we can immeditely stop, since error reporting is off return undefined; } else { // Otherwise we set a flag and return at the end of the loop so we still mark all errors wasMissingProp = true; } } if (wasMissingProp) { return undefined; } return accessFlags & 2 /* Writing */ ? getIntersectionType(propTypes) : getUnionType(propTypes); } return getPropertyTypeForIndexType(objectType, apparentObjectType, indexType, indexType, /* supressNoImplicitAnyError */ false, accessNode, accessFlags | 4 /* CacheSymbol */); } function getTypeFromIndexedAccessTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { var objectType = getTypeFromTypeNode(node.objectType); var indexType = getTypeFromTypeNode(node.indexType); var resolved = getIndexedAccessType(objectType, indexType, node); links.resolvedType = resolved.flags & 8388608 /* IndexedAccess */ && resolved.objectType === objectType && resolved.indexType === indexType ? getConditionalFlowTypeOfType(resolved, node) : resolved; } return links.resolvedType; } function getTypeFromMappedTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { var type = createObjectType(32 /* Mapped */, node.symbol); type.declaration = node; type.aliasSymbol = getAliasSymbolForTypeNode(node); type.aliasTypeArguments = getTypeArgumentsForAliasSymbol(type.aliasSymbol); links.resolvedType = type; // Eagerly resolve the constraint type which forces an error if the constraint type circularly // references itself through one or more type aliases. getConstraintTypeFromMappedType(type); } return links.resolvedType; } function getActualTypeVariable(type) { if (type.flags & 33554432 /* Substitution */) { return type.baseType; } if (type.flags & 8388608 /* IndexedAccess */ && (type.objectType.flags & 33554432 /* Substitution */ || type.indexType.flags & 33554432 /* Substitution */)) { return getIndexedAccessType(getActualTypeVariable(type.objectType), getActualTypeVariable(type.indexType)); } return type; } function getConditionalType(root, mapper) { var result; var extraTypes; var _loop_12 = function () { var checkType = instantiateType(root.checkType, mapper); var checkTypeInstantiable = isGenericObjectType(checkType) || isGenericIndexType(checkType); var extendsType = instantiateType(root.extendsType, mapper); if (checkType === wildcardType || extendsType === wildcardType) { return { value: wildcardType }; } var combinedMapper = void 0; if (root.inferTypeParameters) { var context = createInferenceContext(root.inferTypeParameters, /*signature*/ undefined, 0 /* None */); // We skip inference of the possible `infer` types unles the `extendsType` _is_ an infer type // if it was, it's trivial to say that extendsType = checkType, however such a pattern is used to // "reset" the type being build up during constraint calculation and avoid making an apparently "infinite" constraint // so in those cases we refain from performing inference and retain the uninfered type parameter if (!checkTypeInstantiable || !ts.some(root.inferTypeParameters, function (t) { return t === extendsType; })) { // We don't want inferences from constraints as they may cause us to eagerly resolve the // conditional type instead of deferring resolution. Also, we always want strict function // types rules (i.e. proper contravariance) for inferences. inferTypes(context.inferences, checkType, extendsType, 128 /* NoConstraints */ | 256 /* AlwaysStrict */); } combinedMapper = mergeTypeMappers(mapper, context.mapper); } // Instantiate the extends type including inferences for 'infer T' type parameters var inferredExtendsType = combinedMapper ? instantiateType(root.extendsType, combinedMapper) : extendsType; // We attempt to resolve the conditional type only when the check and extends types are non-generic if (!checkTypeInstantiable && !isGenericObjectType(inferredExtendsType) && !isGenericIndexType(inferredExtendsType)) { // Return falseType for a definitely false extends check. We check an instantiations of the two // types with type parameters mapped to the wildcard type, the most permissive instantiations // possible (the wildcard type is assignable to and from all types). If those are not related, // then no instantiations will be and we can just return the false branch type. if (!(inferredExtendsType.flags & 3 /* AnyOrUnknown */) && (checkType.flags & 1 /* Any */ || !isTypeAssignableTo(getPermissiveInstantiation(checkType), getPermissiveInstantiation(inferredExtendsType)))) { // Return union of trueType and falseType for 'any' since it matches anything if (checkType.flags & 1 /* Any */) { (extraTypes || (extraTypes = [])).push(instantiateTypeWithoutDepthIncrease(root.trueType, combinedMapper || mapper)); } // If falseType is an immediately nested conditional type that isn't distributive or has an // identical checkType, switch to that type and loop. var falseType_1 = root.falseType; if (falseType_1.flags & 16777216 /* Conditional */) { var newRoot = falseType_1.root; if (newRoot.node.parent === root.node && (!newRoot.isDistributive || newRoot.checkType === root.checkType)) { root = newRoot; return "continue"; } } result = instantiateTypeWithoutDepthIncrease(falseType_1, mapper); return "break"; } // Return trueType for a definitely true extends check. We check instantiations of the two // types with type parameters mapped to their restrictive form, i.e. a form of the type parameter // that has no constraint. This ensures that, for example, the type // type Foo = T extends { x: string } ? string : number // doesn't immediately resolve to 'string' instead of being deferred. if (inferredExtendsType.flags & 3 /* AnyOrUnknown */ || isTypeAssignableTo(getRestrictiveInstantiation(checkType), getRestrictiveInstantiation(inferredExtendsType))) { result = instantiateTypeWithoutDepthIncrease(root.trueType, combinedMapper || mapper); return "break"; } } // Return a deferred type for a check that is neither definitely true nor definitely false var erasedCheckType = getActualTypeVariable(checkType); result = createType(16777216 /* Conditional */); result.root = root; result.checkType = erasedCheckType; result.extendsType = extendsType; result.mapper = mapper; result.combinedMapper = combinedMapper; result.aliasSymbol = root.aliasSymbol; result.aliasTypeArguments = instantiateTypes(root.aliasTypeArguments, mapper); // TODO: GH#18217 return "break"; }; // We loop here for an immediately nested conditional type in the false position, effectively treating // types of the form 'A extends B ? X : C extends D ? Y : E extends F ? Z : ...' as a single construct for // purposes of resolution. This means such types aren't subject to the instatiation depth limiter. while (true) { var state_4 = _loop_12(); if (typeof state_4 === "object") return state_4.value; if (state_4 === "break") break; } return extraTypes ? getUnionType(ts.append(extraTypes, result)) : result; } function getTrueTypeFromConditionalType(type) { return type.resolvedTrueType || (type.resolvedTrueType = instantiateType(type.root.trueType, type.mapper)); } function getFalseTypeFromConditionalType(type) { return type.resolvedFalseType || (type.resolvedFalseType = instantiateType(type.root.falseType, type.mapper)); } function getInferredTrueTypeFromConditionalType(type) { return type.resolvedInferredTrueType || (type.resolvedInferredTrueType = type.combinedMapper ? instantiateType(type.root.trueType, type.combinedMapper) : getTrueTypeFromConditionalType(type)); } function getInferTypeParameters(node) { var result; if (node.locals) { node.locals.forEach(function (symbol) { if (symbol.flags & 262144 /* TypeParameter */) { result = ts.append(result, getDeclaredTypeOfSymbol(symbol)); } }); } return result; } function getTypeFromConditionalTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { var checkType = getTypeFromTypeNode(node.checkType); var aliasSymbol = getAliasSymbolForTypeNode(node); var aliasTypeArguments = getTypeArgumentsForAliasSymbol(aliasSymbol); var allOuterTypeParameters = getOuterTypeParameters(node, /*includeThisTypes*/ true); var outerTypeParameters = aliasTypeArguments ? allOuterTypeParameters : ts.filter(allOuterTypeParameters, function (tp) { return isTypeParameterPossiblyReferenced(tp, node); }); var root = { node: node, checkType: checkType, extendsType: getTypeFromTypeNode(node.extendsType), trueType: getTypeFromTypeNode(node.trueType), falseType: getTypeFromTypeNode(node.falseType), isDistributive: !!(checkType.flags & 262144 /* TypeParameter */), inferTypeParameters: getInferTypeParameters(node), outerTypeParameters: outerTypeParameters, instantiations: undefined, aliasSymbol: aliasSymbol, aliasTypeArguments: aliasTypeArguments }; links.resolvedType = getConditionalType(root, /*mapper*/ undefined); if (outerTypeParameters) { root.instantiations = ts.createMap(); root.instantiations.set(getTypeListId(outerTypeParameters), links.resolvedType); } } return links.resolvedType; } function getTypeFromInferTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { links.resolvedType = getDeclaredTypeOfTypeParameter(getSymbolOfNode(node.typeParameter)); } return links.resolvedType; } function getIdentifierChain(node) { if (ts.isIdentifier(node)) { return [node]; } else { return ts.append(getIdentifierChain(node.left), node.right); } } function getTypeFromImportTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { if (node.isTypeOf && node.typeArguments) { // Only the non-typeof form can make use of type arguments error(node, ts.Diagnostics.Type_arguments_cannot_be_used_here); links.resolvedSymbol = unknownSymbol; return links.resolvedType = errorType; } if (!ts.isLiteralImportTypeNode(node)) { error(node.argument, ts.Diagnostics.String_literal_expected); links.resolvedSymbol = unknownSymbol; return links.resolvedType = errorType; } var targetMeaning = node.isTypeOf ? 111551 /* Value */ : node.flags & 4194304 /* JSDoc */ ? 111551 /* Value */ | 788968 /* Type */ : 788968 /* Type */; // TODO: Future work: support unions/generics/whatever via a deferred import-type var innerModuleSymbol = resolveExternalModuleName(node, node.argument.literal); if (!innerModuleSymbol) { links.resolvedSymbol = unknownSymbol; return links.resolvedType = errorType; } var moduleSymbol = resolveExternalModuleSymbol(innerModuleSymbol, /*dontResolveAlias*/ false); if (!ts.nodeIsMissing(node.qualifier)) { var nameStack = getIdentifierChain(node.qualifier); var currentNamespace = moduleSymbol; var current = void 0; while (current = nameStack.shift()) { var meaning = nameStack.length ? 1920 /* Namespace */ : targetMeaning; var next = getSymbol(getExportsOfSymbol(getMergedSymbol(resolveSymbol(currentNamespace))), current.escapedText, meaning); if (!next) { error(current, ts.Diagnostics.Namespace_0_has_no_exported_member_1, getFullyQualifiedName(currentNamespace), ts.declarationNameToString(current)); return links.resolvedType = errorType; } getNodeLinks(current).resolvedSymbol = next; getNodeLinks(current.parent).resolvedSymbol = next; currentNamespace = next; } links.resolvedType = resolveImportSymbolType(node, links, currentNamespace, targetMeaning); } else { if (moduleSymbol.flags & targetMeaning) { links.resolvedType = resolveImportSymbolType(node, links, moduleSymbol, targetMeaning); } else { var errorMessage = targetMeaning === 111551 /* Value */ ? ts.Diagnostics.Module_0_does_not_refer_to_a_value_but_is_used_as_a_value_here : ts.Diagnostics.Module_0_does_not_refer_to_a_type_but_is_used_as_a_type_here_Did_you_mean_typeof_import_0; error(node, errorMessage, node.argument.literal.text); links.resolvedSymbol = unknownSymbol; links.resolvedType = errorType; } } } return links.resolvedType; } function resolveImportSymbolType(node, links, symbol, meaning) { var resolvedSymbol = resolveSymbol(symbol); links.resolvedSymbol = resolvedSymbol; if (meaning === 111551 /* Value */) { return getTypeOfSymbol(symbol); // intentionally doesn't use resolved symbol so type is cached as expected on the alias } else { return getTypeReferenceType(node, resolvedSymbol); // getTypeReferenceType doesn't handle aliases - it must get the resolved symbol } } function getTypeFromTypeLiteralOrFunctionOrConstructorTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { // Deferred resolution of members is handled by resolveObjectTypeMembers var aliasSymbol = getAliasSymbolForTypeNode(node); if (getMembersOfSymbol(node.symbol).size === 0 && !aliasSymbol) { links.resolvedType = emptyTypeLiteralType; } else { var type = createObjectType(16 /* Anonymous */, node.symbol); type.aliasSymbol = aliasSymbol; type.aliasTypeArguments = getTypeArgumentsForAliasSymbol(aliasSymbol); if (ts.isJSDocTypeLiteral(node) && node.isArrayType) { type = createArrayType(type); } links.resolvedType = type; } } return links.resolvedType; } function getAliasSymbolForTypeNode(node) { var host = node.parent; while (ts.isParenthesizedTypeNode(host) || ts.isTypeOperatorNode(host) && host.operator === 138 /* ReadonlyKeyword */) { host = host.parent; } return ts.isTypeAlias(host) ? getSymbolOfNode(host) : undefined; } function getTypeArgumentsForAliasSymbol(symbol) { return symbol ? getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(symbol) : undefined; } function isNonGenericObjectType(type) { return !!(type.flags & 524288 /* Object */) && !isGenericMappedType(type); } function isEmptyObjectTypeOrSpreadsIntoEmptyObject(type) { return isEmptyObjectType(type) || !!(type.flags & (65536 /* Null */ | 32768 /* Undefined */ | 528 /* BooleanLike */ | 296 /* NumberLike */ | 2112 /* BigIntLike */ | 132 /* StringLike */ | 1056 /* EnumLike */ | 67108864 /* NonPrimitive */ | 4194304 /* Index */)); } function isSinglePropertyAnonymousObjectType(type) { return !!(type.flags & 524288 /* Object */) && !!(ts.getObjectFlags(type) & 16 /* Anonymous */) && (ts.length(getPropertiesOfType(type)) === 1 || ts.every(getPropertiesOfType(type), function (p) { return !!(p.flags & 16777216 /* Optional */); })); } function tryMergeUnionOfObjectTypeAndEmptyObject(type, readonly) { if (type.types.length === 2) { var firstType = type.types[0]; var secondType = type.types[1]; if (ts.every(type.types, isEmptyObjectTypeOrSpreadsIntoEmptyObject)) { return isEmptyObjectType(firstType) ? firstType : isEmptyObjectType(secondType) ? secondType : emptyObjectType; } if (isEmptyObjectTypeOrSpreadsIntoEmptyObject(firstType) && isSinglePropertyAnonymousObjectType(secondType)) { return getAnonymousPartialType(secondType); } if (isEmptyObjectTypeOrSpreadsIntoEmptyObject(secondType) && isSinglePropertyAnonymousObjectType(firstType)) { return getAnonymousPartialType(firstType); } } function getAnonymousPartialType(type) { // gets the type as if it had been spread, but where everything in the spread is made optional var members = ts.createSymbolTable(); for (var _i = 0, _a = getPropertiesOfType(type); _i < _a.length; _i++) { var prop = _a[_i]; if (ts.getDeclarationModifierFlagsFromSymbol(prop) & (8 /* Private */ | 16 /* Protected */)) { // do nothing, skip privates } else if (isSpreadableProperty(prop)) { var isSetonlyAccessor = prop.flags & 65536 /* SetAccessor */ && !(prop.flags & 32768 /* GetAccessor */); var flags = 4 /* Property */ | 16777216 /* Optional */; var result = createSymbol(flags, prop.escapedName, readonly ? 8 /* Readonly */ : 0); result.type = isSetonlyAccessor ? undefinedType : getTypeOfSymbol(prop); result.declarations = prop.declarations; result.nameType = getSymbolLinks(prop).nameType; result.syntheticOrigin = prop; members.set(prop.escapedName, result); } } var spread = createAnonymousType(type.symbol, members, ts.emptyArray, ts.emptyArray, getIndexInfoOfType(type, 0 /* String */), getIndexInfoOfType(type, 1 /* Number */)); spread.objectFlags |= 128 /* ObjectLiteral */ | 1048576 /* ContainsObjectOrArrayLiteral */; return spread; } } /** * Since the source of spread types are object literals, which are not binary, * this function should be called in a left folding style, with left = previous result of getSpreadType * and right = the new element to be spread. */ function getSpreadType(left, right, symbol, objectFlags, readonly) { if (left.flags & 1 /* Any */ || right.flags & 1 /* Any */) { return anyType; } if (left.flags & 2 /* Unknown */ || right.flags & 2 /* Unknown */) { return unknownType; } if (left.flags & 131072 /* Never */) { return right; } if (right.flags & 131072 /* Never */) { return left; } if (left.flags & 1048576 /* Union */) { var merged = tryMergeUnionOfObjectTypeAndEmptyObject(left, readonly); if (merged) { return getSpreadType(merged, right, symbol, objectFlags, readonly); } return mapType(left, function (t) { return getSpreadType(t, right, symbol, objectFlags, readonly); }); } if (right.flags & 1048576 /* Union */) { var merged = tryMergeUnionOfObjectTypeAndEmptyObject(right, readonly); if (merged) { return getSpreadType(left, merged, symbol, objectFlags, readonly); } return mapType(right, function (t) { return getSpreadType(left, t, symbol, objectFlags, readonly); }); } if (right.flags & (528 /* BooleanLike */ | 296 /* NumberLike */ | 2112 /* BigIntLike */ | 132 /* StringLike */ | 1056 /* EnumLike */ | 67108864 /* NonPrimitive */ | 4194304 /* Index */)) { return left; } if (isGenericObjectType(left) || isGenericObjectType(right)) { if (isEmptyObjectType(left)) { return right; } // When the left type is an intersection, we may need to merge the last constituent of the // intersection with the right type. For example when the left type is 'T & { a: string }' // and the right type is '{ b: string }' we produce 'T & { a: string, b: string }'. if (left.flags & 2097152 /* Intersection */) { var types = left.types; var lastLeft = types[types.length - 1]; if (isNonGenericObjectType(lastLeft) && isNonGenericObjectType(right)) { return getIntersectionType(ts.concatenate(types.slice(0, types.length - 1), [getSpreadType(lastLeft, right, symbol, objectFlags, readonly)])); } } return getIntersectionType([left, right]); } var members = ts.createSymbolTable(); var skippedPrivateMembers = ts.createUnderscoreEscapedMap(); var stringIndexInfo; var numberIndexInfo; if (left === emptyObjectType) { // for the first spread element, left === emptyObjectType, so take the right's string indexer stringIndexInfo = getIndexInfoOfType(right, 0 /* String */); numberIndexInfo = getIndexInfoOfType(right, 1 /* Number */); } else { stringIndexInfo = unionSpreadIndexInfos(getIndexInfoOfType(left, 0 /* String */), getIndexInfoOfType(right, 0 /* String */)); numberIndexInfo = unionSpreadIndexInfos(getIndexInfoOfType(left, 1 /* Number */), getIndexInfoOfType(right, 1 /* Number */)); } for (var _i = 0, _a = getPropertiesOfType(right); _i < _a.length; _i++) { var rightProp = _a[_i]; if (ts.getDeclarationModifierFlagsFromSymbol(rightProp) & (8 /* Private */ | 16 /* Protected */)) { skippedPrivateMembers.set(rightProp.escapedName, true); } else if (isSpreadableProperty(rightProp)) { members.set(rightProp.escapedName, getSpreadSymbol(rightProp, readonly)); } } for (var _b = 0, _c = getPropertiesOfType(left); _b < _c.length; _b++) { var leftProp = _c[_b]; if (skippedPrivateMembers.has(leftProp.escapedName) || !isSpreadableProperty(leftProp)) { continue; } if (members.has(leftProp.escapedName)) { var rightProp = members.get(leftProp.escapedName); var rightType = getTypeOfSymbol(rightProp); if (rightProp.flags & 16777216 /* Optional */) { var declarations = ts.concatenate(leftProp.declarations, rightProp.declarations); var flags = 4 /* Property */ | (leftProp.flags & 16777216 /* Optional */); var result = createSymbol(flags, leftProp.escapedName); result.type = getUnionType([getTypeOfSymbol(leftProp), getTypeWithFacts(rightType, 524288 /* NEUndefined */)]); result.leftSpread = leftProp; result.rightSpread = rightProp; result.declarations = declarations; result.nameType = getSymbolLinks(leftProp).nameType; members.set(leftProp.escapedName, result); } } else { members.set(leftProp.escapedName, getSpreadSymbol(leftProp, readonly)); } } var spread = createAnonymousType(symbol, members, ts.emptyArray, ts.emptyArray, getIndexInfoWithReadonly(stringIndexInfo, readonly), getIndexInfoWithReadonly(numberIndexInfo, readonly)); spread.objectFlags |= 128 /* ObjectLiteral */ | 1048576 /* ContainsObjectOrArrayLiteral */ | 1024 /* ContainsSpread */ | objectFlags; return spread; } /** We approximate own properties as non-methods plus methods that are inside the object literal */ function isSpreadableProperty(prop) { return !ts.some(prop.declarations, ts.isPrivateIdentifierPropertyDeclaration) && (!(prop.flags & (8192 /* Method */ | 32768 /* GetAccessor */ | 65536 /* SetAccessor */)) || !prop.declarations.some(function (decl) { return ts.isClassLike(decl.parent); })); } function getSpreadSymbol(prop, readonly) { var isSetonlyAccessor = prop.flags & 65536 /* SetAccessor */ && !(prop.flags & 32768 /* GetAccessor */); if (!isSetonlyAccessor && readonly === isReadonlySymbol(prop)) { return prop; } var flags = 4 /* Property */ | (prop.flags & 16777216 /* Optional */); var result = createSymbol(flags, prop.escapedName, readonly ? 8 /* Readonly */ : 0); result.type = isSetonlyAccessor ? undefinedType : getTypeOfSymbol(prop); result.declarations = prop.declarations; result.nameType = getSymbolLinks(prop).nameType; result.syntheticOrigin = prop; return result; } function getIndexInfoWithReadonly(info, readonly) { return info && info.isReadonly !== readonly ? createIndexInfo(info.type, readonly, info.declaration) : info; } function createLiteralType(flags, value, symbol) { var type = createType(flags); type.symbol = symbol; type.value = value; return type; } function getFreshTypeOfLiteralType(type) { if (type.flags & 2944 /* Literal */) { if (!type.freshType) { var freshType = createLiteralType(type.flags, type.value, type.symbol); freshType.regularType = type; freshType.freshType = freshType; type.freshType = freshType; } return type.freshType; } return type; } function getRegularTypeOfLiteralType(type) { return type.flags & 2944 /* Literal */ ? type.regularType : type.flags & 1048576 /* Union */ ? (type.regularType || (type.regularType = getUnionType(ts.sameMap(type.types, getRegularTypeOfLiteralType)))) : type; } function isFreshLiteralType(type) { return !!(type.flags & 2944 /* Literal */) && type.freshType === type; } function getLiteralType(value, enumId, symbol) { // We store all literal types in a single map with keys of the form '#NNN' and '@SSS', // where NNN is the text representation of a numeric literal and SSS are the characters // of a string literal. For literal enum members we use 'EEE#NNN' and 'EEE@SSS', where // EEE is a unique id for the containing enum type. var qualifier = typeof value === "number" ? "#" : typeof value === "string" ? "@" : "n"; var key = (enumId ? enumId : "") + qualifier + (typeof value === "object" ? ts.pseudoBigIntToString(value) : value); var type = literalTypes.get(key); if (!type) { var flags = (typeof value === "number" ? 256 /* NumberLiteral */ : typeof value === "string" ? 128 /* StringLiteral */ : 2048 /* BigIntLiteral */) | (enumId ? 1024 /* EnumLiteral */ : 0); literalTypes.set(key, type = createLiteralType(flags, value, symbol)); type.regularType = type; } return type; } function getTypeFromLiteralTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { links.resolvedType = getRegularTypeOfLiteralType(checkExpression(node.literal)); } return links.resolvedType; } function createUniqueESSymbolType(symbol) { var type = createType(8192 /* UniqueESSymbol */); type.symbol = symbol; type.escapedName = "__@" + type.symbol.escapedName + "@" + getSymbolId(type.symbol); return type; } function getESSymbolLikeTypeForNode(node) { if (ts.isValidESSymbolDeclaration(node)) { var symbol = getSymbolOfNode(node); var links = getSymbolLinks(symbol); return links.uniqueESSymbolType || (links.uniqueESSymbolType = createUniqueESSymbolType(symbol)); } return esSymbolType; } function getThisType(node) { var container = ts.getThisContainer(node, /*includeArrowFunctions*/ false); var parent = container && container.parent; if (parent && (ts.isClassLike(parent) || parent.kind === 246 /* InterfaceDeclaration */)) { if (!ts.hasModifier(container, 32 /* Static */) && (!ts.isConstructorDeclaration(container) || ts.isNodeDescendantOf(node, container.body))) { return getDeclaredTypeOfClassOrInterface(getSymbolOfNode(parent)).thisType; } } // inside x.prototype = { ... } if (parent && ts.isObjectLiteralExpression(parent) && ts.isBinaryExpression(parent.parent) && ts.getAssignmentDeclarationKind(parent.parent) === 6 /* Prototype */) { return getDeclaredTypeOfClassOrInterface(getSymbolOfNode(parent.parent.left).parent).thisType; } // /** @return {this} */ // x.prototype.m = function() { ... } var host = node.flags & 4194304 /* JSDoc */ ? ts.getHostSignatureFromJSDoc(node) : undefined; if (host && ts.isFunctionExpression(host) && ts.isBinaryExpression(host.parent) && ts.getAssignmentDeclarationKind(host.parent) === 3 /* PrototypeProperty */) { return getDeclaredTypeOfClassOrInterface(getSymbolOfNode(host.parent.left).parent).thisType; } // inside constructor function C() { ... } if (isJSConstructor(container) && ts.isNodeDescendantOf(node, container.body)) { return getDeclaredTypeOfClassOrInterface(getSymbolOfNode(container)).thisType; } error(node, ts.Diagnostics.A_this_type_is_available_only_in_a_non_static_member_of_a_class_or_interface); return errorType; } function getTypeFromThisTypeNode(node) { var links = getNodeLinks(node); if (!links.resolvedType) { links.resolvedType = getThisType(node); } return links.resolvedType; } function getTypeFromTypeNode(node) { return getConditionalFlowTypeOfType(getTypeFromTypeNodeWorker(node), node); } function getTypeFromTypeNodeWorker(node) { switch (node.kind) { case 125 /* AnyKeyword */: case 295 /* JSDocAllType */: case 296 /* JSDocUnknownType */: return anyType; case 148 /* UnknownKeyword */: return unknownType; case 143 /* StringKeyword */: return stringType; case 140 /* NumberKeyword */: return numberType; case 151 /* BigIntKeyword */: return bigintType; case 128 /* BooleanKeyword */: return booleanType; case 144 /* SymbolKeyword */: return esSymbolType; case 110 /* VoidKeyword */: return voidType; case 146 /* UndefinedKeyword */: return undefinedType; case 100 /* NullKeyword */: return nullType; case 137 /* NeverKeyword */: return neverType; case 141 /* ObjectKeyword */: return node.flags & 131072 /* JavaScriptFile */ && !noImplicitAny ? anyType : nonPrimitiveType; case 183 /* ThisType */: case 104 /* ThisKeyword */: return getTypeFromThisTypeNode(node); case 187 /* LiteralType */: return getTypeFromLiteralTypeNode(node); case 169 /* TypeReference */: return getTypeFromTypeReference(node); case 168 /* TypePredicate */: return node.assertsModifier ? voidType : booleanType; case 216 /* ExpressionWithTypeArguments */: return getTypeFromTypeReference(node); case 172 /* TypeQuery */: return getTypeFromTypeQueryNode(node); case 174 /* ArrayType */: case 175 /* TupleType */: return getTypeFromArrayOrTupleTypeNode(node); case 176 /* OptionalType */: return getTypeFromOptionalTypeNode(node); case 178 /* UnionType */: return getTypeFromUnionTypeNode(node); case 179 /* IntersectionType */: return getTypeFromIntersectionTypeNode(node); case 297 /* JSDocNullableType */: return getTypeFromJSDocNullableTypeNode(node); case 299 /* JSDocOptionalType */: return addOptionality(getTypeFromTypeNode(node.type)); case 182 /* ParenthesizedType */: case 298 /* JSDocNonNullableType */: case 294 /* JSDocTypeExpression */: return getTypeFromTypeNode(node.type); case 177 /* RestType */: return getElementTypeOfArrayType(getTypeFromTypeNode(node.type)) || errorType; case 301 /* JSDocVariadicType */: return getTypeFromJSDocVariadicType(node); case 170 /* FunctionType */: case 171 /* ConstructorType */: case 173 /* TypeLiteral */: case 304 /* JSDocTypeLiteral */: case 300 /* JSDocFunctionType */: case 305 /* JSDocSignature */: return getTypeFromTypeLiteralOrFunctionOrConstructorTypeNode(node); case 184 /* TypeOperator */: return getTypeFromTypeOperatorNode(node); case 185 /* IndexedAccessType */: return getTypeFromIndexedAccessTypeNode(node); case 186 /* MappedType */: return getTypeFromMappedTypeNode(node); case 180 /* ConditionalType */: return getTypeFromConditionalTypeNode(node); case 181 /* InferType */: return getTypeFromInferTypeNode(node); case 188 /* ImportType */: return getTypeFromImportTypeNode(node); // This function assumes that an identifier or qualified name is a type expression // Callers should first ensure this by calling isTypeNode case 75 /* Identifier */: case 153 /* QualifiedName */: var symbol = getSymbolAtLocation(node); return symbol ? getDeclaredTypeOfSymbol(symbol) : errorType; default: return errorType; } } function instantiateList(items, mapper, instantiator) { if (items && items.length) { for (var i = 0; i < items.length; i++) { var item = items[i]; var mapped = instantiator(item, mapper); if (item !== mapped) { var result = i === 0 ? [] : items.slice(0, i); result.push(mapped); for (i++; i < items.length; i++) { result.push(instantiator(items[i], mapper)); } return result; } } } return items; } function instantiateTypes(types, mapper) { return instantiateList(types, mapper, instantiateType); } function instantiateSignatures(signatures, mapper) { return instantiateList(signatures, mapper, instantiateSignature); } function createTypeMapper(sources, targets) { return sources.length === 1 ? makeUnaryTypeMapper(sources[0], targets ? targets[0] : anyType) : makeArrayTypeMapper(sources, targets); } function getMappedType(type, mapper) { switch (mapper.kind) { case 0 /* Simple */: return type === mapper.source ? mapper.target : type; case 1 /* Array */: var sources = mapper.sources; var targets = mapper.targets; for (var i = 0; i < sources.length; i++) { if (type === sources[i]) { return targets ? targets[i] : anyType; } } return type; case 2 /* Function */: return mapper.func(type); case 3 /* Composite */: case 4 /* Merged */: var t1 = getMappedType(type, mapper.mapper1); return t1 !== type && mapper.kind === 3 /* Composite */ ? instantiateType(t1, mapper.mapper2) : getMappedType(t1, mapper.mapper2); } } function makeUnaryTypeMapper(source, target) { return { kind: 0 /* Simple */, source: source, target: target }; } function makeArrayTypeMapper(sources, targets) { return { kind: 1 /* Array */, sources: sources, targets: targets }; } function makeFunctionTypeMapper(func) { return { kind: 2 /* Function */, func: func }; } function makeCompositeTypeMapper(kind, mapper1, mapper2) { return { kind: kind, mapper1: mapper1, mapper2: mapper2 }; } function createTypeEraser(sources) { return createTypeMapper(sources, /*targets*/ undefined); } /** * Maps forward-references to later types parameters to the empty object type. * This is used during inference when instantiating type parameter defaults. */ function createBackreferenceMapper(context, index) { return makeFunctionTypeMapper(function (t) { return ts.findIndex(context.inferences, function (info) { return info.typeParameter === t; }) >= index ? unknownType : t; }); } function combineTypeMappers(mapper1, mapper2) { return mapper1 ? makeCompositeTypeMapper(3 /* Composite */, mapper1, mapper2) : mapper2; } function mergeTypeMappers(mapper1, mapper2) { return mapper1 ? makeCompositeTypeMapper(4 /* Merged */, mapper1, mapper2) : mapper2; } function prependTypeMapping(source, target, mapper) { return !mapper ? makeUnaryTypeMapper(source, target) : makeCompositeTypeMapper(4 /* Merged */, makeUnaryTypeMapper(source, target), mapper); } function appendTypeMapping(mapper, source, target) { return !mapper ? makeUnaryTypeMapper(source, target) : makeCompositeTypeMapper(4 /* Merged */, mapper, makeUnaryTypeMapper(source, target)); } function getRestrictiveTypeParameter(tp) { return tp.constraint === unknownType ? tp : tp.restrictiveInstantiation || (tp.restrictiveInstantiation = createTypeParameter(tp.symbol), tp.restrictiveInstantiation.constraint = unknownType, tp.restrictiveInstantiation); } function cloneTypeParameter(typeParameter) { var result = createTypeParameter(typeParameter.symbol); result.target = typeParameter; return result; } function instantiateTypePredicate(predicate, mapper) { return createTypePredicate(predicate.kind, predicate.parameterName, predicate.parameterIndex, instantiateType(predicate.type, mapper)); } function instantiateSignature(signature, mapper, eraseTypeParameters) { var freshTypeParameters; if (signature.typeParameters && !eraseTypeParameters) { // First create a fresh set of type parameters, then include a mapping from the old to the // new type parameters in the mapper function. Finally store this mapper in the new type // parameters such that we can use it when instantiating constraints. freshTypeParameters = ts.map(signature.typeParameters, cloneTypeParameter); mapper = combineTypeMappers(createTypeMapper(signature.typeParameters, freshTypeParameters), mapper); for (var _i = 0, freshTypeParameters_1 = freshTypeParameters; _i < freshTypeParameters_1.length; _i++) { var tp = freshTypeParameters_1[_i]; tp.mapper = mapper; } } // Don't compute resolvedReturnType and resolvedTypePredicate now, // because using `mapper` now could trigger inferences to become fixed. (See `createInferenceContext`.) // See GH#17600. var result = createSignature(signature.declaration, freshTypeParameters, signature.thisParameter && instantiateSymbol(signature.thisParameter, mapper), instantiateList(signature.parameters, mapper, instantiateSymbol), /*resolvedReturnType*/ undefined, /*resolvedTypePredicate*/ undefined, signature.minArgumentCount, signature.flags & 3 /* PropagatingFlags */); result.target = signature; result.mapper = mapper; return result; } function instantiateSymbol(symbol, mapper) { var links = getSymbolLinks(symbol); if (links.type && !couldContainTypeVariables(links.type)) { // If the type of the symbol is already resolved, and if that type could not possibly // be affected by instantiation, simply return the symbol itself. return symbol; } if (ts.getCheckFlags(symbol) & 1 /* Instantiated */) { // If symbol being instantiated is itself a instantiation, fetch the original target and combine the // type mappers. This ensures that original type identities are properly preserved and that aliases // always reference a non-aliases. symbol = links.target; mapper = combineTypeMappers(links.mapper, mapper); } // Keep the flags from the symbol we're instantiating. Mark that is instantiated, and // also transient so that we can just store data on it directly. var result = createSymbol(symbol.flags, symbol.escapedName, 1 /* Instantiated */ | ts.getCheckFlags(symbol) & (8 /* Readonly */ | 4096 /* Late */ | 16384 /* OptionalParameter */ | 32768 /* RestParameter */)); result.declarations = symbol.declarations; result.parent = symbol.parent; result.target = symbol; result.mapper = mapper; if (symbol.valueDeclaration) { result.valueDeclaration = symbol.valueDeclaration; } if (links.nameType) { result.nameType = links.nameType; } return result; } function getObjectTypeInstantiation(type, mapper) { var target = type.objectFlags & 64 /* Instantiated */ ? type.target : type; var node = type.objectFlags & 4 /* Reference */ ? type.node : type.symbol.declarations[0]; var links = getNodeLinks(node); var typeParameters = links.outerTypeParameters; if (!typeParameters) { // The first time an anonymous type is instantiated we compute and store a list of the type // parameters that are in scope (and therefore potentially referenced). For type literals that // aren't the right hand side of a generic type alias declaration we optimize by reducing the // set of type parameters to those that are possibly referenced in the literal. var declaration_1 = node; if (ts.isInJSFile(declaration_1)) { var paramTag = ts.findAncestor(declaration_1, ts.isJSDocParameterTag); if (paramTag) { var paramSymbol = ts.getParameterSymbolFromJSDoc(paramTag); if (paramSymbol) { declaration_1 = paramSymbol.valueDeclaration; } } } var outerTypeParameters = getOuterTypeParameters(declaration_1, /*includeThisTypes*/ true); if (isJSConstructor(declaration_1)) { var templateTagParameters = getTypeParametersFromDeclaration(declaration_1); outerTypeParameters = ts.addRange(outerTypeParameters, templateTagParameters); } typeParameters = outerTypeParameters || ts.emptyArray; typeParameters = (target.objectFlags & 4 /* Reference */ || target.symbol.flags & 2048 /* TypeLiteral */) && !target.aliasTypeArguments ? ts.filter(typeParameters, function (tp) { return isTypeParameterPossiblyReferenced(tp, declaration_1); }) : typeParameters; links.outerTypeParameters = typeParameters; if (typeParameters.length) { links.instantiations = ts.createMap(); links.instantiations.set(getTypeListId(typeParameters), target); } } if (typeParameters.length) { // We are instantiating an anonymous type that has one or more type parameters in scope. Apply the // mapper to the type parameters to produce the effective list of type arguments, and compute the // instantiation cache key from the type IDs of the type arguments. var combinedMapper_1 = combineTypeMappers(type.mapper, mapper); var typeArguments = ts.map(typeParameters, function (t) { return getMappedType(t, combinedMapper_1); }); var id = getTypeListId(typeArguments); var result = links.instantiations.get(id); if (!result) { var newMapper = createTypeMapper(typeParameters, typeArguments); result = target.objectFlags & 4 /* Reference */ ? createDeferredTypeReference(type.target, type.node, newMapper) : target.objectFlags & 32 /* Mapped */ ? instantiateMappedType(target, newMapper) : instantiateAnonymousType(target, newMapper); links.instantiations.set(id, result); } return result; } return type; } function maybeTypeParameterReference(node) { return !(node.kind === 153 /* QualifiedName */ || node.parent.kind === 169 /* TypeReference */ && node.parent.typeArguments && node === node.parent.typeName || node.parent.kind === 188 /* ImportType */ && node.parent.typeArguments && node === node.parent.qualifier); } function isTypeParameterPossiblyReferenced(tp, node) { // If the type parameter doesn't have exactly one declaration, if there are invening statement blocks // between the node and the type parameter declaration, if the node contains actual references to the // type parameter, or if the node contains type queries, we consider the type parameter possibly referenced. if (tp.symbol && tp.symbol.declarations && tp.symbol.declarations.length === 1) { var container = tp.symbol.declarations[0].parent; for (var n = node; n !== container; n = n.parent) { if (!n || n.kind === 223 /* Block */ || n.kind === 180 /* ConditionalType */ && ts.forEachChild(n.extendsType, containsReference)) { return true; } } return !!ts.forEachChild(node, containsReference); } return true; function containsReference(node) { switch (node.kind) { case 183 /* ThisType */: return !!tp.isThisType; case 75 /* Identifier */: return !tp.isThisType && ts.isPartOfTypeNode(node) && maybeTypeParameterReference(node) && getTypeFromTypeNodeWorker(node) === tp; // use worker because we're looking for === equality case 172 /* TypeQuery */: return true; } return !!ts.forEachChild(node, containsReference); } } function getHomomorphicTypeVariable(type) { var constraintType = getConstraintTypeFromMappedType(type); if (constraintType.flags & 4194304 /* Index */) { var typeVariable = getActualTypeVariable(constraintType.type); if (typeVariable.flags & 262144 /* TypeParameter */) { return typeVariable; } } return undefined; } function instantiateMappedType(type, mapper) { // For a homomorphic mapped type { [P in keyof T]: X }, where T is some type variable, the mapping // operation depends on T as follows: // * If T is a primitive type no mapping is performed and the result is simply T. // * If T is a union type we distribute the mapped type over the union. // * If T is an array we map to an array where the element type has been transformed. // * If T is a tuple we map to a tuple where the element types have been transformed. // * Otherwise we map to an object type where the type of each property has been transformed. // For example, when T is instantiated to a union type A | B, we produce { [P in keyof A]: X } | // { [P in keyof B]: X }, and when when T is instantiated to a union type A | undefined, we produce // { [P in keyof A]: X } | undefined. var typeVariable = getHomomorphicTypeVariable(type); if (typeVariable) { var mappedTypeVariable = instantiateType(typeVariable, mapper); if (typeVariable !== mappedTypeVariable) { return mapType(getReducedType(mappedTypeVariable), function (t) { if (t.flags & (3 /* AnyOrUnknown */ | 58982400 /* InstantiableNonPrimitive */ | 524288 /* Object */ | 2097152 /* Intersection */) && t !== wildcardType && t !== errorType) { var replacementMapper = prependTypeMapping(typeVariable, t, mapper); return isArrayType(t) ? instantiateMappedArrayType(t, type, replacementMapper) : isTupleType(t) ? instantiateMappedTupleType(t, type, replacementMapper) : instantiateAnonymousType(type, replacementMapper); } return t; }); } } return instantiateAnonymousType(type, mapper); } function getModifiedReadonlyState(state, modifiers) { return modifiers & 1 /* IncludeReadonly */ ? true : modifiers & 2 /* ExcludeReadonly */ ? false : state; } function instantiateMappedArrayType(arrayType, mappedType, mapper) { var elementType = instantiateMappedTypeTemplate(mappedType, numberType, /*isOptional*/ true, mapper); return elementType === errorType ? errorType : createArrayType(elementType, getModifiedReadonlyState(isReadonlyArrayType(arrayType), getMappedTypeModifiers(mappedType))); } function instantiateMappedTupleType(tupleType, mappedType, mapper) { var minLength = tupleType.target.minLength; var elementTypes = ts.map(getTypeArguments(tupleType), function (_, i) { return instantiateMappedTypeTemplate(mappedType, getLiteralType("" + i), i >= minLength, mapper); }); var modifiers = getMappedTypeModifiers(mappedType); var newMinLength = modifiers & 4 /* IncludeOptional */ ? 0 : modifiers & 8 /* ExcludeOptional */ ? getTypeReferenceArity(tupleType) - (tupleType.target.hasRestElement ? 1 : 0) : minLength; var newReadonly = getModifiedReadonlyState(tupleType.target.readonly, modifiers); return ts.contains(elementTypes, errorType) ? errorType : createTupleType(elementTypes, newMinLength, tupleType.target.hasRestElement, newReadonly, tupleType.target.associatedNames); } function instantiateMappedTypeTemplate(type, key, isOptional, mapper) { var templateMapper = appendTypeMapping(mapper, getTypeParameterFromMappedType(type), key); var propType = instantiateType(getTemplateTypeFromMappedType(type.target || type), templateMapper); var modifiers = getMappedTypeModifiers(type); return strictNullChecks && modifiers & 4 /* IncludeOptional */ && !maybeTypeOfKind(propType, 32768 /* Undefined */ | 16384 /* Void */) ? getOptionalType(propType) : strictNullChecks && modifiers & 8 /* ExcludeOptional */ && isOptional ? getTypeWithFacts(propType, 524288 /* NEUndefined */) : propType; } function instantiateAnonymousType(type, mapper) { var result = createObjectType(type.objectFlags | 64 /* Instantiated */, type.symbol); if (type.objectFlags & 32 /* Mapped */) { result.declaration = type.declaration; // C.f. instantiateSignature var origTypeParameter = getTypeParameterFromMappedType(type); var freshTypeParameter = cloneTypeParameter(origTypeParameter); result.typeParameter = freshTypeParameter; mapper = combineTypeMappers(makeUnaryTypeMapper(origTypeParameter, freshTypeParameter), mapper); freshTypeParameter.mapper = mapper; } result.target = type; result.mapper = mapper; result.aliasSymbol = type.aliasSymbol; result.aliasTypeArguments = instantiateTypes(type.aliasTypeArguments, mapper); return result; } function getConditionalTypeInstantiation(type, mapper) { var root = type.root; if (root.outerTypeParameters) { // We are instantiating a conditional type that has one or more type parameters in scope. Apply the // mapper to the type parameters to produce the effective list of type arguments, and compute the // instantiation cache key from the type IDs of the type arguments. var typeArguments = ts.map(root.outerTypeParameters, function (t) { return getMappedType(t, mapper); }); var id = getTypeListId(typeArguments); var result = root.instantiations.get(id); if (!result) { var newMapper = createTypeMapper(root.outerTypeParameters, typeArguments); result = instantiateConditionalType(root, newMapper); root.instantiations.set(id, result); } return result; } return type; } function instantiateConditionalType(root, mapper) { // Check if we have a conditional type where the check type is a naked type parameter. If so, // the conditional type is distributive over union types and when T is instantiated to a union // type A | B, we produce (A extends U ? X : Y) | (B extends U ? X : Y). if (root.isDistributive) { var checkType_1 = root.checkType; var instantiatedType = getMappedType(checkType_1, mapper); if (checkType_1 !== instantiatedType && instantiatedType.flags & (1048576 /* Union */ | 131072 /* Never */)) { return mapType(instantiatedType, function (t) { return getConditionalType(root, prependTypeMapping(checkType_1, t, mapper)); }); } } return getConditionalType(root, mapper); } function instantiateType(type, mapper) { if (!type || !mapper) { return type; } if (instantiationDepth === 50 || instantiationCount >= 5000000) { // We have reached 50 recursive type instantiations and there is a very high likelyhood we're dealing // with a combination of infinite generic types that perpetually generate new type identities. We stop // the recursion here by yielding the error type. error(currentNode, ts.Diagnostics.Type_instantiation_is_excessively_deep_and_possibly_infinite); return errorType; } totalInstantiationCount++; instantiationCount++; instantiationDepth++; var result = instantiateTypeWorker(type, mapper); instantiationDepth--; return result; } /** * This can be used to avoid the penalty on instantiation depth for types which result from immediate * simplification. It essentially removes the depth increase done in `instantiateType`. */ function instantiateTypeWithoutDepthIncrease(type, mapper) { instantiationDepth--; var result = instantiateType(type, mapper); instantiationDepth++; return result; } function instantiateTypeWorker(type, mapper) { var flags = type.flags; if (flags & 262144 /* TypeParameter */) { return getMappedType(type, mapper); } if (flags & 524288 /* Object */) { var objectFlags = type.objectFlags; if (objectFlags & 16 /* Anonymous */) { // If the anonymous type originates in a declaration of a function, method, class, or // interface, in an object type literal, or in an object literal expression, we may need // to instantiate the type because it might reference a type parameter. return couldContainTypeVariables(type) ? getObjectTypeInstantiation(type, mapper) : type; } if (objectFlags & 32 /* Mapped */) { return getObjectTypeInstantiation(type, mapper); } if (objectFlags & 4 /* Reference */) { if (type.node) { return getObjectTypeInstantiation(type, mapper); } var resolvedTypeArguments = type.resolvedTypeArguments; var newTypeArguments = instantiateTypes(resolvedTypeArguments, mapper); return newTypeArguments !== resolvedTypeArguments ? createTypeReference(type.target, newTypeArguments) : type; } return type; } if ((flags & 2097152 /* Intersection */) || (flags & 1048576 /* Union */ && !(flags & 131068 /* Primitive */))) { if (!couldContainTypeVariables(type)) { return type; } var types = type.types; var newTypes = instantiateTypes(types, mapper); return newTypes === types ? type : (flags & 2097152 /* Intersection */) ? getIntersectionType(newTypes, type.aliasSymbol, instantiateTypes(type.aliasTypeArguments, mapper)) : getUnionType(newTypes, 1 /* Literal */, type.aliasSymbol, instantiateTypes(type.aliasTypeArguments, mapper)); } if (flags & 4194304 /* Index */) { return getIndexType(instantiateType(type.type, mapper)); } if (flags & 8388608 /* IndexedAccess */) { return getIndexedAccessType(instantiateType(type.objectType, mapper), instantiateType(type.indexType, mapper)); } if (flags & 16777216 /* Conditional */) { return getConditionalTypeInstantiation(type, combineTypeMappers(type.mapper, mapper)); } if (flags & 33554432 /* Substitution */) { var maybeVariable = instantiateType(type.baseType, mapper); if (maybeVariable.flags & 8650752 /* TypeVariable */) { return getSubstitutionType(maybeVariable, instantiateType(type.substitute, mapper)); } else { var sub = instantiateType(type.substitute, mapper); if (sub.flags & 3 /* AnyOrUnknown */ || isTypeAssignableTo(getRestrictiveInstantiation(maybeVariable), getRestrictiveInstantiation(sub))) { return maybeVariable; } return sub; } } return type; } function getPermissiveInstantiation(type) { return type.flags & (131068 /* Primitive */ | 3 /* AnyOrUnknown */ | 131072 /* Never */) ? type : type.permissiveInstantiation || (type.permissiveInstantiation = instantiateType(type, permissiveMapper)); } function getRestrictiveInstantiation(type) { if (type.flags & (131068 /* Primitive */ | 3 /* AnyOrUnknown */ | 131072 /* Never */)) { return type; } if (type.restrictiveInstantiation) { return type.restrictiveInstantiation; } type.restrictiveInstantiation = instantiateType(type, restrictiveMapper); // We set the following so we don't attempt to set the restrictive instance of a restrictive instance // which is redundant - we'll produce new type identities, but all type params have already been mapped. // This also gives us a way to detect restrictive instances upon comparisons and _disable_ the "distributeive constraint" // assignability check for them, which is distinctly unsafe, as once you have a restrctive instance, all the type parameters // are constrained to `unknown` and produce tons of false positives/negatives! type.restrictiveInstantiation.restrictiveInstantiation = type.restrictiveInstantiation; return type.restrictiveInstantiation; } function instantiateIndexInfo(info, mapper) { return info && createIndexInfo(instantiateType(info.type, mapper), info.isReadonly, info.declaration); } // Returns true if the given expression contains (at any level of nesting) a function or arrow expression // that is subject to contextual typing. function isContextSensitive(node) { ts.Debug.assert(node.kind !== 161 /* MethodDeclaration */ || ts.isObjectLiteralMethod(node)); switch (node.kind) { case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 161 /* MethodDeclaration */: case 244 /* FunctionDeclaration */: // Function declarations can have context when annotated with a jsdoc @type return isContextSensitiveFunctionLikeDeclaration(node); case 193 /* ObjectLiteralExpression */: return ts.some(node.properties, isContextSensitive); case 192 /* ArrayLiteralExpression */: return ts.some(node.elements, isContextSensitive); case 210 /* ConditionalExpression */: return isContextSensitive(node.whenTrue) || isContextSensitive(node.whenFalse); case 209 /* BinaryExpression */: return (node.operatorToken.kind === 56 /* BarBarToken */ || node.operatorToken.kind === 60 /* QuestionQuestionToken */) && (isContextSensitive(node.left) || isContextSensitive(node.right)); case 281 /* PropertyAssignment */: return isContextSensitive(node.initializer); case 200 /* ParenthesizedExpression */: return isContextSensitive(node.expression); case 274 /* JsxAttributes */: return ts.some(node.properties, isContextSensitive) || ts.isJsxOpeningElement(node.parent) && ts.some(node.parent.parent.children, isContextSensitive); case 273 /* JsxAttribute */: { // If there is no initializer, JSX attribute has a boolean value of true which is not context sensitive. var initializer = node.initializer; return !!initializer && isContextSensitive(initializer); } case 276 /* JsxExpression */: { // It is possible to that node.expression is undefined (e.g
) var expression = node.expression; return !!expression && isContextSensitive(expression); } } return false; } function isContextSensitiveFunctionLikeDeclaration(node) { return (!ts.isFunctionDeclaration(node) || ts.isInJSFile(node) && !!getTypeForDeclarationFromJSDocComment(node)) && (hasContextSensitiveParameters(node) || hasContextSensitiveReturnExpression(node)); } function hasContextSensitiveParameters(node) { // Functions with type parameters are not context sensitive. if (!node.typeParameters) { // Functions with any parameters that lack type annotations are context sensitive. if (ts.some(node.parameters, function (p) { return !ts.getEffectiveTypeAnnotationNode(p); })) { return true; } if (node.kind !== 202 /* ArrowFunction */) { // If the first parameter is not an explicit 'this' parameter, then the function has // an implicit 'this' parameter which is subject to contextual typing. var parameter = ts.firstOrUndefined(node.parameters); if (!(parameter && ts.parameterIsThisKeyword(parameter))) { return true; } } } return false; } function hasContextSensitiveReturnExpression(node) { // TODO(anhans): A block should be context-sensitive if it has a context-sensitive return value. return !node.typeParameters && !ts.getEffectiveReturnTypeNode(node) && !!node.body && node.body.kind !== 223 /* Block */ && isContextSensitive(node.body); } function isContextSensitiveFunctionOrObjectLiteralMethod(func) { return (ts.isInJSFile(func) && ts.isFunctionDeclaration(func) || isFunctionExpressionOrArrowFunction(func) || ts.isObjectLiteralMethod(func)) && isContextSensitiveFunctionLikeDeclaration(func); } function getTypeWithoutSignatures(type) { if (type.flags & 524288 /* Object */) { var resolved = resolveStructuredTypeMembers(type); if (resolved.constructSignatures.length || resolved.callSignatures.length) { var result = createObjectType(16 /* Anonymous */, type.symbol); result.members = resolved.members; result.properties = resolved.properties; result.callSignatures = ts.emptyArray; result.constructSignatures = ts.emptyArray; return result; } } else if (type.flags & 2097152 /* Intersection */) { return getIntersectionType(ts.map(type.types, getTypeWithoutSignatures)); } return type; } // TYPE CHECKING function isTypeIdenticalTo(source, target) { return isTypeRelatedTo(source, target, identityRelation); } function compareTypesIdentical(source, target) { return isTypeRelatedTo(source, target, identityRelation) ? -1 /* True */ : 0 /* False */; } function compareTypesAssignable(source, target) { return isTypeRelatedTo(source, target, assignableRelation) ? -1 /* True */ : 0 /* False */; } function compareTypesSubtypeOf(source, target) { return isTypeRelatedTo(source, target, subtypeRelation) ? -1 /* True */ : 0 /* False */; } function isTypeSubtypeOf(source, target) { return isTypeRelatedTo(source, target, subtypeRelation); } function isTypeAssignableTo(source, target) { return isTypeRelatedTo(source, target, assignableRelation); } // An object type S is considered to be derived from an object type T if // S is a union type and every constituent of S is derived from T, // T is a union type and S is derived from at least one constituent of T, or // S is a type variable with a base constraint that is derived from T, // T is one of the global types Object and Function and S is a subtype of T, or // T occurs directly or indirectly in an 'extends' clause of S. // Note that this check ignores type parameters and only considers the // inheritance hierarchy. function isTypeDerivedFrom(source, target) { return source.flags & 1048576 /* Union */ ? ts.every(source.types, function (t) { return isTypeDerivedFrom(t, target); }) : target.flags & 1048576 /* Union */ ? ts.some(target.types, function (t) { return isTypeDerivedFrom(source, t); }) : source.flags & 58982400 /* InstantiableNonPrimitive */ ? isTypeDerivedFrom(getBaseConstraintOfType(source) || unknownType, target) : target === globalObjectType ? !!(source.flags & (524288 /* Object */ | 67108864 /* NonPrimitive */)) : target === globalFunctionType ? !!(source.flags & 524288 /* Object */) && isFunctionObjectType(source) : hasBaseType(source, getTargetType(target)); } /** * This is *not* a bi-directional relationship. * If one needs to check both directions for comparability, use a second call to this function or 'checkTypeComparableTo'. * * A type S is comparable to a type T if some (but not necessarily all) of the possible values of S are also possible values of T. * It is used to check following cases: * - the types of the left and right sides of equality/inequality operators (`===`, `!==`, `==`, `!=`). * - the types of `case` clause expressions and their respective `switch` expressions. * - the type of an expression in a type assertion with the type being asserted. */ function isTypeComparableTo(source, target) { return isTypeRelatedTo(source, target, comparableRelation); } function areTypesComparable(type1, type2) { return isTypeComparableTo(type1, type2) || isTypeComparableTo(type2, type1); } function checkTypeAssignableTo(source, target, errorNode, headMessage, containingMessageChain, errorOutputObject) { return checkTypeRelatedTo(source, target, assignableRelation, errorNode, headMessage, containingMessageChain, errorOutputObject); } /** * Like `checkTypeAssignableTo`, but if it would issue an error, instead performs structural comparisons of the types using the given expression node to * attempt to issue more specific errors on, for example, specific object literal properties or tuple members. */ function checkTypeAssignableToAndOptionallyElaborate(source, target, errorNode, expr, headMessage, containingMessageChain) { return checkTypeRelatedToAndOptionallyElaborate(source, target, assignableRelation, errorNode, expr, headMessage, containingMessageChain, /*errorOutputContainer*/ undefined); } function checkTypeRelatedToAndOptionallyElaborate(source, target, relation, errorNode, expr, headMessage, containingMessageChain, errorOutputContainer) { if (isTypeRelatedTo(source, target, relation)) return true; if (!errorNode || !elaborateError(expr, source, target, relation, headMessage, containingMessageChain, errorOutputContainer)) { return checkTypeRelatedTo(source, target, relation, errorNode, headMessage, containingMessageChain, errorOutputContainer); } return false; } function isOrHasGenericConditional(type) { return !!(type.flags & 16777216 /* Conditional */ || (type.flags & 2097152 /* Intersection */ && ts.some(type.types, isOrHasGenericConditional))); } function elaborateError(node, source, target, relation, headMessage, containingMessageChain, errorOutputContainer) { if (!node || isOrHasGenericConditional(target)) return false; if (!checkTypeRelatedTo(source, target, relation, /*errorNode*/ undefined) && elaborateDidYouMeanToCallOrConstruct(node, source, target, relation, headMessage, containingMessageChain, errorOutputContainer)) { return true; } switch (node.kind) { case 276 /* JsxExpression */: case 200 /* ParenthesizedExpression */: return elaborateError(node.expression, source, target, relation, headMessage, containingMessageChain, errorOutputContainer); case 209 /* BinaryExpression */: switch (node.operatorToken.kind) { case 62 /* EqualsToken */: case 27 /* CommaToken */: return elaborateError(node.right, source, target, relation, headMessage, containingMessageChain, errorOutputContainer); } break; case 193 /* ObjectLiteralExpression */: return elaborateObjectLiteral(node, source, target, relation, containingMessageChain, errorOutputContainer); case 192 /* ArrayLiteralExpression */: return elaborateArrayLiteral(node, source, target, relation, containingMessageChain, errorOutputContainer); case 274 /* JsxAttributes */: return elaborateJsxComponents(node, source, target, relation, containingMessageChain, errorOutputContainer); case 202 /* ArrowFunction */: return elaborateArrowFunction(node, source, target, relation, containingMessageChain, errorOutputContainer); } return false; } function elaborateDidYouMeanToCallOrConstruct(node, source, target, relation, headMessage, containingMessageChain, errorOutputContainer) { var callSignatures = getSignaturesOfType(source, 0 /* Call */); var constructSignatures = getSignaturesOfType(source, 1 /* Construct */); for (var _i = 0, _a = [constructSignatures, callSignatures]; _i < _a.length; _i++) { var signatures = _a[_i]; if (ts.some(signatures, function (s) { var returnType = getReturnTypeOfSignature(s); return !(returnType.flags & (1 /* Any */ | 131072 /* Never */)) && checkTypeRelatedTo(returnType, target, relation, /*errorNode*/ undefined); })) { var resultObj = errorOutputContainer || {}; checkTypeAssignableTo(source, target, node, headMessage, containingMessageChain, resultObj); var diagnostic = resultObj.errors[resultObj.errors.length - 1]; ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(node, signatures === constructSignatures ? ts.Diagnostics.Did_you_mean_to_use_new_with_this_expression : ts.Diagnostics.Did_you_mean_to_call_this_expression)); return true; } } return false; } function elaborateArrowFunction(node, source, target, relation, containingMessageChain, errorOutputContainer) { // Don't elaborate blocks if (ts.isBlock(node.body)) { return false; } // Or functions with annotated parameter types if (ts.some(node.parameters, ts.hasType)) { return false; } var sourceSig = getSingleCallSignature(source); if (!sourceSig) { return false; } var targetSignatures = getSignaturesOfType(target, 0 /* Call */); if (!ts.length(targetSignatures)) { return false; } var returnExpression = node.body; var sourceReturn = getReturnTypeOfSignature(sourceSig); var targetReturn = getUnionType(ts.map(targetSignatures, getReturnTypeOfSignature)); if (!checkTypeRelatedTo(sourceReturn, targetReturn, relation, /*errorNode*/ undefined)) { var elaborated = returnExpression && elaborateError(returnExpression, sourceReturn, targetReturn, relation, /*headMessage*/ undefined, containingMessageChain, errorOutputContainer); if (elaborated) { return elaborated; } var resultObj = errorOutputContainer || {}; checkTypeRelatedTo(sourceReturn, targetReturn, relation, returnExpression, /*message*/ undefined, containingMessageChain, resultObj); if (resultObj.errors) { if (target.symbol && ts.length(target.symbol.declarations)) { ts.addRelatedInfo(resultObj.errors[resultObj.errors.length - 1], ts.createDiagnosticForNode(target.symbol.declarations[0], ts.Diagnostics.The_expected_type_comes_from_the_return_type_of_this_signature)); } if ((ts.getFunctionFlags(node) & 2 /* Async */) === 0 // exclude cases where source itself is promisy - this way we don't make a suggestion when relating // an IPromise and a Promise that are slightly different && !getTypeOfPropertyOfType(sourceReturn, "then") && checkTypeRelatedTo(createPromiseType(sourceReturn), targetReturn, relation, /*errorNode*/ undefined)) { ts.addRelatedInfo(resultObj.errors[resultObj.errors.length - 1], ts.createDiagnosticForNode(node, ts.Diagnostics.Did_you_mean_to_mark_this_function_as_async)); } return true; } } return false; } function getBestMatchIndexedAccessTypeOrUndefined(source, target, nameType) { var idx = getIndexedAccessTypeOrUndefined(target, nameType); if (idx) { return idx; } if (target.flags & 1048576 /* Union */) { var best = getBestMatchingType(source, target); if (best) { return getIndexedAccessTypeOrUndefined(best, nameType); } } } function checkExpressionForMutableLocationWithContextualType(next, sourcePropType) { next.contextualType = sourcePropType; try { return checkExpressionForMutableLocation(next, 1 /* Contextual */, sourcePropType); } finally { next.contextualType = undefined; } } /** * For every element returned from the iterator, checks that element to issue an error on a property of that element's type * If that element would issue an error, we first attempt to dive into that element's inner expression and issue a more specific error by recuring into `elaborateError` * Otherwise, we issue an error on _every_ element which fail the assignability check */ function elaborateElementwise(iterator, source, target, relation, containingMessageChain, errorOutputContainer) { // Assignability failure - check each prop individually, and if that fails, fall back on the bad error span var reportedError = false; for (var status = iterator.next(); !status.done; status = iterator.next()) { var _a = status.value, prop = _a.errorNode, next = _a.innerExpression, nameType = _a.nameType, errorMessage = _a.errorMessage; var targetPropType = getBestMatchIndexedAccessTypeOrUndefined(source, target, nameType); if (!targetPropType || targetPropType.flags & 8388608 /* IndexedAccess */) continue; // Don't elaborate on indexes on generic variables var sourcePropType = getIndexedAccessTypeOrUndefined(source, nameType); if (sourcePropType && !checkTypeRelatedTo(sourcePropType, targetPropType, relation, /*errorNode*/ undefined)) { var elaborated = next && elaborateError(next, sourcePropType, targetPropType, relation, /*headMessage*/ undefined, containingMessageChain, errorOutputContainer); if (elaborated) { reportedError = true; } else { // Issue error on the prop itself, since the prop couldn't elaborate the error var resultObj = errorOutputContainer || {}; // Use the expression type, if available var specificSource = next ? checkExpressionForMutableLocationWithContextualType(next, sourcePropType) : sourcePropType; var result = checkTypeRelatedTo(specificSource, targetPropType, relation, prop, errorMessage, containingMessageChain, resultObj); if (result && specificSource !== sourcePropType) { // If for whatever reason the expression type doesn't yield an error, make sure we still issue an error on the sourcePropType checkTypeRelatedTo(sourcePropType, targetPropType, relation, prop, errorMessage, containingMessageChain, resultObj); } if (resultObj.errors) { var reportedDiag = resultObj.errors[resultObj.errors.length - 1]; var propertyName = isTypeUsableAsPropertyName(nameType) ? getPropertyNameFromType(nameType) : undefined; var targetProp = propertyName !== undefined ? getPropertyOfType(target, propertyName) : undefined; var issuedElaboration = false; if (!targetProp) { var indexInfo = isTypeAssignableToKind(nameType, 296 /* NumberLike */) && getIndexInfoOfType(target, 1 /* Number */) || getIndexInfoOfType(target, 0 /* String */) || undefined; if (indexInfo && indexInfo.declaration && !ts.getSourceFileOfNode(indexInfo.declaration).hasNoDefaultLib) { issuedElaboration = true; ts.addRelatedInfo(reportedDiag, ts.createDiagnosticForNode(indexInfo.declaration, ts.Diagnostics.The_expected_type_comes_from_this_index_signature)); } } if (!issuedElaboration && (targetProp && ts.length(targetProp.declarations) || target.symbol && ts.length(target.symbol.declarations))) { var targetNode = targetProp && ts.length(targetProp.declarations) ? targetProp.declarations[0] : target.symbol.declarations[0]; if (!ts.getSourceFileOfNode(targetNode).hasNoDefaultLib) { ts.addRelatedInfo(reportedDiag, ts.createDiagnosticForNode(targetNode, ts.Diagnostics.The_expected_type_comes_from_property_0_which_is_declared_here_on_type_1, propertyName && !(nameType.flags & 8192 /* UniqueESSymbol */) ? ts.unescapeLeadingUnderscores(propertyName) : typeToString(nameType), typeToString(target))); } } } reportedError = true; } } } return reportedError; } function generateJsxAttributes(node) { var _i, _a, prop; return __generator(this, function (_b) { switch (_b.label) { case 0: if (!ts.length(node.properties)) return [2 /*return*/]; _i = 0, _a = node.properties; _b.label = 1; case 1: if (!(_i < _a.length)) return [3 /*break*/, 4]; prop = _a[_i]; if (ts.isJsxSpreadAttribute(prop)) return [3 /*break*/, 3]; return [4 /*yield*/, { errorNode: prop.name, innerExpression: prop.initializer, nameType: getLiteralType(ts.idText(prop.name)) }]; case 2: _b.sent(); _b.label = 3; case 3: _i++; return [3 /*break*/, 1]; case 4: return [2 /*return*/]; } }); } function generateJsxChildren(node, getInvalidTextDiagnostic) { var memberOffset, i, child, nameType, elem; return __generator(this, function (_a) { switch (_a.label) { case 0: if (!ts.length(node.children)) return [2 /*return*/]; memberOffset = 0; i = 0; _a.label = 1; case 1: if (!(i < node.children.length)) return [3 /*break*/, 5]; child = node.children[i]; nameType = getLiteralType(i - memberOffset); elem = getElaborationElementForJsxChild(child, nameType, getInvalidTextDiagnostic); if (!elem) return [3 /*break*/, 3]; return [4 /*yield*/, elem]; case 2: _a.sent(); return [3 /*break*/, 4]; case 3: memberOffset++; _a.label = 4; case 4: i++; return [3 /*break*/, 1]; case 5: return [2 /*return*/]; } }); } function getElaborationElementForJsxChild(child, nameType, getInvalidTextDiagnostic) { switch (child.kind) { case 276 /* JsxExpression */: // child is of the type of the expression return { errorNode: child, innerExpression: child.expression, nameType: nameType }; case 11 /* JsxText */: if (child.containsOnlyTriviaWhiteSpaces) { break; // Whitespace only jsx text isn't real jsx text } // child is a string return { errorNode: child, innerExpression: undefined, nameType: nameType, errorMessage: getInvalidTextDiagnostic() }; case 266 /* JsxElement */: case 267 /* JsxSelfClosingElement */: case 270 /* JsxFragment */: // child is of type JSX.Element return { errorNode: child, innerExpression: child, nameType: nameType }; default: return ts.Debug.assertNever(child, "Found invalid jsx child"); } } function getSemanticJsxChildren(children) { return ts.filter(children, function (i) { return !ts.isJsxText(i) || !i.containsOnlyTriviaWhiteSpaces; }); } function elaborateJsxComponents(node, source, target, relation, containingMessageChain, errorOutputContainer) { var result = elaborateElementwise(generateJsxAttributes(node), source, target, relation, containingMessageChain, errorOutputContainer); var invalidTextDiagnostic; if (ts.isJsxOpeningElement(node.parent) && ts.isJsxElement(node.parent.parent)) { var containingElement = node.parent.parent; var childPropName = getJsxElementChildrenPropertyName(getJsxNamespaceAt(node)); var childrenPropName = childPropName === undefined ? "children" : ts.unescapeLeadingUnderscores(childPropName); var childrenNameType = getLiteralType(childrenPropName); var childrenTargetType = getIndexedAccessType(target, childrenNameType); var validChildren = getSemanticJsxChildren(containingElement.children); if (!ts.length(validChildren)) { return result; } var moreThanOneRealChildren = ts.length(validChildren) > 1; var arrayLikeTargetParts = filterType(childrenTargetType, isArrayOrTupleLikeType); var nonArrayLikeTargetParts = filterType(childrenTargetType, function (t) { return !isArrayOrTupleLikeType(t); }); if (moreThanOneRealChildren) { if (arrayLikeTargetParts !== neverType) { var realSource = createTupleType(checkJsxChildren(containingElement, 0 /* Normal */)); var children = generateJsxChildren(containingElement, getInvalidTextualChildDiagnostic); result = elaborateElementwise(children, realSource, arrayLikeTargetParts, relation, containingMessageChain, errorOutputContainer) || result; } else if (!isTypeRelatedTo(getIndexedAccessType(source, childrenNameType), childrenTargetType, relation)) { // arity mismatch result = true; var diag = error(containingElement.openingElement.tagName, ts.Diagnostics.This_JSX_tag_s_0_prop_expects_a_single_child_of_type_1_but_multiple_children_were_provided, childrenPropName, typeToString(childrenTargetType)); if (errorOutputContainer && errorOutputContainer.skipLogging) { (errorOutputContainer.errors || (errorOutputContainer.errors = [])).push(diag); } } } else { if (nonArrayLikeTargetParts !== neverType) { var child = validChildren[0]; var elem_1 = getElaborationElementForJsxChild(child, childrenNameType, getInvalidTextualChildDiagnostic); if (elem_1) { result = elaborateElementwise((function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [4 /*yield*/, elem_1]; case 1: _a.sent(); return [2 /*return*/]; } }); })(), source, target, relation, containingMessageChain, errorOutputContainer) || result; } } else if (!isTypeRelatedTo(getIndexedAccessType(source, childrenNameType), childrenTargetType, relation)) { // arity mismatch result = true; var diag = error(containingElement.openingElement.tagName, ts.Diagnostics.This_JSX_tag_s_0_prop_expects_type_1_which_requires_multiple_children_but_only_a_single_child_was_provided, childrenPropName, typeToString(childrenTargetType)); if (errorOutputContainer && errorOutputContainer.skipLogging) { (errorOutputContainer.errors || (errorOutputContainer.errors = [])).push(diag); } } } } return result; function getInvalidTextualChildDiagnostic() { if (!invalidTextDiagnostic) { var tagNameText = ts.getTextOfNode(node.parent.tagName); var childPropName = getJsxElementChildrenPropertyName(getJsxNamespaceAt(node)); var childrenPropName = childPropName === undefined ? "children" : ts.unescapeLeadingUnderscores(childPropName); var childrenTargetType = getIndexedAccessType(target, getLiteralType(childrenPropName)); var diagnostic = ts.Diagnostics._0_components_don_t_accept_text_as_child_elements_Text_in_JSX_has_the_type_string_but_the_expected_type_of_1_is_2; invalidTextDiagnostic = __assign(__assign({}, diagnostic), { key: "!!ALREADY FORMATTED!!", message: ts.formatMessage(/*_dummy*/ undefined, diagnostic, tagNameText, childrenPropName, typeToString(childrenTargetType)) }); } return invalidTextDiagnostic; } } function generateLimitedTupleElements(node, target) { var len, i, elem, nameType; return __generator(this, function (_a) { switch (_a.label) { case 0: len = ts.length(node.elements); if (!len) return [2 /*return*/]; i = 0; _a.label = 1; case 1: if (!(i < len)) return [3 /*break*/, 4]; // Skip elements which do not exist in the target - a length error on the tuple overall is likely better than an error on a mismatched index signature if (isTupleLikeType(target) && !getPropertyOfType(target, ("" + i))) return [3 /*break*/, 3]; elem = node.elements[i]; if (ts.isOmittedExpression(elem)) return [3 /*break*/, 3]; nameType = getLiteralType(i); return [4 /*yield*/, { errorNode: elem, innerExpression: elem, nameType: nameType }]; case 2: _a.sent(); _a.label = 3; case 3: i++; return [3 /*break*/, 1]; case 4: return [2 /*return*/]; } }); } function elaborateArrayLiteral(node, source, target, relation, containingMessageChain, errorOutputContainer) { if (target.flags & 131068 /* Primitive */) return false; if (isTupleLikeType(source)) { return elaborateElementwise(generateLimitedTupleElements(node, target), source, target, relation, containingMessageChain, errorOutputContainer); } // recreate a tuple from the elements, if possible // Since we're re-doing the expression type, we need to reapply the contextual type var oldContext = node.contextualType; node.contextualType = target; try { var tupleizedType = checkArrayLiteral(node, 1 /* Contextual */, /*forceTuple*/ true); node.contextualType = oldContext; if (isTupleLikeType(tupleizedType)) { return elaborateElementwise(generateLimitedTupleElements(node, target), tupleizedType, target, relation, containingMessageChain, errorOutputContainer); } return false; } finally { node.contextualType = oldContext; } } function generateObjectLiteralElements(node) { var _i, _a, prop, type, _b; return __generator(this, function (_c) { switch (_c.label) { case 0: if (!ts.length(node.properties)) return [2 /*return*/]; _i = 0, _a = node.properties; _c.label = 1; case 1: if (!(_i < _a.length)) return [3 /*break*/, 8]; prop = _a[_i]; if (ts.isSpreadAssignment(prop)) return [3 /*break*/, 7]; type = getLiteralTypeFromProperty(getSymbolOfNode(prop), 8576 /* StringOrNumberLiteralOrUnique */); if (!type || (type.flags & 131072 /* Never */)) { return [3 /*break*/, 7]; } _b = prop.kind; switch (_b) { case 164 /* SetAccessor */: return [3 /*break*/, 2]; case 163 /* GetAccessor */: return [3 /*break*/, 2]; case 161 /* MethodDeclaration */: return [3 /*break*/, 2]; case 282 /* ShorthandPropertyAssignment */: return [3 /*break*/, 2]; case 281 /* PropertyAssignment */: return [3 /*break*/, 4]; } return [3 /*break*/, 6]; case 2: return [4 /*yield*/, { errorNode: prop.name, innerExpression: undefined, nameType: type }]; case 3: _c.sent(); return [3 /*break*/, 7]; case 4: return [4 /*yield*/, { errorNode: prop.name, innerExpression: prop.initializer, nameType: type, errorMessage: ts.isComputedNonLiteralName(prop.name) ? ts.Diagnostics.Type_of_computed_property_s_value_is_0_which_is_not_assignable_to_type_1 : undefined }]; case 5: _c.sent(); return [3 /*break*/, 7]; case 6: ts.Debug.assertNever(prop); _c.label = 7; case 7: _i++; return [3 /*break*/, 1]; case 8: return [2 /*return*/]; } }); } function elaborateObjectLiteral(node, source, target, relation, containingMessageChain, errorOutputContainer) { if (target.flags & 131068 /* Primitive */) return false; return elaborateElementwise(generateObjectLiteralElements(node), source, target, relation, containingMessageChain, errorOutputContainer); } /** * This is *not* a bi-directional relationship. * If one needs to check both directions for comparability, use a second call to this function or 'isTypeComparableTo'. */ function checkTypeComparableTo(source, target, errorNode, headMessage, containingMessageChain) { return checkTypeRelatedTo(source, target, comparableRelation, errorNode, headMessage, containingMessageChain); } function isSignatureAssignableTo(source, target, ignoreReturnTypes) { return compareSignaturesRelated(source, target, ignoreReturnTypes ? 4 /* IgnoreReturnTypes */ : 0, /*reportErrors*/ false, /*errorReporter*/ undefined, /*errorReporter*/ undefined, compareTypesAssignable, /*reportUnreliableMarkers*/ undefined) !== 0 /* False */; } /** * Returns true if `s` is `(...args: any[]) => any` or `(this: any, ...args: any[]) => any` */ function isAnySignature(s) { return !s.typeParameters && (!s.thisParameter || isTypeAny(getTypeOfParameter(s.thisParameter))) && s.parameters.length === 1 && signatureHasRestParameter(s) && (getTypeOfParameter(s.parameters[0]) === anyArrayType || isTypeAny(getTypeOfParameter(s.parameters[0]))) && isTypeAny(getReturnTypeOfSignature(s)); } /** * See signatureRelatedTo, compareSignaturesIdentical */ function compareSignaturesRelated(source, target, checkMode, reportErrors, errorReporter, incompatibleErrorReporter, compareTypes, reportUnreliableMarkers) { // TODO (drosen): De-duplicate code between related functions. if (source === target) { return -1 /* True */; } if (isAnySignature(target)) { return -1 /* True */; } var targetCount = getParameterCount(target); var sourceHasMoreParameters = !hasEffectiveRestParameter(target) && (checkMode & 8 /* StrictArity */ ? hasEffectiveRestParameter(source) || getParameterCount(source) > targetCount : getMinArgumentCount(source) > targetCount); if (sourceHasMoreParameters) { return 0 /* False */; } if (source.typeParameters && source.typeParameters !== target.typeParameters) { target = getCanonicalSignature(target); source = instantiateSignatureInContextOf(source, target, /*inferenceContext*/ undefined, compareTypes); } var sourceCount = getParameterCount(source); var sourceRestType = getNonArrayRestType(source); var targetRestType = getNonArrayRestType(target); if (sourceRestType || targetRestType) { void instantiateType(sourceRestType || targetRestType, reportUnreliableMarkers); } if (sourceRestType && targetRestType && sourceCount !== targetCount) { // We're not able to relate misaligned complex rest parameters return 0 /* False */; } var kind = target.declaration ? target.declaration.kind : 0 /* Unknown */; var strictVariance = !(checkMode & 3 /* Callback */) && strictFunctionTypes && kind !== 161 /* MethodDeclaration */ && kind !== 160 /* MethodSignature */ && kind !== 162 /* Constructor */; var result = -1 /* True */; var sourceThisType = getThisTypeOfSignature(source); if (sourceThisType && sourceThisType !== voidType) { var targetThisType = getThisTypeOfSignature(target); if (targetThisType) { // void sources are assignable to anything. var related = !strictVariance && compareTypes(sourceThisType, targetThisType, /*reportErrors*/ false) || compareTypes(targetThisType, sourceThisType, reportErrors); if (!related) { if (reportErrors) { errorReporter(ts.Diagnostics.The_this_types_of_each_signature_are_incompatible); } return 0 /* False */; } result &= related; } } var paramCount = sourceRestType || targetRestType ? Math.min(sourceCount, targetCount) : Math.max(sourceCount, targetCount); var restIndex = sourceRestType || targetRestType ? paramCount - 1 : -1; for (var i = 0; i < paramCount; i++) { var sourceType = i === restIndex ? getRestTypeAtPosition(source, i) : getTypeAtPosition(source, i); var targetType = i === restIndex ? getRestTypeAtPosition(target, i) : getTypeAtPosition(target, i); // In order to ensure that any generic type Foo is at least co-variant with respect to T no matter // how Foo uses T, we need to relate parameters bi-variantly (given that parameters are input positions, // they naturally relate only contra-variantly). However, if the source and target parameters both have // function types with a single call signature, we know we are relating two callback parameters. In // that case it is sufficient to only relate the parameters of the signatures co-variantly because, // similar to return values, callback parameters are output positions. This means that a Promise, // where T is used only in callback parameter positions, will be co-variant (as opposed to bi-variant) // with respect to T. var sourceSig = checkMode & 3 /* Callback */ ? undefined : getSingleCallSignature(getNonNullableType(sourceType)); var targetSig = checkMode & 3 /* Callback */ ? undefined : getSingleCallSignature(getNonNullableType(targetType)); var callbacks = sourceSig && targetSig && !getTypePredicateOfSignature(sourceSig) && !getTypePredicateOfSignature(targetSig) && (getFalsyFlags(sourceType) & 98304 /* Nullable */) === (getFalsyFlags(targetType) & 98304 /* Nullable */); var related = callbacks ? compareSignaturesRelated(targetSig, sourceSig, (checkMode & 8 /* StrictArity */) | (strictVariance ? 2 /* StrictCallback */ : 1 /* BivariantCallback */), reportErrors, errorReporter, incompatibleErrorReporter, compareTypes, reportUnreliableMarkers) : !(checkMode & 3 /* Callback */) && !strictVariance && compareTypes(sourceType, targetType, /*reportErrors*/ false) || compareTypes(targetType, sourceType, reportErrors); // With strict arity, (x: number | undefined) => void is a subtype of (x?: number | undefined) => void if (related && checkMode & 8 /* StrictArity */ && i >= getMinArgumentCount(source) && i < getMinArgumentCount(target) && compareTypes(sourceType, targetType, /*reportErrors*/ false)) { related = 0 /* False */; } if (!related) { if (reportErrors) { errorReporter(ts.Diagnostics.Types_of_parameters_0_and_1_are_incompatible, ts.unescapeLeadingUnderscores(getParameterNameAtPosition(source, i)), ts.unescapeLeadingUnderscores(getParameterNameAtPosition(target, i))); } return 0 /* False */; } result &= related; } if (!(checkMode & 4 /* IgnoreReturnTypes */)) { // If a signature resolution is already in-flight, skip issuing a circularity error // here and just use the `any` type directly var targetReturnType = isResolvingReturnTypeOfSignature(target) ? anyType : target.declaration && isJSConstructor(target.declaration) ? getDeclaredTypeOfClassOrInterface(getMergedSymbol(target.declaration.symbol)) : getReturnTypeOfSignature(target); if (targetReturnType === voidType) { return result; } var sourceReturnType = isResolvingReturnTypeOfSignature(source) ? anyType : source.declaration && isJSConstructor(source.declaration) ? getDeclaredTypeOfClassOrInterface(getMergedSymbol(source.declaration.symbol)) : getReturnTypeOfSignature(source); // The following block preserves behavior forbidding boolean returning functions from being assignable to type guard returning functions var targetTypePredicate = getTypePredicateOfSignature(target); if (targetTypePredicate) { var sourceTypePredicate = getTypePredicateOfSignature(source); if (sourceTypePredicate) { result &= compareTypePredicateRelatedTo(sourceTypePredicate, targetTypePredicate, reportErrors, errorReporter, compareTypes); } else if (ts.isIdentifierTypePredicate(targetTypePredicate)) { if (reportErrors) { errorReporter(ts.Diagnostics.Signature_0_must_be_a_type_predicate, signatureToString(source)); } return 0 /* False */; } } else { // When relating callback signatures, we still need to relate return types bi-variantly as otherwise // the containing type wouldn't be co-variant. For example, interface Foo { add(cb: () => T): void } // wouldn't be co-variant for T without this rule. result &= checkMode & 1 /* BivariantCallback */ && compareTypes(targetReturnType, sourceReturnType, /*reportErrors*/ false) || compareTypes(sourceReturnType, targetReturnType, reportErrors); if (!result && reportErrors && incompatibleErrorReporter) { incompatibleErrorReporter(sourceReturnType, targetReturnType); } } } return result; } function compareTypePredicateRelatedTo(source, target, reportErrors, errorReporter, compareTypes) { if (source.kind !== target.kind) { if (reportErrors) { errorReporter(ts.Diagnostics.A_this_based_type_guard_is_not_compatible_with_a_parameter_based_type_guard); errorReporter(ts.Diagnostics.Type_predicate_0_is_not_assignable_to_1, typePredicateToString(source), typePredicateToString(target)); } return 0 /* False */; } if (source.kind === 1 /* Identifier */ || source.kind === 3 /* AssertsIdentifier */) { if (source.parameterIndex !== target.parameterIndex) { if (reportErrors) { errorReporter(ts.Diagnostics.Parameter_0_is_not_in_the_same_position_as_parameter_1, source.parameterName, target.parameterName); errorReporter(ts.Diagnostics.Type_predicate_0_is_not_assignable_to_1, typePredicateToString(source), typePredicateToString(target)); } return 0 /* False */; } } var related = source.type === target.type ? -1 /* True */ : source.type && target.type ? compareTypes(source.type, target.type, reportErrors) : 0 /* False */; if (related === 0 /* False */ && reportErrors) { errorReporter(ts.Diagnostics.Type_predicate_0_is_not_assignable_to_1, typePredicateToString(source), typePredicateToString(target)); } return related; } function isImplementationCompatibleWithOverload(implementation, overload) { var erasedSource = getErasedSignature(implementation); var erasedTarget = getErasedSignature(overload); // First see if the return types are compatible in either direction. var sourceReturnType = getReturnTypeOfSignature(erasedSource); var targetReturnType = getReturnTypeOfSignature(erasedTarget); if (targetReturnType === voidType || isTypeRelatedTo(targetReturnType, sourceReturnType, assignableRelation) || isTypeRelatedTo(sourceReturnType, targetReturnType, assignableRelation)) { return isSignatureAssignableTo(erasedSource, erasedTarget, /*ignoreReturnTypes*/ true); } return false; } function isEmptyResolvedType(t) { return t !== anyFunctionType && t.properties.length === 0 && t.callSignatures.length === 0 && t.constructSignatures.length === 0 && !t.stringIndexInfo && !t.numberIndexInfo; } function isEmptyObjectType(type) { return type.flags & 524288 /* Object */ ? !isGenericMappedType(type) && isEmptyResolvedType(resolveStructuredTypeMembers(type)) : type.flags & 67108864 /* NonPrimitive */ ? true : type.flags & 1048576 /* Union */ ? ts.some(type.types, isEmptyObjectType) : type.flags & 2097152 /* Intersection */ ? ts.every(type.types, isEmptyObjectType) : false; } function isEmptyAnonymousObjectType(type) { return !!(ts.getObjectFlags(type) & 16 /* Anonymous */) && isEmptyObjectType(type); } function isStringIndexSignatureOnlyType(type) { return type.flags & 524288 /* Object */ && !isGenericMappedType(type) && getPropertiesOfType(type).length === 0 && getIndexInfoOfType(type, 0 /* String */) && !getIndexInfoOfType(type, 1 /* Number */) || type.flags & 3145728 /* UnionOrIntersection */ && ts.every(type.types, isStringIndexSignatureOnlyType) || false; } function isEnumTypeRelatedTo(sourceSymbol, targetSymbol, errorReporter) { if (sourceSymbol === targetSymbol) { return true; } var id = getSymbolId(sourceSymbol) + "," + getSymbolId(targetSymbol); var entry = enumRelation.get(id); if (entry !== undefined && !(!(entry & 4 /* Reported */) && entry & 2 /* Failed */ && errorReporter)) { return !!(entry & 1 /* Succeeded */); } if (sourceSymbol.escapedName !== targetSymbol.escapedName || !(sourceSymbol.flags & 256 /* RegularEnum */) || !(targetSymbol.flags & 256 /* RegularEnum */)) { enumRelation.set(id, 2 /* Failed */ | 4 /* Reported */); return false; } var targetEnumType = getTypeOfSymbol(targetSymbol); for (var _i = 0, _a = getPropertiesOfType(getTypeOfSymbol(sourceSymbol)); _i < _a.length; _i++) { var property = _a[_i]; if (property.flags & 8 /* EnumMember */) { var targetProperty = getPropertyOfType(targetEnumType, property.escapedName); if (!targetProperty || !(targetProperty.flags & 8 /* EnumMember */)) { if (errorReporter) { errorReporter(ts.Diagnostics.Property_0_is_missing_in_type_1, ts.symbolName(property), typeToString(getDeclaredTypeOfSymbol(targetSymbol), /*enclosingDeclaration*/ undefined, 64 /* UseFullyQualifiedType */)); enumRelation.set(id, 2 /* Failed */ | 4 /* Reported */); } else { enumRelation.set(id, 2 /* Failed */); } return false; } } } enumRelation.set(id, 1 /* Succeeded */); return true; } function isSimpleTypeRelatedTo(source, target, relation, errorReporter) { var s = source.flags; var t = target.flags; if (t & 3 /* AnyOrUnknown */ || s & 131072 /* Never */ || source === wildcardType) return true; if (t & 131072 /* Never */) return false; if (s & 132 /* StringLike */ && t & 4 /* String */) return true; if (s & 128 /* StringLiteral */ && s & 1024 /* EnumLiteral */ && t & 128 /* StringLiteral */ && !(t & 1024 /* EnumLiteral */) && source.value === target.value) return true; if (s & 296 /* NumberLike */ && t & 8 /* Number */) return true; if (s & 256 /* NumberLiteral */ && s & 1024 /* EnumLiteral */ && t & 256 /* NumberLiteral */ && !(t & 1024 /* EnumLiteral */) && source.value === target.value) return true; if (s & 2112 /* BigIntLike */ && t & 64 /* BigInt */) return true; if (s & 528 /* BooleanLike */ && t & 16 /* Boolean */) return true; if (s & 12288 /* ESSymbolLike */ && t & 4096 /* ESSymbol */) return true; if (s & 32 /* Enum */ && t & 32 /* Enum */ && isEnumTypeRelatedTo(source.symbol, target.symbol, errorReporter)) return true; if (s & 1024 /* EnumLiteral */ && t & 1024 /* EnumLiteral */) { if (s & 1048576 /* Union */ && t & 1048576 /* Union */ && isEnumTypeRelatedTo(source.symbol, target.symbol, errorReporter)) return true; if (s & 2944 /* Literal */ && t & 2944 /* Literal */ && source.value === target.value && isEnumTypeRelatedTo(getParentOfSymbol(source.symbol), getParentOfSymbol(target.symbol), errorReporter)) return true; } if (s & 32768 /* Undefined */ && (!strictNullChecks || t & (32768 /* Undefined */ | 16384 /* Void */))) return true; if (s & 65536 /* Null */ && (!strictNullChecks || t & 65536 /* Null */)) return true; if (s & 524288 /* Object */ && t & 67108864 /* NonPrimitive */) return true; if (relation === assignableRelation || relation === comparableRelation) { if (s & 1 /* Any */) return true; // Type number or any numeric literal type is assignable to any numeric enum type or any // numeric enum literal type. This rule exists for backwards compatibility reasons because // bit-flag enum types sometimes look like literal enum types with numeric literal values. if (s & (8 /* Number */ | 256 /* NumberLiteral */) && !(s & 1024 /* EnumLiteral */) && (t & 32 /* Enum */ || t & 256 /* NumberLiteral */ && t & 1024 /* EnumLiteral */)) return true; } return false; } function isTypeRelatedTo(source, target, relation) { if (isFreshLiteralType(source)) { source = source.regularType; } if (isFreshLiteralType(target)) { target = target.regularType; } if (source === target) { return true; } if (relation !== identityRelation) { if (relation === comparableRelation && !(target.flags & 131072 /* Never */) && isSimpleTypeRelatedTo(target, source, relation) || isSimpleTypeRelatedTo(source, target, relation)) { return true; } } else { if (!(source.flags & 3145728 /* UnionOrIntersection */) && !(target.flags & 3145728 /* UnionOrIntersection */) && source.flags !== target.flags && !(source.flags & 66584576 /* Substructure */)) return false; } if (source.flags & 524288 /* Object */ && target.flags & 524288 /* Object */) { var related = relation.get(getRelationKey(source, target, 0 /* None */, relation)); if (related !== undefined) { return !!(related & 1 /* Succeeded */); } } if (source.flags & 66846720 /* StructuredOrInstantiable */ || target.flags & 66846720 /* StructuredOrInstantiable */) { return checkTypeRelatedTo(source, target, relation, /*errorNode*/ undefined); } return false; } function isIgnoredJsxProperty(source, sourceProp) { return ts.getObjectFlags(source) & 4096 /* JsxAttributes */ && !isUnhyphenatedJsxName(sourceProp.escapedName); } function getNormalizedType(type, writing) { while (true) { var t = isFreshLiteralType(type) ? type.regularType : ts.getObjectFlags(type) & 4 /* Reference */ && type.node ? createTypeReference(type.target, getTypeArguments(type)) : type.flags & 3145728 /* UnionOrIntersection */ ? getReducedType(type) : type.flags & 33554432 /* Substitution */ ? writing ? type.baseType : type.substitute : type.flags & 25165824 /* Simplifiable */ ? getSimplifiedType(type, writing) : type; if (t === type) break; type = t; } return type; } /** * Checks if 'source' is related to 'target' (e.g.: is a assignable to). * @param source The left-hand-side of the relation. * @param target The right-hand-side of the relation. * @param relation The relation considered. One of 'identityRelation', 'subtypeRelation', 'assignableRelation', or 'comparableRelation'. * Used as both to determine which checks are performed and as a cache of previously computed results. * @param errorNode The suggested node upon which all errors will be reported, if defined. This may or may not be the actual node used. * @param headMessage If the error chain should be prepended by a head message, then headMessage will be used. * @param containingMessageChain A chain of errors to prepend any new errors found. * @param errorOutputContainer Return the diagnostic. Do not log if 'skipLogging' is truthy. */ function checkTypeRelatedTo(source, target, relation, errorNode, headMessage, containingMessageChain, errorOutputContainer) { var errorInfo; var relatedInfo; var maybeKeys; var sourceStack; var targetStack; var maybeCount = 0; var depth = 0; var expandingFlags = 0 /* None */; var overflow = false; var overrideNextErrorInfo = 0; // How many `reportRelationError` calls should be skipped in the elaboration pyramid var lastSkippedInfo; var incompatibleStack = []; var inPropertyCheck = false; ts.Debug.assert(relation !== identityRelation || !errorNode, "no error reporting in identity checking"); var result = isRelatedTo(source, target, /*reportErrors*/ !!errorNode, headMessage); if (incompatibleStack.length) { reportIncompatibleStack(); } if (overflow) { var diag = error(errorNode || currentNode, ts.Diagnostics.Excessive_stack_depth_comparing_types_0_and_1, typeToString(source), typeToString(target)); if (errorOutputContainer) { (errorOutputContainer.errors || (errorOutputContainer.errors = [])).push(diag); } } else if (errorInfo) { if (containingMessageChain) { var chain = containingMessageChain(); if (chain) { ts.concatenateDiagnosticMessageChains(chain, errorInfo); errorInfo = chain; } } var relatedInformation = void 0; // Check if we should issue an extra diagnostic to produce a quickfix for a slightly incorrect import statement if (headMessage && errorNode && !result && source.symbol) { var links = getSymbolLinks(source.symbol); if (links.originatingImport && !ts.isImportCall(links.originatingImport)) { var helpfulRetry = checkTypeRelatedTo(getTypeOfSymbol(links.target), target, relation, /*errorNode*/ undefined); if (helpfulRetry) { // Likely an incorrect import. Issue a helpful diagnostic to produce a quickfix to change the import var diag_1 = ts.createDiagnosticForNode(links.originatingImport, ts.Diagnostics.Type_originates_at_this_import_A_namespace_style_import_cannot_be_called_or_constructed_and_will_cause_a_failure_at_runtime_Consider_using_a_default_import_or_import_require_here_instead); relatedInformation = ts.append(relatedInformation, diag_1); // Cause the error to appear with the error that triggered it } } } var diag = ts.createDiagnosticForNodeFromMessageChain(errorNode, errorInfo, relatedInformation); if (relatedInfo) { ts.addRelatedInfo.apply(void 0, __spreadArrays([diag], relatedInfo)); } if (errorOutputContainer) { (errorOutputContainer.errors || (errorOutputContainer.errors = [])).push(diag); } if (!errorOutputContainer || !errorOutputContainer.skipLogging) { diagnostics.add(diag); } } if (errorNode && errorOutputContainer && errorOutputContainer.skipLogging && result === 0 /* False */) { ts.Debug.assert(!!errorOutputContainer.errors, "missed opportunity to interact with error."); } return result !== 0 /* False */; function resetErrorInfo(saved) { errorInfo = saved.errorInfo; lastSkippedInfo = saved.lastSkippedInfo; incompatibleStack = saved.incompatibleStack; overrideNextErrorInfo = saved.overrideNextErrorInfo; relatedInfo = saved.relatedInfo; } function captureErrorCalculationState() { return { errorInfo: errorInfo, lastSkippedInfo: lastSkippedInfo, incompatibleStack: incompatibleStack.slice(), overrideNextErrorInfo: overrideNextErrorInfo, relatedInfo: !relatedInfo ? undefined : relatedInfo.slice() }; } function reportIncompatibleError(message, arg0, arg1, arg2, arg3) { overrideNextErrorInfo++; // Suppress the next relation error lastSkippedInfo = undefined; // Reset skipped info cache incompatibleStack.push([message, arg0, arg1, arg2, arg3]); } function reportIncompatibleStack() { var stack = incompatibleStack; incompatibleStack = []; var info = lastSkippedInfo; lastSkippedInfo = undefined; if (stack.length === 1) { reportError.apply(void 0, stack[0]); if (info) { // Actually do the last relation error reportRelationError.apply(void 0, __spreadArrays([/*headMessage*/ undefined], info)); } return; } // The first error will be the innermost, while the last will be the outermost - so by popping off the end, // we can build from left to right var path = ""; var secondaryRootErrors = []; while (stack.length) { var _a = stack.pop(), msg = _a[0], args = _a.slice(1); switch (msg.code) { case ts.Diagnostics.Types_of_property_0_are_incompatible.code: { // Parenthesize a `new` if there is one if (path.indexOf("new ") === 0) { path = "(" + path + ")"; } var str = "" + args[0]; // If leading, just print back the arg (irrespective of if it's a valid identifier) if (path.length === 0) { path = "" + str; } // Otherwise write a dotted name if possible else if (ts.isIdentifierText(str, compilerOptions.target)) { path = path + "." + str; } // Failing that, check if the name is already a computed name else if (str[0] === "[" && str[str.length - 1] === "]") { path = "" + path + str; } // And finally write out a computed name as a last resort else { path = path + "[" + str + "]"; } break; } case ts.Diagnostics.Call_signature_return_types_0_and_1_are_incompatible.code: case ts.Diagnostics.Construct_signature_return_types_0_and_1_are_incompatible.code: case ts.Diagnostics.Call_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code: case ts.Diagnostics.Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code: { if (path.length === 0) { // Don't flatten signature compatability errors at the start of a chain - instead prefer // to unify (the with no arguments bit is excessive for printback) and print them back var mappedMsg = msg; if (msg.code === ts.Diagnostics.Call_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code) { mappedMsg = ts.Diagnostics.Call_signature_return_types_0_and_1_are_incompatible; } else if (msg.code === ts.Diagnostics.Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code) { mappedMsg = ts.Diagnostics.Construct_signature_return_types_0_and_1_are_incompatible; } secondaryRootErrors.unshift([mappedMsg, args[0], args[1]]); } else { var prefix = (msg.code === ts.Diagnostics.Construct_signature_return_types_0_and_1_are_incompatible.code || msg.code === ts.Diagnostics.Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code) ? "new " : ""; var params = (msg.code === ts.Diagnostics.Call_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code || msg.code === ts.Diagnostics.Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1.code) ? "" : "..."; path = "" + prefix + path + "(" + params + ")"; } break; } default: return ts.Debug.fail("Unhandled Diagnostic: " + msg.code); } } if (path) { reportError(path[path.length - 1] === ")" ? ts.Diagnostics.The_types_returned_by_0_are_incompatible_between_these_types : ts.Diagnostics.The_types_of_0_are_incompatible_between_these_types, path); } else { // Remove the innermost secondary error as it will duplicate the error already reported by `reportRelationError` on entry secondaryRootErrors.shift(); } for (var _i = 0, secondaryRootErrors_1 = secondaryRootErrors; _i < secondaryRootErrors_1.length; _i++) { var _b = secondaryRootErrors_1[_i], msg = _b[0], args = _b.slice(1); var originalValue = msg.elidedInCompatabilityPyramid; msg.elidedInCompatabilityPyramid = false; // Teporarily override elision to ensure error is reported reportError.apply(void 0, __spreadArrays([msg], args)); msg.elidedInCompatabilityPyramid = originalValue; } if (info) { // Actually do the last relation error reportRelationError.apply(void 0, __spreadArrays([/*headMessage*/ undefined], info)); } } function reportError(message, arg0, arg1, arg2, arg3) { ts.Debug.assert(!!errorNode); if (incompatibleStack.length) reportIncompatibleStack(); if (message.elidedInCompatabilityPyramid) return; errorInfo = ts.chainDiagnosticMessages(errorInfo, message, arg0, arg1, arg2, arg3); } function associateRelatedInfo(info) { ts.Debug.assert(!!errorInfo); if (!relatedInfo) { relatedInfo = [info]; } else { relatedInfo.push(info); } } function reportRelationError(message, source, target) { if (incompatibleStack.length) reportIncompatibleStack(); var _a = getTypeNamesForErrorDisplay(source, target), sourceType = _a[0], targetType = _a[1]; if (target.flags & 262144 /* TypeParameter */) { var constraint = getBaseConstraintOfType(target); var constraintElab = constraint && isTypeAssignableTo(source, constraint); if (constraintElab) { reportError(ts.Diagnostics._0_is_assignable_to_the_constraint_of_type_1_but_1_could_be_instantiated_with_a_different_subtype_of_constraint_2, sourceType, targetType, typeToString(constraint)); } else { reportError(ts.Diagnostics._0_could_be_instantiated_with_an_arbitrary_type_which_could_be_unrelated_to_1, targetType, sourceType); } } if (!message) { if (relation === comparableRelation) { message = ts.Diagnostics.Type_0_is_not_comparable_to_type_1; } else if (sourceType === targetType) { message = ts.Diagnostics.Type_0_is_not_assignable_to_type_1_Two_different_types_with_this_name_exist_but_they_are_unrelated; } else { message = ts.Diagnostics.Type_0_is_not_assignable_to_type_1; } } reportError(message, sourceType, targetType); } function tryElaborateErrorsForPrimitivesAndObjects(source, target) { var sourceType = symbolValueDeclarationIsContextSensitive(source.symbol) ? typeToString(source, source.symbol.valueDeclaration) : typeToString(source); var targetType = symbolValueDeclarationIsContextSensitive(target.symbol) ? typeToString(target, target.symbol.valueDeclaration) : typeToString(target); if ((globalStringType === source && stringType === target) || (globalNumberType === source && numberType === target) || (globalBooleanType === source && booleanType === target) || (getGlobalESSymbolType(/*reportErrors*/ false) === source && esSymbolType === target)) { reportError(ts.Diagnostics._0_is_a_primitive_but_1_is_a_wrapper_object_Prefer_using_0_when_possible, targetType, sourceType); } } /** * Try and elaborate array and tuple errors. Returns false * if we have found an elaboration, or we should ignore * any other elaborations when relating the `source` and * `target` types. */ function tryElaborateArrayLikeErrors(source, target, reportErrors) { /** * The spec for elaboration is: * - If the source is a readonly tuple and the target is a mutable array or tuple, elaborate on mutability and skip property elaborations. * - If the source is a tuple then skip property elaborations if the target is an array or tuple. * - If the source is a readonly array and the target is a mutable array or tuple, elaborate on mutability and skip property elaborations. * - If the source an array then skip property elaborations if the target is a tuple. */ if (isTupleType(source)) { if (source.target.readonly && isMutableArrayOrTuple(target)) { if (reportErrors) { reportError(ts.Diagnostics.The_type_0_is_readonly_and_cannot_be_assigned_to_the_mutable_type_1, typeToString(source), typeToString(target)); } return false; } return isTupleType(target) || isArrayType(target); } if (isReadonlyArrayType(source) && isMutableArrayOrTuple(target)) { if (reportErrors) { reportError(ts.Diagnostics.The_type_0_is_readonly_and_cannot_be_assigned_to_the_mutable_type_1, typeToString(source), typeToString(target)); } return false; } if (isTupleType(target)) { return isArrayType(source); } return true; } /** * Compare two types and return * * Ternary.True if they are related with no assumptions, * * Ternary.Maybe if they are related with assumptions of other relationships, or * * Ternary.False if they are not related. */ function isRelatedTo(originalSource, originalTarget, reportErrors, headMessage, intersectionState) { if (reportErrors === void 0) { reportErrors = false; } if (intersectionState === void 0) { intersectionState = 0 /* None */; } // Before normalization: if `source` is type an object type, and `target` is primitive, // skip all the checks we don't need and just return `isSimpleTypeRelatedTo` result if (originalSource.flags & 524288 /* Object */ && originalTarget.flags & 131068 /* Primitive */) { if (isSimpleTypeRelatedTo(originalSource, originalTarget, relation, reportErrors ? reportError : undefined)) { return -1 /* True */; } reportErrorResults(originalSource, originalTarget, 0 /* False */, !!(ts.getObjectFlags(originalSource) & 4096 /* JsxAttributes */)); return 0 /* False */; } // Normalize the source and target types: Turn fresh literal types into regular literal types, // turn deferred type references into regular type references, simplify indexed access and // conditional types, and resolve substitution types to either the substitution (on the source // side) or the type variable (on the target side). var source = getNormalizedType(originalSource, /*writing*/ false); var target = getNormalizedType(originalTarget, /*writing*/ true); if (source === target) return -1 /* True */; if (relation === identityRelation) { return isIdenticalTo(source, target); } // We fastpath comparing a type parameter to exactly its constraint, as this is _super_ common, // and otherwise, for type parameters in large unions, causes us to need to compare the union to itself, // as we break down the _target_ union first, _then_ get the source constraint - so for every // member of the target, we attempt to find a match in the source. This avoids that in cases where // the target is exactly the constraint. if (source.flags & 262144 /* TypeParameter */ && getConstraintOfType(source) === target) { return -1 /* True */; } // Try to see if we're relating something like `Foo` -> `Bar | null | undefined`. // If so, reporting the `null` and `undefined` in the type is hardly useful. // First, see if we're even relating an object type to a union. // Then see if the target is stripped down to a single non-union type. // Note // * We actually want to remove null and undefined naively here (rather than using getNonNullableType), // since we don't want to end up with a worse error like "`Foo` is not assignable to `NonNullable`" // when dealing with generics. // * We also don't deal with primitive source types, since we already halt elaboration below. if (target.flags & 1048576 /* Union */ && source.flags & 524288 /* Object */ && target.types.length <= 3 && maybeTypeOfKind(target, 98304 /* Nullable */)) { var nullStrippedTarget = extractTypesOfKind(target, ~98304 /* Nullable */); if (!(nullStrippedTarget.flags & (1048576 /* Union */ | 131072 /* Never */))) { if (source === nullStrippedTarget) return -1 /* True */; target = nullStrippedTarget; } } if (relation === comparableRelation && !(target.flags & 131072 /* Never */) && isSimpleTypeRelatedTo(target, source, relation) || isSimpleTypeRelatedTo(source, target, relation, reportErrors ? reportError : undefined)) return -1 /* True */; var isComparingJsxAttributes = !!(ts.getObjectFlags(source) & 4096 /* JsxAttributes */); var isPerformingExcessPropertyChecks = !(intersectionState & 2 /* Target */) && (isObjectLiteralType(source) && ts.getObjectFlags(source) & 32768 /* FreshLiteral */); if (isPerformingExcessPropertyChecks) { if (hasExcessProperties(source, target, reportErrors)) { if (reportErrors) { reportRelationError(headMessage, source, target); } return 0 /* False */; } } var isPerformingCommonPropertyChecks = relation !== comparableRelation && !(intersectionState & 2 /* Target */) && source.flags & (131068 /* Primitive */ | 524288 /* Object */ | 2097152 /* Intersection */) && source !== globalObjectType && target.flags & (524288 /* Object */ | 2097152 /* Intersection */) && isWeakType(target) && (getPropertiesOfType(source).length > 0 || typeHasCallOrConstructSignatures(source)); if (isPerformingCommonPropertyChecks && !hasCommonProperties(source, target, isComparingJsxAttributes)) { if (reportErrors) { var calls = getSignaturesOfType(source, 0 /* Call */); var constructs = getSignaturesOfType(source, 1 /* Construct */); if (calls.length > 0 && isRelatedTo(getReturnTypeOfSignature(calls[0]), target, /*reportErrors*/ false) || constructs.length > 0 && isRelatedTo(getReturnTypeOfSignature(constructs[0]), target, /*reportErrors*/ false)) { reportError(ts.Diagnostics.Value_of_type_0_has_no_properties_in_common_with_type_1_Did_you_mean_to_call_it, typeToString(source), typeToString(target)); } else { reportError(ts.Diagnostics.Type_0_has_no_properties_in_common_with_type_1, typeToString(source), typeToString(target)); } } return 0 /* False */; } var result = 0 /* False */; var saveErrorInfo = captureErrorCalculationState(); // Note that these checks are specifically ordered to produce correct results. In particular, // we need to deconstruct unions before intersections (because unions are always at the top), // and we need to handle "each" relations before "some" relations for the same kind of type. if (source.flags & 1048576 /* Union */) { result = relation === comparableRelation ? someTypeRelatedToType(source, target, reportErrors && !(source.flags & 131068 /* Primitive */), intersectionState) : eachTypeRelatedToType(source, target, reportErrors && !(source.flags & 131068 /* Primitive */), intersectionState); } else { if (target.flags & 1048576 /* Union */) { result = typeRelatedToSomeType(getRegularTypeOfObjectLiteral(source), target, reportErrors && !(source.flags & 131068 /* Primitive */) && !(target.flags & 131068 /* Primitive */)); } else if (target.flags & 2097152 /* Intersection */) { result = typeRelatedToEachType(getRegularTypeOfObjectLiteral(source), target, reportErrors, 2 /* Target */); } else if (source.flags & 2097152 /* Intersection */) { // Check to see if any constituents of the intersection are immediately related to the target. // // Don't report errors though. Checking whether a constituent is related to the source is not actually // useful and leads to some confusing error messages. Instead it is better to let the below checks // take care of this, or to not elaborate at all. For instance, // // - For an object type (such as 'C = A & B'), users are usually more interested in structural errors. // // - For a union type (such as '(A | B) = (C & D)'), it's better to hold onto the whole intersection // than to report that 'D' is not assignable to 'A' or 'B'. // // - For a primitive type or type parameter (such as 'number = A & B') there is no point in // breaking the intersection apart. result = someTypeRelatedToType(source, target, /*reportErrors*/ false, 1 /* Source */); } if (!result && (source.flags & 66846720 /* StructuredOrInstantiable */ || target.flags & 66846720 /* StructuredOrInstantiable */)) { if (result = recursiveTypeRelatedTo(source, target, reportErrors, intersectionState)) { resetErrorInfo(saveErrorInfo); } } } if (!result && source.flags & (2097152 /* Intersection */ | 262144 /* TypeParameter */)) { // The combined constraint of an intersection type is the intersection of the constraints of // the constituents. When an intersection type contains instantiable types with union type // constraints, there are situations where we need to examine the combined constraint. One is // when the target is a union type. Another is when the intersection contains types belonging // to one of the disjoint domains. For example, given type variables T and U, each with the // constraint 'string | number', the combined constraint of 'T & U' is 'string | number' and // we need to check this constraint against a union on the target side. Also, given a type // variable V constrained to 'string | number', 'V & number' has a combined constraint of // 'string & number | number & number' which reduces to just 'number'. // This also handles type parameters, as a type parameter with a union constraint compared against a union // needs to have its constraint hoisted into an intersection with said type parameter, this way // the type param can be compared with itself in the target (with the influence of its constraint to match other parts) // For example, if `T extends 1 | 2` and `U extends 2 | 3` and we compare `T & U` to `T & U & (1 | 2 | 3)` var constraint = getEffectiveConstraintOfIntersection(source.flags & 2097152 /* Intersection */ ? source.types : [source], !!(target.flags & 1048576 /* Union */)); if (constraint && (source.flags & 2097152 /* Intersection */ || target.flags & 1048576 /* Union */)) { if (everyType(constraint, function (c) { return c !== source; })) { // Skip comparison if expansion contains the source itself // TODO: Stack errors so we get a pyramid for the "normal" comparison above, _and_ a second for this if (result = isRelatedTo(constraint, target, /*reportErrors*/ false, /*headMessage*/ undefined, intersectionState)) { resetErrorInfo(saveErrorInfo); } } } } // For certain combinations involving intersections and optional, excess, or mismatched properties we need // an extra property check where the intersection is viewed as a single object. The following are motivating // examples that all should be errors, but aren't without this extra property check: // // let obj: { a: { x: string } } & { c: number } = { a: { x: 'hello', y: 2 }, c: 5 }; // Nested excess property // // declare let wrong: { a: { y: string } }; // let weak: { a?: { x?: number } } & { c?: string } = wrong; // Nested weak object type // // function foo(x: { a?: string }, y: T & { a: boolean }) { // x = y; // Mismatched property in source intersection // } // // We suppress recursive intersection property checks because they can generate lots of work when relating // recursive intersections that are structurally similar but not exactly identical. See #37854. if (result && !inPropertyCheck && (target.flags & 2097152 /* Intersection */ && (isPerformingExcessPropertyChecks || isPerformingCommonPropertyChecks) || isNonGenericObjectType(target) && !isArrayType(target) && !isTupleType(target) && source.flags & 2097152 /* Intersection */ && getApparentType(source).flags & 3670016 /* StructuredType */ && !ts.some(source.types, function (t) { return !!(ts.getObjectFlags(t) & 2097152 /* NonInferrableType */); }))) { inPropertyCheck = true; result &= recursiveTypeRelatedTo(source, target, reportErrors, 4 /* PropertyCheck */); inPropertyCheck = false; } reportErrorResults(source, target, result, isComparingJsxAttributes); return result; function reportErrorResults(source, target, result, isComparingJsxAttributes) { if (!result && reportErrors) { source = originalSource.aliasSymbol ? originalSource : source; target = originalTarget.aliasSymbol ? originalTarget : target; var maybeSuppress = overrideNextErrorInfo > 0; if (maybeSuppress) { overrideNextErrorInfo--; } if (source.flags & 524288 /* Object */ && target.flags & 524288 /* Object */) { var currentError = errorInfo; tryElaborateArrayLikeErrors(source, target, reportErrors); if (errorInfo !== currentError) { maybeSuppress = !!errorInfo; } } if (source.flags & 524288 /* Object */ && target.flags & 131068 /* Primitive */) { tryElaborateErrorsForPrimitivesAndObjects(source, target); } else if (source.symbol && source.flags & 524288 /* Object */ && globalObjectType === source) { reportError(ts.Diagnostics.The_Object_type_is_assignable_to_very_few_other_types_Did_you_mean_to_use_the_any_type_instead); } else if (isComparingJsxAttributes && target.flags & 2097152 /* Intersection */) { var targetTypes = target.types; var intrinsicAttributes = getJsxType(JsxNames.IntrinsicAttributes, errorNode); var intrinsicClassAttributes = getJsxType(JsxNames.IntrinsicClassAttributes, errorNode); if (intrinsicAttributes !== errorType && intrinsicClassAttributes !== errorType && (ts.contains(targetTypes, intrinsicAttributes) || ts.contains(targetTypes, intrinsicClassAttributes))) { // do not report top error return result; } } else { errorInfo = elaborateNeverIntersection(errorInfo, originalTarget); } if (!headMessage && maybeSuppress) { lastSkippedInfo = [source, target]; // Used by, eg, missing property checking to replace the top-level message with a more informative one return result; } reportRelationError(headMessage, source, target); } } } function isIdenticalTo(source, target) { var flags = source.flags & target.flags; if (!(flags & 66584576 /* Substructure */)) { return 0 /* False */; } if (flags & 3145728 /* UnionOrIntersection */) { var result_5 = eachTypeRelatedToSomeType(source, target); if (result_5) { result_5 &= eachTypeRelatedToSomeType(target, source); } return result_5; } return recursiveTypeRelatedTo(source, target, /*reportErrors*/ false, 0 /* None */); } function getTypeOfPropertyInTypes(types, name) { var appendPropType = function (propTypes, type) { type = getApparentType(type); var prop = type.flags & 3145728 /* UnionOrIntersection */ ? getPropertyOfUnionOrIntersectionType(type, name) : getPropertyOfObjectType(type, name); var propType = prop && getTypeOfSymbol(prop) || isNumericLiteralName(name) && getIndexTypeOfType(type, 1 /* Number */) || getIndexTypeOfType(type, 0 /* String */) || undefinedType; return ts.append(propTypes, propType); }; return getUnionType(ts.reduceLeft(types, appendPropType, /*initial*/ undefined) || ts.emptyArray); } function hasExcessProperties(source, target, reportErrors) { if (!isExcessPropertyCheckTarget(target) || !noImplicitAny && ts.getObjectFlags(target) & 16384 /* JSLiteral */) { return false; // Disable excess property checks on JS literals to simulate having an implicit "index signature" - but only outside of noImplicitAny } var isComparingJsxAttributes = !!(ts.getObjectFlags(source) & 4096 /* JsxAttributes */); if ((relation === assignableRelation || relation === comparableRelation) && (isTypeSubsetOf(globalObjectType, target) || (!isComparingJsxAttributes && isEmptyObjectType(target)))) { return false; } var reducedTarget = target; var checkTypes; if (target.flags & 1048576 /* Union */) { reducedTarget = findMatchingDiscriminantType(source, target, isRelatedTo) || filterPrimitivesIfContainsNonPrimitive(target); checkTypes = reducedTarget.flags & 1048576 /* Union */ ? reducedTarget.types : [reducedTarget]; } var _loop_13 = function (prop) { if (shouldCheckAsExcessProperty(prop, source.symbol) && !isIgnoredJsxProperty(source, prop)) { if (!isKnownProperty(reducedTarget, prop.escapedName, isComparingJsxAttributes)) { if (reportErrors) { // Report error in terms of object types in the target as those are the only ones // we check in isKnownProperty. var errorTarget = filterType(reducedTarget, isExcessPropertyCheckTarget); // We know *exactly* where things went wrong when comparing the types. // Use this property as the error node as this will be more helpful in // reasoning about what went wrong. if (!errorNode) return { value: ts.Debug.fail() }; if (ts.isJsxAttributes(errorNode) || ts.isJsxOpeningLikeElement(errorNode) || ts.isJsxOpeningLikeElement(errorNode.parent)) { // JsxAttributes has an object-literal flag and undergo same type-assignablity check as normal object-literal. // However, using an object-literal error message will be very confusing to the users so we give different a message. // TODO: Spelling suggestions for excess jsx attributes (needs new diagnostic messages) if (prop.valueDeclaration && ts.isJsxAttribute(prop.valueDeclaration) && ts.getSourceFileOfNode(errorNode) === ts.getSourceFileOfNode(prop.valueDeclaration.name)) { // Note that extraneous children (as in `extra`) don't pass this check, // since `children` is a SyntaxKind.PropertySignature instead of a SyntaxKind.JsxAttribute. errorNode = prop.valueDeclaration.name; } reportError(ts.Diagnostics.Property_0_does_not_exist_on_type_1, symbolToString(prop), typeToString(errorTarget)); } else { // use the property's value declaration if the property is assigned inside the literal itself var objectLiteralDeclaration_1 = source.symbol && ts.firstOrUndefined(source.symbol.declarations); var suggestion = void 0; if (prop.valueDeclaration && ts.findAncestor(prop.valueDeclaration, function (d) { return d === objectLiteralDeclaration_1; }) && ts.getSourceFileOfNode(objectLiteralDeclaration_1) === ts.getSourceFileOfNode(errorNode)) { var propDeclaration = prop.valueDeclaration; ts.Debug.assertNode(propDeclaration, ts.isObjectLiteralElementLike); errorNode = propDeclaration; var name = propDeclaration.name; if (ts.isIdentifier(name)) { suggestion = getSuggestionForNonexistentProperty(name, errorTarget); } } if (suggestion !== undefined) { reportError(ts.Diagnostics.Object_literal_may_only_specify_known_properties_but_0_does_not_exist_in_type_1_Did_you_mean_to_write_2, symbolToString(prop), typeToString(errorTarget), suggestion); } else { reportError(ts.Diagnostics.Object_literal_may_only_specify_known_properties_and_0_does_not_exist_in_type_1, symbolToString(prop), typeToString(errorTarget)); } } } return { value: true }; } if (checkTypes && !isRelatedTo(getTypeOfSymbol(prop), getTypeOfPropertyInTypes(checkTypes, prop.escapedName), reportErrors)) { if (reportErrors) { reportIncompatibleError(ts.Diagnostics.Types_of_property_0_are_incompatible, symbolToString(prop)); } return { value: true }; } } }; for (var _i = 0, _a = getPropertiesOfType(source); _i < _a.length; _i++) { var prop = _a[_i]; var state_5 = _loop_13(prop); if (typeof state_5 === "object") return state_5.value; } return false; } function shouldCheckAsExcessProperty(prop, container) { return prop.valueDeclaration && container.valueDeclaration && prop.valueDeclaration.parent === container.valueDeclaration; } function eachTypeRelatedToSomeType(source, target) { var result = -1 /* True */; var sourceTypes = source.types; for (var _i = 0, sourceTypes_1 = sourceTypes; _i < sourceTypes_1.length; _i++) { var sourceType = sourceTypes_1[_i]; var related = typeRelatedToSomeType(sourceType, target, /*reportErrors*/ false); if (!related) { return 0 /* False */; } result &= related; } return result; } function typeRelatedToSomeType(source, target, reportErrors) { var targetTypes = target.types; if (target.flags & 1048576 /* Union */ && containsType(targetTypes, source)) { return -1 /* True */; } for (var _i = 0, targetTypes_1 = targetTypes; _i < targetTypes_1.length; _i++) { var type = targetTypes_1[_i]; var related = isRelatedTo(source, type, /*reportErrors*/ false); if (related) { return related; } } if (reportErrors) { var bestMatchingType = getBestMatchingType(source, target, isRelatedTo); isRelatedTo(source, bestMatchingType || targetTypes[targetTypes.length - 1], /*reportErrors*/ true); } return 0 /* False */; } function typeRelatedToEachType(source, target, reportErrors, intersectionState) { var result = -1 /* True */; var targetTypes = target.types; for (var _i = 0, targetTypes_2 = targetTypes; _i < targetTypes_2.length; _i++) { var targetType = targetTypes_2[_i]; var related = isRelatedTo(source, targetType, reportErrors, /*headMessage*/ undefined, intersectionState); if (!related) { return 0 /* False */; } result &= related; } return result; } function someTypeRelatedToType(source, target, reportErrors, intersectionState) { var sourceTypes = source.types; if (source.flags & 1048576 /* Union */ && containsType(sourceTypes, target)) { return -1 /* True */; } var len = sourceTypes.length; for (var i = 0; i < len; i++) { var related = isRelatedTo(sourceTypes[i], target, reportErrors && i === len - 1, /*headMessage*/ undefined, intersectionState); if (related) { return related; } } return 0 /* False */; } function eachTypeRelatedToType(source, target, reportErrors, intersectionState) { var result = -1 /* True */; var sourceTypes = source.types; for (var i = 0; i < sourceTypes.length; i++) { var sourceType = sourceTypes[i]; if (target.flags & 1048576 /* Union */ && target.types.length === sourceTypes.length) { // many unions are mappings of one another; in such cases, simply comparing members at the same index can shortcut the comparison var related_1 = isRelatedTo(sourceType, target.types[i], /*reportErrors*/ false, /*headMessage*/ undefined, intersectionState); if (related_1) { result &= related_1; continue; } } var related = isRelatedTo(sourceType, target, reportErrors, /*headMessage*/ undefined, intersectionState); if (!related) { return 0 /* False */; } result &= related; } return result; } function typeArgumentsRelatedTo(sources, targets, variances, reportErrors, intersectionState) { if (sources === void 0) { sources = ts.emptyArray; } if (targets === void 0) { targets = ts.emptyArray; } if (variances === void 0) { variances = ts.emptyArray; } if (sources.length !== targets.length && relation === identityRelation) { return 0 /* False */; } var length = sources.length <= targets.length ? sources.length : targets.length; var result = -1 /* True */; for (var i = 0; i < length; i++) { // When variance information isn't available we default to covariance. This happens // in the process of computing variance information for recursive types and when // comparing 'this' type arguments. var varianceFlags = i < variances.length ? variances[i] : 1 /* Covariant */; var variance = varianceFlags & 7 /* VarianceMask */; // We ignore arguments for independent type parameters (because they're never witnessed). if (variance !== 4 /* Independent */) { var s = sources[i]; var t = targets[i]; var related = -1 /* True */; if (varianceFlags & 8 /* Unmeasurable */) { // Even an `Unmeasurable` variance works out without a structural check if the source and target are _identical_. // We can't simply assume invariance, because `Unmeasurable` marks nonlinear relations, for example, a relation tained by // the `-?` modifier in a mapped type (where, no matter how the inputs are related, the outputs still might not be) related = relation === identityRelation ? isRelatedTo(s, t, /*reportErrors*/ false) : compareTypesIdentical(s, t); } else if (variance === 1 /* Covariant */) { related = isRelatedTo(s, t, reportErrors, /*headMessage*/ undefined, intersectionState); } else if (variance === 2 /* Contravariant */) { related = isRelatedTo(t, s, reportErrors, /*headMessage*/ undefined, intersectionState); } else if (variance === 3 /* Bivariant */) { // In the bivariant case we first compare contravariantly without reporting // errors. Then, if that doesn't succeed, we compare covariantly with error // reporting. Thus, error elaboration will be based on the the covariant check, // which is generally easier to reason about. related = isRelatedTo(t, s, /*reportErrors*/ false); if (!related) { related = isRelatedTo(s, t, reportErrors, /*headMessage*/ undefined, intersectionState); } } else { // In the invariant case we first compare covariantly, and only when that // succeeds do we proceed to compare contravariantly. Thus, error elaboration // will typically be based on the covariant check. related = isRelatedTo(s, t, reportErrors, /*headMessage*/ undefined, intersectionState); if (related) { related &= isRelatedTo(t, s, reportErrors, /*headMessage*/ undefined, intersectionState); } } if (!related) { return 0 /* False */; } result &= related; } } return result; } // Determine if possibly recursive types are related. First, check if the result is already available in the global cache. // Second, check if we have already started a comparison of the given two types in which case we assume the result to be true. // Third, check if both types are part of deeply nested chains of generic type instantiations and if so assume the types are // equal and infinitely expanding. Fourth, if we have reached a depth of 100 nested comparisons, assume we have runaway recursion // and issue an error. Otherwise, actually compare the structure of the two types. function recursiveTypeRelatedTo(source, target, reportErrors, intersectionState) { if (overflow) { return 0 /* False */; } var id = getRelationKey(source, target, intersectionState | (inPropertyCheck ? 8 /* InPropertyCheck */ : 0), relation); var entry = relation.get(id); if (entry !== undefined) { if (reportErrors && entry & 2 /* Failed */ && !(entry & 4 /* Reported */)) { // We are elaborating errors and the cached result is an unreported failure. The result will be reported // as a failure, and should be updated as a reported failure by the bottom of this function. } else { if (outofbandVarianceMarkerHandler) { // We're in the middle of variance checking - integrate any unmeasurable/unreliable flags from this cached component var saved = entry & 24 /* ReportsMask */; if (saved & 8 /* ReportsUnmeasurable */) { instantiateType(source, makeFunctionTypeMapper(reportUnmeasurableMarkers)); } if (saved & 16 /* ReportsUnreliable */) { instantiateType(source, makeFunctionTypeMapper(reportUnreliableMarkers)); } } return entry & 1 /* Succeeded */ ? -1 /* True */ : 0 /* False */; } } if (!maybeKeys) { maybeKeys = []; sourceStack = []; targetStack = []; } else { for (var i = 0; i < maybeCount; i++) { // If source and target are already being compared, consider them related with assumptions if (id === maybeKeys[i]) { return 1 /* Maybe */; } } if (depth === 100) { overflow = true; return 0 /* False */; } } var maybeStart = maybeCount; maybeKeys[maybeCount] = id; maybeCount++; sourceStack[depth] = source; targetStack[depth] = target; depth++; var saveExpandingFlags = expandingFlags; if (!(expandingFlags & 1 /* Source */) && isDeeplyNestedType(source, sourceStack, depth)) expandingFlags |= 1 /* Source */; if (!(expandingFlags & 2 /* Target */) && isDeeplyNestedType(target, targetStack, depth)) expandingFlags |= 2 /* Target */; var originalHandler; var propagatingVarianceFlags = 0; if (outofbandVarianceMarkerHandler) { originalHandler = outofbandVarianceMarkerHandler; outofbandVarianceMarkerHandler = function (onlyUnreliable) { propagatingVarianceFlags |= onlyUnreliable ? 16 /* ReportsUnreliable */ : 8 /* ReportsUnmeasurable */; return originalHandler(onlyUnreliable); }; } var result = expandingFlags !== 3 /* Both */ ? structuredTypeRelatedTo(source, target, reportErrors, intersectionState) : 1 /* Maybe */; if (outofbandVarianceMarkerHandler) { outofbandVarianceMarkerHandler = originalHandler; } expandingFlags = saveExpandingFlags; depth--; if (result) { if (result === -1 /* True */ || depth === 0) { // If result is definitely true, record all maybe keys as having succeeded for (var i = maybeStart; i < maybeCount; i++) { relation.set(maybeKeys[i], 1 /* Succeeded */ | propagatingVarianceFlags); } maybeCount = maybeStart; } } else { // A false result goes straight into global cache (when something is false under // assumptions it will also be false without assumptions) relation.set(id, (reportErrors ? 4 /* Reported */ : 0) | 2 /* Failed */ | propagatingVarianceFlags); maybeCount = maybeStart; } return result; } function structuredTypeRelatedTo(source, target, reportErrors, intersectionState) { if (intersectionState & 4 /* PropertyCheck */) { return propertiesRelatedTo(source, target, reportErrors, /*excludedProperties*/ undefined, 0 /* None */); } var flags = source.flags & target.flags; if (relation === identityRelation && !(flags & 524288 /* Object */)) { if (flags & 4194304 /* Index */) { return isRelatedTo(source.type, target.type, /*reportErrors*/ false); } var result_6 = 0 /* False */; if (flags & 8388608 /* IndexedAccess */) { if (result_6 = isRelatedTo(source.objectType, target.objectType, /*reportErrors*/ false)) { if (result_6 &= isRelatedTo(source.indexType, target.indexType, /*reportErrors*/ false)) { return result_6; } } } if (flags & 16777216 /* Conditional */) { if (source.root.isDistributive === target.root.isDistributive) { if (result_6 = isRelatedTo(source.checkType, target.checkType, /*reportErrors*/ false)) { if (result_6 &= isRelatedTo(source.extendsType, target.extendsType, /*reportErrors*/ false)) { if (result_6 &= isRelatedTo(getTrueTypeFromConditionalType(source), getTrueTypeFromConditionalType(target), /*reportErrors*/ false)) { if (result_6 &= isRelatedTo(getFalseTypeFromConditionalType(source), getFalseTypeFromConditionalType(target), /*reportErrors*/ false)) { return result_6; } } } } } } if (flags & 33554432 /* Substitution */) { return isRelatedTo(source.substitute, target.substitute, /*reportErrors*/ false); } return 0 /* False */; } var result; var originalErrorInfo; var varianceCheckFailed = false; var saveErrorInfo = captureErrorCalculationState(); // We limit alias variance probing to only object and conditional types since their alias behavior // is more predictable than other, interned types, which may or may not have an alias depending on // the order in which things were checked. if (source.flags & (524288 /* Object */ | 16777216 /* Conditional */) && source.aliasSymbol && source.aliasTypeArguments && source.aliasSymbol === target.aliasSymbol && !(source.aliasTypeArgumentsContainsMarker || target.aliasTypeArgumentsContainsMarker)) { var variances = getAliasVariances(source.aliasSymbol); if (variances === ts.emptyArray) { return 1 /* Maybe */; } var varianceResult = relateVariances(source.aliasTypeArguments, target.aliasTypeArguments, variances, intersectionState); if (varianceResult !== undefined) { return varianceResult; } } if (target.flags & 262144 /* TypeParameter */) { // A source type { [P in Q]: X } is related to a target type T if keyof T is related to Q and X is related to T[Q]. if (ts.getObjectFlags(source) & 32 /* Mapped */ && isRelatedTo(getIndexType(target), getConstraintTypeFromMappedType(source))) { if (!(getMappedTypeModifiers(source) & 4 /* IncludeOptional */)) { var templateType = getTemplateTypeFromMappedType(source); var indexedAccessType = getIndexedAccessType(target, getTypeParameterFromMappedType(source)); if (result = isRelatedTo(templateType, indexedAccessType, reportErrors)) { return result; } } } } else if (target.flags & 4194304 /* Index */) { // A keyof S is related to a keyof T if T is related to S. if (source.flags & 4194304 /* Index */) { if (result = isRelatedTo(target.type, source.type, /*reportErrors*/ false)) { return result; } } // A type S is assignable to keyof T if S is assignable to keyof C, where C is the // simplified form of T or, if T doesn't simplify, the constraint of T. var constraint = getSimplifiedTypeOrConstraint(target.type); if (constraint) { // We require Ternary.True here such that circular constraints don't cause // false positives. For example, given 'T extends { [K in keyof T]: string }', // 'keyof T' has itself as its constraint and produces a Ternary.Maybe when // related to other types. if (isRelatedTo(source, getIndexType(constraint, target.stringsOnly), reportErrors) === -1 /* True */) { return -1 /* True */; } } } else if (target.flags & 8388608 /* IndexedAccess */) { // A type S is related to a type T[K] if S is related to C, where C is the base // constraint of T[K] for writing. if (relation !== identityRelation) { var objectType = target.objectType; var indexType = target.indexType; var baseObjectType = getBaseConstraintOfType(objectType) || objectType; var baseIndexType = getBaseConstraintOfType(indexType) || indexType; if (!isGenericObjectType(baseObjectType) && !isGenericIndexType(baseIndexType)) { var accessFlags = 2 /* Writing */ | (baseObjectType !== objectType ? 1 /* NoIndexSignatures */ : 0); var constraint = getIndexedAccessTypeOrUndefined(baseObjectType, baseIndexType, /*accessNode*/ undefined, accessFlags); if (constraint && (result = isRelatedTo(source, constraint, reportErrors))) { return result; } } } } else if (isGenericMappedType(target)) { // A source type T is related to a target type { [P in X]: T[P] } var template = getTemplateTypeFromMappedType(target); var modifiers = getMappedTypeModifiers(target); if (!(modifiers & 8 /* ExcludeOptional */)) { if (template.flags & 8388608 /* IndexedAccess */ && template.objectType === source && template.indexType === getTypeParameterFromMappedType(target)) { return -1 /* True */; } if (!isGenericMappedType(source)) { var targetConstraint = getConstraintTypeFromMappedType(target); var sourceKeys = getIndexType(source, /*stringsOnly*/ undefined, /*noIndexSignatures*/ true); var includeOptional = modifiers & 4 /* IncludeOptional */; var filteredByApplicability = includeOptional ? intersectTypes(targetConstraint, sourceKeys) : undefined; // A source type T is related to a target type { [P in Q]: X } if Q is related to keyof T and T[Q] is related to X. // A source type T is related to a target type { [P in Q]?: X } if some constituent Q' of Q is related to keyof T and T[Q'] is related to X. if (includeOptional ? !(filteredByApplicability.flags & 131072 /* Never */) : isRelatedTo(targetConstraint, sourceKeys)) { var typeParameter = getTypeParameterFromMappedType(target); var indexingType = filteredByApplicability ? getIntersectionType([filteredByApplicability, typeParameter]) : typeParameter; var indexedAccessType = getIndexedAccessType(source, indexingType); var templateType = getTemplateTypeFromMappedType(target); if (result = isRelatedTo(indexedAccessType, templateType, reportErrors)) { return result; } } originalErrorInfo = errorInfo; resetErrorInfo(saveErrorInfo); } } } if (source.flags & 8650752 /* TypeVariable */) { if (source.flags & 8388608 /* IndexedAccess */ && target.flags & 8388608 /* IndexedAccess */) { // A type S[K] is related to a type T[J] if S is related to T and K is related to J. if (result = isRelatedTo(source.objectType, target.objectType, reportErrors)) { result &= isRelatedTo(source.indexType, target.indexType, reportErrors); } if (result) { resetErrorInfo(saveErrorInfo); return result; } } else { var constraint = getConstraintOfType(source); if (!constraint || (source.flags & 262144 /* TypeParameter */ && constraint.flags & 1 /* Any */)) { // A type variable with no constraint is not related to the non-primitive object type. if (result = isRelatedTo(emptyObjectType, extractTypesOfKind(target, ~67108864 /* NonPrimitive */))) { resetErrorInfo(saveErrorInfo); return result; } } // hi-speed no-this-instantiation check (less accurate, but avoids costly `this`-instantiation when the constraint will suffice), see #28231 for report on why this is needed else if (result = isRelatedTo(constraint, target, /*reportErrors*/ false, /*headMessage*/ undefined, intersectionState)) { resetErrorInfo(saveErrorInfo); return result; } // slower, fuller, this-instantiated check (necessary when comparing raw `this` types from base classes), see `subclassWithPolymorphicThisIsAssignable.ts` test for example else if (result = isRelatedTo(getTypeWithThisArgument(constraint, source), target, reportErrors, /*headMessage*/ undefined, intersectionState)) { resetErrorInfo(saveErrorInfo); return result; } } } else if (source.flags & 4194304 /* Index */) { if (result = isRelatedTo(keyofConstraintType, target, reportErrors)) { resetErrorInfo(saveErrorInfo); return result; } } else if (source.flags & 16777216 /* Conditional */) { if (target.flags & 16777216 /* Conditional */) { // Two conditional types 'T1 extends U1 ? X1 : Y1' and 'T2 extends U2 ? X2 : Y2' are related if // one of T1 and T2 is related to the other, U1 and U2 are identical types, X1 is related to X2, // and Y1 is related to Y2. var sourceParams = source.root.inferTypeParameters; var sourceExtends = source.extendsType; var mapper = void 0; if (sourceParams) { // If the source has infer type parameters, we instantiate them in the context of the target var ctx = createInferenceContext(sourceParams, /*signature*/ undefined, 0 /* None */, isRelatedTo); inferTypes(ctx.inferences, target.extendsType, sourceExtends, 128 /* NoConstraints */ | 256 /* AlwaysStrict */); sourceExtends = instantiateType(sourceExtends, ctx.mapper); mapper = ctx.mapper; } if (isTypeIdenticalTo(sourceExtends, target.extendsType) && (isRelatedTo(source.checkType, target.checkType) || isRelatedTo(target.checkType, source.checkType))) { if (result = isRelatedTo(instantiateType(getTrueTypeFromConditionalType(source), mapper), getTrueTypeFromConditionalType(target), reportErrors)) { result &= isRelatedTo(getFalseTypeFromConditionalType(source), getFalseTypeFromConditionalType(target), reportErrors); } if (result) { resetErrorInfo(saveErrorInfo); return result; } } } else { // conditionals aren't related to one another via distributive constraint as it is much too inaccurate and allows way // more assignments than are desirable (since it maps the source check type to its constraint, it loses information) var distributiveConstraint = getConstraintOfDistributiveConditionalType(source); if (distributiveConstraint) { if (result = isRelatedTo(distributiveConstraint, target, reportErrors)) { resetErrorInfo(saveErrorInfo); return result; } } } // conditionals _can_ be related to one another via normal constraint, as, eg, `A extends B ? O : never` should be assignable to `O` // when `O` is a conditional (`never` is trivially aissgnable to `O`, as is `O`!). var defaultConstraint = getDefaultConstraintOfConditionalType(source); if (defaultConstraint) { if (result = isRelatedTo(defaultConstraint, target, reportErrors)) { resetErrorInfo(saveErrorInfo); return result; } } } else { // An empty object type is related to any mapped type that includes a '?' modifier. if (relation !== subtypeRelation && relation !== strictSubtypeRelation && isPartialMappedType(target) && isEmptyObjectType(source)) { return -1 /* True */; } if (isGenericMappedType(target)) { if (isGenericMappedType(source)) { if (result = mappedTypeRelatedTo(source, target, reportErrors)) { resetErrorInfo(saveErrorInfo); return result; } } return 0 /* False */; } var sourceIsPrimitive = !!(source.flags & 131068 /* Primitive */); if (relation !== identityRelation) { source = getApparentType(source); } else if (isGenericMappedType(source)) { return 0 /* False */; } if (ts.getObjectFlags(source) & 4 /* Reference */ && ts.getObjectFlags(target) & 4 /* Reference */ && source.target === target.target && !(ts.getObjectFlags(source) & 8192 /* MarkerType */ || ts.getObjectFlags(target) & 8192 /* MarkerType */)) { // We have type references to the same generic type, and the type references are not marker // type references (which are intended by be compared structurally). Obtain the variance // information for the type parameters and relate the type arguments accordingly. var variances = getVariances(source.target); // We return Ternary.Maybe for a recursive invocation of getVariances (signalled by emptyArray). This // effectively means we measure variance only from type parameter occurrences that aren't nested in // recursive instantiations of the generic type. if (variances === ts.emptyArray) { return 1 /* Maybe */; } var varianceResult = relateVariances(getTypeArguments(source), getTypeArguments(target), variances, intersectionState); if (varianceResult !== undefined) { return varianceResult; } } else if (isReadonlyArrayType(target) ? isArrayType(source) || isTupleType(source) : isArrayType(target) && isTupleType(source) && !source.target.readonly) { if (relation !== identityRelation) { return isRelatedTo(getIndexTypeOfType(source, 1 /* Number */) || anyType, getIndexTypeOfType(target, 1 /* Number */) || anyType, reportErrors); } else { // By flags alone, we know that the `target` is a readonly array while the source is a normal array or tuple // or `target` is an array and source is a tuple - in both cases the types cannot be identical, by construction return 0 /* False */; } } // Consider a fresh empty object literal type "closed" under the subtype relationship - this way `{} <- {[idx: string]: any} <- fresh({})` // and not `{} <- fresh({}) <- {[idx: string]: any}` else if ((relation === subtypeRelation || relation === strictSubtypeRelation) && isEmptyObjectType(target) && ts.getObjectFlags(target) & 32768 /* FreshLiteral */ && !isEmptyObjectType(source)) { return 0 /* False */; } // Even if relationship doesn't hold for unions, intersections, or generic type references, // it may hold in a structural comparison. // In a check of the form X = A & B, we will have previously checked if A relates to X or B relates // to X. Failing both of those we want to check if the aggregation of A and B's members structurally // relates to X. Thus, we include intersection types on the source side here. if (source.flags & (524288 /* Object */ | 2097152 /* Intersection */) && target.flags & 524288 /* Object */) { // Report structural errors only if we haven't reported any errors yet var reportStructuralErrors = reportErrors && errorInfo === saveErrorInfo.errorInfo && !sourceIsPrimitive; result = propertiesRelatedTo(source, target, reportStructuralErrors, /*excludedProperties*/ undefined, intersectionState); if (result) { result &= signaturesRelatedTo(source, target, 0 /* Call */, reportStructuralErrors); if (result) { result &= signaturesRelatedTo(source, target, 1 /* Construct */, reportStructuralErrors); if (result) { result &= indexTypesRelatedTo(source, target, 0 /* String */, sourceIsPrimitive, reportStructuralErrors, intersectionState); if (result) { result &= indexTypesRelatedTo(source, target, 1 /* Number */, sourceIsPrimitive, reportStructuralErrors, intersectionState); } } } } if (varianceCheckFailed && result) { errorInfo = originalErrorInfo || errorInfo || saveErrorInfo.errorInfo; // Use variance error (there is no structural one) and return false } else if (result) { return result; } } // If S is an object type and T is a discriminated union, S may be related to T if // there exists a constituent of T for every combination of the discriminants of S // with respect to T. We do not report errors here, as we will use the existing // error result from checking each constituent of the union. if (source.flags & (524288 /* Object */ | 2097152 /* Intersection */) && target.flags & 1048576 /* Union */) { var objectOnlyTarget = extractTypesOfKind(target, 524288 /* Object */ | 2097152 /* Intersection */ | 33554432 /* Substitution */); if (objectOnlyTarget.flags & 1048576 /* Union */) { var result_7 = typeRelatedToDiscriminatedType(source, objectOnlyTarget); if (result_7) { return result_7; } } } } return 0 /* False */; function relateVariances(sourceTypeArguments, targetTypeArguments, variances, intersectionState) { if (result = typeArgumentsRelatedTo(sourceTypeArguments, targetTypeArguments, variances, reportErrors, intersectionState)) { return result; } if (ts.some(variances, function (v) { return !!(v & 24 /* AllowsStructuralFallback */); })) { // If some type parameter was `Unmeasurable` or `Unreliable`, and we couldn't pass by assuming it was identical, then we // have to allow a structural fallback check // We elide the variance-based error elaborations, since those might not be too helpful, since we'll potentially // be assuming identity of the type parameter. originalErrorInfo = undefined; resetErrorInfo(saveErrorInfo); return undefined; } var allowStructuralFallback = targetTypeArguments && hasCovariantVoidArgument(targetTypeArguments, variances); varianceCheckFailed = !allowStructuralFallback; // The type arguments did not relate appropriately, but it may be because we have no variance // information (in which case typeArgumentsRelatedTo defaulted to covariance for all type // arguments). It might also be the case that the target type has a 'void' type argument for // a covariant type parameter that is only used in return positions within the generic type // (in which case any type argument is permitted on the source side). In those cases we proceed // with a structural comparison. Otherwise, we know for certain the instantiations aren't // related and we can return here. if (variances !== ts.emptyArray && !allowStructuralFallback) { // In some cases generic types that are covariant in regular type checking mode become // invariant in --strictFunctionTypes mode because one or more type parameters are used in // both co- and contravariant positions. In order to make it easier to diagnose *why* such // types are invariant, if any of the type parameters are invariant we reset the reported // errors and instead force a structural comparison (which will include elaborations that // reveal the reason). // We can switch on `reportErrors` here, since varianceCheckFailed guarantees we return `False`, // we can return `False` early here to skip calculating the structural error message we don't need. if (varianceCheckFailed && !(reportErrors && ts.some(variances, function (v) { return (v & 7 /* VarianceMask */) === 0 /* Invariant */; }))) { return 0 /* False */; } // We remember the original error information so we can restore it in case the structural // comparison unexpectedly succeeds. This can happen when the structural comparison result // is a Ternary.Maybe for example caused by the recursion depth limiter. originalErrorInfo = errorInfo; resetErrorInfo(saveErrorInfo); } } } function reportUnmeasurableMarkers(p) { if (outofbandVarianceMarkerHandler && (p === markerSuperType || p === markerSubType || p === markerOtherType)) { outofbandVarianceMarkerHandler(/*onlyUnreliable*/ false); } return p; } function reportUnreliableMarkers(p) { if (outofbandVarianceMarkerHandler && (p === markerSuperType || p === markerSubType || p === markerOtherType)) { outofbandVarianceMarkerHandler(/*onlyUnreliable*/ true); } return p; } // A type [P in S]: X is related to a type [Q in T]: Y if T is related to S and X' is // related to Y, where X' is an instantiation of X in which P is replaced with Q. Notice // that S and T are contra-variant whereas X and Y are co-variant. function mappedTypeRelatedTo(source, target, reportErrors) { var modifiersRelated = relation === comparableRelation || (relation === identityRelation ? getMappedTypeModifiers(source) === getMappedTypeModifiers(target) : getCombinedMappedTypeOptionality(source) <= getCombinedMappedTypeOptionality(target)); if (modifiersRelated) { var result_8; var targetConstraint = getConstraintTypeFromMappedType(target); var sourceConstraint = instantiateType(getConstraintTypeFromMappedType(source), makeFunctionTypeMapper(getCombinedMappedTypeOptionality(source) < 0 ? reportUnmeasurableMarkers : reportUnreliableMarkers)); if (result_8 = isRelatedTo(targetConstraint, sourceConstraint, reportErrors)) { var mapper = createTypeMapper([getTypeParameterFromMappedType(source)], [getTypeParameterFromMappedType(target)]); return result_8 & isRelatedTo(instantiateType(getTemplateTypeFromMappedType(source), mapper), getTemplateTypeFromMappedType(target), reportErrors); } } return 0 /* False */; } function typeRelatedToDiscriminatedType(source, target) { // 1. Generate the combinations of discriminant properties & types 'source' can satisfy. // a. If the number of combinations is above a set limit, the comparison is too complex. // 2. Filter 'target' to the subset of types whose discriminants exist in the matrix. // a. If 'target' does not satisfy all discriminants in the matrix, 'source' is not related. // 3. For each type in the filtered 'target', determine if all non-discriminant properties of // 'target' are related to a property in 'source'. // // NOTE: See ~/tests/cases/conformance/types/typeRelationships/assignmentCompatibility/assignmentCompatWithDiscriminatedUnion.ts // for examples. var sourceProperties = getPropertiesOfType(source); var sourcePropertiesFiltered = findDiscriminantProperties(sourceProperties, target); if (!sourcePropertiesFiltered) return 0 /* False */; // Though we could compute the number of combinations as we generate // the matrix, this would incur additional memory overhead due to // array allocations. To reduce this overhead, we first compute // the number of combinations to ensure we will not surpass our // fixed limit before incurring the cost of any allocations: var numCombinations = 1; for (var _i = 0, sourcePropertiesFiltered_1 = sourcePropertiesFiltered; _i < sourcePropertiesFiltered_1.length; _i++) { var sourceProperty = sourcePropertiesFiltered_1[_i]; numCombinations *= countTypes(getTypeOfSymbol(sourceProperty)); if (numCombinations > 25) { // We've reached the complexity limit. return 0 /* False */; } } // Compute the set of types for each discriminant property. var sourceDiscriminantTypes = new Array(sourcePropertiesFiltered.length); var excludedProperties = ts.createUnderscoreEscapedMap(); for (var i = 0; i < sourcePropertiesFiltered.length; i++) { var sourceProperty = sourcePropertiesFiltered[i]; var sourcePropertyType = getTypeOfSymbol(sourceProperty); sourceDiscriminantTypes[i] = sourcePropertyType.flags & 1048576 /* Union */ ? sourcePropertyType.types : [sourcePropertyType]; excludedProperties.set(sourceProperty.escapedName, true); } // Match each combination of the cartesian product of discriminant properties to one or more // constituents of 'target'. If any combination does not have a match then 'source' is not relatable. var discriminantCombinations = ts.cartesianProduct(sourceDiscriminantTypes); var matchingTypes = []; var _loop_14 = function (combination) { var hasMatch = false; outer: for (var _i = 0, _a = target.types; _i < _a.length; _i++) { var type = _a[_i]; var _loop_15 = function (i) { var sourceProperty = sourcePropertiesFiltered[i]; var targetProperty = getPropertyOfType(type, sourceProperty.escapedName); if (!targetProperty) return "continue-outer"; if (sourceProperty === targetProperty) return "continue"; // We compare the source property to the target in the context of a single discriminant type. var related = propertyRelatedTo(source, target, sourceProperty, targetProperty, function (_) { return combination[i]; }, /*reportErrors*/ false, 0 /* None */, /*skipOptional*/ strictNullChecks || relation === comparableRelation); // If the target property could not be found, or if the properties were not related, // then this constituent is not a match. if (!related) { return "continue-outer"; } }; for (var i = 0; i < sourcePropertiesFiltered.length; i++) { var state_7 = _loop_15(i); switch (state_7) { case "continue-outer": continue outer; } } ts.pushIfUnique(matchingTypes, type, ts.equateValues); hasMatch = true; } if (!hasMatch) { return { value: 0 /* False */ }; } }; for (var _a = 0, discriminantCombinations_1 = discriminantCombinations; _a < discriminantCombinations_1.length; _a++) { var combination = discriminantCombinations_1[_a]; var state_6 = _loop_14(combination); if (typeof state_6 === "object") return state_6.value; } // Compare the remaining non-discriminant properties of each match. var result = -1 /* True */; for (var _b = 0, matchingTypes_1 = matchingTypes; _b < matchingTypes_1.length; _b++) { var type = matchingTypes_1[_b]; result &= propertiesRelatedTo(source, type, /*reportErrors*/ false, excludedProperties, 0 /* None */); if (result) { result &= signaturesRelatedTo(source, type, 0 /* Call */, /*reportStructuralErrors*/ false); if (result) { result &= signaturesRelatedTo(source, type, 1 /* Construct */, /*reportStructuralErrors*/ false); if (result) { result &= indexTypesRelatedTo(source, type, 0 /* String */, /*sourceIsPrimitive*/ false, /*reportStructuralErrors*/ false, 0 /* None */); if (result) { result &= indexTypesRelatedTo(source, type, 1 /* Number */, /*sourceIsPrimitive*/ false, /*reportStructuralErrors*/ false, 0 /* None */); } } } } if (!result) { return result; } } return result; } function excludeProperties(properties, excludedProperties) { if (!excludedProperties || properties.length === 0) return properties; var result; for (var i = 0; i < properties.length; i++) { if (!excludedProperties.has(properties[i].escapedName)) { if (result) { result.push(properties[i]); } } else if (!result) { result = properties.slice(0, i); } } return result || properties; } function isPropertySymbolTypeRelated(sourceProp, targetProp, getTypeOfSourceProperty, reportErrors, intersectionState) { var targetIsOptional = strictNullChecks && !!(ts.getCheckFlags(targetProp) & 48 /* Partial */); var source = getTypeOfSourceProperty(sourceProp); if (ts.getCheckFlags(targetProp) & 65536 /* DeferredType */ && !getSymbolLinks(targetProp).type) { // Rather than resolving (and normalizing) the type, relate constituent-by-constituent without performing normalization or seconadary passes var links = getSymbolLinks(targetProp); ts.Debug.assertIsDefined(links.deferralParent); ts.Debug.assertIsDefined(links.deferralConstituents); var unionParent = !!(links.deferralParent.flags & 1048576 /* Union */); var result_9 = unionParent ? 0 /* False */ : -1 /* True */; var targetTypes = links.deferralConstituents; for (var _i = 0, targetTypes_3 = targetTypes; _i < targetTypes_3.length; _i++) { var targetType = targetTypes_3[_i]; var related = isRelatedTo(source, targetType, /*reportErrors*/ false, /*headMessage*/ undefined, unionParent ? 0 : 2 /* Target */); if (!unionParent) { if (!related) { // Can't assign to a target individually - have to fallback to assigning to the _whole_ intersection (which forces normalization) return isRelatedTo(source, addOptionality(getTypeOfSymbol(targetProp), targetIsOptional), reportErrors); } result_9 &= related; } else { if (related) { return related; } } } if (unionParent && !result_9 && targetIsOptional) { result_9 = isRelatedTo(source, undefinedType); } if (unionParent && !result_9 && reportErrors) { // The easiest way to get the right errors here is to un-defer (which may be costly) // If it turns out this is too costly too often, we can replicate the error handling logic within // typeRelatedToSomeType without the discriminatable type branch (as that requires a manifest union // type on which to hand discriminable properties, which we are expressly trying to avoid here) return isRelatedTo(source, addOptionality(getTypeOfSymbol(targetProp), targetIsOptional), reportErrors); } return result_9; } else { return isRelatedTo(source, addOptionality(getTypeOfSymbol(targetProp), targetIsOptional), reportErrors, /*headMessage*/ undefined, intersectionState); } } function propertyRelatedTo(source, target, sourceProp, targetProp, getTypeOfSourceProperty, reportErrors, intersectionState, skipOptional) { var sourcePropFlags = ts.getDeclarationModifierFlagsFromSymbol(sourceProp); var targetPropFlags = ts.getDeclarationModifierFlagsFromSymbol(targetProp); if (sourcePropFlags & 8 /* Private */ || targetPropFlags & 8 /* Private */) { if (sourceProp.valueDeclaration !== targetProp.valueDeclaration) { if (reportErrors) { if (sourcePropFlags & 8 /* Private */ && targetPropFlags & 8 /* Private */) { reportError(ts.Diagnostics.Types_have_separate_declarations_of_a_private_property_0, symbolToString(targetProp)); } else { reportError(ts.Diagnostics.Property_0_is_private_in_type_1_but_not_in_type_2, symbolToString(targetProp), typeToString(sourcePropFlags & 8 /* Private */ ? source : target), typeToString(sourcePropFlags & 8 /* Private */ ? target : source)); } } return 0 /* False */; } } else if (targetPropFlags & 16 /* Protected */) { if (!isValidOverrideOf(sourceProp, targetProp)) { if (reportErrors) { reportError(ts.Diagnostics.Property_0_is_protected_but_type_1_is_not_a_class_derived_from_2, symbolToString(targetProp), typeToString(getDeclaringClass(sourceProp) || source), typeToString(getDeclaringClass(targetProp) || target)); } return 0 /* False */; } } else if (sourcePropFlags & 16 /* Protected */) { if (reportErrors) { reportError(ts.Diagnostics.Property_0_is_protected_in_type_1_but_public_in_type_2, symbolToString(targetProp), typeToString(source), typeToString(target)); } return 0 /* False */; } // If the target comes from a partial union prop, allow `undefined` in the target type var related = isPropertySymbolTypeRelated(sourceProp, targetProp, getTypeOfSourceProperty, reportErrors, intersectionState); if (!related) { if (reportErrors) { reportIncompatibleError(ts.Diagnostics.Types_of_property_0_are_incompatible, symbolToString(targetProp)); } return 0 /* False */; } // When checking for comparability, be more lenient with optional properties. if (!skipOptional && sourceProp.flags & 16777216 /* Optional */ && !(targetProp.flags & 16777216 /* Optional */)) { // TypeScript 1.0 spec (April 2014): 3.8.3 // S is a subtype of a type T, and T is a supertype of S if ... // S' and T are object types and, for each member M in T.. // M is a property and S' contains a property N where // if M is a required property, N is also a required property // (M - property in T) // (N - property in S) if (reportErrors) { reportError(ts.Diagnostics.Property_0_is_optional_in_type_1_but_required_in_type_2, symbolToString(targetProp), typeToString(source), typeToString(target)); } return 0 /* False */; } return related; } function reportUnmatchedProperty(source, target, unmatchedProperty, requireOptionalProperties) { var shouldSkipElaboration = false; // give specific error in case where private names have the same description if (unmatchedProperty.valueDeclaration && ts.isNamedDeclaration(unmatchedProperty.valueDeclaration) && ts.isPrivateIdentifier(unmatchedProperty.valueDeclaration.name) && source.symbol && source.symbol.flags & 32 /* Class */) { var privateIdentifierDescription = unmatchedProperty.valueDeclaration.name.escapedText; var symbolTableKey = ts.getSymbolNameForPrivateIdentifier(source.symbol, privateIdentifierDescription); if (symbolTableKey && getPropertyOfType(source, symbolTableKey)) { var sourceName = ts.getDeclarationName(source.symbol.valueDeclaration); var targetName = ts.getDeclarationName(target.symbol.valueDeclaration); reportError(ts.Diagnostics.Property_0_in_type_1_refers_to_a_different_member_that_cannot_be_accessed_from_within_type_2, diagnosticName(privateIdentifierDescription), diagnosticName(sourceName.escapedText === "" ? anon : sourceName), diagnosticName(targetName.escapedText === "" ? anon : targetName)); return; } } var props = ts.arrayFrom(getUnmatchedProperties(source, target, requireOptionalProperties, /*matchDiscriminantProperties*/ false)); if (!headMessage || (headMessage.code !== ts.Diagnostics.Class_0_incorrectly_implements_interface_1.code && headMessage.code !== ts.Diagnostics.Class_0_incorrectly_implements_class_1_Did_you_mean_to_extend_1_and_inherit_its_members_as_a_subclass.code)) { shouldSkipElaboration = true; // Retain top-level error for interface implementing issues, otherwise omit it } if (props.length === 1) { var propName = symbolToString(unmatchedProperty); reportError.apply(void 0, __spreadArrays([ts.Diagnostics.Property_0_is_missing_in_type_1_but_required_in_type_2, propName], getTypeNamesForErrorDisplay(source, target))); if (ts.length(unmatchedProperty.declarations)) { associateRelatedInfo(ts.createDiagnosticForNode(unmatchedProperty.declarations[0], ts.Diagnostics._0_is_declared_here, propName)); } if (shouldSkipElaboration && errorInfo) { overrideNextErrorInfo++; } } else if (tryElaborateArrayLikeErrors(source, target, /*reportErrors*/ false)) { if (props.length > 5) { // arbitrary cutoff for too-long list form reportError(ts.Diagnostics.Type_0_is_missing_the_following_properties_from_type_1_Colon_2_and_3_more, typeToString(source), typeToString(target), ts.map(props.slice(0, 4), function (p) { return symbolToString(p); }).join(", "), props.length - 4); } else { reportError(ts.Diagnostics.Type_0_is_missing_the_following_properties_from_type_1_Colon_2, typeToString(source), typeToString(target), ts.map(props, function (p) { return symbolToString(p); }).join(", ")); } if (shouldSkipElaboration && errorInfo) { overrideNextErrorInfo++; } } // No array like or unmatched property error - just issue top level error (errorInfo = undefined) } function propertiesRelatedTo(source, target, reportErrors, excludedProperties, intersectionState) { if (relation === identityRelation) { return propertiesIdenticalTo(source, target, excludedProperties); } var requireOptionalProperties = (relation === subtypeRelation || relation === strictSubtypeRelation) && !isObjectLiteralType(source) && !isEmptyArrayLiteralType(source) && !isTupleType(source); var unmatchedProperty = getUnmatchedProperty(source, target, requireOptionalProperties, /*matchDiscriminantProperties*/ false); if (unmatchedProperty) { if (reportErrors) { reportUnmatchedProperty(source, target, unmatchedProperty, requireOptionalProperties); } return 0 /* False */; } if (isObjectLiteralType(target)) { for (var _i = 0, _a = excludeProperties(getPropertiesOfType(source), excludedProperties); _i < _a.length; _i++) { var sourceProp = _a[_i]; if (!getPropertyOfObjectType(target, sourceProp.escapedName)) { var sourceType = getTypeOfSymbol(sourceProp); if (!(sourceType === undefinedType || sourceType === undefinedWideningType || sourceType === optionalType)) { if (reportErrors) { reportError(ts.Diagnostics.Property_0_does_not_exist_on_type_1, symbolToString(sourceProp), typeToString(target)); } return 0 /* False */; } } } } var result = -1 /* True */; if (isTupleType(target)) { var targetRestType = getRestTypeOfTupleType(target); if (targetRestType) { if (!isTupleType(source)) { return 0 /* False */; } var sourceRestType = getRestTypeOfTupleType(source); if (sourceRestType && !isRelatedTo(sourceRestType, targetRestType, reportErrors)) { if (reportErrors) { reportError(ts.Diagnostics.Rest_signatures_are_incompatible); } return 0 /* False */; } var targetCount = getTypeReferenceArity(target) - 1; var sourceCount = getTypeReferenceArity(source) - (sourceRestType ? 1 : 0); var sourceTypeArguments = getTypeArguments(source); for (var i = targetCount; i < sourceCount; i++) { var related = isRelatedTo(sourceTypeArguments[i], targetRestType, reportErrors); if (!related) { if (reportErrors) { reportError(ts.Diagnostics.Property_0_is_incompatible_with_rest_element_type, "" + i); } return 0 /* False */; } result &= related; } } } // We only call this for union target types when we're attempting to do excess property checking - in those cases, we want to get _all possible props_ // from the target union, across all members var properties = getPropertiesOfType(target); var numericNamesOnly = isTupleType(source) && isTupleType(target); for (var _b = 0, _c = excludeProperties(properties, excludedProperties); _b < _c.length; _b++) { var targetProp = _c[_b]; var name = targetProp.escapedName; if (!(targetProp.flags & 4194304 /* Prototype */) && (!numericNamesOnly || isNumericLiteralName(name) || name === "length")) { var sourceProp = getPropertyOfType(source, name); if (sourceProp && sourceProp !== targetProp) { var related = propertyRelatedTo(source, target, sourceProp, targetProp, getTypeOfSymbol, reportErrors, intersectionState, relation === comparableRelation); if (!related) { return 0 /* False */; } result &= related; } } } return result; } function propertiesIdenticalTo(source, target, excludedProperties) { if (!(source.flags & 524288 /* Object */ && target.flags & 524288 /* Object */)) { return 0 /* False */; } var sourceProperties = excludeProperties(getPropertiesOfObjectType(source), excludedProperties); var targetProperties = excludeProperties(getPropertiesOfObjectType(target), excludedProperties); if (sourceProperties.length !== targetProperties.length) { return 0 /* False */; } var result = -1 /* True */; for (var _i = 0, sourceProperties_1 = sourceProperties; _i < sourceProperties_1.length; _i++) { var sourceProp = sourceProperties_1[_i]; var targetProp = getPropertyOfObjectType(target, sourceProp.escapedName); if (!targetProp) { return 0 /* False */; } var related = compareProperties(sourceProp, targetProp, isRelatedTo); if (!related) { return 0 /* False */; } result &= related; } return result; } function signaturesRelatedTo(source, target, kind, reportErrors) { if (relation === identityRelation) { return signaturesIdenticalTo(source, target, kind); } if (target === anyFunctionType || source === anyFunctionType) { return -1 /* True */; } var sourceIsJSConstructor = source.symbol && isJSConstructor(source.symbol.valueDeclaration); var targetIsJSConstructor = target.symbol && isJSConstructor(target.symbol.valueDeclaration); var sourceSignatures = getSignaturesOfType(source, (sourceIsJSConstructor && kind === 1 /* Construct */) ? 0 /* Call */ : kind); var targetSignatures = getSignaturesOfType(target, (targetIsJSConstructor && kind === 1 /* Construct */) ? 0 /* Call */ : kind); if (kind === 1 /* Construct */ && sourceSignatures.length && targetSignatures.length) { if (ts.isAbstractConstructorType(source) && !ts.isAbstractConstructorType(target)) { // An abstract constructor type is not assignable to a non-abstract constructor type // as it would otherwise be possible to new an abstract class. Note that the assignability // check we perform for an extends clause excludes construct signatures from the target, // so this check never proceeds. if (reportErrors) { reportError(ts.Diagnostics.Cannot_assign_an_abstract_constructor_type_to_a_non_abstract_constructor_type); } return 0 /* False */; } if (!constructorVisibilitiesAreCompatible(sourceSignatures[0], targetSignatures[0], reportErrors)) { return 0 /* False */; } } var result = -1 /* True */; var saveErrorInfo = captureErrorCalculationState(); var incompatibleReporter = kind === 1 /* Construct */ ? reportIncompatibleConstructSignatureReturn : reportIncompatibleCallSignatureReturn; if (ts.getObjectFlags(source) & 64 /* Instantiated */ && ts.getObjectFlags(target) & 64 /* Instantiated */ && source.symbol === target.symbol) { // We have instantiations of the same anonymous type (which typically will be the type of a // method). Simply do a pairwise comparison of the signatures in the two signature lists instead // of the much more expensive N * M comparison matrix we explore below. We erase type parameters // as they are known to always be the same. for (var i = 0; i < targetSignatures.length; i++) { var related = signatureRelatedTo(sourceSignatures[i], targetSignatures[i], /*erase*/ true, reportErrors, incompatibleReporter(sourceSignatures[i], targetSignatures[i])); if (!related) { return 0 /* False */; } result &= related; } } else if (sourceSignatures.length === 1 && targetSignatures.length === 1) { // For simple functions (functions with a single signature) we only erase type parameters for // the comparable relation. Otherwise, if the source signature is generic, we instantiate it // in the context of the target signature before checking the relationship. Ideally we'd do // this regardless of the number of signatures, but the potential costs are prohibitive due // to the quadratic nature of the logic below. var eraseGenerics = relation === comparableRelation || !!compilerOptions.noStrictGenericChecks; result = signatureRelatedTo(sourceSignatures[0], targetSignatures[0], eraseGenerics, reportErrors, incompatibleReporter(sourceSignatures[0], targetSignatures[0])); } else { outer: for (var _i = 0, targetSignatures_1 = targetSignatures; _i < targetSignatures_1.length; _i++) { var t = targetSignatures_1[_i]; // Only elaborate errors from the first failure var shouldElaborateErrors = reportErrors; for (var _a = 0, sourceSignatures_1 = sourceSignatures; _a < sourceSignatures_1.length; _a++) { var s = sourceSignatures_1[_a]; var related = signatureRelatedTo(s, t, /*erase*/ true, shouldElaborateErrors, incompatibleReporter(s, t)); if (related) { result &= related; resetErrorInfo(saveErrorInfo); continue outer; } shouldElaborateErrors = false; } if (shouldElaborateErrors) { reportError(ts.Diagnostics.Type_0_provides_no_match_for_the_signature_1, typeToString(source), signatureToString(t, /*enclosingDeclaration*/ undefined, /*flags*/ undefined, kind)); } return 0 /* False */; } } return result; } function reportIncompatibleCallSignatureReturn(siga, sigb) { if (siga.parameters.length === 0 && sigb.parameters.length === 0) { return function (source, target) { return reportIncompatibleError(ts.Diagnostics.Call_signatures_with_no_arguments_have_incompatible_return_types_0_and_1, typeToString(source), typeToString(target)); }; } return function (source, target) { return reportIncompatibleError(ts.Diagnostics.Call_signature_return_types_0_and_1_are_incompatible, typeToString(source), typeToString(target)); }; } function reportIncompatibleConstructSignatureReturn(siga, sigb) { if (siga.parameters.length === 0 && sigb.parameters.length === 0) { return function (source, target) { return reportIncompatibleError(ts.Diagnostics.Construct_signatures_with_no_arguments_have_incompatible_return_types_0_and_1, typeToString(source), typeToString(target)); }; } return function (source, target) { return reportIncompatibleError(ts.Diagnostics.Construct_signature_return_types_0_and_1_are_incompatible, typeToString(source), typeToString(target)); }; } /** * See signatureAssignableTo, compareSignaturesIdentical */ function signatureRelatedTo(source, target, erase, reportErrors, incompatibleReporter) { return compareSignaturesRelated(erase ? getErasedSignature(source) : source, erase ? getErasedSignature(target) : target, relation === strictSubtypeRelation ? 8 /* StrictArity */ : 0, reportErrors, reportError, incompatibleReporter, isRelatedTo, makeFunctionTypeMapper(reportUnreliableMarkers)); } function signaturesIdenticalTo(source, target, kind) { var sourceSignatures = getSignaturesOfType(source, kind); var targetSignatures = getSignaturesOfType(target, kind); if (sourceSignatures.length !== targetSignatures.length) { return 0 /* False */; } var result = -1 /* True */; for (var i = 0; i < sourceSignatures.length; i++) { var related = compareSignaturesIdentical(sourceSignatures[i], targetSignatures[i], /*partialMatch*/ false, /*ignoreThisTypes*/ false, /*ignoreReturnTypes*/ false, isRelatedTo); if (!related) { return 0 /* False */; } result &= related; } return result; } function eachPropertyRelatedTo(source, target, kind, reportErrors) { var result = -1 /* True */; var props = source.flags & 2097152 /* Intersection */ ? getPropertiesOfUnionOrIntersectionType(source) : getPropertiesOfObjectType(source); for (var _i = 0, props_2 = props; _i < props_2.length; _i++) { var prop = props_2[_i]; // Skip over ignored JSX and symbol-named members if (isIgnoredJsxProperty(source, prop)) { continue; } var nameType = getSymbolLinks(prop).nameType; if (nameType && nameType.flags & 8192 /* UniqueESSymbol */) { continue; } if (kind === 0 /* String */ || isNumericLiteralName(prop.escapedName)) { var related = isRelatedTo(getTypeOfSymbol(prop), target, reportErrors); if (!related) { if (reportErrors) { reportError(ts.Diagnostics.Property_0_is_incompatible_with_index_signature, symbolToString(prop)); } return 0 /* False */; } result &= related; } } return result; } function indexTypeRelatedTo(sourceType, targetType, reportErrors) { var related = isRelatedTo(sourceType, targetType, reportErrors); if (!related && reportErrors) { reportError(ts.Diagnostics.Index_signatures_are_incompatible); } return related; } function indexTypesRelatedTo(source, target, kind, sourceIsPrimitive, reportErrors, intersectionState) { if (relation === identityRelation) { return indexTypesIdenticalTo(source, target, kind); } var targetType = getIndexTypeOfType(target, kind); if (!targetType || targetType.flags & 1 /* Any */ && !sourceIsPrimitive) { // Index signature of type any permits assignment from everything but primitives return -1 /* True */; } if (isGenericMappedType(source)) { // A generic mapped type { [P in K]: T } is related to an index signature { [x: string]: U } // if T is related to U. return kind === 0 /* String */ ? isRelatedTo(getTemplateTypeFromMappedType(source), targetType, reportErrors) : 0 /* False */; } var indexType = getIndexTypeOfType(source, kind) || kind === 1 /* Number */ && getIndexTypeOfType(source, 0 /* String */); if (indexType) { return indexTypeRelatedTo(indexType, targetType, reportErrors); } if (!(intersectionState & 1 /* Source */) && isObjectTypeWithInferableIndex(source)) { // Intersection constituents are never considered to have an inferred index signature var related = eachPropertyRelatedTo(source, targetType, kind, reportErrors); if (related && kind === 0 /* String */) { var numberIndexType = getIndexTypeOfType(source, 1 /* Number */); if (numberIndexType) { related &= indexTypeRelatedTo(numberIndexType, targetType, reportErrors); } } return related; } if (reportErrors) { reportError(ts.Diagnostics.Index_signature_is_missing_in_type_0, typeToString(source)); } return 0 /* False */; } function indexTypesIdenticalTo(source, target, indexKind) { var targetInfo = getIndexInfoOfType(target, indexKind); var sourceInfo = getIndexInfoOfType(source, indexKind); if (!sourceInfo && !targetInfo) { return -1 /* True */; } if (sourceInfo && targetInfo && sourceInfo.isReadonly === targetInfo.isReadonly) { return isRelatedTo(sourceInfo.type, targetInfo.type); } return 0 /* False */; } function constructorVisibilitiesAreCompatible(sourceSignature, targetSignature, reportErrors) { if (!sourceSignature.declaration || !targetSignature.declaration) { return true; } var sourceAccessibility = ts.getSelectedModifierFlags(sourceSignature.declaration, 24 /* NonPublicAccessibilityModifier */); var targetAccessibility = ts.getSelectedModifierFlags(targetSignature.declaration, 24 /* NonPublicAccessibilityModifier */); // A public, protected and private signature is assignable to a private signature. if (targetAccessibility === 8 /* Private */) { return true; } // A public and protected signature is assignable to a protected signature. if (targetAccessibility === 16 /* Protected */ && sourceAccessibility !== 8 /* Private */) { return true; } // Only a public signature is assignable to public signature. if (targetAccessibility !== 16 /* Protected */ && !sourceAccessibility) { return true; } if (reportErrors) { reportError(ts.Diagnostics.Cannot_assign_a_0_constructor_type_to_a_1_constructor_type, visibilityToString(sourceAccessibility), visibilityToString(targetAccessibility)); } return false; } } function getBestMatchingType(source, target, isRelatedTo) { if (isRelatedTo === void 0) { isRelatedTo = compareTypesAssignable; } return findMatchingDiscriminantType(source, target, isRelatedTo, /*skipPartial*/ true) || findMatchingTypeReferenceOrTypeAliasReference(source, target) || findBestTypeForObjectLiteral(source, target) || findBestTypeForInvokable(source, target) || findMostOverlappyType(source, target); } function discriminateTypeByDiscriminableItems(target, discriminators, related, defaultValue, skipPartial) { // undefined=unknown, true=discriminated, false=not discriminated // The state of each type progresses from left to right. Discriminated types stop at 'true'. var discriminable = target.types.map(function (_) { return undefined; }); for (var _i = 0, discriminators_1 = discriminators; _i < discriminators_1.length; _i++) { var _a = discriminators_1[_i], getDiscriminatingType = _a[0], propertyName = _a[1]; var targetProp = getUnionOrIntersectionProperty(target, propertyName); if (skipPartial && targetProp && ts.getCheckFlags(targetProp) & 16 /* ReadPartial */) { continue; } var i = 0; for (var _b = 0, _c = target.types; _b < _c.length; _b++) { var type = _c[_b]; var targetType = getTypeOfPropertyOfType(type, propertyName); if (targetType && related(getDiscriminatingType(), targetType)) { discriminable[i] = discriminable[i] === undefined ? true : discriminable[i]; } else { discriminable[i] = false; } i++; } } var match = discriminable.indexOf(/*searchElement*/ true); // make sure exactly 1 matches before returning it return match === -1 || discriminable.indexOf(/*searchElement*/ true, match + 1) !== -1 ? defaultValue : target.types[match]; } /** * A type is 'weak' if it is an object type with at least one optional property * and no required properties, call/construct signatures or index signatures */ function isWeakType(type) { if (type.flags & 524288 /* Object */) { var resolved = resolveStructuredTypeMembers(type); return resolved.callSignatures.length === 0 && resolved.constructSignatures.length === 0 && !resolved.stringIndexInfo && !resolved.numberIndexInfo && resolved.properties.length > 0 && ts.every(resolved.properties, function (p) { return !!(p.flags & 16777216 /* Optional */); }); } if (type.flags & 2097152 /* Intersection */) { return ts.every(type.types, isWeakType); } return false; } function hasCommonProperties(source, target, isComparingJsxAttributes) { for (var _i = 0, _a = getPropertiesOfType(source); _i < _a.length; _i++) { var prop = _a[_i]; if (isKnownProperty(target, prop.escapedName, isComparingJsxAttributes)) { return true; } } return false; } // Return a type reference where the source type parameter is replaced with the target marker // type, and flag the result as a marker type reference. function getMarkerTypeReference(type, source, target) { var result = createTypeReference(type, ts.map(type.typeParameters, function (t) { return t === source ? target : t; })); result.objectFlags |= 8192 /* MarkerType */; return result; } function getAliasVariances(symbol) { var links = getSymbolLinks(symbol); return getVariancesWorker(links.typeParameters, links, function (_links, param, marker) { var type = getTypeAliasInstantiation(symbol, instantiateTypes(links.typeParameters, makeUnaryTypeMapper(param, marker))); type.aliasTypeArgumentsContainsMarker = true; return type; }); } // Return an array containing the variance of each type parameter. The variance is effectively // a digest of the type comparisons that occur for each type argument when instantiations of the // generic type are structurally compared. We infer the variance information by comparing // instantiations of the generic type for type arguments with known relations. The function // returns the emptyArray singleton when invoked recursively for the given generic type. function getVariancesWorker(typeParameters, cache, createMarkerType) { if (typeParameters === void 0) { typeParameters = ts.emptyArray; } var variances = cache.variances; if (!variances) { // The emptyArray singleton is used to signal a recursive invocation. cache.variances = ts.emptyArray; variances = []; var _loop_16 = function (tp) { var unmeasurable = false; var unreliable = false; var oldHandler = outofbandVarianceMarkerHandler; outofbandVarianceMarkerHandler = function (onlyUnreliable) { return onlyUnreliable ? unreliable = true : unmeasurable = true; }; // We first compare instantiations where the type parameter is replaced with // marker types that have a known subtype relationship. From this we can infer // invariance, covariance, contravariance or bivariance. var typeWithSuper = createMarkerType(cache, tp, markerSuperType); var typeWithSub = createMarkerType(cache, tp, markerSubType); var variance = (isTypeAssignableTo(typeWithSub, typeWithSuper) ? 1 /* Covariant */ : 0) | (isTypeAssignableTo(typeWithSuper, typeWithSub) ? 2 /* Contravariant */ : 0); // If the instantiations appear to be related bivariantly it may be because the // type parameter is independent (i.e. it isn't witnessed anywhere in the generic // type). To determine this we compare instantiations where the type parameter is // replaced with marker types that are known to be unrelated. if (variance === 3 /* Bivariant */ && isTypeAssignableTo(createMarkerType(cache, tp, markerOtherType), typeWithSuper)) { variance = 4 /* Independent */; } outofbandVarianceMarkerHandler = oldHandler; if (unmeasurable || unreliable) { if (unmeasurable) { variance |= 8 /* Unmeasurable */; } if (unreliable) { variance |= 16 /* Unreliable */; } } variances.push(variance); }; for (var _i = 0, typeParameters_1 = typeParameters; _i < typeParameters_1.length; _i++) { var tp = typeParameters_1[_i]; _loop_16(tp); } cache.variances = variances; } return variances; } function getVariances(type) { // Arrays and tuples are known to be covariant, no need to spend time computing this. if (type === globalArrayType || type === globalReadonlyArrayType || type.objectFlags & 8 /* Tuple */) { return arrayVariances; } return getVariancesWorker(type.typeParameters, type, getMarkerTypeReference); } // Return true if the given type reference has a 'void' type argument for a covariant type parameter. // See comment at call in recursiveTypeRelatedTo for when this case matters. function hasCovariantVoidArgument(typeArguments, variances) { for (var i = 0; i < variances.length; i++) { if ((variances[i] & 7 /* VarianceMask */) === 1 /* Covariant */ && typeArguments[i].flags & 16384 /* Void */) { return true; } } return false; } function isUnconstrainedTypeParameter(type) { return type.flags & 262144 /* TypeParameter */ && !getConstraintOfTypeParameter(type); } function isNonDeferredTypeReference(type) { return !!(ts.getObjectFlags(type) & 4 /* Reference */) && !type.node; } function isTypeReferenceWithGenericArguments(type) { return isNonDeferredTypeReference(type) && ts.some(getTypeArguments(type), function (t) { return isUnconstrainedTypeParameter(t) || isTypeReferenceWithGenericArguments(t); }); } /** * getTypeReferenceId(A) returns "111=0-12=1" * where A.id=111 and number.id=12 */ function getTypeReferenceId(type, typeParameters, depth) { if (depth === void 0) { depth = 0; } var result = "" + type.target.id; for (var _i = 0, _a = getTypeArguments(type); _i < _a.length; _i++) { var t = _a[_i]; if (isUnconstrainedTypeParameter(t)) { var index = typeParameters.indexOf(t); if (index < 0) { index = typeParameters.length; typeParameters.push(t); } result += "=" + index; } else if (depth < 4 && isTypeReferenceWithGenericArguments(t)) { result += "<" + getTypeReferenceId(t, typeParameters, depth + 1) + ">"; } else { result += "-" + t.id; } } return result; } /** * To improve caching, the relation key for two generic types uses the target's id plus ids of the type parameters. * For other cases, the types ids are used. */ function getRelationKey(source, target, intersectionState, relation) { if (relation === identityRelation && source.id > target.id) { var temp = source; source = target; target = temp; } var postFix = intersectionState ? ":" + intersectionState : ""; if (isTypeReferenceWithGenericArguments(source) && isTypeReferenceWithGenericArguments(target)) { var typeParameters = []; return getTypeReferenceId(source, typeParameters) + "," + getTypeReferenceId(target, typeParameters) + postFix; } return source.id + "," + target.id + postFix; } // Invoke the callback for each underlying property symbol of the given symbol and return the first // value that isn't undefined. function forEachProperty(prop, callback) { if (ts.getCheckFlags(prop) & 6 /* Synthetic */) { for (var _i = 0, _a = prop.containingType.types; _i < _a.length; _i++) { var t = _a[_i]; var p = getPropertyOfType(t, prop.escapedName); var result = p && forEachProperty(p, callback); if (result) { return result; } } return undefined; } return callback(prop); } // Return the declaring class type of a property or undefined if property not declared in class function getDeclaringClass(prop) { return prop.parent && prop.parent.flags & 32 /* Class */ ? getDeclaredTypeOfSymbol(getParentOfSymbol(prop)) : undefined; } // Return true if some underlying source property is declared in a class that derives // from the given base class. function isPropertyInClassDerivedFrom(prop, baseClass) { return forEachProperty(prop, function (sp) { var sourceClass = getDeclaringClass(sp); return sourceClass ? hasBaseType(sourceClass, baseClass) : false; }); } // Return true if source property is a valid override of protected parts of target property. function isValidOverrideOf(sourceProp, targetProp) { return !forEachProperty(targetProp, function (tp) { return ts.getDeclarationModifierFlagsFromSymbol(tp) & 16 /* Protected */ ? !isPropertyInClassDerivedFrom(sourceProp, getDeclaringClass(tp)) : false; }); } // Return true if the given class derives from each of the declaring classes of the protected // constituents of the given property. function isClassDerivedFromDeclaringClasses(checkClass, prop) { return forEachProperty(prop, function (p) { return ts.getDeclarationModifierFlagsFromSymbol(p) & 16 /* Protected */ ? !hasBaseType(checkClass, getDeclaringClass(p)) : false; }) ? undefined : checkClass; } // Return true if the given type is deeply nested. We consider this to be the case when structural type comparisons // for 5 or more occurrences or instantiations of the type have been recorded on the given stack. It is possible, // though highly unlikely, for this test to be true in a situation where a chain of instantiations is not infinitely // expanding. Effectively, we will generate a false positive when two types are structurally equal to at least 5 // levels, but unequal at some level beyond that. // In addition, this will also detect when an indexed access has been chained off of 5 or more times (which is essentially // the dual of the structural comparison), and likewise mark the type as deeply nested, potentially adding false positives // for finite but deeply expanding indexed accesses (eg, for `Q[P1][P2][P3][P4][P5]`). function isDeeplyNestedType(type, stack, depth) { // We track all object types that have an associated symbol (representing the origin of the type) if (depth >= 5 && type.flags & 524288 /* Object */ && !isObjectOrArrayLiteralType(type)) { var symbol = type.symbol; if (symbol) { var count = 0; for (var i = 0; i < depth; i++) { var t = stack[i]; if (t.flags & 524288 /* Object */ && t.symbol === symbol) { count++; if (count >= 5) return true; } } } } if (depth >= 5 && type.flags & 8388608 /* IndexedAccess */) { var root = getRootObjectTypeFromIndexedAccessChain(type); var count = 0; for (var i = 0; i < depth; i++) { var t = stack[i]; if (getRootObjectTypeFromIndexedAccessChain(t) === root) { count++; if (count >= 5) return true; } } } return false; } /** * Gets the leftmost object type in a chain of indexed accesses, eg, in A[P][Q], returns A */ function getRootObjectTypeFromIndexedAccessChain(type) { var t = type; while (t.flags & 8388608 /* IndexedAccess */) { t = t.objectType; } return t; } function isPropertyIdenticalTo(sourceProp, targetProp) { return compareProperties(sourceProp, targetProp, compareTypesIdentical) !== 0 /* False */; } function compareProperties(sourceProp, targetProp, compareTypes) { // Two members are considered identical when // - they are public properties with identical names, optionality, and types, // - they are private or protected properties originating in the same declaration and having identical types if (sourceProp === targetProp) { return -1 /* True */; } var sourcePropAccessibility = ts.getDeclarationModifierFlagsFromSymbol(sourceProp) & 24 /* NonPublicAccessibilityModifier */; var targetPropAccessibility = ts.getDeclarationModifierFlagsFromSymbol(targetProp) & 24 /* NonPublicAccessibilityModifier */; if (sourcePropAccessibility !== targetPropAccessibility) { return 0 /* False */; } if (sourcePropAccessibility) { if (getTargetSymbol(sourceProp) !== getTargetSymbol(targetProp)) { return 0 /* False */; } } else { if ((sourceProp.flags & 16777216 /* Optional */) !== (targetProp.flags & 16777216 /* Optional */)) { return 0 /* False */; } } if (isReadonlySymbol(sourceProp) !== isReadonlySymbol(targetProp)) { return 0 /* False */; } return compareTypes(getTypeOfSymbol(sourceProp), getTypeOfSymbol(targetProp)); } function isMatchingSignature(source, target, partialMatch) { var sourceParameterCount = getParameterCount(source); var targetParameterCount = getParameterCount(target); var sourceMinArgumentCount = getMinArgumentCount(source); var targetMinArgumentCount = getMinArgumentCount(target); var sourceHasRestParameter = hasEffectiveRestParameter(source); var targetHasRestParameter = hasEffectiveRestParameter(target); // A source signature matches a target signature if the two signatures have the same number of required, // optional, and rest parameters. if (sourceParameterCount === targetParameterCount && sourceMinArgumentCount === targetMinArgumentCount && sourceHasRestParameter === targetHasRestParameter) { return true; } // A source signature partially matches a target signature if the target signature has no fewer required // parameters if (partialMatch && sourceMinArgumentCount <= targetMinArgumentCount) { return true; } return false; } /** * See signatureRelatedTo, compareSignaturesIdentical */ function compareSignaturesIdentical(source, target, partialMatch, ignoreThisTypes, ignoreReturnTypes, compareTypes) { // TODO (drosen): De-duplicate code between related functions. if (source === target) { return -1 /* True */; } if (!(isMatchingSignature(source, target, partialMatch))) { return 0 /* False */; } // Check that the two signatures have the same number of type parameters. if (ts.length(source.typeParameters) !== ts.length(target.typeParameters)) { return 0 /* False */; } // Check that type parameter constraints and defaults match. If they do, instantiate the source // signature with the type parameters of the target signature and continue the comparison. if (target.typeParameters) { var mapper = createTypeMapper(source.typeParameters, target.typeParameters); for (var i = 0; i < target.typeParameters.length; i++) { var s = source.typeParameters[i]; var t = target.typeParameters[i]; if (!(s === t || compareTypes(instantiateType(getConstraintFromTypeParameter(s), mapper) || unknownType, getConstraintFromTypeParameter(t) || unknownType) && compareTypes(instantiateType(getDefaultFromTypeParameter(s), mapper) || unknownType, getDefaultFromTypeParameter(t) || unknownType))) { return 0 /* False */; } } source = instantiateSignature(source, mapper, /*eraseTypeParameters*/ true); } var result = -1 /* True */; if (!ignoreThisTypes) { var sourceThisType = getThisTypeOfSignature(source); if (sourceThisType) { var targetThisType = getThisTypeOfSignature(target); if (targetThisType) { var related = compareTypes(sourceThisType, targetThisType); if (!related) { return 0 /* False */; } result &= related; } } } var targetLen = getParameterCount(target); for (var i = 0; i < targetLen; i++) { var s = getTypeAtPosition(source, i); var t = getTypeAtPosition(target, i); var related = compareTypes(t, s); if (!related) { return 0 /* False */; } result &= related; } if (!ignoreReturnTypes) { var sourceTypePredicate = getTypePredicateOfSignature(source); var targetTypePredicate = getTypePredicateOfSignature(target); result &= sourceTypePredicate || targetTypePredicate ? compareTypePredicatesIdentical(sourceTypePredicate, targetTypePredicate, compareTypes) : compareTypes(getReturnTypeOfSignature(source), getReturnTypeOfSignature(target)); } return result; } function compareTypePredicatesIdentical(source, target, compareTypes) { return !(source && target && typePredicateKindsMatch(source, target)) ? 0 /* False */ : source.type === target.type ? -1 /* True */ : source.type && target.type ? compareTypes(source.type, target.type) : 0 /* False */; } function literalTypesWithSameBaseType(types) { var commonBaseType; for (var _i = 0, types_12 = types; _i < types_12.length; _i++) { var t = types_12[_i]; var baseType = getBaseTypeOfLiteralType(t); if (!commonBaseType) { commonBaseType = baseType; } if (baseType === t || baseType !== commonBaseType) { return false; } } return true; } // When the candidate types are all literal types with the same base type, return a union // of those literal types. Otherwise, return the leftmost type for which no type to the // right is a supertype. function getSupertypeOrUnion(types) { return literalTypesWithSameBaseType(types) ? getUnionType(types) : ts.reduceLeft(types, function (s, t) { return isTypeSubtypeOf(s, t) ? t : s; }); } function getCommonSupertype(types) { if (!strictNullChecks) { return getSupertypeOrUnion(types); } var primaryTypes = ts.filter(types, function (t) { return !(t.flags & 98304 /* Nullable */); }); return primaryTypes.length ? getNullableType(getSupertypeOrUnion(primaryTypes), getFalsyFlagsOfTypes(types) & 98304 /* Nullable */) : getUnionType(types, 2 /* Subtype */); } // Return the leftmost type for which no type to the right is a subtype. function getCommonSubtype(types) { return ts.reduceLeft(types, function (s, t) { return isTypeSubtypeOf(t, s) ? t : s; }); } function isArrayType(type) { return !!(ts.getObjectFlags(type) & 4 /* Reference */) && (type.target === globalArrayType || type.target === globalReadonlyArrayType); } function isReadonlyArrayType(type) { return !!(ts.getObjectFlags(type) & 4 /* Reference */) && type.target === globalReadonlyArrayType; } function isMutableArrayOrTuple(type) { return isArrayType(type) && !isReadonlyArrayType(type) || isTupleType(type) && !type.target.readonly; } function getElementTypeOfArrayType(type) { return isArrayType(type) ? getTypeArguments(type)[0] : undefined; } function isArrayLikeType(type) { // A type is array-like if it is a reference to the global Array or global ReadonlyArray type, // or if it is not the undefined or null type and if it is assignable to ReadonlyArray return isArrayType(type) || !(type.flags & 98304 /* Nullable */) && isTypeAssignableTo(type, anyReadonlyArrayType); } function isEmptyArrayLiteralType(type) { var elementType = isArrayType(type) ? getTypeArguments(type)[0] : undefined; return elementType === undefinedWideningType || elementType === implicitNeverType; } function isTupleLikeType(type) { return isTupleType(type) || !!getPropertyOfType(type, "0"); } function isArrayOrTupleLikeType(type) { return isArrayLikeType(type) || isTupleLikeType(type); } function getTupleElementType(type, index) { var propType = getTypeOfPropertyOfType(type, "" + index); if (propType) { return propType; } if (everyType(type, isTupleType)) { return mapType(type, function (t) { return getRestTypeOfTupleType(t) || undefinedType; }); } return undefined; } function isNeitherUnitTypeNorNever(type) { return !(type.flags & (109440 /* Unit */ | 131072 /* Never */)); } function isUnitType(type) { return !!(type.flags & 109440 /* Unit */); } function isLiteralType(type) { return type.flags & 16 /* Boolean */ ? true : type.flags & 1048576 /* Union */ ? type.flags & 1024 /* EnumLiteral */ ? true : ts.every(type.types, isUnitType) : isUnitType(type); } function getBaseTypeOfLiteralType(type) { return type.flags & 1024 /* EnumLiteral */ ? getBaseTypeOfEnumLiteralType(type) : type.flags & 128 /* StringLiteral */ ? stringType : type.flags & 256 /* NumberLiteral */ ? numberType : type.flags & 2048 /* BigIntLiteral */ ? bigintType : type.flags & 512 /* BooleanLiteral */ ? booleanType : type.flags & 1048576 /* Union */ ? getUnionType(ts.sameMap(type.types, getBaseTypeOfLiteralType)) : type; } function getWidenedLiteralType(type) { return type.flags & 1024 /* EnumLiteral */ && isFreshLiteralType(type) ? getBaseTypeOfEnumLiteralType(type) : type.flags & 128 /* StringLiteral */ && isFreshLiteralType(type) ? stringType : type.flags & 256 /* NumberLiteral */ && isFreshLiteralType(type) ? numberType : type.flags & 2048 /* BigIntLiteral */ && isFreshLiteralType(type) ? bigintType : type.flags & 512 /* BooleanLiteral */ && isFreshLiteralType(type) ? booleanType : type.flags & 1048576 /* Union */ ? getUnionType(ts.sameMap(type.types, getWidenedLiteralType)) : type; } function getWidenedUniqueESSymbolType(type) { return type.flags & 8192 /* UniqueESSymbol */ ? esSymbolType : type.flags & 1048576 /* Union */ ? getUnionType(ts.sameMap(type.types, getWidenedUniqueESSymbolType)) : type; } function getWidenedLiteralLikeTypeForContextualType(type, contextualType) { if (!isLiteralOfContextualType(type, contextualType)) { type = getWidenedUniqueESSymbolType(getWidenedLiteralType(type)); } return type; } function getWidenedLiteralLikeTypeForContextualReturnTypeIfNeeded(type, contextualSignatureReturnType, isAsync) { if (type && isUnitType(type)) { var contextualType = !contextualSignatureReturnType ? undefined : isAsync ? getPromisedTypeOfPromise(contextualSignatureReturnType) : contextualSignatureReturnType; type = getWidenedLiteralLikeTypeForContextualType(type, contextualType); } return type; } function getWidenedLiteralLikeTypeForContextualIterationTypeIfNeeded(type, contextualSignatureReturnType, kind, isAsyncGenerator) { if (type && isUnitType(type)) { var contextualType = !contextualSignatureReturnType ? undefined : getIterationTypeOfGeneratorFunctionReturnType(kind, contextualSignatureReturnType, isAsyncGenerator); type = getWidenedLiteralLikeTypeForContextualType(type, contextualType); } return type; } /** * Check if a Type was written as a tuple type literal. * Prefer using isTupleLikeType() unless the use of `elementTypes`/`getTypeArguments` is required. */ function isTupleType(type) { return !!(ts.getObjectFlags(type) & 4 /* Reference */ && type.target.objectFlags & 8 /* Tuple */); } function getRestTypeOfTupleType(type) { return type.target.hasRestElement ? getTypeArguments(type)[type.target.typeParameters.length - 1] : undefined; } function getRestArrayTypeOfTupleType(type) { var restType = getRestTypeOfTupleType(type); return restType && createArrayType(restType); } function getLengthOfTupleType(type) { return getTypeReferenceArity(type) - (type.target.hasRestElement ? 1 : 0); } function isZeroBigInt(_a) { var value = _a.value; return value.base10Value === "0"; } function getFalsyFlagsOfTypes(types) { var result = 0; for (var _i = 0, types_13 = types; _i < types_13.length; _i++) { var t = types_13[_i]; result |= getFalsyFlags(t); } return result; } // Returns the String, Number, Boolean, StringLiteral, NumberLiteral, BooleanLiteral, Void, Undefined, or Null // flags for the string, number, boolean, "", 0, false, void, undefined, or null types respectively. Returns // no flags for all other types (including non-falsy literal types). function getFalsyFlags(type) { return type.flags & 1048576 /* Union */ ? getFalsyFlagsOfTypes(type.types) : type.flags & 128 /* StringLiteral */ ? type.value === "" ? 128 /* StringLiteral */ : 0 : type.flags & 256 /* NumberLiteral */ ? type.value === 0 ? 256 /* NumberLiteral */ : 0 : type.flags & 2048 /* BigIntLiteral */ ? isZeroBigInt(type) ? 2048 /* BigIntLiteral */ : 0 : type.flags & 512 /* BooleanLiteral */ ? (type === falseType || type === regularFalseType) ? 512 /* BooleanLiteral */ : 0 : type.flags & 117724 /* PossiblyFalsy */; } function removeDefinitelyFalsyTypes(type) { return getFalsyFlags(type) & 117632 /* DefinitelyFalsy */ ? filterType(type, function (t) { return !(getFalsyFlags(t) & 117632 /* DefinitelyFalsy */); }) : type; } function extractDefinitelyFalsyTypes(type) { return mapType(type, getDefinitelyFalsyPartOfType); } function getDefinitelyFalsyPartOfType(type) { return type.flags & 4 /* String */ ? emptyStringType : type.flags & 8 /* Number */ ? zeroType : type.flags & 64 /* BigInt */ ? zeroBigIntType : type === regularFalseType || type === falseType || type.flags & (16384 /* Void */ | 32768 /* Undefined */ | 65536 /* Null */) || type.flags & 128 /* StringLiteral */ && type.value === "" || type.flags & 256 /* NumberLiteral */ && type.value === 0 || type.flags & 2048 /* BigIntLiteral */ && isZeroBigInt(type) ? type : neverType; } /** * Add undefined or null or both to a type if they are missing. * @param type - type to add undefined and/or null to if not present * @param flags - Either TypeFlags.Undefined or TypeFlags.Null, or both */ function getNullableType(type, flags) { var missing = (flags & ~type.flags) & (32768 /* Undefined */ | 65536 /* Null */); return missing === 0 ? type : missing === 32768 /* Undefined */ ? getUnionType([type, undefinedType]) : missing === 65536 /* Null */ ? getUnionType([type, nullType]) : getUnionType([type, undefinedType, nullType]); } function getOptionalType(type) { ts.Debug.assert(strictNullChecks); return type.flags & 32768 /* Undefined */ ? type : getUnionType([type, undefinedType]); } function getGlobalNonNullableTypeInstantiation(type) { if (!deferredGlobalNonNullableTypeAlias) { deferredGlobalNonNullableTypeAlias = getGlobalSymbol("NonNullable", 524288 /* TypeAlias */, /*diagnostic*/ undefined) || unknownSymbol; } // Use NonNullable global type alias if available to improve quick info/declaration emit if (deferredGlobalNonNullableTypeAlias !== unknownSymbol) { return getTypeAliasInstantiation(deferredGlobalNonNullableTypeAlias, [type]); } return getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */); // Type alias unavailable, fall back to non-higher-order behavior } function getNonNullableType(type) { return strictNullChecks ? getGlobalNonNullableTypeInstantiation(type) : type; } function addOptionalTypeMarker(type) { return strictNullChecks ? getUnionType([type, optionalType]) : type; } function isNotOptionalTypeMarker(type) { return type !== optionalType; } function removeOptionalTypeMarker(type) { return strictNullChecks ? filterType(type, isNotOptionalTypeMarker) : type; } function propagateOptionalTypeMarker(type, node, wasOptional) { return wasOptional ? ts.isOutermostOptionalChain(node) ? getOptionalType(type) : addOptionalTypeMarker(type) : type; } function getOptionalExpressionType(exprType, expression) { return ts.isExpressionOfOptionalChainRoot(expression) ? getNonNullableType(exprType) : ts.isOptionalChain(expression) ? removeOptionalTypeMarker(exprType) : exprType; } /** * Is source potentially coercible to target type under `==`. * Assumes that `source` is a constituent of a union, hence * the boolean literal flag on the LHS, but not on the RHS. * * This does not fully replicate the semantics of `==`. The * intention is to catch cases that are clearly not right. * * Comparing (string | number) to number should not remove the * string element. * * Comparing (string | number) to 1 will remove the string * element, though this is not sound. This is a pragmatic * choice. * * @see narrowTypeByEquality * * @param source * @param target */ function isCoercibleUnderDoubleEquals(source, target) { return ((source.flags & (8 /* Number */ | 4 /* String */ | 512 /* BooleanLiteral */)) !== 0) && ((target.flags & (8 /* Number */ | 4 /* String */ | 16 /* Boolean */)) !== 0); } /** * Return true if type was inferred from an object literal, written as an object type literal, or is the shape of a module * with no call or construct signatures. */ function isObjectTypeWithInferableIndex(type) { return type.flags & 2097152 /* Intersection */ ? ts.every(type.types, isObjectTypeWithInferableIndex) : !!(type.symbol && (type.symbol.flags & (4096 /* ObjectLiteral */ | 2048 /* TypeLiteral */ | 384 /* Enum */ | 512 /* ValueModule */)) !== 0 && !typeHasCallOrConstructSignatures(type)) || !!(ts.getObjectFlags(type) & 2048 /* ReverseMapped */ && isObjectTypeWithInferableIndex(type.source)); } function createSymbolWithType(source, type) { var symbol = createSymbol(source.flags, source.escapedName, ts.getCheckFlags(source) & 8 /* Readonly */); symbol.declarations = source.declarations; symbol.parent = source.parent; symbol.type = type; symbol.target = source; if (source.valueDeclaration) { symbol.valueDeclaration = source.valueDeclaration; } var nameType = getSymbolLinks(source).nameType; if (nameType) { symbol.nameType = nameType; } return symbol; } function transformTypeOfMembers(type, f) { var members = ts.createSymbolTable(); for (var _i = 0, _a = getPropertiesOfObjectType(type); _i < _a.length; _i++) { var property = _a[_i]; var original = getTypeOfSymbol(property); var updated = f(original); members.set(property.escapedName, updated === original ? property : createSymbolWithType(property, updated)); } return members; } /** * If the the provided object literal is subject to the excess properties check, * create a new that is exempt. Recursively mark object literal members as exempt. * Leave signatures alone since they are not subject to the check. */ function getRegularTypeOfObjectLiteral(type) { if (!(isObjectLiteralType(type) && ts.getObjectFlags(type) & 32768 /* FreshLiteral */)) { return type; } var regularType = type.regularType; if (regularType) { return regularType; } var resolved = type; var members = transformTypeOfMembers(type, getRegularTypeOfObjectLiteral); var regularNew = createAnonymousType(resolved.symbol, members, resolved.callSignatures, resolved.constructSignatures, resolved.stringIndexInfo, resolved.numberIndexInfo); regularNew.flags = resolved.flags; regularNew.objectFlags |= resolved.objectFlags & ~32768 /* FreshLiteral */; type.regularType = regularNew; return regularNew; } function createWideningContext(parent, propertyName, siblings) { return { parent: parent, propertyName: propertyName, siblings: siblings, resolvedProperties: undefined }; } function getSiblingsOfContext(context) { if (!context.siblings) { var siblings_1 = []; for (var _i = 0, _a = getSiblingsOfContext(context.parent); _i < _a.length; _i++) { var type = _a[_i]; if (isObjectLiteralType(type)) { var prop = getPropertyOfObjectType(type, context.propertyName); if (prop) { forEachType(getTypeOfSymbol(prop), function (t) { siblings_1.push(t); }); } } } context.siblings = siblings_1; } return context.siblings; } function getPropertiesOfContext(context) { if (!context.resolvedProperties) { var names = ts.createMap(); for (var _i = 0, _a = getSiblingsOfContext(context); _i < _a.length; _i++) { var t = _a[_i]; if (isObjectLiteralType(t) && !(ts.getObjectFlags(t) & 1024 /* ContainsSpread */)) { for (var _b = 0, _c = getPropertiesOfType(t); _b < _c.length; _b++) { var prop = _c[_b]; names.set(prop.escapedName, prop); } } } context.resolvedProperties = ts.arrayFrom(names.values()); } return context.resolvedProperties; } function getWidenedProperty(prop, context) { if (!(prop.flags & 4 /* Property */)) { // Since get accessors already widen their return value there is no need to // widen accessor based properties here. return prop; } var original = getTypeOfSymbol(prop); var propContext = context && createWideningContext(context, prop.escapedName, /*siblings*/ undefined); var widened = getWidenedTypeWithContext(original, propContext); return widened === original ? prop : createSymbolWithType(prop, widened); } function getUndefinedProperty(prop) { var cached = undefinedProperties.get(prop.escapedName); if (cached) { return cached; } var result = createSymbolWithType(prop, undefinedType); result.flags |= 16777216 /* Optional */; undefinedProperties.set(prop.escapedName, result); return result; } function getWidenedTypeOfObjectLiteral(type, context) { var members = ts.createSymbolTable(); for (var _i = 0, _a = getPropertiesOfObjectType(type); _i < _a.length; _i++) { var prop = _a[_i]; members.set(prop.escapedName, getWidenedProperty(prop, context)); } if (context) { for (var _b = 0, _c = getPropertiesOfContext(context); _b < _c.length; _b++) { var prop = _c[_b]; if (!members.has(prop.escapedName)) { members.set(prop.escapedName, getUndefinedProperty(prop)); } } } var stringIndexInfo = getIndexInfoOfType(type, 0 /* String */); var numberIndexInfo = getIndexInfoOfType(type, 1 /* Number */); var result = createAnonymousType(type.symbol, members, ts.emptyArray, ts.emptyArray, stringIndexInfo && createIndexInfo(getWidenedType(stringIndexInfo.type), stringIndexInfo.isReadonly), numberIndexInfo && createIndexInfo(getWidenedType(numberIndexInfo.type), numberIndexInfo.isReadonly)); result.objectFlags |= (ts.getObjectFlags(type) & (16384 /* JSLiteral */ | 2097152 /* NonInferrableType */)); // Retain js literal flag through widening return result; } function getWidenedType(type) { return getWidenedTypeWithContext(type, /*context*/ undefined); } function getWidenedTypeWithContext(type, context) { if (ts.getObjectFlags(type) & 1572864 /* RequiresWidening */) { if (context === undefined && type.widened) { return type.widened; } var result = void 0; if (type.flags & (1 /* Any */ | 98304 /* Nullable */)) { result = anyType; } else if (isObjectLiteralType(type)) { result = getWidenedTypeOfObjectLiteral(type, context); } else if (type.flags & 1048576 /* Union */) { var unionContext_1 = context || createWideningContext(/*parent*/ undefined, /*propertyName*/ undefined, type.types); var widenedTypes = ts.sameMap(type.types, function (t) { return t.flags & 98304 /* Nullable */ ? t : getWidenedTypeWithContext(t, unionContext_1); }); // Widening an empty object literal transitions from a highly restrictive type to // a highly inclusive one. For that reason we perform subtype reduction here if the // union includes empty object types (e.g. reducing {} | string to just {}). result = getUnionType(widenedTypes, ts.some(widenedTypes, isEmptyObjectType) ? 2 /* Subtype */ : 1 /* Literal */); } else if (type.flags & 2097152 /* Intersection */) { result = getIntersectionType(ts.sameMap(type.types, getWidenedType)); } else if (isArrayType(type) || isTupleType(type)) { result = createTypeReference(type.target, ts.sameMap(getTypeArguments(type), getWidenedType)); } if (result && context === undefined) { type.widened = result; } return result || type; } return type; } /** * Reports implicit any errors that occur as a result of widening 'null' and 'undefined' * to 'any'. A call to reportWideningErrorsInType is normally accompanied by a call to * getWidenedType. But in some cases getWidenedType is called without reporting errors * (type argument inference is an example). * * The return value indicates whether an error was in fact reported. The particular circumstances * are on a best effort basis. Currently, if the null or undefined that causes widening is inside * an object literal property (arbitrarily deeply), this function reports an error. If no error is * reported, reportImplicitAnyError is a suitable fallback to report a general error. */ function reportWideningErrorsInType(type) { var errorReported = false; if (ts.getObjectFlags(type) & 524288 /* ContainsWideningType */) { if (type.flags & 1048576 /* Union */) { if (ts.some(type.types, isEmptyObjectType)) { errorReported = true; } else { for (var _i = 0, _a = type.types; _i < _a.length; _i++) { var t = _a[_i]; if (reportWideningErrorsInType(t)) { errorReported = true; } } } } if (isArrayType(type) || isTupleType(type)) { for (var _b = 0, _c = getTypeArguments(type); _b < _c.length; _b++) { var t = _c[_b]; if (reportWideningErrorsInType(t)) { errorReported = true; } } } if (isObjectLiteralType(type)) { for (var _d = 0, _e = getPropertiesOfObjectType(type); _d < _e.length; _d++) { var p = _e[_d]; var t = getTypeOfSymbol(p); if (ts.getObjectFlags(t) & 524288 /* ContainsWideningType */) { if (!reportWideningErrorsInType(t)) { error(p.valueDeclaration, ts.Diagnostics.Object_literal_s_property_0_implicitly_has_an_1_type, symbolToString(p), typeToString(getWidenedType(t))); } errorReported = true; } } } } return errorReported; } function reportImplicitAny(declaration, type, wideningKind) { var typeAsString = typeToString(getWidenedType(type)); if (ts.isInJSFile(declaration) && !ts.isCheckJsEnabledForFile(ts.getSourceFileOfNode(declaration), compilerOptions)) { // Only report implicit any errors/suggestions in TS and ts-check JS files return; } var diagnostic; switch (declaration.kind) { case 209 /* BinaryExpression */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: diagnostic = noImplicitAny ? ts.Diagnostics.Member_0_implicitly_has_an_1_type : ts.Diagnostics.Member_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage; break; case 156 /* Parameter */: var param = declaration; if (ts.isIdentifier(param.name) && (ts.isCallSignatureDeclaration(param.parent) || ts.isMethodSignature(param.parent) || ts.isFunctionTypeNode(param.parent)) && param.parent.parameters.indexOf(param) > -1 && (resolveName(param, param.name.escapedText, 788968 /* Type */, undefined, param.name.escapedText, /*isUse*/ true) || param.name.originalKeywordKind && ts.isTypeNodeKind(param.name.originalKeywordKind))) { var newName = "arg" + param.parent.parameters.indexOf(param); errorOrSuggestion(noImplicitAny, declaration, ts.Diagnostics.Parameter_has_a_name_but_no_type_Did_you_mean_0_Colon_1, newName, ts.declarationNameToString(param.name)); return; } diagnostic = declaration.dotDotDotToken ? noImplicitAny ? ts.Diagnostics.Rest_parameter_0_implicitly_has_an_any_type : ts.Diagnostics.Rest_parameter_0_implicitly_has_an_any_type_but_a_better_type_may_be_inferred_from_usage : noImplicitAny ? ts.Diagnostics.Parameter_0_implicitly_has_an_1_type : ts.Diagnostics.Parameter_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage; break; case 191 /* BindingElement */: diagnostic = ts.Diagnostics.Binding_element_0_implicitly_has_an_1_type; if (!noImplicitAny) { // Don't issue a suggestion for binding elements since the codefix doesn't yet support them. return; } break; case 300 /* JSDocFunctionType */: error(declaration, ts.Diagnostics.Function_type_which_lacks_return_type_annotation_implicitly_has_an_0_return_type, typeAsString); return; case 244 /* FunctionDeclaration */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: if (noImplicitAny && !declaration.name) { if (wideningKind === 3 /* GeneratorYield */) { error(declaration, ts.Diagnostics.Generator_implicitly_has_yield_type_0_because_it_does_not_yield_any_values_Consider_supplying_a_return_type_annotation, typeAsString); } else { error(declaration, ts.Diagnostics.Function_expression_which_lacks_return_type_annotation_implicitly_has_an_0_return_type, typeAsString); } return; } diagnostic = !noImplicitAny ? ts.Diagnostics._0_implicitly_has_an_1_return_type_but_a_better_type_may_be_inferred_from_usage : wideningKind === 3 /* GeneratorYield */ ? ts.Diagnostics._0_which_lacks_return_type_annotation_implicitly_has_an_1_yield_type : ts.Diagnostics._0_which_lacks_return_type_annotation_implicitly_has_an_1_return_type; break; case 186 /* MappedType */: if (noImplicitAny) { error(declaration, ts.Diagnostics.Mapped_object_type_implicitly_has_an_any_template_type); } return; default: diagnostic = noImplicitAny ? ts.Diagnostics.Variable_0_implicitly_has_an_1_type : ts.Diagnostics.Variable_0_implicitly_has_an_1_type_but_a_better_type_may_be_inferred_from_usage; } errorOrSuggestion(noImplicitAny, declaration, diagnostic, ts.declarationNameToString(ts.getNameOfDeclaration(declaration)), typeAsString); } function reportErrorsFromWidening(declaration, type, wideningKind) { if (produceDiagnostics && noImplicitAny && ts.getObjectFlags(type) & 524288 /* ContainsWideningType */ && (!wideningKind || !getContextualSignatureForFunctionLikeDeclaration(declaration))) { // Report implicit any error within type if possible, otherwise report error on declaration if (!reportWideningErrorsInType(type)) { reportImplicitAny(declaration, type, wideningKind); } } } function applyToParameterTypes(source, target, callback) { var sourceCount = getParameterCount(source); var targetCount = getParameterCount(target); var sourceRestType = getEffectiveRestType(source); var targetRestType = getEffectiveRestType(target); var targetNonRestCount = targetRestType ? targetCount - 1 : targetCount; var paramCount = sourceRestType ? targetNonRestCount : Math.min(sourceCount, targetNonRestCount); var sourceThisType = getThisTypeOfSignature(source); if (sourceThisType) { var targetThisType = getThisTypeOfSignature(target); if (targetThisType) { callback(sourceThisType, targetThisType); } } for (var i = 0; i < paramCount; i++) { callback(getTypeAtPosition(source, i), getTypeAtPosition(target, i)); } if (targetRestType) { callback(getRestTypeAtPosition(source, paramCount), targetRestType); } } function applyToReturnTypes(source, target, callback) { var sourceTypePredicate = getTypePredicateOfSignature(source); var targetTypePredicate = getTypePredicateOfSignature(target); if (sourceTypePredicate && targetTypePredicate && typePredicateKindsMatch(sourceTypePredicate, targetTypePredicate) && sourceTypePredicate.type && targetTypePredicate.type) { callback(sourceTypePredicate.type, targetTypePredicate.type); } else { callback(getReturnTypeOfSignature(source), getReturnTypeOfSignature(target)); } } function createInferenceContext(typeParameters, signature, flags, compareTypes) { return createInferenceContextWorker(typeParameters.map(createInferenceInfo), signature, flags, compareTypes || compareTypesAssignable); } function cloneInferenceContext(context, extraFlags) { if (extraFlags === void 0) { extraFlags = 0; } return context && createInferenceContextWorker(ts.map(context.inferences, cloneInferenceInfo), context.signature, context.flags | extraFlags, context.compareTypes); } function createInferenceContextWorker(inferences, signature, flags, compareTypes) { var context = { inferences: inferences, signature: signature, flags: flags, compareTypes: compareTypes, mapper: makeFunctionTypeMapper(function (t) { return mapToInferredType(context, t, /*fix*/ true); }), nonFixingMapper: makeFunctionTypeMapper(function (t) { return mapToInferredType(context, t, /*fix*/ false); }), }; return context; } function mapToInferredType(context, t, fix) { var inferences = context.inferences; for (var i = 0; i < inferences.length; i++) { var inference = inferences[i]; if (t === inference.typeParameter) { if (fix && !inference.isFixed) { clearCachedInferences(inferences); inference.isFixed = true; } return getInferredType(context, i); } } return t; } function clearCachedInferences(inferences) { for (var _i = 0, inferences_1 = inferences; _i < inferences_1.length; _i++) { var inference = inferences_1[_i]; if (!inference.isFixed) { inference.inferredType = undefined; } } } function createInferenceInfo(typeParameter) { return { typeParameter: typeParameter, candidates: undefined, contraCandidates: undefined, inferredType: undefined, priority: undefined, topLevel: true, isFixed: false }; } function cloneInferenceInfo(inference) { return { typeParameter: inference.typeParameter, candidates: inference.candidates && inference.candidates.slice(), contraCandidates: inference.contraCandidates && inference.contraCandidates.slice(), inferredType: inference.inferredType, priority: inference.priority, topLevel: inference.topLevel, isFixed: inference.isFixed }; } function cloneInferredPartOfContext(context) { var inferences = ts.filter(context.inferences, hasInferenceCandidates); return inferences.length ? createInferenceContextWorker(ts.map(inferences, cloneInferenceInfo), context.signature, context.flags, context.compareTypes) : undefined; } function getMapperFromContext(context) { return context && context.mapper; } // Return true if the given type could possibly reference a type parameter for which // we perform type inference (i.e. a type parameter of a generic function). We cache // results for union and intersection types for performance reasons. function couldContainTypeVariables(type) { var objectFlags = ts.getObjectFlags(type); if (objectFlags & 67108864 /* CouldContainTypeVariablesComputed */) { return !!(objectFlags & 134217728 /* CouldContainTypeVariables */); } var result = !!(type.flags & 63176704 /* Instantiable */ || objectFlags & 4 /* Reference */ && (type.node || ts.forEach(getTypeArguments(type), couldContainTypeVariables)) || objectFlags & 16 /* Anonymous */ && type.symbol && type.symbol.flags & (16 /* Function */ | 8192 /* Method */ | 32 /* Class */ | 2048 /* TypeLiteral */ | 4096 /* ObjectLiteral */) && type.symbol.declarations || objectFlags & (32 /* Mapped */ | 131072 /* ObjectRestType */) || type.flags & 3145728 /* UnionOrIntersection */ && !(type.flags & 1024 /* EnumLiteral */) && ts.some(type.types, couldContainTypeVariables)); if (type.flags & 3899393 /* ObjectFlagsType */) { type.objectFlags |= 67108864 /* CouldContainTypeVariablesComputed */ | (result ? 134217728 /* CouldContainTypeVariables */ : 0); } return result; } function isTypeParameterAtTopLevel(type, typeParameter) { return !!(type === typeParameter || type.flags & 3145728 /* UnionOrIntersection */ && ts.some(type.types, function (t) { return isTypeParameterAtTopLevel(t, typeParameter); }) || type.flags & 16777216 /* Conditional */ && (isTypeParameterAtTopLevel(getTrueTypeFromConditionalType(type), typeParameter) || isTypeParameterAtTopLevel(getFalseTypeFromConditionalType(type), typeParameter))); } /** Create an object with properties named in the string literal type. Every property has type `any` */ function createEmptyObjectTypeFromStringLiteral(type) { var members = ts.createSymbolTable(); forEachType(type, function (t) { if (!(t.flags & 128 /* StringLiteral */)) { return; } var name = ts.escapeLeadingUnderscores(t.value); var literalProp = createSymbol(4 /* Property */, name); literalProp.type = anyType; if (t.symbol) { literalProp.declarations = t.symbol.declarations; literalProp.valueDeclaration = t.symbol.valueDeclaration; } members.set(name, literalProp); }); var indexInfo = type.flags & 4 /* String */ ? createIndexInfo(emptyObjectType, /*isReadonly*/ false) : undefined; return createAnonymousType(undefined, members, ts.emptyArray, ts.emptyArray, indexInfo, undefined); } /** * Infer a suitable input type for a homomorphic mapped type { [P in keyof T]: X }. We construct * an object type with the same set of properties as the source type, where the type of each * property is computed by inferring from the source property type to X for the type * variable T[P] (i.e. we treat the type T[P] as the type variable we're inferring for). */ function inferTypeForHomomorphicMappedType(source, target, constraint) { var key = source.id + "," + target.id + "," + constraint.id; if (reverseMappedCache.has(key)) { return reverseMappedCache.get(key); } reverseMappedCache.set(key, undefined); var type = createReverseMappedType(source, target, constraint); reverseMappedCache.set(key, type); return type; } // We consider a type to be partially inferable if it isn't marked non-inferable or if it is // an object literal type with at least one property of an inferable type. For example, an object // literal { a: 123, b: x => true } is marked non-inferable because it contains a context sensitive // arrow function, but is considered partially inferable because property 'a' has an inferable type. function isPartiallyInferableType(type) { return !(ts.getObjectFlags(type) & 2097152 /* NonInferrableType */) || isObjectLiteralType(type) && ts.some(getPropertiesOfType(type), function (prop) { return isPartiallyInferableType(getTypeOfSymbol(prop)); }); } function createReverseMappedType(source, target, constraint) { // We consider a source type reverse mappable if it has a string index signature or if // it has one or more properties and is of a partially inferable type. if (!(getIndexInfoOfType(source, 0 /* String */) || getPropertiesOfType(source).length !== 0 && isPartiallyInferableType(source))) { return undefined; } // For arrays and tuples we infer new arrays and tuples where the reverse mapping has been // applied to the element type(s). if (isArrayType(source)) { return createArrayType(inferReverseMappedType(getTypeArguments(source)[0], target, constraint), isReadonlyArrayType(source)); } if (isTupleType(source)) { var elementTypes = ts.map(getTypeArguments(source), function (t) { return inferReverseMappedType(t, target, constraint); }); var minLength = getMappedTypeModifiers(target) & 4 /* IncludeOptional */ ? getTypeReferenceArity(source) - (source.target.hasRestElement ? 1 : 0) : source.target.minLength; return createTupleType(elementTypes, minLength, source.target.hasRestElement, source.target.readonly, source.target.associatedNames); } // For all other object types we infer a new object type where the reverse mapping has been // applied to the type of each property. var reversed = createObjectType(2048 /* ReverseMapped */ | 16 /* Anonymous */, /*symbol*/ undefined); reversed.source = source; reversed.mappedType = target; reversed.constraintType = constraint; return reversed; } function getTypeOfReverseMappedSymbol(symbol) { return inferReverseMappedType(symbol.propertyType, symbol.mappedType, symbol.constraintType); } function inferReverseMappedType(sourceType, target, constraint) { var typeParameter = getIndexedAccessType(constraint.type, getTypeParameterFromMappedType(target)); var templateType = getTemplateTypeFromMappedType(target); var inference = createInferenceInfo(typeParameter); inferTypes([inference], sourceType, templateType); return getTypeFromInference(inference) || unknownType; } function getUnmatchedProperties(source, target, requireOptionalProperties, matchDiscriminantProperties) { var properties, _i, properties_2, targetProp, sourceProp, targetType, sourceType; return __generator(this, function (_a) { switch (_a.label) { case 0: properties = getPropertiesOfType(target); _i = 0, properties_2 = properties; _a.label = 1; case 1: if (!(_i < properties_2.length)) return [3 /*break*/, 6]; targetProp = properties_2[_i]; // TODO: remove this when we support static private identifier fields and find other solutions to get privateNamesAndStaticFields test to pass if (isStaticPrivateIdentifierProperty(targetProp)) { return [3 /*break*/, 5]; } if (!(requireOptionalProperties || !(targetProp.flags & 16777216 /* Optional */ || ts.getCheckFlags(targetProp) & 48 /* Partial */))) return [3 /*break*/, 5]; sourceProp = getPropertyOfType(source, targetProp.escapedName); if (!!sourceProp) return [3 /*break*/, 3]; return [4 /*yield*/, targetProp]; case 2: _a.sent(); return [3 /*break*/, 5]; case 3: if (!matchDiscriminantProperties) return [3 /*break*/, 5]; targetType = getTypeOfSymbol(targetProp); if (!(targetType.flags & 109440 /* Unit */)) return [3 /*break*/, 5]; sourceType = getTypeOfSymbol(sourceProp); if (!!(sourceType.flags & 1 /* Any */ || getRegularTypeOfLiteralType(sourceType) === getRegularTypeOfLiteralType(targetType))) return [3 /*break*/, 5]; return [4 /*yield*/, targetProp]; case 4: _a.sent(); _a.label = 5; case 5: _i++; return [3 /*break*/, 1]; case 6: return [2 /*return*/]; } }); } function getUnmatchedProperty(source, target, requireOptionalProperties, matchDiscriminantProperties) { var result = getUnmatchedProperties(source, target, requireOptionalProperties, matchDiscriminantProperties).next(); if (!result.done) return result.value; } function tupleTypesDefinitelyUnrelated(source, target) { return target.target.minLength > source.target.minLength || !getRestTypeOfTupleType(target) && (!!getRestTypeOfTupleType(source) || getLengthOfTupleType(target) < getLengthOfTupleType(source)); } function typesDefinitelyUnrelated(source, target) { // Two tuple types with incompatible arities are definitely unrelated. // Two object types that each have a property that is unmatched in the other are definitely unrelated. return isTupleType(source) && isTupleType(target) && tupleTypesDefinitelyUnrelated(source, target) || !!getUnmatchedProperty(source, target, /*requireOptionalProperties*/ false, /*matchDiscriminantProperties*/ true) && !!getUnmatchedProperty(target, source, /*requireOptionalProperties*/ false, /*matchDiscriminantProperties*/ true); } function getTypeFromInference(inference) { return inference.candidates ? getUnionType(inference.candidates, 2 /* Subtype */) : inference.contraCandidates ? getIntersectionType(inference.contraCandidates) : undefined; } function hasSkipDirectInferenceFlag(node) { return !!getNodeLinks(node).skipDirectInference; } function isFromInferenceBlockedSource(type) { return !!(type.symbol && ts.some(type.symbol.declarations, hasSkipDirectInferenceFlag)); } function inferTypes(inferences, originalSource, originalTarget, priority, contravariant) { if (priority === void 0) { priority = 0; } if (contravariant === void 0) { contravariant = false; } var symbolOrTypeStack; var visited; var bivariant = false; var propagationType; var inferencePriority = 512 /* MaxValue */; var allowComplexConstraintInference = true; inferFromTypes(originalSource, originalTarget); function inferFromTypes(source, target) { if (!couldContainTypeVariables(target)) { return; } if (source === wildcardType) { // We are inferring from an 'any' type. We want to infer this type for every type parameter // referenced in the target type, so we record it as the propagation type and infer from the // target to itself. Then, as we find candidates we substitute the propagation type. var savePropagationType = propagationType; propagationType = source; inferFromTypes(target, target); propagationType = savePropagationType; return; } if (source.aliasSymbol && source.aliasTypeArguments && source.aliasSymbol === target.aliasSymbol) { // Source and target are types originating in the same generic type alias declaration. // Simply infer from source type arguments to target type arguments. inferFromTypeArguments(source.aliasTypeArguments, target.aliasTypeArguments, getAliasVariances(source.aliasSymbol)); return; } if (source === target && source.flags & 3145728 /* UnionOrIntersection */) { // When source and target are the same union or intersection type, just relate each constituent // type to itself. for (var _i = 0, _a = source.types; _i < _a.length; _i++) { var t = _a[_i]; inferFromTypes(t, t); } return; } if (target.flags & 1048576 /* Union */) { // First, infer between identically matching source and target constituents and remove the // matching types. var _b = inferFromMatchingTypes(source.flags & 1048576 /* Union */ ? source.types : [source], target.types, isTypeOrBaseIdenticalTo), tempSources = _b[0], tempTargets = _b[1]; // Next, infer between closely matching source and target constituents and remove // the matching types. Types closely match when they are instantiations of the same // object type or instantiations of the same type alias. var _c = inferFromMatchingTypes(tempSources, tempTargets, isTypeCloselyMatchedBy), sources = _c[0], targets = _c[1]; if (targets.length === 0) { return; } target = getUnionType(targets); if (sources.length === 0) { // All source constituents have been matched and there is nothing further to infer from. // However, simply making no inferences is undesirable because it could ultimately mean // inferring a type parameter constraint. Instead, make a lower priority inference from // the full source to whatever remains in the target. For example, when inferring from // string to 'string | T', make a lower priority inference of string for T. inferWithPriority(source, target, 1 /* NakedTypeVariable */); return; } source = getUnionType(sources); } else if (target.flags & 2097152 /* Intersection */ && ts.some(target.types, function (t) { return !!getInferenceInfoForType(t) || (isGenericMappedType(t) && !!getInferenceInfoForType(getHomomorphicTypeVariable(t) || neverType)); })) { // We reduce intersection types only when they contain naked type parameters. For example, when // inferring from 'string[] & { extra: any }' to 'string[] & T' we want to remove string[] and // infer { extra: any } for T. But when inferring to 'string[] & Iterable' we want to keep the // string[] on the source side and infer string for T. // Likewise, we consider a homomorphic mapped type constrainted to the target type parameter as similar to a "naked type variable" // in such scenarios. if (!(source.flags & 1048576 /* Union */)) { // Infer between identically matching source and target constituents and remove the matching types. var _d = inferFromMatchingTypes(source.flags & 2097152 /* Intersection */ ? source.types : [source], target.types, isTypeIdenticalTo), sources = _d[0], targets = _d[1]; if (sources.length === 0 || targets.length === 0) { return; } source = getIntersectionType(sources); target = getIntersectionType(targets); } } else if (target.flags & (8388608 /* IndexedAccess */ | 33554432 /* Substitution */)) { target = getActualTypeVariable(target); } if (target.flags & 8650752 /* TypeVariable */) { // If target is a type parameter, make an inference, unless the source type contains // the anyFunctionType (the wildcard type that's used to avoid contextually typing functions). // Because the anyFunctionType is internal, it should not be exposed to the user by adding // it as an inference candidate. Hopefully, a better candidate will come along that does // not contain anyFunctionType when we come back to this argument for its second round // of inference. Also, we exclude inferences for silentNeverType (which is used as a wildcard // when constructing types from type parameters that had no inference candidates). if (ts.getObjectFlags(source) & 2097152 /* NonInferrableType */ || source === nonInferrableAnyType || source === silentNeverType || (priority & 32 /* ReturnType */ && (source === autoType || source === autoArrayType)) || isFromInferenceBlockedSource(source)) { return; } var inference = getInferenceInfoForType(target); if (inference) { if (!inference.isFixed) { if (inference.priority === undefined || priority < inference.priority) { inference.candidates = undefined; inference.contraCandidates = undefined; inference.topLevel = true; inference.priority = priority; } if (priority === inference.priority) { var candidate = propagationType || source; // We make contravariant inferences only if we are in a pure contravariant position, // i.e. only if we have not descended into a bivariant position. if (contravariant && !bivariant) { if (!ts.contains(inference.contraCandidates, candidate)) { inference.contraCandidates = ts.append(inference.contraCandidates, candidate); clearCachedInferences(inferences); } } else if (!ts.contains(inference.candidates, candidate)) { inference.candidates = ts.append(inference.candidates, candidate); clearCachedInferences(inferences); } } if (!(priority & 32 /* ReturnType */) && target.flags & 262144 /* TypeParameter */ && inference.topLevel && !isTypeParameterAtTopLevel(originalTarget, target)) { inference.topLevel = false; clearCachedInferences(inferences); } } inferencePriority = Math.min(inferencePriority, priority); return; } else { // Infer to the simplified version of an indexed access, if possible, to (hopefully) expose more bare type parameters to the inference engine var simplified = getSimplifiedType(target, /*writing*/ false); if (simplified !== target) { invokeOnce(source, simplified, inferFromTypes); } else if (target.flags & 8388608 /* IndexedAccess */) { var indexType = getSimplifiedType(target.indexType, /*writing*/ false); // Generally simplifications of instantiable indexes are avoided to keep relationship checking correct, however if our target is an access, we can consider // that key of that access to be "instantiated", since we're looking to find the infernce goal in any way we can. if (indexType.flags & 63176704 /* Instantiable */) { var simplified_1 = distributeIndexOverObjectType(getSimplifiedType(target.objectType, /*writing*/ false), indexType, /*writing*/ false); if (simplified_1 && simplified_1 !== target) { invokeOnce(source, simplified_1, inferFromTypes); } } } } } if (ts.getObjectFlags(source) & 4 /* Reference */ && ts.getObjectFlags(target) & 4 /* Reference */ && (source.target === target.target || isArrayType(source) && isArrayType(target)) && !(source.node && target.node)) { // If source and target are references to the same generic type, infer from type arguments inferFromTypeArguments(getTypeArguments(source), getTypeArguments(target), getVariances(source.target)); } else if (source.flags & 4194304 /* Index */ && target.flags & 4194304 /* Index */) { contravariant = !contravariant; inferFromTypes(source.type, target.type); contravariant = !contravariant; } else if ((isLiteralType(source) || source.flags & 4 /* String */) && target.flags & 4194304 /* Index */) { var empty = createEmptyObjectTypeFromStringLiteral(source); contravariant = !contravariant; inferWithPriority(empty, target.type, 64 /* LiteralKeyof */); contravariant = !contravariant; } else if (source.flags & 8388608 /* IndexedAccess */ && target.flags & 8388608 /* IndexedAccess */) { inferFromTypes(source.objectType, target.objectType); inferFromTypes(source.indexType, target.indexType); } else if (source.flags & 16777216 /* Conditional */ && target.flags & 16777216 /* Conditional */) { inferFromTypes(source.checkType, target.checkType); inferFromTypes(source.extendsType, target.extendsType); inferFromTypes(getTrueTypeFromConditionalType(source), getTrueTypeFromConditionalType(target)); inferFromTypes(getFalseTypeFromConditionalType(source), getFalseTypeFromConditionalType(target)); } else if (target.flags & 16777216 /* Conditional */) { var savePriority = priority; priority |= contravariant ? 16 /* ContravariantConditional */ : 0; var targetTypes = [getTrueTypeFromConditionalType(target), getFalseTypeFromConditionalType(target)]; inferToMultipleTypes(source, targetTypes, target.flags); priority = savePriority; } else if (target.flags & 3145728 /* UnionOrIntersection */) { inferToMultipleTypes(source, target.types, target.flags); } else if (source.flags & 1048576 /* Union */) { // Source is a union or intersection type, infer from each constituent type var sourceTypes = source.types; for (var _e = 0, sourceTypes_2 = sourceTypes; _e < sourceTypes_2.length; _e++) { var sourceType = sourceTypes_2[_e]; inferFromTypes(sourceType, target); } } else { source = getReducedType(source); if (!(priority & 128 /* NoConstraints */ && source.flags & (2097152 /* Intersection */ | 63176704 /* Instantiable */))) { var apparentSource = getApparentType(source); // getApparentType can return _any_ type, since an indexed access or conditional may simplify to any other type. // If that occurs and it doesn't simplify to an object or intersection, we'll need to restart `inferFromTypes` // with the simplified source. if (apparentSource !== source && allowComplexConstraintInference && !(apparentSource.flags & (524288 /* Object */ | 2097152 /* Intersection */))) { // TODO: The `allowComplexConstraintInference` flag is a hack! This forbids inference from complex constraints within constraints! // This isn't required algorithmically, but rather is used to lower the memory burden caused by performing inference // that is _too good_ in projects with complicated constraints (eg, fp-ts). In such cases, if we did not limit ourselves // here, we might produce more valid inferences for types, causing us to do more checks and perform more instantiations // (in addition to the extra stack depth here) which, in turn, can push the already close process over its limit. // TL;DR: If we ever become generally more memory efficient (or our resource budget ever increases), we should just // remove this `allowComplexConstraintInference` flag. allowComplexConstraintInference = false; return inferFromTypes(apparentSource, target); } source = apparentSource; } if (source.flags & (524288 /* Object */ | 2097152 /* Intersection */)) { invokeOnce(source, target, inferFromObjectTypes); } } if (source.flags & 25165824 /* Simplifiable */) { var simplified = getSimplifiedType(source, contravariant); if (simplified !== source) { inferFromTypes(simplified, target); } } } function inferWithPriority(source, target, newPriority) { var savePriority = priority; priority |= newPriority; inferFromTypes(source, target); priority = savePriority; } function invokeOnce(source, target, action) { var key = source.id + "," + target.id; var status = visited && visited.get(key); if (status !== undefined) { inferencePriority = Math.min(inferencePriority, status); return; } (visited || (visited = ts.createMap())).set(key, -1 /* Circularity */); var saveInferencePriority = inferencePriority; inferencePriority = 512 /* MaxValue */; action(source, target); visited.set(key, inferencePriority); inferencePriority = Math.min(inferencePriority, saveInferencePriority); } function inferFromMatchingTypes(sources, targets, matches) { var matchedSources; var matchedTargets; for (var _i = 0, targets_1 = targets; _i < targets_1.length; _i++) { var t = targets_1[_i]; for (var _a = 0, sources_1 = sources; _a < sources_1.length; _a++) { var s = sources_1[_a]; if (matches(s, t)) { inferFromTypes(s, t); matchedSources = ts.appendIfUnique(matchedSources, s); matchedTargets = ts.appendIfUnique(matchedTargets, t); } } } return [ matchedSources ? ts.filter(sources, function (t) { return !ts.contains(matchedSources, t); }) : sources, matchedTargets ? ts.filter(targets, function (t) { return !ts.contains(matchedTargets, t); }) : targets, ]; } function inferFromTypeArguments(sourceTypes, targetTypes, variances) { var count = sourceTypes.length < targetTypes.length ? sourceTypes.length : targetTypes.length; for (var i = 0; i < count; i++) { if (i < variances.length && (variances[i] & 7 /* VarianceMask */) === 2 /* Contravariant */) { inferFromContravariantTypes(sourceTypes[i], targetTypes[i]); } else { inferFromTypes(sourceTypes[i], targetTypes[i]); } } } function inferFromContravariantTypes(source, target) { if (strictFunctionTypes || priority & 256 /* AlwaysStrict */) { contravariant = !contravariant; inferFromTypes(source, target); contravariant = !contravariant; } else { inferFromTypes(source, target); } } function getInferenceInfoForType(type) { if (type.flags & 8650752 /* TypeVariable */) { for (var _i = 0, inferences_2 = inferences; _i < inferences_2.length; _i++) { var inference = inferences_2[_i]; if (type === inference.typeParameter) { return inference; } } } return undefined; } function getSingleTypeVariableFromIntersectionTypes(types) { var typeVariable; for (var _i = 0, types_14 = types; _i < types_14.length; _i++) { var type = types_14[_i]; var t = type.flags & 2097152 /* Intersection */ && ts.find(type.types, function (t) { return !!getInferenceInfoForType(t); }); if (!t || typeVariable && t !== typeVariable) { return undefined; } typeVariable = t; } return typeVariable; } function inferToMultipleTypes(source, targets, targetFlags) { var typeVariableCount = 0; if (targetFlags & 1048576 /* Union */) { var nakedTypeVariable = void 0; var sources = source.flags & 1048576 /* Union */ ? source.types : [source]; var matched_1 = new Array(sources.length); var inferenceCircularity = false; // First infer to types that are not naked type variables. For each source type we // track whether inferences were made from that particular type to some target with // equal priority (i.e. of equal quality) to what we would infer for a naked type // parameter. for (var _i = 0, targets_2 = targets; _i < targets_2.length; _i++) { var t = targets_2[_i]; if (getInferenceInfoForType(t)) { nakedTypeVariable = t; typeVariableCount++; } else { for (var i = 0; i < sources.length; i++) { var saveInferencePriority = inferencePriority; inferencePriority = 512 /* MaxValue */; inferFromTypes(sources[i], t); if (inferencePriority === priority) matched_1[i] = true; inferenceCircularity = inferenceCircularity || inferencePriority === -1 /* Circularity */; inferencePriority = Math.min(inferencePriority, saveInferencePriority); } } } if (typeVariableCount === 0) { // If every target is an intersection of types containing a single naked type variable, // make a lower priority inference to that type variable. This handles inferring from // 'A | B' to 'T & (X | Y)' where we want to infer 'A | B' for T. var intersectionTypeVariable = getSingleTypeVariableFromIntersectionTypes(targets); if (intersectionTypeVariable) { inferWithPriority(source, intersectionTypeVariable, 1 /* NakedTypeVariable */); } return; } // If the target has a single naked type variable and no inference circularities were // encountered above (meaning we explored the types fully), create a union of the source // types from which no inferences have been made so far and infer from that union to the // naked type variable. if (typeVariableCount === 1 && !inferenceCircularity) { var unmatched = ts.flatMap(sources, function (s, i) { return matched_1[i] ? undefined : s; }); if (unmatched.length) { inferFromTypes(getUnionType(unmatched), nakedTypeVariable); return; } } } else { // We infer from types that are not naked type variables first so that inferences we // make from nested naked type variables and given slightly higher priority by virtue // of being first in the candidates array. for (var _a = 0, targets_3 = targets; _a < targets_3.length; _a++) { var t = targets_3[_a]; if (getInferenceInfoForType(t)) { typeVariableCount++; } else { inferFromTypes(source, t); } } } // Inferences directly to naked type variables are given lower priority as they are // less specific. For example, when inferring from Promise to T | Promise, // we want to infer string for T, not Promise | string. For intersection types // we only infer to single naked type variables. if (targetFlags & 2097152 /* Intersection */ ? typeVariableCount === 1 : typeVariableCount > 0) { for (var _b = 0, targets_4 = targets; _b < targets_4.length; _b++) { var t = targets_4[_b]; if (getInferenceInfoForType(t)) { inferWithPriority(source, t, 1 /* NakedTypeVariable */); } } } } function inferToMappedType(source, target, constraintType) { if (constraintType.flags & 1048576 /* Union */) { var result = false; for (var _i = 0, _a = constraintType.types; _i < _a.length; _i++) { var type = _a[_i]; result = inferToMappedType(source, target, type) || result; } return result; } if (constraintType.flags & 4194304 /* Index */) { // We're inferring from some source type S to a homomorphic mapped type { [P in keyof T]: X }, // where T is a type variable. Use inferTypeForHomomorphicMappedType to infer a suitable source // type and then make a secondary inference from that type to T. We make a secondary inference // such that direct inferences to T get priority over inferences to Partial, for example. var inference = getInferenceInfoForType(constraintType.type); if (inference && !inference.isFixed && !isFromInferenceBlockedSource(source)) { var inferredType = inferTypeForHomomorphicMappedType(source, target, constraintType); if (inferredType) { // We assign a lower priority to inferences made from types containing non-inferrable // types because we may only have a partial result (i.e. we may have failed to make // reverse inferences for some properties). inferWithPriority(inferredType, inference.typeParameter, ts.getObjectFlags(source) & 2097152 /* NonInferrableType */ ? 4 /* PartialHomomorphicMappedType */ : 2 /* HomomorphicMappedType */); } } return true; } if (constraintType.flags & 262144 /* TypeParameter */) { // We're inferring from some source type S to a mapped type { [P in K]: X }, where K is a type // parameter. First infer from 'keyof S' to K. inferWithPriority(getIndexType(source), constraintType, 8 /* MappedTypeConstraint */); // If K is constrained to a type C, also infer to C. Thus, for a mapped type { [P in K]: X }, // where K extends keyof T, we make the same inferences as for a homomorphic mapped type // { [P in keyof T]: X }. This enables us to make meaningful inferences when the target is a // Pick. var extendedConstraint = getConstraintOfType(constraintType); if (extendedConstraint && inferToMappedType(source, target, extendedConstraint)) { return true; } // If no inferences can be made to K's constraint, infer from a union of the property types // in the source to the template type X. var propTypes = ts.map(getPropertiesOfType(source), getTypeOfSymbol); var stringIndexType = getIndexTypeOfType(source, 0 /* String */); var numberIndexInfo = getNonEnumNumberIndexInfo(source); var numberIndexType = numberIndexInfo && numberIndexInfo.type; inferFromTypes(getUnionType(ts.append(ts.append(propTypes, stringIndexType), numberIndexType)), getTemplateTypeFromMappedType(target)); return true; } return false; } function inferFromObjectTypes(source, target) { // If we are already processing another target type with the same associated symbol (such as // an instantiation of the same generic type), we do not explore this target as it would yield // no further inferences. We exclude the static side of classes from this check since it shares // its symbol with the instance side which would lead to false positives. var isNonConstructorObject = target.flags & 524288 /* Object */ && !(ts.getObjectFlags(target) & 16 /* Anonymous */ && target.symbol && target.symbol.flags & 32 /* Class */); var symbolOrType = isNonConstructorObject ? isTupleType(target) ? target.target : target.symbol : undefined; if (symbolOrType) { if (ts.contains(symbolOrTypeStack, symbolOrType)) { inferencePriority = -1 /* Circularity */; return; } (symbolOrTypeStack || (symbolOrTypeStack = [])).push(symbolOrType); inferFromObjectTypesWorker(source, target); symbolOrTypeStack.pop(); } else { inferFromObjectTypesWorker(source, target); } } function inferFromObjectTypesWorker(source, target) { if (ts.getObjectFlags(source) & 4 /* Reference */ && ts.getObjectFlags(target) & 4 /* Reference */ && (source.target === target.target || isArrayType(source) && isArrayType(target))) { // If source and target are references to the same generic type, infer from type arguments inferFromTypeArguments(getTypeArguments(source), getTypeArguments(target), getVariances(source.target)); return; } if (isGenericMappedType(source) && isGenericMappedType(target)) { // The source and target types are generic types { [P in S]: X } and { [P in T]: Y }, so we infer // from S to T and from X to Y. inferFromTypes(getConstraintTypeFromMappedType(source), getConstraintTypeFromMappedType(target)); inferFromTypes(getTemplateTypeFromMappedType(source), getTemplateTypeFromMappedType(target)); } if (ts.getObjectFlags(target) & 32 /* Mapped */) { var constraintType = getConstraintTypeFromMappedType(target); if (inferToMappedType(source, target, constraintType)) { return; } } // Infer from the members of source and target only if the two types are possibly related if (!typesDefinitelyUnrelated(source, target)) { if (isArrayType(source) || isTupleType(source)) { if (isTupleType(target)) { var sourceLength = isTupleType(source) ? getLengthOfTupleType(source) : 0; var targetLength = getLengthOfTupleType(target); var sourceRestType = isTupleType(source) ? getRestTypeOfTupleType(source) : getElementTypeOfArrayType(source); var targetRestType = getRestTypeOfTupleType(target); var fixedLength = targetLength < sourceLength || sourceRestType ? targetLength : sourceLength; for (var i = 0; i < fixedLength; i++) { inferFromTypes(i < sourceLength ? getTypeArguments(source)[i] : sourceRestType, getTypeArguments(target)[i]); } if (targetRestType) { var types = fixedLength < sourceLength ? getTypeArguments(source).slice(fixedLength, sourceLength) : []; if (sourceRestType) { types.push(sourceRestType); } if (types.length) { inferFromTypes(getUnionType(types), targetRestType); } } return; } if (isArrayType(target)) { inferFromIndexTypes(source, target); return; } } inferFromProperties(source, target); inferFromSignatures(source, target, 0 /* Call */); inferFromSignatures(source, target, 1 /* Construct */); inferFromIndexTypes(source, target); } } function inferFromProperties(source, target) { var properties = getPropertiesOfObjectType(target); for (var _i = 0, properties_3 = properties; _i < properties_3.length; _i++) { var targetProp = properties_3[_i]; var sourceProp = getPropertyOfType(source, targetProp.escapedName); if (sourceProp) { inferFromTypes(getTypeOfSymbol(sourceProp), getTypeOfSymbol(targetProp)); } } } function inferFromSignatures(source, target, kind) { var sourceSignatures = getSignaturesOfType(source, kind); var targetSignatures = getSignaturesOfType(target, kind); var sourceLen = sourceSignatures.length; var targetLen = targetSignatures.length; var len = sourceLen < targetLen ? sourceLen : targetLen; var skipParameters = !!(ts.getObjectFlags(source) & 2097152 /* NonInferrableType */); for (var i = 0; i < len; i++) { inferFromSignature(getBaseSignature(sourceSignatures[sourceLen - len + i]), getErasedSignature(targetSignatures[targetLen - len + i]), skipParameters); } } function inferFromSignature(source, target, skipParameters) { if (!skipParameters) { var saveBivariant = bivariant; var kind = target.declaration ? target.declaration.kind : 0 /* Unknown */; // Once we descend into a bivariant signature we remain bivariant for all nested inferences bivariant = bivariant || kind === 161 /* MethodDeclaration */ || kind === 160 /* MethodSignature */ || kind === 162 /* Constructor */; applyToParameterTypes(source, target, inferFromContravariantTypes); bivariant = saveBivariant; } applyToReturnTypes(source, target, inferFromTypes); } function inferFromIndexTypes(source, target) { var targetStringIndexType = getIndexTypeOfType(target, 0 /* String */); if (targetStringIndexType) { var sourceIndexType = getIndexTypeOfType(source, 0 /* String */) || getImplicitIndexTypeOfType(source, 0 /* String */); if (sourceIndexType) { inferFromTypes(sourceIndexType, targetStringIndexType); } } var targetNumberIndexType = getIndexTypeOfType(target, 1 /* Number */); if (targetNumberIndexType) { var sourceIndexType = getIndexTypeOfType(source, 1 /* Number */) || getIndexTypeOfType(source, 0 /* String */) || getImplicitIndexTypeOfType(source, 1 /* Number */); if (sourceIndexType) { inferFromTypes(sourceIndexType, targetNumberIndexType); } } } } function isTypeOrBaseIdenticalTo(s, t) { return isTypeIdenticalTo(s, t) || !!(t.flags & 4 /* String */ && s.flags & 128 /* StringLiteral */ || t.flags & 8 /* Number */ && s.flags & 256 /* NumberLiteral */); } function isTypeCloselyMatchedBy(s, t) { return !!(s.flags & 524288 /* Object */ && t.flags & 524288 /* Object */ && s.symbol && s.symbol === t.symbol || s.aliasSymbol && s.aliasTypeArguments && s.aliasSymbol === t.aliasSymbol); } function hasPrimitiveConstraint(type) { var constraint = getConstraintOfTypeParameter(type); return !!constraint && maybeTypeOfKind(constraint.flags & 16777216 /* Conditional */ ? getDefaultConstraintOfConditionalType(constraint) : constraint, 131068 /* Primitive */ | 4194304 /* Index */); } function isObjectLiteralType(type) { return !!(ts.getObjectFlags(type) & 128 /* ObjectLiteral */); } function isObjectOrArrayLiteralType(type) { return !!(ts.getObjectFlags(type) & (128 /* ObjectLiteral */ | 65536 /* ArrayLiteral */)); } function unionObjectAndArrayLiteralCandidates(candidates) { if (candidates.length > 1) { var objectLiterals = ts.filter(candidates, isObjectOrArrayLiteralType); if (objectLiterals.length) { var literalsType = getUnionType(objectLiterals, 2 /* Subtype */); return ts.concatenate(ts.filter(candidates, function (t) { return !isObjectOrArrayLiteralType(t); }), [literalsType]); } } return candidates; } function getContravariantInference(inference) { return inference.priority & 104 /* PriorityImpliesCombination */ ? getIntersectionType(inference.contraCandidates) : getCommonSubtype(inference.contraCandidates); } function getCovariantInference(inference, signature) { // Extract all object and array literal types and replace them with a single widened and normalized type. var candidates = unionObjectAndArrayLiteralCandidates(inference.candidates); // We widen inferred literal types if // all inferences were made to top-level occurrences of the type parameter, and // the type parameter has no constraint or its constraint includes no primitive or literal types, and // the type parameter was fixed during inference or does not occur at top-level in the return type. var primitiveConstraint = hasPrimitiveConstraint(inference.typeParameter); var widenLiteralTypes = !primitiveConstraint && inference.topLevel && (inference.isFixed || !isTypeParameterAtTopLevel(getReturnTypeOfSignature(signature), inference.typeParameter)); var baseCandidates = primitiveConstraint ? ts.sameMap(candidates, getRegularTypeOfLiteralType) : widenLiteralTypes ? ts.sameMap(candidates, getWidenedLiteralType) : candidates; // If all inferences were made from a position that implies a combined result, infer a union type. // Otherwise, infer a common supertype. var unwidenedType = inference.priority & 104 /* PriorityImpliesCombination */ ? getUnionType(baseCandidates, 2 /* Subtype */) : getCommonSupertype(baseCandidates); return getWidenedType(unwidenedType); } function getInferredType(context, index) { var inference = context.inferences[index]; if (!inference.inferredType) { var inferredType = void 0; var signature = context.signature; if (signature) { var inferredCovariantType = inference.candidates ? getCovariantInference(inference, signature) : undefined; if (inference.contraCandidates) { var inferredContravariantType = getContravariantInference(inference); // If we have both co- and contra-variant inferences, we prefer the contra-variant inference // unless the co-variant inference is a subtype and not 'never'. inferredType = inferredCovariantType && !(inferredCovariantType.flags & 131072 /* Never */) && isTypeSubtypeOf(inferredCovariantType, inferredContravariantType) ? inferredCovariantType : inferredContravariantType; } else if (inferredCovariantType) { inferredType = inferredCovariantType; } else if (context.flags & 1 /* NoDefault */) { // We use silentNeverType as the wildcard that signals no inferences. inferredType = silentNeverType; } else { // Infer either the default or the empty object type when no inferences were // made. It is important to remember that in this case, inference still // succeeds, meaning there is no error for not having inference candidates. An // inference error only occurs when there are *conflicting* candidates, i.e. // candidates with no common supertype. var defaultType = getDefaultFromTypeParameter(inference.typeParameter); if (defaultType) { // Instantiate the default type. Any forward reference to a type // parameter should be instantiated to the empty object type. inferredType = instantiateType(defaultType, mergeTypeMappers(createBackreferenceMapper(context, index), context.nonFixingMapper)); } } } else { inferredType = getTypeFromInference(inference); } inference.inferredType = inferredType || getDefaultTypeArgumentType(!!(context.flags & 2 /* AnyDefault */)); var constraint = getConstraintOfTypeParameter(inference.typeParameter); if (constraint) { var instantiatedConstraint = instantiateType(constraint, context.nonFixingMapper); if (!inferredType || !context.compareTypes(inferredType, getTypeWithThisArgument(instantiatedConstraint, inferredType))) { inference.inferredType = inferredType = instantiatedConstraint; } } } return inference.inferredType; } function getDefaultTypeArgumentType(isInJavaScriptFile) { return isInJavaScriptFile ? anyType : unknownType; } function getInferredTypes(context) { var result = []; for (var i = 0; i < context.inferences.length; i++) { result.push(getInferredType(context, i)); } return result; } // EXPRESSION TYPE CHECKING function getCannotFindNameDiagnosticForName(node) { switch (node.escapedText) { case "document": case "console": return ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_include_dom; case "$": return compilerOptions.types ? ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_types_Slashjquery_and_then_add_jquery_to_the_types_field_in_your_tsconfig : ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_jQuery_Try_npm_i_types_Slashjquery; case "describe": case "suite": case "it": case "test": return compilerOptions.types ? ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_a_test_runner_Try_npm_i_types_Slashjest_or_npm_i_types_Slashmocha_and_then_add_jest_or_mocha_to_the_types_field_in_your_tsconfig : ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_a_test_runner_Try_npm_i_types_Slashjest_or_npm_i_types_Slashmocha; case "process": case "require": case "Buffer": case "module": return compilerOptions.types ? ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_types_Slashnode_and_then_add_node_to_the_types_field_in_your_tsconfig : ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_install_type_definitions_for_node_Try_npm_i_types_Slashnode; case "Map": case "Set": case "Promise": case "Symbol": case "WeakMap": case "WeakSet": case "Iterator": case "AsyncIterator": return ts.Diagnostics.Cannot_find_name_0_Do_you_need_to_change_your_target_library_Try_changing_the_lib_compiler_option_to_es2015_or_later; default: if (node.parent.kind === 282 /* ShorthandPropertyAssignment */) { return ts.Diagnostics.No_value_exists_in_scope_for_the_shorthand_property_0_Either_declare_one_or_provide_an_initializer; } else { return ts.Diagnostics.Cannot_find_name_0; } } } function getResolvedSymbol(node) { var links = getNodeLinks(node); if (!links.resolvedSymbol) { links.resolvedSymbol = !ts.nodeIsMissing(node) && resolveName(node, node.escapedText, 111551 /* Value */ | 1048576 /* ExportValue */, getCannotFindNameDiagnosticForName(node), node, !ts.isWriteOnlyAccess(node), /*excludeGlobals*/ false, ts.Diagnostics.Cannot_find_name_0_Did_you_mean_1) || unknownSymbol; } return links.resolvedSymbol; } function isInTypeQuery(node) { // TypeScript 1.0 spec (April 2014): 3.6.3 // A type query consists of the keyword typeof followed by an expression. // The expression is restricted to a single identifier or a sequence of identifiers separated by periods return !!ts.findAncestor(node, function (n) { return n.kind === 172 /* TypeQuery */ ? true : n.kind === 75 /* Identifier */ || n.kind === 153 /* QualifiedName */ ? false : "quit"; }); } // Return the flow cache key for a "dotted name" (i.e. a sequence of identifiers // separated by dots). The key consists of the id of the symbol referenced by the // leftmost identifier followed by zero or more property names separated by dots. // The result is undefined if the reference isn't a dotted name. We prefix nodes // occurring in an apparent type position with '@' because the control flow type // of such nodes may be based on the apparent type instead of the declared type. function getFlowCacheKey(node, declaredType, initialType, flowContainer) { switch (node.kind) { case 75 /* Identifier */: var symbol = getResolvedSymbol(node); return symbol !== unknownSymbol ? (flowContainer ? getNodeId(flowContainer) : "-1") + "|" + getTypeId(declaredType) + "|" + getTypeId(initialType) + "|" + (isConstraintPosition(node) ? "@" : "") + getSymbolId(symbol) : undefined; case 104 /* ThisKeyword */: return "0"; case 218 /* NonNullExpression */: case 200 /* ParenthesizedExpression */: return getFlowCacheKey(node.expression, declaredType, initialType, flowContainer); case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: var propName = getAccessedPropertyName(node); if (propName !== undefined) { var key = getFlowCacheKey(node.expression, declaredType, initialType, flowContainer); return key && key + "." + propName; } } return undefined; } function isMatchingReference(source, target) { switch (target.kind) { case 200 /* ParenthesizedExpression */: case 218 /* NonNullExpression */: return isMatchingReference(source, target.expression); } switch (source.kind) { case 75 /* Identifier */: return target.kind === 75 /* Identifier */ && getResolvedSymbol(source) === getResolvedSymbol(target) || (target.kind === 242 /* VariableDeclaration */ || target.kind === 191 /* BindingElement */) && getExportSymbolOfValueSymbolIfExported(getResolvedSymbol(source)) === getSymbolOfNode(target); case 104 /* ThisKeyword */: return target.kind === 104 /* ThisKeyword */; case 102 /* SuperKeyword */: return target.kind === 102 /* SuperKeyword */; case 218 /* NonNullExpression */: case 200 /* ParenthesizedExpression */: return isMatchingReference(source.expression, target); case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return ts.isAccessExpression(target) && getAccessedPropertyName(source) === getAccessedPropertyName(target) && isMatchingReference(source.expression, target.expression); } return false; } // Given a source x, check if target matches x or is an && operation with an operand that matches x. function containsTruthyCheck(source, target) { return isMatchingReference(source, target) || (target.kind === 209 /* BinaryExpression */ && target.operatorToken.kind === 55 /* AmpersandAmpersandToken */ && (containsTruthyCheck(source, target.left) || containsTruthyCheck(source, target.right))); } function getAccessedPropertyName(access) { return access.kind === 194 /* PropertyAccessExpression */ ? access.name.escapedText : ts.isStringOrNumericLiteralLike(access.argumentExpression) ? ts.escapeLeadingUnderscores(access.argumentExpression.text) : undefined; } function containsMatchingReference(source, target) { while (ts.isAccessExpression(source)) { source = source.expression; if (isMatchingReference(source, target)) { return true; } } return false; } function optionalChainContainsReference(source, target) { while (ts.isOptionalChain(source)) { source = source.expression; if (isMatchingReference(source, target)) { return true; } } return false; } function isDiscriminantProperty(type, name) { if (type && type.flags & 1048576 /* Union */) { var prop = getUnionOrIntersectionProperty(type, name); if (prop && ts.getCheckFlags(prop) & 2 /* SyntheticProperty */) { if (prop.isDiscriminantProperty === undefined) { prop.isDiscriminantProperty = (prop.checkFlags & 192 /* Discriminant */) === 192 /* Discriminant */ && !maybeTypeOfKind(getTypeOfSymbol(prop), 63176704 /* Instantiable */); } return !!prop.isDiscriminantProperty; } } return false; } function findDiscriminantProperties(sourceProperties, target) { var result; for (var _i = 0, sourceProperties_2 = sourceProperties; _i < sourceProperties_2.length; _i++) { var sourceProperty = sourceProperties_2[_i]; if (isDiscriminantProperty(target, sourceProperty.escapedName)) { if (result) { result.push(sourceProperty); continue; } result = [sourceProperty]; } } return result; } function isOrContainsMatchingReference(source, target) { return isMatchingReference(source, target) || containsMatchingReference(source, target); } function hasMatchingArgument(callExpression, reference) { if (callExpression.arguments) { for (var _i = 0, _a = callExpression.arguments; _i < _a.length; _i++) { var argument = _a[_i]; if (isOrContainsMatchingReference(reference, argument)) { return true; } } } if (callExpression.expression.kind === 194 /* PropertyAccessExpression */ && isOrContainsMatchingReference(reference, callExpression.expression.expression)) { return true; } return false; } function getFlowNodeId(flow) { if (!flow.id || flow.id < 0) { flow.id = nextFlowId; nextFlowId++; } return flow.id; } function typeMaybeAssignableTo(source, target) { if (!(source.flags & 1048576 /* Union */)) { return isTypeAssignableTo(source, target); } for (var _i = 0, _a = source.types; _i < _a.length; _i++) { var t = _a[_i]; if (isTypeAssignableTo(t, target)) { return true; } } return false; } // Remove those constituent types of declaredType to which no constituent type of assignedType is assignable. // For example, when a variable of type number | string | boolean is assigned a value of type number | boolean, // we remove type string. function getAssignmentReducedType(declaredType, assignedType) { if (declaredType !== assignedType) { if (assignedType.flags & 131072 /* Never */) { return assignedType; } var reducedType = filterType(declaredType, function (t) { return typeMaybeAssignableTo(assignedType, t); }); if (assignedType.flags & 512 /* BooleanLiteral */ && isFreshLiteralType(assignedType)) { reducedType = mapType(reducedType, getFreshTypeOfLiteralType); // Ensure that if the assignment is a fresh type, that we narrow to fresh types } // Our crude heuristic produces an invalid result in some cases: see GH#26130. // For now, when that happens, we give up and don't narrow at all. (This also // means we'll never narrow for erroneous assignments where the assigned type // is not assignable to the declared type.) if (isTypeAssignableTo(assignedType, reducedType)) { return reducedType; } } return declaredType; } function getTypeFactsOfTypes(types) { var result = 0 /* None */; for (var _i = 0, types_15 = types; _i < types_15.length; _i++) { var t = types_15[_i]; result |= getTypeFacts(t); } return result; } function isFunctionObjectType(type) { // We do a quick check for a "bind" property before performing the more expensive subtype // check. This gives us a quicker out in the common case where an object type is not a function. var resolved = resolveStructuredTypeMembers(type); return !!(resolved.callSignatures.length || resolved.constructSignatures.length || resolved.members.get("bind") && isTypeSubtypeOf(type, globalFunctionType)); } function getTypeFacts(type) { var flags = type.flags; if (flags & 4 /* String */) { return strictNullChecks ? 16317953 /* StringStrictFacts */ : 16776705 /* StringFacts */; } if (flags & 128 /* StringLiteral */) { var isEmpty = type.value === ""; return strictNullChecks ? isEmpty ? 12123649 /* EmptyStringStrictFacts */ : 7929345 /* NonEmptyStringStrictFacts */ : isEmpty ? 12582401 /* EmptyStringFacts */ : 16776705 /* NonEmptyStringFacts */; } if (flags & (8 /* Number */ | 32 /* Enum */)) { return strictNullChecks ? 16317698 /* NumberStrictFacts */ : 16776450 /* NumberFacts */; } if (flags & 256 /* NumberLiteral */) { var isZero = type.value === 0; return strictNullChecks ? isZero ? 12123394 /* ZeroNumberStrictFacts */ : 7929090 /* NonZeroNumberStrictFacts */ : isZero ? 12582146 /* ZeroNumberFacts */ : 16776450 /* NonZeroNumberFacts */; } if (flags & 64 /* BigInt */) { return strictNullChecks ? 16317188 /* BigIntStrictFacts */ : 16775940 /* BigIntFacts */; } if (flags & 2048 /* BigIntLiteral */) { var isZero = isZeroBigInt(type); return strictNullChecks ? isZero ? 12122884 /* ZeroBigIntStrictFacts */ : 7928580 /* NonZeroBigIntStrictFacts */ : isZero ? 12581636 /* ZeroBigIntFacts */ : 16775940 /* NonZeroBigIntFacts */; } if (flags & 16 /* Boolean */) { return strictNullChecks ? 16316168 /* BooleanStrictFacts */ : 16774920 /* BooleanFacts */; } if (flags & 528 /* BooleanLike */) { return strictNullChecks ? (type === falseType || type === regularFalseType) ? 12121864 /* FalseStrictFacts */ : 7927560 /* TrueStrictFacts */ : (type === falseType || type === regularFalseType) ? 12580616 /* FalseFacts */ : 16774920 /* TrueFacts */; } if (flags & 524288 /* Object */) { return ts.getObjectFlags(type) & 16 /* Anonymous */ && isEmptyObjectType(type) ? strictNullChecks ? 16318463 /* EmptyObjectStrictFacts */ : 16777215 /* EmptyObjectFacts */ : isFunctionObjectType(type) ? strictNullChecks ? 7880640 /* FunctionStrictFacts */ : 16728000 /* FunctionFacts */ : strictNullChecks ? 7888800 /* ObjectStrictFacts */ : 16736160 /* ObjectFacts */; } if (flags & (16384 /* Void */ | 32768 /* Undefined */)) { return 9830144 /* UndefinedFacts */; } if (flags & 65536 /* Null */) { return 9363232 /* NullFacts */; } if (flags & 12288 /* ESSymbolLike */) { return strictNullChecks ? 7925520 /* SymbolStrictFacts */ : 16772880 /* SymbolFacts */; } if (flags & 67108864 /* NonPrimitive */) { return strictNullChecks ? 7888800 /* ObjectStrictFacts */ : 16736160 /* ObjectFacts */; } if (flags & 131072 /* Never */) { return 0 /* None */; } if (flags & 63176704 /* Instantiable */) { return getTypeFacts(getBaseConstraintOfType(type) || unknownType); } if (flags & 3145728 /* UnionOrIntersection */) { return getTypeFactsOfTypes(type.types); } return 16777215 /* All */; } function getTypeWithFacts(type, include) { return filterType(type, function (t) { return (getTypeFacts(t) & include) !== 0; }); } function getTypeWithDefault(type, defaultExpression) { if (defaultExpression) { var defaultType = getTypeOfExpression(defaultExpression); return getUnionType([getTypeWithFacts(type, 524288 /* NEUndefined */), defaultType]); } return type; } function getTypeOfDestructuredProperty(type, name) { var nameType = getLiteralTypeFromPropertyName(name); if (!isTypeUsableAsPropertyName(nameType)) return errorType; var text = getPropertyNameFromType(nameType); return getConstraintForLocation(getTypeOfPropertyOfType(type, text), name) || isNumericLiteralName(text) && getIndexTypeOfType(type, 1 /* Number */) || getIndexTypeOfType(type, 0 /* String */) || errorType; } function getTypeOfDestructuredArrayElement(type, index) { return everyType(type, isTupleLikeType) && getTupleElementType(type, index) || checkIteratedTypeOrElementType(65 /* Destructuring */, type, undefinedType, /*errorNode*/ undefined) || errorType; } function getTypeOfDestructuredSpreadExpression(type) { return createArrayType(checkIteratedTypeOrElementType(65 /* Destructuring */, type, undefinedType, /*errorNode*/ undefined) || errorType); } function getAssignedTypeOfBinaryExpression(node) { var isDestructuringDefaultAssignment = node.parent.kind === 192 /* ArrayLiteralExpression */ && isDestructuringAssignmentTarget(node.parent) || node.parent.kind === 281 /* PropertyAssignment */ && isDestructuringAssignmentTarget(node.parent.parent); return isDestructuringDefaultAssignment ? getTypeWithDefault(getAssignedType(node), node.right) : getTypeOfExpression(node.right); } function isDestructuringAssignmentTarget(parent) { return parent.parent.kind === 209 /* BinaryExpression */ && parent.parent.left === parent || parent.parent.kind === 232 /* ForOfStatement */ && parent.parent.initializer === parent; } function getAssignedTypeOfArrayLiteralElement(node, element) { return getTypeOfDestructuredArrayElement(getAssignedType(node), node.elements.indexOf(element)); } function getAssignedTypeOfSpreadExpression(node) { return getTypeOfDestructuredSpreadExpression(getAssignedType(node.parent)); } function getAssignedTypeOfPropertyAssignment(node) { return getTypeOfDestructuredProperty(getAssignedType(node.parent), node.name); } function getAssignedTypeOfShorthandPropertyAssignment(node) { return getTypeWithDefault(getAssignedTypeOfPropertyAssignment(node), node.objectAssignmentInitializer); } function getAssignedType(node) { var parent = node.parent; switch (parent.kind) { case 231 /* ForInStatement */: return stringType; case 232 /* ForOfStatement */: return checkRightHandSideOfForOf(parent) || errorType; case 209 /* BinaryExpression */: return getAssignedTypeOfBinaryExpression(parent); case 203 /* DeleteExpression */: return undefinedType; case 192 /* ArrayLiteralExpression */: return getAssignedTypeOfArrayLiteralElement(parent, node); case 213 /* SpreadElement */: return getAssignedTypeOfSpreadExpression(parent); case 281 /* PropertyAssignment */: return getAssignedTypeOfPropertyAssignment(parent); case 282 /* ShorthandPropertyAssignment */: return getAssignedTypeOfShorthandPropertyAssignment(parent); } return errorType; } function getInitialTypeOfBindingElement(node) { var pattern = node.parent; var parentType = getInitialType(pattern.parent); var type = pattern.kind === 189 /* ObjectBindingPattern */ ? getTypeOfDestructuredProperty(parentType, node.propertyName || node.name) : !node.dotDotDotToken ? getTypeOfDestructuredArrayElement(parentType, pattern.elements.indexOf(node)) : getTypeOfDestructuredSpreadExpression(parentType); return getTypeWithDefault(type, node.initializer); } function getTypeOfInitializer(node) { // Return the cached type if one is available. If the type of the variable was inferred // from its initializer, we'll already have cached the type. Otherwise we compute it now // without caching such that transient types are reflected. var links = getNodeLinks(node); return links.resolvedType || getTypeOfExpression(node); } function getInitialTypeOfVariableDeclaration(node) { if (node.initializer) { return getTypeOfInitializer(node.initializer); } if (node.parent.parent.kind === 231 /* ForInStatement */) { return stringType; } if (node.parent.parent.kind === 232 /* ForOfStatement */) { return checkRightHandSideOfForOf(node.parent.parent) || errorType; } return errorType; } function getInitialType(node) { return node.kind === 242 /* VariableDeclaration */ ? getInitialTypeOfVariableDeclaration(node) : getInitialTypeOfBindingElement(node); } function isEmptyArrayAssignment(node) { return node.kind === 242 /* VariableDeclaration */ && node.initializer && isEmptyArrayLiteral(node.initializer) || node.kind !== 191 /* BindingElement */ && node.parent.kind === 209 /* BinaryExpression */ && isEmptyArrayLiteral(node.parent.right); } function getReferenceCandidate(node) { switch (node.kind) { case 200 /* ParenthesizedExpression */: return getReferenceCandidate(node.expression); case 209 /* BinaryExpression */: switch (node.operatorToken.kind) { case 62 /* EqualsToken */: return getReferenceCandidate(node.left); case 27 /* CommaToken */: return getReferenceCandidate(node.right); } } return node; } function getReferenceRoot(node) { var parent = node.parent; return parent.kind === 200 /* ParenthesizedExpression */ || parent.kind === 209 /* BinaryExpression */ && parent.operatorToken.kind === 62 /* EqualsToken */ && parent.left === node || parent.kind === 209 /* BinaryExpression */ && parent.operatorToken.kind === 27 /* CommaToken */ && parent.right === node ? getReferenceRoot(parent) : node; } function getTypeOfSwitchClause(clause) { if (clause.kind === 277 /* CaseClause */) { return getRegularTypeOfLiteralType(getTypeOfExpression(clause.expression)); } return neverType; } function getSwitchClauseTypes(switchStatement) { var links = getNodeLinks(switchStatement); if (!links.switchTypes) { links.switchTypes = []; for (var _i = 0, _a = switchStatement.caseBlock.clauses; _i < _a.length; _i++) { var clause = _a[_i]; links.switchTypes.push(getTypeOfSwitchClause(clause)); } } return links.switchTypes; } function getSwitchClauseTypeOfWitnesses(switchStatement, retainDefault) { var witnesses = []; for (var _i = 0, _a = switchStatement.caseBlock.clauses; _i < _a.length; _i++) { var clause = _a[_i]; if (clause.kind === 277 /* CaseClause */) { if (ts.isStringLiteralLike(clause.expression)) { witnesses.push(clause.expression.text); continue; } return ts.emptyArray; } if (retainDefault) witnesses.push(/*explicitDefaultStatement*/ undefined); } return witnesses; } function eachTypeContainedIn(source, types) { return source.flags & 1048576 /* Union */ ? !ts.forEach(source.types, function (t) { return !ts.contains(types, t); }) : ts.contains(types, source); } function isTypeSubsetOf(source, target) { return source === target || target.flags & 1048576 /* Union */ && isTypeSubsetOfUnion(source, target); } function isTypeSubsetOfUnion(source, target) { if (source.flags & 1048576 /* Union */) { for (var _i = 0, _a = source.types; _i < _a.length; _i++) { var t = _a[_i]; if (!containsType(target.types, t)) { return false; } } return true; } if (source.flags & 1024 /* EnumLiteral */ && getBaseTypeOfEnumLiteralType(source) === target) { return true; } return containsType(target.types, source); } function forEachType(type, f) { return type.flags & 1048576 /* Union */ ? ts.forEach(type.types, f) : f(type); } function everyType(type, f) { return type.flags & 1048576 /* Union */ ? ts.every(type.types, f) : f(type); } function filterType(type, f) { if (type.flags & 1048576 /* Union */) { var types = type.types; var filtered = ts.filter(types, f); return filtered === types ? type : getUnionTypeFromSortedList(filtered, type.objectFlags); } return type.flags & 131072 /* Never */ || f(type) ? type : neverType; } function countTypes(type) { return type.flags & 1048576 /* Union */ ? type.types.length : 1; } function mapType(type, mapper, noReductions) { if (type.flags & 131072 /* Never */) { return type; } if (!(type.flags & 1048576 /* Union */)) { return mapper(type); } var mappedTypes; for (var _i = 0, _a = type.types; _i < _a.length; _i++) { var t = _a[_i]; var mapped = mapper(t); if (mapped) { if (!mappedTypes) { mappedTypes = [mapped]; } else { mappedTypes.push(mapped); } } } return mappedTypes && getUnionType(mappedTypes, noReductions ? 0 /* None */ : 1 /* Literal */); } function extractTypesOfKind(type, kind) { return filterType(type, function (t) { return (t.flags & kind) !== 0; }); } // Return a new type in which occurrences of the string and number primitive types in // typeWithPrimitives have been replaced with occurrences of string literals and numeric // literals in typeWithLiterals, respectively. function replacePrimitivesWithLiterals(typeWithPrimitives, typeWithLiterals) { if (isTypeSubsetOf(stringType, typeWithPrimitives) && maybeTypeOfKind(typeWithLiterals, 128 /* StringLiteral */) || isTypeSubsetOf(numberType, typeWithPrimitives) && maybeTypeOfKind(typeWithLiterals, 256 /* NumberLiteral */) || isTypeSubsetOf(bigintType, typeWithPrimitives) && maybeTypeOfKind(typeWithLiterals, 2048 /* BigIntLiteral */)) { return mapType(typeWithPrimitives, function (t) { return t.flags & 4 /* String */ ? extractTypesOfKind(typeWithLiterals, 4 /* String */ | 128 /* StringLiteral */) : t.flags & 8 /* Number */ ? extractTypesOfKind(typeWithLiterals, 8 /* Number */ | 256 /* NumberLiteral */) : t.flags & 64 /* BigInt */ ? extractTypesOfKind(typeWithLiterals, 64 /* BigInt */ | 2048 /* BigIntLiteral */) : t; }); } return typeWithPrimitives; } function isIncomplete(flowType) { return flowType.flags === 0; } function getTypeFromFlowType(flowType) { return flowType.flags === 0 ? flowType.type : flowType; } function createFlowType(type, incomplete) { return incomplete ? { flags: 0, type: type } : type; } // An evolving array type tracks the element types that have so far been seen in an // 'x.push(value)' or 'x[n] = value' operation along the control flow graph. Evolving // array types are ultimately converted into manifest array types (using getFinalArrayType) // and never escape the getFlowTypeOfReference function. function createEvolvingArrayType(elementType) { var result = createObjectType(256 /* EvolvingArray */); result.elementType = elementType; return result; } function getEvolvingArrayType(elementType) { return evolvingArrayTypes[elementType.id] || (evolvingArrayTypes[elementType.id] = createEvolvingArrayType(elementType)); } // When adding evolving array element types we do not perform subtype reduction. Instead, // we defer subtype reduction until the evolving array type is finalized into a manifest // array type. function addEvolvingArrayElementType(evolvingArrayType, node) { var elementType = getBaseTypeOfLiteralType(getContextFreeTypeOfExpression(node)); return isTypeSubsetOf(elementType, evolvingArrayType.elementType) ? evolvingArrayType : getEvolvingArrayType(getUnionType([evolvingArrayType.elementType, elementType])); } function createFinalArrayType(elementType) { return elementType.flags & 131072 /* Never */ ? autoArrayType : createArrayType(elementType.flags & 1048576 /* Union */ ? getUnionType(elementType.types, 2 /* Subtype */) : elementType); } // We perform subtype reduction upon obtaining the final array type from an evolving array type. function getFinalArrayType(evolvingArrayType) { return evolvingArrayType.finalArrayType || (evolvingArrayType.finalArrayType = createFinalArrayType(evolvingArrayType.elementType)); } function finalizeEvolvingArrayType(type) { return ts.getObjectFlags(type) & 256 /* EvolvingArray */ ? getFinalArrayType(type) : type; } function getElementTypeOfEvolvingArrayType(type) { return ts.getObjectFlags(type) & 256 /* EvolvingArray */ ? type.elementType : neverType; } function isEvolvingArrayTypeList(types) { var hasEvolvingArrayType = false; for (var _i = 0, types_16 = types; _i < types_16.length; _i++) { var t = types_16[_i]; if (!(t.flags & 131072 /* Never */)) { if (!(ts.getObjectFlags(t) & 256 /* EvolvingArray */)) { return false; } hasEvolvingArrayType = true; } } return hasEvolvingArrayType; } // At flow control branch or loop junctions, if the type along every antecedent code path // is an evolving array type, we construct a combined evolving array type. Otherwise we // finalize all evolving array types. function getUnionOrEvolvingArrayType(types, subtypeReduction) { return isEvolvingArrayTypeList(types) ? getEvolvingArrayType(getUnionType(ts.map(types, getElementTypeOfEvolvingArrayType))) : getUnionType(ts.sameMap(types, finalizeEvolvingArrayType), subtypeReduction); } // Return true if the given node is 'x' in an 'x.length', x.push(value)', 'x.unshift(value)' or // 'x[n] = value' operation, where 'n' is an expression of type any, undefined, or a number-like type. function isEvolvingArrayOperationTarget(node) { var root = getReferenceRoot(node); var parent = root.parent; var isLengthPushOrUnshift = ts.isPropertyAccessExpression(parent) && (parent.name.escapedText === "length" || parent.parent.kind === 196 /* CallExpression */ && ts.isIdentifier(parent.name) && ts.isPushOrUnshiftIdentifier(parent.name)); var isElementAssignment = parent.kind === 195 /* ElementAccessExpression */ && parent.expression === root && parent.parent.kind === 209 /* BinaryExpression */ && parent.parent.operatorToken.kind === 62 /* EqualsToken */ && parent.parent.left === parent && !ts.isAssignmentTarget(parent.parent) && isTypeAssignableToKind(getTypeOfExpression(parent.argumentExpression), 296 /* NumberLike */); return isLengthPushOrUnshift || isElementAssignment; } function isDeclarationWithExplicitTypeAnnotation(declaration) { return (declaration.kind === 242 /* VariableDeclaration */ || declaration.kind === 156 /* Parameter */ || declaration.kind === 159 /* PropertyDeclaration */ || declaration.kind === 158 /* PropertySignature */) && !!ts.getEffectiveTypeAnnotationNode(declaration); } function getExplicitTypeOfSymbol(symbol, diagnostic) { if (symbol.flags & (16 /* Function */ | 8192 /* Method */ | 32 /* Class */ | 512 /* ValueModule */)) { return getTypeOfSymbol(symbol); } if (symbol.flags & (3 /* Variable */ | 4 /* Property */)) { var declaration = symbol.valueDeclaration; if (declaration) { if (isDeclarationWithExplicitTypeAnnotation(declaration)) { return getTypeOfSymbol(symbol); } if (ts.isVariableDeclaration(declaration) && declaration.parent.parent.kind === 232 /* ForOfStatement */) { var statement = declaration.parent.parent; var expressionType = getTypeOfDottedName(statement.expression, /*diagnostic*/ undefined); if (expressionType) { var use = statement.awaitModifier ? 15 /* ForAwaitOf */ : 13 /* ForOf */; return checkIteratedTypeOrElementType(use, expressionType, undefinedType, /*errorNode*/ undefined); } } if (diagnostic) { ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(declaration, ts.Diagnostics._0_needs_an_explicit_type_annotation, symbolToString(symbol))); } } } } // We require the dotted function name in an assertion expression to be comprised of identifiers // that reference function, method, class or value module symbols; or variable, property or // parameter symbols with declarations that have explicit type annotations. Such references are // resolvable with no possibility of triggering circularities in control flow analysis. function getTypeOfDottedName(node, diagnostic) { if (!(node.flags & 16777216 /* InWithStatement */)) { switch (node.kind) { case 75 /* Identifier */: var symbol = getExportSymbolOfValueSymbolIfExported(getResolvedSymbol(node)); return getExplicitTypeOfSymbol(symbol.flags & 2097152 /* Alias */ ? resolveAlias(symbol) : symbol, diagnostic); case 104 /* ThisKeyword */: return getExplicitThisType(node); case 102 /* SuperKeyword */: return checkSuperExpression(node); case 194 /* PropertyAccessExpression */: var type = getTypeOfDottedName(node.expression, diagnostic); var prop = type && getPropertyOfType(type, node.name.escapedText); return prop && getExplicitTypeOfSymbol(prop, diagnostic); case 200 /* ParenthesizedExpression */: return getTypeOfDottedName(node.expression, diagnostic); } } } function getEffectsSignature(node) { var links = getNodeLinks(node); var signature = links.effectsSignature; if (signature === undefined) { // A call expression parented by an expression statement is a potential assertion. Other call // expressions are potential type predicate function calls. In order to avoid triggering // circularities in control flow analysis, we use getTypeOfDottedName when resolving the call // target expression of an assertion. var funcType = void 0; if (node.parent.kind === 226 /* ExpressionStatement */) { funcType = getTypeOfDottedName(node.expression, /*diagnostic*/ undefined); } else if (node.expression.kind !== 102 /* SuperKeyword */) { if (ts.isOptionalChain(node)) { funcType = checkNonNullType(getOptionalExpressionType(checkExpression(node.expression), node.expression), node.expression); } else { funcType = checkNonNullExpression(node.expression); } } var signatures = getSignaturesOfType(funcType && getApparentType(funcType) || unknownType, 0 /* Call */); var candidate = signatures.length === 1 && !signatures[0].typeParameters ? signatures[0] : ts.some(signatures, hasTypePredicateOrNeverReturnType) ? getResolvedSignature(node) : undefined; signature = links.effectsSignature = candidate && hasTypePredicateOrNeverReturnType(candidate) ? candidate : unknownSignature; } return signature === unknownSignature ? undefined : signature; } function hasTypePredicateOrNeverReturnType(signature) { return !!(getTypePredicateOfSignature(signature) || signature.declaration && (getReturnTypeFromAnnotation(signature.declaration) || unknownType).flags & 131072 /* Never */); } function getTypePredicateArgument(predicate, callExpression) { if (predicate.kind === 1 /* Identifier */ || predicate.kind === 3 /* AssertsIdentifier */) { return callExpression.arguments[predicate.parameterIndex]; } var invokedExpression = ts.skipParentheses(callExpression.expression); return ts.isAccessExpression(invokedExpression) ? ts.skipParentheses(invokedExpression.expression) : undefined; } function reportFlowControlError(node) { var block = ts.findAncestor(node, ts.isFunctionOrModuleBlock); var sourceFile = ts.getSourceFileOfNode(node); var span = ts.getSpanOfTokenAtPosition(sourceFile, block.statements.pos); diagnostics.add(ts.createFileDiagnostic(sourceFile, span.start, span.length, ts.Diagnostics.The_containing_function_or_module_body_is_too_large_for_control_flow_analysis)); } function isReachableFlowNode(flow) { var result = isReachableFlowNodeWorker(flow, /*noCacheCheck*/ false); lastFlowNode = flow; lastFlowNodeReachable = result; return result; } function isFalseExpression(expr) { var node = ts.skipParentheses(expr); return node.kind === 91 /* FalseKeyword */ || node.kind === 209 /* BinaryExpression */ && (node.operatorToken.kind === 55 /* AmpersandAmpersandToken */ && (isFalseExpression(node.left) || isFalseExpression(node.right)) || node.operatorToken.kind === 56 /* BarBarToken */ && isFalseExpression(node.left) && isFalseExpression(node.right)); } function isReachableFlowNodeWorker(flow, noCacheCheck) { while (true) { if (flow === lastFlowNode) { return lastFlowNodeReachable; } var flags = flow.flags; if (flags & 4096 /* Shared */) { if (!noCacheCheck) { var id = getFlowNodeId(flow); var reachable = flowNodeReachable[id]; return reachable !== undefined ? reachable : (flowNodeReachable[id] = isReachableFlowNodeWorker(flow, /*noCacheCheck*/ true)); } noCacheCheck = false; } if (flags & (16 /* Assignment */ | 96 /* Condition */ | 256 /* ArrayMutation */)) { flow = flow.antecedent; } else if (flags & 512 /* Call */) { var signature = getEffectsSignature(flow.node); if (signature) { var predicate = getTypePredicateOfSignature(signature); if (predicate && predicate.kind === 3 /* AssertsIdentifier */) { var predicateArgument = flow.node.arguments[predicate.parameterIndex]; if (predicateArgument && isFalseExpression(predicateArgument)) { return false; } } if (getReturnTypeOfSignature(signature).flags & 131072 /* Never */) { return false; } } flow = flow.antecedent; } else if (flags & 4 /* BranchLabel */) { // A branching point is reachable if any branch is reachable. return ts.some(flow.antecedents, function (f) { return isReachableFlowNodeWorker(f, /*noCacheCheck*/ false); }); } else if (flags & 8 /* LoopLabel */) { // A loop is reachable if the control flow path that leads to the top is reachable. flow = flow.antecedents[0]; } else if (flags & 128 /* SwitchClause */) { // The control flow path representing an unmatched value in a switch statement with // no default clause is unreachable if the switch statement is exhaustive. if (flow.clauseStart === flow.clauseEnd && isExhaustiveSwitchStatement(flow.switchStatement)) { return false; } flow = flow.antecedent; } else if (flags & 1024 /* ReduceLabel */) { // Cache is unreliable once we start adjusting labels lastFlowNode = undefined; var target = flow.target; var saveAntecedents = target.antecedents; target.antecedents = flow.antecedents; var result = isReachableFlowNodeWorker(flow.antecedent, /*noCacheCheck*/ false); target.antecedents = saveAntecedents; return result; } else { return !(flags & 1 /* Unreachable */); } } } function getFlowTypeOfReference(reference, declaredType, initialType, flowContainer, couldBeUninitialized) { if (initialType === void 0) { initialType = declaredType; } var key; var keySet = false; var flowDepth = 0; if (flowAnalysisDisabled) { return errorType; } if (!reference.flowNode || !couldBeUninitialized && !(declaredType.flags & 133970943 /* Narrowable */)) { return declaredType; } flowInvocationCount++; var sharedFlowStart = sharedFlowCount; var evolvedType = getTypeFromFlowType(getTypeAtFlowNode(reference.flowNode)); sharedFlowCount = sharedFlowStart; // When the reference is 'x' in an 'x.length', 'x.push(value)', 'x.unshift(value)' or x[n] = value' operation, // we give type 'any[]' to 'x' instead of using the type determined by control flow analysis such that operations // on empty arrays are possible without implicit any errors and new element types can be inferred without // type mismatch errors. var resultType = ts.getObjectFlags(evolvedType) & 256 /* EvolvingArray */ && isEvolvingArrayOperationTarget(reference) ? autoArrayType : finalizeEvolvingArrayType(evolvedType); if (resultType === unreachableNeverType || reference.parent && reference.parent.kind === 218 /* NonNullExpression */ && getTypeWithFacts(resultType, 2097152 /* NEUndefinedOrNull */).flags & 131072 /* Never */) { return declaredType; } return resultType; function getOrSetCacheKey() { if (keySet) { return key; } keySet = true; return key = getFlowCacheKey(reference, declaredType, initialType, flowContainer); } function getTypeAtFlowNode(flow) { if (flowDepth === 2000) { // We have made 2000 recursive invocations. To avoid overflowing the call stack we report an error // and disable further control flow analysis in the containing function or module body. flowAnalysisDisabled = true; reportFlowControlError(reference); return errorType; } flowDepth++; while (true) { var flags = flow.flags; if (flags & 4096 /* Shared */) { // We cache results of flow type resolution for shared nodes that were previously visited in // the same getFlowTypeOfReference invocation. A node is considered shared when it is the // antecedent of more than one node. for (var i = sharedFlowStart; i < sharedFlowCount; i++) { if (sharedFlowNodes[i] === flow) { flowDepth--; return sharedFlowTypes[i]; } } } var type = void 0; if (flags & 16 /* Assignment */) { type = getTypeAtFlowAssignment(flow); if (!type) { flow = flow.antecedent; continue; } } else if (flags & 512 /* Call */) { type = getTypeAtFlowCall(flow); if (!type) { flow = flow.antecedent; continue; } } else if (flags & 96 /* Condition */) { type = getTypeAtFlowCondition(flow); } else if (flags & 128 /* SwitchClause */) { type = getTypeAtSwitchClause(flow); } else if (flags & 12 /* Label */) { if (flow.antecedents.length === 1) { flow = flow.antecedents[0]; continue; } type = flags & 4 /* BranchLabel */ ? getTypeAtFlowBranchLabel(flow) : getTypeAtFlowLoopLabel(flow); } else if (flags & 256 /* ArrayMutation */) { type = getTypeAtFlowArrayMutation(flow); if (!type) { flow = flow.antecedent; continue; } } else if (flags & 1024 /* ReduceLabel */) { var target = flow.target; var saveAntecedents = target.antecedents; target.antecedents = flow.antecedents; type = getTypeAtFlowNode(flow.antecedent); target.antecedents = saveAntecedents; } else if (flags & 2 /* Start */) { // Check if we should continue with the control flow of the containing function. var container = flow.node; if (container && container !== flowContainer && reference.kind !== 194 /* PropertyAccessExpression */ && reference.kind !== 195 /* ElementAccessExpression */ && reference.kind !== 104 /* ThisKeyword */) { flow = container.flowNode; continue; } // At the top of the flow we have the initial type. type = initialType; } else { // Unreachable code errors are reported in the binding phase. Here we // simply return the non-auto declared type to reduce follow-on errors. type = convertAutoToAny(declaredType); } if (flags & 4096 /* Shared */) { // Record visited node and the associated type in the cache. sharedFlowNodes[sharedFlowCount] = flow; sharedFlowTypes[sharedFlowCount] = type; sharedFlowCount++; } flowDepth--; return type; } } function getInitialOrAssignedType(flow) { var node = flow.node; return getConstraintForLocation(node.kind === 242 /* VariableDeclaration */ || node.kind === 191 /* BindingElement */ ? getInitialType(node) : getAssignedType(node), reference); } function getTypeAtFlowAssignment(flow) { var node = flow.node; // Assignments only narrow the computed type if the declared type is a union type. Thus, we // only need to evaluate the assigned type if the declared type is a union type. if (isMatchingReference(reference, node)) { if (!isReachableFlowNode(flow)) { return unreachableNeverType; } if (ts.getAssignmentTargetKind(node) === 2 /* Compound */) { var flowType = getTypeAtFlowNode(flow.antecedent); return createFlowType(getBaseTypeOfLiteralType(getTypeFromFlowType(flowType)), isIncomplete(flowType)); } if (declaredType === autoType || declaredType === autoArrayType) { if (isEmptyArrayAssignment(node)) { return getEvolvingArrayType(neverType); } var assignedType = getBaseTypeOfLiteralType(getInitialOrAssignedType(flow)); return isTypeAssignableTo(assignedType, declaredType) ? assignedType : anyArrayType; } if (declaredType.flags & 1048576 /* Union */) { return getAssignmentReducedType(declaredType, getInitialOrAssignedType(flow)); } return declaredType; } // We didn't have a direct match. However, if the reference is a dotted name, this // may be an assignment to a left hand part of the reference. For example, for a // reference 'x.y.z', we may be at an assignment to 'x.y' or 'x'. In that case, // return the declared type. if (containsMatchingReference(reference, node)) { if (!isReachableFlowNode(flow)) { return unreachableNeverType; } // A matching dotted name might also be an expando property on a function *expression*, // in which case we continue control flow analysis back to the function's declaration if (ts.isVariableDeclaration(node) && (ts.isInJSFile(node) || ts.isVarConst(node))) { var init = ts.getDeclaredExpandoInitializer(node); if (init && (init.kind === 201 /* FunctionExpression */ || init.kind === 202 /* ArrowFunction */)) { return getTypeAtFlowNode(flow.antecedent); } } return declaredType; } // for (const _ in ref) acts as a nonnull on ref if (ts.isVariableDeclaration(node) && node.parent.parent.kind === 231 /* ForInStatement */ && isMatchingReference(reference, node.parent.parent.expression)) { return getNonNullableTypeIfNeeded(getTypeFromFlowType(getTypeAtFlowNode(flow.antecedent))); } // Assignment doesn't affect reference return undefined; } function narrowTypeByAssertion(type, expr) { var node = ts.skipParentheses(expr); if (node.kind === 91 /* FalseKeyword */) { return unreachableNeverType; } if (node.kind === 209 /* BinaryExpression */) { if (node.operatorToken.kind === 55 /* AmpersandAmpersandToken */) { return narrowTypeByAssertion(narrowTypeByAssertion(type, node.left), node.right); } if (node.operatorToken.kind === 56 /* BarBarToken */) { return getUnionType([narrowTypeByAssertion(type, node.left), narrowTypeByAssertion(type, node.right)]); } } return narrowType(type, node, /*assumeTrue*/ true); } function getTypeAtFlowCall(flow) { var signature = getEffectsSignature(flow.node); if (signature) { var predicate = getTypePredicateOfSignature(signature); if (predicate && (predicate.kind === 2 /* AssertsThis */ || predicate.kind === 3 /* AssertsIdentifier */)) { var flowType = getTypeAtFlowNode(flow.antecedent); var type = finalizeEvolvingArrayType(getTypeFromFlowType(flowType)); var narrowedType = predicate.type ? narrowTypeByTypePredicate(type, predicate, flow.node, /*assumeTrue*/ true) : predicate.kind === 3 /* AssertsIdentifier */ && predicate.parameterIndex >= 0 && predicate.parameterIndex < flow.node.arguments.length ? narrowTypeByAssertion(type, flow.node.arguments[predicate.parameterIndex]) : type; return narrowedType === type ? flowType : createFlowType(narrowedType, isIncomplete(flowType)); } if (getReturnTypeOfSignature(signature).flags & 131072 /* Never */) { return unreachableNeverType; } } return undefined; } function getTypeAtFlowArrayMutation(flow) { if (declaredType === autoType || declaredType === autoArrayType) { var node = flow.node; var expr = node.kind === 196 /* CallExpression */ ? node.expression.expression : node.left.expression; if (isMatchingReference(reference, getReferenceCandidate(expr))) { var flowType = getTypeAtFlowNode(flow.antecedent); var type = getTypeFromFlowType(flowType); if (ts.getObjectFlags(type) & 256 /* EvolvingArray */) { var evolvedType_1 = type; if (node.kind === 196 /* CallExpression */) { for (var _i = 0, _a = node.arguments; _i < _a.length; _i++) { var arg = _a[_i]; evolvedType_1 = addEvolvingArrayElementType(evolvedType_1, arg); } } else { // We must get the context free expression type so as to not recur in an uncached fashion on the LHS (which causes exponential blowup in compile time) var indexType = getContextFreeTypeOfExpression(node.left.argumentExpression); if (isTypeAssignableToKind(indexType, 296 /* NumberLike */)) { evolvedType_1 = addEvolvingArrayElementType(evolvedType_1, node.right); } } return evolvedType_1 === type ? flowType : createFlowType(evolvedType_1, isIncomplete(flowType)); } return flowType; } } return undefined; } function getTypeAtFlowCondition(flow) { var flowType = getTypeAtFlowNode(flow.antecedent); var type = getTypeFromFlowType(flowType); if (type.flags & 131072 /* Never */) { return flowType; } // If we have an antecedent type (meaning we're reachable in some way), we first // attempt to narrow the antecedent type. If that produces the never type, and if // the antecedent type is incomplete (i.e. a transient type in a loop), then we // take the type guard as an indication that control *could* reach here once we // have the complete type. We proceed by switching to the silent never type which // doesn't report errors when operators are applied to it. Note that this is the // *only* place a silent never type is ever generated. var assumeTrue = (flow.flags & 32 /* TrueCondition */) !== 0; var nonEvolvingType = finalizeEvolvingArrayType(type); var narrowedType = narrowType(nonEvolvingType, flow.node, assumeTrue); if (narrowedType === nonEvolvingType) { return flowType; } var incomplete = isIncomplete(flowType); var resultType = incomplete && narrowedType.flags & 131072 /* Never */ ? silentNeverType : narrowedType; return createFlowType(resultType, incomplete); } function getTypeAtSwitchClause(flow) { var expr = flow.switchStatement.expression; var flowType = getTypeAtFlowNode(flow.antecedent); var type = getTypeFromFlowType(flowType); if (isMatchingReference(reference, expr)) { type = narrowTypeBySwitchOnDiscriminant(type, flow.switchStatement, flow.clauseStart, flow.clauseEnd); } else if (expr.kind === 204 /* TypeOfExpression */ && isMatchingReference(reference, expr.expression)) { type = narrowBySwitchOnTypeOf(type, flow.switchStatement, flow.clauseStart, flow.clauseEnd); } else { if (strictNullChecks) { if (optionalChainContainsReference(expr, reference)) { type = narrowTypeBySwitchOptionalChainContainment(type, flow.switchStatement, flow.clauseStart, flow.clauseEnd, function (t) { return !(t.flags & (32768 /* Undefined */ | 131072 /* Never */)); }); } else if (expr.kind === 204 /* TypeOfExpression */ && optionalChainContainsReference(expr.expression, reference)) { type = narrowTypeBySwitchOptionalChainContainment(type, flow.switchStatement, flow.clauseStart, flow.clauseEnd, function (t) { return !(t.flags & 131072 /* Never */ || t.flags & 128 /* StringLiteral */ && t.value === "undefined"); }); } } if (isMatchingReferenceDiscriminant(expr, type)) { type = narrowTypeByDiscriminant(type, expr, function (t) { return narrowTypeBySwitchOnDiscriminant(t, flow.switchStatement, flow.clauseStart, flow.clauseEnd); }); } } return createFlowType(type, isIncomplete(flowType)); } function getTypeAtFlowBranchLabel(flow) { var antecedentTypes = []; var subtypeReduction = false; var seenIncomplete = false; var bypassFlow; for (var _i = 0, _a = flow.antecedents; _i < _a.length; _i++) { var antecedent = _a[_i]; if (!bypassFlow && antecedent.flags & 128 /* SwitchClause */ && antecedent.clauseStart === antecedent.clauseEnd) { // The antecedent is the bypass branch of a potentially exhaustive switch statement. bypassFlow = antecedent; continue; } var flowType = getTypeAtFlowNode(antecedent); var type = getTypeFromFlowType(flowType); // If the type at a particular antecedent path is the declared type and the // reference is known to always be assigned (i.e. when declared and initial types // are the same), there is no reason to process more antecedents since the only // possible outcome is subtypes that will be removed in the final union type anyway. if (type === declaredType && declaredType === initialType) { return type; } ts.pushIfUnique(antecedentTypes, type); // If an antecedent type is not a subset of the declared type, we need to perform // subtype reduction. This happens when a "foreign" type is injected into the control // flow using the instanceof operator or a user defined type predicate. if (!isTypeSubsetOf(type, declaredType)) { subtypeReduction = true; } if (isIncomplete(flowType)) { seenIncomplete = true; } } if (bypassFlow) { var flowType = getTypeAtFlowNode(bypassFlow); var type = getTypeFromFlowType(flowType); // If the bypass flow contributes a type we haven't seen yet and the switch statement // isn't exhaustive, process the bypass flow type. Since exhaustiveness checks increase // the risk of circularities, we only want to perform them when they make a difference. if (!ts.contains(antecedentTypes, type) && !isExhaustiveSwitchStatement(bypassFlow.switchStatement)) { if (type === declaredType && declaredType === initialType) { return type; } antecedentTypes.push(type); if (!isTypeSubsetOf(type, declaredType)) { subtypeReduction = true; } if (isIncomplete(flowType)) { seenIncomplete = true; } } } return createFlowType(getUnionOrEvolvingArrayType(antecedentTypes, subtypeReduction ? 2 /* Subtype */ : 1 /* Literal */), seenIncomplete); } function getTypeAtFlowLoopLabel(flow) { // If we have previously computed the control flow type for the reference at // this flow loop junction, return the cached type. var id = getFlowNodeId(flow); var cache = flowLoopCaches[id] || (flowLoopCaches[id] = ts.createMap()); var key = getOrSetCacheKey(); if (!key) { // No cache key is generated when binding patterns are in unnarrowable situations return declaredType; } var cached = cache.get(key); if (cached) { return cached; } // If this flow loop junction and reference are already being processed, return // the union of the types computed for each branch so far, marked as incomplete. // It is possible to see an empty array in cases where loops are nested and the // back edge of the outer loop reaches an inner loop that is already being analyzed. // In such cases we restart the analysis of the inner loop, which will then see // a non-empty in-process array for the outer loop and eventually terminate because // the first antecedent of a loop junction is always the non-looping control flow // path that leads to the top. for (var i = flowLoopStart; i < flowLoopCount; i++) { if (flowLoopNodes[i] === flow && flowLoopKeys[i] === key && flowLoopTypes[i].length) { return createFlowType(getUnionOrEvolvingArrayType(flowLoopTypes[i], 1 /* Literal */), /*incomplete*/ true); } } // Add the flow loop junction and reference to the in-process stack and analyze // each antecedent code path. var antecedentTypes = []; var subtypeReduction = false; var firstAntecedentType; for (var _i = 0, _a = flow.antecedents; _i < _a.length; _i++) { var antecedent = _a[_i]; var flowType = void 0; if (!firstAntecedentType) { // The first antecedent of a loop junction is always the non-looping control // flow path that leads to the top. flowType = firstAntecedentType = getTypeAtFlowNode(antecedent); } else { // All but the first antecedent are the looping control flow paths that lead // back to the loop junction. We track these on the flow loop stack. flowLoopNodes[flowLoopCount] = flow; flowLoopKeys[flowLoopCount] = key; flowLoopTypes[flowLoopCount] = antecedentTypes; flowLoopCount++; var saveFlowTypeCache = flowTypeCache; flowTypeCache = undefined; flowType = getTypeAtFlowNode(antecedent); flowTypeCache = saveFlowTypeCache; flowLoopCount--; // If we see a value appear in the cache it is a sign that control flow analysis // was restarted and completed by checkExpressionCached. We can simply pick up // the resulting type and bail out. var cached_1 = cache.get(key); if (cached_1) { return cached_1; } } var type = getTypeFromFlowType(flowType); ts.pushIfUnique(antecedentTypes, type); // If an antecedent type is not a subset of the declared type, we need to perform // subtype reduction. This happens when a "foreign" type is injected into the control // flow using the instanceof operator or a user defined type predicate. if (!isTypeSubsetOf(type, declaredType)) { subtypeReduction = true; } // If the type at a particular antecedent path is the declared type there is no // reason to process more antecedents since the only possible outcome is subtypes // that will be removed in the final union type anyway. if (type === declaredType) { break; } } // The result is incomplete if the first antecedent (the non-looping control flow path) // is incomplete. var result = getUnionOrEvolvingArrayType(antecedentTypes, subtypeReduction ? 2 /* Subtype */ : 1 /* Literal */); if (isIncomplete(firstAntecedentType)) { return createFlowType(result, /*incomplete*/ true); } cache.set(key, result); return result; } function isMatchingReferenceDiscriminant(expr, computedType) { if (!(computedType.flags & 1048576 /* Union */) || !ts.isAccessExpression(expr)) { return false; } var name = getAccessedPropertyName(expr); if (name === undefined) { return false; } return isMatchingReference(reference, expr.expression) && isDiscriminantProperty(computedType, name); } function narrowTypeByDiscriminant(type, access, narrowType) { var propName = getAccessedPropertyName(access); if (propName === undefined) { return type; } var propType = getTypeOfPropertyOfType(type, propName); if (!propType) { return type; } var narrowedPropType = narrowType(propType); return filterType(type, function (t) { var discriminantType = getTypeOfPropertyOrIndexSignature(t, propName); return !(discriminantType.flags & 131072 /* Never */) && isTypeComparableTo(discriminantType, narrowedPropType); }); } function narrowTypeByTruthiness(type, expr, assumeTrue) { if (isMatchingReference(reference, expr)) { return getTypeWithFacts(type, assumeTrue ? 4194304 /* Truthy */ : 8388608 /* Falsy */); } if (strictNullChecks && assumeTrue && optionalChainContainsReference(expr, reference)) { type = getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */); } if (isMatchingReferenceDiscriminant(expr, declaredType)) { return narrowTypeByDiscriminant(type, expr, function (t) { return getTypeWithFacts(t, assumeTrue ? 4194304 /* Truthy */ : 8388608 /* Falsy */); }); } return type; } function isTypePresencePossible(type, propName, assumeTrue) { if (getIndexInfoOfType(type, 0 /* String */)) { return true; } var prop = getPropertyOfType(type, propName); if (prop) { return prop.flags & 16777216 /* Optional */ ? true : assumeTrue; } return !assumeTrue; } function narrowByInKeyword(type, literal, assumeTrue) { if (type.flags & (1048576 /* Union */ | 524288 /* Object */) || isThisTypeParameter(type)) { var propName_1 = ts.escapeLeadingUnderscores(literal.text); return filterType(type, function (t) { return isTypePresencePossible(t, propName_1, assumeTrue); }); } return type; } function narrowTypeByBinaryExpression(type, expr, assumeTrue) { switch (expr.operatorToken.kind) { case 62 /* EqualsToken */: return narrowTypeByTruthiness(narrowType(type, expr.right, assumeTrue), expr.left, assumeTrue); case 34 /* EqualsEqualsToken */: case 35 /* ExclamationEqualsToken */: case 36 /* EqualsEqualsEqualsToken */: case 37 /* ExclamationEqualsEqualsToken */: var operator_1 = expr.operatorToken.kind; var left_1 = getReferenceCandidate(expr.left); var right_1 = getReferenceCandidate(expr.right); if (left_1.kind === 204 /* TypeOfExpression */ && ts.isStringLiteralLike(right_1)) { return narrowTypeByTypeof(type, left_1, operator_1, right_1, assumeTrue); } if (right_1.kind === 204 /* TypeOfExpression */ && ts.isStringLiteralLike(left_1)) { return narrowTypeByTypeof(type, right_1, operator_1, left_1, assumeTrue); } if (isMatchingReference(reference, left_1)) { return narrowTypeByEquality(type, operator_1, right_1, assumeTrue); } if (isMatchingReference(reference, right_1)) { return narrowTypeByEquality(type, operator_1, left_1, assumeTrue); } if (strictNullChecks) { if (optionalChainContainsReference(left_1, reference)) { type = narrowTypeByOptionalChainContainment(type, operator_1, right_1, assumeTrue); } else if (optionalChainContainsReference(right_1, reference)) { type = narrowTypeByOptionalChainContainment(type, operator_1, left_1, assumeTrue); } } if (isMatchingReferenceDiscriminant(left_1, declaredType)) { return narrowTypeByDiscriminant(type, left_1, function (t) { return narrowTypeByEquality(t, operator_1, right_1, assumeTrue); }); } if (isMatchingReferenceDiscriminant(right_1, declaredType)) { return narrowTypeByDiscriminant(type, right_1, function (t) { return narrowTypeByEquality(t, operator_1, left_1, assumeTrue); }); } if (isMatchingConstructorReference(left_1)) { return narrowTypeByConstructor(type, operator_1, right_1, assumeTrue); } if (isMatchingConstructorReference(right_1)) { return narrowTypeByConstructor(type, operator_1, left_1, assumeTrue); } break; case 98 /* InstanceOfKeyword */: return narrowTypeByInstanceof(type, expr, assumeTrue); case 97 /* InKeyword */: var target = getReferenceCandidate(expr.right); if (ts.isStringLiteralLike(expr.left) && isMatchingReference(reference, target)) { return narrowByInKeyword(type, expr.left, assumeTrue); } break; case 27 /* CommaToken */: return narrowType(type, expr.right, assumeTrue); } return type; } function narrowTypeByOptionalChainContainment(type, operator, value, assumeTrue) { // We are in a branch of obj?.foo === value (or any one of the other equality operators). We narrow obj as follows: // When operator is === and type of value excludes undefined, null and undefined is removed from type of obj in true branch. // When operator is !== and type of value excludes undefined, null and undefined is removed from type of obj in false branch. // When operator is == and type of value excludes null and undefined, null and undefined is removed from type of obj in true branch. // When operator is != and type of value excludes null and undefined, null and undefined is removed from type of obj in false branch. // When operator is === and type of value is undefined, null and undefined is removed from type of obj in false branch. // When operator is !== and type of value is undefined, null and undefined is removed from type of obj in true branch. // When operator is == and type of value is null or undefined, null and undefined is removed from type of obj in false branch. // When operator is != and type of value is null or undefined, null and undefined is removed from type of obj in true branch. var equalsOperator = operator === 34 /* EqualsEqualsToken */ || operator === 36 /* EqualsEqualsEqualsToken */; var nullableFlags = operator === 34 /* EqualsEqualsToken */ || operator === 35 /* ExclamationEqualsToken */ ? 98304 /* Nullable */ : 32768 /* Undefined */; var valueType = getTypeOfExpression(value); // Note that we include any and unknown in the exclusion test because their domain includes null and undefined. var removeNullable = equalsOperator !== assumeTrue && everyType(valueType, function (t) { return !!(t.flags & nullableFlags); }) || equalsOperator === assumeTrue && everyType(valueType, function (t) { return !(t.flags & (3 /* AnyOrUnknown */ | nullableFlags)); }); return removeNullable ? getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */) : type; } function narrowTypeByEquality(type, operator, value, assumeTrue) { if (type.flags & 1 /* Any */) { return type; } if (operator === 35 /* ExclamationEqualsToken */ || operator === 37 /* ExclamationEqualsEqualsToken */) { assumeTrue = !assumeTrue; } var valueType = getTypeOfExpression(value); if ((type.flags & 2 /* Unknown */) && assumeTrue && (operator === 36 /* EqualsEqualsEqualsToken */ || operator === 37 /* ExclamationEqualsEqualsToken */)) { if (valueType.flags & (131068 /* Primitive */ | 67108864 /* NonPrimitive */)) { return valueType; } if (valueType.flags & 524288 /* Object */) { return nonPrimitiveType; } return type; } if (valueType.flags & 98304 /* Nullable */) { if (!strictNullChecks) { return type; } var doubleEquals = operator === 34 /* EqualsEqualsToken */ || operator === 35 /* ExclamationEqualsToken */; var facts = doubleEquals ? assumeTrue ? 262144 /* EQUndefinedOrNull */ : 2097152 /* NEUndefinedOrNull */ : valueType.flags & 65536 /* Null */ ? assumeTrue ? 131072 /* EQNull */ : 1048576 /* NENull */ : assumeTrue ? 65536 /* EQUndefined */ : 524288 /* NEUndefined */; return getTypeWithFacts(type, facts); } if (type.flags & 67637251 /* NotUnionOrUnit */) { return type; } if (assumeTrue) { var filterFn = operator === 34 /* EqualsEqualsToken */ ? (function (t) { return areTypesComparable(t, valueType) || isCoercibleUnderDoubleEquals(t, valueType); }) : function (t) { return areTypesComparable(t, valueType); }; var narrowedType = filterType(type, filterFn); return narrowedType.flags & 131072 /* Never */ ? type : replacePrimitivesWithLiterals(narrowedType, valueType); } if (isUnitType(valueType)) { var regularType_1 = getRegularTypeOfLiteralType(valueType); return filterType(type, function (t) { return isUnitType(t) ? !areTypesComparable(t, valueType) : getRegularTypeOfLiteralType(t) !== regularType_1; }); } return type; } function narrowTypeByTypeof(type, typeOfExpr, operator, literal, assumeTrue) { // We have '==', '!=', '===', or !==' operator with 'typeof xxx' and string literal operands if (operator === 35 /* ExclamationEqualsToken */ || operator === 37 /* ExclamationEqualsEqualsToken */) { assumeTrue = !assumeTrue; } var target = getReferenceCandidate(typeOfExpr.expression); if (!isMatchingReference(reference, target)) { if (strictNullChecks && optionalChainContainsReference(target, reference) && assumeTrue === (literal.text !== "undefined")) { return getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */); } return type; } if (type.flags & 1 /* Any */ && literal.text === "function") { return type; } if (assumeTrue && type.flags & 2 /* Unknown */ && literal.text === "object") { // The pattern x && typeof x === 'object', where x is of type unknown, narrows x to type object. We don't // need to check for the reverse typeof x === 'object' && x since that already narrows correctly. if (typeOfExpr.parent.parent.kind === 209 /* BinaryExpression */) { var expr = typeOfExpr.parent.parent; if (expr.operatorToken.kind === 55 /* AmpersandAmpersandToken */ && expr.right === typeOfExpr.parent && containsTruthyCheck(reference, expr.left)) { return nonPrimitiveType; } } return getUnionType([nonPrimitiveType, nullType]); } var facts = assumeTrue ? typeofEQFacts.get(literal.text) || 128 /* TypeofEQHostObject */ : typeofNEFacts.get(literal.text) || 32768 /* TypeofNEHostObject */; return getTypeWithFacts(assumeTrue ? mapType(type, narrowTypeForTypeof) : type, facts); function narrowTypeForTypeof(type) { // We narrow a non-union type to an exact primitive type if the non-union type // is a supertype of that primitive type. For example, type 'any' can be narrowed // to one of the primitive types. var targetType = literal.text === "function" ? globalFunctionType : typeofTypesByName.get(literal.text); if (targetType) { if (isTypeSubtypeOf(type, targetType)) { return type; } if (isTypeSubtypeOf(targetType, type)) { return targetType; } if (type.flags & 63176704 /* Instantiable */) { var constraint = getBaseConstraintOfType(type) || anyType; if (isTypeSubtypeOf(targetType, constraint)) { return getIntersectionType([type, targetType]); } } } return type; } } function narrowTypeBySwitchOptionalChainContainment(type, switchStatement, clauseStart, clauseEnd, clauseCheck) { var everyClauseChecks = clauseStart !== clauseEnd && ts.every(getSwitchClauseTypes(switchStatement).slice(clauseStart, clauseEnd), clauseCheck); return everyClauseChecks ? getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */) : type; } function narrowTypeBySwitchOnDiscriminant(type, switchStatement, clauseStart, clauseEnd) { // We only narrow if all case expressions specify // values with unit types, except for the case where // `type` is unknown. In this instance we map object // types to the nonPrimitive type and narrow with that. var switchTypes = getSwitchClauseTypes(switchStatement); if (!switchTypes.length) { return type; } var clauseTypes = switchTypes.slice(clauseStart, clauseEnd); var hasDefaultClause = clauseStart === clauseEnd || ts.contains(clauseTypes, neverType); if ((type.flags & 2 /* Unknown */) && !hasDefaultClause) { var groundClauseTypes = void 0; for (var i = 0; i < clauseTypes.length; i += 1) { var t = clauseTypes[i]; if (t.flags & (131068 /* Primitive */ | 67108864 /* NonPrimitive */)) { if (groundClauseTypes !== undefined) { groundClauseTypes.push(t); } } else if (t.flags & 524288 /* Object */) { if (groundClauseTypes === undefined) { groundClauseTypes = clauseTypes.slice(0, i); } groundClauseTypes.push(nonPrimitiveType); } else { return type; } } return getUnionType(groundClauseTypes === undefined ? clauseTypes : groundClauseTypes); } var discriminantType = getUnionType(clauseTypes); var caseType = discriminantType.flags & 131072 /* Never */ ? neverType : replacePrimitivesWithLiterals(filterType(type, function (t) { return areTypesComparable(discriminantType, t); }), discriminantType); if (!hasDefaultClause) { return caseType; } var defaultType = filterType(type, function (t) { return !(isUnitType(t) && ts.contains(switchTypes, getRegularTypeOfLiteralType(t))); }); return caseType.flags & 131072 /* Never */ ? defaultType : getUnionType([caseType, defaultType]); } function getImpliedTypeFromTypeofCase(type, text) { switch (text) { case "function": return type.flags & 1 /* Any */ ? type : globalFunctionType; case "object": return type.flags & 2 /* Unknown */ ? getUnionType([nonPrimitiveType, nullType]) : type; default: return typeofTypesByName.get(text) || type; } } function narrowTypeForTypeofSwitch(candidate) { return function (type) { if (isTypeSubtypeOf(candidate, type)) { return candidate; } if (type.flags & 63176704 /* Instantiable */) { var constraint = getBaseConstraintOfType(type) || anyType; if (isTypeSubtypeOf(candidate, constraint)) { return getIntersectionType([type, candidate]); } } return type; }; } function narrowBySwitchOnTypeOf(type, switchStatement, clauseStart, clauseEnd) { var switchWitnesses = getSwitchClauseTypeOfWitnesses(switchStatement, /*retainDefault*/ true); if (!switchWitnesses.length) { return type; } // Equal start and end denotes implicit fallthrough; undefined marks explicit default clause var defaultCaseLocation = ts.findIndex(switchWitnesses, function (elem) { return elem === undefined; }); var hasDefaultClause = clauseStart === clauseEnd || (defaultCaseLocation >= clauseStart && defaultCaseLocation < clauseEnd); var clauseWitnesses; var switchFacts; if (defaultCaseLocation > -1) { // We no longer need the undefined denoting an // explicit default case. Remove the undefined and // fix-up clauseStart and clauseEnd. This means // that we don't have to worry about undefined // in the witness array. var witnesses = switchWitnesses.filter(function (witness) { return witness !== undefined; }); // The adjusted clause start and end after removing the `default` statement. var fixedClauseStart = defaultCaseLocation < clauseStart ? clauseStart - 1 : clauseStart; var fixedClauseEnd = defaultCaseLocation < clauseEnd ? clauseEnd - 1 : clauseEnd; clauseWitnesses = witnesses.slice(fixedClauseStart, fixedClauseEnd); switchFacts = getFactsFromTypeofSwitch(fixedClauseStart, fixedClauseEnd, witnesses, hasDefaultClause); } else { clauseWitnesses = switchWitnesses.slice(clauseStart, clauseEnd); switchFacts = getFactsFromTypeofSwitch(clauseStart, clauseEnd, switchWitnesses, hasDefaultClause); } if (hasDefaultClause) { return filterType(type, function (t) { return (getTypeFacts(t) & switchFacts) === switchFacts; }); } /* The implied type is the raw type suggested by a value being caught in this clause. When the clause contains a default case we ignore the implied type and try to narrow using any facts we can learn: see `switchFacts`. Example: switch (typeof x) { case 'number': case 'string': break; default: break; case 'number': case 'boolean': break } In the first clause (case `number` and `string`) the implied type is number | string. In the default clause we de not compute an implied type. In the third clause (case `number` and `boolean`) the naive implied type is number | boolean, however we use the type facts to narrow the implied type to boolean. We know that number cannot be selected because it is caught in the first clause. */ var impliedType = getTypeWithFacts(getUnionType(clauseWitnesses.map(function (text) { return getImpliedTypeFromTypeofCase(type, text); })), switchFacts); if (impliedType.flags & 1048576 /* Union */) { impliedType = getAssignmentReducedType(impliedType, getBaseConstraintOrType(type)); } return getTypeWithFacts(mapType(type, narrowTypeForTypeofSwitch(impliedType)), switchFacts); } function isMatchingConstructorReference(expr) { return (ts.isPropertyAccessExpression(expr) && ts.idText(expr.name) === "constructor" || ts.isElementAccessExpression(expr) && ts.isStringLiteralLike(expr.argumentExpression) && expr.argumentExpression.text === "constructor") && isMatchingReference(reference, expr.expression); } function narrowTypeByConstructor(type, operator, identifier, assumeTrue) { // Do not narrow when checking inequality. if (assumeTrue ? (operator !== 34 /* EqualsEqualsToken */ && operator !== 36 /* EqualsEqualsEqualsToken */) : (operator !== 35 /* ExclamationEqualsToken */ && operator !== 37 /* ExclamationEqualsEqualsToken */)) { return type; } // Get the type of the constructor identifier expression, if it is not a function then do not narrow. var identifierType = getTypeOfExpression(identifier); if (!isFunctionType(identifierType) && !isConstructorType(identifierType)) { return type; } // Get the prototype property of the type identifier so we can find out its type. var prototypeProperty = getPropertyOfType(identifierType, "prototype"); if (!prototypeProperty) { return type; } // Get the type of the prototype, if it is undefined, or the global `Object` or `Function` types then do not narrow. var prototypeType = getTypeOfSymbol(prototypeProperty); var candidate = !isTypeAny(prototypeType) ? prototypeType : undefined; if (!candidate || candidate === globalObjectType || candidate === globalFunctionType) { return type; } // If the type that is being narrowed is `any` then just return the `candidate` type since every type is a subtype of `any`. if (isTypeAny(type)) { return candidate; } // Filter out types that are not considered to be "constructed by" the `candidate` type. return filterType(type, function (t) { return isConstructedBy(t, candidate); }); function isConstructedBy(source, target) { // If either the source or target type are a class type then we need to check that they are the same exact type. // This is because you may have a class `A` that defines some set of properties, and another class `B` // that defines the same set of properties as class `A`, in that case they are structurally the same // type, but when you do something like `instanceOfA.constructor === B` it will return false. if (source.flags & 524288 /* Object */ && ts.getObjectFlags(source) & 1 /* Class */ || target.flags & 524288 /* Object */ && ts.getObjectFlags(target) & 1 /* Class */) { return source.symbol === target.symbol; } // For all other types just check that the `source` type is a subtype of the `target` type. return isTypeSubtypeOf(source, target); } } function narrowTypeByInstanceof(type, expr, assumeTrue) { var left = getReferenceCandidate(expr.left); if (!isMatchingReference(reference, left)) { if (assumeTrue && strictNullChecks && optionalChainContainsReference(left, reference)) { return getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */); } return type; } // Check that right operand is a function type with a prototype property var rightType = getTypeOfExpression(expr.right); if (!isTypeDerivedFrom(rightType, globalFunctionType)) { return type; } var targetType; var prototypeProperty = getPropertyOfType(rightType, "prototype"); if (prototypeProperty) { // Target type is type of the prototype property var prototypePropertyType = getTypeOfSymbol(prototypeProperty); if (!isTypeAny(prototypePropertyType)) { targetType = prototypePropertyType; } } // Don't narrow from 'any' if the target type is exactly 'Object' or 'Function' if (isTypeAny(type) && (targetType === globalObjectType || targetType === globalFunctionType)) { return type; } if (!targetType) { var constructSignatures = getSignaturesOfType(rightType, 1 /* Construct */); targetType = constructSignatures.length ? getUnionType(ts.map(constructSignatures, function (signature) { return getReturnTypeOfSignature(getErasedSignature(signature)); })) : emptyObjectType; } return getNarrowedType(type, targetType, assumeTrue, isTypeDerivedFrom); } function getNarrowedType(type, candidate, assumeTrue, isRelated) { if (!assumeTrue) { return filterType(type, function (t) { return !isRelated(t, candidate); }); } // If the current type is a union type, remove all constituents that couldn't be instances of // the candidate type. If one or more constituents remain, return a union of those. if (type.flags & 1048576 /* Union */) { var assignableType = filterType(type, function (t) { return isRelated(t, candidate); }); if (!(assignableType.flags & 131072 /* Never */)) { return assignableType; } } // If the candidate type is a subtype of the target type, narrow to the candidate type. // Otherwise, if the target type is assignable to the candidate type, keep the target type. // Otherwise, if the candidate type is assignable to the target type, narrow to the candidate // type. Otherwise, the types are completely unrelated, so narrow to an intersection of the // two types. return isTypeSubtypeOf(candidate, type) ? candidate : isTypeAssignableTo(type, candidate) ? type : isTypeAssignableTo(candidate, type) ? candidate : getIntersectionType([type, candidate]); } function narrowTypeByCallExpression(type, callExpression, assumeTrue) { if (hasMatchingArgument(callExpression, reference)) { var signature = assumeTrue || !ts.isCallChain(callExpression) ? getEffectsSignature(callExpression) : undefined; var predicate = signature && getTypePredicateOfSignature(signature); if (predicate && (predicate.kind === 0 /* This */ || predicate.kind === 1 /* Identifier */)) { return narrowTypeByTypePredicate(type, predicate, callExpression, assumeTrue); } } return type; } function narrowTypeByTypePredicate(type, predicate, callExpression, assumeTrue) { // Don't narrow from 'any' if the predicate type is exactly 'Object' or 'Function' if (predicate.type && !(isTypeAny(type) && (predicate.type === globalObjectType || predicate.type === globalFunctionType))) { var predicateArgument = getTypePredicateArgument(predicate, callExpression); if (predicateArgument) { if (isMatchingReference(reference, predicateArgument)) { return getNarrowedType(type, predicate.type, assumeTrue, isTypeSubtypeOf); } if (strictNullChecks && assumeTrue && optionalChainContainsReference(predicateArgument, reference) && !(getTypeFacts(predicate.type) & 65536 /* EQUndefined */)) { type = getTypeWithFacts(type, 2097152 /* NEUndefinedOrNull */); } if (isMatchingReferenceDiscriminant(predicateArgument, declaredType)) { return narrowTypeByDiscriminant(type, predicateArgument, function (t) { return getNarrowedType(t, predicate.type, assumeTrue, isTypeSubtypeOf); }); } } } return type; } // Narrow the given type based on the given expression having the assumed boolean value. The returned type // will be a subtype or the same type as the argument. function narrowType(type, expr, assumeTrue) { // for `a?.b`, we emulate a synthetic `a !== null && a !== undefined` condition for `a` if (ts.isExpressionOfOptionalChainRoot(expr) || ts.isBinaryExpression(expr.parent) && expr.parent.operatorToken.kind === 60 /* QuestionQuestionToken */ && expr.parent.left === expr) { return narrowTypeByOptionality(type, expr, assumeTrue); } switch (expr.kind) { case 75 /* Identifier */: case 104 /* ThisKeyword */: case 102 /* SuperKeyword */: case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return narrowTypeByTruthiness(type, expr, assumeTrue); case 196 /* CallExpression */: return narrowTypeByCallExpression(type, expr, assumeTrue); case 200 /* ParenthesizedExpression */: return narrowType(type, expr.expression, assumeTrue); case 209 /* BinaryExpression */: return narrowTypeByBinaryExpression(type, expr, assumeTrue); case 207 /* PrefixUnaryExpression */: if (expr.operator === 53 /* ExclamationToken */) { return narrowType(type, expr.operand, !assumeTrue); } break; } return type; } function narrowTypeByOptionality(type, expr, assumePresent) { if (isMatchingReference(reference, expr)) { return getTypeWithFacts(type, assumePresent ? 2097152 /* NEUndefinedOrNull */ : 262144 /* EQUndefinedOrNull */); } if (isMatchingReferenceDiscriminant(expr, declaredType)) { return narrowTypeByDiscriminant(type, expr, function (t) { return getTypeWithFacts(t, assumePresent ? 2097152 /* NEUndefinedOrNull */ : 262144 /* EQUndefinedOrNull */); }); } return type; } } function getTypeOfSymbolAtLocation(symbol, location) { symbol = symbol.exportSymbol || symbol; // If we have an identifier or a property access at the given location, if the location is // an dotted name expression, and if the location is not an assignment target, obtain the type // of the expression (which will reflect control flow analysis). If the expression indeed // resolved to the given symbol, return the narrowed type. if (location.kind === 75 /* Identifier */) { if (ts.isRightSideOfQualifiedNameOrPropertyAccess(location)) { location = location.parent; } if (ts.isExpressionNode(location) && !ts.isAssignmentTarget(location)) { var type = getTypeOfExpression(location); if (getExportSymbolOfValueSymbolIfExported(getNodeLinks(location).resolvedSymbol) === symbol) { return type; } } } // The location isn't a reference to the given symbol, meaning we're being asked // a hypothetical question of what type the symbol would have if there was a reference // to it at the given location. Since we have no control flow information for the // hypothetical reference (control flow information is created and attached by the // binder), we simply return the declared type of the symbol. return getTypeOfSymbol(symbol); } function getControlFlowContainer(node) { return ts.findAncestor(node.parent, function (node) { return ts.isFunctionLike(node) && !ts.getImmediatelyInvokedFunctionExpression(node) || node.kind === 250 /* ModuleBlock */ || node.kind === 290 /* SourceFile */ || node.kind === 159 /* PropertyDeclaration */; }); } // Check if a parameter is assigned anywhere within its declaring function. function isParameterAssigned(symbol) { var func = ts.getRootDeclaration(symbol.valueDeclaration).parent; var links = getNodeLinks(func); if (!(links.flags & 8388608 /* AssignmentsMarked */)) { links.flags |= 8388608 /* AssignmentsMarked */; if (!hasParentWithAssignmentsMarked(func)) { markParameterAssignments(func); } } return symbol.isAssigned || false; } function hasParentWithAssignmentsMarked(node) { return !!ts.findAncestor(node.parent, function (node) { return ts.isFunctionLike(node) && !!(getNodeLinks(node).flags & 8388608 /* AssignmentsMarked */); }); } function markParameterAssignments(node) { if (node.kind === 75 /* Identifier */) { if (ts.isAssignmentTarget(node)) { var symbol = getResolvedSymbol(node); if (symbol.valueDeclaration && ts.getRootDeclaration(symbol.valueDeclaration).kind === 156 /* Parameter */) { symbol.isAssigned = true; } } } else { ts.forEachChild(node, markParameterAssignments); } } function isConstVariable(symbol) { return symbol.flags & 3 /* Variable */ && (getDeclarationNodeFlagsFromSymbol(symbol) & 2 /* Const */) !== 0 && getTypeOfSymbol(symbol) !== autoArrayType; } /** remove undefined from the annotated type of a parameter when there is an initializer (that doesn't include undefined) */ function removeOptionalityFromDeclaredType(declaredType, declaration) { if (pushTypeResolution(declaration.symbol, 2 /* DeclaredType */)) { var annotationIncludesUndefined = strictNullChecks && declaration.kind === 156 /* Parameter */ && declaration.initializer && getFalsyFlags(declaredType) & 32768 /* Undefined */ && !(getFalsyFlags(checkExpression(declaration.initializer)) & 32768 /* Undefined */); popTypeResolution(); return annotationIncludesUndefined ? getTypeWithFacts(declaredType, 524288 /* NEUndefined */) : declaredType; } else { reportCircularityError(declaration.symbol); return declaredType; } } function isConstraintPosition(node) { var parent = node.parent; return parent.kind === 194 /* PropertyAccessExpression */ || parent.kind === 196 /* CallExpression */ && parent.expression === node || parent.kind === 195 /* ElementAccessExpression */ && parent.expression === node || parent.kind === 191 /* BindingElement */ && parent.name === node && !!parent.initializer; } function typeHasNullableConstraint(type) { return type.flags & 58982400 /* InstantiableNonPrimitive */ && maybeTypeOfKind(getBaseConstraintOfType(type) || unknownType, 98304 /* Nullable */); } function getConstraintForLocation(type, node) { // When a node is the left hand expression of a property access, element access, or call expression, // and the type of the node includes type variables with constraints that are nullable, we fetch the // apparent type of the node *before* performing control flow analysis such that narrowings apply to // the constraint type. if (type && isConstraintPosition(node) && forEachType(type, typeHasNullableConstraint)) { return mapType(getWidenedType(type), getBaseConstraintOrType); } return type; } function isExportOrExportExpression(location) { return !!ts.findAncestor(location, function (e) { return e.parent && ts.isExportAssignment(e.parent) && e.parent.expression === e && ts.isEntityNameExpression(e); }); } function markAliasReferenced(symbol, location) { if (isNonLocalAlias(symbol, /*excludes*/ 111551 /* Value */) && !isInTypeQuery(location) && !getTypeOnlyAliasDeclaration(symbol)) { if (compilerOptions.preserveConstEnums && isExportOrExportExpression(location) || !isConstEnumOrConstEnumOnlyModule(resolveAlias(symbol))) { markAliasSymbolAsReferenced(symbol); } else { markConstEnumAliasAsReferenced(symbol); } } } function checkIdentifier(node) { var symbol = getResolvedSymbol(node); if (symbol === unknownSymbol) { return errorType; } // As noted in ECMAScript 6 language spec, arrow functions never have an arguments objects. // Although in down-level emit of arrow function, we emit it using function expression which means that // arguments objects will be bound to the inner object; emitting arrow function natively in ES6, arguments objects // will be bound to non-arrow function that contain this arrow function. This results in inconsistent behavior. // To avoid that we will give an error to users if they use arguments objects in arrow function so that they // can explicitly bound arguments objects if (symbol === argumentsSymbol) { var container = ts.getContainingFunction(node); if (languageVersion < 2 /* ES2015 */) { if (container.kind === 202 /* ArrowFunction */) { error(node, ts.Diagnostics.The_arguments_object_cannot_be_referenced_in_an_arrow_function_in_ES3_and_ES5_Consider_using_a_standard_function_expression); } else if (ts.hasModifier(container, 256 /* Async */)) { error(node, ts.Diagnostics.The_arguments_object_cannot_be_referenced_in_an_async_function_or_method_in_ES3_and_ES5_Consider_using_a_standard_function_or_method); } } getNodeLinks(container).flags |= 8192 /* CaptureArguments */; return getTypeOfSymbol(symbol); } // We should only mark aliases as referenced if there isn't a local value declaration // for the symbol. Also, don't mark any property access expression LHS - checkPropertyAccessExpression will handle that if (!(node.parent && ts.isPropertyAccessExpression(node.parent) && node.parent.expression === node)) { markAliasReferenced(symbol, node); } var localOrExportSymbol = getExportSymbolOfValueSymbolIfExported(symbol); var declaration = localOrExportSymbol.valueDeclaration; if (localOrExportSymbol.flags & 32 /* Class */) { // Due to the emit for class decorators, any reference to the class from inside of the class body // must instead be rewritten to point to a temporary variable to avoid issues with the double-bind // behavior of class names in ES6. if (declaration.kind === 245 /* ClassDeclaration */ && ts.nodeIsDecorated(declaration)) { var container = ts.getContainingClass(node); while (container !== undefined) { if (container === declaration && container.name !== node) { getNodeLinks(declaration).flags |= 16777216 /* ClassWithConstructorReference */; getNodeLinks(node).flags |= 33554432 /* ConstructorReferenceInClass */; break; } container = ts.getContainingClass(container); } } else if (declaration.kind === 214 /* ClassExpression */) { // When we emit a class expression with static members that contain a reference // to the constructor in the initializer, we will need to substitute that // binding with an alias as the class name is not in scope. var container = ts.getThisContainer(node, /*includeArrowFunctions*/ false); while (container.kind !== 290 /* SourceFile */) { if (container.parent === declaration) { if (container.kind === 159 /* PropertyDeclaration */ && ts.hasModifier(container, 32 /* Static */)) { getNodeLinks(declaration).flags |= 16777216 /* ClassWithConstructorReference */; getNodeLinks(node).flags |= 33554432 /* ConstructorReferenceInClass */; } break; } container = ts.getThisContainer(container, /*includeArrowFunctions*/ false); } } } checkNestedBlockScopedBinding(node, symbol); var type = getConstraintForLocation(getTypeOfSymbol(localOrExportSymbol), node); var assignmentKind = ts.getAssignmentTargetKind(node); if (assignmentKind) { if (!(localOrExportSymbol.flags & 3 /* Variable */) && !(ts.isInJSFile(node) && localOrExportSymbol.flags & 512 /* ValueModule */)) { error(node, ts.Diagnostics.Cannot_assign_to_0_because_it_is_not_a_variable, symbolToString(symbol)); return errorType; } if (isReadonlySymbol(localOrExportSymbol)) { if (localOrExportSymbol.flags & 3 /* Variable */) { error(node, ts.Diagnostics.Cannot_assign_to_0_because_it_is_a_constant, symbolToString(symbol)); } else { error(node, ts.Diagnostics.Cannot_assign_to_0_because_it_is_a_read_only_property, symbolToString(symbol)); } return errorType; } } var isAlias = localOrExportSymbol.flags & 2097152 /* Alias */; // We only narrow variables and parameters occurring in a non-assignment position. For all other // entities we simply return the declared type. if (localOrExportSymbol.flags & 3 /* Variable */) { if (assignmentKind === 1 /* Definite */) { return type; } } else if (isAlias) { declaration = ts.find(symbol.declarations, isSomeImportDeclaration); } else { return type; } if (!declaration) { return type; } // The declaration container is the innermost function that encloses the declaration of the variable // or parameter. The flow container is the innermost function starting with which we analyze the control // flow graph to determine the control flow based type. var isParameter = ts.getRootDeclaration(declaration).kind === 156 /* Parameter */; var declarationContainer = getControlFlowContainer(declaration); var flowContainer = getControlFlowContainer(node); var isOuterVariable = flowContainer !== declarationContainer; var isSpreadDestructuringAssignmentTarget = node.parent && node.parent.parent && ts.isSpreadAssignment(node.parent) && isDestructuringAssignmentTarget(node.parent.parent); var isModuleExports = symbol.flags & 134217728 /* ModuleExports */; // When the control flow originates in a function expression or arrow function and we are referencing // a const variable or parameter from an outer function, we extend the origin of the control flow // analysis to include the immediately enclosing function. while (flowContainer !== declarationContainer && (flowContainer.kind === 201 /* FunctionExpression */ || flowContainer.kind === 202 /* ArrowFunction */ || ts.isObjectLiteralOrClassExpressionMethod(flowContainer)) && (isConstVariable(localOrExportSymbol) || isParameter && !isParameterAssigned(localOrExportSymbol))) { flowContainer = getControlFlowContainer(flowContainer); } // We only look for uninitialized variables in strict null checking mode, and only when we can analyze // the entire control flow graph from the variable's declaration (i.e. when the flow container and // declaration container are the same). var assumeInitialized = isParameter || isAlias || isOuterVariable || isSpreadDestructuringAssignmentTarget || isModuleExports || ts.isBindingElement(declaration) || type !== autoType && type !== autoArrayType && (!strictNullChecks || (type.flags & (3 /* AnyOrUnknown */ | 16384 /* Void */)) !== 0 || isInTypeQuery(node) || node.parent.kind === 263 /* ExportSpecifier */) || node.parent.kind === 218 /* NonNullExpression */ || declaration.kind === 242 /* VariableDeclaration */ && declaration.exclamationToken || declaration.flags & 8388608 /* Ambient */; var initialType = assumeInitialized ? (isParameter ? removeOptionalityFromDeclaredType(type, declaration) : type) : type === autoType || type === autoArrayType ? undefinedType : getOptionalType(type); var flowType = getFlowTypeOfReference(node, type, initialType, flowContainer, !assumeInitialized); // A variable is considered uninitialized when it is possible to analyze the entire control flow graph // from declaration to use, and when the variable's declared type doesn't include undefined but the // control flow based type does include undefined. if (!isEvolvingArrayOperationTarget(node) && (type === autoType || type === autoArrayType)) { if (flowType === autoType || flowType === autoArrayType) { if (noImplicitAny) { error(ts.getNameOfDeclaration(declaration), ts.Diagnostics.Variable_0_implicitly_has_type_1_in_some_locations_where_its_type_cannot_be_determined, symbolToString(symbol), typeToString(flowType)); error(node, ts.Diagnostics.Variable_0_implicitly_has_an_1_type, symbolToString(symbol), typeToString(flowType)); } return convertAutoToAny(flowType); } } else if (!assumeInitialized && !(getFalsyFlags(type) & 32768 /* Undefined */) && getFalsyFlags(flowType) & 32768 /* Undefined */) { error(node, ts.Diagnostics.Variable_0_is_used_before_being_assigned, symbolToString(symbol)); // Return the declared type to reduce follow-on errors return type; } return assignmentKind ? getBaseTypeOfLiteralType(flowType) : flowType; } function isInsideFunction(node, threshold) { return !!ts.findAncestor(node, function (n) { return n === threshold ? "quit" : ts.isFunctionLike(n); }); } function getPartOfForStatementContainingNode(node, container) { return ts.findAncestor(node, function (n) { return n === container ? "quit" : n === container.initializer || n === container.condition || n === container.incrementor || n === container.statement; }); } function checkNestedBlockScopedBinding(node, symbol) { if (languageVersion >= 2 /* ES2015 */ || (symbol.flags & (2 /* BlockScopedVariable */ | 32 /* Class */)) === 0 || ts.isSourceFile(symbol.valueDeclaration) || symbol.valueDeclaration.parent.kind === 280 /* CatchClause */) { return; } // 1. walk from the use site up to the declaration and check // if there is anything function like between declaration and use-site (is binding/class is captured in function). // 2. walk from the declaration up to the boundary of lexical environment and check // if there is an iteration statement in between declaration and boundary (is binding/class declared inside iteration statement) var container = ts.getEnclosingBlockScopeContainer(symbol.valueDeclaration); var usedInFunction = isInsideFunction(node.parent, container); var current = container; var containedInIterationStatement = false; while (current && !ts.nodeStartsNewLexicalEnvironment(current)) { if (ts.isIterationStatement(current, /*lookInLabeledStatements*/ false)) { containedInIterationStatement = true; break; } current = current.parent; } if (containedInIterationStatement) { if (usedInFunction) { // mark iteration statement as containing block-scoped binding captured in some function var capturesBlockScopeBindingInLoopBody = true; if (ts.isForStatement(container)) { var varDeclList = ts.getAncestor(symbol.valueDeclaration, 243 /* VariableDeclarationList */); if (varDeclList && varDeclList.parent === container) { var part = getPartOfForStatementContainingNode(node.parent, container); if (part) { var links = getNodeLinks(part); links.flags |= 131072 /* ContainsCapturedBlockScopeBinding */; var capturedBindings = links.capturedBlockScopeBindings || (links.capturedBlockScopeBindings = []); ts.pushIfUnique(capturedBindings, symbol); if (part === container.initializer) { capturesBlockScopeBindingInLoopBody = false; // Initializer is outside of loop body } } } } if (capturesBlockScopeBindingInLoopBody) { getNodeLinks(current).flags |= 65536 /* LoopWithCapturedBlockScopedBinding */; } } // mark variables that are declared in loop initializer and reassigned inside the body of ForStatement. // if body of ForStatement will be converted to function then we'll need a extra machinery to propagate reassigned values back. if (ts.isForStatement(container)) { var varDeclList = ts.getAncestor(symbol.valueDeclaration, 243 /* VariableDeclarationList */); if (varDeclList && varDeclList.parent === container && isAssignedInBodyOfForStatement(node, container)) { getNodeLinks(symbol.valueDeclaration).flags |= 4194304 /* NeedsLoopOutParameter */; } } // set 'declared inside loop' bit on the block-scoped binding getNodeLinks(symbol.valueDeclaration).flags |= 524288 /* BlockScopedBindingInLoop */; } if (usedInFunction) { getNodeLinks(symbol.valueDeclaration).flags |= 262144 /* CapturedBlockScopedBinding */; } } function isBindingCapturedByNode(node, decl) { var links = getNodeLinks(node); return !!links && ts.contains(links.capturedBlockScopeBindings, getSymbolOfNode(decl)); } function isAssignedInBodyOfForStatement(node, container) { // skip parenthesized nodes var current = node; while (current.parent.kind === 200 /* ParenthesizedExpression */) { current = current.parent; } // check if node is used as LHS in some assignment expression var isAssigned = false; if (ts.isAssignmentTarget(current)) { isAssigned = true; } else if ((current.parent.kind === 207 /* PrefixUnaryExpression */ || current.parent.kind === 208 /* PostfixUnaryExpression */)) { var expr = current.parent; isAssigned = expr.operator === 45 /* PlusPlusToken */ || expr.operator === 46 /* MinusMinusToken */; } if (!isAssigned) { return false; } // at this point we know that node is the target of assignment // now check that modification happens inside the statement part of the ForStatement return !!ts.findAncestor(current, function (n) { return n === container ? "quit" : n === container.statement; }); } function captureLexicalThis(node, container) { getNodeLinks(node).flags |= 2 /* LexicalThis */; if (container.kind === 159 /* PropertyDeclaration */ || container.kind === 162 /* Constructor */) { var classNode = container.parent; getNodeLinks(classNode).flags |= 4 /* CaptureThis */; } else { getNodeLinks(container).flags |= 4 /* CaptureThis */; } } function findFirstSuperCall(n) { if (ts.isSuperCall(n)) { return n; } else if (ts.isFunctionLike(n)) { return undefined; } return ts.forEachChild(n, findFirstSuperCall); } /** * Return a cached result if super-statement is already found. * Otherwise, find a super statement in a given constructor function and cache the result in the node-links of the constructor * * @param constructor constructor-function to look for super statement */ function getSuperCallInConstructor(constructor) { var links = getNodeLinks(constructor); // Only trying to find super-call if we haven't yet tried to find one. Once we try, we will record the result if (links.hasSuperCall === undefined) { links.superCall = findFirstSuperCall(constructor.body); links.hasSuperCall = links.superCall ? true : false; } return links.superCall; } /** * Check if the given class-declaration extends null then return true. * Otherwise, return false * @param classDecl a class declaration to check if it extends null */ function classDeclarationExtendsNull(classDecl) { var classSymbol = getSymbolOfNode(classDecl); var classInstanceType = getDeclaredTypeOfSymbol(classSymbol); var baseConstructorType = getBaseConstructorTypeOfClass(classInstanceType); return baseConstructorType === nullWideningType; } function checkThisBeforeSuper(node, container, diagnosticMessage) { var containingClassDecl = container.parent; var baseTypeNode = ts.getClassExtendsHeritageElement(containingClassDecl); // If a containing class does not have extends clause or the class extends null // skip checking whether super statement is called before "this" accessing. if (baseTypeNode && !classDeclarationExtendsNull(containingClassDecl)) { var superCall = getSuperCallInConstructor(container); // We should give an error in the following cases: // - No super-call // - "this" is accessing before super-call. // i.e super(this) // this.x; super(); // We want to make sure that super-call is done before accessing "this" so that // "this" is not accessed as a parameter of the super-call. if (!superCall || superCall.end > node.pos) { // In ES6, super inside constructor of class-declaration has to precede "this" accessing error(node, diagnosticMessage); } } } function checkThisExpression(node) { // Stop at the first arrow function so that we can // tell whether 'this' needs to be captured. var container = ts.getThisContainer(node, /* includeArrowFunctions */ true); var capturedByArrowFunction = false; if (container.kind === 162 /* Constructor */) { checkThisBeforeSuper(node, container, ts.Diagnostics.super_must_be_called_before_accessing_this_in_the_constructor_of_a_derived_class); } // Now skip arrow functions to get the "real" owner of 'this'. if (container.kind === 202 /* ArrowFunction */) { container = ts.getThisContainer(container, /* includeArrowFunctions */ false); capturedByArrowFunction = true; } switch (container.kind) { case 249 /* ModuleDeclaration */: error(node, ts.Diagnostics.this_cannot_be_referenced_in_a_module_or_namespace_body); // do not return here so in case if lexical this is captured - it will be reflected in flags on NodeLinks break; case 248 /* EnumDeclaration */: error(node, ts.Diagnostics.this_cannot_be_referenced_in_current_location); // do not return here so in case if lexical this is captured - it will be reflected in flags on NodeLinks break; case 162 /* Constructor */: if (isInConstructorArgumentInitializer(node, container)) { error(node, ts.Diagnostics.this_cannot_be_referenced_in_constructor_arguments); // do not return here so in case if lexical this is captured - it will be reflected in flags on NodeLinks } break; case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: if (ts.hasModifier(container, 32 /* Static */) && !(compilerOptions.target === 99 /* ESNext */ && compilerOptions.useDefineForClassFields)) { error(node, ts.Diagnostics.this_cannot_be_referenced_in_a_static_property_initializer); // do not return here so in case if lexical this is captured - it will be reflected in flags on NodeLinks } break; case 154 /* ComputedPropertyName */: error(node, ts.Diagnostics.this_cannot_be_referenced_in_a_computed_property_name); break; } // When targeting es6, mark that we'll need to capture `this` in its lexically bound scope. if (capturedByArrowFunction && languageVersion < 2 /* ES2015 */) { captureLexicalThis(node, container); } var type = tryGetThisTypeAt(node, /*includeGlobalThis*/ true, container); if (noImplicitThis) { var globalThisType_1 = getTypeOfSymbol(globalThisSymbol); if (type === globalThisType_1 && capturedByArrowFunction) { error(node, ts.Diagnostics.The_containing_arrow_function_captures_the_global_value_of_this); } else if (!type) { // With noImplicitThis, functions may not reference 'this' if it has type 'any' var diag = error(node, ts.Diagnostics.this_implicitly_has_type_any_because_it_does_not_have_a_type_annotation); if (!ts.isSourceFile(container)) { var outsideThis = tryGetThisTypeAt(container); if (outsideThis && outsideThis !== globalThisType_1) { ts.addRelatedInfo(diag, ts.createDiagnosticForNode(container, ts.Diagnostics.An_outer_value_of_this_is_shadowed_by_this_container)); } } } } return type || anyType; } function tryGetThisTypeAt(node, includeGlobalThis, container) { if (includeGlobalThis === void 0) { includeGlobalThis = true; } if (container === void 0) { container = ts.getThisContainer(node, /*includeArrowFunctions*/ false); } var isInJS = ts.isInJSFile(node); if (ts.isFunctionLike(container) && (!isInParameterInitializerBeforeContainingFunction(node) || ts.getThisParameter(container))) { // Note: a parameter initializer should refer to class-this unless function-this is explicitly annotated. // If this is a function in a JS file, it might be a class method. var className = getClassNameFromPrototypeMethod(container); if (isInJS && className) { var classSymbol = checkExpression(className).symbol; if (classSymbol && classSymbol.members && (classSymbol.flags & 16 /* Function */)) { var classType = getDeclaredTypeOfSymbol(classSymbol).thisType; if (classType) { return getFlowTypeOfReference(node, classType); } } } // Check if it's a constructor definition, can be either a variable decl or function decl // i.e. // * /** @constructor */ function [name]() { ... } // * /** @constructor */ var x = function() { ... } else if (isInJS && (container.kind === 201 /* FunctionExpression */ || container.kind === 244 /* FunctionDeclaration */) && ts.getJSDocClassTag(container)) { var classType = getDeclaredTypeOfSymbol(getMergedSymbol(container.symbol)).thisType; return getFlowTypeOfReference(node, classType); } var thisType = getThisTypeOfDeclaration(container) || getContextualThisParameterType(container); if (thisType) { return getFlowTypeOfReference(node, thisType); } } if (ts.isClassLike(container.parent)) { var symbol = getSymbolOfNode(container.parent); var type = ts.hasModifier(container, 32 /* Static */) ? getTypeOfSymbol(symbol) : getDeclaredTypeOfSymbol(symbol).thisType; return getFlowTypeOfReference(node, type); } if (isInJS) { var type = getTypeForThisExpressionFromJSDoc(container); if (type && type !== errorType) { return getFlowTypeOfReference(node, type); } } if (ts.isSourceFile(container)) { // look up in the source file's locals or exports if (container.commonJsModuleIndicator) { var fileSymbol = getSymbolOfNode(container); return fileSymbol && getTypeOfSymbol(fileSymbol); } else if (includeGlobalThis) { return getTypeOfSymbol(globalThisSymbol); } } } function getExplicitThisType(node) { var container = ts.getThisContainer(node, /*includeArrowFunctions*/ false); if (ts.isFunctionLike(container)) { var signature = getSignatureFromDeclaration(container); if (signature.thisParameter) { return getExplicitTypeOfSymbol(signature.thisParameter); } } if (ts.isClassLike(container.parent)) { var symbol = getSymbolOfNode(container.parent); return ts.hasModifier(container, 32 /* Static */) ? getTypeOfSymbol(symbol) : getDeclaredTypeOfSymbol(symbol).thisType; } } function getClassNameFromPrototypeMethod(container) { // Check if it's the RHS of a x.prototype.y = function [name]() { .... } if (container.kind === 201 /* FunctionExpression */ && ts.isBinaryExpression(container.parent) && ts.getAssignmentDeclarationKind(container.parent) === 3 /* PrototypeProperty */) { // Get the 'x' of 'x.prototype.y = container' return container.parent // x.prototype.y = container .left // x.prototype.y .expression // x.prototype .expression; // x } // x.prototype = { method() { } } else if (container.kind === 161 /* MethodDeclaration */ && container.parent.kind === 193 /* ObjectLiteralExpression */ && ts.isBinaryExpression(container.parent.parent) && ts.getAssignmentDeclarationKind(container.parent.parent) === 6 /* Prototype */) { return container.parent.parent.left.expression; } // x.prototype = { method: function() { } } else if (container.kind === 201 /* FunctionExpression */ && container.parent.kind === 281 /* PropertyAssignment */ && container.parent.parent.kind === 193 /* ObjectLiteralExpression */ && ts.isBinaryExpression(container.parent.parent.parent) && ts.getAssignmentDeclarationKind(container.parent.parent.parent) === 6 /* Prototype */) { return container.parent.parent.parent.left.expression; } // Object.defineProperty(x, "method", { value: function() { } }); // Object.defineProperty(x, "method", { set: (x: () => void) => void }); // Object.defineProperty(x, "method", { get: () => function() { }) }); else if (container.kind === 201 /* FunctionExpression */ && ts.isPropertyAssignment(container.parent) && ts.isIdentifier(container.parent.name) && (container.parent.name.escapedText === "value" || container.parent.name.escapedText === "get" || container.parent.name.escapedText === "set") && ts.isObjectLiteralExpression(container.parent.parent) && ts.isCallExpression(container.parent.parent.parent) && container.parent.parent.parent.arguments[2] === container.parent.parent && ts.getAssignmentDeclarationKind(container.parent.parent.parent) === 9 /* ObjectDefinePrototypeProperty */) { return container.parent.parent.parent.arguments[0].expression; } // Object.defineProperty(x, "method", { value() { } }); // Object.defineProperty(x, "method", { set(x: () => void) {} }); // Object.defineProperty(x, "method", { get() { return () => {} } }); else if (ts.isMethodDeclaration(container) && ts.isIdentifier(container.name) && (container.name.escapedText === "value" || container.name.escapedText === "get" || container.name.escapedText === "set") && ts.isObjectLiteralExpression(container.parent) && ts.isCallExpression(container.parent.parent) && container.parent.parent.arguments[2] === container.parent && ts.getAssignmentDeclarationKind(container.parent.parent) === 9 /* ObjectDefinePrototypeProperty */) { return container.parent.parent.arguments[0].expression; } } function getTypeForThisExpressionFromJSDoc(node) { var jsdocType = ts.getJSDocType(node); if (jsdocType && jsdocType.kind === 300 /* JSDocFunctionType */) { var jsDocFunctionType = jsdocType; if (jsDocFunctionType.parameters.length > 0 && jsDocFunctionType.parameters[0].name && jsDocFunctionType.parameters[0].name.escapedText === "this" /* This */) { return getTypeFromTypeNode(jsDocFunctionType.parameters[0].type); } } var thisTag = ts.getJSDocThisTag(node); if (thisTag && thisTag.typeExpression) { return getTypeFromTypeNode(thisTag.typeExpression); } } function isInConstructorArgumentInitializer(node, constructorDecl) { return !!ts.findAncestor(node, function (n) { return ts.isFunctionLikeDeclaration(n) ? "quit" : n.kind === 156 /* Parameter */ && n.parent === constructorDecl; }); } function checkSuperExpression(node) { var isCallExpression = node.parent.kind === 196 /* CallExpression */ && node.parent.expression === node; var container = ts.getSuperContainer(node, /*stopOnFunctions*/ true); var needToCaptureLexicalThis = false; // adjust the container reference in case if super is used inside arrow functions with arbitrarily deep nesting if (!isCallExpression) { while (container && container.kind === 202 /* ArrowFunction */) { container = ts.getSuperContainer(container, /*stopOnFunctions*/ true); needToCaptureLexicalThis = languageVersion < 2 /* ES2015 */; } } var canUseSuperExpression = isLegalUsageOfSuperExpression(container); var nodeCheckFlag = 0; if (!canUseSuperExpression) { // issue more specific error if super is used in computed property name // class A { foo() { return "1" }} // class B { // [super.foo()]() {} // } var current = ts.findAncestor(node, function (n) { return n === container ? "quit" : n.kind === 154 /* ComputedPropertyName */; }); if (current && current.kind === 154 /* ComputedPropertyName */) { error(node, ts.Diagnostics.super_cannot_be_referenced_in_a_computed_property_name); } else if (isCallExpression) { error(node, ts.Diagnostics.Super_calls_are_not_permitted_outside_constructors_or_in_nested_functions_inside_constructors); } else if (!container || !container.parent || !(ts.isClassLike(container.parent) || container.parent.kind === 193 /* ObjectLiteralExpression */)) { error(node, ts.Diagnostics.super_can_only_be_referenced_in_members_of_derived_classes_or_object_literal_expressions); } else { error(node, ts.Diagnostics.super_property_access_is_permitted_only_in_a_constructor_member_function_or_member_accessor_of_a_derived_class); } return errorType; } if (!isCallExpression && container.kind === 162 /* Constructor */) { checkThisBeforeSuper(node, container, ts.Diagnostics.super_must_be_called_before_accessing_a_property_of_super_in_the_constructor_of_a_derived_class); } if (ts.hasModifier(container, 32 /* Static */) || isCallExpression) { nodeCheckFlag = 512 /* SuperStatic */; } else { nodeCheckFlag = 256 /* SuperInstance */; } getNodeLinks(node).flags |= nodeCheckFlag; // Due to how we emit async functions, we need to specialize the emit for an async method that contains a `super` reference. // This is due to the fact that we emit the body of an async function inside of a generator function. As generator // functions cannot reference `super`, we emit a helper inside of the method body, but outside of the generator. This helper // uses an arrow function, which is permitted to reference `super`. // // There are two primary ways we can access `super` from within an async method. The first is getting the value of a property // or indexed access on super, either as part of a right-hand-side expression or call expression. The second is when setting the value // of a property or indexed access, either as part of an assignment expression or destructuring assignment. // // The simplest case is reading a value, in which case we will emit something like the following: // // // ts // ... // async asyncMethod() { // let x = await super.asyncMethod(); // return x; // } // ... // // // js // ... // asyncMethod() { // const _super = Object.create(null, { // asyncMethod: { get: () => super.asyncMethod }, // }); // return __awaiter(this, arguments, Promise, function *() { // let x = yield _super.asyncMethod.call(this); // return x; // }); // } // ... // // The more complex case is when we wish to assign a value, especially as part of a destructuring assignment. As both cases // are legal in ES6, but also likely less frequent, we only emit setters if there is an assignment: // // // ts // ... // async asyncMethod(ar: Promise) { // [super.a, super.b] = await ar; // } // ... // // // js // ... // asyncMethod(ar) { // const _super = Object.create(null, { // a: { get: () => super.a, set: (v) => super.a = v }, // b: { get: () => super.b, set: (v) => super.b = v } // }; // return __awaiter(this, arguments, Promise, function *() { // [_super.a, _super.b] = yield ar; // }); // } // ... // // Creating an object that has getter and setters instead of just an accessor function is required for destructuring assignments // as a call expression cannot be used as the target of a destructuring assignment while a property access can. // // For element access expressions (`super[x]`), we emit a generic helper that forwards the element access in both situations. if (container.kind === 161 /* MethodDeclaration */ && ts.hasModifier(container, 256 /* Async */)) { if (ts.isSuperProperty(node.parent) && ts.isAssignmentTarget(node.parent)) { getNodeLinks(container).flags |= 4096 /* AsyncMethodWithSuperBinding */; } else { getNodeLinks(container).flags |= 2048 /* AsyncMethodWithSuper */; } } if (needToCaptureLexicalThis) { // call expressions are allowed only in constructors so they should always capture correct 'this' // super property access expressions can also appear in arrow functions - // in this case they should also use correct lexical this captureLexicalThis(node.parent, container); } if (container.parent.kind === 193 /* ObjectLiteralExpression */) { if (languageVersion < 2 /* ES2015 */) { error(node, ts.Diagnostics.super_is_only_allowed_in_members_of_object_literal_expressions_when_option_target_is_ES2015_or_higher); return errorType; } else { // for object literal assume that type of 'super' is 'any' return anyType; } } // at this point the only legal case for parent is ClassLikeDeclaration var classLikeDeclaration = container.parent; if (!ts.getClassExtendsHeritageElement(classLikeDeclaration)) { error(node, ts.Diagnostics.super_can_only_be_referenced_in_a_derived_class); return errorType; } var classType = getDeclaredTypeOfSymbol(getSymbolOfNode(classLikeDeclaration)); var baseClassType = classType && getBaseTypes(classType)[0]; if (!baseClassType) { return errorType; } if (container.kind === 162 /* Constructor */ && isInConstructorArgumentInitializer(node, container)) { // issue custom error message for super property access in constructor arguments (to be aligned with old compiler) error(node, ts.Diagnostics.super_cannot_be_referenced_in_constructor_arguments); return errorType; } return nodeCheckFlag === 512 /* SuperStatic */ ? getBaseConstructorTypeOfClass(classType) : getTypeWithThisArgument(baseClassType, classType.thisType); function isLegalUsageOfSuperExpression(container) { if (!container) { return false; } if (isCallExpression) { // TS 1.0 SPEC (April 2014): 4.8.1 // Super calls are only permitted in constructors of derived classes return container.kind === 162 /* Constructor */; } else { // TS 1.0 SPEC (April 2014) // 'super' property access is allowed // - In a constructor, instance member function, instance member accessor, or instance member variable initializer where this references a derived class instance // - In a static member function or static member accessor // topmost container must be something that is directly nested in the class declaration\object literal expression if (ts.isClassLike(container.parent) || container.parent.kind === 193 /* ObjectLiteralExpression */) { if (ts.hasModifier(container, 32 /* Static */)) { return container.kind === 161 /* MethodDeclaration */ || container.kind === 160 /* MethodSignature */ || container.kind === 163 /* GetAccessor */ || container.kind === 164 /* SetAccessor */; } else { return container.kind === 161 /* MethodDeclaration */ || container.kind === 160 /* MethodSignature */ || container.kind === 163 /* GetAccessor */ || container.kind === 164 /* SetAccessor */ || container.kind === 159 /* PropertyDeclaration */ || container.kind === 158 /* PropertySignature */ || container.kind === 162 /* Constructor */; } } } return false; } } function getContainingObjectLiteral(func) { return (func.kind === 161 /* MethodDeclaration */ || func.kind === 163 /* GetAccessor */ || func.kind === 164 /* SetAccessor */) && func.parent.kind === 193 /* ObjectLiteralExpression */ ? func.parent : func.kind === 201 /* FunctionExpression */ && func.parent.kind === 281 /* PropertyAssignment */ ? func.parent.parent : undefined; } function getThisTypeArgument(type) { return ts.getObjectFlags(type) & 4 /* Reference */ && type.target === globalThisType ? getTypeArguments(type)[0] : undefined; } function getThisTypeFromContextualType(type) { return mapType(type, function (t) { return t.flags & 2097152 /* Intersection */ ? ts.forEach(t.types, getThisTypeArgument) : getThisTypeArgument(t); }); } function getContextualThisParameterType(func) { if (func.kind === 202 /* ArrowFunction */) { return undefined; } if (isContextSensitiveFunctionOrObjectLiteralMethod(func)) { var contextualSignature = getContextualSignature(func); if (contextualSignature) { var thisParameter = contextualSignature.thisParameter; if (thisParameter) { return getTypeOfSymbol(thisParameter); } } } var inJs = ts.isInJSFile(func); if (noImplicitThis || inJs) { var containingLiteral = getContainingObjectLiteral(func); if (containingLiteral) { // We have an object literal method. Check if the containing object literal has a contextual type // that includes a ThisType. If so, T is the contextual type for 'this'. We continue looking in // any directly enclosing object literals. var contextualType = getApparentTypeOfContextualType(containingLiteral); var literal = containingLiteral; var type = contextualType; while (type) { var thisType = getThisTypeFromContextualType(type); if (thisType) { return instantiateType(thisType, getMapperFromContext(getInferenceContext(containingLiteral))); } if (literal.parent.kind !== 281 /* PropertyAssignment */) { break; } literal = literal.parent.parent; type = getApparentTypeOfContextualType(literal); } // There was no contextual ThisType for the containing object literal, so the contextual type // for 'this' is the non-null form of the contextual type for the containing object literal or // the type of the object literal itself. return getWidenedType(contextualType ? getNonNullableType(contextualType) : checkExpressionCached(containingLiteral)); } // In an assignment of the form 'obj.xxx = function(...)' or 'obj[xxx] = function(...)', the // contextual type for 'this' is 'obj'. var parent = ts.walkUpParenthesizedExpressions(func.parent); if (parent.kind === 209 /* BinaryExpression */ && parent.operatorToken.kind === 62 /* EqualsToken */) { var target = parent.left; if (ts.isAccessExpression(target)) { var expression = target.expression; // Don't contextually type `this` as `exports` in `exports.Point = function(x, y) { this.x = x; this.y = y; }` if (inJs && ts.isIdentifier(expression)) { var sourceFile = ts.getSourceFileOfNode(parent); if (sourceFile.commonJsModuleIndicator && getResolvedSymbol(expression) === sourceFile.symbol) { return undefined; } } return getWidenedType(checkExpressionCached(expression)); } } } return undefined; } // Return contextual type of parameter or undefined if no contextual type is available function getContextuallyTypedParameterType(parameter) { var func = parameter.parent; if (!isContextSensitiveFunctionOrObjectLiteralMethod(func)) { return undefined; } var iife = ts.getImmediatelyInvokedFunctionExpression(func); if (iife && iife.arguments) { var args = getEffectiveCallArguments(iife); var indexOfParameter = func.parameters.indexOf(parameter); if (parameter.dotDotDotToken) { return getSpreadArgumentType(args, indexOfParameter, args.length, anyType, /*context*/ undefined); } var links = getNodeLinks(iife); var cached = links.resolvedSignature; links.resolvedSignature = anySignature; var type = indexOfParameter < args.length ? getWidenedLiteralType(checkExpression(args[indexOfParameter])) : parameter.initializer ? undefined : undefinedWideningType; links.resolvedSignature = cached; return type; } var contextualSignature = getContextualSignature(func); if (contextualSignature) { var index = func.parameters.indexOf(parameter) - (ts.getThisParameter(func) ? 1 : 0); return parameter.dotDotDotToken && ts.lastOrUndefined(func.parameters) === parameter ? getRestTypeAtPosition(contextualSignature, index) : tryGetTypeAtPosition(contextualSignature, index); } } function getContextualTypeForVariableLikeDeclaration(declaration) { var typeNode = ts.getEffectiveTypeAnnotationNode(declaration); if (typeNode) { return getTypeFromTypeNode(typeNode); } switch (declaration.kind) { case 156 /* Parameter */: return getContextuallyTypedParameterType(declaration); case 191 /* BindingElement */: return getContextualTypeForBindingElement(declaration); // By default, do nothing and return undefined - only parameters and binding elements have context implied by a parent } } function getContextualTypeForBindingElement(declaration) { var parent = declaration.parent.parent; var name = declaration.propertyName || declaration.name; var parentType = getContextualTypeForVariableLikeDeclaration(parent) || parent.kind !== 191 /* BindingElement */ && parent.initializer && checkDeclarationInitializer(parent); if (parentType && !ts.isBindingPattern(name) && !ts.isComputedNonLiteralName(name)) { var nameType = getLiteralTypeFromPropertyName(name); if (isTypeUsableAsPropertyName(nameType)) { var text = getPropertyNameFromType(nameType); return getTypeOfPropertyOfType(parentType, text); } } } // In a variable, parameter or property declaration with a type annotation, // the contextual type of an initializer expression is the type of the variable, parameter or property. // Otherwise, in a parameter declaration of a contextually typed function expression, // the contextual type of an initializer expression is the contextual type of the parameter. // Otherwise, in a variable or parameter declaration with a binding pattern name, // the contextual type of an initializer expression is the type implied by the binding pattern. // Otherwise, in a binding pattern inside a variable or parameter declaration, // the contextual type of an initializer expression is the type annotation of the containing declaration, if present. function getContextualTypeForInitializerExpression(node) { var declaration = node.parent; if (ts.hasInitializer(declaration) && node === declaration.initializer) { var result = getContextualTypeForVariableLikeDeclaration(declaration); if (result) { return result; } if (ts.isBindingPattern(declaration.name)) { // This is less a contextual type and more an implied shape - in some cases, this may be undesirable return getTypeFromBindingPattern(declaration.name, /*includePatternInType*/ true, /*reportErrors*/ false); } } return undefined; } function getContextualTypeForReturnExpression(node) { var func = ts.getContainingFunction(node); if (func) { var functionFlags = ts.getFunctionFlags(func); if (functionFlags & 1 /* Generator */) { // AsyncGenerator function or Generator function return undefined; } var contextualReturnType = getContextualReturnType(func); if (contextualReturnType) { if (functionFlags & 2 /* Async */) { // Async function var contextualAwaitedType = mapType(contextualReturnType, getAwaitedTypeOfPromise); return contextualAwaitedType && getUnionType([contextualAwaitedType, createPromiseLikeType(contextualAwaitedType)]); } return contextualReturnType; // Regular function } } return undefined; } function getContextualTypeForAwaitOperand(node) { var contextualType = getContextualType(node); if (contextualType) { var contextualAwaitedType = getAwaitedType(contextualType); return contextualAwaitedType && getUnionType([contextualAwaitedType, createPromiseLikeType(contextualAwaitedType)]); } return undefined; } function getContextualTypeForYieldOperand(node) { var func = ts.getContainingFunction(node); if (func) { var functionFlags = ts.getFunctionFlags(func); var contextualReturnType = getContextualReturnType(func); if (contextualReturnType) { return node.asteriskToken ? contextualReturnType : getIterationTypeOfGeneratorFunctionReturnType(0 /* Yield */, contextualReturnType, (functionFlags & 2 /* Async */) !== 0); } } return undefined; } function isInParameterInitializerBeforeContainingFunction(node) { var inBindingInitializer = false; while (node.parent && !ts.isFunctionLike(node.parent)) { if (ts.isParameter(node.parent) && (inBindingInitializer || node.parent.initializer === node)) { return true; } if (ts.isBindingElement(node.parent) && node.parent.initializer === node) { inBindingInitializer = true; } node = node.parent; } return false; } function getContextualIterationType(kind, functionDecl) { var isAsync = !!(ts.getFunctionFlags(functionDecl) & 2 /* Async */); var contextualReturnType = getContextualReturnType(functionDecl); if (contextualReturnType) { return getIterationTypeOfGeneratorFunctionReturnType(kind, contextualReturnType, isAsync) || undefined; } return undefined; } function getContextualReturnType(functionDecl) { // If the containing function has a return type annotation, is a constructor, or is a get accessor whose // corresponding set accessor has a type annotation, return statements in the function are contextually typed var returnType = getReturnTypeFromAnnotation(functionDecl); if (returnType) { return returnType; } // Otherwise, if the containing function is contextually typed by a function type with exactly one call signature // and that call signature is non-generic, return statements are contextually typed by the return type of the signature var signature = getContextualSignatureForFunctionLikeDeclaration(functionDecl); if (signature && !isResolvingReturnTypeOfSignature(signature)) { return getReturnTypeOfSignature(signature); } return undefined; } // In a typed function call, an argument or substitution expression is contextually typed by the type of the corresponding parameter. function getContextualTypeForArgument(callTarget, arg) { var args = getEffectiveCallArguments(callTarget); var argIndex = args.indexOf(arg); // -1 for e.g. the expression of a CallExpression, or the tag of a TaggedTemplateExpression return argIndex === -1 ? undefined : getContextualTypeForArgumentAtIndex(callTarget, argIndex); } function getContextualTypeForArgumentAtIndex(callTarget, argIndex) { // If we're already in the process of resolving the given signature, don't resolve again as // that could cause infinite recursion. Instead, return anySignature. var signature = getNodeLinks(callTarget).resolvedSignature === resolvingSignature ? resolvingSignature : getResolvedSignature(callTarget); if (ts.isJsxOpeningLikeElement(callTarget) && argIndex === 0) { return getEffectiveFirstArgumentForJsxSignature(signature, callTarget); } return getTypeAtPosition(signature, argIndex); } function getContextualTypeForSubstitutionExpression(template, substitutionExpression) { if (template.parent.kind === 198 /* TaggedTemplateExpression */) { return getContextualTypeForArgument(template.parent, substitutionExpression); } return undefined; } function getContextualTypeForBinaryOperand(node, contextFlags) { var binaryExpression = node.parent; var left = binaryExpression.left, operatorToken = binaryExpression.operatorToken, right = binaryExpression.right; switch (operatorToken.kind) { case 62 /* EqualsToken */: if (node !== right) { return undefined; } var contextSensitive = getIsContextSensitiveAssignmentOrContextType(binaryExpression); if (!contextSensitive) { return undefined; } return contextSensitive === true ? getTypeOfExpression(left) : contextSensitive; case 56 /* BarBarToken */: case 60 /* QuestionQuestionToken */: // When an || expression has a contextual type, the operands are contextually typed by that type, except // when that type originates in a binding pattern, the right operand is contextually typed by the type of // the left operand. When an || expression has no contextual type, the right operand is contextually typed // by the type of the left operand, except for the special case of Javascript declarations of the form // `namespace.prop = namespace.prop || {}`. var type = getContextualType(binaryExpression, contextFlags); return node === right && (type && type.pattern || !type && !ts.isDefaultedExpandoInitializer(binaryExpression)) ? getTypeOfExpression(left) : type; case 55 /* AmpersandAmpersandToken */: case 27 /* CommaToken */: return node === right ? getContextualType(binaryExpression, contextFlags) : undefined; default: return undefined; } } // In an assignment expression, the right operand is contextually typed by the type of the left operand. // Don't do this for assignment declarations unless there is a type tag on the assignment, to avoid circularity from checking the right operand. function getIsContextSensitiveAssignmentOrContextType(binaryExpression) { var kind = ts.getAssignmentDeclarationKind(binaryExpression); switch (kind) { case 0 /* None */: return true; case 5 /* Property */: case 1 /* ExportsProperty */: case 6 /* Prototype */: case 3 /* PrototypeProperty */: // If `binaryExpression.left` was assigned a symbol, then this is a new declaration; otherwise it is an assignment to an existing declaration. // See `bindStaticPropertyAssignment` in `binder.ts`. if (!binaryExpression.left.symbol) { return true; } else { var decl = binaryExpression.left.symbol.valueDeclaration; if (!decl) { return false; } var lhs = ts.cast(binaryExpression.left, ts.isAccessExpression); var overallAnnotation = ts.getEffectiveTypeAnnotationNode(decl); if (overallAnnotation) { return getTypeFromTypeNode(overallAnnotation); } else if (ts.isIdentifier(lhs.expression)) { var id = lhs.expression; var parentSymbol = resolveName(id, id.escapedText, 111551 /* Value */, undefined, id.escapedText, /*isUse*/ true); if (parentSymbol) { var annotated = ts.getEffectiveTypeAnnotationNode(parentSymbol.valueDeclaration); if (annotated) { var nameStr_1 = ts.getElementOrPropertyAccessName(lhs); if (nameStr_1 !== undefined) { var type = getTypeOfPropertyOfContextualType(getTypeFromTypeNode(annotated), nameStr_1); return type || false; } } return false; } } return !ts.isInJSFile(decl); } case 2 /* ModuleExports */: case 4 /* ThisProperty */: if (!binaryExpression.symbol) return true; if (binaryExpression.symbol.valueDeclaration) { var annotated = ts.getEffectiveTypeAnnotationNode(binaryExpression.symbol.valueDeclaration); if (annotated) { var type = getTypeFromTypeNode(annotated); if (type) { return type; } } } if (kind === 2 /* ModuleExports */) return false; var thisAccess = ts.cast(binaryExpression.left, ts.isAccessExpression); if (!ts.isObjectLiteralMethod(ts.getThisContainer(thisAccess.expression, /*includeArrowFunctions*/ false))) { return false; } var thisType = checkThisExpression(thisAccess.expression); var nameStr = ts.getElementOrPropertyAccessName(thisAccess); return nameStr !== undefined && thisType && getTypeOfPropertyOfContextualType(thisType, nameStr) || false; case 7 /* ObjectDefinePropertyValue */: case 8 /* ObjectDefinePropertyExports */: case 9 /* ObjectDefinePrototypeProperty */: return ts.Debug.fail("Does not apply"); default: return ts.Debug.assertNever(kind); } } function getTypeOfPropertyOfContextualType(type, name) { return mapType(type, function (t) { if (isGenericMappedType(t)) { var constraint = getConstraintTypeFromMappedType(t); var constraintOfConstraint = getBaseConstraintOfType(constraint) || constraint; var propertyNameType = getLiteralType(ts.unescapeLeadingUnderscores(name)); if (isTypeAssignableTo(propertyNameType, constraintOfConstraint)) { return substituteIndexedMappedType(t, propertyNameType); } } else if (t.flags & 3670016 /* StructuredType */) { var prop = getPropertyOfType(t, name); if (prop) { return getTypeOfSymbol(prop); } if (isTupleType(t)) { var restType = getRestTypeOfTupleType(t); if (restType && isNumericLiteralName(name) && +name >= 0) { return restType; } } return isNumericLiteralName(name) && getIndexTypeOfContextualType(t, 1 /* Number */) || getIndexTypeOfContextualType(t, 0 /* String */); } return undefined; }, /*noReductions*/ true); } function getIndexTypeOfContextualType(type, kind) { return mapType(type, function (t) { return getIndexTypeOfStructuredType(t, kind); }, /*noReductions*/ true); } // In an object literal contextually typed by a type T, the contextual type of a property assignment is the type of // the matching property in T, if one exists. Otherwise, it is the type of the numeric index signature in T, if one // exists. Otherwise, it is the type of the string index signature in T, if one exists. function getContextualTypeForObjectLiteralMethod(node, contextFlags) { ts.Debug.assert(ts.isObjectLiteralMethod(node)); if (node.flags & 16777216 /* InWithStatement */) { // We cannot answer semantic questions within a with block, do not proceed any further return undefined; } return getContextualTypeForObjectLiteralElement(node, contextFlags); } function getContextualTypeForObjectLiteralElement(element, contextFlags) { var objectLiteral = element.parent; var type = getApparentTypeOfContextualType(objectLiteral, contextFlags); if (type) { if (!hasNonBindableDynamicName(element)) { // For a (non-symbol) computed property, there is no reason to look up the name // in the type. It will just be "__computed", which does not appear in any // SymbolTable. var symbolName_3 = getSymbolOfNode(element).escapedName; var propertyType = getTypeOfPropertyOfContextualType(type, symbolName_3); if (propertyType) { return propertyType; } } return isNumericName(element.name) && getIndexTypeOfContextualType(type, 1 /* Number */) || getIndexTypeOfContextualType(type, 0 /* String */); } return undefined; } // In an array literal contextually typed by a type T, the contextual type of an element expression at index N is // the type of the property with the numeric name N in T, if one exists. Otherwise, if T has a numeric index signature, // it is the type of the numeric index signature in T. Otherwise, in ES6 and higher, the contextual type is the iterated // type of T. function getContextualTypeForElementExpression(arrayContextualType, index) { return arrayContextualType && (getTypeOfPropertyOfContextualType(arrayContextualType, "" + index) || getIteratedTypeOrElementType(1 /* Element */, arrayContextualType, undefinedType, /*errorNode*/ undefined, /*checkAssignability*/ false)); } // In a contextually typed conditional expression, the true/false expressions are contextually typed by the same type. function getContextualTypeForConditionalOperand(node, contextFlags) { var conditional = node.parent; return node === conditional.whenTrue || node === conditional.whenFalse ? getContextualType(conditional, contextFlags) : undefined; } function getContextualTypeForChildJsxExpression(node, child) { var attributesType = getApparentTypeOfContextualType(node.openingElement.tagName); // JSX expression is in children of JSX Element, we will look for an "children" atttribute (we get the name from JSX.ElementAttributesProperty) var jsxChildrenPropertyName = getJsxElementChildrenPropertyName(getJsxNamespaceAt(node)); if (!(attributesType && !isTypeAny(attributesType) && jsxChildrenPropertyName && jsxChildrenPropertyName !== "")) { return undefined; } var realChildren = getSemanticJsxChildren(node.children); var childIndex = realChildren.indexOf(child); var childFieldType = getTypeOfPropertyOfContextualType(attributesType, jsxChildrenPropertyName); return childFieldType && (realChildren.length === 1 ? childFieldType : mapType(childFieldType, function (t) { if (isArrayLikeType(t)) { return getIndexedAccessType(t, getLiteralType(childIndex)); } else { return t; } }, /*noReductions*/ true)); } function getContextualTypeForJsxExpression(node) { var exprParent = node.parent; return ts.isJsxAttributeLike(exprParent) ? getContextualType(node) : ts.isJsxElement(exprParent) ? getContextualTypeForChildJsxExpression(exprParent, node) : undefined; } function getContextualTypeForJsxAttribute(attribute) { // When we trying to resolve JsxOpeningLikeElement as a stateless function element, we will already give its attributes a contextual type // which is a type of the parameter of the signature we are trying out. // If there is no contextual type (e.g. we are trying to resolve stateful component), get attributes type from resolving element's tagName if (ts.isJsxAttribute(attribute)) { var attributesType = getApparentTypeOfContextualType(attribute.parent); if (!attributesType || isTypeAny(attributesType)) { return undefined; } return getTypeOfPropertyOfContextualType(attributesType, attribute.name.escapedText); } else { return getContextualType(attribute.parent); } } // Return true if the given expression is possibly a discriminant value. We limit the kinds of // expressions we check to those that don't depend on their contextual type in order not to cause // recursive (and possibly infinite) invocations of getContextualType. function isPossiblyDiscriminantValue(node) { switch (node.kind) { case 10 /* StringLiteral */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 100 /* NullKeyword */: case 75 /* Identifier */: case 146 /* UndefinedKeyword */: return true; case 194 /* PropertyAccessExpression */: case 200 /* ParenthesizedExpression */: return isPossiblyDiscriminantValue(node.expression); case 276 /* JsxExpression */: return !node.expression || isPossiblyDiscriminantValue(node.expression); } return false; } function discriminateContextualTypeByObjectMembers(node, contextualType) { return discriminateTypeByDiscriminableItems(contextualType, ts.map(ts.filter(node.properties, function (p) { return !!p.symbol && p.kind === 281 /* PropertyAssignment */ && isPossiblyDiscriminantValue(p.initializer) && isDiscriminantProperty(contextualType, p.symbol.escapedName); }), function (prop) { return [function () { return checkExpression(prop.initializer); }, prop.symbol.escapedName]; }), isTypeAssignableTo, contextualType); } function discriminateContextualTypeByJSXAttributes(node, contextualType) { return discriminateTypeByDiscriminableItems(contextualType, ts.map(ts.filter(node.properties, function (p) { return !!p.symbol && p.kind === 273 /* JsxAttribute */ && isDiscriminantProperty(contextualType, p.symbol.escapedName) && (!p.initializer || isPossiblyDiscriminantValue(p.initializer)); }), function (prop) { return [!prop.initializer ? (function () { return trueType; }) : (function () { return checkExpression(prop.initializer); }), prop.symbol.escapedName]; }), isTypeAssignableTo, contextualType); } // Return the contextual type for a given expression node. During overload resolution, a contextual type may temporarily // be "pushed" onto a node using the contextualType property. function getApparentTypeOfContextualType(node, contextFlags) { var contextualType = ts.isObjectLiteralMethod(node) ? getContextualTypeForObjectLiteralMethod(node, contextFlags) : getContextualType(node, contextFlags); var instantiatedType = instantiateContextualType(contextualType, node, contextFlags); if (instantiatedType && !(contextFlags && contextFlags & 2 /* NoConstraints */ && instantiatedType.flags & 8650752 /* TypeVariable */)) { var apparentType = mapType(instantiatedType, getApparentType, /*noReductions*/ true); if (apparentType.flags & 1048576 /* Union */) { if (ts.isObjectLiteralExpression(node)) { return discriminateContextualTypeByObjectMembers(node, apparentType); } else if (ts.isJsxAttributes(node)) { return discriminateContextualTypeByJSXAttributes(node, apparentType); } } return apparentType; } } // If the given contextual type contains instantiable types and if a mapper representing // return type inferences is available, instantiate those types using that mapper. function instantiateContextualType(contextualType, node, contextFlags) { if (contextualType && maybeTypeOfKind(contextualType, 63176704 /* Instantiable */)) { var inferenceContext = getInferenceContext(node); // If no inferences have been made, nothing is gained from instantiating as type parameters // would just be replaced with their defaults similar to the apparent type. if (inferenceContext && ts.some(inferenceContext.inferences, hasInferenceCandidates)) { // For contextual signatures we incorporate all inferences made so far, e.g. from return // types as well as arguments to the left in a function call. if (contextFlags && contextFlags & 1 /* Signature */) { return instantiateInstantiableTypes(contextualType, inferenceContext.nonFixingMapper); } // For other purposes (e.g. determining whether to produce literal types) we only // incorporate inferences made from the return type in a function call. if (inferenceContext.returnMapper) { return instantiateInstantiableTypes(contextualType, inferenceContext.returnMapper); } } } return contextualType; } // This function is similar to instantiateType, except that (a) it only instantiates types that // are classified as instantiable (i.e. it doesn't instantiate object types), and (b) it performs // no reductions on instantiated union types. function instantiateInstantiableTypes(type, mapper) { if (type.flags & 63176704 /* Instantiable */) { return instantiateType(type, mapper); } if (type.flags & 1048576 /* Union */) { return getUnionType(ts.map(type.types, function (t) { return instantiateInstantiableTypes(t, mapper); }), 0 /* None */); } if (type.flags & 2097152 /* Intersection */) { return getIntersectionType(ts.map(type.types, function (t) { return instantiateInstantiableTypes(t, mapper); })); } return type; } /** * Whoa! Do you really want to use this function? * * Unless you're trying to get the *non-apparent* type for a * value-literal type or you're authoring relevant portions of this algorithm, * you probably meant to use 'getApparentTypeOfContextualType'. * Otherwise this may not be very useful. * * In cases where you *are* working on this function, you should understand * when it is appropriate to use 'getContextualType' and 'getApparentTypeOfContextualType'. * * - Use 'getContextualType' when you are simply going to propagate the result to the expression. * - Use 'getApparentTypeOfContextualType' when you're going to need the members of the type. * * @param node the expression whose contextual type will be returned. * @returns the contextual type of an expression. */ function getContextualType(node, contextFlags) { if (node.flags & 16777216 /* InWithStatement */) { // We cannot answer semantic questions within a with block, do not proceed any further return undefined; } if (node.contextualType) { return node.contextualType; } var parent = node.parent; switch (parent.kind) { case 242 /* VariableDeclaration */: case 156 /* Parameter */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 191 /* BindingElement */: return getContextualTypeForInitializerExpression(node); case 202 /* ArrowFunction */: case 235 /* ReturnStatement */: return getContextualTypeForReturnExpression(node); case 212 /* YieldExpression */: return getContextualTypeForYieldOperand(parent); case 206 /* AwaitExpression */: return getContextualTypeForAwaitOperand(parent); case 196 /* CallExpression */: if (parent.expression.kind === 96 /* ImportKeyword */) { return stringType; } /* falls through */ case 197 /* NewExpression */: return getContextualTypeForArgument(parent, node); case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: return ts.isConstTypeReference(parent.type) ? undefined : getTypeFromTypeNode(parent.type); case 209 /* BinaryExpression */: return getContextualTypeForBinaryOperand(node, contextFlags); case 281 /* PropertyAssignment */: case 282 /* ShorthandPropertyAssignment */: return getContextualTypeForObjectLiteralElement(parent, contextFlags); case 283 /* SpreadAssignment */: return getApparentTypeOfContextualType(parent.parent, contextFlags); case 192 /* ArrayLiteralExpression */: { var arrayLiteral = parent; var type = getApparentTypeOfContextualType(arrayLiteral, contextFlags); return getContextualTypeForElementExpression(type, ts.indexOfNode(arrayLiteral.elements, node)); } case 210 /* ConditionalExpression */: return getContextualTypeForConditionalOperand(node, contextFlags); case 221 /* TemplateSpan */: ts.Debug.assert(parent.parent.kind === 211 /* TemplateExpression */); return getContextualTypeForSubstitutionExpression(parent.parent, node); case 200 /* ParenthesizedExpression */: { // Like in `checkParenthesizedExpression`, an `/** @type {xyz} */` comment before a parenthesized expression acts as a type cast. var tag = ts.isInJSFile(parent) ? ts.getJSDocTypeTag(parent) : undefined; return tag ? getTypeFromTypeNode(tag.typeExpression.type) : getContextualType(parent, contextFlags); } case 276 /* JsxExpression */: return getContextualTypeForJsxExpression(parent); case 273 /* JsxAttribute */: case 275 /* JsxSpreadAttribute */: return getContextualTypeForJsxAttribute(parent); case 268 /* JsxOpeningElement */: case 267 /* JsxSelfClosingElement */: return getContextualJsxElementAttributesType(parent, contextFlags); } return undefined; } function getInferenceContext(node) { var ancestor = ts.findAncestor(node, function (n) { return !!n.inferenceContext; }); return ancestor && ancestor.inferenceContext; } function getContextualJsxElementAttributesType(node, contextFlags) { if (ts.isJsxOpeningElement(node) && node.parent.contextualType && contextFlags !== 4 /* Completions */) { // Contextually applied type is moved from attributes up to the outer jsx attributes so when walking up from the children they get hit // _However_ to hit them from the _attributes_ we must look for them here; otherwise we'll used the declared type // (as below) instead! return node.parent.contextualType; } return getContextualTypeForArgumentAtIndex(node, 0); } function getEffectiveFirstArgumentForJsxSignature(signature, node) { return getJsxReferenceKind(node) !== 0 /* Component */ ? getJsxPropsTypeFromCallSignature(signature, node) : getJsxPropsTypeFromClassType(signature, node); } function getJsxPropsTypeFromCallSignature(sig, context) { var propsType = getTypeOfFirstParameterOfSignatureWithFallback(sig, unknownType); propsType = getJsxManagedAttributesFromLocatedAttributes(context, getJsxNamespaceAt(context), propsType); var intrinsicAttribs = getJsxType(JsxNames.IntrinsicAttributes, context); if (intrinsicAttribs !== errorType) { propsType = intersectTypes(intrinsicAttribs, propsType); } return propsType; } function getJsxPropsTypeForSignatureFromMember(sig, forcedLookupLocation) { if (sig.unionSignatures) { // JSX Elements using the legacy `props`-field based lookup (eg, react class components) need to treat the `props` member as an input // instead of an output position when resolving the signature. We need to go back to the input signatures of the composite signature, // get the type of `props` on each return type individually, and then _intersect them_, rather than union them (as would normally occur // for a union signature). It's an unfortunate quirk of looking in the output of the signature for the type we want to use for the input. // The default behavior of `getTypeOfFirstParameterOfSignatureWithFallback` when no `props` member name is defined is much more sane. var results = []; for (var _i = 0, _a = sig.unionSignatures; _i < _a.length; _i++) { var signature = _a[_i]; var instance = getReturnTypeOfSignature(signature); if (isTypeAny(instance)) { return instance; } var propType = getTypeOfPropertyOfType(instance, forcedLookupLocation); if (!propType) { return; } results.push(propType); } return getIntersectionType(results); } var instanceType = getReturnTypeOfSignature(sig); return isTypeAny(instanceType) ? instanceType : getTypeOfPropertyOfType(instanceType, forcedLookupLocation); } function getStaticTypeOfReferencedJsxConstructor(context) { if (isJsxIntrinsicIdentifier(context.tagName)) { var result = getIntrinsicAttributesTypeFromJsxOpeningLikeElement(context); var fakeSignature = createSignatureForJSXIntrinsic(context, result); return getOrCreateTypeFromSignature(fakeSignature); } var tagType = checkExpressionCached(context.tagName); if (tagType.flags & 128 /* StringLiteral */) { var result = getIntrinsicAttributesTypeFromStringLiteralType(tagType, context); if (!result) { return errorType; } var fakeSignature = createSignatureForJSXIntrinsic(context, result); return getOrCreateTypeFromSignature(fakeSignature); } return tagType; } function getJsxManagedAttributesFromLocatedAttributes(context, ns, attributesType) { var managedSym = getJsxLibraryManagedAttributes(ns); if (managedSym) { var declaredManagedType = getDeclaredTypeOfSymbol(managedSym); var ctorType = getStaticTypeOfReferencedJsxConstructor(context); if (ts.length(declaredManagedType.typeParameters) >= 2) { var args = fillMissingTypeArguments([ctorType, attributesType], declaredManagedType.typeParameters, 2, ts.isInJSFile(context)); return createTypeReference(declaredManagedType, args); } else if (ts.length(declaredManagedType.aliasTypeArguments) >= 2) { var args = fillMissingTypeArguments([ctorType, attributesType], declaredManagedType.aliasTypeArguments, 2, ts.isInJSFile(context)); return getTypeAliasInstantiation(declaredManagedType.aliasSymbol, args); } } return attributesType; } function getJsxPropsTypeFromClassType(sig, context) { var ns = getJsxNamespaceAt(context); var forcedLookupLocation = getJsxElementPropertiesName(ns); var attributesType = forcedLookupLocation === undefined // If there is no type ElementAttributesProperty, return the type of the first parameter of the signature, which should be the props type ? getTypeOfFirstParameterOfSignatureWithFallback(sig, unknownType) : forcedLookupLocation === "" // If there is no e.g. 'props' member in ElementAttributesProperty, use the element class type instead ? getReturnTypeOfSignature(sig) // Otherwise get the type of the property on the signature return type : getJsxPropsTypeForSignatureFromMember(sig, forcedLookupLocation); if (!attributesType) { // There is no property named 'props' on this instance type if (!!forcedLookupLocation && !!ts.length(context.attributes.properties)) { error(context, ts.Diagnostics.JSX_element_class_does_not_support_attributes_because_it_does_not_have_a_0_property, ts.unescapeLeadingUnderscores(forcedLookupLocation)); } return unknownType; } attributesType = getJsxManagedAttributesFromLocatedAttributes(context, ns, attributesType); if (isTypeAny(attributesType)) { // Props is of type 'any' or unknown return attributesType; } else { // Normal case -- add in IntrinsicClassElements and IntrinsicElements var apparentAttributesType = attributesType; var intrinsicClassAttribs = getJsxType(JsxNames.IntrinsicClassAttributes, context); if (intrinsicClassAttribs !== errorType) { var typeParams = getLocalTypeParametersOfClassOrInterfaceOrTypeAlias(intrinsicClassAttribs.symbol); var hostClassType = getReturnTypeOfSignature(sig); apparentAttributesType = intersectTypes(typeParams ? createTypeReference(intrinsicClassAttribs, fillMissingTypeArguments([hostClassType], typeParams, getMinTypeArgumentCount(typeParams), ts.isInJSFile(context))) : intrinsicClassAttribs, apparentAttributesType); } var intrinsicAttribs = getJsxType(JsxNames.IntrinsicAttributes, context); if (intrinsicAttribs !== errorType) { apparentAttributesType = intersectTypes(intrinsicAttribs, apparentAttributesType); } return apparentAttributesType; } } // If the given type is an object or union type with a single signature, and if that signature has at // least as many parameters as the given function, return the signature. Otherwise return undefined. function getContextualCallSignature(type, node) { var signatures = getSignaturesOfType(type, 0 /* Call */); if (signatures.length === 1) { var signature = signatures[0]; if (!isAritySmaller(signature, node)) { return signature; } } } /** If the contextual signature has fewer parameters than the function expression, do not use it */ function isAritySmaller(signature, target) { var targetParameterCount = 0; for (; targetParameterCount < target.parameters.length; targetParameterCount++) { var param = target.parameters[targetParameterCount]; if (param.initializer || param.questionToken || param.dotDotDotToken || isJSDocOptionalParameter(param)) { break; } } if (target.parameters.length && ts.parameterIsThisKeyword(target.parameters[0])) { targetParameterCount--; } return !hasEffectiveRestParameter(signature) && getParameterCount(signature) < targetParameterCount; } function isFunctionExpressionOrArrowFunction(node) { return node.kind === 201 /* FunctionExpression */ || node.kind === 202 /* ArrowFunction */; } function getContextualSignatureForFunctionLikeDeclaration(node) { // Only function expressions, arrow functions, and object literal methods are contextually typed. return isFunctionExpressionOrArrowFunction(node) || ts.isObjectLiteralMethod(node) ? getContextualSignature(node) : undefined; } // Return the contextual signature for a given expression node. A contextual type provides a // contextual signature if it has a single call signature and if that call signature is non-generic. // If the contextual type is a union type, get the signature from each type possible and if they are // all identical ignoring their return type, the result is same signature but with return type as // union type of return types from these signatures function getContextualSignature(node) { ts.Debug.assert(node.kind !== 161 /* MethodDeclaration */ || ts.isObjectLiteralMethod(node)); var typeTagSignature = getSignatureOfTypeTag(node); if (typeTagSignature) { return typeTagSignature; } var type = getApparentTypeOfContextualType(node, 1 /* Signature */); if (!type) { return undefined; } if (!(type.flags & 1048576 /* Union */)) { return getContextualCallSignature(type, node); } var signatureList; var types = type.types; for (var _i = 0, types_17 = types; _i < types_17.length; _i++) { var current = types_17[_i]; var signature = getContextualCallSignature(current, node); if (signature) { if (!signatureList) { // This signature will contribute to contextual union signature signatureList = [signature]; } else if (!compareSignaturesIdentical(signatureList[0], signature, /*partialMatch*/ false, /*ignoreThisTypes*/ true, /*ignoreReturnTypes*/ true, compareTypesIdentical)) { // Signatures aren't identical, do not use return undefined; } else { // Use this signature for contextual union signature signatureList.push(signature); } } } // Result is union of signatures collected (return type is union of return types of this signature set) if (signatureList) { return signatureList.length === 1 ? signatureList[0] : createUnionSignature(signatureList[0], signatureList); } } function checkSpreadExpression(node, checkMode) { if (languageVersion < 2 /* ES2015 */) { checkExternalEmitHelpers(node, compilerOptions.downlevelIteration ? 1536 /* SpreadIncludes */ : 2048 /* SpreadArrays */); } var arrayOrIterableType = checkExpression(node.expression, checkMode); return checkIteratedTypeOrElementType(33 /* Spread */, arrayOrIterableType, undefinedType, node.expression); } function hasDefaultValue(node) { return (node.kind === 191 /* BindingElement */ && !!node.initializer) || (node.kind === 209 /* BinaryExpression */ && node.operatorToken.kind === 62 /* EqualsToken */); } function checkArrayLiteral(node, checkMode, forceTuple) { var elements = node.elements; var elementCount = elements.length; var elementTypes = []; var hasEndingSpreadElement = false; var hasNonEndingSpreadElement = false; var contextualType = getApparentTypeOfContextualType(node); var inDestructuringPattern = ts.isAssignmentTarget(node); var inConstContext = isConstContext(node); for (var i = 0; i < elementCount; i++) { var e = elements[i]; var spread = e.kind === 213 /* SpreadElement */ && e.expression; var spreadType = spread && checkExpression(spread, checkMode, forceTuple); if (spreadType && isTupleType(spreadType)) { elementTypes.push.apply(elementTypes, getTypeArguments(spreadType)); if (spreadType.target.hasRestElement) { if (i === elementCount - 1) hasEndingSpreadElement = true; else hasNonEndingSpreadElement = true; } } else { if (inDestructuringPattern && spreadType) { // Given the following situation: // var c: {}; // [...c] = ["", 0]; // // c is represented in the tree as a spread element in an array literal. // But c really functions as a rest element, and its purpose is to provide // a contextual type for the right hand side of the assignment. Therefore, // instead of calling checkExpression on "...c", which will give an error // if c is not iterable/array-like, we need to act as if we are trying to // get the contextual element type from it. So we do something similar to // getContextualTypeForElementExpression, which will crucially not error // if there is no index type / iterated type. var restElementType = getIndexTypeOfType(spreadType, 1 /* Number */) || getIteratedTypeOrElementType(65 /* Destructuring */, spreadType, undefinedType, /*errorNode*/ undefined, /*checkAssignability*/ false); if (restElementType) { elementTypes.push(restElementType); } } else { var elementContextualType = getContextualTypeForElementExpression(contextualType, elementTypes.length); var type = checkExpressionForMutableLocation(e, checkMode, elementContextualType, forceTuple); elementTypes.push(type); } if (spread) { // tuples are done above, so these are only arrays if (i === elementCount - 1) hasEndingSpreadElement = true; else hasNonEndingSpreadElement = true; } } } if (!hasNonEndingSpreadElement) { var minLength = elementTypes.length - (hasEndingSpreadElement ? 1 : 0); // If array literal is actually a destructuring pattern, mark it as an implied type. We do this such // that we get the same behavior for "var [x, y] = []" and "[x, y] = []". var tupleResult = void 0; if (inDestructuringPattern && minLength > 0) { var type = cloneTypeReference(createTupleType(elementTypes, minLength, hasEndingSpreadElement)); type.pattern = node; return type; } else if (tupleResult = getArrayLiteralTupleTypeIfApplicable(elementTypes, contextualType, hasEndingSpreadElement, elementTypes.length, inConstContext)) { return createArrayLiteralType(tupleResult); } else if (forceTuple) { return createArrayLiteralType(createTupleType(elementTypes, minLength, hasEndingSpreadElement)); } } return createArrayLiteralType(createArrayType(elementTypes.length ? getUnionType(elementTypes, 2 /* Subtype */) : strictNullChecks ? implicitNeverType : undefinedWideningType, inConstContext)); } function createArrayLiteralType(type) { if (!(ts.getObjectFlags(type) & 4 /* Reference */)) { return type; } var literalType = type.literalType; if (!literalType) { literalType = type.literalType = cloneTypeReference(type); literalType.objectFlags |= 65536 /* ArrayLiteral */ | 1048576 /* ContainsObjectOrArrayLiteral */; } return literalType; } function getArrayLiteralTupleTypeIfApplicable(elementTypes, contextualType, hasRestElement, elementCount, readonly) { if (elementCount === void 0) { elementCount = elementTypes.length; } if (readonly === void 0) { readonly = false; } // Infer a tuple type when the contextual type is or contains a tuple-like type if (readonly || (contextualType && forEachType(contextualType, isTupleLikeType))) { return createTupleType(elementTypes, elementCount - (hasRestElement ? 1 : 0), hasRestElement, readonly); } } function isNumericName(name) { switch (name.kind) { case 154 /* ComputedPropertyName */: return isNumericComputedName(name); case 75 /* Identifier */: return isNumericLiteralName(name.escapedText); case 8 /* NumericLiteral */: case 10 /* StringLiteral */: return isNumericLiteralName(name.text); default: return false; } } function isNumericComputedName(name) { // It seems odd to consider an expression of type Any to result in a numeric name, // but this behavior is consistent with checkIndexedAccess return isTypeAssignableToKind(checkComputedPropertyName(name), 296 /* NumberLike */); } function isInfinityOrNaNString(name) { return name === "Infinity" || name === "-Infinity" || name === "NaN"; } function isNumericLiteralName(name) { // The intent of numeric names is that // - they are names with text in a numeric form, and that // - setting properties/indexing with them is always equivalent to doing so with the numeric literal 'numLit', // acquired by applying the abstract 'ToNumber' operation on the name's text. // // The subtlety is in the latter portion, as we cannot reliably say that anything that looks like a numeric literal is a numeric name. // In fact, it is the case that the text of the name must be equal to 'ToString(numLit)' for this to hold. // // Consider the property name '"0xF00D"'. When one indexes with '0xF00D', they are actually indexing with the value of 'ToString(0xF00D)' // according to the ECMAScript specification, so it is actually as if the user indexed with the string '"61453"'. // Thus, the text of all numeric literals equivalent to '61543' such as '0xF00D', '0xf00D', '0170015', etc. are not valid numeric names // because their 'ToString' representation is not equal to their original text. // This is motivated by ECMA-262 sections 9.3.1, 9.8.1, 11.1.5, and 11.2.1. // // Here, we test whether 'ToString(ToNumber(name))' is exactly equal to 'name'. // The '+' prefix operator is equivalent here to applying the abstract ToNumber operation. // Applying the 'toString()' method on a number gives us the abstract ToString operation on a number. // // Note that this accepts the values 'Infinity', '-Infinity', and 'NaN', and that this is intentional. // This is desired behavior, because when indexing with them as numeric entities, you are indexing // with the strings '"Infinity"', '"-Infinity"', and '"NaN"' respectively. return (+name).toString() === name; } function checkComputedPropertyName(node) { var links = getNodeLinks(node.expression); if (!links.resolvedType) { links.resolvedType = checkExpression(node.expression); // This will allow types number, string, symbol or any. It will also allow enums, the unknown // type, and any union of these types (like string | number). if (links.resolvedType.flags & 98304 /* Nullable */ || !isTypeAssignableToKind(links.resolvedType, 132 /* StringLike */ | 296 /* NumberLike */ | 12288 /* ESSymbolLike */) && !isTypeAssignableTo(links.resolvedType, stringNumberSymbolType)) { error(node, ts.Diagnostics.A_computed_property_name_must_be_of_type_string_number_symbol_or_any); } else { checkThatExpressionIsProperSymbolReference(node.expression, links.resolvedType, /*reportError*/ true); } } return links.resolvedType; } function getObjectLiteralIndexInfo(node, offset, properties, kind) { var propTypes = []; for (var i = 0; i < properties.length; i++) { if (kind === 0 /* String */ || isNumericName(node.properties[i + offset].name)) { propTypes.push(getTypeOfSymbol(properties[i])); } } var unionType = propTypes.length ? getUnionType(propTypes, 2 /* Subtype */) : undefinedType; return createIndexInfo(unionType, isConstContext(node)); } function getImmediateAliasedSymbol(symbol) { ts.Debug.assert((symbol.flags & 2097152 /* Alias */) !== 0, "Should only get Alias here."); var links = getSymbolLinks(symbol); if (!links.immediateTarget) { var node = getDeclarationOfAliasSymbol(symbol); if (!node) return ts.Debug.fail(); links.immediateTarget = getTargetOfAliasDeclaration(node, /*dontRecursivelyResolve*/ true); } return links.immediateTarget; } function checkObjectLiteral(node, checkMode) { var inDestructuringPattern = ts.isAssignmentTarget(node); // Grammar checking checkGrammarObjectLiteralExpression(node, inDestructuringPattern); var allPropertiesTable = strictNullChecks ? ts.createSymbolTable() : undefined; var propertiesTable = ts.createSymbolTable(); var propertiesArray = []; var spread = emptyObjectType; var contextualType = getApparentTypeOfContextualType(node); var contextualTypeHasPattern = contextualType && contextualType.pattern && (contextualType.pattern.kind === 189 /* ObjectBindingPattern */ || contextualType.pattern.kind === 193 /* ObjectLiteralExpression */); var inConstContext = isConstContext(node); var checkFlags = inConstContext ? 8 /* Readonly */ : 0; var isInJavascript = ts.isInJSFile(node) && !ts.isInJsonFile(node); var enumTag = ts.getJSDocEnumTag(node); var isJSObjectLiteral = !contextualType && isInJavascript && !enumTag; var objectFlags = freshObjectLiteralFlag; var patternWithComputedProperties = false; var hasComputedStringProperty = false; var hasComputedNumberProperty = false; // Spreads may cause an early bail; ensure computed names are always checked (this is cached) // As otherwise they may not be checked until exports for the type at this position are retrieved, // which may never occur. for (var _i = 0, _a = node.properties; _i < _a.length; _i++) { var elem = _a[_i]; if (elem.name && ts.isComputedPropertyName(elem.name) && !ts.isWellKnownSymbolSyntactically(elem.name)) { checkComputedPropertyName(elem.name); } } var offset = 0; for (var i = 0; i < node.properties.length; i++) { var memberDecl = node.properties[i]; var member = getSymbolOfNode(memberDecl); var computedNameType = memberDecl.name && memberDecl.name.kind === 154 /* ComputedPropertyName */ && !ts.isWellKnownSymbolSyntactically(memberDecl.name.expression) ? checkComputedPropertyName(memberDecl.name) : undefined; if (memberDecl.kind === 281 /* PropertyAssignment */ || memberDecl.kind === 282 /* ShorthandPropertyAssignment */ || ts.isObjectLiteralMethod(memberDecl)) { var type = memberDecl.kind === 281 /* PropertyAssignment */ ? checkPropertyAssignment(memberDecl, checkMode) : memberDecl.kind === 282 /* ShorthandPropertyAssignment */ ? checkExpressionForMutableLocation(memberDecl.name, checkMode) : checkObjectLiteralMethod(memberDecl, checkMode); if (isInJavascript) { var jsDocType = getTypeForDeclarationFromJSDocComment(memberDecl); if (jsDocType) { checkTypeAssignableTo(type, jsDocType, memberDecl); type = jsDocType; } else if (enumTag && enumTag.typeExpression) { checkTypeAssignableTo(type, getTypeFromTypeNode(enumTag.typeExpression), memberDecl); } } objectFlags |= ts.getObjectFlags(type) & 3670016 /* PropagatingFlags */; var nameType = computedNameType && isTypeUsableAsPropertyName(computedNameType) ? computedNameType : undefined; var prop = nameType ? createSymbol(4 /* Property */ | member.flags, getPropertyNameFromType(nameType), checkFlags | 4096 /* Late */) : createSymbol(4 /* Property */ | member.flags, member.escapedName, checkFlags); if (nameType) { prop.nameType = nameType; } if (inDestructuringPattern) { // If object literal is an assignment pattern and if the assignment pattern specifies a default value // for the property, make the property optional. var isOptional = (memberDecl.kind === 281 /* PropertyAssignment */ && hasDefaultValue(memberDecl.initializer)) || (memberDecl.kind === 282 /* ShorthandPropertyAssignment */ && memberDecl.objectAssignmentInitializer); if (isOptional) { prop.flags |= 16777216 /* Optional */; } } else if (contextualTypeHasPattern && !(ts.getObjectFlags(contextualType) & 512 /* ObjectLiteralPatternWithComputedProperties */)) { // If object literal is contextually typed by the implied type of a binding pattern, and if the // binding pattern specifies a default value for the property, make the property optional. var impliedProp = getPropertyOfType(contextualType, member.escapedName); if (impliedProp) { prop.flags |= impliedProp.flags & 16777216 /* Optional */; } else if (!compilerOptions.suppressExcessPropertyErrors && !getIndexInfoOfType(contextualType, 0 /* String */)) { error(memberDecl.name, ts.Diagnostics.Object_literal_may_only_specify_known_properties_and_0_does_not_exist_in_type_1, symbolToString(member), typeToString(contextualType)); } } prop.declarations = member.declarations; prop.parent = member.parent; if (member.valueDeclaration) { prop.valueDeclaration = member.valueDeclaration; } prop.type = type; prop.target = member; member = prop; allPropertiesTable === null || allPropertiesTable === void 0 ? void 0 : allPropertiesTable.set(prop.escapedName, prop); } else if (memberDecl.kind === 283 /* SpreadAssignment */) { if (languageVersion < 2 /* ES2015 */) { checkExternalEmitHelpers(memberDecl, 2 /* Assign */); } if (propertiesArray.length > 0) { spread = getSpreadType(spread, createObjectLiteralType(), node.symbol, objectFlags, inConstContext); propertiesArray = []; propertiesTable = ts.createSymbolTable(); hasComputedStringProperty = false; hasComputedNumberProperty = false; } var type = getReducedType(checkExpression(memberDecl.expression)); if (!isValidSpreadType(type)) { error(memberDecl, ts.Diagnostics.Spread_types_may_only_be_created_from_object_types); return errorType; } if (allPropertiesTable) { checkSpreadPropOverrides(type, allPropertiesTable, memberDecl); } spread = getSpreadType(spread, type, node.symbol, objectFlags, inConstContext); offset = i + 1; continue; } else { // TypeScript 1.0 spec (April 2014) // A get accessor declaration is processed in the same manner as // an ordinary function declaration(section 6.1) with no parameters. // A set accessor declaration is processed in the same manner // as an ordinary function declaration with a single parameter and a Void return type. ts.Debug.assert(memberDecl.kind === 163 /* GetAccessor */ || memberDecl.kind === 164 /* SetAccessor */); checkNodeDeferred(memberDecl); } if (computedNameType && !(computedNameType.flags & 8576 /* StringOrNumberLiteralOrUnique */)) { if (isTypeAssignableTo(computedNameType, stringNumberSymbolType)) { if (isTypeAssignableTo(computedNameType, numberType)) { hasComputedNumberProperty = true; } else { hasComputedStringProperty = true; } if (inDestructuringPattern) { patternWithComputedProperties = true; } } } else { propertiesTable.set(member.escapedName, member); } propertiesArray.push(member); } // If object literal is contextually typed by the implied type of a binding pattern, augment the result // type with those properties for which the binding pattern specifies a default value. // If the object literal is spread into another object literal, skip this step and let the top-level object // literal handle it instead. if (contextualTypeHasPattern && node.parent.kind !== 283 /* SpreadAssignment */) { for (var _b = 0, _c = getPropertiesOfType(contextualType); _b < _c.length; _b++) { var prop = _c[_b]; if (!propertiesTable.get(prop.escapedName) && !getPropertyOfType(spread, prop.escapedName)) { if (!(prop.flags & 16777216 /* Optional */)) { error(prop.valueDeclaration || prop.bindingElement, ts.Diagnostics.Initializer_provides_no_value_for_this_binding_element_and_the_binding_element_has_no_default_value); } propertiesTable.set(prop.escapedName, prop); propertiesArray.push(prop); } } } if (spread !== emptyObjectType) { if (propertiesArray.length > 0) { spread = getSpreadType(spread, createObjectLiteralType(), node.symbol, objectFlags, inConstContext); propertiesArray = []; propertiesTable = ts.createSymbolTable(); hasComputedStringProperty = false; hasComputedNumberProperty = false; } // remap the raw emptyObjectType fed in at the top into a fresh empty object literal type, unique to this use site return mapType(spread, function (t) { return t === emptyObjectType ? createObjectLiteralType() : t; }); } return createObjectLiteralType(); function createObjectLiteralType() { var stringIndexInfo = hasComputedStringProperty ? getObjectLiteralIndexInfo(node, offset, propertiesArray, 0 /* String */) : undefined; var numberIndexInfo = hasComputedNumberProperty ? getObjectLiteralIndexInfo(node, offset, propertiesArray, 1 /* Number */) : undefined; var result = createAnonymousType(node.symbol, propertiesTable, ts.emptyArray, ts.emptyArray, stringIndexInfo, numberIndexInfo); result.objectFlags |= objectFlags | 128 /* ObjectLiteral */ | 1048576 /* ContainsObjectOrArrayLiteral */; if (isJSObjectLiteral) { result.objectFlags |= 16384 /* JSLiteral */; } if (patternWithComputedProperties) { result.objectFlags |= 512 /* ObjectLiteralPatternWithComputedProperties */; } if (inDestructuringPattern) { result.pattern = node; } return result; } } function isValidSpreadType(type) { if (type.flags & 63176704 /* Instantiable */) { var constraint = getBaseConstraintOfType(type); if (constraint !== undefined) { return isValidSpreadType(constraint); } } return !!(type.flags & (1 /* Any */ | 67108864 /* NonPrimitive */ | 524288 /* Object */ | 58982400 /* InstantiableNonPrimitive */) || getFalsyFlags(type) & 117632 /* DefinitelyFalsy */ && isValidSpreadType(removeDefinitelyFalsyTypes(type)) || type.flags & 3145728 /* UnionOrIntersection */ && ts.every(type.types, isValidSpreadType)); } function checkJsxSelfClosingElementDeferred(node) { checkJsxOpeningLikeElementOrOpeningFragment(node); resolveUntypedCall(node); // ensure type arguments and parameters are typechecked, even if there is an arity error } function checkJsxSelfClosingElement(node, _checkMode) { checkNodeDeferred(node); return getJsxElementTypeAt(node) || anyType; } function checkJsxElementDeferred(node) { // Check attributes checkJsxOpeningLikeElementOrOpeningFragment(node.openingElement); // Perform resolution on the closing tag so that rename/go to definition/etc work if (isJsxIntrinsicIdentifier(node.closingElement.tagName)) { getIntrinsicTagSymbol(node.closingElement); } else { checkExpression(node.closingElement.tagName); } checkJsxChildren(node); } function checkJsxElement(node, _checkMode) { checkNodeDeferred(node); return getJsxElementTypeAt(node) || anyType; } function checkJsxFragment(node) { checkJsxOpeningLikeElementOrOpeningFragment(node.openingFragment); if (compilerOptions.jsx === 2 /* React */ && (compilerOptions.jsxFactory || ts.getSourceFileOfNode(node).pragmas.has("jsx"))) { error(node, compilerOptions.jsxFactory ? ts.Diagnostics.JSX_fragment_is_not_supported_when_using_jsxFactory : ts.Diagnostics.JSX_fragment_is_not_supported_when_using_an_inline_JSX_factory_pragma); } checkJsxChildren(node); return getJsxElementTypeAt(node) || anyType; } /** * Returns true iff the JSX element name would be a valid JS identifier, ignoring restrictions about keywords not being identifiers */ function isUnhyphenatedJsxName(name) { // - is the only character supported in JSX attribute names that isn't valid in JavaScript identifiers return !ts.stringContains(name, "-"); } /** * Returns true iff React would emit this tag name as a string rather than an identifier or qualified name */ function isJsxIntrinsicIdentifier(tagName) { return tagName.kind === 75 /* Identifier */ && ts.isIntrinsicJsxName(tagName.escapedText); } function checkJsxAttribute(node, checkMode) { return node.initializer ? checkExpressionForMutableLocation(node.initializer, checkMode) : trueType; // is sugar for } /** * Get attributes type of the JSX opening-like element. The result is from resolving "attributes" property of the opening-like element. * * @param openingLikeElement a JSX opening-like element * @param filter a function to remove attributes that will not participate in checking whether attributes are assignable * @return an anonymous type (similar to the one returned by checkObjectLiteral) in which its properties are attributes property. * @remarks Because this function calls getSpreadType, it needs to use the same checks as checkObjectLiteral, * which also calls getSpreadType. */ function createJsxAttributesTypeFromAttributesProperty(openingLikeElement, checkMode) { var attributes = openingLikeElement.attributes; var allAttributesTable = strictNullChecks ? ts.createSymbolTable() : undefined; var attributesTable = ts.createSymbolTable(); var spread = emptyJsxObjectType; var hasSpreadAnyType = false; var typeToIntersect; var explicitlySpecifyChildrenAttribute = false; var objectFlags = 4096 /* JsxAttributes */; var jsxChildrenPropertyName = getJsxElementChildrenPropertyName(getJsxNamespaceAt(openingLikeElement)); for (var _i = 0, _a = attributes.properties; _i < _a.length; _i++) { var attributeDecl = _a[_i]; var member = attributeDecl.symbol; if (ts.isJsxAttribute(attributeDecl)) { var exprType = checkJsxAttribute(attributeDecl, checkMode); objectFlags |= ts.getObjectFlags(exprType) & 3670016 /* PropagatingFlags */; var attributeSymbol = createSymbol(4 /* Property */ | 33554432 /* Transient */ | member.flags, member.escapedName); attributeSymbol.declarations = member.declarations; attributeSymbol.parent = member.parent; if (member.valueDeclaration) { attributeSymbol.valueDeclaration = member.valueDeclaration; } attributeSymbol.type = exprType; attributeSymbol.target = member; attributesTable.set(attributeSymbol.escapedName, attributeSymbol); allAttributesTable === null || allAttributesTable === void 0 ? void 0 : allAttributesTable.set(attributeSymbol.escapedName, attributeSymbol); if (attributeDecl.name.escapedText === jsxChildrenPropertyName) { explicitlySpecifyChildrenAttribute = true; } } else { ts.Debug.assert(attributeDecl.kind === 275 /* JsxSpreadAttribute */); if (attributesTable.size > 0) { spread = getSpreadType(spread, createJsxAttributesType(), attributes.symbol, objectFlags, /*readonly*/ false); attributesTable = ts.createSymbolTable(); } var exprType = getReducedType(checkExpressionCached(attributeDecl.expression, checkMode)); if (isTypeAny(exprType)) { hasSpreadAnyType = true; } if (isValidSpreadType(exprType)) { spread = getSpreadType(spread, exprType, attributes.symbol, objectFlags, /*readonly*/ false); if (allAttributesTable) { checkSpreadPropOverrides(exprType, allAttributesTable, attributeDecl); } } else { typeToIntersect = typeToIntersect ? getIntersectionType([typeToIntersect, exprType]) : exprType; } } } if (!hasSpreadAnyType) { if (attributesTable.size > 0) { spread = getSpreadType(spread, createJsxAttributesType(), attributes.symbol, objectFlags, /*readonly*/ false); } } // Handle children attribute var parent = openingLikeElement.parent.kind === 266 /* JsxElement */ ? openingLikeElement.parent : undefined; // We have to check that openingElement of the parent is the one we are visiting as this may not be true for selfClosingElement if (parent && parent.openingElement === openingLikeElement && parent.children.length > 0) { var childrenTypes = checkJsxChildren(parent, checkMode); if (!hasSpreadAnyType && jsxChildrenPropertyName && jsxChildrenPropertyName !== "") { // Error if there is a attribute named "children" explicitly specified and children element. // This is because children element will overwrite the value from attributes. // Note: we will not warn "children" attribute overwritten if "children" attribute is specified in object spread. if (explicitlySpecifyChildrenAttribute) { error(attributes, ts.Diagnostics._0_are_specified_twice_The_attribute_named_0_will_be_overwritten, ts.unescapeLeadingUnderscores(jsxChildrenPropertyName)); } var contextualType = getApparentTypeOfContextualType(openingLikeElement.attributes); var childrenContextualType = contextualType && getTypeOfPropertyOfContextualType(contextualType, jsxChildrenPropertyName); // If there are children in the body of JSX element, create dummy attribute "children" with the union of children types so that it will pass the attribute checking process var childrenPropSymbol = createSymbol(4 /* Property */ | 33554432 /* Transient */, jsxChildrenPropertyName); childrenPropSymbol.type = childrenTypes.length === 1 ? childrenTypes[0] : (getArrayLiteralTupleTypeIfApplicable(childrenTypes, childrenContextualType, /*hasRestElement*/ false) || createArrayType(getUnionType(childrenTypes))); // Fake up a property declaration for the children childrenPropSymbol.valueDeclaration = ts.createPropertySignature(/*modifiers*/ undefined, ts.unescapeLeadingUnderscores(jsxChildrenPropertyName), /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined); childrenPropSymbol.valueDeclaration.parent = attributes; childrenPropSymbol.valueDeclaration.symbol = childrenPropSymbol; var childPropMap = ts.createSymbolTable(); childPropMap.set(jsxChildrenPropertyName, childrenPropSymbol); spread = getSpreadType(spread, createAnonymousType(attributes.symbol, childPropMap, ts.emptyArray, ts.emptyArray, /*stringIndexInfo*/ undefined, /*numberIndexInfo*/ undefined), attributes.symbol, objectFlags, /*readonly*/ false); } } if (hasSpreadAnyType) { return anyType; } if (typeToIntersect && spread !== emptyJsxObjectType) { return getIntersectionType([typeToIntersect, spread]); } return typeToIntersect || (spread === emptyJsxObjectType ? createJsxAttributesType() : spread); /** * Create anonymous type from given attributes symbol table. * @param symbol a symbol of JsxAttributes containing attributes corresponding to attributesTable * @param attributesTable a symbol table of attributes property */ function createJsxAttributesType() { objectFlags |= freshObjectLiteralFlag; var result = createAnonymousType(attributes.symbol, attributesTable, ts.emptyArray, ts.emptyArray, /*stringIndexInfo*/ undefined, /*numberIndexInfo*/ undefined); result.objectFlags |= objectFlags | 128 /* ObjectLiteral */ | 1048576 /* ContainsObjectOrArrayLiteral */; return result; } } function checkJsxChildren(node, checkMode) { var childrenTypes = []; for (var _i = 0, _a = node.children; _i < _a.length; _i++) { var child = _a[_i]; // In React, JSX text that contains only whitespaces will be ignored so we don't want to type-check that // because then type of children property will have constituent of string type. if (child.kind === 11 /* JsxText */) { if (!child.containsOnlyTriviaWhiteSpaces) { childrenTypes.push(stringType); } } else { childrenTypes.push(checkExpressionForMutableLocation(child, checkMode)); } } return childrenTypes; } function checkSpreadPropOverrides(type, props, spread) { for (var _i = 0, _a = getPropertiesOfType(type); _i < _a.length; _i++) { var right = _a[_i]; var left = props.get(right.escapedName); var rightType = getTypeOfSymbol(right); if (left && !maybeTypeOfKind(rightType, 98304 /* Nullable */) && !(maybeTypeOfKind(rightType, 1 /* Any */) && right.flags & 16777216 /* Optional */)) { var diagnostic = error(left.valueDeclaration, ts.Diagnostics._0_is_specified_more_than_once_so_this_usage_will_be_overwritten, ts.unescapeLeadingUnderscores(left.escapedName)); ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(spread, ts.Diagnostics.This_spread_always_overwrites_this_property)); } } } /** * Check attributes property of opening-like element. This function is called during chooseOverload to get call signature of a JSX opening-like element. * (See "checkApplicableSignatureForJsxOpeningLikeElement" for how the function is used) * @param node a JSXAttributes to be resolved of its type */ function checkJsxAttributes(node, checkMode) { return createJsxAttributesTypeFromAttributesProperty(node.parent, checkMode); } function getJsxType(name, location) { var namespace = getJsxNamespaceAt(location); var exports = namespace && getExportsOfSymbol(namespace); var typeSymbol = exports && getSymbol(exports, name, 788968 /* Type */); return typeSymbol ? getDeclaredTypeOfSymbol(typeSymbol) : errorType; } /** * Looks up an intrinsic tag name and returns a symbol that either points to an intrinsic * property (in which case nodeLinks.jsxFlags will be IntrinsicNamedElement) or an intrinsic * string index signature (in which case nodeLinks.jsxFlags will be IntrinsicIndexedElement). * May also return unknownSymbol if both of these lookups fail. */ function getIntrinsicTagSymbol(node) { var links = getNodeLinks(node); if (!links.resolvedSymbol) { var intrinsicElementsType = getJsxType(JsxNames.IntrinsicElements, node); if (intrinsicElementsType !== errorType) { // Property case if (!ts.isIdentifier(node.tagName)) return ts.Debug.fail(); var intrinsicProp = getPropertyOfType(intrinsicElementsType, node.tagName.escapedText); if (intrinsicProp) { links.jsxFlags |= 1 /* IntrinsicNamedElement */; return links.resolvedSymbol = intrinsicProp; } // Intrinsic string indexer case var indexSignatureType = getIndexTypeOfType(intrinsicElementsType, 0 /* String */); if (indexSignatureType) { links.jsxFlags |= 2 /* IntrinsicIndexedElement */; return links.resolvedSymbol = intrinsicElementsType.symbol; } // Wasn't found error(node, ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.idText(node.tagName), "JSX." + JsxNames.IntrinsicElements); return links.resolvedSymbol = unknownSymbol; } else { if (noImplicitAny) { error(node, ts.Diagnostics.JSX_element_implicitly_has_type_any_because_no_interface_JSX_0_exists, ts.unescapeLeadingUnderscores(JsxNames.IntrinsicElements)); } return links.resolvedSymbol = unknownSymbol; } } return links.resolvedSymbol; } function getJsxNamespaceAt(location) { var links = location && getNodeLinks(location); if (links && links.jsxNamespace) { return links.jsxNamespace; } if (!links || links.jsxNamespace !== false) { var namespaceName = getJsxNamespace(location); var resolvedNamespace = resolveName(location, namespaceName, 1920 /* Namespace */, /*diagnosticMessage*/ undefined, namespaceName, /*isUse*/ false); if (resolvedNamespace) { var candidate = resolveSymbol(getSymbol(getExportsOfSymbol(resolveSymbol(resolvedNamespace)), JsxNames.JSX, 1920 /* Namespace */)); if (candidate) { if (links) { links.jsxNamespace = candidate; } return candidate; } if (links) { links.jsxNamespace = false; } } } // JSX global fallback return getGlobalSymbol(JsxNames.JSX, 1920 /* Namespace */, /*diagnosticMessage*/ undefined); // TODO: GH#18217 } /** * Look into JSX namespace and then look for container with matching name as nameOfAttribPropContainer. * Get a single property from that container if existed. Report an error if there are more than one property. * * @param nameOfAttribPropContainer a string of value JsxNames.ElementAttributesPropertyNameContainer or JsxNames.ElementChildrenAttributeNameContainer * if other string is given or the container doesn't exist, return undefined. */ function getNameFromJsxElementAttributesContainer(nameOfAttribPropContainer, jsxNamespace) { // JSX.ElementAttributesProperty | JSX.ElementChildrenAttribute [symbol] var jsxElementAttribPropInterfaceSym = jsxNamespace && getSymbol(jsxNamespace.exports, nameOfAttribPropContainer, 788968 /* Type */); // JSX.ElementAttributesProperty | JSX.ElementChildrenAttribute [type] var jsxElementAttribPropInterfaceType = jsxElementAttribPropInterfaceSym && getDeclaredTypeOfSymbol(jsxElementAttribPropInterfaceSym); // The properties of JSX.ElementAttributesProperty | JSX.ElementChildrenAttribute var propertiesOfJsxElementAttribPropInterface = jsxElementAttribPropInterfaceType && getPropertiesOfType(jsxElementAttribPropInterfaceType); if (propertiesOfJsxElementAttribPropInterface) { // Element Attributes has zero properties, so the element attributes type will be the class instance type if (propertiesOfJsxElementAttribPropInterface.length === 0) { return ""; } // Element Attributes has one property, so the element attributes type will be the type of the corresponding // property of the class instance type else if (propertiesOfJsxElementAttribPropInterface.length === 1) { return propertiesOfJsxElementAttribPropInterface[0].escapedName; } else if (propertiesOfJsxElementAttribPropInterface.length > 1) { // More than one property on ElementAttributesProperty is an error error(jsxElementAttribPropInterfaceSym.declarations[0], ts.Diagnostics.The_global_type_JSX_0_may_not_have_more_than_one_property, ts.unescapeLeadingUnderscores(nameOfAttribPropContainer)); } } return undefined; } function getJsxLibraryManagedAttributes(jsxNamespace) { // JSX.LibraryManagedAttributes [symbol] return jsxNamespace && getSymbol(jsxNamespace.exports, JsxNames.LibraryManagedAttributes, 788968 /* Type */); } /// e.g. "props" for React.d.ts, /// or 'undefined' if ElementAttributesProperty doesn't exist (which means all /// non-intrinsic elements' attributes type is 'any'), /// or '' if it has 0 properties (which means every /// non-intrinsic elements' attributes type is the element instance type) function getJsxElementPropertiesName(jsxNamespace) { return getNameFromJsxElementAttributesContainer(JsxNames.ElementAttributesPropertyNameContainer, jsxNamespace); } function getJsxElementChildrenPropertyName(jsxNamespace) { return getNameFromJsxElementAttributesContainer(JsxNames.ElementChildrenAttributeNameContainer, jsxNamespace); } function getUninstantiatedJsxSignaturesOfType(elementType, caller) { if (elementType.flags & 4 /* String */) { return [anySignature]; } else if (elementType.flags & 128 /* StringLiteral */) { var intrinsicType = getIntrinsicAttributesTypeFromStringLiteralType(elementType, caller); if (!intrinsicType) { error(caller, ts.Diagnostics.Property_0_does_not_exist_on_type_1, elementType.value, "JSX." + JsxNames.IntrinsicElements); return ts.emptyArray; } else { var fakeSignature = createSignatureForJSXIntrinsic(caller, intrinsicType); return [fakeSignature]; } } var apparentElemType = getApparentType(elementType); // Resolve the signatures, preferring constructor var signatures = getSignaturesOfType(apparentElemType, 1 /* Construct */); if (signatures.length === 0) { // No construct signatures, try call signatures signatures = getSignaturesOfType(apparentElemType, 0 /* Call */); } if (signatures.length === 0 && apparentElemType.flags & 1048576 /* Union */) { // If each member has some combination of new/call signatures; make a union signature list for those signatures = getUnionSignatures(ts.map(apparentElemType.types, function (t) { return getUninstantiatedJsxSignaturesOfType(t, caller); })); } return signatures; } function getIntrinsicAttributesTypeFromStringLiteralType(type, location) { // If the elemType is a stringLiteral type, we can then provide a check to make sure that the string literal type is one of the Jsx intrinsic element type // For example: // var CustomTag: "h1" = "h1"; // Hello World var intrinsicElementsType = getJsxType(JsxNames.IntrinsicElements, location); if (intrinsicElementsType !== errorType) { var stringLiteralTypeName = type.value; var intrinsicProp = getPropertyOfType(intrinsicElementsType, ts.escapeLeadingUnderscores(stringLiteralTypeName)); if (intrinsicProp) { return getTypeOfSymbol(intrinsicProp); } var indexSignatureType = getIndexTypeOfType(intrinsicElementsType, 0 /* String */); if (indexSignatureType) { return indexSignatureType; } return undefined; } // If we need to report an error, we already done so here. So just return any to prevent any more error downstream return anyType; } function checkJsxReturnAssignableToAppropriateBound(refKind, elemInstanceType, openingLikeElement) { if (refKind === 1 /* Function */) { var sfcReturnConstraint = getJsxStatelessElementTypeAt(openingLikeElement); if (sfcReturnConstraint) { checkTypeRelatedTo(elemInstanceType, sfcReturnConstraint, assignableRelation, openingLikeElement.tagName, ts.Diagnostics.Its_return_type_0_is_not_a_valid_JSX_element, generateInitialErrorChain); } } else if (refKind === 0 /* Component */) { var classConstraint = getJsxElementClassTypeAt(openingLikeElement); if (classConstraint) { // Issue an error if this return type isn't assignable to JSX.ElementClass, failing that checkTypeRelatedTo(elemInstanceType, classConstraint, assignableRelation, openingLikeElement.tagName, ts.Diagnostics.Its_instance_type_0_is_not_a_valid_JSX_element, generateInitialErrorChain); } } else { // Mixed var sfcReturnConstraint = getJsxStatelessElementTypeAt(openingLikeElement); var classConstraint = getJsxElementClassTypeAt(openingLikeElement); if (!sfcReturnConstraint || !classConstraint) { return; } var combined = getUnionType([sfcReturnConstraint, classConstraint]); checkTypeRelatedTo(elemInstanceType, combined, assignableRelation, openingLikeElement.tagName, ts.Diagnostics.Its_element_type_0_is_not_a_valid_JSX_element, generateInitialErrorChain); } function generateInitialErrorChain() { var componentName = ts.getTextOfNode(openingLikeElement.tagName); return ts.chainDiagnosticMessages(/* details */ undefined, ts.Diagnostics._0_cannot_be_used_as_a_JSX_component, componentName); } } /** * Get attributes type of the given intrinsic opening-like Jsx element by resolving the tag name. * The function is intended to be called from a function which has checked that the opening element is an intrinsic element. * @param node an intrinsic JSX opening-like element */ function getIntrinsicAttributesTypeFromJsxOpeningLikeElement(node) { ts.Debug.assert(isJsxIntrinsicIdentifier(node.tagName)); var links = getNodeLinks(node); if (!links.resolvedJsxElementAttributesType) { var symbol = getIntrinsicTagSymbol(node); if (links.jsxFlags & 1 /* IntrinsicNamedElement */) { return links.resolvedJsxElementAttributesType = getTypeOfSymbol(symbol); } else if (links.jsxFlags & 2 /* IntrinsicIndexedElement */) { return links.resolvedJsxElementAttributesType = getIndexTypeOfType(getDeclaredTypeOfSymbol(symbol), 0 /* String */); } else { return links.resolvedJsxElementAttributesType = errorType; } } return links.resolvedJsxElementAttributesType; } function getJsxElementClassTypeAt(location) { var type = getJsxType(JsxNames.ElementClass, location); if (type === errorType) return undefined; return type; } function getJsxElementTypeAt(location) { return getJsxType(JsxNames.Element, location); } function getJsxStatelessElementTypeAt(location) { var jsxElementType = getJsxElementTypeAt(location); if (jsxElementType) { return getUnionType([jsxElementType, nullType]); } } /** * Returns all the properties of the Jsx.IntrinsicElements interface */ function getJsxIntrinsicTagNamesAt(location) { var intrinsics = getJsxType(JsxNames.IntrinsicElements, location); return intrinsics ? getPropertiesOfType(intrinsics) : ts.emptyArray; } function checkJsxPreconditions(errorNode) { // Preconditions for using JSX if ((compilerOptions.jsx || 0 /* None */) === 0 /* None */) { error(errorNode, ts.Diagnostics.Cannot_use_JSX_unless_the_jsx_flag_is_provided); } if (getJsxElementTypeAt(errorNode) === undefined) { if (noImplicitAny) { error(errorNode, ts.Diagnostics.JSX_element_implicitly_has_type_any_because_the_global_type_JSX_Element_does_not_exist); } } } function checkJsxOpeningLikeElementOrOpeningFragment(node) { var isNodeOpeningLikeElement = ts.isJsxOpeningLikeElement(node); if (isNodeOpeningLikeElement) { checkGrammarJsxElement(node); } checkJsxPreconditions(node); // The reactNamespace/jsxFactory's root symbol should be marked as 'used' so we don't incorrectly elide its import. // And if there is no reactNamespace/jsxFactory's symbol in scope when targeting React emit, we should issue an error. var reactRefErr = diagnostics && compilerOptions.jsx === 2 /* React */ ? ts.Diagnostics.Cannot_find_name_0 : undefined; var reactNamespace = getJsxNamespace(node); var reactLocation = isNodeOpeningLikeElement ? node.tagName : node; var reactSym = resolveName(reactLocation, reactNamespace, 111551 /* Value */, reactRefErr, reactNamespace, /*isUse*/ true); if (reactSym) { // Mark local symbol as referenced here because it might not have been marked // if jsx emit was not react as there wont be error being emitted reactSym.isReferenced = 67108863 /* All */; // If react symbol is alias, mark it as refereced if (reactSym.flags & 2097152 /* Alias */ && !getTypeOnlyAliasDeclaration(reactSym)) { markAliasSymbolAsReferenced(reactSym); } } if (isNodeOpeningLikeElement) { var jsxOpeningLikeNode = node; var sig = getResolvedSignature(jsxOpeningLikeNode); checkJsxReturnAssignableToAppropriateBound(getJsxReferenceKind(jsxOpeningLikeNode), getReturnTypeOfSignature(sig), jsxOpeningLikeNode); } } /** * Check if a property with the given name is known anywhere in the given type. In an object type, a property * is considered known if * 1. the object type is empty and the check is for assignability, or * 2. if the object type has index signatures, or * 3. if the property is actually declared in the object type * (this means that 'toString', for example, is not usually a known property). * 4. In a union or intersection type, * a property is considered known if it is known in any constituent type. * @param targetType a type to search a given name in * @param name a property name to search * @param isComparingJsxAttributes a boolean flag indicating whether we are searching in JsxAttributesType */ function isKnownProperty(targetType, name, isComparingJsxAttributes) { if (targetType.flags & 524288 /* Object */) { var resolved = resolveStructuredTypeMembers(targetType); if (resolved.stringIndexInfo || resolved.numberIndexInfo && isNumericLiteralName(name) || getPropertyOfObjectType(targetType, name) || isComparingJsxAttributes && !isUnhyphenatedJsxName(name)) { // For JSXAttributes, if the attribute has a hyphenated name, consider that the attribute to be known. return true; } } else if (targetType.flags & 3145728 /* UnionOrIntersection */ && isExcessPropertyCheckTarget(targetType)) { for (var _i = 0, _a = targetType.types; _i < _a.length; _i++) { var t = _a[_i]; if (isKnownProperty(t, name, isComparingJsxAttributes)) { return true; } } } return false; } function isExcessPropertyCheckTarget(type) { return !!(type.flags & 524288 /* Object */ && !(ts.getObjectFlags(type) & 512 /* ObjectLiteralPatternWithComputedProperties */) || type.flags & 67108864 /* NonPrimitive */ || type.flags & 1048576 /* Union */ && ts.some(type.types, isExcessPropertyCheckTarget) || type.flags & 2097152 /* Intersection */ && ts.every(type.types, isExcessPropertyCheckTarget)); } function checkJsxExpression(node, checkMode) { checkGrammarJsxExpression(node); if (node.expression) { var type = checkExpression(node.expression, checkMode); if (node.dotDotDotToken && type !== anyType && !isArrayType(type)) { error(node, ts.Diagnostics.JSX_spread_child_must_be_an_array_type); } return type; } else { return errorType; } } function getDeclarationNodeFlagsFromSymbol(s) { return s.valueDeclaration ? ts.getCombinedNodeFlags(s.valueDeclaration) : 0; } /** * Return whether this symbol is a member of a prototype somewhere * Note that this is not tracked well within the compiler, so the answer may be incorrect. */ function isPrototypeProperty(symbol) { if (symbol.flags & 8192 /* Method */ || ts.getCheckFlags(symbol) & 4 /* SyntheticMethod */) { return true; } if (ts.isInJSFile(symbol.valueDeclaration)) { var parent = symbol.valueDeclaration.parent; return parent && ts.isBinaryExpression(parent) && ts.getAssignmentDeclarationKind(parent) === 3 /* PrototypeProperty */; } } /** * Check whether the requested property access is valid. * Returns true if node is a valid property access, and false otherwise. * @param node The node to be checked. * @param isSuper True if the access is from `super.`. * @param type The type of the object whose property is being accessed. (Not the type of the property.) * @param prop The symbol for the property being accessed. */ function checkPropertyAccessibility(node, isSuper, type, prop) { var flags = ts.getDeclarationModifierFlagsFromSymbol(prop); var errorNode = node.kind === 153 /* QualifiedName */ ? node.right : node.kind === 188 /* ImportType */ ? node : node.name; if (isSuper) { // TS 1.0 spec (April 2014): 4.8.2 // - In a constructor, instance member function, instance member accessor, or // instance member variable initializer where this references a derived class instance, // a super property access is permitted and must specify a public instance member function of the base class. // - In a static member function or static member accessor // where this references the constructor function object of a derived class, // a super property access is permitted and must specify a public static member function of the base class. if (languageVersion < 2 /* ES2015 */) { if (symbolHasNonMethodDeclaration(prop)) { error(errorNode, ts.Diagnostics.Only_public_and_protected_methods_of_the_base_class_are_accessible_via_the_super_keyword); return false; } } if (flags & 128 /* Abstract */) { // A method cannot be accessed in a super property access if the method is abstract. // This error could mask a private property access error. But, a member // cannot simultaneously be private and abstract, so this will trigger an // additional error elsewhere. error(errorNode, ts.Diagnostics.Abstract_method_0_in_class_1_cannot_be_accessed_via_super_expression, symbolToString(prop), typeToString(getDeclaringClass(prop))); return false; } } // Referencing abstract properties within their own constructors is not allowed if ((flags & 128 /* Abstract */) && ts.isThisProperty(node) && symbolHasNonMethodDeclaration(prop)) { var declaringClassDeclaration = ts.getClassLikeDeclarationOfSymbol(getParentOfSymbol(prop)); if (declaringClassDeclaration && isNodeUsedDuringClassInitialization(node)) { error(errorNode, ts.Diagnostics.Abstract_property_0_in_class_1_cannot_be_accessed_in_the_constructor, symbolToString(prop), ts.getTextOfIdentifierOrLiteral(declaringClassDeclaration.name)); // TODO: GH#18217 return false; } } if (ts.isPropertyAccessExpression(node) && ts.isPrivateIdentifier(node.name)) { if (!ts.getContainingClass(node)) { error(errorNode, ts.Diagnostics.Private_identifiers_are_not_allowed_outside_class_bodies); return false; } return true; } // Public properties are otherwise accessible. if (!(flags & 24 /* NonPublicAccessibilityModifier */)) { return true; } // Property is known to be private or protected at this point // Private property is accessible if the property is within the declaring class if (flags & 8 /* Private */) { var declaringClassDeclaration = ts.getClassLikeDeclarationOfSymbol(getParentOfSymbol(prop)); if (!isNodeWithinClass(node, declaringClassDeclaration)) { error(errorNode, ts.Diagnostics.Property_0_is_private_and_only_accessible_within_class_1, symbolToString(prop), typeToString(getDeclaringClass(prop))); return false; } return true; } // Property is known to be protected at this point // All protected properties of a supertype are accessible in a super access if (isSuper) { return true; } // Find the first enclosing class that has the declaring classes of the protected constituents // of the property as base classes var enclosingClass = forEachEnclosingClass(node, function (enclosingDeclaration) { var enclosingClass = getDeclaredTypeOfSymbol(getSymbolOfNode(enclosingDeclaration)); return isClassDerivedFromDeclaringClasses(enclosingClass, prop) ? enclosingClass : undefined; }); // A protected property is accessible if the property is within the declaring class or classes derived from it if (!enclosingClass) { // allow PropertyAccessibility if context is in function with this parameter // static member access is disallow var thisParameter = void 0; if (flags & 32 /* Static */ || !(thisParameter = getThisParameterFromNodeContext(node)) || !thisParameter.type) { error(errorNode, ts.Diagnostics.Property_0_is_protected_and_only_accessible_within_class_1_and_its_subclasses, symbolToString(prop), typeToString(getDeclaringClass(prop) || type)); return false; } var thisType = getTypeFromTypeNode(thisParameter.type); enclosingClass = ((thisType.flags & 262144 /* TypeParameter */) ? getConstraintOfTypeParameter(thisType) : thisType).target; } // No further restrictions for static properties if (flags & 32 /* Static */) { return true; } if (type.flags & 262144 /* TypeParameter */) { // get the original type -- represented as the type constraint of the 'this' type type = type.isThisType ? getConstraintOfTypeParameter(type) : getBaseConstraintOfType(type); // TODO: GH#18217 Use a different variable that's allowed to be undefined } if (!type || !hasBaseType(type, enclosingClass)) { error(errorNode, ts.Diagnostics.Property_0_is_protected_and_only_accessible_through_an_instance_of_class_1, symbolToString(prop), typeToString(enclosingClass)); return false; } return true; } function getThisParameterFromNodeContext(node) { var thisContainer = ts.getThisContainer(node, /* includeArrowFunctions */ false); return thisContainer && ts.isFunctionLike(thisContainer) ? ts.getThisParameter(thisContainer) : undefined; } function symbolHasNonMethodDeclaration(symbol) { return !!forEachProperty(symbol, function (prop) { return !(prop.flags & 8192 /* Method */); }); } function checkNonNullExpression(node) { return checkNonNullType(checkExpression(node), node); } function isNullableType(type) { return !!((strictNullChecks ? getFalsyFlags(type) : type.flags) & 98304 /* Nullable */); } function getNonNullableTypeIfNeeded(type) { return isNullableType(type) ? getNonNullableType(type) : type; } function reportObjectPossiblyNullOrUndefinedError(node, flags) { error(node, flags & 32768 /* Undefined */ ? flags & 65536 /* Null */ ? ts.Diagnostics.Object_is_possibly_null_or_undefined : ts.Diagnostics.Object_is_possibly_undefined : ts.Diagnostics.Object_is_possibly_null); } function reportCannotInvokePossiblyNullOrUndefinedError(node, flags) { error(node, flags & 32768 /* Undefined */ ? flags & 65536 /* Null */ ? ts.Diagnostics.Cannot_invoke_an_object_which_is_possibly_null_or_undefined : ts.Diagnostics.Cannot_invoke_an_object_which_is_possibly_undefined : ts.Diagnostics.Cannot_invoke_an_object_which_is_possibly_null); } function checkNonNullTypeWithReporter(type, node, reportError) { if (strictNullChecks && type.flags & 2 /* Unknown */) { error(node, ts.Diagnostics.Object_is_of_type_unknown); return errorType; } var kind = (strictNullChecks ? getFalsyFlags(type) : type.flags) & 98304 /* Nullable */; if (kind) { reportError(node, kind); var t = getNonNullableType(type); return t.flags & (98304 /* Nullable */ | 131072 /* Never */) ? errorType : t; } return type; } function checkNonNullType(type, node) { return checkNonNullTypeWithReporter(type, node, reportObjectPossiblyNullOrUndefinedError); } function checkNonNullNonVoidType(type, node) { var nonNullType = checkNonNullType(type, node); if (nonNullType !== errorType && nonNullType.flags & 16384 /* Void */) { error(node, ts.Diagnostics.Object_is_possibly_undefined); } return nonNullType; } function checkPropertyAccessExpression(node) { return node.flags & 32 /* OptionalChain */ ? checkPropertyAccessChain(node) : checkPropertyAccessExpressionOrQualifiedName(node, node.expression, checkNonNullExpression(node.expression), node.name); } function checkPropertyAccessChain(node) { var leftType = checkExpression(node.expression); var nonOptionalType = getOptionalExpressionType(leftType, node.expression); return propagateOptionalTypeMarker(checkPropertyAccessExpressionOrQualifiedName(node, node.expression, checkNonNullType(nonOptionalType, node.expression), node.name), node, nonOptionalType !== leftType); } function checkQualifiedName(node) { return checkPropertyAccessExpressionOrQualifiedName(node, node.left, checkNonNullExpression(node.left), node.right); } function isMethodAccessForCall(node) { while (node.parent.kind === 200 /* ParenthesizedExpression */) { node = node.parent; } return ts.isCallOrNewExpression(node.parent) && node.parent.expression === node; } // Lookup the private identifier lexically. function lookupSymbolForPrivateIdentifierDeclaration(propName, location) { for (var containingClass = ts.getContainingClass(location); !!containingClass; containingClass = ts.getContainingClass(containingClass)) { var symbol = containingClass.symbol; var name = ts.getSymbolNameForPrivateIdentifier(symbol, propName); var prop = (symbol.members && symbol.members.get(name)) || (symbol.exports && symbol.exports.get(name)); if (prop) { return prop; } } } function getPrivateIdentifierPropertyOfType(leftType, lexicallyScopedIdentifier) { return getPropertyOfType(leftType, lexicallyScopedIdentifier.escapedName); } function checkPrivateIdentifierPropertyAccess(leftType, right, lexicallyScopedIdentifier) { // Either the identifier could not be looked up in the lexical scope OR the lexically scoped identifier did not exist on the type. // Find a private identifier with the same description on the type. var propertyOnType; var properties = getPropertiesOfType(leftType); if (properties) { ts.forEach(properties, function (symbol) { var decl = symbol.valueDeclaration; if (decl && ts.isNamedDeclaration(decl) && ts.isPrivateIdentifier(decl.name) && decl.name.escapedText === right.escapedText) { propertyOnType = symbol; return true; } }); } var diagName = diagnosticName(right); if (propertyOnType) { var typeValueDecl = propertyOnType.valueDeclaration; var typeClass_1 = ts.getContainingClass(typeValueDecl); ts.Debug.assert(!!typeClass_1); // We found a private identifier property with the same description. // Either: // - There is a lexically scoped private identifier AND it shadows the one we found on the type. // - It is an attempt to access the private identifier outside of the class. if (lexicallyScopedIdentifier) { var lexicalValueDecl = lexicallyScopedIdentifier.valueDeclaration; var lexicalClass = ts.getContainingClass(lexicalValueDecl); ts.Debug.assert(!!lexicalClass); if (ts.findAncestor(lexicalClass, function (n) { return typeClass_1 === n; })) { var diagnostic = error(right, ts.Diagnostics.The_property_0_cannot_be_accessed_on_type_1_within_this_class_because_it_is_shadowed_by_another_private_identifier_with_the_same_spelling, diagName, typeToString(leftType)); ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(lexicalValueDecl, ts.Diagnostics.The_shadowing_declaration_of_0_is_defined_here, diagName), ts.createDiagnosticForNode(typeValueDecl, ts.Diagnostics.The_declaration_of_0_that_you_probably_intended_to_use_is_defined_here, diagName)); return true; } } error(right, ts.Diagnostics.Property_0_is_not_accessible_outside_class_1_because_it_has_a_private_identifier, diagName, diagnosticName(typeClass_1.name || anon)); return true; } return false; } function checkPropertyAccessExpressionOrQualifiedName(node, left, leftType, right) { var parentSymbol = getNodeLinks(left).resolvedSymbol; var assignmentKind = ts.getAssignmentTargetKind(node); var apparentType = getApparentType(assignmentKind !== 0 /* None */ || isMethodAccessForCall(node) ? getWidenedType(leftType) : leftType); if (ts.isPrivateIdentifier(right)) { checkExternalEmitHelpers(node, 262144 /* ClassPrivateFieldGet */); } var isAnyLike = isTypeAny(apparentType) || apparentType === silentNeverType; var prop; if (ts.isPrivateIdentifier(right)) { var lexicallyScopedSymbol = lookupSymbolForPrivateIdentifierDeclaration(right.escapedText, right); if (isAnyLike) { if (lexicallyScopedSymbol) { return apparentType; } if (!ts.getContainingClass(right)) { grammarErrorOnNode(right, ts.Diagnostics.Private_identifiers_are_not_allowed_outside_class_bodies); return anyType; } } prop = lexicallyScopedSymbol ? getPrivateIdentifierPropertyOfType(leftType, lexicallyScopedSymbol) : undefined; // Check for private-identifier-specific shadowing and lexical-scoping errors. if (!prop && checkPrivateIdentifierPropertyAccess(leftType, right, lexicallyScopedSymbol)) { return errorType; } } else { if (isAnyLike) { if (ts.isIdentifier(left) && parentSymbol) { markAliasReferenced(parentSymbol, node); } return apparentType; } prop = getPropertyOfType(apparentType, right.escapedText); } if (ts.isIdentifier(left) && parentSymbol && !(prop && isConstEnumOrConstEnumOnlyModule(prop))) { markAliasReferenced(parentSymbol, node); } var propType; if (!prop) { var indexInfo = !ts.isPrivateIdentifier(right) && (assignmentKind === 0 /* None */ || !isGenericObjectType(leftType) || isThisTypeParameter(leftType)) ? getIndexInfoOfType(apparentType, 0 /* String */) : undefined; if (!(indexInfo && indexInfo.type)) { if (isJSLiteralType(leftType)) { return anyType; } if (leftType.symbol === globalThisSymbol) { if (globalThisSymbol.exports.has(right.escapedText) && (globalThisSymbol.exports.get(right.escapedText).flags & 418 /* BlockScoped */)) { error(right, ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.unescapeLeadingUnderscores(right.escapedText), typeToString(leftType)); } else if (noImplicitAny) { error(right, ts.Diagnostics.Element_implicitly_has_an_any_type_because_type_0_has_no_index_signature, typeToString(leftType)); } return anyType; } if (right.escapedText && !checkAndReportErrorForExtendingInterface(node)) { reportNonexistentProperty(right, isThisTypeParameter(leftType) ? apparentType : leftType); } return errorType; } if (indexInfo.isReadonly && (ts.isAssignmentTarget(node) || ts.isDeleteTarget(node))) { error(node, ts.Diagnostics.Index_signature_in_type_0_only_permits_reading, typeToString(apparentType)); } propType = indexInfo.type; } else { checkPropertyNotUsedBeforeDeclaration(prop, node, right); markPropertyAsReferenced(prop, node, left.kind === 104 /* ThisKeyword */); getNodeLinks(node).resolvedSymbol = prop; checkPropertyAccessibility(node, left.kind === 102 /* SuperKeyword */, apparentType, prop); if (isAssignmentToReadonlyEntity(node, prop, assignmentKind)) { error(right, ts.Diagnostics.Cannot_assign_to_0_because_it_is_a_read_only_property, ts.idText(right)); return errorType; } propType = getConstraintForLocation(getTypeOfSymbol(prop), node); } return getFlowTypeOfAccessExpression(node, prop, propType, right); } function getFlowTypeOfAccessExpression(node, prop, propType, errorNode) { // Only compute control flow type if this is a property access expression that isn't an // assignment target, and the referenced property was declared as a variable, property, // accessor, or optional method. var assignmentKind = ts.getAssignmentTargetKind(node); if (!ts.isAccessExpression(node) || assignmentKind === 1 /* Definite */ || prop && !(prop.flags & (3 /* Variable */ | 4 /* Property */ | 98304 /* Accessor */)) && !(prop.flags & 8192 /* Method */ && propType.flags & 1048576 /* Union */)) { return propType; } // If strict null checks and strict property initialization checks are enabled, if we have // a this.xxx property access, if the property is an instance property without an initializer, // and if we are in a constructor of the same class as the property declaration, assume that // the property is uninitialized at the top of the control flow. var assumeUninitialized = false; if (strictNullChecks && strictPropertyInitialization && node.expression.kind === 104 /* ThisKeyword */) { var declaration = prop && prop.valueDeclaration; if (declaration && isInstancePropertyWithoutInitializer(declaration)) { var flowContainer = getControlFlowContainer(node); if (flowContainer.kind === 162 /* Constructor */ && flowContainer.parent === declaration.parent && !(declaration.flags & 8388608 /* Ambient */)) { assumeUninitialized = true; } } } else if (strictNullChecks && prop && prop.valueDeclaration && ts.isPropertyAccessExpression(prop.valueDeclaration) && ts.getAssignmentDeclarationPropertyAccessKind(prop.valueDeclaration) && getControlFlowContainer(node) === getControlFlowContainer(prop.valueDeclaration)) { assumeUninitialized = true; } var flowType = getFlowTypeOfReference(node, propType, assumeUninitialized ? getOptionalType(propType) : propType); if (assumeUninitialized && !(getFalsyFlags(propType) & 32768 /* Undefined */) && getFalsyFlags(flowType) & 32768 /* Undefined */) { error(errorNode, ts.Diagnostics.Property_0_is_used_before_being_assigned, symbolToString(prop)); // TODO: GH#18217 // Return the declared type to reduce follow-on errors return propType; } return assignmentKind ? getBaseTypeOfLiteralType(flowType) : flowType; } function checkPropertyNotUsedBeforeDeclaration(prop, node, right) { var valueDeclaration = prop.valueDeclaration; if (!valueDeclaration || ts.getSourceFileOfNode(node).isDeclarationFile) { return; } var diagnosticMessage; var declarationName = ts.idText(right); if (isInPropertyInitializer(node) && !(ts.isAccessExpression(node) && ts.isAccessExpression(node.expression)) && !isBlockScopedNameDeclaredBeforeUse(valueDeclaration, right) && !isPropertyDeclaredInAncestorClass(prop)) { diagnosticMessage = error(right, ts.Diagnostics.Property_0_is_used_before_its_initialization, declarationName); } else if (valueDeclaration.kind === 245 /* ClassDeclaration */ && node.parent.kind !== 169 /* TypeReference */ && !(valueDeclaration.flags & 8388608 /* Ambient */) && !isBlockScopedNameDeclaredBeforeUse(valueDeclaration, right)) { diagnosticMessage = error(right, ts.Diagnostics.Class_0_used_before_its_declaration, declarationName); } if (diagnosticMessage) { ts.addRelatedInfo(diagnosticMessage, ts.createDiagnosticForNode(valueDeclaration, ts.Diagnostics._0_is_declared_here, declarationName)); } } function isInPropertyInitializer(node) { return !!ts.findAncestor(node, function (node) { switch (node.kind) { case 159 /* PropertyDeclaration */: return true; case 281 /* PropertyAssignment */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 283 /* SpreadAssignment */: case 154 /* ComputedPropertyName */: case 221 /* TemplateSpan */: case 276 /* JsxExpression */: case 273 /* JsxAttribute */: case 274 /* JsxAttributes */: case 275 /* JsxSpreadAttribute */: case 268 /* JsxOpeningElement */: case 216 /* ExpressionWithTypeArguments */: case 279 /* HeritageClause */: return false; default: return ts.isExpressionNode(node) ? false : "quit"; } }); } /** * It's possible that "prop.valueDeclaration" is a local declaration, but the property was also declared in a superclass. * In that case we won't consider it used before its declaration, because it gets its value from the superclass' declaration. */ function isPropertyDeclaredInAncestorClass(prop) { if (!(prop.parent.flags & 32 /* Class */)) { return false; } var classType = getTypeOfSymbol(prop.parent); while (true) { classType = classType.symbol && getSuperClass(classType); if (!classType) { return false; } var superProperty = getPropertyOfType(classType, prop.escapedName); if (superProperty && superProperty.valueDeclaration) { return true; } } } function getSuperClass(classType) { var x = getBaseTypes(classType); if (x.length === 0) { return undefined; } return getIntersectionType(x); } function reportNonexistentProperty(propNode, containingType) { var errorInfo; var relatedInfo; if (!ts.isPrivateIdentifier(propNode) && containingType.flags & 1048576 /* Union */ && !(containingType.flags & 131068 /* Primitive */)) { for (var _i = 0, _a = containingType.types; _i < _a.length; _i++) { var subtype = _a[_i]; if (!getPropertyOfType(subtype, propNode.escapedText) && !getIndexInfoOfType(subtype, 0 /* String */)) { errorInfo = ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.declarationNameToString(propNode), typeToString(subtype)); break; } } } if (typeHasStaticProperty(propNode.escapedText, containingType)) { errorInfo = ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Property_0_is_a_static_member_of_type_1, ts.declarationNameToString(propNode), typeToString(containingType)); } else { var promisedType = getPromisedTypeOfPromise(containingType); if (promisedType && getPropertyOfType(promisedType, propNode.escapedText)) { errorInfo = ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.declarationNameToString(propNode), typeToString(containingType)); relatedInfo = ts.createDiagnosticForNode(propNode, ts.Diagnostics.Did_you_forget_to_use_await); } else { var suggestion = getSuggestedSymbolForNonexistentProperty(propNode, containingType); if (suggestion !== undefined) { var suggestedName = ts.symbolName(suggestion); errorInfo = ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Property_0_does_not_exist_on_type_1_Did_you_mean_2, ts.declarationNameToString(propNode), typeToString(containingType), suggestedName); relatedInfo = suggestion.valueDeclaration && ts.createDiagnosticForNode(suggestion.valueDeclaration, ts.Diagnostics._0_is_declared_here, suggestedName); } else { errorInfo = ts.chainDiagnosticMessages(elaborateNeverIntersection(errorInfo, containingType), ts.Diagnostics.Property_0_does_not_exist_on_type_1, ts.declarationNameToString(propNode), typeToString(containingType)); } } } var resultDiagnostic = ts.createDiagnosticForNodeFromMessageChain(propNode, errorInfo); if (relatedInfo) { ts.addRelatedInfo(resultDiagnostic, relatedInfo); } diagnostics.add(resultDiagnostic); } function typeHasStaticProperty(propName, containingType) { var prop = containingType.symbol && getPropertyOfType(getTypeOfSymbol(containingType.symbol), propName); return prop !== undefined && prop.valueDeclaration && ts.hasModifier(prop.valueDeclaration, 32 /* Static */); } function getSuggestedSymbolForNonexistentProperty(name, containingType) { return getSpellingSuggestionForName(ts.isString(name) ? name : ts.idText(name), getPropertiesOfType(containingType), 111551 /* Value */); } function getSuggestionForNonexistentProperty(name, containingType) { var suggestion = getSuggestedSymbolForNonexistentProperty(name, containingType); return suggestion && ts.symbolName(suggestion); } function getSuggestedSymbolForNonexistentSymbol(location, outerName, meaning) { ts.Debug.assert(outerName !== undefined, "outername should always be defined"); var result = resolveNameHelper(location, outerName, meaning, /*nameNotFoundMessage*/ undefined, outerName, /*isUse*/ false, /*excludeGlobals*/ false, function (symbols, name, meaning) { ts.Debug.assertEqual(outerName, name, "name should equal outerName"); var symbol = getSymbol(symbols, name, meaning); // Sometimes the symbol is found when location is a return type of a function: `typeof x` and `x` is declared in the body of the function // So the table *contains* `x` but `x` isn't actually in scope. // However, resolveNameHelper will continue and call this callback again, so we'll eventually get a correct suggestion. return symbol || getSpellingSuggestionForName(ts.unescapeLeadingUnderscores(name), ts.arrayFrom(symbols.values()), meaning); }); return result; } function getSuggestionForNonexistentSymbol(location, outerName, meaning) { var symbolResult = getSuggestedSymbolForNonexistentSymbol(location, outerName, meaning); return symbolResult && ts.symbolName(symbolResult); } function getSuggestedSymbolForNonexistentModule(name, targetModule) { return targetModule.exports && getSpellingSuggestionForName(ts.idText(name), getExportsOfModuleAsArray(targetModule), 2623475 /* ModuleMember */); } function getSuggestionForNonexistentExport(name, targetModule) { var suggestion = getSuggestedSymbolForNonexistentModule(name, targetModule); return suggestion && ts.symbolName(suggestion); } function getSuggestionForNonexistentIndexSignature(objectType, expr, keyedType) { // check if object type has setter or getter function hasProp(name) { var prop = getPropertyOfObjectType(objectType, name); if (prop) { var s = getSingleCallSignature(getTypeOfSymbol(prop)); return !!s && getMinArgumentCount(s) >= 1 && isTypeAssignableTo(keyedType, getTypeAtPosition(s, 0)); } return false; } ; var suggestedMethod = ts.isAssignmentTarget(expr) ? "set" : "get"; if (!hasProp(suggestedMethod)) { return undefined; } var suggestion = ts.tryGetPropertyAccessOrIdentifierToString(expr.expression); if (suggestion === undefined) { suggestion = suggestedMethod; } else { suggestion += "." + suggestedMethod; } return suggestion; } /** * Given a name and a list of symbols whose names are *not* equal to the name, return a spelling suggestion if there is one that is close enough. * Names less than length 3 only check for case-insensitive equality, not levenshtein distance. * * If there is a candidate that's the same except for case, return that. * If there is a candidate that's within one edit of the name, return that. * Otherwise, return the candidate with the smallest Levenshtein distance, * except for candidates: * * With no name * * Whose meaning doesn't match the `meaning` parameter. * * Whose length differs from the target name by more than 0.34 of the length of the name. * * Whose levenshtein distance is more than 0.4 of the length of the name * (0.4 allows 1 substitution/transposition for every 5 characters, * and 1 insertion/deletion at 3 characters) */ function getSpellingSuggestionForName(name, symbols, meaning) { return ts.getSpellingSuggestion(name, symbols, getCandidateName); function getCandidateName(candidate) { var candidateName = ts.symbolName(candidate); if (ts.startsWith(candidateName, "\"")) { return undefined; } if (candidate.flags & meaning) { return candidateName; } if (candidate.flags & 2097152 /* Alias */) { var alias = tryResolveAlias(candidate); if (alias && alias.flags & meaning) { return candidateName; } } return undefined; } } function markPropertyAsReferenced(prop, nodeForCheckWriteOnly, isThisAccess) { var valueDeclaration = prop && (prop.flags & 106500 /* ClassMember */) && prop.valueDeclaration; if (!valueDeclaration) { return; } var hasPrivateModifier = ts.hasModifier(valueDeclaration, 8 /* Private */); var hasPrivateIdentifier = ts.isNamedDeclaration(prop.valueDeclaration) && ts.isPrivateIdentifier(prop.valueDeclaration.name); if (!hasPrivateModifier && !hasPrivateIdentifier) { return; } if (nodeForCheckWriteOnly && ts.isWriteOnlyAccess(nodeForCheckWriteOnly) && !(prop.flags & 65536 /* SetAccessor */)) { return; } if (isThisAccess) { // Find any FunctionLikeDeclaration because those create a new 'this' binding. But this should only matter for methods (or getters/setters). var containingMethod = ts.findAncestor(nodeForCheckWriteOnly, ts.isFunctionLikeDeclaration); if (containingMethod && containingMethod.symbol === prop) { return; } } (ts.getCheckFlags(prop) & 1 /* Instantiated */ ? getSymbolLinks(prop).target : prop).isReferenced = 67108863 /* All */; } function isValidPropertyAccess(node, propertyName) { switch (node.kind) { case 194 /* PropertyAccessExpression */: return isValidPropertyAccessWithType(node, node.expression.kind === 102 /* SuperKeyword */, propertyName, getWidenedType(checkExpression(node.expression))); case 153 /* QualifiedName */: return isValidPropertyAccessWithType(node, /*isSuper*/ false, propertyName, getWidenedType(checkExpression(node.left))); case 188 /* ImportType */: return isValidPropertyAccessWithType(node, /*isSuper*/ false, propertyName, getTypeFromTypeNode(node)); } } function isValidPropertyAccessForCompletions(node, type, property) { return isValidPropertyAccessWithType(node, node.kind === 194 /* PropertyAccessExpression */ && node.expression.kind === 102 /* SuperKeyword */, property.escapedName, type); // Previously we validated the 'this' type of methods but this adversely affected performance. See #31377 for more context. } function isValidPropertyAccessWithType(node, isSuper, propertyName, type) { if (type === errorType || isTypeAny(type)) { return true; } var prop = getPropertyOfType(type, propertyName); if (prop) { if (ts.isPropertyAccessExpression(node) && prop.valueDeclaration && ts.isPrivateIdentifierPropertyDeclaration(prop.valueDeclaration)) { var declClass_1 = ts.getContainingClass(prop.valueDeclaration); return !ts.isOptionalChain(node) && !!ts.findAncestor(node, function (parent) { return parent === declClass_1; }); } return checkPropertyAccessibility(node, isSuper, type, prop); } // In js files properties of unions are allowed in completion return ts.isInJSFile(node) && (type.flags & 1048576 /* Union */) !== 0 && type.types.some(function (elementType) { return isValidPropertyAccessWithType(node, isSuper, propertyName, elementType); }); } /** * Return the symbol of the for-in variable declared or referenced by the given for-in statement. */ function getForInVariableSymbol(node) { var initializer = node.initializer; if (initializer.kind === 243 /* VariableDeclarationList */) { var variable = initializer.declarations[0]; if (variable && !ts.isBindingPattern(variable.name)) { return getSymbolOfNode(variable); } } else if (initializer.kind === 75 /* Identifier */) { return getResolvedSymbol(initializer); } return undefined; } /** * Return true if the given type is considered to have numeric property names. */ function hasNumericPropertyNames(type) { return getIndexTypeOfType(type, 1 /* Number */) && !getIndexTypeOfType(type, 0 /* String */); } /** * Return true if given node is an expression consisting of an identifier (possibly parenthesized) * that references a for-in variable for an object with numeric property names. */ function isForInVariableForNumericPropertyNames(expr) { var e = ts.skipParentheses(expr); if (e.kind === 75 /* Identifier */) { var symbol = getResolvedSymbol(e); if (symbol.flags & 3 /* Variable */) { var child = expr; var node = expr.parent; while (node) { if (node.kind === 231 /* ForInStatement */ && child === node.statement && getForInVariableSymbol(node) === symbol && hasNumericPropertyNames(getTypeOfExpression(node.expression))) { return true; } child = node; node = node.parent; } } } return false; } function checkIndexedAccess(node) { return node.flags & 32 /* OptionalChain */ ? checkElementAccessChain(node) : checkElementAccessExpression(node, checkNonNullExpression(node.expression)); } function checkElementAccessChain(node) { var exprType = checkExpression(node.expression); var nonOptionalType = getOptionalExpressionType(exprType, node.expression); return propagateOptionalTypeMarker(checkElementAccessExpression(node, checkNonNullType(nonOptionalType, node.expression)), node, nonOptionalType !== exprType); } function checkElementAccessExpression(node, exprType) { var objectType = ts.getAssignmentTargetKind(node) !== 0 /* None */ || isMethodAccessForCall(node) ? getWidenedType(exprType) : exprType; var indexExpression = node.argumentExpression; var indexType = checkExpression(indexExpression); if (objectType === errorType || objectType === silentNeverType) { return objectType; } if (isConstEnumObjectType(objectType) && !ts.isStringLiteralLike(indexExpression)) { error(indexExpression, ts.Diagnostics.A_const_enum_member_can_only_be_accessed_using_a_string_literal); return errorType; } var effectiveIndexType = isForInVariableForNumericPropertyNames(indexExpression) ? numberType : indexType; var accessFlags = ts.isAssignmentTarget(node) ? 2 /* Writing */ | (isGenericObjectType(objectType) && !isThisTypeParameter(objectType) ? 1 /* NoIndexSignatures */ : 0) : 0 /* None */; var indexedAccessType = getIndexedAccessTypeOrUndefined(objectType, effectiveIndexType, node, accessFlags) || errorType; return checkIndexedAccessIndexType(getFlowTypeOfAccessExpression(node, indexedAccessType.symbol, indexedAccessType, indexExpression), node); } function checkThatExpressionIsProperSymbolReference(expression, expressionType, reportError) { if (expressionType === errorType) { // There is already an error, so no need to report one. return false; } if (!ts.isWellKnownSymbolSyntactically(expression)) { return false; } // Make sure the property type is the primitive symbol type if ((expressionType.flags & 12288 /* ESSymbolLike */) === 0) { if (reportError) { error(expression, ts.Diagnostics.A_computed_property_name_of_the_form_0_must_be_of_type_symbol, ts.getTextOfNode(expression)); } return false; } // The name is Symbol., so make sure Symbol actually resolves to the // global Symbol object var leftHandSide = expression.expression; var leftHandSideSymbol = getResolvedSymbol(leftHandSide); if (!leftHandSideSymbol) { return false; } var globalESSymbol = getGlobalESSymbolConstructorSymbol(/*reportErrors*/ true); if (!globalESSymbol) { // Already errored when we tried to look up the symbol return false; } if (leftHandSideSymbol !== globalESSymbol) { if (reportError) { error(leftHandSide, ts.Diagnostics.Symbol_reference_does_not_refer_to_the_global_Symbol_constructor_object); } return false; } return true; } function callLikeExpressionMayHaveTypeArguments(node) { return ts.isCallOrNewExpression(node) || ts.isTaggedTemplateExpression(node) || ts.isJsxOpeningLikeElement(node); } function resolveUntypedCall(node) { if (callLikeExpressionMayHaveTypeArguments(node)) { // Check type arguments even though we will give an error that untyped calls may not accept type arguments. // This gets us diagnostics for the type arguments and marks them as referenced. ts.forEach(node.typeArguments, checkSourceElement); } if (node.kind === 198 /* TaggedTemplateExpression */) { checkExpression(node.template); } else if (ts.isJsxOpeningLikeElement(node)) { checkExpression(node.attributes); } else if (node.kind !== 157 /* Decorator */) { ts.forEach(node.arguments, function (argument) { checkExpression(argument); }); } return anySignature; } function resolveErrorCall(node) { resolveUntypedCall(node); return unknownSignature; } // Re-order candidate signatures into the result array. Assumes the result array to be empty. // The candidate list orders groups in reverse, but within a group signatures are kept in declaration order // A nit here is that we reorder only signatures that belong to the same symbol, // so order how inherited signatures are processed is still preserved. // interface A { (x: string): void } // interface B extends A { (x: 'foo'): string } // const b: B; // b('foo') // <- here overloads should be processed as [(x:'foo'): string, (x: string): void] function reorderCandidates(signatures, result, callChainFlags) { var lastParent; var lastSymbol; var cutoffIndex = 0; var index; var specializedIndex = -1; var spliceIndex; ts.Debug.assert(!result.length); for (var _i = 0, signatures_7 = signatures; _i < signatures_7.length; _i++) { var signature = signatures_7[_i]; var symbol = signature.declaration && getSymbolOfNode(signature.declaration); var parent = signature.declaration && signature.declaration.parent; if (!lastSymbol || symbol === lastSymbol) { if (lastParent && parent === lastParent) { index = index + 1; } else { lastParent = parent; index = cutoffIndex; } } else { // current declaration belongs to a different symbol // set cutoffIndex so re-orderings in the future won't change result set from 0 to cutoffIndex index = cutoffIndex = result.length; lastParent = parent; } lastSymbol = symbol; // specialized signatures always need to be placed before non-specialized signatures regardless // of the cutoff position; see GH#1133 if (signatureHasLiteralTypes(signature)) { specializedIndex++; spliceIndex = specializedIndex; // The cutoff index always needs to be greater than or equal to the specialized signature index // in order to prevent non-specialized signatures from being added before a specialized // signature. cutoffIndex++; } else { spliceIndex = index; } result.splice(spliceIndex, 0, callChainFlags ? getOptionalCallSignature(signature, callChainFlags) : signature); } } function isSpreadArgument(arg) { return !!arg && (arg.kind === 213 /* SpreadElement */ || arg.kind === 220 /* SyntheticExpression */ && arg.isSpread); } function getSpreadArgumentIndex(args) { return ts.findIndex(args, isSpreadArgument); } function acceptsVoid(t) { return !!(t.flags & 16384 /* Void */); } function hasCorrectArity(node, args, signature, signatureHelpTrailingComma) { if (signatureHelpTrailingComma === void 0) { signatureHelpTrailingComma = false; } var argCount; var callIsIncomplete = false; // In incomplete call we want to be lenient when we have too few arguments var effectiveParameterCount = getParameterCount(signature); var effectiveMinimumArguments = getMinArgumentCount(signature); if (node.kind === 198 /* TaggedTemplateExpression */) { argCount = args.length; if (node.template.kind === 211 /* TemplateExpression */) { // If a tagged template expression lacks a tail literal, the call is incomplete. // Specifically, a template only can end in a TemplateTail or a Missing literal. var lastSpan = ts.last(node.template.templateSpans); // we should always have at least one span. callIsIncomplete = ts.nodeIsMissing(lastSpan.literal) || !!lastSpan.literal.isUnterminated; } else { // If the template didn't end in a backtick, or its beginning occurred right prior to EOF, // then this might actually turn out to be a TemplateHead in the future; // so we consider the call to be incomplete. var templateLiteral = node.template; ts.Debug.assert(templateLiteral.kind === 14 /* NoSubstitutionTemplateLiteral */); callIsIncomplete = !!templateLiteral.isUnterminated; } } else if (node.kind === 157 /* Decorator */) { argCount = getDecoratorArgumentCount(node, signature); } else if (ts.isJsxOpeningLikeElement(node)) { callIsIncomplete = node.attributes.end === node.end; if (callIsIncomplete) { return true; } argCount = effectiveMinimumArguments === 0 ? args.length : 1; effectiveParameterCount = args.length === 0 ? effectiveParameterCount : 1; // class may have argumentless ctor functions - still resolve ctor and compare vs props member type effectiveMinimumArguments = Math.min(effectiveMinimumArguments, 1); // sfc may specify context argument - handled by framework and not typechecked } else { if (!node.arguments) { // This only happens when we have something of the form: 'new C' ts.Debug.assert(node.kind === 197 /* NewExpression */); return getMinArgumentCount(signature) === 0; } argCount = signatureHelpTrailingComma ? args.length + 1 : args.length; // If we are missing the close parenthesis, the call is incomplete. callIsIncomplete = node.arguments.end === node.end; // If a spread argument is present, check that it corresponds to a rest parameter or at least that it's in the valid range. var spreadArgIndex = getSpreadArgumentIndex(args); if (spreadArgIndex >= 0) { return spreadArgIndex >= getMinArgumentCount(signature) && (hasEffectiveRestParameter(signature) || spreadArgIndex < getParameterCount(signature)); } } // Too many arguments implies incorrect arity. if (!hasEffectiveRestParameter(signature) && argCount > effectiveParameterCount) { return false; } // If the call is incomplete, we should skip the lower bound check. // JSX signatures can have extra parameters provided by the library which we don't check if (callIsIncomplete || argCount >= effectiveMinimumArguments) { return true; } for (var i = argCount; i < effectiveMinimumArguments; i++) { var type = getTypeAtPosition(signature, i); if (filterType(type, acceptsVoid).flags & 131072 /* Never */) { return false; } } return true; } function hasCorrectTypeArgumentArity(signature, typeArguments) { // If the user supplied type arguments, but the number of type arguments does not match // the declared number of type parameters, the call has an incorrect arity. var numTypeParameters = ts.length(signature.typeParameters); var minTypeArgumentCount = getMinTypeArgumentCount(signature.typeParameters); return !ts.some(typeArguments) || (typeArguments.length >= minTypeArgumentCount && typeArguments.length <= numTypeParameters); } // If type has a single call signature and no other members, return that signature. Otherwise, return undefined. function getSingleCallSignature(type) { return getSingleSignature(type, 0 /* Call */, /*allowMembers*/ false); } function getSingleCallOrConstructSignature(type) { return getSingleSignature(type, 0 /* Call */, /*allowMembers*/ false) || getSingleSignature(type, 1 /* Construct */, /*allowMembers*/ false); } function getSingleSignature(type, kind, allowMembers) { if (type.flags & 524288 /* Object */) { var resolved = resolveStructuredTypeMembers(type); if (allowMembers || resolved.properties.length === 0 && !resolved.stringIndexInfo && !resolved.numberIndexInfo) { if (kind === 0 /* Call */ && resolved.callSignatures.length === 1 && resolved.constructSignatures.length === 0) { return resolved.callSignatures[0]; } if (kind === 1 /* Construct */ && resolved.constructSignatures.length === 1 && resolved.callSignatures.length === 0) { return resolved.constructSignatures[0]; } } } return undefined; } // Instantiate a generic signature in the context of a non-generic signature (section 3.8.5 in TypeScript spec) function instantiateSignatureInContextOf(signature, contextualSignature, inferenceContext, compareTypes) { var context = createInferenceContext(signature.typeParameters, signature, 0 /* None */, compareTypes); // We clone the inferenceContext to avoid fixing. For example, when the source signature is (x: T) => T[] and // the contextual signature is (...args: A) => B, we want to infer the element type of A's constraint (say 'any') // for T but leave it possible to later infer '[any]' back to A. var restType = getEffectiveRestType(contextualSignature); var mapper = inferenceContext && (restType && restType.flags & 262144 /* TypeParameter */ ? inferenceContext.nonFixingMapper : inferenceContext.mapper); var sourceSignature = mapper ? instantiateSignature(contextualSignature, mapper) : contextualSignature; applyToParameterTypes(sourceSignature, signature, function (source, target) { // Type parameters from outer context referenced by source type are fixed by instantiation of the source type inferTypes(context.inferences, source, target); }); if (!inferenceContext) { applyToReturnTypes(contextualSignature, signature, function (source, target) { inferTypes(context.inferences, source, target, 32 /* ReturnType */); }); } return getSignatureInstantiation(signature, getInferredTypes(context), ts.isInJSFile(contextualSignature.declaration)); } function inferJsxTypeArguments(node, signature, checkMode, context) { var paramType = getEffectiveFirstArgumentForJsxSignature(signature, node); var checkAttrType = checkExpressionWithContextualType(node.attributes, paramType, context, checkMode); inferTypes(context.inferences, checkAttrType, paramType); return getInferredTypes(context); } function inferTypeArguments(node, signature, args, checkMode, context) { if (ts.isJsxOpeningLikeElement(node)) { return inferJsxTypeArguments(node, signature, checkMode, context); } // If a contextual type is available, infer from that type to the return type of the call expression. For // example, given a 'function wrap(cb: (x: T) => U): (x: T) => U' and a call expression // 'let f: (x: string) => number = wrap(s => s.length)', we infer from the declared type of 'f' to the // return type of 'wrap'. if (node.kind !== 157 /* Decorator */) { var contextualType = getContextualType(node); if (contextualType) { // We clone the inference context to avoid disturbing a resolution in progress for an // outer call expression. Effectively we just want a snapshot of whatever has been // inferred for any outer call expression so far. var outerContext = getInferenceContext(node); var outerMapper = getMapperFromContext(cloneInferenceContext(outerContext, 1 /* NoDefault */)); var instantiatedType = instantiateType(contextualType, outerMapper); // If the contextual type is a generic function type with a single call signature, we // instantiate the type with its own type parameters and type arguments. This ensures that // the type parameters are not erased to type any during type inference such that they can // be inferred as actual types from the contextual type. For example: // declare function arrayMap(f: (x: T) => U): (a: T[]) => U[]; // const boxElements: (a: A[]) => { value: A }[] = arrayMap(value => ({ value })); // Above, the type of the 'value' parameter is inferred to be 'A'. var contextualSignature = getSingleCallSignature(instantiatedType); var inferenceSourceType = contextualSignature && contextualSignature.typeParameters ? getOrCreateTypeFromSignature(getSignatureInstantiationWithoutFillingInTypeArguments(contextualSignature, contextualSignature.typeParameters)) : instantiatedType; var inferenceTargetType = getReturnTypeOfSignature(signature); // Inferences made from return types have lower priority than all other inferences. inferTypes(context.inferences, inferenceSourceType, inferenceTargetType, 32 /* ReturnType */); // Create a type mapper for instantiating generic contextual types using the inferences made // from the return type. We need a separate inference pass here because (a) instantiation of // the source type uses the outer context's return mapper (which excludes inferences made from // outer arguments), and (b) we don't want any further inferences going into this context. var returnContext = createInferenceContext(signature.typeParameters, signature, context.flags); var returnSourceType = instantiateType(contextualType, outerContext && outerContext.returnMapper); inferTypes(returnContext.inferences, returnSourceType, inferenceTargetType); context.returnMapper = ts.some(returnContext.inferences, hasInferenceCandidates) ? getMapperFromContext(cloneInferredPartOfContext(returnContext)) : undefined; } } var thisType = getThisTypeOfSignature(signature); if (thisType) { var thisArgumentNode = getThisArgumentOfCall(node); var thisArgumentType = thisArgumentNode ? checkExpression(thisArgumentNode) : voidType; inferTypes(context.inferences, thisArgumentType, thisType); } var restType = getNonArrayRestType(signature); var argCount = restType ? Math.min(getParameterCount(signature) - 1, args.length) : args.length; for (var i = 0; i < argCount; i++) { var arg = args[i]; if (arg.kind !== 215 /* OmittedExpression */) { var paramType = getTypeAtPosition(signature, i); var argType = checkExpressionWithContextualType(arg, paramType, context, checkMode); inferTypes(context.inferences, argType, paramType); } } if (restType) { var spreadType = getSpreadArgumentType(args, argCount, args.length, restType, context); inferTypes(context.inferences, spreadType, restType); } return getInferredTypes(context); } function getArrayifiedType(type) { return type.flags & 1048576 /* Union */ ? mapType(type, getArrayifiedType) : type.flags & (1 /* Any */ | 63176704 /* Instantiable */) || isMutableArrayOrTuple(type) ? type : isTupleType(type) ? createTupleType(getTypeArguments(type), type.target.minLength, type.target.hasRestElement, /*readonly*/ false, type.target.associatedNames) : createArrayType(getIndexedAccessType(type, numberType)); } function getSpreadArgumentType(args, index, argCount, restType, context) { if (index >= argCount - 1) { var arg = args[argCount - 1]; if (isSpreadArgument(arg)) { // We are inferring from a spread expression in the last argument position, i.e. both the parameter // and the argument are ...x forms. return arg.kind === 220 /* SyntheticExpression */ ? createArrayType(arg.type) : getArrayifiedType(checkExpressionWithContextualType(arg.expression, restType, context, 0 /* Normal */)); } } var types = []; var spreadIndex = -1; for (var i = index; i < argCount; i++) { var contextualType = getIndexedAccessType(restType, getLiteralType(i - index)); var argType = checkExpressionWithContextualType(args[i], contextualType, context, 0 /* Normal */); if (spreadIndex < 0 && isSpreadArgument(args[i])) { spreadIndex = i - index; } var hasPrimitiveContextualType = maybeTypeOfKind(contextualType, 131068 /* Primitive */ | 4194304 /* Index */); types.push(hasPrimitiveContextualType ? getRegularTypeOfLiteralType(argType) : getWidenedLiteralType(argType)); } return spreadIndex < 0 ? createTupleType(types) : createTupleType(ts.append(types.slice(0, spreadIndex), getUnionType(types.slice(spreadIndex))), spreadIndex, /*hasRestElement*/ true); } function checkTypeArguments(signature, typeArgumentNodes, reportErrors, headMessage) { var isJavascript = ts.isInJSFile(signature.declaration); var typeParameters = signature.typeParameters; var typeArgumentTypes = fillMissingTypeArguments(ts.map(typeArgumentNodes, getTypeFromTypeNode), typeParameters, getMinTypeArgumentCount(typeParameters), isJavascript); var mapper; for (var i = 0; i < typeArgumentNodes.length; i++) { ts.Debug.assert(typeParameters[i] !== undefined, "Should not call checkTypeArguments with too many type arguments"); var constraint = getConstraintOfTypeParameter(typeParameters[i]); if (constraint) { var errorInfo = reportErrors && headMessage ? (function () { return ts.chainDiagnosticMessages(/*details*/ undefined, ts.Diagnostics.Type_0_does_not_satisfy_the_constraint_1); }) : undefined; var typeArgumentHeadMessage = headMessage || ts.Diagnostics.Type_0_does_not_satisfy_the_constraint_1; if (!mapper) { mapper = createTypeMapper(typeParameters, typeArgumentTypes); } var typeArgument = typeArgumentTypes[i]; if (!checkTypeAssignableTo(typeArgument, getTypeWithThisArgument(instantiateType(constraint, mapper), typeArgument), reportErrors ? typeArgumentNodes[i] : undefined, typeArgumentHeadMessage, errorInfo)) { return undefined; } } } return typeArgumentTypes; } function getJsxReferenceKind(node) { if (isJsxIntrinsicIdentifier(node.tagName)) { return 2 /* Mixed */; } var tagType = getApparentType(checkExpression(node.tagName)); if (ts.length(getSignaturesOfType(tagType, 1 /* Construct */))) { return 0 /* Component */; } if (ts.length(getSignaturesOfType(tagType, 0 /* Call */))) { return 1 /* Function */; } return 2 /* Mixed */; } /** * Check if the given signature can possibly be a signature called by the JSX opening-like element. * @param node a JSX opening-like element we are trying to figure its call signature * @param signature a candidate signature we are trying whether it is a call signature * @param relation a relationship to check parameter and argument type */ function checkApplicableSignatureForJsxOpeningLikeElement(node, signature, relation, checkMode, reportErrors, containingMessageChain, errorOutputContainer) { // Stateless function components can have maximum of three arguments: "props", "context", and "updater". // However "context" and "updater" are implicit and can't be specify by users. Only the first parameter, props, // can be specified by users through attributes property. var paramType = getEffectiveFirstArgumentForJsxSignature(signature, node); var attributesType = checkExpressionWithContextualType(node.attributes, paramType, /*inferenceContext*/ undefined, checkMode); return checkTagNameDoesNotExpectTooManyArguments() && checkTypeRelatedToAndOptionallyElaborate(attributesType, paramType, relation, reportErrors ? node.tagName : undefined, node.attributes, /*headMessage*/ undefined, containingMessageChain, errorOutputContainer); function checkTagNameDoesNotExpectTooManyArguments() { var _a; var tagType = ts.isJsxOpeningElement(node) || ts.isJsxSelfClosingElement(node) && !isJsxIntrinsicIdentifier(node.tagName) ? checkExpression(node.tagName) : undefined; if (!tagType) { return true; } var tagCallSignatures = getSignaturesOfType(tagType, 0 /* Call */); if (!ts.length(tagCallSignatures)) { return true; } var factory = getJsxFactoryEntity(node); if (!factory) { return true; } var factorySymbol = resolveEntityName(factory, 111551 /* Value */, /*ignoreErrors*/ true, /*dontResolveAlias*/ false, node); if (!factorySymbol) { return true; } var factoryType = getTypeOfSymbol(factorySymbol); var callSignatures = getSignaturesOfType(factoryType, 0 /* Call */); if (!ts.length(callSignatures)) { return true; } var hasFirstParamSignatures = false; var maxParamCount = 0; // Check that _some_ first parameter expects a FC-like thing, and that some overload of the SFC expects an acceptable number of arguments for (var _i = 0, callSignatures_1 = callSignatures; _i < callSignatures_1.length; _i++) { var sig = callSignatures_1[_i]; var firstparam = getTypeAtPosition(sig, 0); var signaturesOfParam = getSignaturesOfType(firstparam, 0 /* Call */); if (!ts.length(signaturesOfParam)) continue; for (var _b = 0, signaturesOfParam_1 = signaturesOfParam; _b < signaturesOfParam_1.length; _b++) { var paramSig = signaturesOfParam_1[_b]; hasFirstParamSignatures = true; if (hasEffectiveRestParameter(paramSig)) { return true; // some signature has a rest param, so function components can have an arbitrary number of arguments } var paramCount = getParameterCount(paramSig); if (paramCount > maxParamCount) { maxParamCount = paramCount; } } } if (!hasFirstParamSignatures) { // Not a single signature had a first parameter which expected a signature - for back compat, and // to guard against generic factories which won't have signatures directly, do not error return true; } var absoluteMinArgCount = Infinity; for (var _c = 0, tagCallSignatures_1 = tagCallSignatures; _c < tagCallSignatures_1.length; _c++) { var tagSig = tagCallSignatures_1[_c]; var tagRequiredArgCount = getMinArgumentCount(tagSig); if (tagRequiredArgCount < absoluteMinArgCount) { absoluteMinArgCount = tagRequiredArgCount; } } if (absoluteMinArgCount <= maxParamCount) { return true; // some signature accepts the number of arguments the function component provides } if (reportErrors) { var diag = ts.createDiagnosticForNode(node.tagName, ts.Diagnostics.Tag_0_expects_at_least_1_arguments_but_the_JSX_factory_2_provides_at_most_3, ts.entityNameToString(node.tagName), absoluteMinArgCount, ts.entityNameToString(factory), maxParamCount); var tagNameDeclaration = (_a = getSymbolAtLocation(node.tagName)) === null || _a === void 0 ? void 0 : _a.valueDeclaration; if (tagNameDeclaration) { ts.addRelatedInfo(diag, ts.createDiagnosticForNode(tagNameDeclaration, ts.Diagnostics._0_is_declared_here, ts.entityNameToString(node.tagName))); } if (errorOutputContainer && errorOutputContainer.skipLogging) { (errorOutputContainer.errors || (errorOutputContainer.errors = [])).push(diag); } if (!errorOutputContainer.skipLogging) { diagnostics.add(diag); } } return false; } } function getSignatureApplicabilityError(node, args, signature, relation, checkMode, reportErrors, containingMessageChain) { var errorOutputContainer = { errors: undefined, skipLogging: true }; if (ts.isJsxOpeningLikeElement(node)) { if (!checkApplicableSignatureForJsxOpeningLikeElement(node, signature, relation, checkMode, reportErrors, containingMessageChain, errorOutputContainer)) { ts.Debug.assert(!reportErrors || !!errorOutputContainer.errors, "jsx should have errors when reporting errors"); return errorOutputContainer.errors || ts.emptyArray; } return undefined; } var thisType = getThisTypeOfSignature(signature); if (thisType && thisType !== voidType && node.kind !== 197 /* NewExpression */) { // If the called expression is not of the form `x.f` or `x["f"]`, then sourceType = voidType // If the signature's 'this' type is voidType, then the check is skipped -- anything is compatible. // If the expression is a new expression, then the check is skipped. var thisArgumentNode = getThisArgumentOfCall(node); var thisArgumentType = void 0; if (thisArgumentNode) { thisArgumentType = checkExpression(thisArgumentNode); if (ts.isOptionalChainRoot(thisArgumentNode.parent)) { thisArgumentType = getNonNullableType(thisArgumentType); } else if (ts.isOptionalChain(thisArgumentNode.parent)) { thisArgumentType = removeOptionalTypeMarker(thisArgumentType); } } else { thisArgumentType = voidType; } var errorNode = reportErrors ? (thisArgumentNode || node) : undefined; var headMessage_1 = ts.Diagnostics.The_this_context_of_type_0_is_not_assignable_to_method_s_this_of_type_1; if (!checkTypeRelatedTo(thisArgumentType, thisType, relation, errorNode, headMessage_1, containingMessageChain, errorOutputContainer)) { ts.Debug.assert(!reportErrors || !!errorOutputContainer.errors, "this parameter should have errors when reporting errors"); return errorOutputContainer.errors || ts.emptyArray; } } var headMessage = ts.Diagnostics.Argument_of_type_0_is_not_assignable_to_parameter_of_type_1; var restType = getNonArrayRestType(signature); var argCount = restType ? Math.min(getParameterCount(signature) - 1, args.length) : args.length; for (var i = 0; i < argCount; i++) { var arg = args[i]; if (arg.kind !== 215 /* OmittedExpression */) { var paramType = getTypeAtPosition(signature, i); var argType = checkExpressionWithContextualType(arg, paramType, /*inferenceContext*/ undefined, checkMode); // If one or more arguments are still excluded (as indicated by CheckMode.SkipContextSensitive), // we obtain the regular type of any object literal arguments because we may not have inferred complete // parameter types yet and therefore excess property checks may yield false positives (see #17041). var checkArgType = checkMode & 4 /* SkipContextSensitive */ ? getRegularTypeOfObjectLiteral(argType) : argType; if (!checkTypeRelatedToAndOptionallyElaborate(checkArgType, paramType, relation, reportErrors ? arg : undefined, arg, headMessage, containingMessageChain, errorOutputContainer)) { ts.Debug.assert(!reportErrors || !!errorOutputContainer.errors, "parameter should have errors when reporting errors"); maybeAddMissingAwaitInfo(arg, checkArgType, paramType); return errorOutputContainer.errors || ts.emptyArray; } } } if (restType) { var spreadType = getSpreadArgumentType(args, argCount, args.length, restType, /*context*/ undefined); var errorNode = reportErrors ? argCount < args.length ? args[argCount] : node : undefined; if (!checkTypeRelatedTo(spreadType, restType, relation, errorNode, headMessage, /*containingMessageChain*/ undefined, errorOutputContainer)) { ts.Debug.assert(!reportErrors || !!errorOutputContainer.errors, "rest parameter should have errors when reporting errors"); maybeAddMissingAwaitInfo(errorNode, spreadType, restType); return errorOutputContainer.errors || ts.emptyArray; } } return undefined; function maybeAddMissingAwaitInfo(errorNode, source, target) { if (errorNode && reportErrors && errorOutputContainer.errors && errorOutputContainer.errors.length) { // Bail if target is Promise-like---something else is wrong if (getAwaitedTypeOfPromise(target)) { return; } var awaitedTypeOfSource = getAwaitedTypeOfPromise(source); if (awaitedTypeOfSource && isTypeRelatedTo(awaitedTypeOfSource, target, relation)) { ts.addRelatedInfo(errorOutputContainer.errors[0], ts.createDiagnosticForNode(errorNode, ts.Diagnostics.Did_you_forget_to_use_await)); } } } } /** * Returns the this argument in calls like x.f(...) and x[f](...). Undefined otherwise. */ function getThisArgumentOfCall(node) { if (node.kind === 196 /* CallExpression */) { var callee = ts.skipOuterExpressions(node.expression); if (ts.isAccessExpression(callee)) { return callee.expression; } } } function createSyntheticExpression(parent, type, isSpread) { var result = ts.createNode(220 /* SyntheticExpression */, parent.pos, parent.end); result.parent = parent; result.type = type; result.isSpread = isSpread || false; return result; } /** * Returns the effective arguments for an expression that works like a function invocation. */ function getEffectiveCallArguments(node) { if (node.kind === 198 /* TaggedTemplateExpression */) { var template = node.template; var args_3 = [createSyntheticExpression(template, getGlobalTemplateStringsArrayType())]; if (template.kind === 211 /* TemplateExpression */) { ts.forEach(template.templateSpans, function (span) { args_3.push(span.expression); }); } return args_3; } if (node.kind === 157 /* Decorator */) { return getEffectiveDecoratorArguments(node); } if (ts.isJsxOpeningLikeElement(node)) { return node.attributes.properties.length > 0 || (ts.isJsxOpeningElement(node) && node.parent.children.length > 0) ? [node.attributes] : ts.emptyArray; } var args = node.arguments || ts.emptyArray; var length = args.length; if (length && isSpreadArgument(args[length - 1]) && getSpreadArgumentIndex(args) === length - 1) { // We have a spread argument in the last position and no other spread arguments. If the type // of the argument is a tuple type, spread the tuple elements into the argument list. We can // call checkExpressionCached because spread expressions never have a contextual type. var spreadArgument_1 = args[length - 1]; var type = flowLoopCount ? checkExpression(spreadArgument_1.expression) : checkExpressionCached(spreadArgument_1.expression); if (isTupleType(type)) { var typeArguments = getTypeArguments(type); var restIndex_2 = type.target.hasRestElement ? typeArguments.length - 1 : -1; var syntheticArgs = ts.map(typeArguments, function (t, i) { return createSyntheticExpression(spreadArgument_1, t, /*isSpread*/ i === restIndex_2); }); return ts.concatenate(args.slice(0, length - 1), syntheticArgs); } } return args; } /** * Returns the synthetic argument list for a decorator invocation. */ function getEffectiveDecoratorArguments(node) { var parent = node.parent; var expr = node.expression; switch (parent.kind) { case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: // For a class decorator, the `target` is the type of the class (e.g. the // "static" or "constructor" side of the class). return [ createSyntheticExpression(expr, getTypeOfSymbol(getSymbolOfNode(parent))) ]; case 156 /* Parameter */: // A parameter declaration decorator will have three arguments (see // `ParameterDecorator` in core.d.ts). var func = parent.parent; return [ createSyntheticExpression(expr, parent.parent.kind === 162 /* Constructor */ ? getTypeOfSymbol(getSymbolOfNode(func)) : errorType), createSyntheticExpression(expr, anyType), createSyntheticExpression(expr, numberType) ]; case 159 /* PropertyDeclaration */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: // A method or accessor declaration decorator will have two or three arguments (see // `PropertyDecorator` and `MethodDecorator` in core.d.ts). If we are emitting decorators // for ES3, we will only pass two arguments. var hasPropDesc = parent.kind !== 159 /* PropertyDeclaration */ && languageVersion !== 0 /* ES3 */; return [ createSyntheticExpression(expr, getParentTypeOfClassElement(parent)), createSyntheticExpression(expr, getClassElementPropertyKeyType(parent)), createSyntheticExpression(expr, hasPropDesc ? createTypedPropertyDescriptorType(getTypeOfNode(parent)) : anyType) ]; } return ts.Debug.fail(); } /** * Returns the argument count for a decorator node that works like a function invocation. */ function getDecoratorArgumentCount(node, signature) { switch (node.parent.kind) { case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return 1; case 159 /* PropertyDeclaration */: return 2; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: // For ES3 or decorators with only two parameters we supply only two arguments return languageVersion === 0 /* ES3 */ || signature.parameters.length <= 2 ? 2 : 3; case 156 /* Parameter */: return 3; default: return ts.Debug.fail(); } } function getDiagnosticSpanForCallNode(node, doNotIncludeArguments) { var start; var length; var sourceFile = ts.getSourceFileOfNode(node); if (ts.isPropertyAccessExpression(node.expression)) { var nameSpan = ts.getErrorSpanForNode(sourceFile, node.expression.name); start = nameSpan.start; length = doNotIncludeArguments ? nameSpan.length : node.end - start; } else { var expressionSpan = ts.getErrorSpanForNode(sourceFile, node.expression); start = expressionSpan.start; length = doNotIncludeArguments ? expressionSpan.length : node.end - start; } return { start: start, length: length, sourceFile: sourceFile }; } function getDiagnosticForCallNode(node, message, arg0, arg1, arg2, arg3) { if (ts.isCallExpression(node)) { var _a = getDiagnosticSpanForCallNode(node), sourceFile = _a.sourceFile, start = _a.start, length_5 = _a.length; return ts.createFileDiagnostic(sourceFile, start, length_5, message, arg0, arg1, arg2, arg3); } else { return ts.createDiagnosticForNode(node, message, arg0, arg1, arg2, arg3); } } function getArgumentArityError(node, signatures, args) { var min = Number.POSITIVE_INFINITY; var max = Number.NEGATIVE_INFINITY; var belowArgCount = Number.NEGATIVE_INFINITY; var aboveArgCount = Number.POSITIVE_INFINITY; var argCount = args.length; var closestSignature; for (var _i = 0, signatures_8 = signatures; _i < signatures_8.length; _i++) { var sig = signatures_8[_i]; var minCount = getMinArgumentCount(sig); var maxCount = getParameterCount(sig); if (minCount < argCount && minCount > belowArgCount) belowArgCount = minCount; if (argCount < maxCount && maxCount < aboveArgCount) aboveArgCount = maxCount; if (minCount < min) { min = minCount; closestSignature = sig; } max = Math.max(max, maxCount); } var hasRestParameter = ts.some(signatures, hasEffectiveRestParameter); var paramRange = hasRestParameter ? min : min < max ? min + "-" + max : min; var hasSpreadArgument = getSpreadArgumentIndex(args) > -1; if (argCount <= max && hasSpreadArgument) { argCount--; } var spanArray; var related; var error = hasRestParameter || hasSpreadArgument ? hasRestParameter && hasSpreadArgument ? ts.Diagnostics.Expected_at_least_0_arguments_but_got_1_or_more : hasRestParameter ? ts.Diagnostics.Expected_at_least_0_arguments_but_got_1 : ts.Diagnostics.Expected_0_arguments_but_got_1_or_more : ts.Diagnostics.Expected_0_arguments_but_got_1; if (closestSignature && getMinArgumentCount(closestSignature) > argCount && closestSignature.declaration) { var paramDecl = closestSignature.declaration.parameters[closestSignature.thisParameter ? argCount + 1 : argCount]; if (paramDecl) { related = ts.createDiagnosticForNode(paramDecl, ts.isBindingPattern(paramDecl.name) ? ts.Diagnostics.An_argument_matching_this_binding_pattern_was_not_provided : ts.Diagnostics.An_argument_for_0_was_not_provided, !paramDecl.name ? argCount : !ts.isBindingPattern(paramDecl.name) ? ts.idText(ts.getFirstIdentifier(paramDecl.name)) : undefined); } } if (min < argCount && argCount < max) { return getDiagnosticForCallNode(node, ts.Diagnostics.No_overload_expects_0_arguments_but_overloads_do_exist_that_expect_either_1_or_2_arguments, argCount, belowArgCount, aboveArgCount); } if (!hasSpreadArgument && argCount < min) { var diagnostic_1 = getDiagnosticForCallNode(node, error, paramRange, argCount); return related ? ts.addRelatedInfo(diagnostic_1, related) : diagnostic_1; } if (hasRestParameter || hasSpreadArgument) { spanArray = ts.createNodeArray(args); if (hasSpreadArgument && argCount) { var nextArg = ts.elementAt(args, getSpreadArgumentIndex(args) + 1) || undefined; spanArray = ts.createNodeArray(args.slice(max > argCount && nextArg ? args.indexOf(nextArg) : Math.min(max, args.length - 1))); } } else { spanArray = ts.createNodeArray(args.slice(max)); } spanArray.pos = ts.first(spanArray).pos; spanArray.end = ts.last(spanArray).end; if (spanArray.end === spanArray.pos) { spanArray.end++; } var diagnostic = ts.createDiagnosticForNodeArray(ts.getSourceFileOfNode(node), spanArray, error, paramRange, argCount); return related ? ts.addRelatedInfo(diagnostic, related) : diagnostic; } function getTypeArgumentArityError(node, signatures, typeArguments) { var argCount = typeArguments.length; // No overloads exist if (signatures.length === 1) { var sig = signatures[0]; var min_1 = getMinTypeArgumentCount(sig.typeParameters); var max = ts.length(sig.typeParameters); return ts.createDiagnosticForNodeArray(ts.getSourceFileOfNode(node), typeArguments, ts.Diagnostics.Expected_0_type_arguments_but_got_1, min_1 < max ? min_1 + "-" + max : min_1, argCount); } // Overloads exist var belowArgCount = -Infinity; var aboveArgCount = Infinity; for (var _i = 0, signatures_9 = signatures; _i < signatures_9.length; _i++) { var sig = signatures_9[_i]; var min_2 = getMinTypeArgumentCount(sig.typeParameters); var max = ts.length(sig.typeParameters); if (min_2 > argCount) { aboveArgCount = Math.min(aboveArgCount, min_2); } else if (max < argCount) { belowArgCount = Math.max(belowArgCount, max); } } if (belowArgCount !== -Infinity && aboveArgCount !== Infinity) { return ts.createDiagnosticForNodeArray(ts.getSourceFileOfNode(node), typeArguments, ts.Diagnostics.No_overload_expects_0_type_arguments_but_overloads_do_exist_that_expect_either_1_or_2_type_arguments, argCount, belowArgCount, aboveArgCount); } return ts.createDiagnosticForNodeArray(ts.getSourceFileOfNode(node), typeArguments, ts.Diagnostics.Expected_0_type_arguments_but_got_1, belowArgCount === -Infinity ? aboveArgCount : belowArgCount, argCount); } function resolveCall(node, signatures, candidatesOutArray, checkMode, callChainFlags, fallbackError) { var isTaggedTemplate = node.kind === 198 /* TaggedTemplateExpression */; var isDecorator = node.kind === 157 /* Decorator */; var isJsxOpeningOrSelfClosingElement = ts.isJsxOpeningLikeElement(node); var reportErrors = !candidatesOutArray; var typeArguments; if (!isDecorator) { typeArguments = node.typeArguments; // We already perform checking on the type arguments on the class declaration itself. if (isTaggedTemplate || isJsxOpeningOrSelfClosingElement || node.expression.kind !== 102 /* SuperKeyword */) { ts.forEach(typeArguments, checkSourceElement); } } var candidates = candidatesOutArray || []; // reorderCandidates fills up the candidates array directly reorderCandidates(signatures, candidates, callChainFlags); if (!candidates.length) { if (reportErrors) { diagnostics.add(getDiagnosticForCallNode(node, ts.Diagnostics.Call_target_does_not_contain_any_signatures)); } return resolveErrorCall(node); } var args = getEffectiveCallArguments(node); // The excludeArgument array contains true for each context sensitive argument (an argument // is context sensitive it is susceptible to a one-time permanent contextual typing). // // The idea is that we will perform type argument inference & assignability checking once // without using the susceptible parameters that are functions, and once more for those // parameters, contextually typing each as we go along. // // For a tagged template, then the first argument be 'undefined' if necessary because it // represents a TemplateStringsArray. // // For a decorator, no arguments are susceptible to contextual typing due to the fact // decorators are applied to a declaration by the emitter, and not to an expression. var isSingleNonGenericCandidate = candidates.length === 1 && !candidates[0].typeParameters; var argCheckMode = !isDecorator && !isSingleNonGenericCandidate && ts.some(args, isContextSensitive) ? 4 /* SkipContextSensitive */ : 0 /* Normal */; // The following variables are captured and modified by calls to chooseOverload. // If overload resolution or type argument inference fails, we want to report the // best error possible. The best error is one which says that an argument was not // assignable to a parameter. This implies that everything else about the overload // was fine. So if there is any overload that is only incorrect because of an // argument, we will report an error on that one. // // function foo(s: string): void; // function foo(n: number): void; // Report argument error on this overload // function foo(): void; // foo(true); // // If none of the overloads even made it that far, there are two possibilities. // There was a problem with type arguments for some overload, in which case // report an error on that. Or none of the overloads even had correct arity, // in which case give an arity error. // // function foo(x: T): void; // Report type argument error // function foo(): void; // foo(0); // var candidatesForArgumentError; var candidateForArgumentArityError; var candidateForTypeArgumentError; var result; // If we are in signature help, a trailing comma indicates that we intend to provide another argument, // so we will only accept overloads with arity at least 1 higher than the current number of provided arguments. var signatureHelpTrailingComma = !!(checkMode & 16 /* IsForSignatureHelp */) && node.kind === 196 /* CallExpression */ && node.arguments.hasTrailingComma; // Section 4.12.1: // if the candidate list contains one or more signatures for which the type of each argument // expression is a subtype of each corresponding parameter type, the return type of the first // of those signatures becomes the return type of the function call. // Otherwise, the return type of the first signature in the candidate list becomes the return // type of the function call. // // Whether the call is an error is determined by assignability of the arguments. The subtype pass // is just important for choosing the best signature. So in the case where there is only one // signature, the subtype pass is useless. So skipping it is an optimization. if (candidates.length > 1) { result = chooseOverload(candidates, subtypeRelation, signatureHelpTrailingComma); } if (!result) { result = chooseOverload(candidates, assignableRelation, signatureHelpTrailingComma); } if (result) { return result; } // No signatures were applicable. Now report errors based on the last applicable signature with // no arguments excluded from assignability checks. // If candidate is undefined, it means that no candidates had a suitable arity. In that case, // skip the checkApplicableSignature check. if (reportErrors) { if (candidatesForArgumentError) { if (candidatesForArgumentError.length === 1 || candidatesForArgumentError.length > 3) { var last_2 = candidatesForArgumentError[candidatesForArgumentError.length - 1]; var chain_1; if (candidatesForArgumentError.length > 3) { chain_1 = ts.chainDiagnosticMessages(chain_1, ts.Diagnostics.The_last_overload_gave_the_following_error); chain_1 = ts.chainDiagnosticMessages(chain_1, ts.Diagnostics.No_overload_matches_this_call); } var diags = getSignatureApplicabilityError(node, args, last_2, assignableRelation, 0 /* Normal */, /*reportErrors*/ true, function () { return chain_1; }); if (diags) { for (var _i = 0, diags_1 = diags; _i < diags_1.length; _i++) { var d = diags_1[_i]; if (last_2.declaration && candidatesForArgumentError.length > 3) { ts.addRelatedInfo(d, ts.createDiagnosticForNode(last_2.declaration, ts.Diagnostics.The_last_overload_is_declared_here)); } diagnostics.add(d); } } else { ts.Debug.fail("No error for last overload signature"); } } else { var allDiagnostics = []; var max = 0; var min_3 = Number.MAX_VALUE; var minIndex = 0; var i_1 = 0; var _loop_17 = function (c) { var chain_2 = function () { return ts.chainDiagnosticMessages(/*details*/ undefined, ts.Diagnostics.Overload_0_of_1_2_gave_the_following_error, i_1 + 1, candidates.length, signatureToString(c)); }; var diags_2 = getSignatureApplicabilityError(node, args, c, assignableRelation, 0 /* Normal */, /*reportErrors*/ true, chain_2); if (diags_2) { if (diags_2.length <= min_3) { min_3 = diags_2.length; minIndex = i_1; } max = Math.max(max, diags_2.length); allDiagnostics.push(diags_2); } else { ts.Debug.fail("No error for 3 or fewer overload signatures"); } i_1++; }; for (var _a = 0, candidatesForArgumentError_1 = candidatesForArgumentError; _a < candidatesForArgumentError_1.length; _a++) { var c = candidatesForArgumentError_1[_a]; _loop_17(c); } var diags_3 = max > 1 ? allDiagnostics[minIndex] : ts.flatten(allDiagnostics); ts.Debug.assert(diags_3.length > 0, "No errors reported for 3 or fewer overload signatures"); var chain = ts.chainDiagnosticMessages(ts.map(diags_3, function (d) { return typeof d.messageText === "string" ? d : d.messageText; }), ts.Diagnostics.No_overload_matches_this_call); var related = ts.flatMap(diags_3, function (d) { return d.relatedInformation; }); if (ts.every(diags_3, function (d) { return d.start === diags_3[0].start && d.length === diags_3[0].length && d.file === diags_3[0].file; })) { var _b = diags_3[0], file = _b.file, start = _b.start, length_6 = _b.length; diagnostics.add({ file: file, start: start, length: length_6, code: chain.code, category: chain.category, messageText: chain, relatedInformation: related }); } else { diagnostics.add(ts.createDiagnosticForNodeFromMessageChain(node, chain, related)); } } } else if (candidateForArgumentArityError) { diagnostics.add(getArgumentArityError(node, [candidateForArgumentArityError], args)); } else if (candidateForTypeArgumentError) { checkTypeArguments(candidateForTypeArgumentError, node.typeArguments, /*reportErrors*/ true, fallbackError); } else { var signaturesWithCorrectTypeArgumentArity = ts.filter(signatures, function (s) { return hasCorrectTypeArgumentArity(s, typeArguments); }); if (signaturesWithCorrectTypeArgumentArity.length === 0) { diagnostics.add(getTypeArgumentArityError(node, signatures, typeArguments)); } else if (!isDecorator) { diagnostics.add(getArgumentArityError(node, signaturesWithCorrectTypeArgumentArity, args)); } else if (fallbackError) { diagnostics.add(getDiagnosticForCallNode(node, fallbackError)); } } } return getCandidateForOverloadFailure(node, candidates, args, !!candidatesOutArray); function chooseOverload(candidates, relation, signatureHelpTrailingComma) { if (signatureHelpTrailingComma === void 0) { signatureHelpTrailingComma = false; } candidatesForArgumentError = undefined; candidateForArgumentArityError = undefined; candidateForTypeArgumentError = undefined; if (isSingleNonGenericCandidate) { var candidate = candidates[0]; if (ts.some(typeArguments) || !hasCorrectArity(node, args, candidate, signatureHelpTrailingComma)) { return undefined; } if (getSignatureApplicabilityError(node, args, candidate, relation, 0 /* Normal */, /*reportErrors*/ false, /*containingMessageChain*/ undefined)) { candidatesForArgumentError = [candidate]; return undefined; } return candidate; } for (var candidateIndex = 0; candidateIndex < candidates.length; candidateIndex++) { var candidate = candidates[candidateIndex]; if (!hasCorrectTypeArgumentArity(candidate, typeArguments) || !hasCorrectArity(node, args, candidate, signatureHelpTrailingComma)) { continue; } var checkCandidate = void 0; var inferenceContext = void 0; if (candidate.typeParameters) { var typeArgumentTypes = void 0; if (ts.some(typeArguments)) { typeArgumentTypes = checkTypeArguments(candidate, typeArguments, /*reportErrors*/ false); if (!typeArgumentTypes) { candidateForTypeArgumentError = candidate; continue; } } else { inferenceContext = createInferenceContext(candidate.typeParameters, candidate, /*flags*/ ts.isInJSFile(node) ? 2 /* AnyDefault */ : 0 /* None */); typeArgumentTypes = inferTypeArguments(node, candidate, args, argCheckMode | 8 /* SkipGenericFunctions */, inferenceContext); argCheckMode |= inferenceContext.flags & 4 /* SkippedGenericFunction */ ? 8 /* SkipGenericFunctions */ : 0 /* Normal */; } checkCandidate = getSignatureInstantiation(candidate, typeArgumentTypes, ts.isInJSFile(candidate.declaration), inferenceContext && inferenceContext.inferredTypeParameters); // If the original signature has a generic rest type, instantiation may produce a // signature with different arity and we need to perform another arity check. if (getNonArrayRestType(candidate) && !hasCorrectArity(node, args, checkCandidate, signatureHelpTrailingComma)) { candidateForArgumentArityError = checkCandidate; continue; } } else { checkCandidate = candidate; } if (getSignatureApplicabilityError(node, args, checkCandidate, relation, argCheckMode, /*reportErrors*/ false, /*containingMessageChain*/ undefined)) { // Give preference to error candidates that have no rest parameters (as they are more specific) (candidatesForArgumentError || (candidatesForArgumentError = [])).push(checkCandidate); continue; } if (argCheckMode) { // If one or more context sensitive arguments were excluded, we start including // them now (and keeping do so for any subsequent candidates) and perform a second // round of type inference and applicability checking for this particular candidate. argCheckMode = 0 /* Normal */; if (inferenceContext) { var typeArgumentTypes = inferTypeArguments(node, candidate, args, argCheckMode, inferenceContext); checkCandidate = getSignatureInstantiation(candidate, typeArgumentTypes, ts.isInJSFile(candidate.declaration), inferenceContext && inferenceContext.inferredTypeParameters); // If the original signature has a generic rest type, instantiation may produce a // signature with different arity and we need to perform another arity check. if (getNonArrayRestType(candidate) && !hasCorrectArity(node, args, checkCandidate, signatureHelpTrailingComma)) { candidateForArgumentArityError = checkCandidate; continue; } } if (getSignatureApplicabilityError(node, args, checkCandidate, relation, argCheckMode, /*reportErrors*/ false, /*containingMessageChain*/ undefined)) { // Give preference to error candidates that have no rest parameters (as they are more specific) (candidatesForArgumentError || (candidatesForArgumentError = [])).push(checkCandidate); continue; } } candidates[candidateIndex] = checkCandidate; return checkCandidate; } return undefined; } } // No signature was applicable. We have already reported the errors for the invalid signature. function getCandidateForOverloadFailure(node, candidates, args, hasCandidatesOutArray) { ts.Debug.assert(candidates.length > 0); // Else should not have called this. checkNodeDeferred(node); // Normally we will combine overloads. Skip this if they have type parameters since that's hard to combine. // Don't do this if there is a `candidatesOutArray`, // because then we want the chosen best candidate to be one of the overloads, not a combination. return hasCandidatesOutArray || candidates.length === 1 || candidates.some(function (c) { return !!c.typeParameters; }) ? pickLongestCandidateSignature(node, candidates, args) : createUnionOfSignaturesForOverloadFailure(candidates); } function createUnionOfSignaturesForOverloadFailure(candidates) { var thisParameters = ts.mapDefined(candidates, function (c) { return c.thisParameter; }); var thisParameter; if (thisParameters.length) { thisParameter = createCombinedSymbolFromTypes(thisParameters, thisParameters.map(getTypeOfParameter)); } var _a = ts.minAndMax(candidates, getNumNonRestParameters), minArgumentCount = _a.min, maxNonRestParam = _a.max; var parameters = []; var _loop_18 = function (i) { var symbols = ts.mapDefined(candidates, function (s) { return signatureHasRestParameter(s) ? i < s.parameters.length - 1 ? s.parameters[i] : ts.last(s.parameters) : i < s.parameters.length ? s.parameters[i] : undefined; }); ts.Debug.assert(symbols.length !== 0); parameters.push(createCombinedSymbolFromTypes(symbols, ts.mapDefined(candidates, function (candidate) { return tryGetTypeAtPosition(candidate, i); }))); }; for (var i = 0; i < maxNonRestParam; i++) { _loop_18(i); } var restParameterSymbols = ts.mapDefined(candidates, function (c) { return signatureHasRestParameter(c) ? ts.last(c.parameters) : undefined; }); var flags = 0 /* None */; if (restParameterSymbols.length !== 0) { var type = createArrayType(getUnionType(ts.mapDefined(candidates, tryGetRestTypeOfSignature), 2 /* Subtype */)); parameters.push(createCombinedSymbolForOverloadFailure(restParameterSymbols, type)); flags |= 1 /* HasRestParameter */; } if (candidates.some(signatureHasLiteralTypes)) { flags |= 2 /* HasLiteralTypes */; } return createSignature(candidates[0].declaration, /*typeParameters*/ undefined, // Before calling this we tested for `!candidates.some(c => !!c.typeParameters)`. thisParameter, parameters, /*resolvedReturnType*/ getIntersectionType(candidates.map(getReturnTypeOfSignature)), /*typePredicate*/ undefined, minArgumentCount, flags); } function getNumNonRestParameters(signature) { var numParams = signature.parameters.length; return signatureHasRestParameter(signature) ? numParams - 1 : numParams; } function createCombinedSymbolFromTypes(sources, types) { return createCombinedSymbolForOverloadFailure(sources, getUnionType(types, 2 /* Subtype */)); } function createCombinedSymbolForOverloadFailure(sources, type) { // This function is currently only used for erroneous overloads, so it's good enough to just use the first source. return createSymbolWithType(ts.first(sources), type); } function pickLongestCandidateSignature(node, candidates, args) { // Pick the longest signature. This way we can get a contextual type for cases like: // declare function f(a: { xa: number; xb: number; }, b: number); // f({ | // Also, use explicitly-supplied type arguments if they are provided, so we can get a contextual signature in cases like: // declare function f(k: keyof T); // f(" var bestIndex = getLongestCandidateIndex(candidates, apparentArgumentCount === undefined ? args.length : apparentArgumentCount); var candidate = candidates[bestIndex]; var typeParameters = candidate.typeParameters; if (!typeParameters) { return candidate; } var typeArgumentNodes = callLikeExpressionMayHaveTypeArguments(node) ? node.typeArguments : undefined; var instantiated = typeArgumentNodes ? createSignatureInstantiation(candidate, getTypeArgumentsFromNodes(typeArgumentNodes, typeParameters, ts.isInJSFile(node))) : inferSignatureInstantiationForOverloadFailure(node, typeParameters, candidate, args); candidates[bestIndex] = instantiated; return instantiated; } function getTypeArgumentsFromNodes(typeArgumentNodes, typeParameters, isJs) { var typeArguments = typeArgumentNodes.map(getTypeOfNode); while (typeArguments.length > typeParameters.length) { typeArguments.pop(); } while (typeArguments.length < typeParameters.length) { typeArguments.push(getConstraintOfTypeParameter(typeParameters[typeArguments.length]) || getDefaultTypeArgumentType(isJs)); } return typeArguments; } function inferSignatureInstantiationForOverloadFailure(node, typeParameters, candidate, args) { var inferenceContext = createInferenceContext(typeParameters, candidate, /*flags*/ ts.isInJSFile(node) ? 2 /* AnyDefault */ : 0 /* None */); var typeArgumentTypes = inferTypeArguments(node, candidate, args, 4 /* SkipContextSensitive */ | 8 /* SkipGenericFunctions */, inferenceContext); return createSignatureInstantiation(candidate, typeArgumentTypes); } function getLongestCandidateIndex(candidates, argsCount) { var maxParamsIndex = -1; var maxParams = -1; for (var i = 0; i < candidates.length; i++) { var candidate = candidates[i]; var paramCount = getParameterCount(candidate); if (hasEffectiveRestParameter(candidate) || paramCount >= argsCount) { return i; } if (paramCount > maxParams) { maxParams = paramCount; maxParamsIndex = i; } } return maxParamsIndex; } function resolveCallExpression(node, candidatesOutArray, checkMode) { if (node.expression.kind === 102 /* SuperKeyword */) { var superType = checkSuperExpression(node.expression); if (isTypeAny(superType)) { for (var _i = 0, _a = node.arguments; _i < _a.length; _i++) { var arg = _a[_i]; checkExpression(arg); // Still visit arguments so they get marked for visibility, etc } return anySignature; } if (superType !== errorType) { // In super call, the candidate signatures are the matching arity signatures of the base constructor function instantiated // with the type arguments specified in the extends clause. var baseTypeNode = ts.getEffectiveBaseTypeNode(ts.getContainingClass(node)); if (baseTypeNode) { var baseConstructors = getInstantiatedConstructorsForTypeArguments(superType, baseTypeNode.typeArguments, baseTypeNode); return resolveCall(node, baseConstructors, candidatesOutArray, checkMode, 0 /* None */); } } return resolveUntypedCall(node); } var callChainFlags; var funcType = checkExpression(node.expression); if (ts.isCallChain(node)) { var nonOptionalType = getOptionalExpressionType(funcType, node.expression); callChainFlags = nonOptionalType === funcType ? 0 /* None */ : ts.isOutermostOptionalChain(node) ? 8 /* IsOuterCallChain */ : 4 /* IsInnerCallChain */; funcType = nonOptionalType; } else { callChainFlags = 0 /* None */; } funcType = checkNonNullTypeWithReporter(funcType, node.expression, reportCannotInvokePossiblyNullOrUndefinedError); if (funcType === silentNeverType) { return silentNeverSignature; } var apparentType = getApparentType(funcType); if (apparentType === errorType) { // Another error has already been reported return resolveErrorCall(node); } // Technically, this signatures list may be incomplete. We are taking the apparent type, // but we are not including call signatures that may have been added to the Object or // Function interface, since they have none by default. This is a bit of a leap of faith // that the user will not add any. var callSignatures = getSignaturesOfType(apparentType, 0 /* Call */); var numConstructSignatures = getSignaturesOfType(apparentType, 1 /* Construct */).length; // TS 1.0 Spec: 4.12 // In an untyped function call no TypeArgs are permitted, Args can be any argument list, no contextual // types are provided for the argument expressions, and the result is always of type Any. if (isUntypedFunctionCall(funcType, apparentType, callSignatures.length, numConstructSignatures)) { // The unknownType indicates that an error already occurred (and was reported). No // need to report another error in this case. if (funcType !== errorType && node.typeArguments) { error(node, ts.Diagnostics.Untyped_function_calls_may_not_accept_type_arguments); } return resolveUntypedCall(node); } // If FuncExpr's apparent type(section 3.8.1) is a function type, the call is a typed function call. // TypeScript employs overload resolution in typed function calls in order to support functions // with multiple call signatures. if (!callSignatures.length) { if (numConstructSignatures) { error(node, ts.Diagnostics.Value_of_type_0_is_not_callable_Did_you_mean_to_include_new, typeToString(funcType)); } else { var relatedInformation = void 0; if (node.arguments.length === 1) { var text = ts.getSourceFileOfNode(node).text; if (ts.isLineBreak(text.charCodeAt(ts.skipTrivia(text, node.expression.end, /* stopAfterLineBreak */ true) - 1))) { relatedInformation = ts.createDiagnosticForNode(node.expression, ts.Diagnostics.Are_you_missing_a_semicolon); } } invocationError(node.expression, apparentType, 0 /* Call */, relatedInformation); } return resolveErrorCall(node); } // When a call to a generic function is an argument to an outer call to a generic function for which // inference is in process, we have a choice to make. If the inner call relies on inferences made from // its contextual type to its return type, deferring the inner call processing allows the best possible // contextual type to accumulate. But if the outer call relies on inferences made from the return type of // the inner call, the inner call should be processed early. There's no sure way to know which choice is // right (only a full unification algorithm can determine that), so we resort to the following heuristic: // If no type arguments are specified in the inner call and at least one call signature is generic and // returns a function type, we choose to defer processing. This narrowly permits function composition // operators to flow inferences through return types, but otherwise processes calls right away. We // use the resolvingSignature singleton to indicate that we deferred processing. This result will be // propagated out and eventually turned into nonInferrableType (a type that is assignable to anything and // from which we never make inferences). if (checkMode & 8 /* SkipGenericFunctions */ && !node.typeArguments && callSignatures.some(isGenericFunctionReturningFunction)) { skippedGenericFunction(node, checkMode); return resolvingSignature; } // If the function is explicitly marked with `@class`, then it must be constructed. if (callSignatures.some(function (sig) { return ts.isInJSFile(sig.declaration) && !!ts.getJSDocClassTag(sig.declaration); })) { error(node, ts.Diagnostics.Value_of_type_0_is_not_callable_Did_you_mean_to_include_new, typeToString(funcType)); return resolveErrorCall(node); } return resolveCall(node, callSignatures, candidatesOutArray, checkMode, callChainFlags); } function isGenericFunctionReturningFunction(signature) { return !!(signature.typeParameters && isFunctionType(getReturnTypeOfSignature(signature))); } /** * TS 1.0 spec: 4.12 * If FuncExpr is of type Any, or of an object type that has no call or construct signatures * but is a subtype of the Function interface, the call is an untyped function call. */ function isUntypedFunctionCall(funcType, apparentFuncType, numCallSignatures, numConstructSignatures) { // We exclude union types because we may have a union of function types that happen to have no common signatures. return isTypeAny(funcType) || isTypeAny(apparentFuncType) && !!(funcType.flags & 262144 /* TypeParameter */) || !numCallSignatures && !numConstructSignatures && !(apparentFuncType.flags & (1048576 /* Union */ | 131072 /* Never */)) && isTypeAssignableTo(funcType, globalFunctionType); } function resolveNewExpression(node, candidatesOutArray, checkMode) { if (node.arguments && languageVersion < 1 /* ES5 */) { var spreadIndex = getSpreadArgumentIndex(node.arguments); if (spreadIndex >= 0) { error(node.arguments[spreadIndex], ts.Diagnostics.Spread_operator_in_new_expressions_is_only_available_when_targeting_ECMAScript_5_and_higher); } } var expressionType = checkNonNullExpression(node.expression); if (expressionType === silentNeverType) { return silentNeverSignature; } // If expressionType's apparent type(section 3.8.1) is an object type with one or // more construct signatures, the expression is processed in the same manner as a // function call, but using the construct signatures as the initial set of candidate // signatures for overload resolution. The result type of the function call becomes // the result type of the operation. expressionType = getApparentType(expressionType); if (expressionType === errorType) { // Another error has already been reported return resolveErrorCall(node); } // TS 1.0 spec: 4.11 // If expressionType is of type Any, Args can be any argument // list and the result of the operation is of type Any. if (isTypeAny(expressionType)) { if (node.typeArguments) { error(node, ts.Diagnostics.Untyped_function_calls_may_not_accept_type_arguments); } return resolveUntypedCall(node); } // Technically, this signatures list may be incomplete. We are taking the apparent type, // but we are not including construct signatures that may have been added to the Object or // Function interface, since they have none by default. This is a bit of a leap of faith // that the user will not add any. var constructSignatures = getSignaturesOfType(expressionType, 1 /* Construct */); if (constructSignatures.length) { if (!isConstructorAccessible(node, constructSignatures[0])) { return resolveErrorCall(node); } // If the expression is a class of abstract type, then it cannot be instantiated. // Note, only class declarations can be declared abstract. // In the case of a merged class-module or class-interface declaration, // only the class declaration node will have the Abstract flag set. var valueDecl = expressionType.symbol && ts.getClassLikeDeclarationOfSymbol(expressionType.symbol); if (valueDecl && ts.hasModifier(valueDecl, 128 /* Abstract */)) { error(node, ts.Diagnostics.Cannot_create_an_instance_of_an_abstract_class); return resolveErrorCall(node); } return resolveCall(node, constructSignatures, candidatesOutArray, checkMode, 0 /* None */); } // If expressionType's apparent type is an object type with no construct signatures but // one or more call signatures, the expression is processed as a function call. A compile-time // error occurs if the result of the function call is not Void. The type of the result of the // operation is Any. It is an error to have a Void this type. var callSignatures = getSignaturesOfType(expressionType, 0 /* Call */); if (callSignatures.length) { var signature = resolveCall(node, callSignatures, candidatesOutArray, checkMode, 0 /* None */); if (!noImplicitAny) { if (signature.declaration && !isJSConstructor(signature.declaration) && getReturnTypeOfSignature(signature) !== voidType) { error(node, ts.Diagnostics.Only_a_void_function_can_be_called_with_the_new_keyword); } if (getThisTypeOfSignature(signature) === voidType) { error(node, ts.Diagnostics.A_function_that_is_called_with_the_new_keyword_cannot_have_a_this_type_that_is_void); } } return signature; } invocationError(node.expression, expressionType, 1 /* Construct */); return resolveErrorCall(node); } function typeHasProtectedAccessibleBase(target, type) { var baseTypes = getBaseTypes(type); if (!ts.length(baseTypes)) { return false; } var firstBase = baseTypes[0]; if (firstBase.flags & 2097152 /* Intersection */) { var types = firstBase.types; var mixinFlags = findMixins(types); var i = 0; for (var _i = 0, _a = firstBase.types; _i < _a.length; _i++) { var intersectionMember = _a[_i]; // We want to ignore mixin ctors if (!mixinFlags[i]) { if (ts.getObjectFlags(intersectionMember) & (1 /* Class */ | 2 /* Interface */)) { if (intersectionMember.symbol === target) { return true; } if (typeHasProtectedAccessibleBase(target, intersectionMember)) { return true; } } } i++; } return false; } if (firstBase.symbol === target) { return true; } return typeHasProtectedAccessibleBase(target, firstBase); } function isConstructorAccessible(node, signature) { if (!signature || !signature.declaration) { return true; } var declaration = signature.declaration; var modifiers = ts.getSelectedModifierFlags(declaration, 24 /* NonPublicAccessibilityModifier */); // (1) Public constructors and (2) constructor functions are always accessible. if (!modifiers || declaration.kind !== 162 /* Constructor */) { return true; } var declaringClassDeclaration = ts.getClassLikeDeclarationOfSymbol(declaration.parent.symbol); var declaringClass = getDeclaredTypeOfSymbol(declaration.parent.symbol); // A private or protected constructor can only be instantiated within its own class (or a subclass, for protected) if (!isNodeWithinClass(node, declaringClassDeclaration)) { var containingClass = ts.getContainingClass(node); if (containingClass && modifiers & 16 /* Protected */) { var containingType = getTypeOfNode(containingClass); if (typeHasProtectedAccessibleBase(declaration.parent.symbol, containingType)) { return true; } } if (modifiers & 8 /* Private */) { error(node, ts.Diagnostics.Constructor_of_class_0_is_private_and_only_accessible_within_the_class_declaration, typeToString(declaringClass)); } if (modifiers & 16 /* Protected */) { error(node, ts.Diagnostics.Constructor_of_class_0_is_protected_and_only_accessible_within_the_class_declaration, typeToString(declaringClass)); } return false; } return true; } function invocationErrorDetails(apparentType, kind) { var errorInfo; var isCall = kind === 0 /* Call */; var awaitedType = getAwaitedType(apparentType); var maybeMissingAwait = awaitedType && getSignaturesOfType(awaitedType, kind).length > 0; if (apparentType.flags & 1048576 /* Union */) { var types = apparentType.types; var hasSignatures = false; for (var _i = 0, types_18 = types; _i < types_18.length; _i++) { var constituent = types_18[_i]; var signatures = getSignaturesOfType(constituent, kind); if (signatures.length !== 0) { hasSignatures = true; if (errorInfo) { // Bail early if we already have an error, no chance of "No constituent of type is callable" break; } } else { // Error on the first non callable constituent only if (!errorInfo) { errorInfo = ts.chainDiagnosticMessages(errorInfo, isCall ? ts.Diagnostics.Type_0_has_no_call_signatures : ts.Diagnostics.Type_0_has_no_construct_signatures, typeToString(constituent)); errorInfo = ts.chainDiagnosticMessages(errorInfo, isCall ? ts.Diagnostics.Not_all_constituents_of_type_0_are_callable : ts.Diagnostics.Not_all_constituents_of_type_0_are_constructable, typeToString(apparentType)); } if (hasSignatures) { // Bail early if we already found a siganture, no chance of "No constituent of type is callable" break; } } } if (!hasSignatures) { errorInfo = ts.chainDiagnosticMessages( /* detials */ undefined, isCall ? ts.Diagnostics.No_constituent_of_type_0_is_callable : ts.Diagnostics.No_constituent_of_type_0_is_constructable, typeToString(apparentType)); } if (!errorInfo) { errorInfo = ts.chainDiagnosticMessages(errorInfo, isCall ? ts.Diagnostics.Each_member_of_the_union_type_0_has_signatures_but_none_of_those_signatures_are_compatible_with_each_other : ts.Diagnostics.Each_member_of_the_union_type_0_has_construct_signatures_but_none_of_those_signatures_are_compatible_with_each_other, typeToString(apparentType)); } } else { errorInfo = ts.chainDiagnosticMessages(errorInfo, isCall ? ts.Diagnostics.Type_0_has_no_call_signatures : ts.Diagnostics.Type_0_has_no_construct_signatures, typeToString(apparentType)); } return { messageChain: ts.chainDiagnosticMessages(errorInfo, isCall ? ts.Diagnostics.This_expression_is_not_callable : ts.Diagnostics.This_expression_is_not_constructable), relatedMessage: maybeMissingAwait ? ts.Diagnostics.Did_you_forget_to_use_await : undefined, }; } function invocationError(errorTarget, apparentType, kind, relatedInformation) { var _a = invocationErrorDetails(apparentType, kind), messageChain = _a.messageChain, relatedInfo = _a.relatedMessage; var diagnostic = ts.createDiagnosticForNodeFromMessageChain(errorTarget, messageChain); if (relatedInfo) { ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(errorTarget, relatedInfo)); } if (ts.isCallExpression(errorTarget.parent)) { var _b = getDiagnosticSpanForCallNode(errorTarget.parent, /* doNotIncludeArguments */ true), start = _b.start, length_7 = _b.length; diagnostic.start = start; diagnostic.length = length_7; } diagnostics.add(diagnostic); invocationErrorRecovery(apparentType, kind, relatedInformation ? ts.addRelatedInfo(diagnostic, relatedInformation) : diagnostic); } function invocationErrorRecovery(apparentType, kind, diagnostic) { if (!apparentType.symbol) { return; } var importNode = getSymbolLinks(apparentType.symbol).originatingImport; // Create a diagnostic on the originating import if possible onto which we can attach a quickfix // An import call expression cannot be rewritten into another form to correct the error - the only solution is to use `.default` at the use-site if (importNode && !ts.isImportCall(importNode)) { var sigs = getSignaturesOfType(getTypeOfSymbol(getSymbolLinks(apparentType.symbol).target), kind); if (!sigs || !sigs.length) return; ts.addRelatedInfo(diagnostic, ts.createDiagnosticForNode(importNode, ts.Diagnostics.Type_originates_at_this_import_A_namespace_style_import_cannot_be_called_or_constructed_and_will_cause_a_failure_at_runtime_Consider_using_a_default_import_or_import_require_here_instead)); } } function resolveTaggedTemplateExpression(node, candidatesOutArray, checkMode) { var tagType = checkExpression(node.tag); var apparentType = getApparentType(tagType); if (apparentType === errorType) { // Another error has already been reported return resolveErrorCall(node); } var callSignatures = getSignaturesOfType(apparentType, 0 /* Call */); var numConstructSignatures = getSignaturesOfType(apparentType, 1 /* Construct */).length; if (isUntypedFunctionCall(tagType, apparentType, callSignatures.length, numConstructSignatures)) { return resolveUntypedCall(node); } if (!callSignatures.length) { invocationError(node.tag, apparentType, 0 /* Call */); return resolveErrorCall(node); } return resolveCall(node, callSignatures, candidatesOutArray, checkMode, 0 /* None */); } /** * Gets the localized diagnostic head message to use for errors when resolving a decorator as a call expression. */ function getDiagnosticHeadMessageForDecoratorResolution(node) { switch (node.parent.kind) { case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return ts.Diagnostics.Unable_to_resolve_signature_of_class_decorator_when_called_as_an_expression; case 156 /* Parameter */: return ts.Diagnostics.Unable_to_resolve_signature_of_parameter_decorator_when_called_as_an_expression; case 159 /* PropertyDeclaration */: return ts.Diagnostics.Unable_to_resolve_signature_of_property_decorator_when_called_as_an_expression; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return ts.Diagnostics.Unable_to_resolve_signature_of_method_decorator_when_called_as_an_expression; default: return ts.Debug.fail(); } } /** * Resolves a decorator as if it were a call expression. */ function resolveDecorator(node, candidatesOutArray, checkMode) { var funcType = checkExpression(node.expression); var apparentType = getApparentType(funcType); if (apparentType === errorType) { return resolveErrorCall(node); } var callSignatures = getSignaturesOfType(apparentType, 0 /* Call */); var numConstructSignatures = getSignaturesOfType(apparentType, 1 /* Construct */).length; if (isUntypedFunctionCall(funcType, apparentType, callSignatures.length, numConstructSignatures)) { return resolveUntypedCall(node); } if (isPotentiallyUncalledDecorator(node, callSignatures)) { var nodeStr = ts.getTextOfNode(node.expression, /*includeTrivia*/ false); error(node, ts.Diagnostics._0_accepts_too_few_arguments_to_be_used_as_a_decorator_here_Did_you_mean_to_call_it_first_and_write_0, nodeStr); return resolveErrorCall(node); } var headMessage = getDiagnosticHeadMessageForDecoratorResolution(node); if (!callSignatures.length) { var errorDetails = invocationErrorDetails(apparentType, 0 /* Call */); var messageChain = ts.chainDiagnosticMessages(errorDetails.messageChain, headMessage); var diag = ts.createDiagnosticForNodeFromMessageChain(node.expression, messageChain); if (errorDetails.relatedMessage) { ts.addRelatedInfo(diag, ts.createDiagnosticForNode(node.expression, errorDetails.relatedMessage)); } diagnostics.add(diag); invocationErrorRecovery(apparentType, 0 /* Call */, diag); return resolveErrorCall(node); } return resolveCall(node, callSignatures, candidatesOutArray, checkMode, 0 /* None */, headMessage); } function createSignatureForJSXIntrinsic(node, result) { var namespace = getJsxNamespaceAt(node); var exports = namespace && getExportsOfSymbol(namespace); // We fake up a SFC signature for each intrinsic, however a more specific per-element signature drawn from the JSX declaration // file would probably be preferable. var typeSymbol = exports && getSymbol(exports, JsxNames.Element, 788968 /* Type */); var returnNode = typeSymbol && nodeBuilder.symbolToEntityName(typeSymbol, 788968 /* Type */, node); var declaration = ts.createFunctionTypeNode(/*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotdotdot*/ undefined, "props", /*questionMark*/ undefined, nodeBuilder.typeToTypeNode(result, node))], returnNode ? ts.createTypeReferenceNode(returnNode, /*typeArguments*/ undefined) : ts.createKeywordTypeNode(125 /* AnyKeyword */)); var parameterSymbol = createSymbol(1 /* FunctionScopedVariable */, "props"); parameterSymbol.type = result; return createSignature(declaration, /*typeParameters*/ undefined, /*thisParameter*/ undefined, [parameterSymbol], typeSymbol ? getDeclaredTypeOfSymbol(typeSymbol) : errorType, /*returnTypePredicate*/ undefined, 1, 0 /* None */); } function resolveJsxOpeningLikeElement(node, candidatesOutArray, checkMode) { if (isJsxIntrinsicIdentifier(node.tagName)) { var result = getIntrinsicAttributesTypeFromJsxOpeningLikeElement(node); var fakeSignature = createSignatureForJSXIntrinsic(node, result); checkTypeAssignableToAndOptionallyElaborate(checkExpressionWithContextualType(node.attributes, getEffectiveFirstArgumentForJsxSignature(fakeSignature, node), /*mapper*/ undefined, 0 /* Normal */), result, node.tagName, node.attributes); return fakeSignature; } var exprTypes = checkExpression(node.tagName); var apparentType = getApparentType(exprTypes); if (apparentType === errorType) { return resolveErrorCall(node); } var signatures = getUninstantiatedJsxSignaturesOfType(exprTypes, node); if (isUntypedFunctionCall(exprTypes, apparentType, signatures.length, /*constructSignatures*/ 0)) { return resolveUntypedCall(node); } if (signatures.length === 0) { // We found no signatures at all, which is an error error(node.tagName, ts.Diagnostics.JSX_element_type_0_does_not_have_any_construct_or_call_signatures, ts.getTextOfNode(node.tagName)); return resolveErrorCall(node); } return resolveCall(node, signatures, candidatesOutArray, checkMode, 0 /* None */); } /** * Sometimes, we have a decorator that could accept zero arguments, * but is receiving too many arguments as part of the decorator invocation. * In those cases, a user may have meant to *call* the expression before using it as a decorator. */ function isPotentiallyUncalledDecorator(decorator, signatures) { return signatures.length && ts.every(signatures, function (signature) { return signature.minArgumentCount === 0 && !signatureHasRestParameter(signature) && signature.parameters.length < getDecoratorArgumentCount(decorator, signature); }); } function resolveSignature(node, candidatesOutArray, checkMode) { switch (node.kind) { case 196 /* CallExpression */: return resolveCallExpression(node, candidatesOutArray, checkMode); case 197 /* NewExpression */: return resolveNewExpression(node, candidatesOutArray, checkMode); case 198 /* TaggedTemplateExpression */: return resolveTaggedTemplateExpression(node, candidatesOutArray, checkMode); case 157 /* Decorator */: return resolveDecorator(node, candidatesOutArray, checkMode); case 268 /* JsxOpeningElement */: case 267 /* JsxSelfClosingElement */: return resolveJsxOpeningLikeElement(node, candidatesOutArray, checkMode); } throw ts.Debug.assertNever(node, "Branch in 'resolveSignature' should be unreachable."); } /** * Resolve a signature of a given call-like expression. * @param node a call-like expression to try resolve a signature for * @param candidatesOutArray an array of signature to be filled in by the function. It is passed by signature help in the language service; * the function will fill it up with appropriate candidate signatures * @return a signature of the call-like expression or undefined if one can't be found */ function getResolvedSignature(node, candidatesOutArray, checkMode) { var links = getNodeLinks(node); // If getResolvedSignature has already been called, we will have cached the resolvedSignature. // However, it is possible that either candidatesOutArray was not passed in the first time, // or that a different candidatesOutArray was passed in. Therefore, we need to redo the work // to correctly fill the candidatesOutArray. var cached = links.resolvedSignature; if (cached && cached !== resolvingSignature && !candidatesOutArray) { return cached; } links.resolvedSignature = resolvingSignature; var result = resolveSignature(node, candidatesOutArray, checkMode || 0 /* Normal */); // When CheckMode.SkipGenericFunctions is set we use resolvingSignature to indicate that call // resolution should be deferred. if (result !== resolvingSignature) { // If signature resolution originated in control flow type analysis (for example to compute the // assigned type in a flow assignment) we don't cache the result as it may be based on temporary // types from the control flow analysis. links.resolvedSignature = flowLoopStart === flowLoopCount ? result : cached; } return result; } /** * Indicates whether a declaration can be treated as a constructor in a JavaScript * file. */ function isJSConstructor(node) { if (!node || !ts.isInJSFile(node)) { return false; } var func = ts.isFunctionDeclaration(node) || ts.isFunctionExpression(node) ? node : ts.isVariableDeclaration(node) && node.initializer && ts.isFunctionExpression(node.initializer) ? node.initializer : undefined; if (func) { // If the node has a @class tag, treat it like a constructor. if (ts.getJSDocClassTag(node)) return true; // If the symbol of the node has members, treat it like a constructor. var symbol = getSymbolOfNode(func); return !!symbol && ts.hasEntries(symbol.members); } return false; } function mergeJSSymbols(target, source) { if (source) { var links = getSymbolLinks(source); if (!links.inferredClassSymbol || !links.inferredClassSymbol.has("" + getSymbolId(target))) { var inferred = ts.isTransientSymbol(target) ? target : cloneSymbol(target); inferred.exports = inferred.exports || ts.createSymbolTable(); inferred.members = inferred.members || ts.createSymbolTable(); inferred.flags |= source.flags & 32 /* Class */; if (ts.hasEntries(source.exports)) { mergeSymbolTable(inferred.exports, source.exports); } if (ts.hasEntries(source.members)) { mergeSymbolTable(inferred.members, source.members); } (links.inferredClassSymbol || (links.inferredClassSymbol = ts.createMap())).set("" + getSymbolId(inferred), inferred); return inferred; } return links.inferredClassSymbol.get("" + getSymbolId(target)); } } function getAssignedClassSymbol(decl) { var assignmentSymbol = decl && decl.parent && (ts.isFunctionDeclaration(decl) && getSymbolOfNode(decl) || ts.isBinaryExpression(decl.parent) && getSymbolOfNode(decl.parent.left) || ts.isVariableDeclaration(decl.parent) && getSymbolOfNode(decl.parent)); var prototype = assignmentSymbol && assignmentSymbol.exports && assignmentSymbol.exports.get("prototype"); var init = prototype && prototype.valueDeclaration && getAssignedJSPrototype(prototype.valueDeclaration); return init ? getSymbolOfNode(init) : undefined; } function getAssignedJSPrototype(node) { if (!node.parent) { return false; } var parent = node.parent; while (parent && parent.kind === 194 /* PropertyAccessExpression */) { parent = parent.parent; } if (parent && ts.isBinaryExpression(parent) && ts.isPrototypeAccess(parent.left) && parent.operatorToken.kind === 62 /* EqualsToken */) { var right = ts.getInitializerOfBinaryExpression(parent); return ts.isObjectLiteralExpression(right) && right; } } /** * Syntactically and semantically checks a call or new expression. * @param node The call/new expression to be checked. * @returns On success, the expression's signature's return type. On failure, anyType. */ function checkCallExpression(node, checkMode) { if (!checkGrammarTypeArguments(node, node.typeArguments)) checkGrammarArguments(node.arguments); var signature = getResolvedSignature(node, /*candidatesOutArray*/ undefined, checkMode); if (signature === resolvingSignature) { // CheckMode.SkipGenericFunctions is enabled and this is a call to a generic function that // returns a function type. We defer checking and return nonInferrableType. return nonInferrableType; } if (node.expression.kind === 102 /* SuperKeyword */) { return voidType; } if (node.kind === 197 /* NewExpression */) { var declaration = signature.declaration; if (declaration && declaration.kind !== 162 /* Constructor */ && declaration.kind !== 166 /* ConstructSignature */ && declaration.kind !== 171 /* ConstructorType */ && !ts.isJSDocConstructSignature(declaration) && !isJSConstructor(declaration)) { // When resolved signature is a call signature (and not a construct signature) the result type is any if (noImplicitAny) { error(node, ts.Diagnostics.new_expression_whose_target_lacks_a_construct_signature_implicitly_has_an_any_type); } return anyType; } } // In JavaScript files, calls to any identifier 'require' are treated as external module imports if (ts.isInJSFile(node) && isCommonJsRequire(node)) { return resolveExternalModuleTypeByLiteral(node.arguments[0]); } var returnType = getReturnTypeOfSignature(signature); // Treat any call to the global 'Symbol' function that is part of a const variable or readonly property // as a fresh unique symbol literal type. if (returnType.flags & 12288 /* ESSymbolLike */ && isSymbolOrSymbolForCall(node)) { return getESSymbolLikeTypeForNode(ts.walkUpParenthesizedExpressions(node.parent)); } if (node.kind === 196 /* CallExpression */ && node.parent.kind === 226 /* ExpressionStatement */ && returnType.flags & 16384 /* Void */ && getTypePredicateOfSignature(signature)) { if (!ts.isDottedName(node.expression)) { error(node.expression, ts.Diagnostics.Assertions_require_the_call_target_to_be_an_identifier_or_qualified_name); } else if (!getEffectsSignature(node)) { var diagnostic = error(node.expression, ts.Diagnostics.Assertions_require_every_name_in_the_call_target_to_be_declared_with_an_explicit_type_annotation); getTypeOfDottedName(node.expression, diagnostic); } } if (ts.isInJSFile(node)) { var decl = ts.getDeclarationOfExpando(node); if (decl) { var jsSymbol = getSymbolOfNode(decl); if (jsSymbol && ts.hasEntries(jsSymbol.exports)) { var jsAssignmentType = createAnonymousType(jsSymbol, jsSymbol.exports, ts.emptyArray, ts.emptyArray, undefined, undefined); jsAssignmentType.objectFlags |= 16384 /* JSLiteral */; return getIntersectionType([returnType, jsAssignmentType]); } } } return returnType; } function isSymbolOrSymbolForCall(node) { if (!ts.isCallExpression(node)) return false; var left = node.expression; if (ts.isPropertyAccessExpression(left) && left.name.escapedText === "for") { left = left.expression; } if (!ts.isIdentifier(left) || left.escapedText !== "Symbol") { return false; } // make sure `Symbol` is the global symbol var globalESSymbol = getGlobalESSymbolConstructorSymbol(/*reportErrors*/ false); if (!globalESSymbol) { return false; } return globalESSymbol === resolveName(left, "Symbol", 111551 /* Value */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false); } function checkImportCallExpression(node) { // Check grammar of dynamic import if (!checkGrammarArguments(node.arguments)) checkGrammarImportCallExpression(node); if (node.arguments.length === 0) { return createPromiseReturnType(node, anyType); } var specifier = node.arguments[0]; var specifierType = checkExpressionCached(specifier); // Even though multiple arguments is grammatically incorrect, type-check extra arguments for completion for (var i = 1; i < node.arguments.length; ++i) { checkExpressionCached(node.arguments[i]); } if (specifierType.flags & 32768 /* Undefined */ || specifierType.flags & 65536 /* Null */ || !isTypeAssignableTo(specifierType, stringType)) { error(specifier, ts.Diagnostics.Dynamic_import_s_specifier_must_be_of_type_string_but_here_has_type_0, typeToString(specifierType)); } // resolveExternalModuleName will return undefined if the moduleReferenceExpression is not a string literal var moduleSymbol = resolveExternalModuleName(node, specifier); if (moduleSymbol) { var esModuleSymbol = resolveESModuleSymbol(moduleSymbol, specifier, /*dontRecursivelyResolve*/ true, /*suppressUsageError*/ false); if (esModuleSymbol) { return createPromiseReturnType(node, getTypeWithSyntheticDefaultImportType(getTypeOfSymbol(esModuleSymbol), esModuleSymbol, moduleSymbol)); } } return createPromiseReturnType(node, anyType); } function getTypeWithSyntheticDefaultImportType(type, symbol, originalSymbol) { if (allowSyntheticDefaultImports && type && type !== errorType) { var synthType = type; if (!synthType.syntheticType) { var file = ts.find(originalSymbol.declarations, ts.isSourceFile); var hasSyntheticDefault = canHaveSyntheticDefault(file, originalSymbol, /*dontResolveAlias*/ false); if (hasSyntheticDefault) { var memberTable = ts.createSymbolTable(); var newSymbol = createSymbol(2097152 /* Alias */, "default" /* Default */); newSymbol.nameType = getLiteralType("default"); newSymbol.target = resolveSymbol(symbol); memberTable.set("default" /* Default */, newSymbol); var anonymousSymbol = createSymbol(2048 /* TypeLiteral */, "__type" /* Type */); var defaultContainingObject = createAnonymousType(anonymousSymbol, memberTable, ts.emptyArray, ts.emptyArray, /*stringIndexInfo*/ undefined, /*numberIndexInfo*/ undefined); anonymousSymbol.type = defaultContainingObject; synthType.syntheticType = isValidSpreadType(type) ? getSpreadType(type, defaultContainingObject, anonymousSymbol, /*objectFlags*/ 0, /*readonly*/ false) : defaultContainingObject; } else { synthType.syntheticType = type; } } return synthType.syntheticType; } return type; } function isCommonJsRequire(node) { if (!ts.isRequireCall(node, /*checkArgumentIsStringLiteralLike*/ true)) { return false; } // Make sure require is not a local function if (!ts.isIdentifier(node.expression)) return ts.Debug.fail(); var resolvedRequire = resolveName(node.expression, node.expression.escapedText, 111551 /* Value */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ true); // TODO: GH#18217 if (resolvedRequire === requireSymbol) { return true; } // project includes symbol named 'require' - make sure that it is ambient and local non-alias if (resolvedRequire.flags & 2097152 /* Alias */) { return false; } var targetDeclarationKind = resolvedRequire.flags & 16 /* Function */ ? 244 /* FunctionDeclaration */ : resolvedRequire.flags & 3 /* Variable */ ? 242 /* VariableDeclaration */ : 0 /* Unknown */; if (targetDeclarationKind !== 0 /* Unknown */) { var decl = ts.getDeclarationOfKind(resolvedRequire, targetDeclarationKind); // function/variable declaration should be ambient return !!decl && !!(decl.flags & 8388608 /* Ambient */); } return false; } function checkTaggedTemplateExpression(node) { if (!checkGrammarTaggedTemplateChain(node)) checkGrammarTypeArguments(node, node.typeArguments); if (languageVersion < 2 /* ES2015 */) { checkExternalEmitHelpers(node, 131072 /* MakeTemplateObject */); } return getReturnTypeOfSignature(getResolvedSignature(node)); } function checkAssertion(node) { return checkAssertionWorker(node, node.type, node.expression); } function isValidConstAssertionArgument(node) { switch (node.kind) { case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 192 /* ArrayLiteralExpression */: case 193 /* ObjectLiteralExpression */: return true; case 200 /* ParenthesizedExpression */: return isValidConstAssertionArgument(node.expression); case 207 /* PrefixUnaryExpression */: var op = node.operator; var arg = node.operand; return op === 40 /* MinusToken */ && (arg.kind === 8 /* NumericLiteral */ || arg.kind === 9 /* BigIntLiteral */) || op === 39 /* PlusToken */ && arg.kind === 8 /* NumericLiteral */; case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: var expr = node.expression; if (ts.isIdentifier(expr)) { var symbol = getSymbolAtLocation(expr); if (symbol && symbol.flags & 2097152 /* Alias */) { symbol = resolveAlias(symbol); } return !!(symbol && (symbol.flags & 384 /* Enum */) && getEnumKind(symbol) === 1 /* Literal */); } } return false; } function checkAssertionWorker(errNode, type, expression, checkMode) { var exprType = checkExpression(expression, checkMode); if (ts.isConstTypeReference(type)) { if (!isValidConstAssertionArgument(expression)) { error(expression, ts.Diagnostics.A_const_assertions_can_only_be_applied_to_references_to_enum_members_or_string_number_boolean_array_or_object_literals); } return getRegularTypeOfLiteralType(exprType); } checkSourceElement(type); exprType = getRegularTypeOfObjectLiteral(getBaseTypeOfLiteralType(exprType)); var targetType = getTypeFromTypeNode(type); if (produceDiagnostics && targetType !== errorType) { var widenedType = getWidenedType(exprType); if (!isTypeComparableTo(targetType, widenedType)) { checkTypeComparableTo(exprType, targetType, errNode, ts.Diagnostics.Conversion_of_type_0_to_type_1_may_be_a_mistake_because_neither_type_sufficiently_overlaps_with_the_other_If_this_was_intentional_convert_the_expression_to_unknown_first); } } return targetType; } function checkNonNullChain(node) { var leftType = checkExpression(node.expression); var nonOptionalType = getOptionalExpressionType(leftType, node.expression); return propagateOptionalTypeMarker(getNonNullableType(nonOptionalType), node, nonOptionalType !== leftType); } function checkNonNullAssertion(node) { return node.flags & 32 /* OptionalChain */ ? checkNonNullChain(node) : getNonNullableType(checkExpression(node.expression)); } function checkMetaProperty(node) { checkGrammarMetaProperty(node); if (node.keywordToken === 99 /* NewKeyword */) { return checkNewTargetMetaProperty(node); } if (node.keywordToken === 96 /* ImportKeyword */) { return checkImportMetaProperty(node); } return ts.Debug.assertNever(node.keywordToken); } function checkNewTargetMetaProperty(node) { var container = ts.getNewTargetContainer(node); if (!container) { error(node, ts.Diagnostics.Meta_property_0_is_only_allowed_in_the_body_of_a_function_declaration_function_expression_or_constructor, "new.target"); return errorType; } else if (container.kind === 162 /* Constructor */) { var symbol = getSymbolOfNode(container.parent); return getTypeOfSymbol(symbol); } else { var symbol = getSymbolOfNode(container); return getTypeOfSymbol(symbol); } } function checkImportMetaProperty(node) { if (moduleKind !== ts.ModuleKind.ESNext && moduleKind !== ts.ModuleKind.System) { error(node, ts.Diagnostics.The_import_meta_meta_property_is_only_allowed_when_the_module_option_is_esnext_or_system); } var file = ts.getSourceFileOfNode(node); ts.Debug.assert(!!(file.flags & 2097152 /* PossiblyContainsImportMeta */), "Containing file is missing import meta node flag."); ts.Debug.assert(!!file.externalModuleIndicator, "Containing file should be a module."); return node.name.escapedText === "meta" ? getGlobalImportMetaType() : errorType; } function getTypeOfParameter(symbol) { var type = getTypeOfSymbol(symbol); if (strictNullChecks) { var declaration = symbol.valueDeclaration; if (declaration && ts.hasInitializer(declaration)) { return getOptionalType(type); } } return type; } function getParameterNameAtPosition(signature, pos) { var paramCount = signature.parameters.length - (signatureHasRestParameter(signature) ? 1 : 0); if (pos < paramCount) { return signature.parameters[pos].escapedName; } var restParameter = signature.parameters[paramCount] || unknownSymbol; var restType = getTypeOfSymbol(restParameter); if (isTupleType(restType)) { var associatedNames = restType.target.associatedNames; var index = pos - paramCount; return associatedNames && associatedNames[index] || restParameter.escapedName + "_" + index; } return restParameter.escapedName; } function getTypeAtPosition(signature, pos) { return tryGetTypeAtPosition(signature, pos) || anyType; } function tryGetTypeAtPosition(signature, pos) { var paramCount = signature.parameters.length - (signatureHasRestParameter(signature) ? 1 : 0); if (pos < paramCount) { return getTypeOfParameter(signature.parameters[pos]); } if (signatureHasRestParameter(signature)) { // We want to return the value undefined for an out of bounds parameter position, // so we need to check bounds here before calling getIndexedAccessType (which // otherwise would return the type 'undefined'). var restType = getTypeOfSymbol(signature.parameters[paramCount]); var index = pos - paramCount; if (!isTupleType(restType) || restType.target.hasRestElement || index < getTypeArguments(restType).length) { return getIndexedAccessType(restType, getLiteralType(index)); } } return undefined; } function getRestTypeAtPosition(source, pos) { var paramCount = getParameterCount(source); var restType = getEffectiveRestType(source); var nonRestCount = paramCount - (restType ? 1 : 0); if (restType && pos === nonRestCount) { return restType; } var types = []; var names = []; for (var i = pos; i < nonRestCount; i++) { types.push(getTypeAtPosition(source, i)); names.push(getParameterNameAtPosition(source, i)); } if (restType) { types.push(getIndexedAccessType(restType, numberType)); names.push(getParameterNameAtPosition(source, nonRestCount)); } var minArgumentCount = getMinArgumentCount(source); var minLength = minArgumentCount < pos ? 0 : minArgumentCount - pos; return createTupleType(types, minLength, !!restType, /*readonly*/ false, names); } function getParameterCount(signature) { var length = signature.parameters.length; if (signatureHasRestParameter(signature)) { var restType = getTypeOfSymbol(signature.parameters[length - 1]); if (isTupleType(restType)) { return length + getTypeArguments(restType).length - 1; } } return length; } function getMinArgumentCount(signature, strongArityForUntypedJS) { if (signatureHasRestParameter(signature)) { var restType = getTypeOfSymbol(signature.parameters[signature.parameters.length - 1]); if (isTupleType(restType)) { var minLength = restType.target.minLength; if (minLength > 0) { return signature.parameters.length - 1 + minLength; } } } if (!strongArityForUntypedJS && signature.flags & 16 /* IsUntypedSignatureInJSFile */) { return 0; } return signature.minArgumentCount; } function hasEffectiveRestParameter(signature) { if (signatureHasRestParameter(signature)) { var restType = getTypeOfSymbol(signature.parameters[signature.parameters.length - 1]); return !isTupleType(restType) || restType.target.hasRestElement; } return false; } function getEffectiveRestType(signature) { if (signatureHasRestParameter(signature)) { var restType = getTypeOfSymbol(signature.parameters[signature.parameters.length - 1]); return isTupleType(restType) ? getRestArrayTypeOfTupleType(restType) : restType; } return undefined; } function getNonArrayRestType(signature) { var restType = getEffectiveRestType(signature); return restType && !isArrayType(restType) && !isTypeAny(restType) && (getReducedType(restType).flags & 131072 /* Never */) === 0 ? restType : undefined; } function getTypeOfFirstParameterOfSignature(signature) { return getTypeOfFirstParameterOfSignatureWithFallback(signature, neverType); } function getTypeOfFirstParameterOfSignatureWithFallback(signature, fallbackType) { return signature.parameters.length > 0 ? getTypeAtPosition(signature, 0) : fallbackType; } function inferFromAnnotatedParameters(signature, context, inferenceContext) { var len = signature.parameters.length - (signatureHasRestParameter(signature) ? 1 : 0); for (var i = 0; i < len; i++) { var declaration = signature.parameters[i].valueDeclaration; if (declaration.type) { var typeNode = ts.getEffectiveTypeAnnotationNode(declaration); if (typeNode) { inferTypes(inferenceContext.inferences, getTypeFromTypeNode(typeNode), getTypeAtPosition(context, i)); } } } var restType = getEffectiveRestType(context); if (restType && restType.flags & 262144 /* TypeParameter */) { // The contextual signature has a generic rest parameter. We first instantiate the contextual // signature (without fixing type parameters) and assign types to contextually typed parameters. var instantiatedContext = instantiateSignature(context, inferenceContext.nonFixingMapper); assignContextualParameterTypes(signature, instantiatedContext); // We then infer from a tuple type representing the parameters that correspond to the contextual // rest parameter. var restPos = getParameterCount(context) - 1; inferTypes(inferenceContext.inferences, getRestTypeAtPosition(signature, restPos), restType); } } function assignContextualParameterTypes(signature, context) { signature.typeParameters = context.typeParameters; if (context.thisParameter) { var parameter = signature.thisParameter; if (!parameter || parameter.valueDeclaration && !parameter.valueDeclaration.type) { if (!parameter) { signature.thisParameter = createSymbolWithType(context.thisParameter, /*type*/ undefined); } assignParameterType(signature.thisParameter, getTypeOfSymbol(context.thisParameter)); } } var len = signature.parameters.length - (signatureHasRestParameter(signature) ? 1 : 0); for (var i = 0; i < len; i++) { var parameter = signature.parameters[i]; if (!ts.getEffectiveTypeAnnotationNode(parameter.valueDeclaration)) { var contextualParameterType = tryGetTypeAtPosition(context, i); assignParameterType(parameter, contextualParameterType); } } if (signatureHasRestParameter(signature)) { // parameter might be a transient symbol generated by use of `arguments` in the function body. var parameter = ts.last(signature.parameters); if (ts.isTransientSymbol(parameter) || !ts.getEffectiveTypeAnnotationNode(parameter.valueDeclaration)) { var contextualParameterType = getRestTypeAtPosition(context, len); assignParameterType(parameter, contextualParameterType); } } } function assignNonContextualParameterTypes(signature) { if (signature.thisParameter) { assignParameterType(signature.thisParameter); } for (var _i = 0, _a = signature.parameters; _i < _a.length; _i++) { var parameter = _a[_i]; assignParameterType(parameter); } } function assignParameterType(parameter, type) { var links = getSymbolLinks(parameter); if (!links.type) { var declaration = parameter.valueDeclaration; links.type = type || getWidenedTypeForVariableLikeDeclaration(declaration, /*includeOptionality*/ true); if (declaration.name.kind !== 75 /* Identifier */) { // if inference didn't come up with anything but unknown, fall back to the binding pattern if present. if (links.type === unknownType) { links.type = getTypeFromBindingPattern(declaration.name); } assignBindingElementTypes(declaration.name); } } } // When contextual typing assigns a type to a parameter that contains a binding pattern, we also need to push // the destructured type into the contained binding elements. function assignBindingElementTypes(pattern) { for (var _i = 0, _a = pattern.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { if (element.name.kind === 75 /* Identifier */) { getSymbolLinks(getSymbolOfNode(element)).type = getTypeForBindingElement(element); } else { assignBindingElementTypes(element.name); } } } } function createPromiseType(promisedType) { // creates a `Promise` type where `T` is the promisedType argument var globalPromiseType = getGlobalPromiseType(/*reportErrors*/ true); if (globalPromiseType !== emptyGenericType) { // if the promised type is itself a promise, get the underlying type; otherwise, fallback to the promised type promisedType = getAwaitedType(promisedType) || unknownType; return createTypeReference(globalPromiseType, [promisedType]); } return unknownType; } function createPromiseLikeType(promisedType) { // creates a `PromiseLike` type where `T` is the promisedType argument var globalPromiseLikeType = getGlobalPromiseLikeType(/*reportErrors*/ true); if (globalPromiseLikeType !== emptyGenericType) { // if the promised type is itself a promise, get the underlying type; otherwise, fallback to the promised type promisedType = getAwaitedType(promisedType) || unknownType; return createTypeReference(globalPromiseLikeType, [promisedType]); } return unknownType; } function createPromiseReturnType(func, promisedType) { var promiseType = createPromiseType(promisedType); if (promiseType === unknownType) { error(func, ts.isImportCall(func) ? ts.Diagnostics.A_dynamic_import_call_returns_a_Promise_Make_sure_you_have_a_declaration_for_Promise_or_include_ES2015_in_your_lib_option : ts.Diagnostics.An_async_function_or_method_must_return_a_Promise_Make_sure_you_have_a_declaration_for_Promise_or_include_ES2015_in_your_lib_option); return errorType; } else if (!getGlobalPromiseConstructorSymbol(/*reportErrors*/ true)) { error(func, ts.isImportCall(func) ? ts.Diagnostics.A_dynamic_import_call_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_declaration_for_the_Promise_constructor_or_include_ES2015_in_your_lib_option : ts.Diagnostics.An_async_function_or_method_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_declaration_for_the_Promise_constructor_or_include_ES2015_in_your_lib_option); } return promiseType; } function getReturnTypeFromBody(func, checkMode) { if (!func.body) { return errorType; } var functionFlags = ts.getFunctionFlags(func); var isAsync = (functionFlags & 2 /* Async */) !== 0; var isGenerator = (functionFlags & 1 /* Generator */) !== 0; var returnType; var yieldType; var nextType; var fallbackReturnType = voidType; if (func.body.kind !== 223 /* Block */) { // Async or normal arrow function returnType = checkExpressionCached(func.body, checkMode && checkMode & ~8 /* SkipGenericFunctions */); if (isAsync) { // From within an async function you can return either a non-promise value or a promise. Any // Promise/A+ compatible implementation will always assimilate any foreign promise, so the // return type of the body should be unwrapped to its awaited type, which we will wrap in // the native Promise type later in this function. returnType = checkAwaitedType(returnType, /*errorNode*/ func, ts.Diagnostics.The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member); } } else if (isGenerator) { // Generator or AsyncGenerator function var returnTypes = checkAndAggregateReturnExpressionTypes(func, checkMode); if (!returnTypes) { fallbackReturnType = neverType; } else if (returnTypes.length > 0) { returnType = getUnionType(returnTypes, 2 /* Subtype */); } var _a = checkAndAggregateYieldOperandTypes(func, checkMode), yieldTypes = _a.yieldTypes, nextTypes = _a.nextTypes; yieldType = ts.some(yieldTypes) ? getUnionType(yieldTypes, 2 /* Subtype */) : undefined; nextType = ts.some(nextTypes) ? getIntersectionType(nextTypes) : undefined; } else { // Async or normal function var types = checkAndAggregateReturnExpressionTypes(func, checkMode); if (!types) { // For an async function, the return type will not be never, but rather a Promise for never. return functionFlags & 2 /* Async */ ? createPromiseReturnType(func, neverType) // Async function : neverType; // Normal function } if (types.length === 0) { // For an async function, the return type will not be void, but rather a Promise for void. return functionFlags & 2 /* Async */ ? createPromiseReturnType(func, voidType) // Async function : voidType; // Normal function } // Return a union of the return expression types. returnType = getUnionType(types, 2 /* Subtype */); } if (returnType || yieldType || nextType) { if (yieldType) reportErrorsFromWidening(func, yieldType, 3 /* GeneratorYield */); if (returnType) reportErrorsFromWidening(func, returnType, 1 /* FunctionReturn */); if (nextType) reportErrorsFromWidening(func, nextType, 2 /* GeneratorNext */); if (returnType && isUnitType(returnType) || yieldType && isUnitType(yieldType) || nextType && isUnitType(nextType)) { var contextualSignature = getContextualSignatureForFunctionLikeDeclaration(func); var contextualType = !contextualSignature ? undefined : contextualSignature === getSignatureFromDeclaration(func) ? isGenerator ? undefined : returnType : instantiateContextualType(getReturnTypeOfSignature(contextualSignature), func); if (isGenerator) { yieldType = getWidenedLiteralLikeTypeForContextualIterationTypeIfNeeded(yieldType, contextualType, 0 /* Yield */, isAsync); returnType = getWidenedLiteralLikeTypeForContextualIterationTypeIfNeeded(returnType, contextualType, 1 /* Return */, isAsync); nextType = getWidenedLiteralLikeTypeForContextualIterationTypeIfNeeded(nextType, contextualType, 2 /* Next */, isAsync); } else { returnType = getWidenedLiteralLikeTypeForContextualReturnTypeIfNeeded(returnType, contextualType, isAsync); } } if (yieldType) yieldType = getWidenedType(yieldType); if (returnType) returnType = getWidenedType(returnType); if (nextType) nextType = getWidenedType(nextType); } if (isGenerator) { return createGeneratorReturnType(yieldType || neverType, returnType || fallbackReturnType, nextType || getContextualIterationType(2 /* Next */, func) || unknownType, isAsync); } else { // From within an async function you can return either a non-promise value or a promise. Any // Promise/A+ compatible implementation will always assimilate any foreign promise, so the // return type of the body is awaited type of the body, wrapped in a native Promise type. return isAsync ? createPromiseType(returnType || fallbackReturnType) : returnType || fallbackReturnType; } } function createGeneratorReturnType(yieldType, returnType, nextType, isAsyncGenerator) { var resolver = isAsyncGenerator ? asyncIterationTypesResolver : syncIterationTypesResolver; var globalGeneratorType = resolver.getGlobalGeneratorType(/*reportErrors*/ false); yieldType = resolver.resolveIterationType(yieldType, /*errorNode*/ undefined) || unknownType; returnType = resolver.resolveIterationType(returnType, /*errorNode*/ undefined) || unknownType; nextType = resolver.resolveIterationType(nextType, /*errorNode*/ undefined) || unknownType; if (globalGeneratorType === emptyGenericType) { // Fall back to the global IterableIterator if returnType is assignable to the expected return iteration // type of IterableIterator, and the expected next iteration type of IterableIterator is assignable to // nextType. var globalType = resolver.getGlobalIterableIteratorType(/*reportErrors*/ false); var iterationTypes = globalType !== emptyGenericType ? getIterationTypesOfGlobalIterableType(globalType, resolver) : undefined; var iterableIteratorReturnType = iterationTypes ? iterationTypes.returnType : anyType; var iterableIteratorNextType = iterationTypes ? iterationTypes.nextType : undefinedType; if (isTypeAssignableTo(returnType, iterableIteratorReturnType) && isTypeAssignableTo(iterableIteratorNextType, nextType)) { if (globalType !== emptyGenericType) { return createTypeFromGenericGlobalType(globalType, [yieldType]); } // The global IterableIterator type doesn't exist, so report an error resolver.getGlobalIterableIteratorType(/*reportErrors*/ true); return emptyObjectType; } // The global Generator type doesn't exist, so report an error resolver.getGlobalGeneratorType(/*reportErrors*/ true); return emptyObjectType; } return createTypeFromGenericGlobalType(globalGeneratorType, [yieldType, returnType, nextType]); } function checkAndAggregateYieldOperandTypes(func, checkMode) { var yieldTypes = []; var nextTypes = []; var isAsync = (ts.getFunctionFlags(func) & 2 /* Async */) !== 0; ts.forEachYieldExpression(func.body, function (yieldExpression) { var yieldExpressionType = yieldExpression.expression ? checkExpression(yieldExpression.expression, checkMode) : undefinedWideningType; ts.pushIfUnique(yieldTypes, getYieldedTypeOfYieldExpression(yieldExpression, yieldExpressionType, anyType, isAsync)); var nextType; if (yieldExpression.asteriskToken) { var iterationTypes = getIterationTypesOfIterable(yieldExpressionType, isAsync ? 19 /* AsyncYieldStar */ : 17 /* YieldStar */, yieldExpression.expression); nextType = iterationTypes && iterationTypes.nextType; } else { nextType = getContextualType(yieldExpression); } if (nextType) ts.pushIfUnique(nextTypes, nextType); }); return { yieldTypes: yieldTypes, nextTypes: nextTypes }; } function getYieldedTypeOfYieldExpression(node, expressionType, sentType, isAsync) { var errorNode = node.expression || node; // A `yield*` expression effectively yields everything that its operand yields var yieldedType = node.asteriskToken ? checkIteratedTypeOrElementType(isAsync ? 19 /* AsyncYieldStar */ : 17 /* YieldStar */, expressionType, sentType, errorNode) : expressionType; return !isAsync ? yieldedType : getAwaitedType(yieldedType, errorNode, node.asteriskToken ? ts.Diagnostics.Type_of_iterated_elements_of_a_yield_Asterisk_operand_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member : ts.Diagnostics.Type_of_yield_operand_in_an_async_generator_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member); } /** * Collect the TypeFacts learned from a typeof switch with * total clauses `witnesses`, and the active clause ranging * from `start` to `end`. Parameter `hasDefault` denotes * whether the active clause contains a default clause. */ function getFactsFromTypeofSwitch(start, end, witnesses, hasDefault) { var facts = 0 /* None */; // When in the default we only collect inequality facts // because default is 'in theory' a set of infinite // equalities. if (hasDefault) { // Value is not equal to any types after the active clause. for (var i = end; i < witnesses.length; i++) { facts |= typeofNEFacts.get(witnesses[i]) || 32768 /* TypeofNEHostObject */; } // Remove inequalities for types that appear in the // active clause because they appear before other // types collected so far. for (var i = start; i < end; i++) { facts &= ~(typeofNEFacts.get(witnesses[i]) || 0); } // Add inequalities for types before the active clause unconditionally. for (var i = 0; i < start; i++) { facts |= typeofNEFacts.get(witnesses[i]) || 32768 /* TypeofNEHostObject */; } } // When in an active clause without default the set of // equalities is finite. else { // Add equalities for all types in the active clause. for (var i = start; i < end; i++) { facts |= typeofEQFacts.get(witnesses[i]) || 128 /* TypeofEQHostObject */; } // Remove equalities for types that appear before the // active clause. for (var i = 0; i < start; i++) { facts &= ~(typeofEQFacts.get(witnesses[i]) || 0); } } return facts; } function isExhaustiveSwitchStatement(node) { var links = getNodeLinks(node); return links.isExhaustive !== undefined ? links.isExhaustive : (links.isExhaustive = computeExhaustiveSwitchStatement(node)); } function computeExhaustiveSwitchStatement(node) { if (node.expression.kind === 204 /* TypeOfExpression */) { var operandType = getTypeOfExpression(node.expression.expression); var witnesses = getSwitchClauseTypeOfWitnesses(node, /*retainDefault*/ false); // notEqualFacts states that the type of the switched value is not equal to every type in the switch. var notEqualFacts_1 = getFactsFromTypeofSwitch(0, 0, witnesses, /*hasDefault*/ true); var type_3 = getBaseConstraintOfType(operandType) || operandType; return !!(filterType(type_3, function (t) { return (getTypeFacts(t) & notEqualFacts_1) === notEqualFacts_1; }).flags & 131072 /* Never */); } var type = getTypeOfExpression(node.expression); if (!isLiteralType(type)) { return false; } var switchTypes = getSwitchClauseTypes(node); if (!switchTypes.length || ts.some(switchTypes, isNeitherUnitTypeNorNever)) { return false; } return eachTypeContainedIn(mapType(type, getRegularTypeOfLiteralType), switchTypes); } function functionHasImplicitReturn(func) { return func.endFlowNode && isReachableFlowNode(func.endFlowNode); } /** NOTE: Return value of `[]` means a different thing than `undefined`. `[]` means func returns `void`, `undefined` means it returns `never`. */ function checkAndAggregateReturnExpressionTypes(func, checkMode) { var functionFlags = ts.getFunctionFlags(func); var aggregatedTypes = []; var hasReturnWithNoExpression = functionHasImplicitReturn(func); var hasReturnOfTypeNever = false; ts.forEachReturnStatement(func.body, function (returnStatement) { var expr = returnStatement.expression; if (expr) { var type = checkExpressionCached(expr, checkMode && checkMode & ~8 /* SkipGenericFunctions */); if (functionFlags & 2 /* Async */) { // From within an async function you can return either a non-promise value or a promise. Any // Promise/A+ compatible implementation will always assimilate any foreign promise, so the // return type of the body should be unwrapped to its awaited type, which should be wrapped in // the native Promise type by the caller. type = checkAwaitedType(type, func, ts.Diagnostics.The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member); } if (type.flags & 131072 /* Never */) { hasReturnOfTypeNever = true; } ts.pushIfUnique(aggregatedTypes, type); } else { hasReturnWithNoExpression = true; } }); if (aggregatedTypes.length === 0 && !hasReturnWithNoExpression && (hasReturnOfTypeNever || mayReturnNever(func))) { return undefined; } if (strictNullChecks && aggregatedTypes.length && hasReturnWithNoExpression && !(isJSConstructor(func) && aggregatedTypes.some(function (t) { return t.symbol === func.symbol; }))) { // Javascript "callable constructors", containing eg `if (!(this instanceof A)) return new A()` should not add undefined ts.pushIfUnique(aggregatedTypes, undefinedType); } return aggregatedTypes; } function mayReturnNever(func) { switch (func.kind) { case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return true; case 161 /* MethodDeclaration */: return func.parent.kind === 193 /* ObjectLiteralExpression */; default: return false; } } /** * TypeScript Specification 1.0 (6.3) - July 2014 * An explicitly typed function whose return type isn't the Void type, * the Any type, or a union type containing the Void or Any type as a constituent * must have at least one return statement somewhere in its body. * An exception to this rule is if the function implementation consists of a single 'throw' statement. * * @param returnType - return type of the function, can be undefined if return type is not explicitly specified */ function checkAllCodePathsInNonVoidFunctionReturnOrThrow(func, returnType) { if (!produceDiagnostics) { return; } var functionFlags = ts.getFunctionFlags(func); var type = returnType && unwrapReturnType(returnType, functionFlags); // Functions with with an explicitly specified 'void' or 'any' return type don't need any return expressions. if (type && maybeTypeOfKind(type, 1 /* Any */ | 16384 /* Void */)) { return; } // If all we have is a function signature, or an arrow function with an expression body, then there is nothing to check. // also if HasImplicitReturn flag is not set this means that all codepaths in function body end with return or throw if (func.kind === 160 /* MethodSignature */ || ts.nodeIsMissing(func.body) || func.body.kind !== 223 /* Block */ || !functionHasImplicitReturn(func)) { return; } var hasExplicitReturn = func.flags & 512 /* HasExplicitReturn */; if (type && type.flags & 131072 /* Never */) { error(ts.getEffectiveReturnTypeNode(func), ts.Diagnostics.A_function_returning_never_cannot_have_a_reachable_end_point); } else if (type && !hasExplicitReturn) { // minimal check: function has syntactic return type annotation and no explicit return statements in the body // this function does not conform to the specification. // NOTE: having returnType !== undefined is a precondition for entering this branch so func.type will always be present error(ts.getEffectiveReturnTypeNode(func), ts.Diagnostics.A_function_whose_declared_type_is_neither_void_nor_any_must_return_a_value); } else if (type && strictNullChecks && !isTypeAssignableTo(undefinedType, type)) { error(ts.getEffectiveReturnTypeNode(func) || func, ts.Diagnostics.Function_lacks_ending_return_statement_and_return_type_does_not_include_undefined); } else if (compilerOptions.noImplicitReturns) { if (!type) { // If return type annotation is omitted check if function has any explicit return statements. // If it does not have any - its inferred return type is void - don't do any checks. // Otherwise get inferred return type from function body and report error only if it is not void / anytype if (!hasExplicitReturn) { return; } var inferredReturnType = getReturnTypeOfSignature(getSignatureFromDeclaration(func)); if (isUnwrappedReturnTypeVoidOrAny(func, inferredReturnType)) { return; } } error(ts.getEffectiveReturnTypeNode(func) || func, ts.Diagnostics.Not_all_code_paths_return_a_value); } } function checkFunctionExpressionOrObjectLiteralMethod(node, checkMode) { ts.Debug.assert(node.kind !== 161 /* MethodDeclaration */ || ts.isObjectLiteralMethod(node)); checkNodeDeferred(node); // The identityMapper object is used to indicate that function expressions are wildcards if (checkMode && checkMode & 4 /* SkipContextSensitive */ && isContextSensitive(node)) { // Skip parameters, return signature with return type that retains noncontextual parts so inferences can still be drawn in an early stage if (!ts.getEffectiveReturnTypeNode(node) && !hasContextSensitiveParameters(node)) { // Return plain anyFunctionType if there is no possibility we'll make inferences from the return type var contextualSignature = getContextualSignature(node); if (contextualSignature && couldContainTypeVariables(getReturnTypeOfSignature(contextualSignature))) { var links = getNodeLinks(node); if (links.contextFreeType) { return links.contextFreeType; } var returnType = getReturnTypeFromBody(node, checkMode); var returnOnlySignature = createSignature(undefined, undefined, undefined, ts.emptyArray, returnType, /*resolvedTypePredicate*/ undefined, 0, 0 /* None */); var returnOnlyType = createAnonymousType(node.symbol, emptySymbols, [returnOnlySignature], ts.emptyArray, undefined, undefined); returnOnlyType.objectFlags |= 2097152 /* NonInferrableType */; return links.contextFreeType = returnOnlyType; } } return anyFunctionType; } // Grammar checking var hasGrammarError = checkGrammarFunctionLikeDeclaration(node); if (!hasGrammarError && node.kind === 201 /* FunctionExpression */) { checkGrammarForGenerator(node); } contextuallyCheckFunctionExpressionOrObjectLiteralMethod(node, checkMode); return getTypeOfSymbol(getSymbolOfNode(node)); } function contextuallyCheckFunctionExpressionOrObjectLiteralMethod(node, checkMode) { var links = getNodeLinks(node); // Check if function expression is contextually typed and assign parameter types if so. if (!(links.flags & 1024 /* ContextChecked */)) { var contextualSignature = getContextualSignature(node); // If a type check is started at a function expression that is an argument of a function call, obtaining the // contextual type may recursively get back to here during overload resolution of the call. If so, we will have // already assigned contextual types. if (!(links.flags & 1024 /* ContextChecked */)) { links.flags |= 1024 /* ContextChecked */; var signature = ts.firstOrUndefined(getSignaturesOfType(getTypeOfSymbol(getSymbolOfNode(node)), 0 /* Call */)); if (!signature) { return; } if (isContextSensitive(node)) { if (contextualSignature) { var inferenceContext = getInferenceContext(node); if (checkMode && checkMode & 2 /* Inferential */) { inferFromAnnotatedParameters(signature, contextualSignature, inferenceContext); } var instantiatedContextualSignature = inferenceContext ? instantiateSignature(contextualSignature, inferenceContext.mapper) : contextualSignature; assignContextualParameterTypes(signature, instantiatedContextualSignature); } else { // Force resolution of all parameter types such that the absence of a contextual type is consistently reflected. assignNonContextualParameterTypes(signature); } } if (contextualSignature && !getReturnTypeFromAnnotation(node) && !signature.resolvedReturnType) { var returnType = getReturnTypeFromBody(node, checkMode); if (!signature.resolvedReturnType) { signature.resolvedReturnType = returnType; } } checkSignatureDeclaration(node); } } } function checkFunctionExpressionOrObjectLiteralMethodDeferred(node) { ts.Debug.assert(node.kind !== 161 /* MethodDeclaration */ || ts.isObjectLiteralMethod(node)); var functionFlags = ts.getFunctionFlags(node); var returnType = getReturnTypeFromAnnotation(node); checkAllCodePathsInNonVoidFunctionReturnOrThrow(node, returnType); if (node.body) { if (!ts.getEffectiveReturnTypeNode(node)) { // There are some checks that are only performed in getReturnTypeFromBody, that may produce errors // we need. An example is the noImplicitAny errors resulting from widening the return expression // of a function. Because checking of function expression bodies is deferred, there was never an // appropriate time to do this during the main walk of the file (see the comment at the top of // checkFunctionExpressionBodies). So it must be done now. getReturnTypeOfSignature(getSignatureFromDeclaration(node)); } if (node.body.kind === 223 /* Block */) { checkSourceElement(node.body); } else { // From within an async function you can return either a non-promise value or a promise. Any // Promise/A+ compatible implementation will always assimilate any foreign promise, so we // should not be checking assignability of a promise to the return type. Instead, we need to // check assignability of the awaited type of the expression body against the promised type of // its return type annotation. var exprType = checkExpression(node.body); var returnOrPromisedType = returnType && unwrapReturnType(returnType, functionFlags); if (returnOrPromisedType) { if ((functionFlags & 3 /* AsyncGenerator */) === 2 /* Async */) { // Async function var awaitedType = checkAwaitedType(exprType, node.body, ts.Diagnostics.The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member); checkTypeAssignableToAndOptionallyElaborate(awaitedType, returnOrPromisedType, node.body, node.body); } else { // Normal function checkTypeAssignableToAndOptionallyElaborate(exprType, returnOrPromisedType, node.body, node.body); } } } } } function checkArithmeticOperandType(operand, type, diagnostic, isAwaitValid) { if (isAwaitValid === void 0) { isAwaitValid = false; } if (!isTypeAssignableTo(type, numberOrBigIntType)) { var awaitedType = isAwaitValid && getAwaitedTypeOfPromise(type); errorAndMaybeSuggestAwait(operand, !!awaitedType && isTypeAssignableTo(awaitedType, numberOrBigIntType), diagnostic); return false; } return true; } function isReadonlyAssignmentDeclaration(d) { if (!ts.isCallExpression(d)) { return false; } if (!ts.isBindableObjectDefinePropertyCall(d)) { return false; } var objectLitType = checkExpressionCached(d.arguments[2]); var valueType = getTypeOfPropertyOfType(objectLitType, "value"); if (valueType) { var writableProp = getPropertyOfType(objectLitType, "writable"); var writableType = writableProp && getTypeOfSymbol(writableProp); if (!writableType || writableType === falseType || writableType === regularFalseType) { return true; } // We include this definition whereupon we walk back and check the type at the declaration because // The usual definition of `Object.defineProperty` will _not_ cause literal types to be preserved in the // argument types, should the type be contextualized by the call itself. if (writableProp && writableProp.valueDeclaration && ts.isPropertyAssignment(writableProp.valueDeclaration)) { var initializer = writableProp.valueDeclaration.initializer; var rawOriginalType = checkExpression(initializer); if (rawOriginalType === falseType || rawOriginalType === regularFalseType) { return true; } } return false; } var setProp = getPropertyOfType(objectLitType, "set"); return !setProp; } function isReadonlySymbol(symbol) { // The following symbols are considered read-only: // Properties with a 'readonly' modifier // Variables declared with 'const' // Get accessors without matching set accessors // Enum members // Object.defineProperty assignments with writable false or no setter // Unions and intersections of the above (unions and intersections eagerly set isReadonly on creation) return !!(ts.getCheckFlags(symbol) & 8 /* Readonly */ || symbol.flags & 4 /* Property */ && ts.getDeclarationModifierFlagsFromSymbol(symbol) & 64 /* Readonly */ || symbol.flags & 3 /* Variable */ && getDeclarationNodeFlagsFromSymbol(symbol) & 2 /* Const */ || symbol.flags & 98304 /* Accessor */ && !(symbol.flags & 65536 /* SetAccessor */) || symbol.flags & 8 /* EnumMember */ || ts.some(symbol.declarations, isReadonlyAssignmentDeclaration)); } function isAssignmentToReadonlyEntity(expr, symbol, assignmentKind) { var _a, _b; if (assignmentKind === 0 /* None */) { // no assigment means it doesn't matter whether the entity is readonly return false; } if (isReadonlySymbol(symbol)) { // Allow assignments to readonly properties within constructors of the same class declaration. if (symbol.flags & 4 /* Property */ && ts.isAccessExpression(expr) && expr.expression.kind === 104 /* ThisKeyword */) { // Look for if this is the constructor for the class that `symbol` is a property of. var ctor = ts.getContainingFunction(expr); if (!(ctor && ctor.kind === 162 /* Constructor */)) { return true; } if (symbol.valueDeclaration) { var isAssignmentDeclaration_1 = ts.isBinaryExpression(symbol.valueDeclaration); var isLocalPropertyDeclaration = ctor.parent === symbol.valueDeclaration.parent; var isLocalParameterProperty = ctor === symbol.valueDeclaration.parent; var isLocalThisPropertyAssignment = isAssignmentDeclaration_1 && ((_a = symbol.parent) === null || _a === void 0 ? void 0 : _a.valueDeclaration) === ctor.parent; var isLocalThisPropertyAssignmentConstructorFunction = isAssignmentDeclaration_1 && ((_b = symbol.parent) === null || _b === void 0 ? void 0 : _b.valueDeclaration) === ctor; var isWriteableSymbol = isLocalPropertyDeclaration || isLocalParameterProperty || isLocalThisPropertyAssignment || isLocalThisPropertyAssignmentConstructorFunction; return !isWriteableSymbol; } } return true; } if (ts.isAccessExpression(expr)) { // references through namespace import should be readonly var node = ts.skipParentheses(expr.expression); if (node.kind === 75 /* Identifier */) { var symbol_2 = getNodeLinks(node).resolvedSymbol; if (symbol_2.flags & 2097152 /* Alias */) { var declaration = getDeclarationOfAliasSymbol(symbol_2); return !!declaration && declaration.kind === 256 /* NamespaceImport */; } } } return false; } function checkReferenceExpression(expr, invalidReferenceMessage, invalidOptionalChainMessage) { // References are combinations of identifiers, parentheses, and property accesses. var node = ts.skipOuterExpressions(expr, 6 /* Assertions */ | 1 /* Parentheses */); if (node.kind !== 75 /* Identifier */ && !ts.isAccessExpression(node)) { error(expr, invalidReferenceMessage); return false; } if (node.flags & 32 /* OptionalChain */) { error(expr, invalidOptionalChainMessage); return false; } return true; } function checkDeleteExpression(node) { checkExpression(node.expression); var expr = ts.skipParentheses(node.expression); if (!ts.isAccessExpression(expr)) { error(expr, ts.Diagnostics.The_operand_of_a_delete_operator_must_be_a_property_reference); return booleanType; } // eslint-disable-next-line if (expr.kind === 194 /* PropertyAccessExpression */ && ts.isPrivateIdentifier(expr.name)) { error(expr, ts.Diagnostics.The_operand_of_a_delete_operator_cannot_be_a_private_identifier); } var links = getNodeLinks(expr); var symbol = getExportSymbolOfValueSymbolIfExported(links.resolvedSymbol); if (symbol && isReadonlySymbol(symbol)) { error(expr, ts.Diagnostics.The_operand_of_a_delete_operator_cannot_be_a_read_only_property); } return booleanType; } function checkTypeOfExpression(node) { checkExpression(node.expression); return typeofType; } function checkVoidExpression(node) { checkExpression(node.expression); return undefinedWideningType; } function isTopLevelAwait(node) { var container = ts.getThisContainer(node, /*includeArrowFunctions*/ true); return ts.isSourceFile(container); } function checkAwaitExpression(node) { // Grammar checking if (produceDiagnostics) { if (!(node.flags & 32768 /* AwaitContext */)) { if (isTopLevelAwait(node)) { var sourceFile = ts.getSourceFileOfNode(node); if (!hasParseDiagnostics(sourceFile)) { var span = void 0; if (!ts.isEffectiveExternalModule(sourceFile, compilerOptions)) { if (!span) span = ts.getSpanOfTokenAtPosition(sourceFile, node.pos); var diagnostic = ts.createFileDiagnostic(sourceFile, span.start, span.length, ts.Diagnostics.await_expressions_are_only_allowed_at_the_top_level_of_a_file_when_that_file_is_a_module_but_this_file_has_no_imports_or_exports_Consider_adding_an_empty_export_to_make_this_file_a_module); diagnostics.add(diagnostic); } if ((moduleKind !== ts.ModuleKind.ESNext && moduleKind !== ts.ModuleKind.System) || languageVersion < 4 /* ES2017 */) { span = ts.getSpanOfTokenAtPosition(sourceFile, node.pos); var diagnostic = ts.createFileDiagnostic(sourceFile, span.start, span.length, ts.Diagnostics.Top_level_await_expressions_are_only_allowed_when_the_module_option_is_set_to_esnext_or_system_and_the_target_option_is_set_to_es2017_or_higher); diagnostics.add(diagnostic); } } } else { // use of 'await' in non-async function var sourceFile = ts.getSourceFileOfNode(node); if (!hasParseDiagnostics(sourceFile)) { var span = ts.getSpanOfTokenAtPosition(sourceFile, node.pos); var diagnostic = ts.createFileDiagnostic(sourceFile, span.start, span.length, ts.Diagnostics.await_expressions_are_only_allowed_within_async_functions_and_at_the_top_levels_of_modules); var func = ts.getContainingFunction(node); if (func && func.kind !== 162 /* Constructor */ && (ts.getFunctionFlags(func) & 2 /* Async */) === 0) { var relatedInfo = ts.createDiagnosticForNode(func, ts.Diagnostics.Did_you_mean_to_mark_this_function_as_async); ts.addRelatedInfo(diagnostic, relatedInfo); } diagnostics.add(diagnostic); } } } if (isInParameterInitializerBeforeContainingFunction(node)) { error(node, ts.Diagnostics.await_expressions_cannot_be_used_in_a_parameter_initializer); } } var operandType = checkExpression(node.expression); var awaitedType = checkAwaitedType(operandType, node, ts.Diagnostics.Type_of_await_operand_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member); if (awaitedType === operandType && awaitedType !== errorType && !(operandType.flags & 3 /* AnyOrUnknown */)) { addErrorOrSuggestion(/*isError*/ false, ts.createDiagnosticForNode(node, ts.Diagnostics.await_has_no_effect_on_the_type_of_this_expression)); } return awaitedType; } function checkPrefixUnaryExpression(node) { var operandType = checkExpression(node.operand); if (operandType === silentNeverType) { return silentNeverType; } switch (node.operand.kind) { case 8 /* NumericLiteral */: switch (node.operator) { case 40 /* MinusToken */: return getFreshTypeOfLiteralType(getLiteralType(-node.operand.text)); case 39 /* PlusToken */: return getFreshTypeOfLiteralType(getLiteralType(+node.operand.text)); } break; case 9 /* BigIntLiteral */: if (node.operator === 40 /* MinusToken */) { return getFreshTypeOfLiteralType(getLiteralType({ negative: true, base10Value: ts.parsePseudoBigInt(node.operand.text) })); } } switch (node.operator) { case 39 /* PlusToken */: case 40 /* MinusToken */: case 54 /* TildeToken */: checkNonNullType(operandType, node.operand); if (maybeTypeOfKind(operandType, 12288 /* ESSymbolLike */)) { error(node.operand, ts.Diagnostics.The_0_operator_cannot_be_applied_to_type_symbol, ts.tokenToString(node.operator)); } if (node.operator === 39 /* PlusToken */) { if (maybeTypeOfKind(operandType, 2112 /* BigIntLike */)) { error(node.operand, ts.Diagnostics.Operator_0_cannot_be_applied_to_type_1, ts.tokenToString(node.operator), typeToString(getBaseTypeOfLiteralType(operandType))); } return numberType; } return getUnaryResultType(operandType); case 53 /* ExclamationToken */: checkTruthinessExpression(node.operand); var facts = getTypeFacts(operandType) & (4194304 /* Truthy */ | 8388608 /* Falsy */); return facts === 4194304 /* Truthy */ ? falseType : facts === 8388608 /* Falsy */ ? trueType : booleanType; case 45 /* PlusPlusToken */: case 46 /* MinusMinusToken */: var ok = checkArithmeticOperandType(node.operand, checkNonNullType(operandType, node.operand), ts.Diagnostics.An_arithmetic_operand_must_be_of_type_any_number_bigint_or_an_enum_type); if (ok) { // run check only if former checks succeeded to avoid reporting cascading errors checkReferenceExpression(node.operand, ts.Diagnostics.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access, ts.Diagnostics.The_operand_of_an_increment_or_decrement_operator_may_not_be_an_optional_property_access); } return getUnaryResultType(operandType); } return errorType; } function checkPostfixUnaryExpression(node) { var operandType = checkExpression(node.operand); if (operandType === silentNeverType) { return silentNeverType; } var ok = checkArithmeticOperandType(node.operand, checkNonNullType(operandType, node.operand), ts.Diagnostics.An_arithmetic_operand_must_be_of_type_any_number_bigint_or_an_enum_type); if (ok) { // run check only if former checks succeeded to avoid reporting cascading errors checkReferenceExpression(node.operand, ts.Diagnostics.The_operand_of_an_increment_or_decrement_operator_must_be_a_variable_or_a_property_access, ts.Diagnostics.The_operand_of_an_increment_or_decrement_operator_may_not_be_an_optional_property_access); } return getUnaryResultType(operandType); } function getUnaryResultType(operandType) { if (maybeTypeOfKind(operandType, 2112 /* BigIntLike */)) { return isTypeAssignableToKind(operandType, 3 /* AnyOrUnknown */) || maybeTypeOfKind(operandType, 296 /* NumberLike */) ? numberOrBigIntType : bigintType; } // If it's not a bigint type, implicit coercion will result in a number return numberType; } // Return true if type might be of the given kind. A union or intersection type might be of a given // kind if at least one constituent type is of the given kind. function maybeTypeOfKind(type, kind) { if (type.flags & kind) { return true; } if (type.flags & 3145728 /* UnionOrIntersection */) { var types = type.types; for (var _i = 0, types_19 = types; _i < types_19.length; _i++) { var t = types_19[_i]; if (maybeTypeOfKind(t, kind)) { return true; } } } return false; } function isTypeAssignableToKind(source, kind, strict) { if (source.flags & kind) { return true; } if (strict && source.flags & (3 /* AnyOrUnknown */ | 16384 /* Void */ | 32768 /* Undefined */ | 65536 /* Null */)) { return false; } return !!(kind & 296 /* NumberLike */) && isTypeAssignableTo(source, numberType) || !!(kind & 2112 /* BigIntLike */) && isTypeAssignableTo(source, bigintType) || !!(kind & 132 /* StringLike */) && isTypeAssignableTo(source, stringType) || !!(kind & 528 /* BooleanLike */) && isTypeAssignableTo(source, booleanType) || !!(kind & 16384 /* Void */) && isTypeAssignableTo(source, voidType) || !!(kind & 131072 /* Never */) && isTypeAssignableTo(source, neverType) || !!(kind & 65536 /* Null */) && isTypeAssignableTo(source, nullType) || !!(kind & 32768 /* Undefined */) && isTypeAssignableTo(source, undefinedType) || !!(kind & 4096 /* ESSymbol */) && isTypeAssignableTo(source, esSymbolType) || !!(kind & 67108864 /* NonPrimitive */) && isTypeAssignableTo(source, nonPrimitiveType); } function allTypesAssignableToKind(source, kind, strict) { return source.flags & 1048576 /* Union */ ? ts.every(source.types, function (subType) { return allTypesAssignableToKind(subType, kind, strict); }) : isTypeAssignableToKind(source, kind, strict); } function isConstEnumObjectType(type) { return !!(ts.getObjectFlags(type) & 16 /* Anonymous */) && !!type.symbol && isConstEnumSymbol(type.symbol); } function isConstEnumSymbol(symbol) { return (symbol.flags & 128 /* ConstEnum */) !== 0; } function checkInstanceOfExpression(left, right, leftType, rightType) { if (leftType === silentNeverType || rightType === silentNeverType) { return silentNeverType; } // TypeScript 1.0 spec (April 2014): 4.15.4 // The instanceof operator requires the left operand to be of type Any, an object type, or a type parameter type, // and the right operand to be of type Any, a subtype of the 'Function' interface type, or have a call or construct signature. // The result is always of the Boolean primitive type. // NOTE: do not raise error if leftType is unknown as related error was already reported if (!isTypeAny(leftType) && allTypesAssignableToKind(leftType, 131068 /* Primitive */)) { error(left, ts.Diagnostics.The_left_hand_side_of_an_instanceof_expression_must_be_of_type_any_an_object_type_or_a_type_parameter); } // NOTE: do not raise error if right is unknown as related error was already reported if (!(isTypeAny(rightType) || typeHasCallOrConstructSignatures(rightType) || isTypeSubtypeOf(rightType, globalFunctionType))) { error(right, ts.Diagnostics.The_right_hand_side_of_an_instanceof_expression_must_be_of_type_any_or_of_a_type_assignable_to_the_Function_interface_type); } return booleanType; } function checkInExpression(left, right, leftType, rightType) { if (leftType === silentNeverType || rightType === silentNeverType) { return silentNeverType; } leftType = checkNonNullType(leftType, left); rightType = checkNonNullType(rightType, right); // TypeScript 1.0 spec (April 2014): 4.15.5 // The in operator requires the left operand to be of type Any, the String primitive type, or the Number primitive type, // and the right operand to be of type Any, an object type, or a type parameter type. // The result is always of the Boolean primitive type. if (!(isTypeComparableTo(leftType, stringType) || isTypeAssignableToKind(leftType, 296 /* NumberLike */ | 12288 /* ESSymbolLike */))) { error(left, ts.Diagnostics.The_left_hand_side_of_an_in_expression_must_be_of_type_any_string_number_or_symbol); } if (!allTypesAssignableToKind(rightType, 67108864 /* NonPrimitive */ | 58982400 /* InstantiableNonPrimitive */)) { error(right, ts.Diagnostics.The_right_hand_side_of_an_in_expression_must_be_of_type_any_an_object_type_or_a_type_parameter); } return booleanType; } function checkObjectLiteralAssignment(node, sourceType, rightIsThis) { var properties = node.properties; if (strictNullChecks && properties.length === 0) { return checkNonNullType(sourceType, node); } for (var i = 0; i < properties.length; i++) { checkObjectLiteralDestructuringPropertyAssignment(node, sourceType, i, properties, rightIsThis); } return sourceType; } /** Note: If property cannot be a SpreadAssignment, then allProperties does not need to be provided */ function checkObjectLiteralDestructuringPropertyAssignment(node, objectLiteralType, propertyIndex, allProperties, rightIsThis) { if (rightIsThis === void 0) { rightIsThis = false; } var properties = node.properties; var property = properties[propertyIndex]; if (property.kind === 281 /* PropertyAssignment */ || property.kind === 282 /* ShorthandPropertyAssignment */) { var name = property.name; var exprType = getLiteralTypeFromPropertyName(name); if (isTypeUsableAsPropertyName(exprType)) { var text = getPropertyNameFromType(exprType); var prop = getPropertyOfType(objectLiteralType, text); if (prop) { markPropertyAsReferenced(prop, property, rightIsThis); checkPropertyAccessibility(property, /*isSuper*/ false, objectLiteralType, prop); } } var elementType = getIndexedAccessType(objectLiteralType, exprType, name); var type = getFlowTypeOfDestructuring(property, elementType); return checkDestructuringAssignment(property.kind === 282 /* ShorthandPropertyAssignment */ ? property : property.initializer, type); } else if (property.kind === 283 /* SpreadAssignment */) { if (propertyIndex < properties.length - 1) { error(property, ts.Diagnostics.A_rest_element_must_be_last_in_a_destructuring_pattern); } else { if (languageVersion < 99 /* ESNext */) { checkExternalEmitHelpers(property, 4 /* Rest */); } var nonRestNames = []; if (allProperties) { for (var _i = 0, allProperties_1 = allProperties; _i < allProperties_1.length; _i++) { var otherProperty = allProperties_1[_i]; if (!ts.isSpreadAssignment(otherProperty)) { nonRestNames.push(otherProperty.name); } } } var type = getRestType(objectLiteralType, nonRestNames, objectLiteralType.symbol); checkGrammarForDisallowedTrailingComma(allProperties, ts.Diagnostics.A_rest_parameter_or_binding_pattern_may_not_have_a_trailing_comma); return checkDestructuringAssignment(property.expression, type); } } else { error(property, ts.Diagnostics.Property_assignment_expected); } } function checkArrayLiteralAssignment(node, sourceType, checkMode) { var elements = node.elements; if (languageVersion < 2 /* ES2015 */ && compilerOptions.downlevelIteration) { checkExternalEmitHelpers(node, 512 /* Read */); } // This elementType will be used if the specific property corresponding to this index is not // present (aka the tuple element property). This call also checks that the parentType is in // fact an iterable or array (depending on target language). var elementType = checkIteratedTypeOrElementType(65 /* Destructuring */, sourceType, undefinedType, node) || errorType; for (var i = 0; i < elements.length; i++) { checkArrayLiteralDestructuringElementAssignment(node, sourceType, i, elementType, checkMode); } return sourceType; } function checkArrayLiteralDestructuringElementAssignment(node, sourceType, elementIndex, elementType, checkMode) { var elements = node.elements; var element = elements[elementIndex]; if (element.kind !== 215 /* OmittedExpression */) { if (element.kind !== 213 /* SpreadElement */) { var indexType = getLiteralType(elementIndex); if (isArrayLikeType(sourceType)) { // We create a synthetic expression so that getIndexedAccessType doesn't get confused // when the element is a SyntaxKind.ElementAccessExpression. var accessFlags = hasDefaultValue(element) ? 8 /* NoTupleBoundsCheck */ : 0; var elementType_2 = getIndexedAccessTypeOrUndefined(sourceType, indexType, createSyntheticExpression(element, indexType), accessFlags) || errorType; var assignedType = hasDefaultValue(element) ? getTypeWithFacts(elementType_2, 524288 /* NEUndefined */) : elementType_2; var type = getFlowTypeOfDestructuring(element, assignedType); return checkDestructuringAssignment(element, type, checkMode); } return checkDestructuringAssignment(element, elementType, checkMode); } if (elementIndex < elements.length - 1) { error(element, ts.Diagnostics.A_rest_element_must_be_last_in_a_destructuring_pattern); } else { var restExpression = element.expression; if (restExpression.kind === 209 /* BinaryExpression */ && restExpression.operatorToken.kind === 62 /* EqualsToken */) { error(restExpression.operatorToken, ts.Diagnostics.A_rest_element_cannot_have_an_initializer); } else { checkGrammarForDisallowedTrailingComma(node.elements, ts.Diagnostics.A_rest_parameter_or_binding_pattern_may_not_have_a_trailing_comma); var type = everyType(sourceType, isTupleType) ? mapType(sourceType, function (t) { return sliceTupleType(t, elementIndex); }) : createArrayType(elementType); return checkDestructuringAssignment(restExpression, type, checkMode); } } } return undefined; } function checkDestructuringAssignment(exprOrAssignment, sourceType, checkMode, rightIsThis) { var target; if (exprOrAssignment.kind === 282 /* ShorthandPropertyAssignment */) { var prop = exprOrAssignment; if (prop.objectAssignmentInitializer) { // In strict null checking mode, if a default value of a non-undefined type is specified, remove // undefined from the final type. if (strictNullChecks && !(getFalsyFlags(checkExpression(prop.objectAssignmentInitializer)) & 32768 /* Undefined */)) { sourceType = getTypeWithFacts(sourceType, 524288 /* NEUndefined */); } checkBinaryLikeExpression(prop.name, prop.equalsToken, prop.objectAssignmentInitializer, checkMode); } target = exprOrAssignment.name; } else { target = exprOrAssignment; } if (target.kind === 209 /* BinaryExpression */ && target.operatorToken.kind === 62 /* EqualsToken */) { checkBinaryExpression(target, checkMode); target = target.left; } if (target.kind === 193 /* ObjectLiteralExpression */) { return checkObjectLiteralAssignment(target, sourceType, rightIsThis); } if (target.kind === 192 /* ArrayLiteralExpression */) { return checkArrayLiteralAssignment(target, sourceType, checkMode); } return checkReferenceAssignment(target, sourceType, checkMode); } function checkReferenceAssignment(target, sourceType, checkMode) { var targetType = checkExpression(target, checkMode); var error = target.parent.kind === 283 /* SpreadAssignment */ ? ts.Diagnostics.The_target_of_an_object_rest_assignment_must_be_a_variable_or_a_property_access : ts.Diagnostics.The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access; var optionalError = target.parent.kind === 283 /* SpreadAssignment */ ? ts.Diagnostics.The_target_of_an_object_rest_assignment_may_not_be_an_optional_property_access : ts.Diagnostics.The_left_hand_side_of_an_assignment_expression_may_not_be_an_optional_property_access; if (checkReferenceExpression(target, error, optionalError)) { checkTypeAssignableToAndOptionallyElaborate(sourceType, targetType, target, target); } if (ts.isPrivateIdentifierPropertyAccessExpression(target)) { checkExternalEmitHelpers(target.parent, 524288 /* ClassPrivateFieldSet */); } return sourceType; } /** * This is a *shallow* check: An expression is side-effect-free if the * evaluation of the expression *itself* cannot produce side effects. * For example, x++ / 3 is side-effect free because the / operator * does not have side effects. * The intent is to "smell test" an expression for correctness in positions where * its value is discarded (e.g. the left side of the comma operator). */ function isSideEffectFree(node) { node = ts.skipParentheses(node); switch (node.kind) { case 75 /* Identifier */: case 10 /* StringLiteral */: case 13 /* RegularExpressionLiteral */: case 198 /* TaggedTemplateExpression */: case 211 /* TemplateExpression */: case 14 /* NoSubstitutionTemplateLiteral */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: case 100 /* NullKeyword */: case 146 /* UndefinedKeyword */: case 201 /* FunctionExpression */: case 214 /* ClassExpression */: case 202 /* ArrowFunction */: case 192 /* ArrayLiteralExpression */: case 193 /* ObjectLiteralExpression */: case 204 /* TypeOfExpression */: case 218 /* NonNullExpression */: case 267 /* JsxSelfClosingElement */: case 266 /* JsxElement */: return true; case 210 /* ConditionalExpression */: return isSideEffectFree(node.whenTrue) && isSideEffectFree(node.whenFalse); case 209 /* BinaryExpression */: if (ts.isAssignmentOperator(node.operatorToken.kind)) { return false; } return isSideEffectFree(node.left) && isSideEffectFree(node.right); case 207 /* PrefixUnaryExpression */: case 208 /* PostfixUnaryExpression */: // Unary operators ~, !, +, and - have no side effects. // The rest do. switch (node.operator) { case 53 /* ExclamationToken */: case 39 /* PlusToken */: case 40 /* MinusToken */: case 54 /* TildeToken */: return true; } return false; // Some forms listed here for clarity case 205 /* VoidExpression */: // Explicit opt-out case 199 /* TypeAssertionExpression */: // Not SEF, but can produce useful type warnings case 217 /* AsExpression */: // Not SEF, but can produce useful type warnings default: return false; } } function isTypeEqualityComparableTo(source, target) { return (target.flags & 98304 /* Nullable */) !== 0 || isTypeComparableTo(source, target); } var CheckBinaryExpressionState; (function (CheckBinaryExpressionState) { CheckBinaryExpressionState[CheckBinaryExpressionState["MaybeCheckLeft"] = 0] = "MaybeCheckLeft"; CheckBinaryExpressionState[CheckBinaryExpressionState["CheckRight"] = 1] = "CheckRight"; CheckBinaryExpressionState[CheckBinaryExpressionState["FinishCheck"] = 2] = "FinishCheck"; })(CheckBinaryExpressionState || (CheckBinaryExpressionState = {})); function checkBinaryExpression(node, checkMode) { var workStacks = { expr: [node], state: [0 /* MaybeCheckLeft */], leftType: [undefined] }; var stackIndex = 0; var lastResult; while (stackIndex >= 0) { node = workStacks.expr[stackIndex]; switch (workStacks.state[stackIndex]) { case 0 /* MaybeCheckLeft */: { if (ts.isInJSFile(node) && ts.getAssignedExpandoInitializer(node)) { finishInvocation(checkExpression(node.right, checkMode)); break; } checkGrammarNullishCoalesceWithLogicalExpression(node); var operator = node.operatorToken.kind; if (operator === 62 /* EqualsToken */ && (node.left.kind === 193 /* ObjectLiteralExpression */ || node.left.kind === 192 /* ArrayLiteralExpression */)) { finishInvocation(checkDestructuringAssignment(node.left, checkExpression(node.right, checkMode), checkMode, node.right.kind === 104 /* ThisKeyword */)); break; } advanceState(1 /* CheckRight */); maybeCheckExpression(node.left); break; } case 1 /* CheckRight */: { var leftType = lastResult; workStacks.leftType[stackIndex] = leftType; var operator = node.operatorToken.kind; if (operator === 55 /* AmpersandAmpersandToken */ || operator === 56 /* BarBarToken */ || operator === 60 /* QuestionQuestionToken */) { checkTruthinessOfType(leftType, node.left); } advanceState(2 /* FinishCheck */); maybeCheckExpression(node.right); break; } case 2 /* FinishCheck */: { var leftType = workStacks.leftType[stackIndex]; var rightType = lastResult; finishInvocation(checkBinaryLikeExpressionWorker(node.left, node.operatorToken, node.right, leftType, rightType, node)); break; } default: return ts.Debug.fail("Invalid state " + workStacks.state[stackIndex] + " for checkBinaryExpression"); } } return lastResult; function finishInvocation(result) { lastResult = result; stackIndex--; } /** * Note that `advanceState` sets the _current_ head state, and that `maybeCheckExpression` potentially pushes on a new * head state; so `advanceState` must be called before any `maybeCheckExpression` during a state's execution. */ function advanceState(nextState) { workStacks.state[stackIndex] = nextState; } function maybeCheckExpression(node) { if (ts.isBinaryExpression(node)) { stackIndex++; workStacks.expr[stackIndex] = node; workStacks.state[stackIndex] = 0 /* MaybeCheckLeft */; workStacks.leftType[stackIndex] = undefined; } else { lastResult = checkExpression(node, checkMode); } } } function checkGrammarNullishCoalesceWithLogicalExpression(node) { var left = node.left, operatorToken = node.operatorToken, right = node.right; if (operatorToken.kind === 60 /* QuestionQuestionToken */) { if (ts.isBinaryExpression(left) && (left.operatorToken.kind === 56 /* BarBarToken */ || left.operatorToken.kind === 55 /* AmpersandAmpersandToken */)) { grammarErrorOnNode(left, ts.Diagnostics._0_and_1_operations_cannot_be_mixed_without_parentheses, ts.tokenToString(left.operatorToken.kind), ts.tokenToString(operatorToken.kind)); } if (ts.isBinaryExpression(right) && (right.operatorToken.kind === 56 /* BarBarToken */ || right.operatorToken.kind === 55 /* AmpersandAmpersandToken */)) { grammarErrorOnNode(right, ts.Diagnostics._0_and_1_operations_cannot_be_mixed_without_parentheses, ts.tokenToString(right.operatorToken.kind), ts.tokenToString(operatorToken.kind)); } } } // Note that this and `checkBinaryExpression` above should behave mostly the same, except this elides some // expression-wide checks and does not use a work stack to fold nested binary expressions into the same callstack frame function checkBinaryLikeExpression(left, operatorToken, right, checkMode, errorNode) { var operator = operatorToken.kind; if (operator === 62 /* EqualsToken */ && (left.kind === 193 /* ObjectLiteralExpression */ || left.kind === 192 /* ArrayLiteralExpression */)) { return checkDestructuringAssignment(left, checkExpression(right, checkMode), checkMode, right.kind === 104 /* ThisKeyword */); } var leftType; if (operator === 55 /* AmpersandAmpersandToken */ || operator === 56 /* BarBarToken */ || operator === 60 /* QuestionQuestionToken */) { leftType = checkTruthinessExpression(left, checkMode); } else { leftType = checkExpression(left, checkMode); } var rightType = checkExpression(right, checkMode); return checkBinaryLikeExpressionWorker(left, operatorToken, right, leftType, rightType, errorNode); } function checkBinaryLikeExpressionWorker(left, operatorToken, right, leftType, rightType, errorNode) { var operator = operatorToken.kind; switch (operator) { case 41 /* AsteriskToken */: case 42 /* AsteriskAsteriskToken */: case 65 /* AsteriskEqualsToken */: case 66 /* AsteriskAsteriskEqualsToken */: case 43 /* SlashToken */: case 67 /* SlashEqualsToken */: case 44 /* PercentToken */: case 68 /* PercentEqualsToken */: case 40 /* MinusToken */: case 64 /* MinusEqualsToken */: case 47 /* LessThanLessThanToken */: case 69 /* LessThanLessThanEqualsToken */: case 48 /* GreaterThanGreaterThanToken */: case 70 /* GreaterThanGreaterThanEqualsToken */: case 49 /* GreaterThanGreaterThanGreaterThanToken */: case 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */: case 51 /* BarToken */: case 73 /* BarEqualsToken */: case 52 /* CaretToken */: case 74 /* CaretEqualsToken */: case 50 /* AmpersandToken */: case 72 /* AmpersandEqualsToken */: if (leftType === silentNeverType || rightType === silentNeverType) { return silentNeverType; } leftType = checkNonNullType(leftType, left); rightType = checkNonNullType(rightType, right); var suggestedOperator = void 0; // if a user tries to apply a bitwise operator to 2 boolean operands // try and return them a helpful suggestion if ((leftType.flags & 528 /* BooleanLike */) && (rightType.flags & 528 /* BooleanLike */) && (suggestedOperator = getSuggestedBooleanOperator(operatorToken.kind)) !== undefined) { error(errorNode || operatorToken, ts.Diagnostics.The_0_operator_is_not_allowed_for_boolean_types_Consider_using_1_instead, ts.tokenToString(operatorToken.kind), ts.tokenToString(suggestedOperator)); return numberType; } else { // otherwise just check each operand separately and report errors as normal var leftOk = checkArithmeticOperandType(left, leftType, ts.Diagnostics.The_left_hand_side_of_an_arithmetic_operation_must_be_of_type_any_number_bigint_or_an_enum_type, /*isAwaitValid*/ true); var rightOk = checkArithmeticOperandType(right, rightType, ts.Diagnostics.The_right_hand_side_of_an_arithmetic_operation_must_be_of_type_any_number_bigint_or_an_enum_type, /*isAwaitValid*/ true); var resultType_1; // If both are any or unknown, allow operation; assume it will resolve to number if ((isTypeAssignableToKind(leftType, 3 /* AnyOrUnknown */) && isTypeAssignableToKind(rightType, 3 /* AnyOrUnknown */)) || // Or, if neither could be bigint, implicit coercion results in a number result !(maybeTypeOfKind(leftType, 2112 /* BigIntLike */) || maybeTypeOfKind(rightType, 2112 /* BigIntLike */))) { resultType_1 = numberType; } // At least one is assignable to bigint, so check that both are else if (bothAreBigIntLike(leftType, rightType)) { switch (operator) { case 49 /* GreaterThanGreaterThanGreaterThanToken */: case 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */: reportOperatorError(); } resultType_1 = bigintType; } // Exactly one of leftType/rightType is assignable to bigint else { reportOperatorError(bothAreBigIntLike); resultType_1 = errorType; } if (leftOk && rightOk) { checkAssignmentOperator(resultType_1); } return resultType_1; } case 39 /* PlusToken */: case 63 /* PlusEqualsToken */: if (leftType === silentNeverType || rightType === silentNeverType) { return silentNeverType; } if (!isTypeAssignableToKind(leftType, 132 /* StringLike */) && !isTypeAssignableToKind(rightType, 132 /* StringLike */)) { leftType = checkNonNullType(leftType, left); rightType = checkNonNullType(rightType, right); } var resultType = void 0; if (isTypeAssignableToKind(leftType, 296 /* NumberLike */, /*strict*/ true) && isTypeAssignableToKind(rightType, 296 /* NumberLike */, /*strict*/ true)) { // Operands of an enum type are treated as having the primitive type Number. // If both operands are of the Number primitive type, the result is of the Number primitive type. resultType = numberType; } else if (isTypeAssignableToKind(leftType, 2112 /* BigIntLike */, /*strict*/ true) && isTypeAssignableToKind(rightType, 2112 /* BigIntLike */, /*strict*/ true)) { // If both operands are of the BigInt primitive type, the result is of the BigInt primitive type. resultType = bigintType; } else if (isTypeAssignableToKind(leftType, 132 /* StringLike */, /*strict*/ true) || isTypeAssignableToKind(rightType, 132 /* StringLike */, /*strict*/ true)) { // If one or both operands are of the String primitive type, the result is of the String primitive type. resultType = stringType; } else if (isTypeAny(leftType) || isTypeAny(rightType)) { // Otherwise, the result is of type Any. // NOTE: unknown type here denotes error type. Old compiler treated this case as any type so do we. resultType = leftType === errorType || rightType === errorType ? errorType : anyType; } // Symbols are not allowed at all in arithmetic expressions if (resultType && !checkForDisallowedESSymbolOperand(operator)) { return resultType; } if (!resultType) { // Types that have a reasonably good chance of being a valid operand type. // If both types have an awaited type of one of these, we'll assume the user // might be missing an await without doing an exhaustive check that inserting // await(s) will actually be a completely valid binary expression. var closeEnoughKind_1 = 296 /* NumberLike */ | 2112 /* BigIntLike */ | 132 /* StringLike */ | 3 /* AnyOrUnknown */; reportOperatorError(function (left, right) { return isTypeAssignableToKind(left, closeEnoughKind_1) && isTypeAssignableToKind(right, closeEnoughKind_1); }); return anyType; } if (operator === 63 /* PlusEqualsToken */) { checkAssignmentOperator(resultType); } return resultType; case 29 /* LessThanToken */: case 31 /* GreaterThanToken */: case 32 /* LessThanEqualsToken */: case 33 /* GreaterThanEqualsToken */: if (checkForDisallowedESSymbolOperand(operator)) { leftType = getBaseTypeOfLiteralType(checkNonNullType(leftType, left)); rightType = getBaseTypeOfLiteralType(checkNonNullType(rightType, right)); reportOperatorErrorUnless(function (left, right) { return isTypeComparableTo(left, right) || isTypeComparableTo(right, left) || (isTypeAssignableTo(left, numberOrBigIntType) && isTypeAssignableTo(right, numberOrBigIntType)); }); } return booleanType; case 34 /* EqualsEqualsToken */: case 35 /* ExclamationEqualsToken */: case 36 /* EqualsEqualsEqualsToken */: case 37 /* ExclamationEqualsEqualsToken */: reportOperatorErrorUnless(function (left, right) { return isTypeEqualityComparableTo(left, right) || isTypeEqualityComparableTo(right, left); }); return booleanType; case 98 /* InstanceOfKeyword */: return checkInstanceOfExpression(left, right, leftType, rightType); case 97 /* InKeyword */: return checkInExpression(left, right, leftType, rightType); case 55 /* AmpersandAmpersandToken */: return getTypeFacts(leftType) & 4194304 /* Truthy */ ? getUnionType([extractDefinitelyFalsyTypes(strictNullChecks ? leftType : getBaseTypeOfLiteralType(rightType)), rightType]) : leftType; case 56 /* BarBarToken */: return getTypeFacts(leftType) & 8388608 /* Falsy */ ? getUnionType([removeDefinitelyFalsyTypes(leftType), rightType], 2 /* Subtype */) : leftType; case 60 /* QuestionQuestionToken */: return getTypeFacts(leftType) & 262144 /* EQUndefinedOrNull */ ? getUnionType([getNonNullableType(leftType), rightType], 2 /* Subtype */) : leftType; case 62 /* EqualsToken */: var declKind = ts.isBinaryExpression(left.parent) ? ts.getAssignmentDeclarationKind(left.parent) : 0 /* None */; checkAssignmentDeclaration(declKind, rightType); if (isAssignmentDeclaration(declKind)) { if (!(rightType.flags & 524288 /* Object */) || declKind !== 2 /* ModuleExports */ && declKind !== 6 /* Prototype */ && !isEmptyObjectType(rightType) && !isFunctionObjectType(rightType) && !(ts.getObjectFlags(rightType) & 1 /* Class */)) { // don't check assignability of module.exports=, C.prototype=, or expando types because they will necessarily be incomplete checkAssignmentOperator(rightType); } return leftType; } else { checkAssignmentOperator(rightType); return getRegularTypeOfObjectLiteral(rightType); } case 27 /* CommaToken */: if (!compilerOptions.allowUnreachableCode && isSideEffectFree(left) && !isEvalNode(right)) { error(left, ts.Diagnostics.Left_side_of_comma_operator_is_unused_and_has_no_side_effects); } return rightType; default: return ts.Debug.fail(); } function bothAreBigIntLike(left, right) { return isTypeAssignableToKind(left, 2112 /* BigIntLike */) && isTypeAssignableToKind(right, 2112 /* BigIntLike */); } function checkAssignmentDeclaration(kind, rightType) { if (kind === 2 /* ModuleExports */) { for (var _i = 0, _a = getPropertiesOfObjectType(rightType); _i < _a.length; _i++) { var prop = _a[_i]; var propType = getTypeOfSymbol(prop); if (propType.symbol && propType.symbol.flags & 32 /* Class */) { var name = prop.escapedName; var symbol = resolveName(prop.valueDeclaration, name, 788968 /* Type */, undefined, name, /*isUse*/ false); if (symbol && symbol.declarations.some(ts.isJSDocTypedefTag)) { addDuplicateDeclarationErrorsForSymbols(symbol, ts.Diagnostics.Duplicate_identifier_0, ts.unescapeLeadingUnderscores(name), prop); addDuplicateDeclarationErrorsForSymbols(prop, ts.Diagnostics.Duplicate_identifier_0, ts.unescapeLeadingUnderscores(name), symbol); } } } } } function isEvalNode(node) { return node.kind === 75 /* Identifier */ && node.escapedText === "eval"; } // Return true if there was no error, false if there was an error. function checkForDisallowedESSymbolOperand(operator) { var offendingSymbolOperand = maybeTypeOfKind(leftType, 12288 /* ESSymbolLike */) ? left : maybeTypeOfKind(rightType, 12288 /* ESSymbolLike */) ? right : undefined; if (offendingSymbolOperand) { error(offendingSymbolOperand, ts.Diagnostics.The_0_operator_cannot_be_applied_to_type_symbol, ts.tokenToString(operator)); return false; } return true; } function getSuggestedBooleanOperator(operator) { switch (operator) { case 51 /* BarToken */: case 73 /* BarEqualsToken */: return 56 /* BarBarToken */; case 52 /* CaretToken */: case 74 /* CaretEqualsToken */: return 37 /* ExclamationEqualsEqualsToken */; case 50 /* AmpersandToken */: case 72 /* AmpersandEqualsToken */: return 55 /* AmpersandAmpersandToken */; default: return undefined; } } function checkAssignmentOperator(valueType) { if (produceDiagnostics && ts.isAssignmentOperator(operator)) { // TypeScript 1.0 spec (April 2014): 4.17 // An assignment of the form // VarExpr = ValueExpr // requires VarExpr to be classified as a reference // A compound assignment furthermore requires VarExpr to be classified as a reference (section 4.1) // and the type of the non-compound operation to be assignable to the type of VarExpr. if (checkReferenceExpression(left, ts.Diagnostics.The_left_hand_side_of_an_assignment_expression_must_be_a_variable_or_a_property_access, ts.Diagnostics.The_left_hand_side_of_an_assignment_expression_may_not_be_an_optional_property_access) && (!ts.isIdentifier(left) || ts.unescapeLeadingUnderscores(left.escapedText) !== "exports")) { // to avoid cascading errors check assignability only if 'isReference' check succeeded and no errors were reported checkTypeAssignableToAndOptionallyElaborate(valueType, leftType, left, right); } } } function isAssignmentDeclaration(kind) { switch (kind) { case 2 /* ModuleExports */: return true; case 1 /* ExportsProperty */: case 5 /* Property */: case 6 /* Prototype */: case 3 /* PrototypeProperty */: case 4 /* ThisProperty */: var symbol = getSymbolOfNode(left); var init = ts.getAssignedExpandoInitializer(right); return init && ts.isObjectLiteralExpression(init) && symbol && ts.hasEntries(symbol.exports); default: return false; } } /** * Returns true if an error is reported */ function reportOperatorErrorUnless(typesAreCompatible) { if (!typesAreCompatible(leftType, rightType)) { reportOperatorError(typesAreCompatible); return true; } return false; } function reportOperatorError(isRelated) { var _a; var wouldWorkWithAwait = false; var errNode = errorNode || operatorToken; if (isRelated) { var awaitedLeftType = getAwaitedType(leftType); var awaitedRightType = getAwaitedType(rightType); wouldWorkWithAwait = !(awaitedLeftType === leftType && awaitedRightType === rightType) && !!(awaitedLeftType && awaitedRightType) && isRelated(awaitedLeftType, awaitedRightType); } var effectiveLeft = leftType; var effectiveRight = rightType; if (!wouldWorkWithAwait && isRelated) { _a = getBaseTypesIfUnrelated(leftType, rightType, isRelated), effectiveLeft = _a[0], effectiveRight = _a[1]; } var _b = getTypeNamesForErrorDisplay(effectiveLeft, effectiveRight), leftStr = _b[0], rightStr = _b[1]; if (!tryGiveBetterPrimaryError(errNode, wouldWorkWithAwait, leftStr, rightStr)) { errorAndMaybeSuggestAwait(errNode, wouldWorkWithAwait, ts.Diagnostics.Operator_0_cannot_be_applied_to_types_1_and_2, ts.tokenToString(operatorToken.kind), leftStr, rightStr); } } function tryGiveBetterPrimaryError(errNode, maybeMissingAwait, leftStr, rightStr) { var typeName; switch (operatorToken.kind) { case 36 /* EqualsEqualsEqualsToken */: case 34 /* EqualsEqualsToken */: typeName = "false"; break; case 37 /* ExclamationEqualsEqualsToken */: case 35 /* ExclamationEqualsToken */: typeName = "true"; } if (typeName) { return errorAndMaybeSuggestAwait(errNode, maybeMissingAwait, ts.Diagnostics.This_condition_will_always_return_0_since_the_types_1_and_2_have_no_overlap, typeName, leftStr, rightStr); } return undefined; } } function getBaseTypesIfUnrelated(leftType, rightType, isRelated) { var effectiveLeft = leftType; var effectiveRight = rightType; var leftBase = getBaseTypeOfLiteralType(leftType); var rightBase = getBaseTypeOfLiteralType(rightType); if (!isRelated(leftBase, rightBase)) { effectiveLeft = leftBase; effectiveRight = rightBase; } return [effectiveLeft, effectiveRight]; } function checkYieldExpression(node) { // Grammar checking if (produceDiagnostics) { if (!(node.flags & 8192 /* YieldContext */)) { grammarErrorOnFirstToken(node, ts.Diagnostics.A_yield_expression_is_only_allowed_in_a_generator_body); } if (isInParameterInitializerBeforeContainingFunction(node)) { error(node, ts.Diagnostics.yield_expressions_cannot_be_used_in_a_parameter_initializer); } } var func = ts.getContainingFunction(node); if (!func) return anyType; var functionFlags = ts.getFunctionFlags(func); if (!(functionFlags & 1 /* Generator */)) { // If the user's code is syntactically correct, the func should always have a star. After all, we are in a yield context. return anyType; } var isAsync = (functionFlags & 2 /* Async */) !== 0; if (node.asteriskToken) { // Async generator functions prior to ESNext require the __await, __asyncDelegator, // and __asyncValues helpers if (isAsync && languageVersion < 99 /* ESNext */) { checkExternalEmitHelpers(node, 53248 /* AsyncDelegatorIncludes */); } // Generator functions prior to ES2015 require the __values helper if (!isAsync && languageVersion < 2 /* ES2015 */ && compilerOptions.downlevelIteration) { checkExternalEmitHelpers(node, 256 /* Values */); } } // There is no point in doing an assignability check if the function // has no explicit return type because the return type is directly computed // from the yield expressions. var returnType = getReturnTypeFromAnnotation(func); var iterationTypes = returnType && getIterationTypesOfGeneratorFunctionReturnType(returnType, isAsync); var signatureYieldType = iterationTypes && iterationTypes.yieldType || anyType; var signatureNextType = iterationTypes && iterationTypes.nextType || anyType; var resolvedSignatureNextType = isAsync ? getAwaitedType(signatureNextType) || anyType : signatureNextType; var yieldExpressionType = node.expression ? checkExpression(node.expression) : undefinedWideningType; var yieldedType = getYieldedTypeOfYieldExpression(node, yieldExpressionType, resolvedSignatureNextType, isAsync); if (returnType && yieldedType) { checkTypeAssignableToAndOptionallyElaborate(yieldedType, signatureYieldType, node.expression || node, node.expression); } if (node.asteriskToken) { var use = isAsync ? 19 /* AsyncYieldStar */ : 17 /* YieldStar */; return getIterationTypeOfIterable(use, 1 /* Return */, yieldExpressionType, node.expression) || anyType; } else if (returnType) { return getIterationTypeOfGeneratorFunctionReturnType(2 /* Next */, returnType, isAsync) || anyType; } return getContextualIterationType(2 /* Next */, func) || anyType; } function checkConditionalExpression(node, checkMode) { var type = checkTruthinessExpression(node.condition); checkTestingKnownTruthyCallableType(node.condition, node.whenTrue, type); var type1 = checkExpression(node.whenTrue, checkMode); var type2 = checkExpression(node.whenFalse, checkMode); return getUnionType([type1, type2], 2 /* Subtype */); } function checkTemplateExpression(node) { // We just want to check each expressions, but we are unconcerned with // the type of each expression, as any value may be coerced into a string. // It is worth asking whether this is what we really want though. // A place where we actually *are* concerned with the expressions' types are // in tagged templates. ts.forEach(node.templateSpans, function (templateSpan) { if (maybeTypeOfKind(checkExpression(templateSpan.expression), 12288 /* ESSymbolLike */)) { error(templateSpan.expression, ts.Diagnostics.Implicit_conversion_of_a_symbol_to_a_string_will_fail_at_runtime_Consider_wrapping_this_expression_in_String); } }); return stringType; } function getContextNode(node) { if (node.kind === 274 /* JsxAttributes */ && !ts.isJsxSelfClosingElement(node.parent)) { return node.parent.parent; // Needs to be the root JsxElement, so it encompasses the attributes _and_ the children (which are essentially part of the attributes) } return node; } function checkExpressionWithContextualType(node, contextualType, inferenceContext, checkMode) { var context = getContextNode(node); var saveContextualType = context.contextualType; var saveInferenceContext = context.inferenceContext; try { context.contextualType = contextualType; context.inferenceContext = inferenceContext; var type = checkExpression(node, checkMode | 1 /* Contextual */ | (inferenceContext ? 2 /* Inferential */ : 0)); // We strip literal freshness when an appropriate contextual type is present such that contextually typed // literals always preserve their literal types (otherwise they might widen during type inference). An alternative // here would be to not mark contextually typed literals as fresh in the first place. var result = maybeTypeOfKind(type, 2944 /* Literal */) && isLiteralOfContextualType(type, instantiateContextualType(contextualType, node)) ? getRegularTypeOfLiteralType(type) : type; return result; } finally { // In the event our operation is canceled or some other exception occurs, reset the contextual type // so that we do not accidentally hold onto an instance of the checker, as a Type created in the services layer // may hold onto the checker that created it. context.contextualType = saveContextualType; context.inferenceContext = saveInferenceContext; } } function checkExpressionCached(node, checkMode) { var links = getNodeLinks(node); if (!links.resolvedType) { if (checkMode && checkMode !== 0 /* Normal */) { return checkExpression(node, checkMode); } // When computing a type that we're going to cache, we need to ignore any ongoing control flow // analysis because variables may have transient types in indeterminable states. Moving flowLoopStart // to the top of the stack ensures all transient types are computed from a known point. var saveFlowLoopStart = flowLoopStart; var saveFlowTypeCache = flowTypeCache; flowLoopStart = flowLoopCount; flowTypeCache = undefined; links.resolvedType = checkExpression(node, checkMode); flowTypeCache = saveFlowTypeCache; flowLoopStart = saveFlowLoopStart; } return links.resolvedType; } function isTypeAssertion(node) { node = ts.skipParentheses(node); return node.kind === 199 /* TypeAssertionExpression */ || node.kind === 217 /* AsExpression */; } function checkDeclarationInitializer(declaration, contextualType) { var initializer = ts.getEffectiveInitializer(declaration); var type = getQuickTypeOfExpression(initializer) || (contextualType ? checkExpressionWithContextualType(initializer, contextualType, /*inferenceContext*/ undefined, 0 /* Normal */) : checkExpressionCached(initializer)); return ts.isParameter(declaration) && declaration.name.kind === 190 /* ArrayBindingPattern */ && isTupleType(type) && !type.target.hasRestElement && getTypeReferenceArity(type) < declaration.name.elements.length ? padTupleType(type, declaration.name) : type; } function padTupleType(type, pattern) { var patternElements = pattern.elements; var arity = getTypeReferenceArity(type); var elementTypes = arity ? getTypeArguments(type).slice() : []; for (var i = arity; i < patternElements.length; i++) { var e = patternElements[i]; if (i < patternElements.length - 1 || !(e.kind === 191 /* BindingElement */ && e.dotDotDotToken)) { elementTypes.push(!ts.isOmittedExpression(e) && hasDefaultValue(e) ? getTypeFromBindingElement(e, /*includePatternInType*/ false, /*reportErrors*/ false) : anyType); if (!ts.isOmittedExpression(e) && !hasDefaultValue(e)) { reportImplicitAny(e, anyType); } } } return createTupleType(elementTypes, type.target.minLength, /*hasRestElement*/ false, type.target.readonly); } function widenTypeInferredFromInitializer(declaration, type) { var widened = ts.getCombinedNodeFlags(declaration) & 2 /* Const */ || ts.isDeclarationReadonly(declaration) ? type : getWidenedLiteralType(type); if (ts.isInJSFile(declaration)) { if (widened.flags & 98304 /* Nullable */) { reportImplicitAny(declaration, anyType); return anyType; } else if (isEmptyArrayLiteralType(widened)) { reportImplicitAny(declaration, anyArrayType); return anyArrayType; } } return widened; } function isLiteralOfContextualType(candidateType, contextualType) { if (contextualType) { if (contextualType.flags & 3145728 /* UnionOrIntersection */) { var types = contextualType.types; return ts.some(types, function (t) { return isLiteralOfContextualType(candidateType, t); }); } if (contextualType.flags & 58982400 /* InstantiableNonPrimitive */) { // If the contextual type is a type variable constrained to a primitive type, consider // this a literal context for literals of that primitive type. For example, given a // type parameter 'T extends string', infer string literal types for T. var constraint = getBaseConstraintOfType(contextualType) || unknownType; return maybeTypeOfKind(constraint, 4 /* String */) && maybeTypeOfKind(candidateType, 128 /* StringLiteral */) || maybeTypeOfKind(constraint, 8 /* Number */) && maybeTypeOfKind(candidateType, 256 /* NumberLiteral */) || maybeTypeOfKind(constraint, 64 /* BigInt */) && maybeTypeOfKind(candidateType, 2048 /* BigIntLiteral */) || maybeTypeOfKind(constraint, 4096 /* ESSymbol */) && maybeTypeOfKind(candidateType, 8192 /* UniqueESSymbol */) || isLiteralOfContextualType(candidateType, constraint); } // If the contextual type is a literal of a particular primitive type, we consider this a // literal context for all literals of that primitive type. return !!(contextualType.flags & (128 /* StringLiteral */ | 4194304 /* Index */) && maybeTypeOfKind(candidateType, 128 /* StringLiteral */) || contextualType.flags & 256 /* NumberLiteral */ && maybeTypeOfKind(candidateType, 256 /* NumberLiteral */) || contextualType.flags & 2048 /* BigIntLiteral */ && maybeTypeOfKind(candidateType, 2048 /* BigIntLiteral */) || contextualType.flags & 512 /* BooleanLiteral */ && maybeTypeOfKind(candidateType, 512 /* BooleanLiteral */) || contextualType.flags & 8192 /* UniqueESSymbol */ && maybeTypeOfKind(candidateType, 8192 /* UniqueESSymbol */)); } return false; } function isConstContext(node) { var parent = node.parent; return ts.isAssertionExpression(parent) && ts.isConstTypeReference(parent.type) || (ts.isParenthesizedExpression(parent) || ts.isArrayLiteralExpression(parent) || ts.isSpreadElement(parent)) && isConstContext(parent) || (ts.isPropertyAssignment(parent) || ts.isShorthandPropertyAssignment(parent)) && isConstContext(parent.parent); } function checkExpressionForMutableLocation(node, checkMode, contextualType, forceTuple) { var type = checkExpression(node, checkMode, forceTuple); return isConstContext(node) ? getRegularTypeOfLiteralType(type) : isTypeAssertion(node) ? type : getWidenedLiteralLikeTypeForContextualType(type, instantiateContextualType(arguments.length === 2 ? getContextualType(node) : contextualType, node)); } function checkPropertyAssignment(node, checkMode) { // Do not use hasDynamicName here, because that returns false for well known symbols. // We want to perform checkComputedPropertyName for all computed properties, including // well known symbols. if (node.name.kind === 154 /* ComputedPropertyName */) { checkComputedPropertyName(node.name); } return checkExpressionForMutableLocation(node.initializer, checkMode); } function checkObjectLiteralMethod(node, checkMode) { // Grammar checking checkGrammarMethod(node); // Do not use hasDynamicName here, because that returns false for well known symbols. // We want to perform checkComputedPropertyName for all computed properties, including // well known symbols. if (node.name.kind === 154 /* ComputedPropertyName */) { checkComputedPropertyName(node.name); } var uninstantiatedType = checkFunctionExpressionOrObjectLiteralMethod(node, checkMode); return instantiateTypeWithSingleGenericCallSignature(node, uninstantiatedType, checkMode); } function instantiateTypeWithSingleGenericCallSignature(node, type, checkMode) { if (checkMode && checkMode & (2 /* Inferential */ | 8 /* SkipGenericFunctions */)) { var callSignature = getSingleSignature(type, 0 /* Call */, /*allowMembers*/ true); var constructSignature = getSingleSignature(type, 1 /* Construct */, /*allowMembers*/ true); var signature = callSignature || constructSignature; if (signature && signature.typeParameters) { var contextualType = getApparentTypeOfContextualType(node, 2 /* NoConstraints */); if (contextualType) { var contextualSignature = getSingleSignature(getNonNullableType(contextualType), callSignature ? 0 /* Call */ : 1 /* Construct */, /*allowMembers*/ false); if (contextualSignature && !contextualSignature.typeParameters) { if (checkMode & 8 /* SkipGenericFunctions */) { skippedGenericFunction(node, checkMode); return anyFunctionType; } var context = getInferenceContext(node); // We have an expression that is an argument of a generic function for which we are performing // type argument inference. The expression is of a function type with a single generic call // signature and a contextual function type with a single non-generic call signature. Now check // if the outer function returns a function type with a single non-generic call signature and // if some of the outer function type parameters have no inferences so far. If so, we can // potentially add inferred type parameters to the outer function return type. var returnType = context.signature && getReturnTypeOfSignature(context.signature); var returnSignature = returnType && getSingleCallOrConstructSignature(returnType); if (returnSignature && !returnSignature.typeParameters && !ts.every(context.inferences, hasInferenceCandidates)) { // Instantiate the signature with its own type parameters as type arguments, possibly // renaming the type parameters to ensure they have unique names. var uniqueTypeParameters = getUniqueTypeParameters(context, signature.typeParameters); var instantiatedSignature = getSignatureInstantiationWithoutFillingInTypeArguments(signature, uniqueTypeParameters); // Infer from the parameters of the instantiated signature to the parameters of the // contextual signature starting with an empty set of inference candidates. var inferences_3 = ts.map(context.inferences, function (info) { return createInferenceInfo(info.typeParameter); }); applyToParameterTypes(instantiatedSignature, contextualSignature, function (source, target) { inferTypes(inferences_3, source, target, /*priority*/ 0, /*contravariant*/ true); }); if (ts.some(inferences_3, hasInferenceCandidates)) { // We have inference candidates, indicating that one or more type parameters are referenced // in the parameter types of the contextual signature. Now also infer from the return type. applyToReturnTypes(instantiatedSignature, contextualSignature, function (source, target) { inferTypes(inferences_3, source, target); }); // If the type parameters for which we produced candidates do not have any inferences yet, // we adopt the new inference candidates and add the type parameters of the expression type // to the set of inferred type parameters for the outer function return type. if (!hasOverlappingInferences(context.inferences, inferences_3)) { mergeInferences(context.inferences, inferences_3); context.inferredTypeParameters = ts.concatenate(context.inferredTypeParameters, uniqueTypeParameters); return getOrCreateTypeFromSignature(instantiatedSignature); } } } return getOrCreateTypeFromSignature(instantiateSignatureInContextOf(signature, contextualSignature, context)); } } } } return type; } function skippedGenericFunction(node, checkMode) { if (checkMode & 2 /* Inferential */) { // We have skipped a generic function during inferential typing. Obtain the inference context and // indicate this has occurred such that we know a second pass of inference is be needed. var context = getInferenceContext(node); context.flags |= 4 /* SkippedGenericFunction */; } } function hasInferenceCandidates(info) { return !!(info.candidates || info.contraCandidates); } function hasOverlappingInferences(a, b) { for (var i = 0; i < a.length; i++) { if (hasInferenceCandidates(a[i]) && hasInferenceCandidates(b[i])) { return true; } } return false; } function mergeInferences(target, source) { for (var i = 0; i < target.length; i++) { if (!hasInferenceCandidates(target[i]) && hasInferenceCandidates(source[i])) { target[i] = source[i]; } } } function getUniqueTypeParameters(context, typeParameters) { var result = []; var oldTypeParameters; var newTypeParameters; for (var _i = 0, typeParameters_2 = typeParameters; _i < typeParameters_2.length; _i++) { var tp = typeParameters_2[_i]; var name = tp.symbol.escapedName; if (hasTypeParameterByName(context.inferredTypeParameters, name) || hasTypeParameterByName(result, name)) { var newName = getUniqueTypeParameterName(ts.concatenate(context.inferredTypeParameters, result), name); var symbol = createSymbol(262144 /* TypeParameter */, newName); var newTypeParameter = createTypeParameter(symbol); newTypeParameter.target = tp; oldTypeParameters = ts.append(oldTypeParameters, tp); newTypeParameters = ts.append(newTypeParameters, newTypeParameter); result.push(newTypeParameter); } else { result.push(tp); } } if (newTypeParameters) { var mapper = createTypeMapper(oldTypeParameters, newTypeParameters); for (var _a = 0, newTypeParameters_1 = newTypeParameters; _a < newTypeParameters_1.length; _a++) { var tp = newTypeParameters_1[_a]; tp.mapper = mapper; } } return result; } function hasTypeParameterByName(typeParameters, name) { return ts.some(typeParameters, function (tp) { return tp.symbol.escapedName === name; }); } function getUniqueTypeParameterName(typeParameters, baseName) { var len = baseName.length; while (len > 1 && baseName.charCodeAt(len - 1) >= 48 /* _0 */ && baseName.charCodeAt(len - 1) <= 57 /* _9 */) len--; var s = baseName.slice(0, len); for (var index = 1; true; index++) { var augmentedName = (s + index); if (!hasTypeParameterByName(typeParameters, augmentedName)) { return augmentedName; } } } function getReturnTypeOfSingleNonGenericCallSignature(funcType) { var signature = getSingleCallSignature(funcType); if (signature && !signature.typeParameters) { return getReturnTypeOfSignature(signature); } } function getReturnTypeOfSingleNonGenericSignatureOfCallChain(expr) { var funcType = checkExpression(expr.expression); var nonOptionalType = getOptionalExpressionType(funcType, expr.expression); var returnType = getReturnTypeOfSingleNonGenericCallSignature(funcType); return returnType && propagateOptionalTypeMarker(returnType, expr, nonOptionalType !== funcType); } /** * Returns the type of an expression. Unlike checkExpression, this function is simply concerned * with computing the type and may not fully check all contained sub-expressions for errors. */ function getTypeOfExpression(node) { // Don't bother caching types that require no flow analysis and are quick to compute. var quickType = getQuickTypeOfExpression(node); if (quickType) { return quickType; } // If a type has been cached for the node, return it. if (node.flags & 67108864 /* TypeCached */ && flowTypeCache) { var cachedType = flowTypeCache[getNodeId(node)]; if (cachedType) { return cachedType; } } var startInvocationCount = flowInvocationCount; var type = checkExpression(node); // If control flow analysis was required to determine the type, it is worth caching. if (flowInvocationCount !== startInvocationCount) { var cache = flowTypeCache || (flowTypeCache = []); cache[getNodeId(node)] = type; node.flags |= 67108864 /* TypeCached */; } return type; } function getQuickTypeOfExpression(node) { var expr = ts.skipParentheses(node); // Optimize for the common case of a call to a function with a single non-generic call // signature where we can just fetch the return type without checking the arguments. if (ts.isCallExpression(expr) && expr.expression.kind !== 102 /* SuperKeyword */ && !ts.isRequireCall(expr, /*checkArgumentIsStringLiteralLike*/ true) && !isSymbolOrSymbolForCall(expr)) { var type = ts.isCallChain(expr) ? getReturnTypeOfSingleNonGenericSignatureOfCallChain(expr) : getReturnTypeOfSingleNonGenericCallSignature(checkNonNullExpression(expr.expression)); if (type) { return type; } } else if (ts.isAssertionExpression(expr) && !ts.isConstTypeReference(expr.type)) { return getTypeFromTypeNode(expr.type); } else if (node.kind === 8 /* NumericLiteral */ || node.kind === 10 /* StringLiteral */ || node.kind === 106 /* TrueKeyword */ || node.kind === 91 /* FalseKeyword */) { return checkExpression(node); } return undefined; } /** * Returns the type of an expression. Unlike checkExpression, this function is simply concerned * with computing the type and may not fully check all contained sub-expressions for errors. * It is intended for uses where you know there is no contextual type, * and requesting the contextual type might cause a circularity or other bad behaviour. * It sets the contextual type of the node to any before calling getTypeOfExpression. */ function getContextFreeTypeOfExpression(node) { var links = getNodeLinks(node); if (links.contextFreeType) { return links.contextFreeType; } var saveContextualType = node.contextualType; node.contextualType = anyType; try { var type = links.contextFreeType = checkExpression(node, 4 /* SkipContextSensitive */); return type; } finally { // In the event our operation is canceled or some other exception occurs, reset the contextual type // so that we do not accidentally hold onto an instance of the checker, as a Type created in the services layer // may hold onto the checker that created it. node.contextualType = saveContextualType; } } function checkExpression(node, checkMode, forceTuple) { var saveCurrentNode = currentNode; currentNode = node; instantiationCount = 0; var uninstantiatedType = checkExpressionWorker(node, checkMode, forceTuple); var type = instantiateTypeWithSingleGenericCallSignature(node, uninstantiatedType, checkMode); if (isConstEnumObjectType(type)) { checkConstEnumAccess(node, type); } currentNode = saveCurrentNode; return type; } function checkConstEnumAccess(node, type) { // enum object type for const enums are only permitted in: // - 'left' in property access // - 'object' in indexed access // - target in rhs of import statement var ok = (node.parent.kind === 194 /* PropertyAccessExpression */ && node.parent.expression === node) || (node.parent.kind === 195 /* ElementAccessExpression */ && node.parent.expression === node) || ((node.kind === 75 /* Identifier */ || node.kind === 153 /* QualifiedName */) && isInRightSideOfImportOrExportAssignment(node) || (node.parent.kind === 172 /* TypeQuery */ && node.parent.exprName === node)) || (node.parent.kind === 263 /* ExportSpecifier */); // We allow reexporting const enums if (!ok) { error(node, ts.Diagnostics.const_enums_can_only_be_used_in_property_or_index_access_expressions_or_the_right_hand_side_of_an_import_declaration_or_export_assignment_or_type_query); } if (compilerOptions.isolatedModules) { ts.Debug.assert(!!(type.symbol.flags & 128 /* ConstEnum */)); var constEnumDeclaration = type.symbol.valueDeclaration; if (constEnumDeclaration.flags & 8388608 /* Ambient */) { error(node, ts.Diagnostics.Cannot_access_ambient_const_enums_when_the_isolatedModules_flag_is_provided); } } } function checkParenthesizedExpression(node, checkMode) { var tag = ts.isInJSFile(node) ? ts.getJSDocTypeTag(node) : undefined; if (tag) { return checkAssertionWorker(tag, tag.typeExpression.type, node.expression, checkMode); } return checkExpression(node.expression, checkMode); } function checkExpressionWorker(node, checkMode, forceTuple) { var kind = node.kind; if (cancellationToken) { // Only bother checking on a few construct kinds. We don't want to be excessively // hitting the cancellation token on every node we check. switch (kind) { case 214 /* ClassExpression */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: cancellationToken.throwIfCancellationRequested(); } } switch (kind) { case 75 /* Identifier */: return checkIdentifier(node); case 104 /* ThisKeyword */: return checkThisExpression(node); case 102 /* SuperKeyword */: return checkSuperExpression(node); case 100 /* NullKeyword */: return nullWideningType; case 14 /* NoSubstitutionTemplateLiteral */: case 10 /* StringLiteral */: return getFreshTypeOfLiteralType(getLiteralType(node.text)); case 8 /* NumericLiteral */: checkGrammarNumericLiteral(node); return getFreshTypeOfLiteralType(getLiteralType(+node.text)); case 9 /* BigIntLiteral */: checkGrammarBigIntLiteral(node); return getFreshTypeOfLiteralType(getBigIntLiteralType(node)); case 106 /* TrueKeyword */: return trueType; case 91 /* FalseKeyword */: return falseType; case 211 /* TemplateExpression */: return checkTemplateExpression(node); case 13 /* RegularExpressionLiteral */: return globalRegExpType; case 192 /* ArrayLiteralExpression */: return checkArrayLiteral(node, checkMode, forceTuple); case 193 /* ObjectLiteralExpression */: return checkObjectLiteral(node, checkMode); case 194 /* PropertyAccessExpression */: return checkPropertyAccessExpression(node); case 153 /* QualifiedName */: return checkQualifiedName(node); case 195 /* ElementAccessExpression */: return checkIndexedAccess(node); case 196 /* CallExpression */: if (node.expression.kind === 96 /* ImportKeyword */) { return checkImportCallExpression(node); } // falls through case 197 /* NewExpression */: return checkCallExpression(node, checkMode); case 198 /* TaggedTemplateExpression */: return checkTaggedTemplateExpression(node); case 200 /* ParenthesizedExpression */: return checkParenthesizedExpression(node, checkMode); case 214 /* ClassExpression */: return checkClassExpression(node); case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return checkFunctionExpressionOrObjectLiteralMethod(node, checkMode); case 204 /* TypeOfExpression */: return checkTypeOfExpression(node); case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: return checkAssertion(node); case 218 /* NonNullExpression */: return checkNonNullAssertion(node); case 219 /* MetaProperty */: return checkMetaProperty(node); case 203 /* DeleteExpression */: return checkDeleteExpression(node); case 205 /* VoidExpression */: return checkVoidExpression(node); case 206 /* AwaitExpression */: return checkAwaitExpression(node); case 207 /* PrefixUnaryExpression */: return checkPrefixUnaryExpression(node); case 208 /* PostfixUnaryExpression */: return checkPostfixUnaryExpression(node); case 209 /* BinaryExpression */: return checkBinaryExpression(node, checkMode); case 210 /* ConditionalExpression */: return checkConditionalExpression(node, checkMode); case 213 /* SpreadElement */: return checkSpreadExpression(node, checkMode); case 215 /* OmittedExpression */: return undefinedWideningType; case 212 /* YieldExpression */: return checkYieldExpression(node); case 220 /* SyntheticExpression */: return node.type; case 276 /* JsxExpression */: return checkJsxExpression(node, checkMode); case 266 /* JsxElement */: return checkJsxElement(node, checkMode); case 267 /* JsxSelfClosingElement */: return checkJsxSelfClosingElement(node, checkMode); case 270 /* JsxFragment */: return checkJsxFragment(node); case 274 /* JsxAttributes */: return checkJsxAttributes(node, checkMode); case 268 /* JsxOpeningElement */: ts.Debug.fail("Shouldn't ever directly check a JsxOpeningElement"); } return errorType; } // DECLARATION AND STATEMENT TYPE CHECKING function checkTypeParameter(node) { // Grammar Checking if (node.expression) { grammarErrorOnFirstToken(node.expression, ts.Diagnostics.Type_expected); } checkSourceElement(node.constraint); checkSourceElement(node.default); var typeParameter = getDeclaredTypeOfTypeParameter(getSymbolOfNode(node)); // Resolve base constraint to reveal circularity errors getBaseConstraintOfType(typeParameter); if (!hasNonCircularTypeParameterDefault(typeParameter)) { error(node.default, ts.Diagnostics.Type_parameter_0_has_a_circular_default, typeToString(typeParameter)); } var constraintType = getConstraintOfTypeParameter(typeParameter); var defaultType = getDefaultFromTypeParameter(typeParameter); if (constraintType && defaultType) { checkTypeAssignableTo(defaultType, getTypeWithThisArgument(instantiateType(constraintType, makeUnaryTypeMapper(typeParameter, defaultType)), defaultType), node.default, ts.Diagnostics.Type_0_does_not_satisfy_the_constraint_1); } if (produceDiagnostics) { checkTypeNameIsReserved(node.name, ts.Diagnostics.Type_parameter_name_cannot_be_0); } } function checkParameter(node) { // Grammar checking // It is a SyntaxError if the Identifier "eval" or the Identifier "arguments" occurs as the // Identifier in a PropertySetParameterList of a PropertyAssignment that is contained in strict code // or if its FunctionBody is strict code(11.1.5). checkGrammarDecoratorsAndModifiers(node); checkVariableLikeDeclaration(node); var func = ts.getContainingFunction(node); if (ts.hasModifier(node, 92 /* ParameterPropertyModifier */)) { if (!(func.kind === 162 /* Constructor */ && ts.nodeIsPresent(func.body))) { error(node, ts.Diagnostics.A_parameter_property_is_only_allowed_in_a_constructor_implementation); } if (func.kind === 162 /* Constructor */ && ts.isIdentifier(node.name) && node.name.escapedText === "constructor") { error(node.name, ts.Diagnostics.constructor_cannot_be_used_as_a_parameter_property_name); } } if (node.questionToken && ts.isBindingPattern(node.name) && func.body) { error(node, ts.Diagnostics.A_binding_pattern_parameter_cannot_be_optional_in_an_implementation_signature); } if (node.name && ts.isIdentifier(node.name) && (node.name.escapedText === "this" || node.name.escapedText === "new")) { if (func.parameters.indexOf(node) !== 0) { error(node, ts.Diagnostics.A_0_parameter_must_be_the_first_parameter, node.name.escapedText); } if (func.kind === 162 /* Constructor */ || func.kind === 166 /* ConstructSignature */ || func.kind === 171 /* ConstructorType */) { error(node, ts.Diagnostics.A_constructor_cannot_have_a_this_parameter); } if (func.kind === 202 /* ArrowFunction */) { error(node, ts.Diagnostics.An_arrow_function_cannot_have_a_this_parameter); } if (func.kind === 163 /* GetAccessor */ || func.kind === 164 /* SetAccessor */) { error(node, ts.Diagnostics.get_and_set_accessors_cannot_declare_this_parameters); } } // Only check rest parameter type if it's not a binding pattern. Since binding patterns are // not allowed in a rest parameter, we already have an error from checkGrammarParameterList. if (node.dotDotDotToken && !ts.isBindingPattern(node.name) && !isTypeAssignableTo(getReducedType(getTypeOfSymbol(node.symbol)), anyReadonlyArrayType)) { error(node, ts.Diagnostics.A_rest_parameter_must_be_of_an_array_type); } } function checkTypePredicate(node) { var parent = getTypePredicateParent(node); if (!parent) { // The parent must not be valid. error(node, ts.Diagnostics.A_type_predicate_is_only_allowed_in_return_type_position_for_functions_and_methods); return; } var signature = getSignatureFromDeclaration(parent); var typePredicate = getTypePredicateOfSignature(signature); if (!typePredicate) { return; } checkSourceElement(node.type); var parameterName = node.parameterName; if (typePredicate.kind === 0 /* This */ || typePredicate.kind === 2 /* AssertsThis */) { getTypeFromThisTypeNode(parameterName); } else { if (typePredicate.parameterIndex >= 0) { if (signatureHasRestParameter(signature) && typePredicate.parameterIndex === signature.parameters.length - 1) { error(parameterName, ts.Diagnostics.A_type_predicate_cannot_reference_a_rest_parameter); } else { if (typePredicate.type) { var leadingError = function () { return ts.chainDiagnosticMessages(/*details*/ undefined, ts.Diagnostics.A_type_predicate_s_type_must_be_assignable_to_its_parameter_s_type); }; checkTypeAssignableTo(typePredicate.type, getTypeOfSymbol(signature.parameters[typePredicate.parameterIndex]), node.type, /*headMessage*/ undefined, leadingError); } } } else if (parameterName) { var hasReportedError = false; for (var _i = 0, _a = parent.parameters; _i < _a.length; _i++) { var name = _a[_i].name; if (ts.isBindingPattern(name) && checkIfTypePredicateVariableIsDeclaredInBindingPattern(name, parameterName, typePredicate.parameterName)) { hasReportedError = true; break; } } if (!hasReportedError) { error(node.parameterName, ts.Diagnostics.Cannot_find_parameter_0, typePredicate.parameterName); } } } } function getTypePredicateParent(node) { switch (node.parent.kind) { case 202 /* ArrowFunction */: case 165 /* CallSignature */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 170 /* FunctionType */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: var parent = node.parent; if (node === parent.type) { return parent; } } } function checkIfTypePredicateVariableIsDeclaredInBindingPattern(pattern, predicateVariableNode, predicateVariableName) { for (var _i = 0, _a = pattern.elements; _i < _a.length; _i++) { var element = _a[_i]; if (ts.isOmittedExpression(element)) { continue; } var name = element.name; if (name.kind === 75 /* Identifier */ && name.escapedText === predicateVariableName) { error(predicateVariableNode, ts.Diagnostics.A_type_predicate_cannot_reference_element_0_in_a_binding_pattern, predicateVariableName); return true; } else if (name.kind === 190 /* ArrayBindingPattern */ || name.kind === 189 /* ObjectBindingPattern */) { if (checkIfTypePredicateVariableIsDeclaredInBindingPattern(name, predicateVariableNode, predicateVariableName)) { return true; } } } } function checkSignatureDeclaration(node) { // Grammar checking if (node.kind === 167 /* IndexSignature */) { checkGrammarIndexSignature(node); } // TODO (yuisu): Remove this check in else-if when SyntaxKind.Construct is moved and ambient context is handled else if (node.kind === 170 /* FunctionType */ || node.kind === 244 /* FunctionDeclaration */ || node.kind === 171 /* ConstructorType */ || node.kind === 165 /* CallSignature */ || node.kind === 162 /* Constructor */ || node.kind === 166 /* ConstructSignature */) { checkGrammarFunctionLikeDeclaration(node); } var functionFlags = ts.getFunctionFlags(node); if (!(functionFlags & 4 /* Invalid */)) { // Async generators prior to ESNext require the __await and __asyncGenerator helpers if ((functionFlags & 3 /* AsyncGenerator */) === 3 /* AsyncGenerator */ && languageVersion < 99 /* ESNext */) { checkExternalEmitHelpers(node, 12288 /* AsyncGeneratorIncludes */); } // Async functions prior to ES2017 require the __awaiter helper if ((functionFlags & 3 /* AsyncGenerator */) === 2 /* Async */ && languageVersion < 4 /* ES2017 */) { checkExternalEmitHelpers(node, 64 /* Awaiter */); } // Generator functions, Async functions, and Async Generator functions prior to // ES2015 require the __generator helper if ((functionFlags & 3 /* AsyncGenerator */) !== 0 /* Normal */ && languageVersion < 2 /* ES2015 */) { checkExternalEmitHelpers(node, 128 /* Generator */); } } checkTypeParameters(node.typeParameters); ts.forEach(node.parameters, checkParameter); // TODO(rbuckton): Should we start checking JSDoc types? if (node.type) { checkSourceElement(node.type); } if (produceDiagnostics) { checkCollisionWithArgumentsInGeneratedCode(node); var returnTypeNode = ts.getEffectiveReturnTypeNode(node); if (noImplicitAny && !returnTypeNode) { switch (node.kind) { case 166 /* ConstructSignature */: error(node, ts.Diagnostics.Construct_signature_which_lacks_return_type_annotation_implicitly_has_an_any_return_type); break; case 165 /* CallSignature */: error(node, ts.Diagnostics.Call_signature_which_lacks_return_type_annotation_implicitly_has_an_any_return_type); break; } } if (returnTypeNode) { var functionFlags_1 = ts.getFunctionFlags(node); if ((functionFlags_1 & (4 /* Invalid */ | 1 /* Generator */)) === 1 /* Generator */) { var returnType = getTypeFromTypeNode(returnTypeNode); if (returnType === voidType) { error(returnTypeNode, ts.Diagnostics.A_generator_cannot_have_a_void_type_annotation); } else { // Naively, one could check that Generator is assignable to the return type annotation. // However, that would not catch the error in the following case. // // interface BadGenerator extends Iterable, Iterator { } // function* g(): BadGenerator { } // Iterable and Iterator have different types! // var generatorYieldType = getIterationTypeOfGeneratorFunctionReturnType(0 /* Yield */, returnType, (functionFlags_1 & 2 /* Async */) !== 0) || anyType; var generatorReturnType = getIterationTypeOfGeneratorFunctionReturnType(1 /* Return */, returnType, (functionFlags_1 & 2 /* Async */) !== 0) || generatorYieldType; var generatorNextType = getIterationTypeOfGeneratorFunctionReturnType(2 /* Next */, returnType, (functionFlags_1 & 2 /* Async */) !== 0) || unknownType; var generatorInstantiation = createGeneratorReturnType(generatorYieldType, generatorReturnType, generatorNextType, !!(functionFlags_1 & 2 /* Async */)); checkTypeAssignableTo(generatorInstantiation, returnType, returnTypeNode); } } else if ((functionFlags_1 & 3 /* AsyncGenerator */) === 2 /* Async */) { checkAsyncFunctionReturnType(node, returnTypeNode); } } if (node.kind !== 167 /* IndexSignature */ && node.kind !== 300 /* JSDocFunctionType */) { registerForUnusedIdentifiersCheck(node); } } } function checkClassForDuplicateDeclarations(node) { var instanceNames = ts.createUnderscoreEscapedMap(); var staticNames = ts.createUnderscoreEscapedMap(); // instance and static private identifiers share the same scope var privateIdentifiers = ts.createUnderscoreEscapedMap(); for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; if (member.kind === 162 /* Constructor */) { for (var _b = 0, _c = member.parameters; _b < _c.length; _b++) { var param = _c[_b]; if (ts.isParameterPropertyDeclaration(param, member) && !ts.isBindingPattern(param.name)) { addName(instanceNames, param.name, param.name.escapedText, 3 /* GetOrSetAccessor */); } } } else { var isStatic = ts.hasModifier(member, 32 /* Static */); var name = member.name; if (!name) { return; } var names = ts.isPrivateIdentifier(name) ? privateIdentifiers : isStatic ? staticNames : instanceNames; var memberName = name && ts.getPropertyNameForPropertyNameNode(name); if (memberName) { switch (member.kind) { case 163 /* GetAccessor */: addName(names, name, memberName, 1 /* GetAccessor */); break; case 164 /* SetAccessor */: addName(names, name, memberName, 2 /* SetAccessor */); break; case 159 /* PropertyDeclaration */: addName(names, name, memberName, 3 /* GetOrSetAccessor */); break; case 161 /* MethodDeclaration */: addName(names, name, memberName, 8 /* Method */); break; } } } } function addName(names, location, name, meaning) { var prev = names.get(name); if (prev) { if (prev & 8 /* Method */) { if (meaning !== 8 /* Method */) { error(location, ts.Diagnostics.Duplicate_identifier_0, ts.getTextOfNode(location)); } } else if (prev & meaning) { error(location, ts.Diagnostics.Duplicate_identifier_0, ts.getTextOfNode(location)); } else { names.set(name, prev | meaning); } } else { names.set(name, meaning); } } } /** * Static members being set on a constructor function may conflict with built-in properties * of Function. Esp. in ECMAScript 5 there are non-configurable and non-writable * built-in properties. This check issues a transpile error when a class has a static * member with the same name as a non-writable built-in property. * * @see http://www.ecma-international.org/ecma-262/5.1/#sec-15.3.3 * @see http://www.ecma-international.org/ecma-262/5.1/#sec-15.3.5 * @see http://www.ecma-international.org/ecma-262/6.0/#sec-properties-of-the-function-constructor * @see http://www.ecma-international.org/ecma-262/6.0/#sec-function-instances */ function checkClassForStaticPropertyNameConflicts(node) { for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; var memberNameNode = member.name; var isStatic = ts.hasModifier(member, 32 /* Static */); if (isStatic && memberNameNode) { var memberName = ts.getPropertyNameForPropertyNameNode(memberNameNode); switch (memberName) { case "name": case "length": case "caller": case "arguments": case "prototype": var message = ts.Diagnostics.Static_property_0_conflicts_with_built_in_property_Function_0_of_constructor_function_1; var className = getNameOfSymbolAsWritten(getSymbolOfNode(node)); error(memberNameNode, message, memberName, className); break; } } } } function checkObjectTypeForDuplicateDeclarations(node) { var names = ts.createMap(); for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; if (member.kind === 158 /* PropertySignature */) { var memberName = void 0; var name = member.name; switch (name.kind) { case 10 /* StringLiteral */: case 8 /* NumericLiteral */: memberName = name.text; break; case 75 /* Identifier */: memberName = ts.idText(name); break; default: continue; } if (names.get(memberName)) { error(ts.getNameOfDeclaration(member.symbol.valueDeclaration), ts.Diagnostics.Duplicate_identifier_0, memberName); error(member.name, ts.Diagnostics.Duplicate_identifier_0, memberName); } else { names.set(memberName, true); } } } } function checkTypeForDuplicateIndexSignatures(node) { if (node.kind === 246 /* InterfaceDeclaration */) { var nodeSymbol = getSymbolOfNode(node); // in case of merging interface declaration it is possible that we'll enter this check procedure several times for every declaration // to prevent this run check only for the first declaration of a given kind if (nodeSymbol.declarations.length > 0 && nodeSymbol.declarations[0] !== node) { return; } } // TypeScript 1.0 spec (April 2014) // 3.7.4: An object type can contain at most one string index signature and one numeric index signature. // 8.5: A class declaration can have at most one string index member declaration and one numeric index member declaration var indexSymbol = getIndexSymbol(getSymbolOfNode(node)); if (indexSymbol) { var seenNumericIndexer = false; var seenStringIndexer = false; for (var _i = 0, _a = indexSymbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; var declaration = decl; if (declaration.parameters.length === 1 && declaration.parameters[0].type) { switch (declaration.parameters[0].type.kind) { case 143 /* StringKeyword */: if (!seenStringIndexer) { seenStringIndexer = true; } else { error(declaration, ts.Diagnostics.Duplicate_string_index_signature); } break; case 140 /* NumberKeyword */: if (!seenNumericIndexer) { seenNumericIndexer = true; } else { error(declaration, ts.Diagnostics.Duplicate_number_index_signature); } break; } } } } } function checkPropertyDeclaration(node) { // Grammar checking if (!checkGrammarDecoratorsAndModifiers(node) && !checkGrammarProperty(node)) checkGrammarComputedPropertyName(node.name); checkVariableLikeDeclaration(node); // Private class fields transformation relies on WeakMaps. if (ts.isPrivateIdentifier(node.name) && languageVersion < 99 /* ESNext */) { for (var lexicalScope = ts.getEnclosingBlockScopeContainer(node); !!lexicalScope; lexicalScope = ts.getEnclosingBlockScopeContainer(lexicalScope)) { getNodeLinks(lexicalScope).flags |= 67108864 /* ContainsClassWithPrivateIdentifiers */; } } } function checkPropertySignature(node) { if (ts.isPrivateIdentifier(node.name)) { error(node, ts.Diagnostics.Private_identifiers_are_not_allowed_outside_class_bodies); } return checkPropertyDeclaration(node); } function checkMethodDeclaration(node) { // Grammar checking if (!checkGrammarMethod(node)) checkGrammarComputedPropertyName(node.name); if (ts.isPrivateIdentifier(node.name)) { error(node, ts.Diagnostics.A_method_cannot_be_named_with_a_private_identifier); } // Grammar checking for modifiers is done inside the function checkGrammarFunctionLikeDeclaration checkFunctionOrMethodDeclaration(node); // Abstract methods cannot have an implementation. // Extra checks are to avoid reporting multiple errors relating to the "abstractness" of the node. if (ts.hasModifier(node, 128 /* Abstract */) && node.kind === 161 /* MethodDeclaration */ && node.body) { error(node, ts.Diagnostics.Method_0_cannot_have_an_implementation_because_it_is_marked_abstract, ts.declarationNameToString(node.name)); } } function checkConstructorDeclaration(node) { // Grammar check on signature of constructor and modifier of the constructor is done in checkSignatureDeclaration function. checkSignatureDeclaration(node); // Grammar check for checking only related to constructorDeclaration if (!checkGrammarConstructorTypeParameters(node)) checkGrammarConstructorTypeAnnotation(node); checkSourceElement(node.body); var symbol = getSymbolOfNode(node); var firstDeclaration = ts.getDeclarationOfKind(symbol, node.kind); // Only type check the symbol once if (node === firstDeclaration) { checkFunctionOrConstructorSymbol(symbol); } // exit early in the case of signature - super checks are not relevant to them if (ts.nodeIsMissing(node.body)) { return; } if (!produceDiagnostics) { return; } function isInstancePropertyWithInitializerOrPrivateIdentifierProperty(n) { if (ts.isPrivateIdentifierPropertyDeclaration(n)) { return true; } return n.kind === 159 /* PropertyDeclaration */ && !ts.hasModifier(n, 32 /* Static */) && !!n.initializer; } // TS 1.0 spec (April 2014): 8.3.2 // Constructors of classes with no extends clause may not contain super calls, whereas // constructors of derived classes must contain at least one super call somewhere in their function body. var containingClassDecl = node.parent; if (ts.getClassExtendsHeritageElement(containingClassDecl)) { captureLexicalThis(node.parent, containingClassDecl); var classExtendsNull = classDeclarationExtendsNull(containingClassDecl); var superCall = getSuperCallInConstructor(node); if (superCall) { if (classExtendsNull) { error(superCall, ts.Diagnostics.A_constructor_cannot_contain_a_super_call_when_its_class_extends_null); } // The first statement in the body of a constructor (excluding prologue directives) must be a super call // if both of the following are true: // - The containing class is a derived class. // - The constructor declares parameter properties // or the containing class declares instance member variables with initializers. var superCallShouldBeFirst = (compilerOptions.target !== 99 /* ESNext */ || !compilerOptions.useDefineForClassFields) && (ts.some(node.parent.members, isInstancePropertyWithInitializerOrPrivateIdentifierProperty) || ts.some(node.parameters, function (p) { return ts.hasModifier(p, 92 /* ParameterPropertyModifier */); })); // Skip past any prologue directives to find the first statement // to ensure that it was a super call. if (superCallShouldBeFirst) { var statements = node.body.statements; var superCallStatement = void 0; for (var _i = 0, statements_3 = statements; _i < statements_3.length; _i++) { var statement = statements_3[_i]; if (statement.kind === 226 /* ExpressionStatement */ && ts.isSuperCall(statement.expression)) { superCallStatement = statement; break; } if (!ts.isPrologueDirective(statement)) { break; } } if (!superCallStatement) { error(node, ts.Diagnostics.A_super_call_must_be_the_first_statement_in_the_constructor_when_a_class_contains_initialized_properties_parameter_properties_or_private_identifiers); } } } else if (!classExtendsNull) { error(node, ts.Diagnostics.Constructors_for_derived_classes_must_contain_a_super_call); } } } function checkAccessorDeclaration(node) { if (produceDiagnostics) { // Grammar checking accessors if (!checkGrammarFunctionLikeDeclaration(node) && !checkGrammarAccessor(node)) checkGrammarComputedPropertyName(node.name); checkDecorators(node); checkSignatureDeclaration(node); if (node.kind === 163 /* GetAccessor */) { if (!(node.flags & 8388608 /* Ambient */) && ts.nodeIsPresent(node.body) && (node.flags & 256 /* HasImplicitReturn */)) { if (!(node.flags & 512 /* HasExplicitReturn */)) { error(node.name, ts.Diagnostics.A_get_accessor_must_return_a_value); } } } // Do not use hasDynamicName here, because that returns false for well known symbols. // We want to perform checkComputedPropertyName for all computed properties, including // well known symbols. if (node.name.kind === 154 /* ComputedPropertyName */) { checkComputedPropertyName(node.name); } if (ts.isPrivateIdentifier(node.name)) { error(node.name, ts.Diagnostics.An_accessor_cannot_be_named_with_a_private_identifier); } if (!hasNonBindableDynamicName(node)) { // TypeScript 1.0 spec (April 2014): 8.4.3 // Accessors for the same member name must specify the same accessibility. var otherKind = node.kind === 163 /* GetAccessor */ ? 164 /* SetAccessor */ : 163 /* GetAccessor */; var otherAccessor = ts.getDeclarationOfKind(getSymbolOfNode(node), otherKind); if (otherAccessor) { var nodeFlags = ts.getModifierFlags(node); var otherFlags = ts.getModifierFlags(otherAccessor); if ((nodeFlags & 28 /* AccessibilityModifier */) !== (otherFlags & 28 /* AccessibilityModifier */)) { error(node.name, ts.Diagnostics.Getter_and_setter_accessors_do_not_agree_in_visibility); } if ((nodeFlags & 128 /* Abstract */) !== (otherFlags & 128 /* Abstract */)) { error(node.name, ts.Diagnostics.Accessors_must_both_be_abstract_or_non_abstract); } // TypeScript 1.0 spec (April 2014): 4.5 // If both accessors include type annotations, the specified types must be identical. checkAccessorDeclarationTypesIdentical(node, otherAccessor, getAnnotatedAccessorType, ts.Diagnostics.get_and_set_accessor_must_have_the_same_type); checkAccessorDeclarationTypesIdentical(node, otherAccessor, getThisTypeOfDeclaration, ts.Diagnostics.get_and_set_accessor_must_have_the_same_this_type); } } var returnType = getTypeOfAccessors(getSymbolOfNode(node)); if (node.kind === 163 /* GetAccessor */) { checkAllCodePathsInNonVoidFunctionReturnOrThrow(node, returnType); } } checkSourceElement(node.body); } function checkAccessorDeclarationTypesIdentical(first, second, getAnnotatedType, message) { var firstType = getAnnotatedType(first); var secondType = getAnnotatedType(second); if (firstType && secondType && !isTypeIdenticalTo(firstType, secondType)) { error(first, message); } } function checkMissingDeclaration(node) { checkDecorators(node); } function getEffectiveTypeArguments(node, typeParameters) { return fillMissingTypeArguments(ts.map(node.typeArguments, getTypeFromTypeNode), typeParameters, getMinTypeArgumentCount(typeParameters), ts.isInJSFile(node)); } function checkTypeArgumentConstraints(node, typeParameters) { var typeArguments; var mapper; var result = true; for (var i = 0; i < typeParameters.length; i++) { var constraint = getConstraintOfTypeParameter(typeParameters[i]); if (constraint) { if (!typeArguments) { typeArguments = getEffectiveTypeArguments(node, typeParameters); mapper = createTypeMapper(typeParameters, typeArguments); } result = result && checkTypeAssignableTo(typeArguments[i], instantiateType(constraint, mapper), node.typeArguments[i], ts.Diagnostics.Type_0_does_not_satisfy_the_constraint_1); } } return result; } function getTypeParametersForTypeReference(node) { var type = getTypeFromTypeReference(node); if (type !== errorType) { var symbol = getNodeLinks(node).resolvedSymbol; if (symbol) { return symbol.flags & 524288 /* TypeAlias */ && getSymbolLinks(symbol).typeParameters || (ts.getObjectFlags(type) & 4 /* Reference */ ? type.target.localTypeParameters : undefined); } } return undefined; } function checkTypeReferenceNode(node) { checkGrammarTypeArguments(node, node.typeArguments); if (node.kind === 169 /* TypeReference */ && node.typeName.jsdocDotPos !== undefined && !ts.isInJSFile(node) && !ts.isInJSDoc(node)) { grammarErrorAtPos(node, node.typeName.jsdocDotPos, 1, ts.Diagnostics.JSDoc_types_can_only_be_used_inside_documentation_comments); } ts.forEach(node.typeArguments, checkSourceElement); var type = getTypeFromTypeReference(node); if (type !== errorType) { if (node.typeArguments && produceDiagnostics) { var typeParameters = getTypeParametersForTypeReference(node); if (typeParameters) { checkTypeArgumentConstraints(node, typeParameters); } } if (type.flags & 32 /* Enum */ && getNodeLinks(node).resolvedSymbol.flags & 8 /* EnumMember */) { error(node, ts.Diagnostics.Enum_type_0_has_members_with_initializers_that_are_not_literals, typeToString(type)); } } } function getTypeArgumentConstraint(node) { var typeReferenceNode = ts.tryCast(node.parent, ts.isTypeReferenceType); if (!typeReferenceNode) return undefined; var typeParameters = getTypeParametersForTypeReference(typeReferenceNode); // TODO: GH#18217 var constraint = getConstraintOfTypeParameter(typeParameters[typeReferenceNode.typeArguments.indexOf(node)]); return constraint && instantiateType(constraint, createTypeMapper(typeParameters, getEffectiveTypeArguments(typeReferenceNode, typeParameters))); } function checkTypeQuery(node) { getTypeFromTypeQueryNode(node); } function checkTypeLiteral(node) { ts.forEach(node.members, checkSourceElement); if (produceDiagnostics) { var type = getTypeFromTypeLiteralOrFunctionOrConstructorTypeNode(node); checkIndexConstraints(type); checkTypeForDuplicateIndexSignatures(node); checkObjectTypeForDuplicateDeclarations(node); } } function checkArrayType(node) { checkSourceElement(node.elementType); } function checkTupleType(node) { var elementTypes = node.elementTypes; var seenOptionalElement = false; for (var i = 0; i < elementTypes.length; i++) { var e = elementTypes[i]; if (e.kind === 177 /* RestType */) { if (i !== elementTypes.length - 1) { grammarErrorOnNode(e, ts.Diagnostics.A_rest_element_must_be_last_in_a_tuple_type); break; } if (!isArrayType(getTypeFromTypeNode(e.type))) { error(e, ts.Diagnostics.A_rest_element_type_must_be_an_array_type); } } else if (e.kind === 176 /* OptionalType */) { seenOptionalElement = true; } else if (seenOptionalElement) { grammarErrorOnNode(e, ts.Diagnostics.A_required_element_cannot_follow_an_optional_element); break; } } ts.forEach(node.elementTypes, checkSourceElement); } function checkUnionOrIntersectionType(node) { ts.forEach(node.types, checkSourceElement); } function checkIndexedAccessIndexType(type, accessNode) { if (!(type.flags & 8388608 /* IndexedAccess */)) { return type; } // Check if the index type is assignable to 'keyof T' for the object type. var objectType = type.objectType; var indexType = type.indexType; if (isTypeAssignableTo(indexType, getIndexType(objectType, /*stringsOnly*/ false))) { if (accessNode.kind === 195 /* ElementAccessExpression */ && ts.isAssignmentTarget(accessNode) && ts.getObjectFlags(objectType) & 32 /* Mapped */ && getMappedTypeModifiers(objectType) & 1 /* IncludeReadonly */) { error(accessNode, ts.Diagnostics.Index_signature_in_type_0_only_permits_reading, typeToString(objectType)); } return type; } // Check if we're indexing with a numeric type and if either object or index types // is a generic type with a constraint that has a numeric index signature. var apparentObjectType = getApparentType(objectType); if (getIndexInfoOfType(apparentObjectType, 1 /* Number */) && isTypeAssignableToKind(indexType, 296 /* NumberLike */)) { return type; } if (isGenericObjectType(objectType)) { var propertyName_1 = getPropertyNameFromIndex(indexType, accessNode); if (propertyName_1) { var propertySymbol = forEachType(apparentObjectType, function (t) { return getPropertyOfType(t, propertyName_1); }); if (propertySymbol && ts.getDeclarationModifierFlagsFromSymbol(propertySymbol) & 24 /* NonPublicAccessibilityModifier */) { error(accessNode, ts.Diagnostics.Private_or_protected_member_0_cannot_be_accessed_on_a_type_parameter, ts.unescapeLeadingUnderscores(propertyName_1)); return errorType; } } } error(accessNode, ts.Diagnostics.Type_0_cannot_be_used_to_index_type_1, typeToString(indexType), typeToString(objectType)); return errorType; } function checkIndexedAccessType(node) { checkSourceElement(node.objectType); checkSourceElement(node.indexType); checkIndexedAccessIndexType(getTypeFromIndexedAccessTypeNode(node), node); } function checkMappedType(node) { checkSourceElement(node.typeParameter); checkSourceElement(node.type); if (!node.type) { reportImplicitAny(node, anyType); } var type = getTypeFromMappedTypeNode(node); var constraintType = getConstraintTypeFromMappedType(type); checkTypeAssignableTo(constraintType, keyofConstraintType, ts.getEffectiveConstraintOfTypeParameter(node.typeParameter)); } function checkThisType(node) { getTypeFromThisTypeNode(node); } function checkTypeOperator(node) { checkGrammarTypeOperatorNode(node); checkSourceElement(node.type); } function checkConditionalType(node) { ts.forEachChild(node, checkSourceElement); } function checkInferType(node) { if (!ts.findAncestor(node, function (n) { return n.parent && n.parent.kind === 180 /* ConditionalType */ && n.parent.extendsType === n; })) { grammarErrorOnNode(node, ts.Diagnostics.infer_declarations_are_only_permitted_in_the_extends_clause_of_a_conditional_type); } checkSourceElement(node.typeParameter); registerForUnusedIdentifiersCheck(node); } function checkImportType(node) { checkSourceElement(node.argument); getTypeFromTypeNode(node); } function isPrivateWithinAmbient(node) { return (ts.hasModifier(node, 8 /* Private */) || ts.isPrivateIdentifierPropertyDeclaration(node)) && !!(node.flags & 8388608 /* Ambient */); } function getEffectiveDeclarationFlags(n, flagsToCheck) { var flags = ts.getCombinedModifierFlags(n); // children of classes (even ambient classes) should not be marked as ambient or export // because those flags have no useful semantics there. if (n.parent.kind !== 246 /* InterfaceDeclaration */ && n.parent.kind !== 245 /* ClassDeclaration */ && n.parent.kind !== 214 /* ClassExpression */ && n.flags & 8388608 /* Ambient */) { if (!(flags & 2 /* Ambient */) && !(ts.isModuleBlock(n.parent) && ts.isModuleDeclaration(n.parent.parent) && ts.isGlobalScopeAugmentation(n.parent.parent))) { // It is nested in an ambient context, which means it is automatically exported flags |= 1 /* Export */; } flags |= 2 /* Ambient */; } return flags & flagsToCheck; } function checkFunctionOrConstructorSymbol(symbol) { if (!produceDiagnostics) { return; } function getCanonicalOverload(overloads, implementation) { // Consider the canonical set of flags to be the flags of the bodyDeclaration or the first declaration // Error on all deviations from this canonical set of flags // The caveat is that if some overloads are defined in lib.d.ts, we don't want to // report the errors on those. To achieve this, we will say that the implementation is // the canonical signature only if it is in the same container as the first overload var implementationSharesContainerWithFirstOverload = implementation !== undefined && implementation.parent === overloads[0].parent; return implementationSharesContainerWithFirstOverload ? implementation : overloads[0]; } function checkFlagAgreementBetweenOverloads(overloads, implementation, flagsToCheck, someOverloadFlags, allOverloadFlags) { // Error if some overloads have a flag that is not shared by all overloads. To find the // deviations, we XOR someOverloadFlags with allOverloadFlags var someButNotAllOverloadFlags = someOverloadFlags ^ allOverloadFlags; if (someButNotAllOverloadFlags !== 0) { var canonicalFlags_1 = getEffectiveDeclarationFlags(getCanonicalOverload(overloads, implementation), flagsToCheck); ts.forEach(overloads, function (o) { var deviation = getEffectiveDeclarationFlags(o, flagsToCheck) ^ canonicalFlags_1; if (deviation & 1 /* Export */) { error(ts.getNameOfDeclaration(o), ts.Diagnostics.Overload_signatures_must_all_be_exported_or_non_exported); } else if (deviation & 2 /* Ambient */) { error(ts.getNameOfDeclaration(o), ts.Diagnostics.Overload_signatures_must_all_be_ambient_or_non_ambient); } else if (deviation & (8 /* Private */ | 16 /* Protected */)) { error(ts.getNameOfDeclaration(o) || o, ts.Diagnostics.Overload_signatures_must_all_be_public_private_or_protected); } else if (deviation & 128 /* Abstract */) { error(ts.getNameOfDeclaration(o), ts.Diagnostics.Overload_signatures_must_all_be_abstract_or_non_abstract); } }); } } function checkQuestionTokenAgreementBetweenOverloads(overloads, implementation, someHaveQuestionToken, allHaveQuestionToken) { if (someHaveQuestionToken !== allHaveQuestionToken) { var canonicalHasQuestionToken_1 = ts.hasQuestionToken(getCanonicalOverload(overloads, implementation)); ts.forEach(overloads, function (o) { var deviation = ts.hasQuestionToken(o) !== canonicalHasQuestionToken_1; if (deviation) { error(ts.getNameOfDeclaration(o), ts.Diagnostics.Overload_signatures_must_all_be_optional_or_required); } }); } } var flagsToCheck = 1 /* Export */ | 2 /* Ambient */ | 8 /* Private */ | 16 /* Protected */ | 128 /* Abstract */; var someNodeFlags = 0 /* None */; var allNodeFlags = flagsToCheck; var someHaveQuestionToken = false; var allHaveQuestionToken = true; var hasOverloads = false; var bodyDeclaration; var lastSeenNonAmbientDeclaration; var previousDeclaration; var declarations = symbol.declarations; var isConstructor = (symbol.flags & 16384 /* Constructor */) !== 0; function reportImplementationExpectedError(node) { if (node.name && ts.nodeIsMissing(node.name)) { return; } var seen = false; var subsequentNode = ts.forEachChild(node.parent, function (c) { if (seen) { return c; } else { seen = c === node; } }); // We may be here because of some extra nodes between overloads that could not be parsed into a valid node. // In this case the subsequent node is not really consecutive (.pos !== node.end), and we must ignore it here. if (subsequentNode && subsequentNode.pos === node.end) { if (subsequentNode.kind === node.kind) { var errorNode_1 = subsequentNode.name || subsequentNode; var subsequentName = subsequentNode.name; if (node.name && subsequentName && ( // both are private identifiers ts.isPrivateIdentifier(node.name) && ts.isPrivateIdentifier(subsequentName) && node.name.escapedText === subsequentName.escapedText || // Both are computed property names // TODO: GH#17345: These are methods, so handle computed name case. (`Always allowing computed property names is *not* the correct behavior!) ts.isComputedPropertyName(node.name) && ts.isComputedPropertyName(subsequentName) || // Both are literal property names that are the same. ts.isPropertyNameLiteral(node.name) && ts.isPropertyNameLiteral(subsequentName) && ts.getEscapedTextOfIdentifierOrLiteral(node.name) === ts.getEscapedTextOfIdentifierOrLiteral(subsequentName))) { var reportError = (node.kind === 161 /* MethodDeclaration */ || node.kind === 160 /* MethodSignature */) && ts.hasModifier(node, 32 /* Static */) !== ts.hasModifier(subsequentNode, 32 /* Static */); // we can get here in two cases // 1. mixed static and instance class members // 2. something with the same name was defined before the set of overloads that prevents them from merging // here we'll report error only for the first case since for second we should already report error in binder if (reportError) { var diagnostic = ts.hasModifier(node, 32 /* Static */) ? ts.Diagnostics.Function_overload_must_be_static : ts.Diagnostics.Function_overload_must_not_be_static; error(errorNode_1, diagnostic); } return; } if (ts.nodeIsPresent(subsequentNode.body)) { error(errorNode_1, ts.Diagnostics.Function_implementation_name_must_be_0, ts.declarationNameToString(node.name)); return; } } } var errorNode = node.name || node; if (isConstructor) { error(errorNode, ts.Diagnostics.Constructor_implementation_is_missing); } else { // Report different errors regarding non-consecutive blocks of declarations depending on whether // the node in question is abstract. if (ts.hasModifier(node, 128 /* Abstract */)) { error(errorNode, ts.Diagnostics.All_declarations_of_an_abstract_method_must_be_consecutive); } else { error(errorNode, ts.Diagnostics.Function_implementation_is_missing_or_not_immediately_following_the_declaration); } } } var duplicateFunctionDeclaration = false; var multipleConstructorImplementation = false; var hasNonAmbientClass = false; for (var _i = 0, declarations_4 = declarations; _i < declarations_4.length; _i++) { var current = declarations_4[_i]; var node = current; var inAmbientContext = node.flags & 8388608 /* Ambient */; var inAmbientContextOrInterface = node.parent.kind === 246 /* InterfaceDeclaration */ || node.parent.kind === 173 /* TypeLiteral */ || inAmbientContext; if (inAmbientContextOrInterface) { // check if declarations are consecutive only if they are non-ambient // 1. ambient declarations can be interleaved // i.e. this is legal // declare function foo(); // declare function bar(); // declare function foo(); // 2. mixing ambient and non-ambient declarations is a separate error that will be reported - do not want to report an extra one previousDeclaration = undefined; } if ((node.kind === 245 /* ClassDeclaration */ || node.kind === 214 /* ClassExpression */) && !inAmbientContext) { hasNonAmbientClass = true; } if (node.kind === 244 /* FunctionDeclaration */ || node.kind === 161 /* MethodDeclaration */ || node.kind === 160 /* MethodSignature */ || node.kind === 162 /* Constructor */) { var currentNodeFlags = getEffectiveDeclarationFlags(node, flagsToCheck); someNodeFlags |= currentNodeFlags; allNodeFlags &= currentNodeFlags; someHaveQuestionToken = someHaveQuestionToken || ts.hasQuestionToken(node); allHaveQuestionToken = allHaveQuestionToken && ts.hasQuestionToken(node); if (ts.nodeIsPresent(node.body) && bodyDeclaration) { if (isConstructor) { multipleConstructorImplementation = true; } else { duplicateFunctionDeclaration = true; } } else if (previousDeclaration && previousDeclaration.parent === node.parent && previousDeclaration.end !== node.pos) { reportImplementationExpectedError(previousDeclaration); } if (ts.nodeIsPresent(node.body)) { if (!bodyDeclaration) { bodyDeclaration = node; } } else { hasOverloads = true; } previousDeclaration = node; if (!inAmbientContextOrInterface) { lastSeenNonAmbientDeclaration = node; } } } if (multipleConstructorImplementation) { ts.forEach(declarations, function (declaration) { error(declaration, ts.Diagnostics.Multiple_constructor_implementations_are_not_allowed); }); } if (duplicateFunctionDeclaration) { ts.forEach(declarations, function (declaration) { error(ts.getNameOfDeclaration(declaration), ts.Diagnostics.Duplicate_function_implementation); }); } if (hasNonAmbientClass && !isConstructor && symbol.flags & 16 /* Function */) { // A non-ambient class cannot be an implementation for a non-constructor function/class merge // TODO: The below just replicates our older error from when classes and functions were // entirely unable to merge - a more helpful message like "Class declaration cannot implement overload list" // might be warranted. :shrug: ts.forEach(declarations, function (declaration) { addDuplicateDeclarationError(declaration, ts.Diagnostics.Duplicate_identifier_0, ts.symbolName(symbol), declarations); }); } // Abstract methods can't have an implementation -- in particular, they don't need one. if (lastSeenNonAmbientDeclaration && !lastSeenNonAmbientDeclaration.body && !ts.hasModifier(lastSeenNonAmbientDeclaration, 128 /* Abstract */) && !lastSeenNonAmbientDeclaration.questionToken) { reportImplementationExpectedError(lastSeenNonAmbientDeclaration); } if (hasOverloads) { checkFlagAgreementBetweenOverloads(declarations, bodyDeclaration, flagsToCheck, someNodeFlags, allNodeFlags); checkQuestionTokenAgreementBetweenOverloads(declarations, bodyDeclaration, someHaveQuestionToken, allHaveQuestionToken); if (bodyDeclaration) { var signatures = getSignaturesOfSymbol(symbol); var bodySignature = getSignatureFromDeclaration(bodyDeclaration); for (var _a = 0, signatures_10 = signatures; _a < signatures_10.length; _a++) { var signature = signatures_10[_a]; if (!isImplementationCompatibleWithOverload(bodySignature, signature)) { ts.addRelatedInfo(error(signature.declaration, ts.Diagnostics.This_overload_signature_is_not_compatible_with_its_implementation_signature), ts.createDiagnosticForNode(bodyDeclaration, ts.Diagnostics.The_implementation_signature_is_declared_here)); break; } } } } } function checkExportsOnMergedDeclarations(node) { if (!produceDiagnostics) { return; } // if localSymbol is defined on node then node itself is exported - check is required var symbol = node.localSymbol; if (!symbol) { // local symbol is undefined => this declaration is non-exported. // however symbol might contain other declarations that are exported symbol = getSymbolOfNode(node); if (!symbol.exportSymbol) { // this is a pure local symbol (all declarations are non-exported) - no need to check anything return; } } // run the check only for the first declaration in the list if (ts.getDeclarationOfKind(symbol, node.kind) !== node) { return; } var exportedDeclarationSpaces = 0 /* None */; var nonExportedDeclarationSpaces = 0 /* None */; var defaultExportedDeclarationSpaces = 0 /* None */; for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var d = _a[_i]; var declarationSpaces = getDeclarationSpaces(d); var effectiveDeclarationFlags = getEffectiveDeclarationFlags(d, 1 /* Export */ | 512 /* Default */); if (effectiveDeclarationFlags & 1 /* Export */) { if (effectiveDeclarationFlags & 512 /* Default */) { defaultExportedDeclarationSpaces |= declarationSpaces; } else { exportedDeclarationSpaces |= declarationSpaces; } } else { nonExportedDeclarationSpaces |= declarationSpaces; } } // Spaces for anything not declared a 'default export'. var nonDefaultExportedDeclarationSpaces = exportedDeclarationSpaces | nonExportedDeclarationSpaces; var commonDeclarationSpacesForExportsAndLocals = exportedDeclarationSpaces & nonExportedDeclarationSpaces; var commonDeclarationSpacesForDefaultAndNonDefault = defaultExportedDeclarationSpaces & nonDefaultExportedDeclarationSpaces; if (commonDeclarationSpacesForExportsAndLocals || commonDeclarationSpacesForDefaultAndNonDefault) { // declaration spaces for exported and non-exported declarations intersect for (var _b = 0, _c = symbol.declarations; _b < _c.length; _b++) { var d = _c[_b]; var declarationSpaces = getDeclarationSpaces(d); var name = ts.getNameOfDeclaration(d); // Only error on the declarations that contributed to the intersecting spaces. if (declarationSpaces & commonDeclarationSpacesForDefaultAndNonDefault) { error(name, ts.Diagnostics.Merged_declaration_0_cannot_include_a_default_export_declaration_Consider_adding_a_separate_export_default_0_declaration_instead, ts.declarationNameToString(name)); } else if (declarationSpaces & commonDeclarationSpacesForExportsAndLocals) { error(name, ts.Diagnostics.Individual_declarations_in_merged_declaration_0_must_be_all_exported_or_all_local, ts.declarationNameToString(name)); } } } function getDeclarationSpaces(decl) { var d = decl; switch (d.kind) { case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: // A jsdoc typedef and callback are, by definition, type aliases. // falls through case 322 /* JSDocTypedefTag */: case 315 /* JSDocCallbackTag */: case 316 /* JSDocEnumTag */: return 2 /* ExportType */; case 249 /* ModuleDeclaration */: return ts.isAmbientModule(d) || ts.getModuleInstanceState(d) !== 0 /* NonInstantiated */ ? 4 /* ExportNamespace */ | 1 /* ExportValue */ : 4 /* ExportNamespace */; case 245 /* ClassDeclaration */: case 248 /* EnumDeclaration */: case 284 /* EnumMember */: return 2 /* ExportType */ | 1 /* ExportValue */; case 290 /* SourceFile */: return 2 /* ExportType */ | 1 /* ExportValue */ | 4 /* ExportNamespace */; case 259 /* ExportAssignment */: // Export assigned entity name expressions act as aliases and should fall through, otherwise they export values if (!ts.isEntityNameExpression(d.expression)) { return 1 /* ExportValue */; } d = d.expression; // The below options all declare an Alias, which is allowed to merge with other values within the importing module. // falls through case 253 /* ImportEqualsDeclaration */: case 256 /* NamespaceImport */: case 255 /* ImportClause */: var result_10 = 0 /* None */; var target = resolveAlias(getSymbolOfNode(d)); ts.forEach(target.declarations, function (d) { result_10 |= getDeclarationSpaces(d); }); return result_10; case 242 /* VariableDeclaration */: case 191 /* BindingElement */: case 244 /* FunctionDeclaration */: case 258 /* ImportSpecifier */: // https://github.com/Microsoft/TypeScript/pull/7591 case 75 /* Identifier */: // https://github.com/microsoft/TypeScript/issues/36098 // Identifiers are used as declarations of assignment declarations whose parents may be // SyntaxKind.CallExpression - `Object.defineProperty(thing, "aField", {value: 42});` // SyntaxKind.ElementAccessExpression - `thing["aField"] = 42;` or `thing["aField"];` (with a doc comment on it) // or SyntaxKind.PropertyAccessExpression - `thing.aField = 42;` // all of which are pretty much always values, or at least imply a value meaning. // It may be apprpriate to treat these as aliases in the future. return 1 /* ExportValue */; default: return ts.Debug.failBadSyntaxKind(d); } } } function getAwaitedTypeOfPromise(type, errorNode, diagnosticMessage, arg0) { var promisedType = getPromisedTypeOfPromise(type, errorNode); return promisedType && getAwaitedType(promisedType, errorNode, diagnosticMessage, arg0); } /** * Gets the "promised type" of a promise. * @param type The type of the promise. * @remarks The "promised type" of a type is the type of the "value" parameter of the "onfulfilled" callback. */ function getPromisedTypeOfPromise(type, errorNode) { // // { // type // then( // thenFunction // onfulfilled: ( // onfulfilledParameterType // value: T // valueParameterType // ) => any // ): any; // } // if (isTypeAny(type)) { return undefined; } var typeAsPromise = type; if (typeAsPromise.promisedTypeOfPromise) { return typeAsPromise.promisedTypeOfPromise; } if (isReferenceToType(type, getGlobalPromiseType(/*reportErrors*/ false))) { return typeAsPromise.promisedTypeOfPromise = getTypeArguments(type)[0]; } var thenFunction = getTypeOfPropertyOfType(type, "then"); // TODO: GH#18217 if (isTypeAny(thenFunction)) { return undefined; } var thenSignatures = thenFunction ? getSignaturesOfType(thenFunction, 0 /* Call */) : ts.emptyArray; if (thenSignatures.length === 0) { if (errorNode) { error(errorNode, ts.Diagnostics.A_promise_must_have_a_then_method); } return undefined; } var onfulfilledParameterType = getTypeWithFacts(getUnionType(ts.map(thenSignatures, getTypeOfFirstParameterOfSignature)), 2097152 /* NEUndefinedOrNull */); if (isTypeAny(onfulfilledParameterType)) { return undefined; } var onfulfilledParameterSignatures = getSignaturesOfType(onfulfilledParameterType, 0 /* Call */); if (onfulfilledParameterSignatures.length === 0) { if (errorNode) { error(errorNode, ts.Diagnostics.The_first_parameter_of_the_then_method_of_a_promise_must_be_a_callback); } return undefined; } return typeAsPromise.promisedTypeOfPromise = getUnionType(ts.map(onfulfilledParameterSignatures, getTypeOfFirstParameterOfSignature), 2 /* Subtype */); } /** * Gets the "awaited type" of a type. * @param type The type to await. * @remarks The "awaited type" of an expression is its "promised type" if the expression is a * Promise-like type; otherwise, it is the type of the expression. This is used to reflect * The runtime behavior of the `await` keyword. */ function checkAwaitedType(type, errorNode, diagnosticMessage, arg0) { var awaitedType = getAwaitedType(type, errorNode, diagnosticMessage, arg0); return awaitedType || errorType; } /** * Determines whether a type has a callable `then` member. */ function isThenableType(type) { var thenFunction = getTypeOfPropertyOfType(type, "then"); return !!thenFunction && getSignaturesOfType(getTypeWithFacts(thenFunction, 2097152 /* NEUndefinedOrNull */), 0 /* Call */).length > 0; } /** * Gets the "awaited type" of a type. * * The "awaited type" of an expression is its "promised type" if the expression is a * Promise-like type; otherwise, it is the type of the expression. If the "promised * type" is itself a Promise-like, the "promised type" is recursively unwrapped until a * non-promise type is found. * * This is used to reflect the runtime behavior of the `await` keyword. */ function getAwaitedType(type, errorNode, diagnosticMessage, arg0) { if (isTypeAny(type)) { return type; } var typeAsAwaitable = type; if (typeAsAwaitable.awaitedTypeOfType) { return typeAsAwaitable.awaitedTypeOfType; } // For a union, get a union of the awaited types of each constituent. // return typeAsAwaitable.awaitedTypeOfType = mapType(type, errorNode ? function (constituentType) { return getAwaitedTypeWorker(constituentType, errorNode, diagnosticMessage, arg0); } : getAwaitedTypeWorker); } function getAwaitedTypeWorker(type, errorNode, diagnosticMessage, arg0) { var typeAsAwaitable = type; if (typeAsAwaitable.awaitedTypeOfType) { return typeAsAwaitable.awaitedTypeOfType; } var promisedType = getPromisedTypeOfPromise(type); if (promisedType) { if (type.id === promisedType.id || awaitedTypeStack.lastIndexOf(promisedType.id) >= 0) { // Verify that we don't have a bad actor in the form of a promise whose // promised type is the same as the promise type, or a mutually recursive // promise. If so, we return undefined as we cannot guess the shape. If this // were the actual case in the JavaScript, this Promise would never resolve. // // An example of a bad actor with a singly-recursive promise type might // be: // // interface BadPromise { // then( // onfulfilled: (value: BadPromise) => any, // onrejected: (error: any) => any): BadPromise; // } // // The above interface will pass the PromiseLike check, and return a // promised type of `BadPromise`. Since this is a self reference, we // don't want to keep recursing ad infinitum. // // An example of a bad actor in the form of a mutually-recursive // promise type might be: // // interface BadPromiseA { // then( // onfulfilled: (value: BadPromiseB) => any, // onrejected: (error: any) => any): BadPromiseB; // } // // interface BadPromiseB { // then( // onfulfilled: (value: BadPromiseA) => any, // onrejected: (error: any) => any): BadPromiseA; // } // if (errorNode) { error(errorNode, ts.Diagnostics.Type_is_referenced_directly_or_indirectly_in_the_fulfillment_callback_of_its_own_then_method); } return undefined; } // Keep track of the type we're about to unwrap to avoid bad recursive promise types. // See the comments above for more information. awaitedTypeStack.push(type.id); var awaitedType = getAwaitedType(promisedType, errorNode, diagnosticMessage, arg0); awaitedTypeStack.pop(); if (!awaitedType) { return undefined; } return typeAsAwaitable.awaitedTypeOfType = awaitedType; } // The type was not a promise, so it could not be unwrapped any further. // As long as the type does not have a callable "then" property, it is // safe to return the type; otherwise, an error is reported and we return // undefined. // // An example of a non-promise "thenable" might be: // // await { then(): void {} } // // The "thenable" does not match the minimal definition for a promise. When // a Promise/A+-compatible or ES6 promise tries to adopt this value, the promise // will never settle. We treat this as an error to help flag an early indicator // of a runtime problem. If the user wants to return this value from an async // function, they would need to wrap it in some other value. If they want it to // be treated as a promise, they can cast to . if (isThenableType(type)) { if (errorNode) { if (!diagnosticMessage) return ts.Debug.fail(); error(errorNode, diagnosticMessage, arg0); } return undefined; } return typeAsAwaitable.awaitedTypeOfType = type; } /** * Checks the return type of an async function to ensure it is a compatible * Promise implementation. * * This checks that an async function has a valid Promise-compatible return type. * An async function has a valid Promise-compatible return type if the resolved value * of the return type has a construct signature that takes in an `initializer` function * that in turn supplies a `resolve` function as one of its arguments and results in an * object with a callable `then` signature. * * @param node The signature to check */ function checkAsyncFunctionReturnType(node, returnTypeNode) { // As part of our emit for an async function, we will need to emit the entity name of // the return type annotation as an expression. To meet the necessary runtime semantics // for __awaiter, we must also check that the type of the declaration (e.g. the static // side or "constructor" of the promise type) is compatible `PromiseConstructorLike`. // // An example might be (from lib.es6.d.ts): // // interface Promise { ... } // interface PromiseConstructor { // new (...): Promise; // } // declare var Promise: PromiseConstructor; // // When an async function declares a return type annotation of `Promise`, we // need to get the type of the `Promise` variable declaration above, which would // be `PromiseConstructor`. // // The same case applies to a class: // // declare class Promise { // constructor(...); // then(...): Promise; // } // var returnType = getTypeFromTypeNode(returnTypeNode); if (languageVersion >= 2 /* ES2015 */) { if (returnType === errorType) { return; } var globalPromiseType = getGlobalPromiseType(/*reportErrors*/ true); if (globalPromiseType !== emptyGenericType && !isReferenceToType(returnType, globalPromiseType)) { // The promise type was not a valid type reference to the global promise type, so we // report an error and return the unknown type. error(returnTypeNode, ts.Diagnostics.The_return_type_of_an_async_function_or_method_must_be_the_global_Promise_T_type); return; } } else { // Always mark the type node as referenced if it points to a value markTypeNodeAsReferenced(returnTypeNode); if (returnType === errorType) { return; } var promiseConstructorName = ts.getEntityNameFromTypeNode(returnTypeNode); if (promiseConstructorName === undefined) { error(returnTypeNode, ts.Diagnostics.Type_0_is_not_a_valid_async_function_return_type_in_ES5_SlashES3_because_it_does_not_refer_to_a_Promise_compatible_constructor_value, typeToString(returnType)); return; } var promiseConstructorSymbol = resolveEntityName(promiseConstructorName, 111551 /* Value */, /*ignoreErrors*/ true); var promiseConstructorType = promiseConstructorSymbol ? getTypeOfSymbol(promiseConstructorSymbol) : errorType; if (promiseConstructorType === errorType) { if (promiseConstructorName.kind === 75 /* Identifier */ && promiseConstructorName.escapedText === "Promise" && getTargetType(returnType) === getGlobalPromiseType(/*reportErrors*/ false)) { error(returnTypeNode, ts.Diagnostics.An_async_function_or_method_in_ES5_SlashES3_requires_the_Promise_constructor_Make_sure_you_have_a_declaration_for_the_Promise_constructor_or_include_ES2015_in_your_lib_option); } else { error(returnTypeNode, ts.Diagnostics.Type_0_is_not_a_valid_async_function_return_type_in_ES5_SlashES3_because_it_does_not_refer_to_a_Promise_compatible_constructor_value, ts.entityNameToString(promiseConstructorName)); } return; } var globalPromiseConstructorLikeType = getGlobalPromiseConstructorLikeType(/*reportErrors*/ true); if (globalPromiseConstructorLikeType === emptyObjectType) { // If we couldn't resolve the global PromiseConstructorLike type we cannot verify // compatibility with __awaiter. error(returnTypeNode, ts.Diagnostics.Type_0_is_not_a_valid_async_function_return_type_in_ES5_SlashES3_because_it_does_not_refer_to_a_Promise_compatible_constructor_value, ts.entityNameToString(promiseConstructorName)); return; } if (!checkTypeAssignableTo(promiseConstructorType, globalPromiseConstructorLikeType, returnTypeNode, ts.Diagnostics.Type_0_is_not_a_valid_async_function_return_type_in_ES5_SlashES3_because_it_does_not_refer_to_a_Promise_compatible_constructor_value)) { return; } // Verify there is no local declaration that could collide with the promise constructor. var rootName = promiseConstructorName && ts.getFirstIdentifier(promiseConstructorName); var collidingSymbol = getSymbol(node.locals, rootName.escapedText, 111551 /* Value */); if (collidingSymbol) { error(collidingSymbol.valueDeclaration, ts.Diagnostics.Duplicate_identifier_0_Compiler_uses_declaration_1_to_support_async_functions, ts.idText(rootName), ts.entityNameToString(promiseConstructorName)); return; } } checkAwaitedType(returnType, node, ts.Diagnostics.The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member); } /** Check a decorator */ function checkDecorator(node) { var signature = getResolvedSignature(node); var returnType = getReturnTypeOfSignature(signature); if (returnType.flags & 1 /* Any */) { return; } var expectedReturnType; var headMessage = getDiagnosticHeadMessageForDecoratorResolution(node); var errorInfo; switch (node.parent.kind) { case 245 /* ClassDeclaration */: var classSymbol = getSymbolOfNode(node.parent); var classConstructorType = getTypeOfSymbol(classSymbol); expectedReturnType = getUnionType([classConstructorType, voidType]); break; case 156 /* Parameter */: expectedReturnType = voidType; errorInfo = ts.chainDiagnosticMessages( /*details*/ undefined, ts.Diagnostics.The_return_type_of_a_parameter_decorator_function_must_be_either_void_or_any); break; case 159 /* PropertyDeclaration */: expectedReturnType = voidType; errorInfo = ts.chainDiagnosticMessages( /*details*/ undefined, ts.Diagnostics.The_return_type_of_a_property_decorator_function_must_be_either_void_or_any); break; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: var methodType = getTypeOfNode(node.parent); var descriptorType = createTypedPropertyDescriptorType(methodType); expectedReturnType = getUnionType([descriptorType, voidType]); break; default: return ts.Debug.fail(); } checkTypeAssignableTo(returnType, expectedReturnType, node, headMessage, function () { return errorInfo; }); } /** * If a TypeNode can be resolved to a value symbol imported from an external module, it is * marked as referenced to prevent import elision. */ function markTypeNodeAsReferenced(node) { markEntityNameOrEntityExpressionAsReference(node && ts.getEntityNameFromTypeNode(node)); } function markEntityNameOrEntityExpressionAsReference(typeName) { if (!typeName) return; var rootName = ts.getFirstIdentifier(typeName); var meaning = (typeName.kind === 75 /* Identifier */ ? 788968 /* Type */ : 1920 /* Namespace */) | 2097152 /* Alias */; var rootSymbol = resolveName(rootName, rootName.escapedText, meaning, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isRefernce*/ true); if (rootSymbol && rootSymbol.flags & 2097152 /* Alias */ && symbolIsValue(rootSymbol) && !isConstEnumOrConstEnumOnlyModule(resolveAlias(rootSymbol)) && !getTypeOnlyAliasDeclaration(rootSymbol)) { markAliasSymbolAsReferenced(rootSymbol); } } /** * This function marks the type used for metadata decorator as referenced if it is import * from external module. * This is different from markTypeNodeAsReferenced because it tries to simplify type nodes in * union and intersection type * @param node */ function markDecoratorMedataDataTypeNodeAsReferenced(node) { var entityName = getEntityNameForDecoratorMetadata(node); if (entityName && ts.isEntityName(entityName)) { markEntityNameOrEntityExpressionAsReference(entityName); } } function getEntityNameForDecoratorMetadata(node) { if (node) { switch (node.kind) { case 179 /* IntersectionType */: case 178 /* UnionType */: return getEntityNameForDecoratorMetadataFromTypeList(node.types); case 180 /* ConditionalType */: return getEntityNameForDecoratorMetadataFromTypeList([node.trueType, node.falseType]); case 182 /* ParenthesizedType */: return getEntityNameForDecoratorMetadata(node.type); case 169 /* TypeReference */: return node.typeName; } } } function getEntityNameForDecoratorMetadataFromTypeList(types) { var commonEntityName; for (var _i = 0, types_20 = types; _i < types_20.length; _i++) { var typeNode = types_20[_i]; while (typeNode.kind === 182 /* ParenthesizedType */) { typeNode = typeNode.type; // Skip parens if need be } if (typeNode.kind === 137 /* NeverKeyword */) { continue; // Always elide `never` from the union/intersection if possible } if (!strictNullChecks && (typeNode.kind === 100 /* NullKeyword */ || typeNode.kind === 146 /* UndefinedKeyword */)) { continue; // Elide null and undefined from unions for metadata, just like what we did prior to the implementation of strict null checks } var individualEntityName = getEntityNameForDecoratorMetadata(typeNode); if (!individualEntityName) { // Individual is something like string number // So it would be serialized to either that type or object // Safe to return here return undefined; } if (commonEntityName) { // Note this is in sync with the transformation that happens for type node. // Keep this in sync with serializeUnionOrIntersectionType // Verify if they refer to same entity and is identifier // return undefined if they dont match because we would emit object if (!ts.isIdentifier(commonEntityName) || !ts.isIdentifier(individualEntityName) || commonEntityName.escapedText !== individualEntityName.escapedText) { return undefined; } } else { commonEntityName = individualEntityName; } } return commonEntityName; } function getParameterTypeNodeForDecoratorCheck(node) { var typeNode = ts.getEffectiveTypeAnnotationNode(node); return ts.isRestParameter(node) ? ts.getRestParameterElementType(typeNode) : typeNode; } /** Check the decorators of a node */ function checkDecorators(node) { if (!node.decorators) { return; } // skip this check for nodes that cannot have decorators. These should have already had an error reported by // checkGrammarDecorators. if (!ts.nodeCanBeDecorated(node, node.parent, node.parent.parent)) { return; } if (!compilerOptions.experimentalDecorators) { error(node, ts.Diagnostics.Experimental_support_for_decorators_is_a_feature_that_is_subject_to_change_in_a_future_release_Set_the_experimentalDecorators_option_in_your_tsconfig_or_jsconfig_to_remove_this_warning); } var firstDecorator = node.decorators[0]; checkExternalEmitHelpers(firstDecorator, 8 /* Decorate */); if (node.kind === 156 /* Parameter */) { checkExternalEmitHelpers(firstDecorator, 32 /* Param */); } if (compilerOptions.emitDecoratorMetadata) { checkExternalEmitHelpers(firstDecorator, 16 /* Metadata */); // we only need to perform these checks if we are emitting serialized type metadata for the target of a decorator. switch (node.kind) { case 245 /* ClassDeclaration */: var constructor = ts.getFirstConstructorWithBody(node); if (constructor) { for (var _i = 0, _a = constructor.parameters; _i < _a.length; _i++) { var parameter = _a[_i]; markDecoratorMedataDataTypeNodeAsReferenced(getParameterTypeNodeForDecoratorCheck(parameter)); } } break; case 163 /* GetAccessor */: case 164 /* SetAccessor */: var otherKind = node.kind === 163 /* GetAccessor */ ? 164 /* SetAccessor */ : 163 /* GetAccessor */; var otherAccessor = ts.getDeclarationOfKind(getSymbolOfNode(node), otherKind); markDecoratorMedataDataTypeNodeAsReferenced(getAnnotatedAccessorTypeNode(node) || otherAccessor && getAnnotatedAccessorTypeNode(otherAccessor)); break; case 161 /* MethodDeclaration */: for (var _b = 0, _c = node.parameters; _b < _c.length; _b++) { var parameter = _c[_b]; markDecoratorMedataDataTypeNodeAsReferenced(getParameterTypeNodeForDecoratorCheck(parameter)); } markDecoratorMedataDataTypeNodeAsReferenced(ts.getEffectiveReturnTypeNode(node)); break; case 159 /* PropertyDeclaration */: markDecoratorMedataDataTypeNodeAsReferenced(ts.getEffectiveTypeAnnotationNode(node)); break; case 156 /* Parameter */: markDecoratorMedataDataTypeNodeAsReferenced(getParameterTypeNodeForDecoratorCheck(node)); var containingSignature = node.parent; for (var _d = 0, _e = containingSignature.parameters; _d < _e.length; _d++) { var parameter = _e[_d]; markDecoratorMedataDataTypeNodeAsReferenced(getParameterTypeNodeForDecoratorCheck(parameter)); } break; } } ts.forEach(node.decorators, checkDecorator); } function checkFunctionDeclaration(node) { if (produceDiagnostics) { checkFunctionOrMethodDeclaration(node); checkGrammarForGenerator(node); checkCollisionWithRequireExportsInGeneratedCode(node, node.name); checkCollisionWithGlobalPromiseInGeneratedCode(node, node.name); } } function checkJSDocTypeAliasTag(node) { if (!node.typeExpression) { // If the node had `@property` tags, `typeExpression` would have been set to the first property tag. error(node.name, ts.Diagnostics.JSDoc_typedef_tag_should_either_have_a_type_annotation_or_be_followed_by_property_or_member_tags); } if (node.name) { checkTypeNameIsReserved(node.name, ts.Diagnostics.Type_alias_name_cannot_be_0); } checkSourceElement(node.typeExpression); } function checkJSDocTemplateTag(node) { checkSourceElement(node.constraint); for (var _i = 0, _a = node.typeParameters; _i < _a.length; _i++) { var tp = _a[_i]; checkSourceElement(tp); } } function checkJSDocTypeTag(node) { checkSourceElement(node.typeExpression); } function checkJSDocParameterTag(node) { checkSourceElement(node.typeExpression); if (!ts.getParameterSymbolFromJSDoc(node)) { var decl = ts.getHostSignatureFromJSDoc(node); // don't issue an error for invalid hosts -- just functions -- // and give a better error message when the host function mentions `arguments` // but the tag doesn't have an array type if (decl) { var i = ts.getJSDocTags(decl).filter(ts.isJSDocParameterTag).indexOf(node); if (i > -1 && i < decl.parameters.length && ts.isBindingPattern(decl.parameters[i].name)) { return; } if (!containsArgumentsReference(decl)) { if (ts.isQualifiedName(node.name)) { error(node.name, ts.Diagnostics.Qualified_name_0_is_not_allowed_without_a_leading_param_object_1, ts.entityNameToString(node.name), ts.entityNameToString(node.name.left)); } else { error(node.name, ts.Diagnostics.JSDoc_param_tag_has_name_0_but_there_is_no_parameter_with_that_name, ts.idText(node.name)); } } else if (ts.findLast(ts.getJSDocTags(decl), ts.isJSDocParameterTag) === node && node.typeExpression && node.typeExpression.type && !isArrayType(getTypeFromTypeNode(node.typeExpression.type))) { error(node.name, ts.Diagnostics.JSDoc_param_tag_has_name_0_but_there_is_no_parameter_with_that_name_It_would_match_arguments_if_it_had_an_array_type, ts.idText(node.name.kind === 153 /* QualifiedName */ ? node.name.right : node.name)); } } } } function checkJSDocPropertyTag(node) { checkSourceElement(node.typeExpression); } function checkJSDocFunctionType(node) { if (produceDiagnostics && !node.type && !ts.isJSDocConstructSignature(node)) { reportImplicitAny(node, anyType); } checkSignatureDeclaration(node); } function checkJSDocImplementsTag(node) { var classLike = ts.getEffectiveJSDocHost(node); if (!classLike || !ts.isClassDeclaration(classLike) && !ts.isClassExpression(classLike)) { error(classLike, ts.Diagnostics.JSDoc_0_is_not_attached_to_a_class, ts.idText(node.tagName)); } } function checkJSDocAugmentsTag(node) { var classLike = ts.getEffectiveJSDocHost(node); if (!classLike || !ts.isClassDeclaration(classLike) && !ts.isClassExpression(classLike)) { error(classLike, ts.Diagnostics.JSDoc_0_is_not_attached_to_a_class, ts.idText(node.tagName)); return; } var augmentsTags = ts.getJSDocTags(classLike).filter(ts.isJSDocAugmentsTag); ts.Debug.assert(augmentsTags.length > 0); if (augmentsTags.length > 1) { error(augmentsTags[1], ts.Diagnostics.Class_declarations_cannot_have_more_than_one_augments_or_extends_tag); } var name = getIdentifierFromEntityNameExpression(node.class.expression); var extend = ts.getClassExtendsHeritageElement(classLike); if (extend) { var className = getIdentifierFromEntityNameExpression(extend.expression); if (className && name.escapedText !== className.escapedText) { error(name, ts.Diagnostics.JSDoc_0_1_does_not_match_the_extends_2_clause, ts.idText(node.tagName), ts.idText(name), ts.idText(className)); } } } function getIdentifierFromEntityNameExpression(node) { switch (node.kind) { case 75 /* Identifier */: return node; case 194 /* PropertyAccessExpression */: return node.name; default: return undefined; } } function checkFunctionOrMethodDeclaration(node) { checkDecorators(node); checkSignatureDeclaration(node); var functionFlags = ts.getFunctionFlags(node); // Do not use hasDynamicName here, because that returns false for well known symbols. // We want to perform checkComputedPropertyName for all computed properties, including // well known symbols. if (node.name && node.name.kind === 154 /* ComputedPropertyName */) { // This check will account for methods in class/interface declarations, // as well as accessors in classes/object literals checkComputedPropertyName(node.name); } if (!hasNonBindableDynamicName(node)) { // first we want to check the local symbol that contain this declaration // - if node.localSymbol !== undefined - this is current declaration is exported and localSymbol points to the local symbol // - if node.localSymbol === undefined - this node is non-exported so we can just pick the result of getSymbolOfNode var symbol = getSymbolOfNode(node); var localSymbol = node.localSymbol || symbol; // Since the javascript won't do semantic analysis like typescript, // if the javascript file comes before the typescript file and both contain same name functions, // checkFunctionOrConstructorSymbol wouldn't be called if we didnt ignore javascript function. var firstDeclaration = ts.find(localSymbol.declarations, // Get first non javascript function declaration function (declaration) { return declaration.kind === node.kind && !(declaration.flags & 131072 /* JavaScriptFile */); }); // Only type check the symbol once if (node === firstDeclaration) { checkFunctionOrConstructorSymbol(localSymbol); } if (symbol.parent) { // run check once for the first declaration if (ts.getDeclarationOfKind(symbol, node.kind) === node) { // run check on export symbol to check that modifiers agree across all exported declarations checkFunctionOrConstructorSymbol(symbol); } } } var body = node.kind === 160 /* MethodSignature */ ? undefined : node.body; checkSourceElement(body); checkAllCodePathsInNonVoidFunctionReturnOrThrow(node, getReturnTypeFromAnnotation(node)); if (produceDiagnostics && !ts.getEffectiveReturnTypeNode(node)) { // Report an implicit any error if there is no body, no explicit return type, and node is not a private method // in an ambient context if (ts.nodeIsMissing(body) && !isPrivateWithinAmbient(node)) { reportImplicitAny(node, anyType); } if (functionFlags & 1 /* Generator */ && ts.nodeIsPresent(body)) { // A generator with a body and no type annotation can still cause errors. It can error if the // yielded values have no common supertype, or it can give an implicit any error if it has no // yielded values. The only way to trigger these errors is to try checking its return type. getReturnTypeOfSignature(getSignatureFromDeclaration(node)); } } // A js function declaration can have a @type tag instead of a return type node, but that type must have a call signature if (ts.isInJSFile(node)) { var typeTag = ts.getJSDocTypeTag(node); if (typeTag && typeTag.typeExpression && !getContextualCallSignature(getTypeFromTypeNode(typeTag.typeExpression), node)) { error(typeTag, ts.Diagnostics.The_type_of_a_function_declaration_must_match_the_function_s_signature); } } } function registerForUnusedIdentifiersCheck(node) { // May be in a call such as getTypeOfNode that happened to call this. But potentiallyUnusedIdentifiers is only defined in the scope of `checkSourceFile`. if (produceDiagnostics) { var sourceFile = ts.getSourceFileOfNode(node); var potentiallyUnusedIdentifiers = allPotentiallyUnusedIdentifiers.get(sourceFile.path); if (!potentiallyUnusedIdentifiers) { potentiallyUnusedIdentifiers = []; allPotentiallyUnusedIdentifiers.set(sourceFile.path, potentiallyUnusedIdentifiers); } // TODO: GH#22580 // Debug.assert(addToSeen(seenPotentiallyUnusedIdentifiers, getNodeId(node)), "Adding potentially-unused identifier twice"); potentiallyUnusedIdentifiers.push(node); } } function checkUnusedIdentifiers(potentiallyUnusedIdentifiers, addDiagnostic) { for (var _i = 0, potentiallyUnusedIdentifiers_1 = potentiallyUnusedIdentifiers; _i < potentiallyUnusedIdentifiers_1.length; _i++) { var node = potentiallyUnusedIdentifiers_1[_i]; switch (node.kind) { case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: checkUnusedClassMembers(node, addDiagnostic); checkUnusedTypeParameters(node, addDiagnostic); break; case 290 /* SourceFile */: case 249 /* ModuleDeclaration */: case 223 /* Block */: case 251 /* CaseBlock */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: checkUnusedLocalsAndParameters(node, addDiagnostic); break; case 162 /* Constructor */: case 201 /* FunctionExpression */: case 244 /* FunctionDeclaration */: case 202 /* ArrowFunction */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: if (node.body) { // Don't report unused parameters in overloads checkUnusedLocalsAndParameters(node, addDiagnostic); } checkUnusedTypeParameters(node, addDiagnostic); break; case 160 /* MethodSignature */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 170 /* FunctionType */: case 171 /* ConstructorType */: case 247 /* TypeAliasDeclaration */: case 246 /* InterfaceDeclaration */: checkUnusedTypeParameters(node, addDiagnostic); break; case 181 /* InferType */: checkUnusedInferTypeParameter(node, addDiagnostic); break; default: ts.Debug.assertNever(node, "Node should not have been registered for unused identifiers check"); } } } function errorUnusedLocal(declaration, name, addDiagnostic) { var node = ts.getNameOfDeclaration(declaration) || declaration; var message = isTypeDeclaration(declaration) ? ts.Diagnostics._0_is_declared_but_never_used : ts.Diagnostics._0_is_declared_but_its_value_is_never_read; addDiagnostic(declaration, 0 /* Local */, ts.createDiagnosticForNode(node, message, name)); } function isIdentifierThatStartsWithUnderscore(node) { return ts.isIdentifier(node) && ts.idText(node).charCodeAt(0) === 95 /* _ */; } function checkUnusedClassMembers(node, addDiagnostic) { for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; switch (member.kind) { case 161 /* MethodDeclaration */: case 159 /* PropertyDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: if (member.kind === 164 /* SetAccessor */ && member.symbol.flags & 32768 /* GetAccessor */) { // Already would have reported an error on the getter. break; } var symbol = getSymbolOfNode(member); if (!symbol.isReferenced && (ts.hasModifier(member, 8 /* Private */) || ts.isNamedDeclaration(member) && ts.isPrivateIdentifier(member.name)) && !(member.flags & 8388608 /* Ambient */)) { addDiagnostic(member, 0 /* Local */, ts.createDiagnosticForNode(member.name, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, symbolToString(symbol))); } break; case 162 /* Constructor */: for (var _b = 0, _c = member.parameters; _b < _c.length; _b++) { var parameter = _c[_b]; if (!parameter.symbol.isReferenced && ts.hasModifier(parameter, 8 /* Private */)) { addDiagnostic(parameter, 0 /* Local */, ts.createDiagnosticForNode(parameter.name, ts.Diagnostics.Property_0_is_declared_but_its_value_is_never_read, ts.symbolName(parameter.symbol))); } } break; case 167 /* IndexSignature */: case 222 /* SemicolonClassElement */: // Can't be private break; default: ts.Debug.fail(); } } } function checkUnusedInferTypeParameter(node, addDiagnostic) { var typeParameter = node.typeParameter; if (isTypeParameterUnused(typeParameter)) { addDiagnostic(node, 1 /* Parameter */, ts.createDiagnosticForNode(node, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, ts.idText(typeParameter.name))); } } function checkUnusedTypeParameters(node, addDiagnostic) { // Only report errors on the last declaration for the type parameter container; // this ensures that all uses have been accounted for. if (ts.last(getSymbolOfNode(node).declarations) !== node) return; var typeParameters = ts.getEffectiveTypeParameterDeclarations(node); var seenParentsWithEveryUnused = new ts.NodeSet(); for (var _i = 0, typeParameters_3 = typeParameters; _i < typeParameters_3.length; _i++) { var typeParameter = typeParameters_3[_i]; if (!isTypeParameterUnused(typeParameter)) continue; var name = ts.idText(typeParameter.name); var parent = typeParameter.parent; if (parent.kind !== 181 /* InferType */ && parent.typeParameters.every(isTypeParameterUnused)) { if (seenParentsWithEveryUnused.tryAdd(parent)) { var range = ts.isJSDocTemplateTag(parent) // Whole @template tag ? ts.rangeOfNode(parent) // Include the `<>` in the error message : ts.rangeOfTypeParameters(parent.typeParameters); var only = parent.typeParameters.length === 1; var message = only ? ts.Diagnostics._0_is_declared_but_its_value_is_never_read : ts.Diagnostics.All_type_parameters_are_unused; var arg0 = only ? name : undefined; addDiagnostic(typeParameter, 1 /* Parameter */, ts.createFileDiagnostic(ts.getSourceFileOfNode(parent), range.pos, range.end - range.pos, message, arg0)); } } else { addDiagnostic(typeParameter, 1 /* Parameter */, ts.createDiagnosticForNode(typeParameter, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, name)); } } } function isTypeParameterUnused(typeParameter) { return !(getMergedSymbol(typeParameter.symbol).isReferenced & 262144 /* TypeParameter */) && !isIdentifierThatStartsWithUnderscore(typeParameter.name); } function addToGroup(map, key, value, getKey) { var keyString = String(getKey(key)); var group = map.get(keyString); if (group) { group[1].push(value); } else { map.set(keyString, [key, [value]]); } } function tryGetRootParameterDeclaration(node) { return ts.tryCast(ts.getRootDeclaration(node), ts.isParameter); } function isValidUnusedLocalDeclaration(declaration) { if (ts.isBindingElement(declaration) && isIdentifierThatStartsWithUnderscore(declaration.name)) { return !!ts.findAncestor(declaration.parent, function (ancestor) { return ts.isArrayBindingPattern(ancestor) || ts.isVariableDeclaration(ancestor) || ts.isVariableDeclarationList(ancestor) ? false : ts.isForOfStatement(ancestor) ? true : "quit"; }); } return ts.isAmbientModule(declaration) || (ts.isVariableDeclaration(declaration) && ts.isForInOrOfStatement(declaration.parent.parent) || isImportedDeclaration(declaration)) && isIdentifierThatStartsWithUnderscore(declaration.name); } function checkUnusedLocalsAndParameters(nodeWithLocals, addDiagnostic) { // Ideally we could use the ImportClause directly as a key, but must wait until we have full ES6 maps. So must store key along with value. var unusedImports = ts.createMap(); var unusedDestructures = ts.createMap(); var unusedVariables = ts.createMap(); nodeWithLocals.locals.forEach(function (local) { // If it's purely a type parameter, ignore, will be checked in `checkUnusedTypeParameters`. // If it's a type parameter merged with a parameter, check if the parameter-side is used. if (local.flags & 262144 /* TypeParameter */ ? !(local.flags & 3 /* Variable */ && !(local.isReferenced & 3 /* Variable */)) : local.isReferenced || local.exportSymbol) { return; } for (var _i = 0, _a = local.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; if (isValidUnusedLocalDeclaration(declaration)) { continue; } if (isImportedDeclaration(declaration)) { addToGroup(unusedImports, importClauseFromImported(declaration), declaration, getNodeId); } else if (ts.isBindingElement(declaration) && ts.isObjectBindingPattern(declaration.parent)) { // In `{ a, ...b }, `a` is considered used since it removes a property from `b`. `b` may still be unused though. var lastElement = ts.last(declaration.parent.elements); if (declaration === lastElement || !ts.last(declaration.parent.elements).dotDotDotToken) { addToGroup(unusedDestructures, declaration.parent, declaration, getNodeId); } } else if (ts.isVariableDeclaration(declaration)) { addToGroup(unusedVariables, declaration.parent, declaration, getNodeId); } else { var parameter = local.valueDeclaration && tryGetRootParameterDeclaration(local.valueDeclaration); var name = local.valueDeclaration && ts.getNameOfDeclaration(local.valueDeclaration); if (parameter && name) { if (!ts.isParameterPropertyDeclaration(parameter, parameter.parent) && !ts.parameterIsThisKeyword(parameter) && !isIdentifierThatStartsWithUnderscore(name)) { addDiagnostic(parameter, 1 /* Parameter */, ts.createDiagnosticForNode(name, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, ts.symbolName(local))); } } else { errorUnusedLocal(declaration, ts.symbolName(local), addDiagnostic); } } } }); unusedImports.forEach(function (_a) { var importClause = _a[0], unuseds = _a[1]; var importDecl = importClause.parent; var nDeclarations = (importClause.name ? 1 : 0) + (importClause.namedBindings ? (importClause.namedBindings.kind === 256 /* NamespaceImport */ ? 1 : importClause.namedBindings.elements.length) : 0); if (nDeclarations === unuseds.length) { addDiagnostic(importDecl, 0 /* Local */, unuseds.length === 1 ? ts.createDiagnosticForNode(importDecl, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, ts.idText(ts.first(unuseds).name)) : ts.createDiagnosticForNode(importDecl, ts.Diagnostics.All_imports_in_import_declaration_are_unused)); } else { for (var _i = 0, unuseds_1 = unuseds; _i < unuseds_1.length; _i++) { var unused = unuseds_1[_i]; errorUnusedLocal(unused, ts.idText(unused.name), addDiagnostic); } } }); unusedDestructures.forEach(function (_a) { var bindingPattern = _a[0], bindingElements = _a[1]; var kind = tryGetRootParameterDeclaration(bindingPattern.parent) ? 1 /* Parameter */ : 0 /* Local */; if (bindingPattern.elements.length === bindingElements.length) { if (bindingElements.length === 1 && bindingPattern.parent.kind === 242 /* VariableDeclaration */ && bindingPattern.parent.parent.kind === 243 /* VariableDeclarationList */) { addToGroup(unusedVariables, bindingPattern.parent.parent, bindingPattern.parent, getNodeId); } else { addDiagnostic(bindingPattern, kind, bindingElements.length === 1 ? ts.createDiagnosticForNode(bindingPattern, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, bindingNameText(ts.first(bindingElements).name)) : ts.createDiagnosticForNode(bindingPattern, ts.Diagnostics.All_destructured_elements_are_unused)); } } else { for (var _i = 0, bindingElements_1 = bindingElements; _i < bindingElements_1.length; _i++) { var e = bindingElements_1[_i]; addDiagnostic(e, kind, ts.createDiagnosticForNode(e, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, bindingNameText(e.name))); } } }); unusedVariables.forEach(function (_a) { var declarationList = _a[0], declarations = _a[1]; if (declarationList.declarations.length === declarations.length) { addDiagnostic(declarationList, 0 /* Local */, declarations.length === 1 ? ts.createDiagnosticForNode(ts.first(declarations).name, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, bindingNameText(ts.first(declarations).name)) : ts.createDiagnosticForNode(declarationList.parent.kind === 225 /* VariableStatement */ ? declarationList.parent : declarationList, ts.Diagnostics.All_variables_are_unused)); } else { for (var _i = 0, declarations_5 = declarations; _i < declarations_5.length; _i++) { var decl = declarations_5[_i]; addDiagnostic(decl, 0 /* Local */, ts.createDiagnosticForNode(decl, ts.Diagnostics._0_is_declared_but_its_value_is_never_read, bindingNameText(decl.name))); } } }); } function bindingNameText(name) { switch (name.kind) { case 75 /* Identifier */: return ts.idText(name); case 190 /* ArrayBindingPattern */: case 189 /* ObjectBindingPattern */: return bindingNameText(ts.cast(ts.first(name.elements), ts.isBindingElement).name); default: return ts.Debug.assertNever(name); } } function isImportedDeclaration(node) { return node.kind === 255 /* ImportClause */ || node.kind === 258 /* ImportSpecifier */ || node.kind === 256 /* NamespaceImport */; } function importClauseFromImported(decl) { return decl.kind === 255 /* ImportClause */ ? decl : decl.kind === 256 /* NamespaceImport */ ? decl.parent : decl.parent.parent; } function checkBlock(node) { // Grammar checking for SyntaxKind.Block if (node.kind === 223 /* Block */) { checkGrammarStatementInAmbientContext(node); } if (ts.isFunctionOrModuleBlock(node)) { var saveFlowAnalysisDisabled = flowAnalysisDisabled; ts.forEach(node.statements, checkSourceElement); flowAnalysisDisabled = saveFlowAnalysisDisabled; } else { ts.forEach(node.statements, checkSourceElement); } if (node.locals) { registerForUnusedIdentifiersCheck(node); } } function checkCollisionWithArgumentsInGeneratedCode(node) { // no rest parameters \ declaration context \ overload - no codegen impact if (languageVersion >= 2 /* ES2015 */ || compilerOptions.noEmit || !ts.hasRestParameter(node) || node.flags & 8388608 /* Ambient */ || ts.nodeIsMissing(node.body)) { return; } ts.forEach(node.parameters, function (p) { if (p.name && !ts.isBindingPattern(p.name) && p.name.escapedText === argumentsSymbol.escapedName) { error(p, ts.Diagnostics.Duplicate_identifier_arguments_Compiler_uses_arguments_to_initialize_rest_parameters); } }); } function needCollisionCheckForIdentifier(node, identifier, name) { if (!(identifier && identifier.escapedText === name)) { return false; } if (node.kind === 159 /* PropertyDeclaration */ || node.kind === 158 /* PropertySignature */ || node.kind === 161 /* MethodDeclaration */ || node.kind === 160 /* MethodSignature */ || node.kind === 163 /* GetAccessor */ || node.kind === 164 /* SetAccessor */) { // it is ok to have member named '_super' or '_this' - member access is always qualified return false; } if (node.flags & 8388608 /* Ambient */) { // ambient context - no codegen impact return false; } var root = ts.getRootDeclaration(node); if (root.kind === 156 /* Parameter */ && ts.nodeIsMissing(root.parent.body)) { // just an overload - no codegen impact return false; } return true; } // this function will run after checking the source file so 'CaptureThis' is correct for all nodes function checkIfThisIsCapturedInEnclosingScope(node) { ts.findAncestor(node, function (current) { if (getNodeCheckFlags(current) & 4 /* CaptureThis */) { var isDeclaration_1 = node.kind !== 75 /* Identifier */; if (isDeclaration_1) { error(ts.getNameOfDeclaration(node), ts.Diagnostics.Duplicate_identifier_this_Compiler_uses_variable_declaration_this_to_capture_this_reference); } else { error(node, ts.Diagnostics.Expression_resolves_to_variable_declaration_this_that_compiler_uses_to_capture_this_reference); } return true; } return false; }); } function checkIfNewTargetIsCapturedInEnclosingScope(node) { ts.findAncestor(node, function (current) { if (getNodeCheckFlags(current) & 8 /* CaptureNewTarget */) { var isDeclaration_2 = node.kind !== 75 /* Identifier */; if (isDeclaration_2) { error(ts.getNameOfDeclaration(node), ts.Diagnostics.Duplicate_identifier_newTarget_Compiler_uses_variable_declaration_newTarget_to_capture_new_target_meta_property_reference); } else { error(node, ts.Diagnostics.Expression_resolves_to_variable_declaration_newTarget_that_compiler_uses_to_capture_new_target_meta_property_reference); } return true; } return false; }); } function checkWeakMapCollision(node) { var enclosingBlockScope = ts.getEnclosingBlockScopeContainer(node); if (getNodeCheckFlags(enclosingBlockScope) & 67108864 /* ContainsClassWithPrivateIdentifiers */) { error(node, ts.Diagnostics.Compiler_reserves_name_0_when_emitting_private_identifier_downlevel, "WeakMap"); } } function checkCollisionWithRequireExportsInGeneratedCode(node, name) { // No need to check for require or exports for ES6 modules and later if (moduleKind >= ts.ModuleKind.ES2015 || compilerOptions.noEmit) { return; } if (!needCollisionCheckForIdentifier(node, name, "require") && !needCollisionCheckForIdentifier(node, name, "exports")) { return; } // Uninstantiated modules shouldnt do this check if (ts.isModuleDeclaration(node) && ts.getModuleInstanceState(node) !== 1 /* Instantiated */) { return; } // In case of variable declaration, node.parent is variable statement so look at the variable statement's parent var parent = getDeclarationContainer(node); if (parent.kind === 290 /* SourceFile */ && ts.isExternalOrCommonJsModule(parent)) { // If the declaration happens to be in external module, report error that require and exports are reserved keywords error(name, ts.Diagnostics.Duplicate_identifier_0_Compiler_reserves_name_1_in_top_level_scope_of_a_module, ts.declarationNameToString(name), ts.declarationNameToString(name)); } } function checkCollisionWithGlobalPromiseInGeneratedCode(node, name) { if (languageVersion >= 4 /* ES2017 */ || compilerOptions.noEmit || !needCollisionCheckForIdentifier(node, name, "Promise")) { return; } // Uninstantiated modules shouldnt do this check if (ts.isModuleDeclaration(node) && ts.getModuleInstanceState(node) !== 1 /* Instantiated */) { return; } // In case of variable declaration, node.parent is variable statement so look at the variable statement's parent var parent = getDeclarationContainer(node); if (parent.kind === 290 /* SourceFile */ && ts.isExternalOrCommonJsModule(parent) && parent.flags & 2048 /* HasAsyncFunctions */) { // If the declaration happens to be in external module, report error that Promise is a reserved identifier. error(name, ts.Diagnostics.Duplicate_identifier_0_Compiler_reserves_name_1_in_top_level_scope_of_a_module_containing_async_functions, ts.declarationNameToString(name), ts.declarationNameToString(name)); } } function checkVarDeclaredNamesNotShadowed(node) { // - ScriptBody : StatementList // It is a Syntax Error if any element of the LexicallyDeclaredNames of StatementList // also occurs in the VarDeclaredNames of StatementList. // - Block : { StatementList } // It is a Syntax Error if any element of the LexicallyDeclaredNames of StatementList // also occurs in the VarDeclaredNames of StatementList. // Variable declarations are hoisted to the top of their function scope. They can shadow // block scoped declarations, which bind tighter. this will not be flagged as duplicate definition // by the binder as the declaration scope is different. // A non-initialized declaration is a no-op as the block declaration will resolve before the var // declaration. the problem is if the declaration has an initializer. this will act as a write to the // block declared value. this is fine for let, but not const. // Only consider declarations with initializers, uninitialized const declarations will not // step on a let/const variable. // Do not consider const and const declarations, as duplicate block-scoped declarations // are handled by the binder. // We are only looking for const declarations that step on let\const declarations from a // different scope. e.g.: // { // const x = 0; // localDeclarationSymbol obtained after name resolution will correspond to this declaration // const x = 0; // symbol for this declaration will be 'symbol' // } // skip block-scoped variables and parameters if ((ts.getCombinedNodeFlags(node) & 3 /* BlockScoped */) !== 0 || ts.isParameterDeclaration(node)) { return; } // skip variable declarations that don't have initializers // NOTE: in ES6 spec initializer is required in variable declarations where name is binding pattern // so we'll always treat binding elements as initialized if (node.kind === 242 /* VariableDeclaration */ && !node.initializer) { return; } var symbol = getSymbolOfNode(node); if (symbol.flags & 1 /* FunctionScopedVariable */) { if (!ts.isIdentifier(node.name)) return ts.Debug.fail(); var localDeclarationSymbol = resolveName(node, node.name.escapedText, 3 /* Variable */, /*nodeNotFoundErrorMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false); if (localDeclarationSymbol && localDeclarationSymbol !== symbol && localDeclarationSymbol.flags & 2 /* BlockScopedVariable */) { if (getDeclarationNodeFlagsFromSymbol(localDeclarationSymbol) & 3 /* BlockScoped */) { var varDeclList = ts.getAncestor(localDeclarationSymbol.valueDeclaration, 243 /* VariableDeclarationList */); var container = varDeclList.parent.kind === 225 /* VariableStatement */ && varDeclList.parent.parent ? varDeclList.parent.parent : undefined; // names of block-scoped and function scoped variables can collide only // if block scoped variable is defined in the function\module\source file scope (because of variable hoisting) var namesShareScope = container && (container.kind === 223 /* Block */ && ts.isFunctionLike(container.parent) || container.kind === 250 /* ModuleBlock */ || container.kind === 249 /* ModuleDeclaration */ || container.kind === 290 /* SourceFile */); // here we know that function scoped variable is shadowed by block scoped one // if they are defined in the same scope - binder has already reported redeclaration error // otherwise if variable has an initializer - show error that initialization will fail // since LHS will be block scoped name instead of function scoped if (!namesShareScope) { var name = symbolToString(localDeclarationSymbol); error(node, ts.Diagnostics.Cannot_initialize_outer_scoped_variable_0_in_the_same_scope_as_block_scoped_declaration_1, name, name); } } } } } function convertAutoToAny(type) { return type === autoType ? anyType : type === autoArrayType ? anyArrayType : type; } // Check variable, parameter, or property declaration function checkVariableLikeDeclaration(node) { checkDecorators(node); if (!ts.isBindingElement(node)) { checkSourceElement(node.type); } // JSDoc `function(string, string): string` syntax results in parameters with no name if (!node.name) { return; } // For a computed property, just check the initializer and exit // Do not use hasDynamicName here, because that returns false for well known symbols. // We want to perform checkComputedPropertyName for all computed properties, including // well known symbols. if (node.name.kind === 154 /* ComputedPropertyName */) { checkComputedPropertyName(node.name); if (node.initializer) { checkExpressionCached(node.initializer); } } if (node.kind === 191 /* BindingElement */) { if (node.parent.kind === 189 /* ObjectBindingPattern */ && languageVersion < 99 /* ESNext */) { checkExternalEmitHelpers(node, 4 /* Rest */); } // check computed properties inside property names of binding elements if (node.propertyName && node.propertyName.kind === 154 /* ComputedPropertyName */) { checkComputedPropertyName(node.propertyName); } // check private/protected variable access var parent = node.parent.parent; var parentType = getTypeForBindingElementParent(parent); var name = node.propertyName || node.name; if (parentType && !ts.isBindingPattern(name)) { var exprType = getLiteralTypeFromPropertyName(name); if (isTypeUsableAsPropertyName(exprType)) { var nameText = getPropertyNameFromType(exprType); var property = getPropertyOfType(parentType, nameText); if (property) { markPropertyAsReferenced(property, /*nodeForCheckWriteOnly*/ undefined, /*isThisAccess*/ false); // A destructuring is never a write-only reference. checkPropertyAccessibility(parent, !!parent.initializer && parent.initializer.kind === 102 /* SuperKeyword */, parentType, property); } } } } // For a binding pattern, check contained binding elements if (ts.isBindingPattern(node.name)) { if (node.name.kind === 190 /* ArrayBindingPattern */ && languageVersion < 2 /* ES2015 */ && compilerOptions.downlevelIteration) { checkExternalEmitHelpers(node, 512 /* Read */); } ts.forEach(node.name.elements, checkSourceElement); } // For a parameter declaration with an initializer, error and exit if the containing function doesn't have a body if (node.initializer && ts.getRootDeclaration(node).kind === 156 /* Parameter */ && ts.nodeIsMissing(ts.getContainingFunction(node).body)) { error(node, ts.Diagnostics.A_parameter_initializer_is_only_allowed_in_a_function_or_constructor_implementation); return; } // For a binding pattern, validate the initializer and exit if (ts.isBindingPattern(node.name)) { var needCheckInitializer = node.initializer && node.parent.parent.kind !== 231 /* ForInStatement */; var needCheckWidenedType = node.name.elements.length === 0; if (needCheckInitializer || needCheckWidenedType) { // Don't validate for-in initializer as it is already an error var widenedType = getWidenedTypeForVariableLikeDeclaration(node); if (needCheckInitializer) { var initializerType = checkExpressionCached(node.initializer); if (strictNullChecks && needCheckWidenedType) { checkNonNullNonVoidType(initializerType, node); } else { checkTypeAssignableToAndOptionallyElaborate(initializerType, getWidenedTypeForVariableLikeDeclaration(node), node, node.initializer); } } // check the binding pattern with empty elements if (needCheckWidenedType) { if (ts.isArrayBindingPattern(node.name)) { checkIteratedTypeOrElementType(65 /* Destructuring */, widenedType, undefinedType, node); } else if (strictNullChecks) { checkNonNullNonVoidType(widenedType, node); } } } return; } var symbol = getSymbolOfNode(node); var type = convertAutoToAny(getTypeOfSymbol(symbol)); if (node === symbol.valueDeclaration) { // Node is the primary declaration of the symbol, just validate the initializer // Don't validate for-in initializer as it is already an error var initializer = ts.getEffectiveInitializer(node); if (initializer) { var isJSObjectLiteralInitializer = ts.isInJSFile(node) && ts.isObjectLiteralExpression(initializer) && (initializer.properties.length === 0 || ts.isPrototypeAccess(node.name)) && ts.hasEntries(symbol.exports); if (!isJSObjectLiteralInitializer && node.parent.parent.kind !== 231 /* ForInStatement */) { checkTypeAssignableToAndOptionallyElaborate(checkExpressionCached(initializer), type, node, initializer, /*headMessage*/ undefined); } } if (symbol.declarations.length > 1) { if (ts.some(symbol.declarations, function (d) { return d !== node && ts.isVariableLike(d) && !areDeclarationFlagsIdentical(d, node); })) { error(node.name, ts.Diagnostics.All_declarations_of_0_must_have_identical_modifiers, ts.declarationNameToString(node.name)); } } } else { // Node is a secondary declaration, check that type is identical to primary declaration and check that // initializer is consistent with type associated with the node var declarationType = convertAutoToAny(getWidenedTypeForVariableLikeDeclaration(node)); if (type !== errorType && declarationType !== errorType && !isTypeIdenticalTo(type, declarationType) && !(symbol.flags & 67108864 /* Assignment */)) { errorNextVariableOrPropertyDeclarationMustHaveSameType(symbol.valueDeclaration, type, node, declarationType); } if (node.initializer) { checkTypeAssignableToAndOptionallyElaborate(checkExpressionCached(node.initializer), declarationType, node, node.initializer, /*headMessage*/ undefined); } if (!areDeclarationFlagsIdentical(node, symbol.valueDeclaration)) { error(node.name, ts.Diagnostics.All_declarations_of_0_must_have_identical_modifiers, ts.declarationNameToString(node.name)); } } if (node.kind !== 159 /* PropertyDeclaration */ && node.kind !== 158 /* PropertySignature */) { // We know we don't have a binding pattern or computed name here checkExportsOnMergedDeclarations(node); if (node.kind === 242 /* VariableDeclaration */ || node.kind === 191 /* BindingElement */) { checkVarDeclaredNamesNotShadowed(node); } checkCollisionWithRequireExportsInGeneratedCode(node, node.name); checkCollisionWithGlobalPromiseInGeneratedCode(node, node.name); if (!compilerOptions.noEmit && languageVersion < 99 /* ESNext */ && needCollisionCheckForIdentifier(node, node.name, "WeakMap")) { potentialWeakMapCollisions.push(node); } } } function errorNextVariableOrPropertyDeclarationMustHaveSameType(firstDeclaration, firstType, nextDeclaration, nextType) { var nextDeclarationName = ts.getNameOfDeclaration(nextDeclaration); var message = nextDeclaration.kind === 159 /* PropertyDeclaration */ || nextDeclaration.kind === 158 /* PropertySignature */ ? ts.Diagnostics.Subsequent_property_declarations_must_have_the_same_type_Property_0_must_be_of_type_1_but_here_has_type_2 : ts.Diagnostics.Subsequent_variable_declarations_must_have_the_same_type_Variable_0_must_be_of_type_1_but_here_has_type_2; var declName = ts.declarationNameToString(nextDeclarationName); var err = error(nextDeclarationName, message, declName, typeToString(firstType), typeToString(nextType)); if (firstDeclaration) { ts.addRelatedInfo(err, ts.createDiagnosticForNode(firstDeclaration, ts.Diagnostics._0_was_also_declared_here, declName)); } } function areDeclarationFlagsIdentical(left, right) { if ((left.kind === 156 /* Parameter */ && right.kind === 242 /* VariableDeclaration */) || (left.kind === 242 /* VariableDeclaration */ && right.kind === 156 /* Parameter */)) { // Differences in optionality between parameters and variables are allowed. return true; } if (ts.hasQuestionToken(left) !== ts.hasQuestionToken(right)) { return false; } var interestingFlags = 8 /* Private */ | 16 /* Protected */ | 256 /* Async */ | 128 /* Abstract */ | 64 /* Readonly */ | 32 /* Static */; return ts.getSelectedModifierFlags(left, interestingFlags) === ts.getSelectedModifierFlags(right, interestingFlags); } function checkVariableDeclaration(node) { checkGrammarVariableDeclaration(node); return checkVariableLikeDeclaration(node); } function checkBindingElement(node) { checkGrammarBindingElement(node); return checkVariableLikeDeclaration(node); } function checkVariableStatement(node) { // Grammar checking if (!checkGrammarDecoratorsAndModifiers(node) && !checkGrammarVariableDeclarationList(node.declarationList)) checkGrammarForDisallowedLetOrConstStatement(node); ts.forEach(node.declarationList.declarations, checkSourceElement); } function checkExpressionStatement(node) { // Grammar checking checkGrammarStatementInAmbientContext(node); checkExpression(node.expression); } function checkIfStatement(node) { // Grammar checking checkGrammarStatementInAmbientContext(node); var type = checkTruthinessExpression(node.expression); checkTestingKnownTruthyCallableType(node.expression, node.thenStatement, type); checkSourceElement(node.thenStatement); if (node.thenStatement.kind === 224 /* EmptyStatement */) { error(node.thenStatement, ts.Diagnostics.The_body_of_an_if_statement_cannot_be_the_empty_statement); } checkSourceElement(node.elseStatement); } function checkTestingKnownTruthyCallableType(condExpr, body, type) { if (!strictNullChecks) { return; } var testedNode = ts.isIdentifier(condExpr) ? condExpr : ts.isPropertyAccessExpression(condExpr) ? condExpr.name : undefined; if (!testedNode) { return; } var possiblyFalsy = getFalsyFlags(type); if (possiblyFalsy) { return; } // While it technically should be invalid for any known-truthy value // to be tested, we de-scope to functions unrefenced in the block as a // heuristic to identify the most common bugs. There are too many // false positives for values sourced from type definitions without // strictNullChecks otherwise. var callSignatures = getSignaturesOfType(type, 0 /* Call */); if (callSignatures.length === 0) { return; } var testedFunctionSymbol = getSymbolAtLocation(testedNode); if (!testedFunctionSymbol) { return; } var functionIsUsedInBody = ts.forEachChild(body, function check(childNode) { if (ts.isIdentifier(childNode)) { var childSymbol = getSymbolAtLocation(childNode); if (childSymbol && childSymbol === testedFunctionSymbol) { // If the test was a simple identifier, the above check is sufficient if (ts.isIdentifier(condExpr)) { return true; } // Otherwise we need to ensure the symbol is called on the same target var testedExpression = testedNode.parent; var childExpression = childNode.parent; while (testedExpression && childExpression) { if (ts.isIdentifier(testedExpression) && ts.isIdentifier(childExpression) || testedExpression.kind === 104 /* ThisKeyword */ && childExpression.kind === 104 /* ThisKeyword */) { return getSymbolAtLocation(testedExpression) === getSymbolAtLocation(childExpression); } if (ts.isPropertyAccessExpression(testedExpression) && ts.isPropertyAccessExpression(childExpression)) { if (getSymbolAtLocation(testedExpression.name) !== getSymbolAtLocation(childExpression.name)) { return false; } childExpression = childExpression.expression; testedExpression = testedExpression.expression; } else { return false; } } } } return ts.forEachChild(childNode, check); }); if (!functionIsUsedInBody) { error(condExpr, ts.Diagnostics.This_condition_will_always_return_true_since_the_function_is_always_defined_Did_you_mean_to_call_it_instead); } } function checkDoStatement(node) { // Grammar checking checkGrammarStatementInAmbientContext(node); checkSourceElement(node.statement); checkTruthinessExpression(node.expression); } function checkWhileStatement(node) { // Grammar checking checkGrammarStatementInAmbientContext(node); checkTruthinessExpression(node.expression); checkSourceElement(node.statement); } function checkTruthinessOfType(type, node) { if (type.flags & 16384 /* Void */) { error(node, ts.Diagnostics.An_expression_of_type_void_cannot_be_tested_for_truthiness); } return type; } function checkTruthinessExpression(node, checkMode) { return checkTruthinessOfType(checkExpression(node, checkMode), node); } function checkForStatement(node) { // Grammar checking if (!checkGrammarStatementInAmbientContext(node)) { if (node.initializer && node.initializer.kind === 243 /* VariableDeclarationList */) { checkGrammarVariableDeclarationList(node.initializer); } } if (node.initializer) { if (node.initializer.kind === 243 /* VariableDeclarationList */) { ts.forEach(node.initializer.declarations, checkVariableDeclaration); } else { checkExpression(node.initializer); } } if (node.condition) checkTruthinessExpression(node.condition); if (node.incrementor) checkExpression(node.incrementor); checkSourceElement(node.statement); if (node.locals) { registerForUnusedIdentifiersCheck(node); } } function checkForOfStatement(node) { checkGrammarForInOrForOfStatement(node); if (node.awaitModifier) { var functionFlags = ts.getFunctionFlags(ts.getContainingFunction(node)); if ((functionFlags & (4 /* Invalid */ | 2 /* Async */)) === 2 /* Async */ && languageVersion < 99 /* ESNext */) { // for..await..of in an async function or async generator function prior to ESNext requires the __asyncValues helper checkExternalEmitHelpers(node, 32768 /* ForAwaitOfIncludes */); } } else if (compilerOptions.downlevelIteration && languageVersion < 2 /* ES2015 */) { // for..of prior to ES2015 requires the __values helper when downlevelIteration is enabled checkExternalEmitHelpers(node, 256 /* ForOfIncludes */); } // Check the LHS and RHS // If the LHS is a declaration, just check it as a variable declaration, which will in turn check the RHS // via checkRightHandSideOfForOf. // If the LHS is an expression, check the LHS, as a destructuring assignment or as a reference. // Then check that the RHS is assignable to it. if (node.initializer.kind === 243 /* VariableDeclarationList */) { checkForInOrForOfVariableDeclaration(node); } else { var varExpr = node.initializer; var iteratedType = checkRightHandSideOfForOf(node); // There may be a destructuring assignment on the left side if (varExpr.kind === 192 /* ArrayLiteralExpression */ || varExpr.kind === 193 /* ObjectLiteralExpression */) { // iteratedType may be undefined. In this case, we still want to check the structure of // varExpr, in particular making sure it's a valid LeftHandSideExpression. But we'd like // to short circuit the type relation checking as much as possible, so we pass the unknownType. checkDestructuringAssignment(varExpr, iteratedType || errorType); } else { var leftType = checkExpression(varExpr); checkReferenceExpression(varExpr, ts.Diagnostics.The_left_hand_side_of_a_for_of_statement_must_be_a_variable_or_a_property_access, ts.Diagnostics.The_left_hand_side_of_a_for_of_statement_may_not_be_an_optional_property_access); // iteratedType will be undefined if the rightType was missing properties/signatures // required to get its iteratedType (like [Symbol.iterator] or next). This may be // because we accessed properties from anyType, or it may have led to an error inside // getElementTypeOfIterable. if (iteratedType) { checkTypeAssignableToAndOptionallyElaborate(iteratedType, leftType, varExpr, node.expression); } } } checkSourceElement(node.statement); if (node.locals) { registerForUnusedIdentifiersCheck(node); } } function checkForInStatement(node) { // Grammar checking checkGrammarForInOrForOfStatement(node); var rightType = getNonNullableTypeIfNeeded(checkExpression(node.expression)); // TypeScript 1.0 spec (April 2014): 5.4 // In a 'for-in' statement of the form // for (let VarDecl in Expr) Statement // VarDecl must be a variable declaration without a type annotation that declares a variable of type Any, // and Expr must be an expression of type Any, an object type, or a type parameter type. if (node.initializer.kind === 243 /* VariableDeclarationList */) { var variable = node.initializer.declarations[0]; if (variable && ts.isBindingPattern(variable.name)) { error(variable.name, ts.Diagnostics.The_left_hand_side_of_a_for_in_statement_cannot_be_a_destructuring_pattern); } checkForInOrForOfVariableDeclaration(node); } else { // In a 'for-in' statement of the form // for (Var in Expr) Statement // Var must be an expression classified as a reference of type Any or the String primitive type, // and Expr must be an expression of type Any, an object type, or a type parameter type. var varExpr = node.initializer; var leftType = checkExpression(varExpr); if (varExpr.kind === 192 /* ArrayLiteralExpression */ || varExpr.kind === 193 /* ObjectLiteralExpression */) { error(varExpr, ts.Diagnostics.The_left_hand_side_of_a_for_in_statement_cannot_be_a_destructuring_pattern); } else if (!isTypeAssignableTo(getIndexTypeOrString(rightType), leftType)) { error(varExpr, ts.Diagnostics.The_left_hand_side_of_a_for_in_statement_must_be_of_type_string_or_any); } else { // run check only former check succeeded to avoid cascading errors checkReferenceExpression(varExpr, ts.Diagnostics.The_left_hand_side_of_a_for_in_statement_must_be_a_variable_or_a_property_access, ts.Diagnostics.The_left_hand_side_of_a_for_in_statement_may_not_be_an_optional_property_access); } } // unknownType is returned i.e. if node.expression is identifier whose name cannot be resolved // in this case error about missing name is already reported - do not report extra one if (rightType === neverType || !isTypeAssignableToKind(rightType, 67108864 /* NonPrimitive */ | 58982400 /* InstantiableNonPrimitive */)) { error(node.expression, ts.Diagnostics.The_right_hand_side_of_a_for_in_statement_must_be_of_type_any_an_object_type_or_a_type_parameter_but_here_has_type_0, typeToString(rightType)); } checkSourceElement(node.statement); if (node.locals) { registerForUnusedIdentifiersCheck(node); } } function checkForInOrForOfVariableDeclaration(iterationStatement) { var variableDeclarationList = iterationStatement.initializer; // checkGrammarForInOrForOfStatement will check that there is exactly one declaration. if (variableDeclarationList.declarations.length >= 1) { var decl = variableDeclarationList.declarations[0]; checkVariableDeclaration(decl); } } function checkRightHandSideOfForOf(statement) { var use = statement.awaitModifier ? 15 /* ForAwaitOf */ : 13 /* ForOf */; return checkIteratedTypeOrElementType(use, checkNonNullExpression(statement.expression), undefinedType, statement.expression); } function checkIteratedTypeOrElementType(use, inputType, sentType, errorNode) { if (isTypeAny(inputType)) { return inputType; } return getIteratedTypeOrElementType(use, inputType, sentType, errorNode, /*checkAssignability*/ true) || anyType; } /** * When consuming an iterable type in a for..of, spread, or iterator destructuring assignment * we want to get the iterated type of an iterable for ES2015 or later, or the iterated type * of a iterable (if defined globally) or element type of an array like for ES2015 or earlier. */ function getIteratedTypeOrElementType(use, inputType, sentType, errorNode, checkAssignability) { var allowAsyncIterables = (use & 2 /* AllowsAsyncIterablesFlag */) !== 0; if (inputType === neverType) { reportTypeNotIterableError(errorNode, inputType, allowAsyncIterables); // TODO: GH#18217 return undefined; } var uplevelIteration = languageVersion >= 2 /* ES2015 */; var downlevelIteration = !uplevelIteration && compilerOptions.downlevelIteration; // Get the iterated type of an `Iterable` or `IterableIterator` only in ES2015 // or higher, when inside of an async generator or for-await-if, or when // downlevelIteration is requested. if (uplevelIteration || downlevelIteration || allowAsyncIterables) { // We only report errors for an invalid iterable type in ES2015 or higher. var iterationTypes = getIterationTypesOfIterable(inputType, use, uplevelIteration ? errorNode : undefined); if (checkAssignability) { if (iterationTypes) { var diagnostic = use & 8 /* ForOfFlag */ ? ts.Diagnostics.Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_for_of_will_always_send_0 : use & 32 /* SpreadFlag */ ? ts.Diagnostics.Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_array_spread_will_always_send_0 : use & 64 /* DestructuringFlag */ ? ts.Diagnostics.Cannot_iterate_value_because_the_next_method_of_its_iterator_expects_type_1_but_array_destructuring_will_always_send_0 : use & 16 /* YieldStarFlag */ ? ts.Diagnostics.Cannot_delegate_iteration_to_value_because_the_next_method_of_its_iterator_expects_type_1_but_the_containing_generator_will_always_send_0 : undefined; if (diagnostic) { checkTypeAssignableTo(sentType, iterationTypes.nextType, errorNode, diagnostic); } } } if (iterationTypes || uplevelIteration) { return iterationTypes && iterationTypes.yieldType; } } var arrayType = inputType; var reportedError = false; var hasStringConstituent = false; // If strings are permitted, remove any string-like constituents from the array type. // This allows us to find other non-string element types from an array unioned with // a string. if (use & 4 /* AllowsStringInputFlag */) { if (arrayType.flags & 1048576 /* Union */) { // After we remove all types that are StringLike, we will know if there was a string constituent // based on whether the result of filter is a new array. var arrayTypes = inputType.types; var filteredTypes = ts.filter(arrayTypes, function (t) { return !(t.flags & 132 /* StringLike */); }); if (filteredTypes !== arrayTypes) { arrayType = getUnionType(filteredTypes, 2 /* Subtype */); } } else if (arrayType.flags & 132 /* StringLike */) { arrayType = neverType; } hasStringConstituent = arrayType !== inputType; if (hasStringConstituent) { if (languageVersion < 1 /* ES5 */) { if (errorNode) { error(errorNode, ts.Diagnostics.Using_a_string_in_a_for_of_statement_is_only_supported_in_ECMAScript_5_and_higher); reportedError = true; } } // Now that we've removed all the StringLike types, if no constituents remain, then the entire // arrayOrStringType was a string. if (arrayType.flags & 131072 /* Never */) { return stringType; } } } if (!isArrayLikeType(arrayType)) { if (errorNode && !reportedError) { // Which error we report depends on whether we allow strings or if there was a // string constituent. For example, if the input type is number | string, we // want to say that number is not an array type. But if the input was just // number and string input is allowed, we want to say that number is not an // array type or a string type. var yieldType = getIterationTypeOfIterable(use, 0 /* Yield */, inputType, /*errorNode*/ undefined); var _a = !(use & 4 /* AllowsStringInputFlag */) || hasStringConstituent ? downlevelIteration ? [ts.Diagnostics.Type_0_is_not_an_array_type_or_does_not_have_a_Symbol_iterator_method_that_returns_an_iterator, true] : yieldType ? [ts.Diagnostics.Type_0_is_not_an_array_type_or_a_string_type_Use_compiler_option_downlevelIteration_to_allow_iterating_of_iterators, false] : [ts.Diagnostics.Type_0_is_not_an_array_type, true] : downlevelIteration ? [ts.Diagnostics.Type_0_is_not_an_array_type_or_a_string_type_or_does_not_have_a_Symbol_iterator_method_that_returns_an_iterator, true] : yieldType ? [ts.Diagnostics.Type_0_is_not_an_array_type_or_a_string_type_Use_compiler_option_downlevelIteration_to_allow_iterating_of_iterators, false] : [ts.Diagnostics.Type_0_is_not_an_array_type_or_a_string_type, true], defaultDiagnostic = _a[0], maybeMissingAwait = _a[1]; errorAndMaybeSuggestAwait(errorNode, maybeMissingAwait && !!getAwaitedTypeOfPromise(arrayType), defaultDiagnostic, typeToString(arrayType)); } return hasStringConstituent ? stringType : undefined; } var arrayElementType = getIndexTypeOfType(arrayType, 1 /* Number */); if (hasStringConstituent && arrayElementType) { // This is just an optimization for the case where arrayOrStringType is string | string[] if (arrayElementType.flags & 132 /* StringLike */) { return stringType; } return getUnionType([arrayElementType, stringType], 2 /* Subtype */); } return arrayElementType; } /** * Gets the requested "iteration type" from an `Iterable`-like or `AsyncIterable`-like type. */ function getIterationTypeOfIterable(use, typeKind, inputType, errorNode) { if (isTypeAny(inputType)) { return undefined; } var iterationTypes = getIterationTypesOfIterable(inputType, use, errorNode); return iterationTypes && iterationTypes[getIterationTypesKeyFromIterationTypeKind(typeKind)]; } function createIterationTypes(yieldType, returnType, nextType) { // `yieldType` and `returnType` are defaulted to `neverType` they each will be combined // via `getUnionType` when merging iteration types. `nextType` is defined as `unknownType` // as it is combined via `getIntersectionType` when merging iteration types. if (yieldType === void 0) { yieldType = neverType; } if (returnType === void 0) { returnType = neverType; } if (nextType === void 0) { nextType = unknownType; } // Use the cache only for intrinsic types to keep it small as they are likely to be // more frequently created (i.e. `Iterator`). Iteration types // are also cached on the type they are requested for, so we shouldn't need to maintain // the cache for less-frequently used types. if (yieldType.flags & 67359327 /* Intrinsic */ && returnType.flags & (1 /* Any */ | 131072 /* Never */ | 2 /* Unknown */ | 16384 /* Void */ | 32768 /* Undefined */) && nextType.flags & (1 /* Any */ | 131072 /* Never */ | 2 /* Unknown */ | 16384 /* Void */ | 32768 /* Undefined */)) { var id = getTypeListId([yieldType, returnType, nextType]); var iterationTypes = iterationTypesCache.get(id); if (!iterationTypes) { iterationTypes = { yieldType: yieldType, returnType: returnType, nextType: nextType }; iterationTypesCache.set(id, iterationTypes); } return iterationTypes; } return { yieldType: yieldType, returnType: returnType, nextType: nextType }; } /** * Combines multiple `IterationTypes` records. * * If `array` is empty or all elements are missing or are references to `noIterationTypes`, * then `noIterationTypes` is returned. Otherwise, an `IterationTypes` record is returned * for the combined iteration types. */ function combineIterationTypes(array) { var yieldTypes; var returnTypes; var nextTypes; for (var _i = 0, array_10 = array; _i < array_10.length; _i++) { var iterationTypes = array_10[_i]; if (iterationTypes === undefined || iterationTypes === noIterationTypes) { continue; } if (iterationTypes === anyIterationTypes) { return anyIterationTypes; } yieldTypes = ts.append(yieldTypes, iterationTypes.yieldType); returnTypes = ts.append(returnTypes, iterationTypes.returnType); nextTypes = ts.append(nextTypes, iterationTypes.nextType); } if (yieldTypes || returnTypes || nextTypes) { return createIterationTypes(yieldTypes && getUnionType(yieldTypes), returnTypes && getUnionType(returnTypes), nextTypes && getIntersectionType(nextTypes)); } return noIterationTypes; } function getCachedIterationTypes(type, cacheKey) { return type[cacheKey]; } function setCachedIterationTypes(type, cacheKey, cachedTypes) { return type[cacheKey] = cachedTypes; } /** * Gets the *yield*, *return*, and *next* types from an `Iterable`-like or `AsyncIterable`-like type. * * At every level that involves analyzing return types of signatures, we union the return types of all the signatures. * * Another thing to note is that at any step of this process, we could run into a dead end, * meaning either the property is missing, or we run into the anyType. If either of these things * happens, we return `undefined` to signal that we could not find the iteration type. If a property * is missing, and the previous step did not result in `any`, then we also give an error if the * caller requested it. Then the caller can decide what to do in the case where there is no iterated * type. * * For a **for-of** statement, `yield*` (in a normal generator), spread, array * destructuring, or normal generator we will only ever look for a `[Symbol.iterator]()` * method. * * For an async generator we will only ever look at the `[Symbol.asyncIterator]()` method. * * For a **for-await-of** statement or a `yield*` in an async generator we will look for * the `[Symbol.asyncIterator]()` method first, and then the `[Symbol.iterator]()` method. */ function getIterationTypesOfIterable(type, use, errorNode) { if (isTypeAny(type)) { return anyIterationTypes; } if (!(type.flags & 1048576 /* Union */)) { var iterationTypes_1 = getIterationTypesOfIterableWorker(type, use, errorNode); if (iterationTypes_1 === noIterationTypes) { if (errorNode) { reportTypeNotIterableError(errorNode, type, !!(use & 2 /* AllowsAsyncIterablesFlag */)); } return undefined; } return iterationTypes_1; } var cacheKey = use & 2 /* AllowsAsyncIterablesFlag */ ? "iterationTypesOfAsyncIterable" : "iterationTypesOfIterable"; var cachedTypes = getCachedIterationTypes(type, cacheKey); if (cachedTypes) return cachedTypes === noIterationTypes ? undefined : cachedTypes; var allIterationTypes; for (var _i = 0, _a = type.types; _i < _a.length; _i++) { var constituent = _a[_i]; var iterationTypes_2 = getIterationTypesOfIterableWorker(constituent, use, errorNode); if (iterationTypes_2 === noIterationTypes) { if (errorNode) { reportTypeNotIterableError(errorNode, type, !!(use & 2 /* AllowsAsyncIterablesFlag */)); errorNode = undefined; } } else { allIterationTypes = ts.append(allIterationTypes, iterationTypes_2); } } var iterationTypes = allIterationTypes ? combineIterationTypes(allIterationTypes) : noIterationTypes; setCachedIterationTypes(type, cacheKey, iterationTypes); return iterationTypes === noIterationTypes ? undefined : iterationTypes; } function getAsyncFromSyncIterationTypes(iterationTypes, errorNode) { if (iterationTypes === noIterationTypes) return noIterationTypes; if (iterationTypes === anyIterationTypes) return anyIterationTypes; var yieldType = iterationTypes.yieldType, returnType = iterationTypes.returnType, nextType = iterationTypes.nextType; return createIterationTypes(getAwaitedType(yieldType, errorNode) || anyType, getAwaitedType(returnType, errorNode) || anyType, nextType); } /** * Gets the *yield*, *return*, and *next* types from a non-union type. * * If we are unable to find the *yield*, *return*, and *next* types, `noIterationTypes` is * returned to indicate to the caller that it should report an error. Otherwise, an * `IterationTypes` record is returned. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterable` instead. */ function getIterationTypesOfIterableWorker(type, use, errorNode) { if (isTypeAny(type)) { return anyIterationTypes; } if (use & 2 /* AllowsAsyncIterablesFlag */) { var iterationTypes = getIterationTypesOfIterableCached(type, asyncIterationTypesResolver) || getIterationTypesOfIterableFast(type, asyncIterationTypesResolver); if (iterationTypes) { return iterationTypes; } } if (use & 1 /* AllowsSyncIterablesFlag */) { var iterationTypes = getIterationTypesOfIterableCached(type, syncIterationTypesResolver) || getIterationTypesOfIterableFast(type, syncIterationTypesResolver); if (iterationTypes) { if (use & 2 /* AllowsAsyncIterablesFlag */) { // for a sync iterable in an async context, only use the cached types if they are valid. if (iterationTypes !== noIterationTypes) { return setCachedIterationTypes(type, "iterationTypesOfAsyncIterable", getAsyncFromSyncIterationTypes(iterationTypes, errorNode)); } } else { return iterationTypes; } } } if (use & 2 /* AllowsAsyncIterablesFlag */) { var iterationTypes = getIterationTypesOfIterableSlow(type, asyncIterationTypesResolver, errorNode); if (iterationTypes !== noIterationTypes) { return iterationTypes; } } if (use & 1 /* AllowsSyncIterablesFlag */) { var iterationTypes = getIterationTypesOfIterableSlow(type, syncIterationTypesResolver, errorNode); if (iterationTypes !== noIterationTypes) { if (use & 2 /* AllowsAsyncIterablesFlag */) { return setCachedIterationTypes(type, "iterationTypesOfAsyncIterable", iterationTypes ? getAsyncFromSyncIterationTypes(iterationTypes, errorNode) : noIterationTypes); } else { return iterationTypes; } } } return noIterationTypes; } /** * Gets the *yield*, *return*, and *next* types of an `Iterable`-like or * `AsyncIterable`-like type from the cache. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterable` instead. */ function getIterationTypesOfIterableCached(type, resolver) { return getCachedIterationTypes(type, resolver.iterableCacheKey); } function getIterationTypesOfGlobalIterableType(globalType, resolver) { var globalIterationTypes = getIterationTypesOfIterableCached(globalType, resolver) || getIterationTypesOfIterableSlow(globalType, resolver, /*errorNode*/ undefined); return globalIterationTypes === noIterationTypes ? defaultIterationTypes : globalIterationTypes; } /** * Gets the *yield*, *return*, and *next* types of an `Iterable`-like or `AsyncIterable`-like * type from from common heuristics. * * If we previously analyzed this type and found no iteration types, `noIterationTypes` is * returned. If we found iteration types, an `IterationTypes` record is returned. * Otherwise, we return `undefined` to indicate to the caller it should perform a more * exhaustive analysis. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterable` instead. */ function getIterationTypesOfIterableFast(type, resolver) { // As an optimization, if the type is an instantiation of one of the following global types, then // just grab its related type argument: // - `Iterable` or `AsyncIterable` // - `IterableIterator` or `AsyncIterableIterator` var globalType; if (isReferenceToType(type, globalType = resolver.getGlobalIterableType(/*reportErrors*/ false)) || isReferenceToType(type, globalType = resolver.getGlobalIterableIteratorType(/*reportErrors*/ false))) { var yieldType = getTypeArguments(type)[0]; // The "return" and "next" types of `Iterable` and `IterableIterator` are defined by the // iteration types of their `[Symbol.iterator]()` method. The same is true for their async cousins. // While we define these as `any` and `undefined` in our libs by default, a custom lib *could* use // different definitions. var _a = getIterationTypesOfGlobalIterableType(globalType, resolver), returnType = _a.returnType, nextType = _a.nextType; return setCachedIterationTypes(type, resolver.iterableCacheKey, createIterationTypes(yieldType, returnType, nextType)); } // As an optimization, if the type is an instantiation of the following global type, then // just grab its related type arguments: // - `Generator` or `AsyncGenerator` if (isReferenceToType(type, resolver.getGlobalGeneratorType(/*reportErrors*/ false))) { var _b = getTypeArguments(type), yieldType = _b[0], returnType = _b[1], nextType = _b[2]; return setCachedIterationTypes(type, resolver.iterableCacheKey, createIterationTypes(yieldType, returnType, nextType)); } } /** * Gets the *yield*, *return*, and *next* types of an `Iterable`-like or `AsyncIterable`-like * type from its members. * * If we successfully found the *yield*, *return*, and *next* types, an `IterationTypes` * record is returned. Otherwise, `noIterationTypes` is returned. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterable` instead. */ function getIterationTypesOfIterableSlow(type, resolver, errorNode) { var _a; var method = getPropertyOfType(type, ts.getPropertyNameForKnownSymbolName(resolver.iteratorSymbolName)); var methodType = method && !(method.flags & 16777216 /* Optional */) ? getTypeOfSymbol(method) : undefined; if (isTypeAny(methodType)) { return setCachedIterationTypes(type, resolver.iterableCacheKey, anyIterationTypes); } var signatures = methodType ? getSignaturesOfType(methodType, 0 /* Call */) : undefined; if (!ts.some(signatures)) { return setCachedIterationTypes(type, resolver.iterableCacheKey, noIterationTypes); } var iteratorType = getUnionType(ts.map(signatures, getReturnTypeOfSignature), 2 /* Subtype */); var iterationTypes = (_a = getIterationTypesOfIterator(iteratorType, resolver, errorNode)) !== null && _a !== void 0 ? _a : noIterationTypes; return setCachedIterationTypes(type, resolver.iterableCacheKey, iterationTypes); } function reportTypeNotIterableError(errorNode, type, allowAsyncIterables) { var message = allowAsyncIterables ? ts.Diagnostics.Type_0_must_have_a_Symbol_asyncIterator_method_that_returns_an_async_iterator : ts.Diagnostics.Type_0_must_have_a_Symbol_iterator_method_that_returns_an_iterator; errorAndMaybeSuggestAwait(errorNode, !!getAwaitedTypeOfPromise(type), message, typeToString(type)); } /** * Gets the *yield*, *return*, and *next* types from an `Iterator`-like or `AsyncIterator`-like type. * * If we successfully found the *yield*, *return*, and *next* types, an `IterationTypes` * record is returned. Otherwise, `undefined` is returned. */ function getIterationTypesOfIterator(type, resolver, errorNode) { if (isTypeAny(type)) { return anyIterationTypes; } var iterationTypes = getIterationTypesOfIteratorCached(type, resolver) || getIterationTypesOfIteratorFast(type, resolver) || getIterationTypesOfIteratorSlow(type, resolver, errorNode); return iterationTypes === noIterationTypes ? undefined : iterationTypes; } /** * Gets the iteration types of an `Iterator`-like or `AsyncIterator`-like type from the * cache. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterator` instead. */ function getIterationTypesOfIteratorCached(type, resolver) { return getCachedIterationTypes(type, resolver.iteratorCacheKey); } /** * Gets the iteration types of an `Iterator`-like or `AsyncIterator`-like type from the * cache or from common heuristics. * * If we previously analyzed this type and found no iteration types, `noIterationTypes` is * returned. If we found iteration types, an `IterationTypes` record is returned. * Otherwise, we return `undefined` to indicate to the caller it should perform a more * exhaustive analysis. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterator` instead. */ function getIterationTypesOfIteratorFast(type, resolver) { // As an optimization, if the type is an instantiation of one of the following global types, // then just grab its related type argument: // - `IterableIterator` or `AsyncIterableIterator` // - `Iterator` or `AsyncIterator` // - `Generator` or `AsyncGenerator` var globalType = resolver.getGlobalIterableIteratorType(/*reportErrors*/ false); if (isReferenceToType(type, globalType)) { var yieldType = getTypeArguments(type)[0]; // The "return" and "next" types of `IterableIterator` and `AsyncIterableIterator` are defined by the // iteration types of their `next`, `return`, and `throw` methods. While we define these as `any` // and `undefined` in our libs by default, a custom lib *could* use different definitions. var globalIterationTypes = getIterationTypesOfIteratorCached(globalType, resolver) || getIterationTypesOfIteratorSlow(globalType, resolver, /*errorNode*/ undefined); var _a = globalIterationTypes === noIterationTypes ? defaultIterationTypes : globalIterationTypes, returnType = _a.returnType, nextType = _a.nextType; return setCachedIterationTypes(type, resolver.iteratorCacheKey, createIterationTypes(yieldType, returnType, nextType)); } if (isReferenceToType(type, resolver.getGlobalIteratorType(/*reportErrors*/ false)) || isReferenceToType(type, resolver.getGlobalGeneratorType(/*reportErrors*/ false))) { var _b = getTypeArguments(type), yieldType = _b[0], returnType = _b[1], nextType = _b[2]; return setCachedIterationTypes(type, resolver.iteratorCacheKey, createIterationTypes(yieldType, returnType, nextType)); } } function isIteratorResult(type, kind) { // From https://tc39.github.io/ecma262/#sec-iteratorresult-interface: // > [done] is the result status of an iterator `next` method call. If the end of the iterator was reached `done` is `true`. // > If the end was not reached `done` is `false` and a value is available. // > If a `done` property (either own or inherited) does not exist, it is consider to have the value `false`. var doneType = getTypeOfPropertyOfType(type, "done") || falseType; return isTypeAssignableTo(kind === 0 /* Yield */ ? falseType : trueType, doneType); } function isYieldIteratorResult(type) { return isIteratorResult(type, 0 /* Yield */); } function isReturnIteratorResult(type) { return isIteratorResult(type, 1 /* Return */); } /** * Gets the *yield* and *return* types of an `IteratorResult`-like type. * * If we are unable to determine a *yield* or a *return* type, `noIterationTypes` is * returned to indicate to the caller that it should handle the error. Otherwise, an * `IterationTypes` record is returned. */ function getIterationTypesOfIteratorResult(type) { if (isTypeAny(type)) { return anyIterationTypes; } var cachedTypes = getCachedIterationTypes(type, "iterationTypesOfIteratorResult"); if (cachedTypes) { return cachedTypes; } // As an optimization, if the type is an instantiation of one of the global `IteratorYieldResult` // or `IteratorReturnResult` types, then just grab its type argument. if (isReferenceToType(type, getGlobalIteratorYieldResultType(/*reportErrors*/ false))) { var yieldType_1 = getTypeArguments(type)[0]; return setCachedIterationTypes(type, "iterationTypesOfIteratorResult", createIterationTypes(yieldType_1, /*returnType*/ undefined, /*nextType*/ undefined)); } if (isReferenceToType(type, getGlobalIteratorReturnResultType(/*reportErrors*/ false))) { var returnType_1 = getTypeArguments(type)[0]; return setCachedIterationTypes(type, "iterationTypesOfIteratorResult", createIterationTypes(/*yieldType*/ undefined, returnType_1, /*nextType*/ undefined)); } // Choose any constituents that can produce the requested iteration type. var yieldIteratorResult = filterType(type, isYieldIteratorResult); var yieldType = yieldIteratorResult !== neverType ? getTypeOfPropertyOfType(yieldIteratorResult, "value") : undefined; var returnIteratorResult = filterType(type, isReturnIteratorResult); var returnType = returnIteratorResult !== neverType ? getTypeOfPropertyOfType(returnIteratorResult, "value") : undefined; if (!yieldType && !returnType) { return setCachedIterationTypes(type, "iterationTypesOfIteratorResult", noIterationTypes); } // From https://tc39.github.io/ecma262/#sec-iteratorresult-interface // > ... If the iterator does not have a return value, `value` is `undefined`. In that case, the // > `value` property may be absent from the conforming object if it does not inherit an explicit // > `value` property. return setCachedIterationTypes(type, "iterationTypesOfIteratorResult", createIterationTypes(yieldType, returnType || voidType, /*nextType*/ undefined)); } /** * Gets the *yield*, *return*, and *next* types of a the `next()`, `return()`, or * `throw()` method of an `Iterator`-like or `AsyncIterator`-like type. * * If we successfully found the *yield*, *return*, and *next* types, an `IterationTypes` * record is returned. Otherwise, we return `undefined`. */ function getIterationTypesOfMethod(type, resolver, methodName, errorNode) { var method = getPropertyOfType(type, methodName); // Ignore 'return' or 'throw' if they are missing. if (!method && methodName !== "next") { return undefined; } var methodType = method && !(methodName === "next" && (method.flags & 16777216 /* Optional */)) ? methodName === "next" ? getTypeOfSymbol(method) : getTypeWithFacts(getTypeOfSymbol(method), 2097152 /* NEUndefinedOrNull */) : undefined; if (isTypeAny(methodType)) { // `return()` and `throw()` don't provide a *next* type. return methodName === "next" ? anyIterationTypes : anyIterationTypesExceptNext; } // Both async and non-async iterators *must* have a `next` method. var methodSignatures = methodType ? getSignaturesOfType(methodType, 0 /* Call */) : ts.emptyArray; if (methodSignatures.length === 0) { if (errorNode) { var diagnostic = methodName === "next" ? resolver.mustHaveANextMethodDiagnostic : resolver.mustBeAMethodDiagnostic; error(errorNode, diagnostic, methodName); } return methodName === "next" ? anyIterationTypes : undefined; } // Extract the first parameter and return type of each signature. var methodParameterTypes; var methodReturnTypes; for (var _i = 0, methodSignatures_1 = methodSignatures; _i < methodSignatures_1.length; _i++) { var signature = methodSignatures_1[_i]; if (methodName !== "throw" && ts.some(signature.parameters)) { methodParameterTypes = ts.append(methodParameterTypes, getTypeAtPosition(signature, 0)); } methodReturnTypes = ts.append(methodReturnTypes, getReturnTypeOfSignature(signature)); } // Resolve the *next* or *return* type from the first parameter of a `next()` or // `return()` method, respectively. var returnTypes; var nextType; if (methodName !== "throw") { var methodParameterType = methodParameterTypes ? getUnionType(methodParameterTypes) : unknownType; if (methodName === "next") { // The value of `next(value)` is *not* awaited by async generators nextType = methodParameterType; } else if (methodName === "return") { // The value of `return(value)` *is* awaited by async generators var resolvedMethodParameterType = resolver.resolveIterationType(methodParameterType, errorNode) || anyType; returnTypes = ts.append(returnTypes, resolvedMethodParameterType); } } // Resolve the *yield* and *return* types from the return type of the method (i.e. `IteratorResult`) var yieldType; var methodReturnType = methodReturnTypes ? getUnionType(methodReturnTypes, 2 /* Subtype */) : neverType; var resolvedMethodReturnType = resolver.resolveIterationType(methodReturnType, errorNode) || anyType; var iterationTypes = getIterationTypesOfIteratorResult(resolvedMethodReturnType); if (iterationTypes === noIterationTypes) { if (errorNode) { error(errorNode, resolver.mustHaveAValueDiagnostic, methodName); } yieldType = anyType; returnTypes = ts.append(returnTypes, anyType); } else { yieldType = iterationTypes.yieldType; returnTypes = ts.append(returnTypes, iterationTypes.returnType); } return createIterationTypes(yieldType, getUnionType(returnTypes), nextType); } /** * Gets the *yield*, *return*, and *next* types of an `Iterator`-like or `AsyncIterator`-like * type from its members. * * If we successfully found the *yield*, *return*, and *next* types, an `IterationTypes` * record is returned. Otherwise, `noIterationTypes` is returned. * * NOTE: You probably don't want to call this directly and should be calling * `getIterationTypesOfIterator` instead. */ function getIterationTypesOfIteratorSlow(type, resolver, errorNode) { var iterationTypes = combineIterationTypes([ getIterationTypesOfMethod(type, resolver, "next", errorNode), getIterationTypesOfMethod(type, resolver, "return", errorNode), getIterationTypesOfMethod(type, resolver, "throw", errorNode), ]); return setCachedIterationTypes(type, resolver.iteratorCacheKey, iterationTypes); } /** * Gets the requested "iteration type" from a type that is either `Iterable`-like, `Iterator`-like, * `IterableIterator`-like, or `Generator`-like (for a non-async generator); or `AsyncIterable`-like, * `AsyncIterator`-like, `AsyncIterableIterator`-like, or `AsyncGenerator`-like (for an async generator). */ function getIterationTypeOfGeneratorFunctionReturnType(kind, returnType, isAsyncGenerator) { if (isTypeAny(returnType)) { return undefined; } var iterationTypes = getIterationTypesOfGeneratorFunctionReturnType(returnType, isAsyncGenerator); return iterationTypes && iterationTypes[getIterationTypesKeyFromIterationTypeKind(kind)]; } function getIterationTypesOfGeneratorFunctionReturnType(type, isAsyncGenerator) { if (isTypeAny(type)) { return anyIterationTypes; } var use = isAsyncGenerator ? 2 /* AsyncGeneratorReturnType */ : 1 /* GeneratorReturnType */; var resolver = isAsyncGenerator ? asyncIterationTypesResolver : syncIterationTypesResolver; return getIterationTypesOfIterable(type, use, /*errorNode*/ undefined) || getIterationTypesOfIterator(type, resolver, /*errorNode*/ undefined); } function checkBreakOrContinueStatement(node) { // Grammar checking if (!checkGrammarStatementInAmbientContext(node)) checkGrammarBreakOrContinueStatement(node); // TODO: Check that target label is valid } function unwrapReturnType(returnType, functionFlags) { var _a, _b; var isGenerator = !!(functionFlags & 1 /* Generator */); var isAsync = !!(functionFlags & 2 /* Async */); return isGenerator ? (_a = getIterationTypeOfGeneratorFunctionReturnType(1 /* Return */, returnType, isAsync)) !== null && _a !== void 0 ? _a : errorType : isAsync ? (_b = getAwaitedType(returnType)) !== null && _b !== void 0 ? _b : errorType : returnType; } function isUnwrappedReturnTypeVoidOrAny(func, returnType) { var unwrappedReturnType = unwrapReturnType(returnType, ts.getFunctionFlags(func)); return !!unwrappedReturnType && maybeTypeOfKind(unwrappedReturnType, 16384 /* Void */ | 3 /* AnyOrUnknown */); } function checkReturnStatement(node) { var _a; // Grammar checking if (checkGrammarStatementInAmbientContext(node)) { return; } var func = ts.getContainingFunction(node); if (!func) { grammarErrorOnFirstToken(node, ts.Diagnostics.A_return_statement_can_only_be_used_within_a_function_body); return; } var signature = getSignatureFromDeclaration(func); var returnType = getReturnTypeOfSignature(signature); var functionFlags = ts.getFunctionFlags(func); if (strictNullChecks || node.expression || returnType.flags & 131072 /* Never */) { var exprType = node.expression ? checkExpressionCached(node.expression) : undefinedType; if (func.kind === 164 /* SetAccessor */) { if (node.expression) { error(node, ts.Diagnostics.Setters_cannot_return_a_value); } } else if (func.kind === 162 /* Constructor */) { if (node.expression && !checkTypeAssignableToAndOptionallyElaborate(exprType, returnType, node, node.expression)) { error(node, ts.Diagnostics.Return_type_of_constructor_signature_must_be_assignable_to_the_instance_type_of_the_class); } } else if (getReturnTypeFromAnnotation(func)) { var unwrappedReturnType = (_a = unwrapReturnType(returnType, functionFlags)) !== null && _a !== void 0 ? _a : returnType; var unwrappedExprType = functionFlags & 2 /* Async */ ? checkAwaitedType(exprType, node, ts.Diagnostics.The_return_type_of_an_async_function_must_either_be_a_valid_promise_or_must_not_contain_a_callable_then_member) : exprType; if (unwrappedReturnType) { // If the function has a return type, but promisedType is // undefined, an error will be reported in checkAsyncFunctionReturnType // so we don't need to report one here. checkTypeAssignableToAndOptionallyElaborate(unwrappedExprType, unwrappedReturnType, node, node.expression); } } } else if (func.kind !== 162 /* Constructor */ && compilerOptions.noImplicitReturns && !isUnwrappedReturnTypeVoidOrAny(func, returnType)) { // The function has a return type, but the return statement doesn't have an expression. error(node, ts.Diagnostics.Not_all_code_paths_return_a_value); } } function checkWithStatement(node) { // Grammar checking for withStatement if (!checkGrammarStatementInAmbientContext(node)) { if (node.flags & 32768 /* AwaitContext */) { grammarErrorOnFirstToken(node, ts.Diagnostics.with_statements_are_not_allowed_in_an_async_function_block); } } checkExpression(node.expression); var sourceFile = ts.getSourceFileOfNode(node); if (!hasParseDiagnostics(sourceFile)) { var start = ts.getSpanOfTokenAtPosition(sourceFile, node.pos).start; var end = node.statement.pos; grammarErrorAtPos(sourceFile, start, end - start, ts.Diagnostics.The_with_statement_is_not_supported_All_symbols_in_a_with_block_will_have_type_any); } } function checkSwitchStatement(node) { // Grammar checking checkGrammarStatementInAmbientContext(node); var firstDefaultClause; var hasDuplicateDefaultClause = false; var expressionType = checkExpression(node.expression); var expressionIsLiteral = isLiteralType(expressionType); ts.forEach(node.caseBlock.clauses, function (clause) { // Grammar check for duplicate default clauses, skip if we already report duplicate default clause if (clause.kind === 278 /* DefaultClause */ && !hasDuplicateDefaultClause) { if (firstDefaultClause === undefined) { firstDefaultClause = clause; } else { grammarErrorOnNode(clause, ts.Diagnostics.A_default_clause_cannot_appear_more_than_once_in_a_switch_statement); hasDuplicateDefaultClause = true; } } if (produceDiagnostics && clause.kind === 277 /* CaseClause */) { // TypeScript 1.0 spec (April 2014): 5.9 // In a 'switch' statement, each 'case' expression must be of a type that is comparable // to or from the type of the 'switch' expression. var caseType = checkExpression(clause.expression); var caseIsLiteral = isLiteralType(caseType); var comparedExpressionType = expressionType; if (!caseIsLiteral || !expressionIsLiteral) { caseType = caseIsLiteral ? getBaseTypeOfLiteralType(caseType) : caseType; comparedExpressionType = getBaseTypeOfLiteralType(expressionType); } if (!isTypeEqualityComparableTo(comparedExpressionType, caseType)) { // expressionType is not comparable to caseType, try the reversed check and report errors if it fails checkTypeComparableTo(caseType, comparedExpressionType, clause.expression, /*headMessage*/ undefined); } } ts.forEach(clause.statements, checkSourceElement); if (compilerOptions.noFallthroughCasesInSwitch && clause.fallthroughFlowNode && isReachableFlowNode(clause.fallthroughFlowNode)) { error(clause, ts.Diagnostics.Fallthrough_case_in_switch); } }); if (node.caseBlock.locals) { registerForUnusedIdentifiersCheck(node.caseBlock); } } function checkLabeledStatement(node) { // Grammar checking if (!checkGrammarStatementInAmbientContext(node)) { ts.findAncestor(node.parent, function (current) { if (ts.isFunctionLike(current)) { return "quit"; } if (current.kind === 238 /* LabeledStatement */ && current.label.escapedText === node.label.escapedText) { grammarErrorOnNode(node.label, ts.Diagnostics.Duplicate_label_0, ts.getTextOfNode(node.label)); return true; } return false; }); } // ensure that label is unique checkSourceElement(node.statement); } function checkThrowStatement(node) { // Grammar checking if (!checkGrammarStatementInAmbientContext(node)) { if (node.expression === undefined) { grammarErrorAfterFirstToken(node, ts.Diagnostics.Line_break_not_permitted_here); } } if (node.expression) { checkExpression(node.expression); } } function checkTryStatement(node) { // Grammar checking checkGrammarStatementInAmbientContext(node); checkBlock(node.tryBlock); var catchClause = node.catchClause; if (catchClause) { // Grammar checking if (catchClause.variableDeclaration) { if (catchClause.variableDeclaration.type) { grammarErrorOnFirstToken(catchClause.variableDeclaration.type, ts.Diagnostics.Catch_clause_variable_cannot_have_a_type_annotation); } else if (catchClause.variableDeclaration.initializer) { grammarErrorOnFirstToken(catchClause.variableDeclaration.initializer, ts.Diagnostics.Catch_clause_variable_cannot_have_an_initializer); } else { var blockLocals_1 = catchClause.block.locals; if (blockLocals_1) { ts.forEachKey(catchClause.locals, function (caughtName) { var blockLocal = blockLocals_1.get(caughtName); if (blockLocal && (blockLocal.flags & 2 /* BlockScopedVariable */) !== 0) { grammarErrorOnNode(blockLocal.valueDeclaration, ts.Diagnostics.Cannot_redeclare_identifier_0_in_catch_clause, caughtName); } }); } } } checkBlock(catchClause.block); } if (node.finallyBlock) { checkBlock(node.finallyBlock); } } function checkIndexConstraints(type) { var declaredNumberIndexer = getIndexDeclarationOfSymbol(type.symbol, 1 /* Number */); var declaredStringIndexer = getIndexDeclarationOfSymbol(type.symbol, 0 /* String */); var stringIndexType = getIndexTypeOfType(type, 0 /* String */); var numberIndexType = getIndexTypeOfType(type, 1 /* Number */); if (stringIndexType || numberIndexType) { ts.forEach(getPropertiesOfObjectType(type), function (prop) { var propType = getTypeOfSymbol(prop); checkIndexConstraintForProperty(prop, propType, type, declaredStringIndexer, stringIndexType, 0 /* String */); checkIndexConstraintForProperty(prop, propType, type, declaredNumberIndexer, numberIndexType, 1 /* Number */); }); var classDeclaration = type.symbol.valueDeclaration; if (ts.getObjectFlags(type) & 1 /* Class */ && ts.isClassLike(classDeclaration)) { for (var _i = 0, _a = classDeclaration.members; _i < _a.length; _i++) { var member = _a[_i]; // Only process instance properties with computed names here. // Static properties cannot be in conflict with indexers, // and properties with literal names were already checked. if (!ts.hasModifier(member, 32 /* Static */) && hasNonBindableDynamicName(member)) { var symbol = getSymbolOfNode(member); var propType = getTypeOfSymbol(symbol); checkIndexConstraintForProperty(symbol, propType, type, declaredStringIndexer, stringIndexType, 0 /* String */); checkIndexConstraintForProperty(symbol, propType, type, declaredNumberIndexer, numberIndexType, 1 /* Number */); } } } } var errorNode; if (stringIndexType && numberIndexType) { errorNode = declaredNumberIndexer || declaredStringIndexer; // condition 'errorNode === undefined' may appear if types does not declare nor string neither number indexer if (!errorNode && (ts.getObjectFlags(type) & 2 /* Interface */)) { var someBaseTypeHasBothIndexers = ts.forEach(getBaseTypes(type), function (base) { return getIndexTypeOfType(base, 0 /* String */) && getIndexTypeOfType(base, 1 /* Number */); }); errorNode = someBaseTypeHasBothIndexers ? undefined : type.symbol.declarations[0]; } } if (errorNode && !isTypeAssignableTo(numberIndexType, stringIndexType)) { // TODO: GH#18217 error(errorNode, ts.Diagnostics.Numeric_index_type_0_is_not_assignable_to_string_index_type_1, typeToString(numberIndexType), typeToString(stringIndexType)); } function checkIndexConstraintForProperty(prop, propertyType, containingType, indexDeclaration, indexType, indexKind) { // ESSymbol properties apply to neither string nor numeric indexers. if (!indexType || ts.isKnownSymbol(prop)) { return; } var propDeclaration = prop.valueDeclaration; var name = propDeclaration && ts.getNameOfDeclaration(propDeclaration); if (name && ts.isPrivateIdentifier(name)) { return; } // index is numeric and property name is not valid numeric literal if (indexKind === 1 /* Number */ && !(name ? isNumericName(name) : isNumericLiteralName(prop.escapedName))) { return; } // perform property check if property or indexer is declared in 'type' // this allows us to rule out cases when both property and indexer are inherited from the base class var errorNode; if (propDeclaration && name && (propDeclaration.kind === 209 /* BinaryExpression */ || name.kind === 154 /* ComputedPropertyName */ || prop.parent === containingType.symbol)) { errorNode = propDeclaration; } else if (indexDeclaration) { errorNode = indexDeclaration; } else if (ts.getObjectFlags(containingType) & 2 /* Interface */) { // for interfaces property and indexer might be inherited from different bases // check if any base class already has both property and indexer. // check should be performed only if 'type' is the first type that brings property\indexer together var someBaseClassHasBothPropertyAndIndexer = ts.forEach(getBaseTypes(containingType), function (base) { return getPropertyOfObjectType(base, prop.escapedName) && getIndexTypeOfType(base, indexKind); }); errorNode = someBaseClassHasBothPropertyAndIndexer ? undefined : containingType.symbol.declarations[0]; } if (errorNode && !isTypeAssignableTo(propertyType, indexType)) { var errorMessage = indexKind === 0 /* String */ ? ts.Diagnostics.Property_0_of_type_1_is_not_assignable_to_string_index_type_2 : ts.Diagnostics.Property_0_of_type_1_is_not_assignable_to_numeric_index_type_2; error(errorNode, errorMessage, symbolToString(prop), typeToString(propertyType), typeToString(indexType)); } } } function checkTypeNameIsReserved(name, message) { // TS 1.0 spec (April 2014): 3.6.1 // The predefined type keywords are reserved and cannot be used as names of user defined types. switch (name.escapedText) { case "any": case "unknown": case "number": case "bigint": case "boolean": case "string": case "symbol": case "void": case "object": error(name, message, name.escapedText); } } /** * The name cannot be used as 'Object' of user defined types with special target. */ function checkClassNameCollisionWithObject(name) { if (languageVersion === 1 /* ES5 */ && name.escapedText === "Object" && moduleKind < ts.ModuleKind.ES2015) { error(name, ts.Diagnostics.Class_name_cannot_be_Object_when_targeting_ES5_with_module_0, ts.ModuleKind[moduleKind]); // https://github.com/Microsoft/TypeScript/issues/17494 } } /** * Check each type parameter and check that type parameters have no duplicate type parameter declarations */ function checkTypeParameters(typeParameterDeclarations) { if (typeParameterDeclarations) { var seenDefault = false; for (var i = 0; i < typeParameterDeclarations.length; i++) { var node = typeParameterDeclarations[i]; checkTypeParameter(node); if (produceDiagnostics) { if (node.default) { seenDefault = true; checkTypeParametersNotReferenced(node.default, typeParameterDeclarations, i); } else if (seenDefault) { error(node, ts.Diagnostics.Required_type_parameters_may_not_follow_optional_type_parameters); } for (var j = 0; j < i; j++) { if (typeParameterDeclarations[j].symbol === node.symbol) { error(node.name, ts.Diagnostics.Duplicate_identifier_0, ts.declarationNameToString(node.name)); } } } } } } /** Check that type parameter defaults only reference previously declared type parameters */ function checkTypeParametersNotReferenced(root, typeParameters, index) { visit(root); function visit(node) { if (node.kind === 169 /* TypeReference */) { var type = getTypeFromTypeReference(node); if (type.flags & 262144 /* TypeParameter */) { for (var i = index; i < typeParameters.length; i++) { if (type.symbol === getSymbolOfNode(typeParameters[i])) { error(node, ts.Diagnostics.Type_parameter_defaults_can_only_reference_previously_declared_type_parameters); } } } } ts.forEachChild(node, visit); } } /** Check that type parameter lists are identical across multiple declarations */ function checkTypeParameterListsIdentical(symbol) { if (symbol.declarations.length === 1) { return; } var links = getSymbolLinks(symbol); if (!links.typeParametersChecked) { links.typeParametersChecked = true; var declarations = getClassOrInterfaceDeclarationsOfSymbol(symbol); if (declarations.length <= 1) { return; } var type = getDeclaredTypeOfSymbol(symbol); if (!areTypeParametersIdentical(declarations, type.localTypeParameters)) { // Report an error on every conflicting declaration. var name = symbolToString(symbol); for (var _i = 0, declarations_6 = declarations; _i < declarations_6.length; _i++) { var declaration = declarations_6[_i]; error(declaration.name, ts.Diagnostics.All_declarations_of_0_must_have_identical_type_parameters, name); } } } } function areTypeParametersIdentical(declarations, targetParameters) { var maxTypeArgumentCount = ts.length(targetParameters); var minTypeArgumentCount = getMinTypeArgumentCount(targetParameters); for (var _i = 0, declarations_7 = declarations; _i < declarations_7.length; _i++) { var declaration = declarations_7[_i]; // If this declaration has too few or too many type parameters, we report an error var sourceParameters = ts.getEffectiveTypeParameterDeclarations(declaration); var numTypeParameters = sourceParameters.length; if (numTypeParameters < minTypeArgumentCount || numTypeParameters > maxTypeArgumentCount) { return false; } for (var i = 0; i < numTypeParameters; i++) { var source = sourceParameters[i]; var target = targetParameters[i]; // If the type parameter node does not have the same as the resolved type // parameter at this position, we report an error. if (source.name.escapedText !== target.symbol.escapedName) { return false; } // If the type parameter node does not have an identical constraint as the resolved // type parameter at this position, we report an error. var constraint = ts.getEffectiveConstraintOfTypeParameter(source); var sourceConstraint = constraint && getTypeFromTypeNode(constraint); var targetConstraint = getConstraintOfTypeParameter(target); // relax check if later interface augmentation has no constraint, it's more broad and is OK to merge with // a more constrained interface (this could be generalized to a full hierarchy check, but that's maybe overkill) if (sourceConstraint && targetConstraint && !isTypeIdenticalTo(sourceConstraint, targetConstraint)) { return false; } // If the type parameter node has a default and it is not identical to the default // for the type parameter at this position, we report an error. var sourceDefault = source.default && getTypeFromTypeNode(source.default); var targetDefault = getDefaultFromTypeParameter(target); if (sourceDefault && targetDefault && !isTypeIdenticalTo(sourceDefault, targetDefault)) { return false; } } } return true; } function checkClassExpression(node) { checkClassLikeDeclaration(node); checkNodeDeferred(node); return getTypeOfSymbol(getSymbolOfNode(node)); } function checkClassExpressionDeferred(node) { ts.forEach(node.members, checkSourceElement); registerForUnusedIdentifiersCheck(node); } function checkClassDeclaration(node) { if (!node.name && !ts.hasModifier(node, 512 /* Default */)) { grammarErrorOnFirstToken(node, ts.Diagnostics.A_class_declaration_without_the_default_modifier_must_have_a_name); } checkClassLikeDeclaration(node); ts.forEach(node.members, checkSourceElement); registerForUnusedIdentifiersCheck(node); } function checkClassLikeDeclaration(node) { checkGrammarClassLikeDeclaration(node); checkDecorators(node); if (node.name) { checkTypeNameIsReserved(node.name, ts.Diagnostics.Class_name_cannot_be_0); checkCollisionWithRequireExportsInGeneratedCode(node, node.name); checkCollisionWithGlobalPromiseInGeneratedCode(node, node.name); if (!(node.flags & 8388608 /* Ambient */)) { checkClassNameCollisionWithObject(node.name); } } checkTypeParameters(ts.getEffectiveTypeParameterDeclarations(node)); checkExportsOnMergedDeclarations(node); var symbol = getSymbolOfNode(node); var type = getDeclaredTypeOfSymbol(symbol); var typeWithThis = getTypeWithThisArgument(type); var staticType = getTypeOfSymbol(symbol); checkTypeParameterListsIdentical(symbol); checkClassForDuplicateDeclarations(node); // Only check for reserved static identifiers on non-ambient context. if (!(node.flags & 8388608 /* Ambient */)) { checkClassForStaticPropertyNameConflicts(node); } var baseTypeNode = ts.getEffectiveBaseTypeNode(node); if (baseTypeNode) { ts.forEach(baseTypeNode.typeArguments, checkSourceElement); if (languageVersion < 2 /* ES2015 */) { checkExternalEmitHelpers(baseTypeNode.parent, 1 /* Extends */); } // check both @extends and extends if both are specified. var extendsNode = ts.getClassExtendsHeritageElement(node); if (extendsNode && extendsNode !== baseTypeNode) { checkExpression(extendsNode.expression); } var baseTypes = getBaseTypes(type); if (baseTypes.length && produceDiagnostics) { var baseType_1 = baseTypes[0]; var baseConstructorType = getBaseConstructorTypeOfClass(type); var staticBaseType = getApparentType(baseConstructorType); checkBaseTypeAccessibility(staticBaseType, baseTypeNode); checkSourceElement(baseTypeNode.expression); if (ts.some(baseTypeNode.typeArguments)) { ts.forEach(baseTypeNode.typeArguments, checkSourceElement); for (var _i = 0, _a = getConstructorsForTypeArguments(staticBaseType, baseTypeNode.typeArguments, baseTypeNode); _i < _a.length; _i++) { var constructor = _a[_i]; if (!checkTypeArgumentConstraints(baseTypeNode, constructor.typeParameters)) { break; } } } var baseWithThis = getTypeWithThisArgument(baseType_1, type.thisType); if (!checkTypeAssignableTo(typeWithThis, baseWithThis, /*errorNode*/ undefined)) { issueMemberSpecificError(node, typeWithThis, baseWithThis, ts.Diagnostics.Class_0_incorrectly_extends_base_class_1); } else { // Report static side error only when instance type is assignable checkTypeAssignableTo(staticType, getTypeWithoutSignatures(staticBaseType), node.name || node, ts.Diagnostics.Class_static_side_0_incorrectly_extends_base_class_static_side_1); } if (baseConstructorType.flags & 8650752 /* TypeVariable */ && !isMixinConstructorType(staticType)) { error(node.name || node, ts.Diagnostics.A_mixin_class_must_have_a_constructor_with_a_single_rest_parameter_of_type_any); } if (!(staticBaseType.symbol && staticBaseType.symbol.flags & 32 /* Class */) && !(baseConstructorType.flags & 8650752 /* TypeVariable */)) { // When the static base type is a "class-like" constructor function (but not actually a class), we verify // that all instantiated base constructor signatures return the same type. var constructors = getInstantiatedConstructorsForTypeArguments(staticBaseType, baseTypeNode.typeArguments, baseTypeNode); if (ts.forEach(constructors, function (sig) { return !isJSConstructor(sig.declaration) && !isTypeIdenticalTo(getReturnTypeOfSignature(sig), baseType_1); })) { error(baseTypeNode.expression, ts.Diagnostics.Base_constructors_must_all_have_the_same_return_type); } } checkKindsOfPropertyMemberOverrides(type, baseType_1); } } var implementedTypeNodes = ts.getEffectiveImplementsTypeNodes(node); if (implementedTypeNodes) { for (var _b = 0, implementedTypeNodes_1 = implementedTypeNodes; _b < implementedTypeNodes_1.length; _b++) { var typeRefNode = implementedTypeNodes_1[_b]; if (!ts.isEntityNameExpression(typeRefNode.expression)) { error(typeRefNode.expression, ts.Diagnostics.A_class_can_only_implement_an_identifier_Slashqualified_name_with_optional_type_arguments); } checkTypeReferenceNode(typeRefNode); if (produceDiagnostics) { var t = getReducedType(getTypeFromTypeNode(typeRefNode)); if (t !== errorType) { if (isValidBaseType(t)) { var genericDiag = t.symbol && t.symbol.flags & 32 /* Class */ ? ts.Diagnostics.Class_0_incorrectly_implements_class_1_Did_you_mean_to_extend_1_and_inherit_its_members_as_a_subclass : ts.Diagnostics.Class_0_incorrectly_implements_interface_1; var baseWithThis = getTypeWithThisArgument(t, type.thisType); if (!checkTypeAssignableTo(typeWithThis, baseWithThis, /*errorNode*/ undefined)) { issueMemberSpecificError(node, typeWithThis, baseWithThis, genericDiag); } } else { error(typeRefNode, ts.Diagnostics.A_class_can_only_implement_an_object_type_or_intersection_of_object_types_with_statically_known_members); } } } } } if (produceDiagnostics) { checkIndexConstraints(type); checkTypeForDuplicateIndexSignatures(node); checkPropertyInitialization(node); } } function issueMemberSpecificError(node, typeWithThis, baseWithThis, broadDiag) { // iterate over all implemented properties and issue errors on each one which isn't compatible, rather than the class as a whole, if possible var issuedMemberError = false; var _loop_19 = function (member) { if (ts.hasStaticModifier(member)) { return "continue"; } var declaredProp = member.name && getSymbolAtLocation(member.name) || getSymbolAtLocation(member); if (declaredProp) { var prop = getPropertyOfType(typeWithThis, declaredProp.escapedName); var baseProp = getPropertyOfType(baseWithThis, declaredProp.escapedName); if (prop && baseProp) { var rootChain = function () { return ts.chainDiagnosticMessages( /*details*/ undefined, ts.Diagnostics.Property_0_in_type_1_is_not_assignable_to_the_same_property_in_base_type_2, symbolToString(declaredProp), typeToString(typeWithThis), typeToString(baseWithThis)); }; if (!checkTypeAssignableTo(getTypeOfSymbol(prop), getTypeOfSymbol(baseProp), member.name || member, /*message*/ undefined, rootChain)) { issuedMemberError = true; } } } }; for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; _loop_19(member); } if (!issuedMemberError) { // check again with diagnostics to generate a less-specific error checkTypeAssignableTo(typeWithThis, baseWithThis, node.name || node, broadDiag); } } function checkBaseTypeAccessibility(type, node) { var signatures = getSignaturesOfType(type, 1 /* Construct */); if (signatures.length) { var declaration = signatures[0].declaration; if (declaration && ts.hasModifier(declaration, 8 /* Private */)) { var typeClassDeclaration = ts.getClassLikeDeclarationOfSymbol(type.symbol); if (!isNodeWithinClass(node, typeClassDeclaration)) { error(node, ts.Diagnostics.Cannot_extend_a_class_0_Class_constructor_is_marked_as_private, getFullyQualifiedName(type.symbol)); } } } } function getTargetSymbol(s) { // if symbol is instantiated its flags are not copied from the 'target' // so we'll need to get back original 'target' symbol to work with correct set of flags return ts.getCheckFlags(s) & 1 /* Instantiated */ ? s.target : s; } function getClassOrInterfaceDeclarationsOfSymbol(symbol) { return ts.filter(symbol.declarations, function (d) { return d.kind === 245 /* ClassDeclaration */ || d.kind === 246 /* InterfaceDeclaration */; }); } function checkKindsOfPropertyMemberOverrides(type, baseType) { // TypeScript 1.0 spec (April 2014): 8.2.3 // A derived class inherits all members from its base class it doesn't override. // Inheritance means that a derived class implicitly contains all non - overridden members of the base class. // Both public and private property members are inherited, but only public property members can be overridden. // A property member in a derived class is said to override a property member in a base class // when the derived class property member has the same name and kind(instance or static) // as the base class property member. // The type of an overriding property member must be assignable(section 3.8.4) // to the type of the overridden property member, or otherwise a compile - time error occurs. // Base class instance member functions can be overridden by derived class instance member functions, // but not by other kinds of members. // Base class instance member variables and accessors can be overridden by // derived class instance member variables and accessors, but not by other kinds of members. // NOTE: assignability is checked in checkClassDeclaration var baseProperties = getPropertiesOfType(baseType); basePropertyCheck: for (var _i = 0, baseProperties_1 = baseProperties; _i < baseProperties_1.length; _i++) { var baseProperty = baseProperties_1[_i]; var base = getTargetSymbol(baseProperty); if (base.flags & 4194304 /* Prototype */) { continue; } var baseSymbol = getPropertyOfObjectType(type, base.escapedName); if (!baseSymbol) { continue; } var derived = getTargetSymbol(baseSymbol); var baseDeclarationFlags = ts.getDeclarationModifierFlagsFromSymbol(base); ts.Debug.assert(!!derived, "derived should point to something, even if it is the base class' declaration."); // In order to resolve whether the inherited method was overridden in the base class or not, // we compare the Symbols obtained. Since getTargetSymbol returns the symbol on the *uninstantiated* // type declaration, derived and base resolve to the same symbol even in the case of generic classes. if (derived === base) { // derived class inherits base without override/redeclaration var derivedClassDecl = ts.getClassLikeDeclarationOfSymbol(type.symbol); // It is an error to inherit an abstract member without implementing it or being declared abstract. // If there is no declaration for the derived class (as in the case of class expressions), // then the class cannot be declared abstract. if (baseDeclarationFlags & 128 /* Abstract */ && (!derivedClassDecl || !ts.hasModifier(derivedClassDecl, 128 /* Abstract */))) { // Searches other base types for a declaration that would satisfy the inherited abstract member. // (The class may have more than one base type via declaration merging with an interface with the // same name.) for (var _a = 0, _b = getBaseTypes(type); _a < _b.length; _a++) { var otherBaseType = _b[_a]; if (otherBaseType === baseType) continue; var baseSymbol_1 = getPropertyOfObjectType(otherBaseType, base.escapedName); var derivedElsewhere = baseSymbol_1 && getTargetSymbol(baseSymbol_1); if (derivedElsewhere && derivedElsewhere !== base) { continue basePropertyCheck; } } if (derivedClassDecl.kind === 214 /* ClassExpression */) { error(derivedClassDecl, ts.Diagnostics.Non_abstract_class_expression_does_not_implement_inherited_abstract_member_0_from_class_1, symbolToString(baseProperty), typeToString(baseType)); } else { error(derivedClassDecl, ts.Diagnostics.Non_abstract_class_0_does_not_implement_inherited_abstract_member_1_from_class_2, typeToString(type), symbolToString(baseProperty), typeToString(baseType)); } } } else { // derived overrides base. var derivedDeclarationFlags = ts.getDeclarationModifierFlagsFromSymbol(derived); if (baseDeclarationFlags & 8 /* Private */ || derivedDeclarationFlags & 8 /* Private */) { // either base or derived property is private - not override, skip it continue; } var errorMessage = void 0; var basePropertyFlags = base.flags & 98308 /* PropertyOrAccessor */; var derivedPropertyFlags = derived.flags & 98308 /* PropertyOrAccessor */; if (basePropertyFlags && derivedPropertyFlags) { // property/accessor is overridden with property/accessor if (!compilerOptions.useDefineForClassFields || baseDeclarationFlags & 128 /* Abstract */ && !(base.valueDeclaration && ts.isPropertyDeclaration(base.valueDeclaration) && base.valueDeclaration.initializer) || base.valueDeclaration && base.valueDeclaration.parent.kind === 246 /* InterfaceDeclaration */ || derived.valueDeclaration && ts.isBinaryExpression(derived.valueDeclaration)) { // when the base property is abstract or from an interface, base/derived flags don't need to match // same when the derived property is from an assignment continue; } var overriddenInstanceProperty = basePropertyFlags !== 4 /* Property */ && derivedPropertyFlags === 4 /* Property */; var overriddenInstanceAccessor = basePropertyFlags === 4 /* Property */ && derivedPropertyFlags !== 4 /* Property */; if (overriddenInstanceProperty || overriddenInstanceAccessor) { var errorMessage_1 = overriddenInstanceProperty ? ts.Diagnostics._0_is_defined_as_an_accessor_in_class_1_but_is_overridden_here_in_2_as_an_instance_property : ts.Diagnostics._0_is_defined_as_a_property_in_class_1_but_is_overridden_here_in_2_as_an_accessor; error(ts.getNameOfDeclaration(derived.valueDeclaration) || derived.valueDeclaration, errorMessage_1, symbolToString(base), typeToString(baseType), typeToString(type)); } else { var uninitialized = ts.find(derived.declarations, function (d) { return d.kind === 159 /* PropertyDeclaration */ && !d.initializer; }); if (uninitialized && !(derived.flags & 33554432 /* Transient */) && !(baseDeclarationFlags & 128 /* Abstract */) && !(derivedDeclarationFlags & 128 /* Abstract */) && !derived.declarations.some(function (d) { return !!(d.flags & 8388608 /* Ambient */); })) { var constructor = findConstructorDeclaration(ts.getClassLikeDeclarationOfSymbol(type.symbol)); var propName = uninitialized.name; if (uninitialized.exclamationToken || !constructor || !ts.isIdentifier(propName) || !strictNullChecks || !isPropertyInitializedInConstructor(propName, type, constructor)) { var errorMessage_2 = ts.Diagnostics.Property_0_will_overwrite_the_base_property_in_1_If_this_is_intentional_add_an_initializer_Otherwise_add_a_declare_modifier_or_remove_the_redundant_declaration; error(ts.getNameOfDeclaration(derived.valueDeclaration) || derived.valueDeclaration, errorMessage_2, symbolToString(base), typeToString(baseType)); } } } // correct case continue; } else if (isPrototypeProperty(base)) { if (isPrototypeProperty(derived) || derived.flags & 4 /* Property */) { // method is overridden with method or property -- correct case continue; } else { ts.Debug.assert(!!(derived.flags & 98304 /* Accessor */)); errorMessage = ts.Diagnostics.Class_0_defines_instance_member_function_1_but_extended_class_2_defines_it_as_instance_member_accessor; } } else if (base.flags & 98304 /* Accessor */) { errorMessage = ts.Diagnostics.Class_0_defines_instance_member_accessor_1_but_extended_class_2_defines_it_as_instance_member_function; } else { errorMessage = ts.Diagnostics.Class_0_defines_instance_member_property_1_but_extended_class_2_defines_it_as_instance_member_function; } error(ts.getNameOfDeclaration(derived.valueDeclaration) || derived.valueDeclaration, errorMessage, typeToString(baseType), symbolToString(base), typeToString(type)); } } } function getNonInterhitedProperties(type, baseTypes, properties) { if (!ts.length(baseTypes)) { return properties; } var seen = ts.createUnderscoreEscapedMap(); ts.forEach(properties, function (p) { seen.set(p.escapedName, p); }); for (var _i = 0, baseTypes_2 = baseTypes; _i < baseTypes_2.length; _i++) { var base = baseTypes_2[_i]; var properties_5 = getPropertiesOfType(getTypeWithThisArgument(base, type.thisType)); for (var _a = 0, properties_4 = properties_5; _a < properties_4.length; _a++) { var prop = properties_4[_a]; var existing = seen.get(prop.escapedName); if (existing && !isPropertyIdenticalTo(existing, prop)) { seen.delete(prop.escapedName); } } } return ts.arrayFrom(seen.values()); } function checkInheritedPropertiesAreIdentical(type, typeNode) { var baseTypes = getBaseTypes(type); if (baseTypes.length < 2) { return true; } var seen = ts.createUnderscoreEscapedMap(); ts.forEach(resolveDeclaredMembers(type).declaredProperties, function (p) { seen.set(p.escapedName, { prop: p, containingType: type }); }); var ok = true; for (var _i = 0, baseTypes_3 = baseTypes; _i < baseTypes_3.length; _i++) { var base = baseTypes_3[_i]; var properties = getPropertiesOfType(getTypeWithThisArgument(base, type.thisType)); for (var _a = 0, properties_6 = properties; _a < properties_6.length; _a++) { var prop = properties_6[_a]; var existing = seen.get(prop.escapedName); if (!existing) { seen.set(prop.escapedName, { prop: prop, containingType: base }); } else { var isInheritedProperty = existing.containingType !== type; if (isInheritedProperty && !isPropertyIdenticalTo(existing.prop, prop)) { ok = false; var typeName1 = typeToString(existing.containingType); var typeName2 = typeToString(base); var errorInfo = ts.chainDiagnosticMessages(/*details*/ undefined, ts.Diagnostics.Named_property_0_of_types_1_and_2_are_not_identical, symbolToString(prop), typeName1, typeName2); errorInfo = ts.chainDiagnosticMessages(errorInfo, ts.Diagnostics.Interface_0_cannot_simultaneously_extend_types_1_and_2, typeToString(type), typeName1, typeName2); diagnostics.add(ts.createDiagnosticForNodeFromMessageChain(typeNode, errorInfo)); } } } } return ok; } function checkPropertyInitialization(node) { if (!strictNullChecks || !strictPropertyInitialization || node.flags & 8388608 /* Ambient */) { return; } var constructor = findConstructorDeclaration(node); for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; if (ts.getModifierFlags(member) & 2 /* Ambient */) { continue; } if (isInstancePropertyWithoutInitializer(member)) { var propName = member.name; if (ts.isIdentifier(propName) || ts.isPrivateIdentifier(propName)) { var type = getTypeOfSymbol(getSymbolOfNode(member)); if (!(type.flags & 3 /* AnyOrUnknown */ || getFalsyFlags(type) & 32768 /* Undefined */)) { if (!constructor || !isPropertyInitializedInConstructor(propName, type, constructor)) { error(member.name, ts.Diagnostics.Property_0_has_no_initializer_and_is_not_definitely_assigned_in_the_constructor, ts.declarationNameToString(propName)); } } } } } } function isInstancePropertyWithoutInitializer(node) { return node.kind === 159 /* PropertyDeclaration */ && !ts.hasModifier(node, 32 /* Static */ | 128 /* Abstract */) && !node.exclamationToken && !node.initializer; } function isPropertyInitializedInConstructor(propName, propType, constructor) { var reference = ts.createPropertyAccess(ts.createThis(), propName); reference.expression.parent = reference; reference.parent = constructor; reference.flowNode = constructor.returnFlowNode; var flowType = getFlowTypeOfReference(reference, propType, getOptionalType(propType)); return !(getFalsyFlags(flowType) & 32768 /* Undefined */); } function checkInterfaceDeclaration(node) { // Grammar checking if (!checkGrammarDecoratorsAndModifiers(node)) checkGrammarInterfaceDeclaration(node); checkTypeParameters(node.typeParameters); if (produceDiagnostics) { checkTypeNameIsReserved(node.name, ts.Diagnostics.Interface_name_cannot_be_0); checkExportsOnMergedDeclarations(node); var symbol = getSymbolOfNode(node); checkTypeParameterListsIdentical(symbol); // Only check this symbol once var firstInterfaceDecl = ts.getDeclarationOfKind(symbol, 246 /* InterfaceDeclaration */); if (node === firstInterfaceDecl) { var type = getDeclaredTypeOfSymbol(symbol); var typeWithThis = getTypeWithThisArgument(type); // run subsequent checks only if first set succeeded if (checkInheritedPropertiesAreIdentical(type, node.name)) { for (var _i = 0, _a = getBaseTypes(type); _i < _a.length; _i++) { var baseType = _a[_i]; checkTypeAssignableTo(typeWithThis, getTypeWithThisArgument(baseType, type.thisType), node.name, ts.Diagnostics.Interface_0_incorrectly_extends_interface_1); } checkIndexConstraints(type); } } checkObjectTypeForDuplicateDeclarations(node); } ts.forEach(ts.getInterfaceBaseTypeNodes(node), function (heritageElement) { if (!ts.isEntityNameExpression(heritageElement.expression)) { error(heritageElement.expression, ts.Diagnostics.An_interface_can_only_extend_an_identifier_Slashqualified_name_with_optional_type_arguments); } checkTypeReferenceNode(heritageElement); }); ts.forEach(node.members, checkSourceElement); if (produceDiagnostics) { checkTypeForDuplicateIndexSignatures(node); registerForUnusedIdentifiersCheck(node); } } function checkTypeAliasDeclaration(node) { // Grammar checking checkGrammarDecoratorsAndModifiers(node); checkTypeNameIsReserved(node.name, ts.Diagnostics.Type_alias_name_cannot_be_0); checkExportsOnMergedDeclarations(node); checkTypeParameters(node.typeParameters); checkSourceElement(node.type); registerForUnusedIdentifiersCheck(node); } function computeEnumMemberValues(node) { var nodeLinks = getNodeLinks(node); if (!(nodeLinks.flags & 16384 /* EnumValuesComputed */)) { nodeLinks.flags |= 16384 /* EnumValuesComputed */; var autoValue = 0; for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; var value = computeMemberValue(member, autoValue); getNodeLinks(member).enumMemberValue = value; autoValue = typeof value === "number" ? value + 1 : undefined; } } } function computeMemberValue(member, autoValue) { if (ts.isComputedNonLiteralName(member.name)) { error(member.name, ts.Diagnostics.Computed_property_names_are_not_allowed_in_enums); } else { var text = ts.getTextOfPropertyName(member.name); if (isNumericLiteralName(text) && !isInfinityOrNaNString(text)) { error(member.name, ts.Diagnostics.An_enum_member_cannot_have_a_numeric_name); } } if (member.initializer) { return computeConstantValue(member); } // In ambient non-const numeric enum declarations, enum members without initializers are // considered computed members (as opposed to having auto-incremented values). if (member.parent.flags & 8388608 /* Ambient */ && !ts.isEnumConst(member.parent) && getEnumKind(getSymbolOfNode(member.parent)) === 0 /* Numeric */) { return undefined; } // If the member declaration specifies no value, the member is considered a constant enum member. // If the member is the first member in the enum declaration, it is assigned the value zero. // Otherwise, it is assigned the value of the immediately preceding member plus one, and an error // occurs if the immediately preceding member is not a constant enum member. if (autoValue !== undefined) { return autoValue; } error(member.name, ts.Diagnostics.Enum_member_must_have_initializer); return undefined; } function computeConstantValue(member) { var enumKind = getEnumKind(getSymbolOfNode(member.parent)); var isConstEnum = ts.isEnumConst(member.parent); var initializer = member.initializer; var value = enumKind === 1 /* Literal */ && !isLiteralEnumMember(member) ? undefined : evaluate(initializer); if (value !== undefined) { if (isConstEnum && typeof value === "number" && !isFinite(value)) { error(initializer, isNaN(value) ? ts.Diagnostics.const_enum_member_initializer_was_evaluated_to_disallowed_value_NaN : ts.Diagnostics.const_enum_member_initializer_was_evaluated_to_a_non_finite_value); } } else if (enumKind === 1 /* Literal */) { error(initializer, ts.Diagnostics.Computed_values_are_not_permitted_in_an_enum_with_string_valued_members); return 0; } else if (isConstEnum) { error(initializer, ts.Diagnostics.const_enum_member_initializers_can_only_contain_literal_values_and_other_computed_enum_values); } else if (member.parent.flags & 8388608 /* Ambient */) { error(initializer, ts.Diagnostics.In_ambient_enum_declarations_member_initializer_must_be_constant_expression); } else { // Only here do we need to check that the initializer is assignable to the enum type. var source = checkExpression(initializer); if (!isTypeAssignableToKind(source, 296 /* NumberLike */)) { error(initializer, ts.Diagnostics.Only_numeric_enums_can_have_computed_members_but_this_expression_has_type_0_If_you_do_not_need_exhaustiveness_checks_consider_using_an_object_literal_instead, typeToString(source)); } else { checkTypeAssignableTo(source, getDeclaredTypeOfSymbol(getSymbolOfNode(member.parent)), initializer, /*headMessage*/ undefined); } } return value; function evaluate(expr) { switch (expr.kind) { case 207 /* PrefixUnaryExpression */: var value_2 = evaluate(expr.operand); if (typeof value_2 === "number") { switch (expr.operator) { case 39 /* PlusToken */: return value_2; case 40 /* MinusToken */: return -value_2; case 54 /* TildeToken */: return ~value_2; } } break; case 209 /* BinaryExpression */: var left = evaluate(expr.left); var right = evaluate(expr.right); if (typeof left === "number" && typeof right === "number") { switch (expr.operatorToken.kind) { case 51 /* BarToken */: return left | right; case 50 /* AmpersandToken */: return left & right; case 48 /* GreaterThanGreaterThanToken */: return left >> right; case 49 /* GreaterThanGreaterThanGreaterThanToken */: return left >>> right; case 47 /* LessThanLessThanToken */: return left << right; case 52 /* CaretToken */: return left ^ right; case 41 /* AsteriskToken */: return left * right; case 43 /* SlashToken */: return left / right; case 39 /* PlusToken */: return left + right; case 40 /* MinusToken */: return left - right; case 44 /* PercentToken */: return left % right; case 42 /* AsteriskAsteriskToken */: return Math.pow(left, right); } } else if (typeof left === "string" && typeof right === "string" && expr.operatorToken.kind === 39 /* PlusToken */) { return left + right; } break; case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: return expr.text; case 8 /* NumericLiteral */: checkGrammarNumericLiteral(expr); return +expr.text; case 200 /* ParenthesizedExpression */: return evaluate(expr.expression); case 75 /* Identifier */: var identifier = expr; if (isInfinityOrNaNString(identifier.escapedText)) { return +(identifier.escapedText); } return ts.nodeIsMissing(expr) ? 0 : evaluateEnumMember(expr, getSymbolOfNode(member.parent), identifier.escapedText); case 195 /* ElementAccessExpression */: case 194 /* PropertyAccessExpression */: var ex = expr; if (isConstantMemberAccess(ex)) { var type = getTypeOfExpression(ex.expression); if (type.symbol && type.symbol.flags & 384 /* Enum */) { var name = void 0; if (ex.kind === 194 /* PropertyAccessExpression */) { name = ex.name.escapedText; } else { name = ts.escapeLeadingUnderscores(ts.cast(ex.argumentExpression, ts.isLiteralExpression).text); } return evaluateEnumMember(expr, type.symbol, name); } } break; } return undefined; } function evaluateEnumMember(expr, enumSymbol, name) { var memberSymbol = enumSymbol.exports.get(name); if (memberSymbol) { var declaration = memberSymbol.valueDeclaration; if (declaration !== member) { if (isBlockScopedNameDeclaredBeforeUse(declaration, member)) { return getEnumMemberValue(declaration); } error(expr, ts.Diagnostics.A_member_initializer_in_a_enum_declaration_cannot_reference_members_declared_after_it_including_members_defined_in_other_enums); return 0; } else { error(expr, ts.Diagnostics.Property_0_is_used_before_being_assigned, symbolToString(memberSymbol)); } } return undefined; } } function isConstantMemberAccess(node) { return node.kind === 75 /* Identifier */ || node.kind === 194 /* PropertyAccessExpression */ && isConstantMemberAccess(node.expression) || node.kind === 195 /* ElementAccessExpression */ && isConstantMemberAccess(node.expression) && ts.isStringLiteralLike(node.argumentExpression); } function checkEnumDeclaration(node) { if (!produceDiagnostics) { return; } // Grammar checking checkGrammarDecoratorsAndModifiers(node); checkTypeNameIsReserved(node.name, ts.Diagnostics.Enum_name_cannot_be_0); checkCollisionWithRequireExportsInGeneratedCode(node, node.name); checkCollisionWithGlobalPromiseInGeneratedCode(node, node.name); checkExportsOnMergedDeclarations(node); node.members.forEach(checkEnumMember); computeEnumMemberValues(node); // Spec 2014 - Section 9.3: // It isn't possible for one enum declaration to continue the automatic numbering sequence of another, // and when an enum type has multiple declarations, only one declaration is permitted to omit a value // for the first member. // // Only perform this check once per symbol var enumSymbol = getSymbolOfNode(node); var firstDeclaration = ts.getDeclarationOfKind(enumSymbol, node.kind); if (node === firstDeclaration) { if (enumSymbol.declarations.length > 1) { var enumIsConst_1 = ts.isEnumConst(node); // check that const is placed\omitted on all enum declarations ts.forEach(enumSymbol.declarations, function (decl) { if (ts.isEnumDeclaration(decl) && ts.isEnumConst(decl) !== enumIsConst_1) { error(ts.getNameOfDeclaration(decl), ts.Diagnostics.Enum_declarations_must_all_be_const_or_non_const); } }); } var seenEnumMissingInitialInitializer_1 = false; ts.forEach(enumSymbol.declarations, function (declaration) { // return true if we hit a violation of the rule, false otherwise if (declaration.kind !== 248 /* EnumDeclaration */) { return false; } var enumDeclaration = declaration; if (!enumDeclaration.members.length) { return false; } var firstEnumMember = enumDeclaration.members[0]; if (!firstEnumMember.initializer) { if (seenEnumMissingInitialInitializer_1) { error(firstEnumMember.name, ts.Diagnostics.In_an_enum_with_multiple_declarations_only_one_declaration_can_omit_an_initializer_for_its_first_enum_element); } else { seenEnumMissingInitialInitializer_1 = true; } } }); } } function checkEnumMember(node) { if (ts.isPrivateIdentifier(node.name)) { error(node, ts.Diagnostics.An_enum_member_cannot_be_named_with_a_private_identifier); } } function getFirstNonAmbientClassOrFunctionDeclaration(symbol) { var declarations = symbol.declarations; for (var _i = 0, declarations_8 = declarations; _i < declarations_8.length; _i++) { var declaration = declarations_8[_i]; if ((declaration.kind === 245 /* ClassDeclaration */ || (declaration.kind === 244 /* FunctionDeclaration */ && ts.nodeIsPresent(declaration.body))) && !(declaration.flags & 8388608 /* Ambient */)) { return declaration; } } return undefined; } function inSameLexicalScope(node1, node2) { var container1 = ts.getEnclosingBlockScopeContainer(node1); var container2 = ts.getEnclosingBlockScopeContainer(node2); if (isGlobalSourceFile(container1)) { return isGlobalSourceFile(container2); } else if (isGlobalSourceFile(container2)) { return false; } else { return container1 === container2; } } function checkModuleDeclaration(node) { if (produceDiagnostics) { // Grammar checking var isGlobalAugmentation = ts.isGlobalScopeAugmentation(node); var inAmbientContext = node.flags & 8388608 /* Ambient */; if (isGlobalAugmentation && !inAmbientContext) { error(node.name, ts.Diagnostics.Augmentations_for_the_global_scope_should_have_declare_modifier_unless_they_appear_in_already_ambient_context); } var isAmbientExternalModule = ts.isAmbientModule(node); var contextErrorMessage = isAmbientExternalModule ? ts.Diagnostics.An_ambient_module_declaration_is_only_allowed_at_the_top_level_in_a_file : ts.Diagnostics.A_namespace_declaration_is_only_allowed_in_a_namespace_or_module; if (checkGrammarModuleElementContext(node, contextErrorMessage)) { // If we hit a module declaration in an illegal context, just bail out to avoid cascading errors. return; } if (!checkGrammarDecoratorsAndModifiers(node)) { if (!inAmbientContext && node.name.kind === 10 /* StringLiteral */) { grammarErrorOnNode(node.name, ts.Diagnostics.Only_ambient_modules_can_use_quoted_names); } } if (ts.isIdentifier(node.name)) { checkCollisionWithRequireExportsInGeneratedCode(node, node.name); checkCollisionWithGlobalPromiseInGeneratedCode(node, node.name); } checkExportsOnMergedDeclarations(node); var symbol = getSymbolOfNode(node); // The following checks only apply on a non-ambient instantiated module declaration. if (symbol.flags & 512 /* ValueModule */ && !inAmbientContext && symbol.declarations.length > 1 && isInstantiatedModule(node, !!compilerOptions.preserveConstEnums || !!compilerOptions.isolatedModules)) { var firstNonAmbientClassOrFunc = getFirstNonAmbientClassOrFunctionDeclaration(symbol); if (firstNonAmbientClassOrFunc) { if (ts.getSourceFileOfNode(node) !== ts.getSourceFileOfNode(firstNonAmbientClassOrFunc)) { error(node.name, ts.Diagnostics.A_namespace_declaration_cannot_be_in_a_different_file_from_a_class_or_function_with_which_it_is_merged); } else if (node.pos < firstNonAmbientClassOrFunc.pos) { error(node.name, ts.Diagnostics.A_namespace_declaration_cannot_be_located_prior_to_a_class_or_function_with_which_it_is_merged); } } // if the module merges with a class declaration in the same lexical scope, // we need to track this to ensure the correct emit. var mergedClass = ts.getDeclarationOfKind(symbol, 245 /* ClassDeclaration */); if (mergedClass && inSameLexicalScope(node, mergedClass)) { getNodeLinks(node).flags |= 32768 /* LexicalModuleMergesWithClass */; } } if (isAmbientExternalModule) { if (ts.isExternalModuleAugmentation(node)) { // body of the augmentation should be checked for consistency only if augmentation was applied to its target (either global scope or module) // otherwise we'll be swamped in cascading errors. // We can detect if augmentation was applied using following rules: // - augmentation for a global scope is always applied // - augmentation for some external module is applied if symbol for augmentation is merged (it was combined with target module). var checkBody = isGlobalAugmentation || (getSymbolOfNode(node).flags & 33554432 /* Transient */); if (checkBody && node.body) { for (var _i = 0, _a = node.body.statements; _i < _a.length; _i++) { var statement = _a[_i]; checkModuleAugmentationElement(statement, isGlobalAugmentation); } } } else if (isGlobalSourceFile(node.parent)) { if (isGlobalAugmentation) { error(node.name, ts.Diagnostics.Augmentations_for_the_global_scope_can_only_be_directly_nested_in_external_modules_or_ambient_module_declarations); } else if (ts.isExternalModuleNameRelative(ts.getTextOfIdentifierOrLiteral(node.name))) { error(node.name, ts.Diagnostics.Ambient_module_declaration_cannot_specify_relative_module_name); } } else { if (isGlobalAugmentation) { error(node.name, ts.Diagnostics.Augmentations_for_the_global_scope_can_only_be_directly_nested_in_external_modules_or_ambient_module_declarations); } else { // Node is not an augmentation and is not located on the script level. // This means that this is declaration of ambient module that is located in other module or namespace which is prohibited. error(node.name, ts.Diagnostics.Ambient_modules_cannot_be_nested_in_other_modules_or_namespaces); } } } } if (node.body) { checkSourceElement(node.body); if (!ts.isGlobalScopeAugmentation(node)) { registerForUnusedIdentifiersCheck(node); } } } function checkModuleAugmentationElement(node, isGlobalAugmentation) { switch (node.kind) { case 225 /* VariableStatement */: // error each individual name in variable statement instead of marking the entire variable statement for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var decl = _a[_i]; checkModuleAugmentationElement(decl, isGlobalAugmentation); } break; case 259 /* ExportAssignment */: case 260 /* ExportDeclaration */: grammarErrorOnFirstToken(node, ts.Diagnostics.Exports_and_export_assignments_are_not_permitted_in_module_augmentations); break; case 253 /* ImportEqualsDeclaration */: case 254 /* ImportDeclaration */: grammarErrorOnFirstToken(node, ts.Diagnostics.Imports_are_not_permitted_in_module_augmentations_Consider_moving_them_to_the_enclosing_external_module); break; case 191 /* BindingElement */: case 242 /* VariableDeclaration */: var name = node.name; if (ts.isBindingPattern(name)) { for (var _b = 0, _c = name.elements; _b < _c.length; _b++) { var el = _c[_b]; // mark individual names in binding pattern checkModuleAugmentationElement(el, isGlobalAugmentation); } break; } // falls through case 245 /* ClassDeclaration */: case 248 /* EnumDeclaration */: case 244 /* FunctionDeclaration */: case 246 /* InterfaceDeclaration */: case 249 /* ModuleDeclaration */: case 247 /* TypeAliasDeclaration */: if (isGlobalAugmentation) { return; } var symbol = getSymbolOfNode(node); if (symbol) { // module augmentations cannot introduce new names on the top level scope of the module // this is done it two steps // 1. quick check - if symbol for node is not merged - this is local symbol to this augmentation - report error // 2. main check - report error if value declaration of the parent symbol is module augmentation) var reportError = !(symbol.flags & 33554432 /* Transient */); if (!reportError) { // symbol should not originate in augmentation reportError = !!symbol.parent && ts.isExternalModuleAugmentation(symbol.parent.declarations[0]); } } break; } } function getFirstNonModuleExportsIdentifier(node) { switch (node.kind) { case 75 /* Identifier */: return node; case 153 /* QualifiedName */: do { node = node.left; } while (node.kind !== 75 /* Identifier */); return node; case 194 /* PropertyAccessExpression */: do { if (ts.isModuleExportsAccessExpression(node.expression) && !ts.isPrivateIdentifier(node.name)) { return node.name; } node = node.expression; } while (node.kind !== 75 /* Identifier */); return node; } } function checkExternalImportOrExportDeclaration(node) { var moduleName = ts.getExternalModuleName(node); if (!moduleName || ts.nodeIsMissing(moduleName)) { // Should be a parse error. return false; } if (!ts.isStringLiteral(moduleName)) { error(moduleName, ts.Diagnostics.String_literal_expected); return false; } var inAmbientExternalModule = node.parent.kind === 250 /* ModuleBlock */ && ts.isAmbientModule(node.parent.parent); if (node.parent.kind !== 290 /* SourceFile */ && !inAmbientExternalModule) { error(moduleName, node.kind === 260 /* ExportDeclaration */ ? ts.Diagnostics.Export_declarations_are_not_permitted_in_a_namespace : ts.Diagnostics.Import_declarations_in_a_namespace_cannot_reference_a_module); return false; } if (inAmbientExternalModule && ts.isExternalModuleNameRelative(moduleName.text)) { // we have already reported errors on top level imports/exports in external module augmentations in checkModuleDeclaration // no need to do this again. if (!isTopLevelInExternalModuleAugmentation(node)) { // TypeScript 1.0 spec (April 2013): 12.1.6 // An ExternalImportDeclaration in an AmbientExternalModuleDeclaration may reference // other external modules only through top - level external module names. // Relative external module names are not permitted. error(node, ts.Diagnostics.Import_or_export_declaration_in_an_ambient_module_declaration_cannot_reference_module_through_relative_module_name); return false; } } return true; } function checkAliasSymbol(node) { var symbol = getSymbolOfNode(node); var target = resolveAlias(symbol); var shouldSkipWithJSExpandoTargets = symbol.flags & 67108864 /* Assignment */; if (!shouldSkipWithJSExpandoTargets && target !== unknownSymbol) { // For external modules symbol represents local symbol for an alias. // This local symbol will merge any other local declarations (excluding other aliases) // and symbol.flags will contains combined representation for all merged declaration. // Based on symbol.flags we can compute a set of excluded meanings (meaning that resolved alias should not have, // otherwise it will conflict with some local declaration). Note that in addition to normal flags we include matching SymbolFlags.Export* // in order to prevent collisions with declarations that were exported from the current module (they still contribute to local names). symbol = getMergedSymbol(symbol.exportSymbol || symbol); var excludedMeanings = (symbol.flags & (111551 /* Value */ | 1048576 /* ExportValue */) ? 111551 /* Value */ : 0) | (symbol.flags & 788968 /* Type */ ? 788968 /* Type */ : 0) | (symbol.flags & 1920 /* Namespace */ ? 1920 /* Namespace */ : 0); if (target.flags & excludedMeanings) { var message = node.kind === 263 /* ExportSpecifier */ ? ts.Diagnostics.Export_declaration_conflicts_with_exported_declaration_of_0 : ts.Diagnostics.Import_declaration_conflicts_with_local_declaration_of_0; error(node, message, symbolToString(symbol)); } // Don't allow to re-export something with no value side when `--isolatedModules` is set. if (compilerOptions.isolatedModules && node.kind === 263 /* ExportSpecifier */ && !node.parent.parent.isTypeOnly && !(target.flags & 111551 /* Value */) && !(node.flags & 8388608 /* Ambient */)) { error(node, ts.Diagnostics.Re_exporting_a_type_when_the_isolatedModules_flag_is_provided_requires_using_export_type); } } } function checkImportBinding(node) { checkCollisionWithRequireExportsInGeneratedCode(node, node.name); checkCollisionWithGlobalPromiseInGeneratedCode(node, node.name); checkAliasSymbol(node); } function checkImportDeclaration(node) { if (checkGrammarModuleElementContext(node, ts.Diagnostics.An_import_declaration_can_only_be_used_in_a_namespace_or_module)) { // If we hit an import declaration in an illegal context, just bail out to avoid cascading errors. return; } if (!checkGrammarDecoratorsAndModifiers(node) && ts.hasModifiers(node)) { grammarErrorOnFirstToken(node, ts.Diagnostics.An_import_declaration_cannot_have_modifiers); } if (checkExternalImportOrExportDeclaration(node)) { var importClause = node.importClause; if (importClause && !checkGrammarImportClause(importClause)) { if (importClause.name) { checkImportBinding(importClause); } if (importClause.namedBindings) { if (importClause.namedBindings.kind === 256 /* NamespaceImport */) { checkImportBinding(importClause.namedBindings); } else { var moduleExisted = resolveExternalModuleName(node, node.moduleSpecifier); if (moduleExisted) { ts.forEach(importClause.namedBindings.elements, checkImportBinding); } } } } } } function checkImportEqualsDeclaration(node) { if (checkGrammarModuleElementContext(node, ts.Diagnostics.An_import_declaration_can_only_be_used_in_a_namespace_or_module)) { // If we hit an import declaration in an illegal context, just bail out to avoid cascading errors. return; } checkGrammarDecoratorsAndModifiers(node); if (ts.isInternalModuleImportEqualsDeclaration(node) || checkExternalImportOrExportDeclaration(node)) { checkImportBinding(node); if (ts.hasModifier(node, 1 /* Export */)) { markExportAsReferenced(node); } if (node.moduleReference.kind !== 265 /* ExternalModuleReference */) { var target = resolveAlias(getSymbolOfNode(node)); if (target !== unknownSymbol) { if (target.flags & 111551 /* Value */) { // Target is a value symbol, check that it is not hidden by a local declaration with the same name var moduleName = ts.getFirstIdentifier(node.moduleReference); if (!(resolveEntityName(moduleName, 111551 /* Value */ | 1920 /* Namespace */).flags & 1920 /* Namespace */)) { error(moduleName, ts.Diagnostics.Module_0_is_hidden_by_a_local_declaration_with_the_same_name, ts.declarationNameToString(moduleName)); } } if (target.flags & 788968 /* Type */) { checkTypeNameIsReserved(node.name, ts.Diagnostics.Import_name_cannot_be_0); } } } else { if (moduleKind >= ts.ModuleKind.ES2015 && !(node.flags & 8388608 /* Ambient */)) { // Import equals declaration is deprecated in es6 or above grammarErrorOnNode(node, ts.Diagnostics.Import_assignment_cannot_be_used_when_targeting_ECMAScript_modules_Consider_using_import_Asterisk_as_ns_from_mod_import_a_from_mod_import_d_from_mod_or_another_module_format_instead); } } } } function checkExportDeclaration(node) { if (checkGrammarModuleElementContext(node, ts.Diagnostics.An_export_declaration_can_only_be_used_in_a_module)) { // If we hit an export in an illegal context, just bail out to avoid cascading errors. return; } if (!checkGrammarDecoratorsAndModifiers(node) && ts.hasModifiers(node)) { grammarErrorOnFirstToken(node, ts.Diagnostics.An_export_declaration_cannot_have_modifiers); } if (node.moduleSpecifier && node.exportClause && ts.isNamedExports(node.exportClause) && ts.length(node.exportClause.elements) && languageVersion === 0 /* ES3 */) { checkExternalEmitHelpers(node, 1048576 /* CreateBinding */); } checkGrammarExportDeclaration(node); if (!node.moduleSpecifier || checkExternalImportOrExportDeclaration(node)) { if (node.exportClause && !ts.isNamespaceExport(node.exportClause)) { // export { x, y } // export { x, y } from "foo" ts.forEach(node.exportClause.elements, checkExportSpecifier); var inAmbientExternalModule = node.parent.kind === 250 /* ModuleBlock */ && ts.isAmbientModule(node.parent.parent); var inAmbientNamespaceDeclaration = !inAmbientExternalModule && node.parent.kind === 250 /* ModuleBlock */ && !node.moduleSpecifier && node.flags & 8388608 /* Ambient */; if (node.parent.kind !== 290 /* SourceFile */ && !inAmbientExternalModule && !inAmbientNamespaceDeclaration) { error(node, ts.Diagnostics.Export_declarations_are_not_permitted_in_a_namespace); } } else { // export * from "foo" var moduleSymbol = resolveExternalModuleName(node, node.moduleSpecifier); if (moduleSymbol && hasExportAssignmentSymbol(moduleSymbol)) { error(node.moduleSpecifier, ts.Diagnostics.Module_0_uses_export_and_cannot_be_used_with_export_Asterisk, symbolToString(moduleSymbol)); } else if (node.exportClause) { checkAliasSymbol(node.exportClause); } if (moduleKind !== ts.ModuleKind.System && moduleKind < ts.ModuleKind.ES2015) { checkExternalEmitHelpers(node, 65536 /* ExportStar */); } } } } function checkGrammarExportDeclaration(node) { var _a; var isTypeOnlyExportStar = node.isTypeOnly && ((_a = node.exportClause) === null || _a === void 0 ? void 0 : _a.kind) !== 261 /* NamedExports */; if (isTypeOnlyExportStar) { grammarErrorOnNode(node, ts.Diagnostics.Only_named_exports_may_use_export_type); } return !isTypeOnlyExportStar; } function checkGrammarModuleElementContext(node, errorMessage) { var isInAppropriateContext = node.parent.kind === 290 /* SourceFile */ || node.parent.kind === 250 /* ModuleBlock */ || node.parent.kind === 249 /* ModuleDeclaration */; if (!isInAppropriateContext) { grammarErrorOnFirstToken(node, errorMessage); } return !isInAppropriateContext; } function importClauseContainsReferencedImport(importClause) { return ts.forEachImportClauseDeclaration(importClause, function (declaration) { return !!getSymbolOfNode(declaration).isReferenced; }); } function importClauseContainsConstEnumUsedAsValue(importClause) { return ts.forEachImportClauseDeclaration(importClause, function (declaration) { return !!getSymbolLinks(getSymbolOfNode(declaration)).constEnumReferenced; }); } function checkImportsForTypeOnlyConversion(sourceFile) { for (var _i = 0, _a = sourceFile.statements; _i < _a.length; _i++) { var statement = _a[_i]; if (ts.isImportDeclaration(statement) && statement.importClause && !statement.importClause.isTypeOnly && importClauseContainsReferencedImport(statement.importClause) && !isReferencedAliasDeclaration(statement.importClause, /*checkChildren*/ true) && !importClauseContainsConstEnumUsedAsValue(statement.importClause)) { error(statement, ts.Diagnostics.This_import_is_never_used_as_a_value_and_must_use_import_type_because_the_importsNotUsedAsValues_is_set_to_error); } } } function checkExportSpecifier(node) { checkAliasSymbol(node); if (ts.getEmitDeclarations(compilerOptions)) { collectLinkedAliases(node.propertyName || node.name, /*setVisibility*/ true); } if (!node.parent.parent.moduleSpecifier) { var exportedName = node.propertyName || node.name; // find immediate value referenced by exported name (SymbolFlags.Alias is set so we don't chase down aliases) var symbol = resolveName(exportedName, exportedName.escapedText, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */ | 2097152 /* Alias */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ true); if (symbol && (symbol === undefinedSymbol || symbol === globalThisSymbol || isGlobalSourceFile(getDeclarationContainer(symbol.declarations[0])))) { error(exportedName, ts.Diagnostics.Cannot_export_0_Only_local_declarations_can_be_exported_from_a_module, ts.idText(exportedName)); } else { markExportAsReferenced(node); var target = symbol && (symbol.flags & 2097152 /* Alias */ ? resolveAlias(symbol) : symbol); if (!target || target === unknownSymbol || target.flags & 111551 /* Value */) { checkExpressionCached(node.propertyName || node.name); } } } } function checkExportAssignment(node) { if (checkGrammarModuleElementContext(node, ts.Diagnostics.An_export_assignment_can_only_be_used_in_a_module)) { // If we hit an export assignment in an illegal context, just bail out to avoid cascading errors. return; } var container = node.parent.kind === 290 /* SourceFile */ ? node.parent : node.parent.parent; if (container.kind === 249 /* ModuleDeclaration */ && !ts.isAmbientModule(container)) { if (node.isExportEquals) { error(node, ts.Diagnostics.An_export_assignment_cannot_be_used_in_a_namespace); } else { error(node, ts.Diagnostics.A_default_export_can_only_be_used_in_an_ECMAScript_style_module); } return; } // Grammar checking if (!checkGrammarDecoratorsAndModifiers(node) && ts.hasModifiers(node)) { grammarErrorOnFirstToken(node, ts.Diagnostics.An_export_assignment_cannot_have_modifiers); } if (node.expression.kind === 75 /* Identifier */) { var id = node.expression; var sym = resolveEntityName(id, 67108863 /* All */, /*ignoreErrors*/ true, /*dontResolveAlias*/ true, node); if (sym) { markAliasReferenced(sym, id); // If not a value, we're interpreting the identifier as a type export, along the lines of (`export { Id as default }`) var target = sym.flags & 2097152 /* Alias */ ? resolveAlias(sym) : sym; if (target === unknownSymbol || target.flags & 111551 /* Value */) { // However if it is a value, we need to check it's being used correctly checkExpressionCached(node.expression); } } if (ts.getEmitDeclarations(compilerOptions)) { collectLinkedAliases(node.expression, /*setVisibility*/ true); } } else { checkExpressionCached(node.expression); } checkExternalModuleExports(container); if ((node.flags & 8388608 /* Ambient */) && !ts.isEntityNameExpression(node.expression)) { grammarErrorOnNode(node.expression, ts.Diagnostics.The_expression_of_an_export_assignment_must_be_an_identifier_or_qualified_name_in_an_ambient_context); } if (node.isExportEquals && !(node.flags & 8388608 /* Ambient */)) { if (moduleKind >= ts.ModuleKind.ES2015) { // export assignment is not supported in es6 modules grammarErrorOnNode(node, ts.Diagnostics.Export_assignment_cannot_be_used_when_targeting_ECMAScript_modules_Consider_using_export_default_or_another_module_format_instead); } else if (moduleKind === ts.ModuleKind.System) { // system modules does not support export assignment grammarErrorOnNode(node, ts.Diagnostics.Export_assignment_is_not_supported_when_module_flag_is_system); } } } function hasExportedMembers(moduleSymbol) { return ts.forEachEntry(moduleSymbol.exports, function (_, id) { return id !== "export="; }); } function checkExternalModuleExports(node) { var moduleSymbol = getSymbolOfNode(node); var links = getSymbolLinks(moduleSymbol); if (!links.exportsChecked) { var exportEqualsSymbol = moduleSymbol.exports.get("export="); if (exportEqualsSymbol && hasExportedMembers(moduleSymbol)) { var declaration = getDeclarationOfAliasSymbol(exportEqualsSymbol) || exportEqualsSymbol.valueDeclaration; if (!isTopLevelInExternalModuleAugmentation(declaration) && !ts.isInJSFile(declaration)) { error(declaration, ts.Diagnostics.An_export_assignment_cannot_be_used_in_a_module_with_other_exported_elements); } } // Checks for export * conflicts var exports_2 = getExportsOfModule(moduleSymbol); if (exports_2) { exports_2.forEach(function (_a, id) { var declarations = _a.declarations, flags = _a.flags; if (id === "__export") { return; } // ECMA262: 15.2.1.1 It is a Syntax Error if the ExportedNames of ModuleItemList contains any duplicate entries. // (TS Exceptions: namespaces, function overloads, enums, and interfaces) if (flags & (1920 /* Namespace */ | 64 /* Interface */ | 384 /* Enum */)) { return; } var exportedDeclarationsCount = ts.countWhere(declarations, isNotOverloadAndNotAccessor); if (flags & 524288 /* TypeAlias */ && exportedDeclarationsCount <= 2) { // it is legal to merge type alias with other values // so count should be either 1 (just type alias) or 2 (type alias + merged value) return; } if (exportedDeclarationsCount > 1) { for (var _i = 0, declarations_9 = declarations; _i < declarations_9.length; _i++) { var declaration = declarations_9[_i]; if (isNotOverload(declaration)) { diagnostics.add(ts.createDiagnosticForNode(declaration, ts.Diagnostics.Cannot_redeclare_exported_variable_0, ts.unescapeLeadingUnderscores(id))); } } } }); } links.exportsChecked = true; } } function checkSourceElement(node) { if (node) { var saveCurrentNode = currentNode; currentNode = node; instantiationCount = 0; checkSourceElementWorker(node); currentNode = saveCurrentNode; } } function checkSourceElementWorker(node) { if (ts.isInJSFile(node)) { ts.forEach(node.jsDoc, function (_a) { var tags = _a.tags; return ts.forEach(tags, checkSourceElement); }); } var kind = node.kind; if (cancellationToken) { // Only bother checking on a few construct kinds. We don't want to be excessively // hitting the cancellation token on every node we check. switch (kind) { case 249 /* ModuleDeclaration */: case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: case 244 /* FunctionDeclaration */: cancellationToken.throwIfCancellationRequested(); } } if (kind >= 225 /* FirstStatement */ && kind <= 241 /* LastStatement */ && node.flowNode && !isReachableFlowNode(node.flowNode)) { errorOrSuggestion(compilerOptions.allowUnreachableCode === false, node, ts.Diagnostics.Unreachable_code_detected); } switch (kind) { case 155 /* TypeParameter */: return checkTypeParameter(node); case 156 /* Parameter */: return checkParameter(node); case 159 /* PropertyDeclaration */: return checkPropertyDeclaration(node); case 158 /* PropertySignature */: return checkPropertySignature(node); case 170 /* FunctionType */: case 171 /* ConstructorType */: case 165 /* CallSignature */: case 166 /* ConstructSignature */: case 167 /* IndexSignature */: return checkSignatureDeclaration(node); case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: return checkMethodDeclaration(node); case 162 /* Constructor */: return checkConstructorDeclaration(node); case 163 /* GetAccessor */: case 164 /* SetAccessor */: return checkAccessorDeclaration(node); case 169 /* TypeReference */: return checkTypeReferenceNode(node); case 168 /* TypePredicate */: return checkTypePredicate(node); case 172 /* TypeQuery */: return checkTypeQuery(node); case 173 /* TypeLiteral */: return checkTypeLiteral(node); case 174 /* ArrayType */: return checkArrayType(node); case 175 /* TupleType */: return checkTupleType(node); case 178 /* UnionType */: case 179 /* IntersectionType */: return checkUnionOrIntersectionType(node); case 182 /* ParenthesizedType */: case 176 /* OptionalType */: case 177 /* RestType */: return checkSourceElement(node.type); case 183 /* ThisType */: return checkThisType(node); case 184 /* TypeOperator */: return checkTypeOperator(node); case 180 /* ConditionalType */: return checkConditionalType(node); case 181 /* InferType */: return checkInferType(node); case 188 /* ImportType */: return checkImportType(node); case 307 /* JSDocAugmentsTag */: return checkJSDocAugmentsTag(node); case 308 /* JSDocImplementsTag */: return checkJSDocImplementsTag(node); case 322 /* JSDocTypedefTag */: case 315 /* JSDocCallbackTag */: case 316 /* JSDocEnumTag */: return checkJSDocTypeAliasTag(node); case 321 /* JSDocTemplateTag */: return checkJSDocTemplateTag(node); case 320 /* JSDocTypeTag */: return checkJSDocTypeTag(node); case 317 /* JSDocParameterTag */: return checkJSDocParameterTag(node); case 323 /* JSDocPropertyTag */: return checkJSDocPropertyTag(node); case 300 /* JSDocFunctionType */: checkJSDocFunctionType(node); // falls through case 298 /* JSDocNonNullableType */: case 297 /* JSDocNullableType */: case 295 /* JSDocAllType */: case 296 /* JSDocUnknownType */: case 304 /* JSDocTypeLiteral */: checkJSDocTypeIsInJsFile(node); ts.forEachChild(node, checkSourceElement); return; case 301 /* JSDocVariadicType */: checkJSDocVariadicType(node); return; case 294 /* JSDocTypeExpression */: return checkSourceElement(node.type); case 185 /* IndexedAccessType */: return checkIndexedAccessType(node); case 186 /* MappedType */: return checkMappedType(node); case 244 /* FunctionDeclaration */: return checkFunctionDeclaration(node); case 223 /* Block */: case 250 /* ModuleBlock */: return checkBlock(node); case 225 /* VariableStatement */: return checkVariableStatement(node); case 226 /* ExpressionStatement */: return checkExpressionStatement(node); case 227 /* IfStatement */: return checkIfStatement(node); case 228 /* DoStatement */: return checkDoStatement(node); case 229 /* WhileStatement */: return checkWhileStatement(node); case 230 /* ForStatement */: return checkForStatement(node); case 231 /* ForInStatement */: return checkForInStatement(node); case 232 /* ForOfStatement */: return checkForOfStatement(node); case 233 /* ContinueStatement */: case 234 /* BreakStatement */: return checkBreakOrContinueStatement(node); case 235 /* ReturnStatement */: return checkReturnStatement(node); case 236 /* WithStatement */: return checkWithStatement(node); case 237 /* SwitchStatement */: return checkSwitchStatement(node); case 238 /* LabeledStatement */: return checkLabeledStatement(node); case 239 /* ThrowStatement */: return checkThrowStatement(node); case 240 /* TryStatement */: return checkTryStatement(node); case 242 /* VariableDeclaration */: return checkVariableDeclaration(node); case 191 /* BindingElement */: return checkBindingElement(node); case 245 /* ClassDeclaration */: return checkClassDeclaration(node); case 246 /* InterfaceDeclaration */: return checkInterfaceDeclaration(node); case 247 /* TypeAliasDeclaration */: return checkTypeAliasDeclaration(node); case 248 /* EnumDeclaration */: return checkEnumDeclaration(node); case 249 /* ModuleDeclaration */: return checkModuleDeclaration(node); case 254 /* ImportDeclaration */: return checkImportDeclaration(node); case 253 /* ImportEqualsDeclaration */: return checkImportEqualsDeclaration(node); case 260 /* ExportDeclaration */: return checkExportDeclaration(node); case 259 /* ExportAssignment */: return checkExportAssignment(node); case 224 /* EmptyStatement */: case 241 /* DebuggerStatement */: checkGrammarStatementInAmbientContext(node); return; case 264 /* MissingDeclaration */: return checkMissingDeclaration(node); } } function checkJSDocTypeIsInJsFile(node) { if (!ts.isInJSFile(node)) { grammarErrorOnNode(node, ts.Diagnostics.JSDoc_types_can_only_be_used_inside_documentation_comments); } } function checkJSDocVariadicType(node) { checkJSDocTypeIsInJsFile(node); checkSourceElement(node.type); // Only legal location is in the *last* parameter tag or last parameter of a JSDoc function. var parent = node.parent; if (ts.isParameter(parent) && ts.isJSDocFunctionType(parent.parent)) { if (ts.last(parent.parent.parameters) !== parent) { error(node, ts.Diagnostics.A_rest_parameter_must_be_last_in_a_parameter_list); } return; } if (!ts.isJSDocTypeExpression(parent)) { error(node, ts.Diagnostics.JSDoc_may_only_appear_in_the_last_parameter_of_a_signature); } var paramTag = node.parent.parent; if (!ts.isJSDocParameterTag(paramTag)) { error(node, ts.Diagnostics.JSDoc_may_only_appear_in_the_last_parameter_of_a_signature); return; } var param = ts.getParameterSymbolFromJSDoc(paramTag); if (!param) { // We will error in `checkJSDocParameterTag`. return; } var host = ts.getHostSignatureFromJSDoc(paramTag); if (!host || ts.last(host.parameters).symbol !== param) { error(node, ts.Diagnostics.A_rest_parameter_must_be_last_in_a_parameter_list); } } function getTypeFromJSDocVariadicType(node) { var type = getTypeFromTypeNode(node.type); var parent = node.parent; var paramTag = node.parent.parent; if (ts.isJSDocTypeExpression(node.parent) && ts.isJSDocParameterTag(paramTag)) { // Else we will add a diagnostic, see `checkJSDocVariadicType`. var host_1 = ts.getHostSignatureFromJSDoc(paramTag); if (host_1) { /* Only return an array type if the corresponding parameter is marked as a rest parameter, or if there are no parameters. So in the following situation we will not create an array type: /** @param {...number} a * / function f(a) {} Because `a` will just be of type `number | undefined`. A synthetic `...args` will also be added, which *will* get an array type. */ var lastParamDeclaration = ts.lastOrUndefined(host_1.parameters); var symbol = ts.getParameterSymbolFromJSDoc(paramTag); if (!lastParamDeclaration || symbol && lastParamDeclaration.symbol === symbol && ts.isRestParameter(lastParamDeclaration)) { return createArrayType(type); } } } if (ts.isParameter(parent) && ts.isJSDocFunctionType(parent.parent)) { return createArrayType(type); } return addOptionality(type); } // Function and class expression bodies are checked after all statements in the enclosing body. This is // to ensure constructs like the following are permitted: // const foo = function () { // const s = foo(); // return "hello"; // } // Here, performing a full type check of the body of the function expression whilst in the process of // determining the type of foo would cause foo to be given type any because of the recursive reference. // Delaying the type check of the body ensures foo has been assigned a type. function checkNodeDeferred(node) { var enclosingFile = ts.getSourceFileOfNode(node); var links = getNodeLinks(enclosingFile); if (!(links.flags & 1 /* TypeChecked */)) { links.deferredNodes = links.deferredNodes || ts.createMap(); var id = "" + getNodeId(node); links.deferredNodes.set(id, node); } } function checkDeferredNodes(context) { var links = getNodeLinks(context); if (links.deferredNodes) { links.deferredNodes.forEach(checkDeferredNode); } } function checkDeferredNode(node) { var saveCurrentNode = currentNode; currentNode = node; instantiationCount = 0; switch (node.kind) { case 196 /* CallExpression */: case 197 /* NewExpression */: case 198 /* TaggedTemplateExpression */: case 157 /* Decorator */: case 268 /* JsxOpeningElement */: // These node kinds are deferred checked when overload resolution fails // To save on work, we ensure the arguments are checked just once, in // a deferred way resolveUntypedCall(node); break; case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: checkFunctionExpressionOrObjectLiteralMethodDeferred(node); break; case 163 /* GetAccessor */: case 164 /* SetAccessor */: checkAccessorDeclaration(node); break; case 214 /* ClassExpression */: checkClassExpressionDeferred(node); break; case 267 /* JsxSelfClosingElement */: checkJsxSelfClosingElementDeferred(node); break; case 266 /* JsxElement */: checkJsxElementDeferred(node); break; } currentNode = saveCurrentNode; } function checkSourceFile(node) { ts.performance.mark("beforeCheck"); checkSourceFileWorker(node); ts.performance.mark("afterCheck"); ts.performance.measure("Check", "beforeCheck", "afterCheck"); } function unusedIsError(kind, isAmbient) { if (isAmbient) { return false; } switch (kind) { case 0 /* Local */: return !!compilerOptions.noUnusedLocals; case 1 /* Parameter */: return !!compilerOptions.noUnusedParameters; default: return ts.Debug.assertNever(kind); } } function getPotentiallyUnusedIdentifiers(sourceFile) { return allPotentiallyUnusedIdentifiers.get(sourceFile.path) || ts.emptyArray; } // Fully type check a source file and collect the relevant diagnostics. function checkSourceFileWorker(node) { var links = getNodeLinks(node); if (!(links.flags & 1 /* TypeChecked */)) { if (ts.skipTypeChecking(node, compilerOptions, host)) { return; } // Grammar checking checkGrammarSourceFile(node); ts.clear(potentialThisCollisions); ts.clear(potentialNewTargetCollisions); ts.clear(potentialWeakMapCollisions); ts.forEach(node.statements, checkSourceElement); checkSourceElement(node.endOfFileToken); checkDeferredNodes(node); if (ts.isExternalOrCommonJsModule(node)) { registerForUnusedIdentifiersCheck(node); } if (!node.isDeclarationFile && (compilerOptions.noUnusedLocals || compilerOptions.noUnusedParameters)) { checkUnusedIdentifiers(getPotentiallyUnusedIdentifiers(node), function (containingNode, kind, diag) { if (!ts.containsParseError(containingNode) && unusedIsError(kind, !!(containingNode.flags & 8388608 /* Ambient */))) { diagnostics.add(diag); } }); } if (compilerOptions.importsNotUsedAsValues === 2 /* Error */ && !node.isDeclarationFile && ts.isExternalModule(node)) { checkImportsForTypeOnlyConversion(node); } if (ts.isExternalOrCommonJsModule(node)) { checkExternalModuleExports(node); } if (potentialThisCollisions.length) { ts.forEach(potentialThisCollisions, checkIfThisIsCapturedInEnclosingScope); ts.clear(potentialThisCollisions); } if (potentialNewTargetCollisions.length) { ts.forEach(potentialNewTargetCollisions, checkIfNewTargetIsCapturedInEnclosingScope); ts.clear(potentialNewTargetCollisions); } if (potentialWeakMapCollisions.length) { ts.forEach(potentialWeakMapCollisions, checkWeakMapCollision); ts.clear(potentialWeakMapCollisions); } links.flags |= 1 /* TypeChecked */; } } function getDiagnostics(sourceFile, ct) { try { // Record the cancellation token so it can be checked later on during checkSourceElement. // Do this in a finally block so we can ensure that it gets reset back to nothing after // this call is done. cancellationToken = ct; return getDiagnosticsWorker(sourceFile); } finally { cancellationToken = undefined; } } function getDiagnosticsWorker(sourceFile) { throwIfNonDiagnosticsProducing(); if (sourceFile) { // Some global diagnostics are deferred until they are needed and // may not be reported in the first call to getGlobalDiagnostics. // We should catch these changes and report them. var previousGlobalDiagnostics = diagnostics.getGlobalDiagnostics(); var previousGlobalDiagnosticsSize = previousGlobalDiagnostics.length; checkSourceFile(sourceFile); var semanticDiagnostics = diagnostics.getDiagnostics(sourceFile.fileName); var currentGlobalDiagnostics = diagnostics.getGlobalDiagnostics(); if (currentGlobalDiagnostics !== previousGlobalDiagnostics) { // If the arrays are not the same reference, new diagnostics were added. var deferredGlobalDiagnostics = ts.relativeComplement(previousGlobalDiagnostics, currentGlobalDiagnostics, ts.compareDiagnostics); return ts.concatenate(deferredGlobalDiagnostics, semanticDiagnostics); } else if (previousGlobalDiagnosticsSize === 0 && currentGlobalDiagnostics.length > 0) { // If the arrays are the same reference, but the length has changed, a single // new diagnostic was added as DiagnosticCollection attempts to reuse the // same array. return ts.concatenate(currentGlobalDiagnostics, semanticDiagnostics); } return semanticDiagnostics; } // Global diagnostics are always added when a file is not provided to // getDiagnostics ts.forEach(host.getSourceFiles(), checkSourceFile); return diagnostics.getDiagnostics(); } function getGlobalDiagnostics() { throwIfNonDiagnosticsProducing(); return diagnostics.getGlobalDiagnostics(); } function throwIfNonDiagnosticsProducing() { if (!produceDiagnostics) { throw new Error("Trying to get diagnostics from a type checker that does not produce them."); } } // Language service support function getSymbolsInScope(location, meaning) { if (location.flags & 16777216 /* InWithStatement */) { // We cannot answer semantic questions within a with block, do not proceed any further return []; } var symbols = ts.createSymbolTable(); var isStatic = false; populateSymbols(); symbols.delete("this" /* This */); // Not a symbol, a keyword return symbolsToArray(symbols); function populateSymbols() { while (location) { if (location.locals && !isGlobalSourceFile(location)) { copySymbols(location.locals, meaning); } switch (location.kind) { case 290 /* SourceFile */: if (!ts.isExternalOrCommonJsModule(location)) break; // falls through case 249 /* ModuleDeclaration */: copySymbols(getSymbolOfNode(location).exports, meaning & 2623475 /* ModuleMember */); break; case 248 /* EnumDeclaration */: copySymbols(getSymbolOfNode(location).exports, meaning & 8 /* EnumMember */); break; case 214 /* ClassExpression */: var className = location.name; if (className) { copySymbol(location.symbol, meaning); } // this fall-through is necessary because we would like to handle // type parameter inside class expression similar to how we handle it in classDeclaration and interface Declaration. // falls through case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: // If we didn't come from static member of class or interface, // add the type parameters into the symbol table // (type parameters of classDeclaration/classExpression and interface are in member property of the symbol. // Note: that the memberFlags come from previous iteration. if (!isStatic) { copySymbols(getMembersOfSymbol(getSymbolOfNode(location)), meaning & 788968 /* Type */); } break; case 201 /* FunctionExpression */: var funcName = location.name; if (funcName) { copySymbol(location.symbol, meaning); } break; } if (ts.introducesArgumentsExoticObject(location)) { copySymbol(argumentsSymbol, meaning); } isStatic = ts.hasModifier(location, 32 /* Static */); location = location.parent; } copySymbols(globals, meaning); } /** * Copy the given symbol into symbol tables if the symbol has the given meaning * and it doesn't already existed in the symbol table * @param key a key for storing in symbol table; if undefined, use symbol.name * @param symbol the symbol to be added into symbol table * @param meaning meaning of symbol to filter by before adding to symbol table */ function copySymbol(symbol, meaning) { if (ts.getCombinedLocalAndExportSymbolFlags(symbol) & meaning) { var id = symbol.escapedName; // We will copy all symbol regardless of its reserved name because // symbolsToArray will check whether the key is a reserved name and // it will not copy symbol with reserved name to the array if (!symbols.has(id)) { symbols.set(id, symbol); } } } function copySymbols(source, meaning) { if (meaning) { source.forEach(function (symbol) { copySymbol(symbol, meaning); }); } } } function isTypeDeclarationName(name) { return name.kind === 75 /* Identifier */ && isTypeDeclaration(name.parent) && name.parent.name === name; } function isTypeDeclaration(node) { switch (node.kind) { case 155 /* TypeParameter */: case 245 /* ClassDeclaration */: case 246 /* InterfaceDeclaration */: case 247 /* TypeAliasDeclaration */: case 248 /* EnumDeclaration */: return true; case 255 /* ImportClause */: return node.isTypeOnly; case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: return node.parent.parent.isTypeOnly; default: return false; } } // True if the given identifier is part of a type reference function isTypeReferenceIdentifier(node) { while (node.parent.kind === 153 /* QualifiedName */) { node = node.parent; } return node.parent.kind === 169 /* TypeReference */; } function isHeritageClauseElementIdentifier(node) { while (node.parent.kind === 194 /* PropertyAccessExpression */) { node = node.parent; } return node.parent.kind === 216 /* ExpressionWithTypeArguments */; } function forEachEnclosingClass(node, callback) { var result; while (true) { node = ts.getContainingClass(node); if (!node) break; if (result = callback(node)) break; } return result; } function isNodeUsedDuringClassInitialization(node) { return !!ts.findAncestor(node, function (element) { if (ts.isConstructorDeclaration(element) && ts.nodeIsPresent(element.body) || ts.isPropertyDeclaration(element)) { return true; } else if (ts.isClassLike(element) || ts.isFunctionLikeDeclaration(element)) { return "quit"; } return false; }); } function isNodeWithinClass(node, classDeclaration) { return !!forEachEnclosingClass(node, function (n) { return n === classDeclaration; }); } function getLeftSideOfImportEqualsOrExportAssignment(nodeOnRightSide) { while (nodeOnRightSide.parent.kind === 153 /* QualifiedName */) { nodeOnRightSide = nodeOnRightSide.parent; } if (nodeOnRightSide.parent.kind === 253 /* ImportEqualsDeclaration */) { return nodeOnRightSide.parent.moduleReference === nodeOnRightSide ? nodeOnRightSide.parent : undefined; } if (nodeOnRightSide.parent.kind === 259 /* ExportAssignment */) { return nodeOnRightSide.parent.expression === nodeOnRightSide ? nodeOnRightSide.parent : undefined; } return undefined; } function isInRightSideOfImportOrExportAssignment(node) { return getLeftSideOfImportEqualsOrExportAssignment(node) !== undefined; } function getSpecialPropertyAssignmentSymbolFromEntityName(entityName) { var specialPropertyAssignmentKind = ts.getAssignmentDeclarationKind(entityName.parent.parent); switch (specialPropertyAssignmentKind) { case 1 /* ExportsProperty */: case 3 /* PrototypeProperty */: return getSymbolOfNode(entityName.parent); case 4 /* ThisProperty */: case 2 /* ModuleExports */: case 5 /* Property */: return getSymbolOfNode(entityName.parent.parent); } } function isImportTypeQualifierPart(node) { var parent = node.parent; while (ts.isQualifiedName(parent)) { node = parent; parent = parent.parent; } if (parent && parent.kind === 188 /* ImportType */ && parent.qualifier === node) { return parent; } return undefined; } function getSymbolOfNameOrPropertyAccessExpression(name) { if (ts.isDeclarationName(name)) { return getSymbolOfNode(name.parent); } if (ts.isInJSFile(name) && name.parent.kind === 194 /* PropertyAccessExpression */ && name.parent === name.parent.parent.left) { // Check if this is a special property assignment if (!ts.isPrivateIdentifier(name)) { var specialPropertyAssignmentSymbol = getSpecialPropertyAssignmentSymbolFromEntityName(name); if (specialPropertyAssignmentSymbol) { return specialPropertyAssignmentSymbol; } } } if (name.parent.kind === 259 /* ExportAssignment */ && ts.isEntityNameExpression(name)) { // Even an entity name expression that doesn't resolve as an entityname may still typecheck as a property access expression var success = resolveEntityName(name, /*all meanings*/ 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */ | 2097152 /* Alias */, /*ignoreErrors*/ true); if (success && success !== unknownSymbol) { return success; } } else if (!ts.isPropertyAccessExpression(name) && !ts.isPrivateIdentifier(name) && isInRightSideOfImportOrExportAssignment(name)) { // Since we already checked for ExportAssignment, this really could only be an Import var importEqualsDeclaration = ts.getAncestor(name, 253 /* ImportEqualsDeclaration */); ts.Debug.assert(importEqualsDeclaration !== undefined); return getSymbolOfPartOfRightHandSideOfImportEquals(name, /*dontResolveAlias*/ true); } if (!ts.isPropertyAccessExpression(name) && !ts.isPrivateIdentifier(name)) { var possibleImportNode = isImportTypeQualifierPart(name); if (possibleImportNode) { getTypeFromTypeNode(possibleImportNode); var sym = getNodeLinks(name).resolvedSymbol; return sym === unknownSymbol ? undefined : sym; } } while (ts.isRightSideOfQualifiedNameOrPropertyAccess(name)) { name = name.parent; } if (isHeritageClauseElementIdentifier(name)) { var meaning = 0 /* None */; // In an interface or class, we're definitely interested in a type. if (name.parent.kind === 216 /* ExpressionWithTypeArguments */) { meaning = 788968 /* Type */; // In a class 'extends' clause we are also looking for a value. if (ts.isExpressionWithTypeArgumentsInClassExtendsClause(name.parent)) { meaning |= 111551 /* Value */; } } else { meaning = 1920 /* Namespace */; } meaning |= 2097152 /* Alias */; var entityNameSymbol = ts.isEntityNameExpression(name) ? resolveEntityName(name, meaning) : undefined; if (entityNameSymbol) { return entityNameSymbol; } } if (name.parent.kind === 317 /* JSDocParameterTag */) { return ts.getParameterSymbolFromJSDoc(name.parent); } if (name.parent.kind === 155 /* TypeParameter */ && name.parent.parent.kind === 321 /* JSDocTemplateTag */) { ts.Debug.assert(!ts.isInJSFile(name)); // Otherwise `isDeclarationName` would have been true. var typeParameter = ts.getTypeParameterFromJsDoc(name.parent); return typeParameter && typeParameter.symbol; } if (ts.isExpressionNode(name)) { if (ts.nodeIsMissing(name)) { // Missing entity name. return undefined; } if (name.kind === 75 /* Identifier */) { if (ts.isJSXTagName(name) && isJsxIntrinsicIdentifier(name)) { var symbol = getIntrinsicTagSymbol(name.parent); return symbol === unknownSymbol ? undefined : symbol; } return resolveEntityName(name, 111551 /* Value */, /*ignoreErrors*/ false, /*dontResolveAlias*/ true); } else if (name.kind === 194 /* PropertyAccessExpression */ || name.kind === 153 /* QualifiedName */) { var links = getNodeLinks(name); if (links.resolvedSymbol) { return links.resolvedSymbol; } if (name.kind === 194 /* PropertyAccessExpression */) { checkPropertyAccessExpression(name); } else { checkQualifiedName(name); } return links.resolvedSymbol; } } else if (isTypeReferenceIdentifier(name)) { var meaning = name.parent.kind === 169 /* TypeReference */ ? 788968 /* Type */ : 1920 /* Namespace */; return resolveEntityName(name, meaning, /*ignoreErrors*/ false, /*dontResolveAlias*/ true); } if (name.parent.kind === 168 /* TypePredicate */) { return resolveEntityName(name, /*meaning*/ 1 /* FunctionScopedVariable */); } // Do we want to return undefined here? return undefined; } function getSymbolAtLocation(node, ignoreErrors) { if (node.kind === 290 /* SourceFile */) { return ts.isExternalModule(node) ? getMergedSymbol(node.symbol) : undefined; } var parent = node.parent; var grandParent = parent.parent; if (node.flags & 16777216 /* InWithStatement */) { // We cannot answer semantic questions within a with block, do not proceed any further return undefined; } if (isDeclarationNameOrImportPropertyName(node)) { // This is a declaration, call getSymbolOfNode var parentSymbol = getSymbolOfNode(parent); return ts.isImportOrExportSpecifier(node.parent) && node.parent.propertyName === node ? getImmediateAliasedSymbol(parentSymbol) : parentSymbol; } else if (ts.isLiteralComputedPropertyDeclarationName(node)) { return getSymbolOfNode(parent.parent); } if (node.kind === 75 /* Identifier */) { if (isInRightSideOfImportOrExportAssignment(node)) { return getSymbolOfNameOrPropertyAccessExpression(node); } else if (parent.kind === 191 /* BindingElement */ && grandParent.kind === 189 /* ObjectBindingPattern */ && node === parent.propertyName) { var typeOfPattern = getTypeOfNode(grandParent); var propertyDeclaration = getPropertyOfType(typeOfPattern, node.escapedText); if (propertyDeclaration) { return propertyDeclaration; } } } switch (node.kind) { case 75 /* Identifier */: case 76 /* PrivateIdentifier */: case 194 /* PropertyAccessExpression */: case 153 /* QualifiedName */: return getSymbolOfNameOrPropertyAccessExpression(node); case 104 /* ThisKeyword */: var container = ts.getThisContainer(node, /*includeArrowFunctions*/ false); if (ts.isFunctionLike(container)) { var sig = getSignatureFromDeclaration(container); if (sig.thisParameter) { return sig.thisParameter; } } if (ts.isInExpressionContext(node)) { return checkExpression(node).symbol; } // falls through case 183 /* ThisType */: return getTypeFromThisTypeNode(node).symbol; case 102 /* SuperKeyword */: return checkExpression(node).symbol; case 129 /* ConstructorKeyword */: // constructor keyword for an overload, should take us to the definition if it exist var constructorDeclaration = node.parent; if (constructorDeclaration && constructorDeclaration.kind === 162 /* Constructor */) { return constructorDeclaration.parent.symbol; } return undefined; case 10 /* StringLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: // 1). import x = require("./mo/*gotToDefinitionHere*/d") // 2). External module name in an import declaration // 3). Dynamic import call or require in javascript // 4). type A = import("./f/*gotToDefinitionHere*/oo") if ((ts.isExternalModuleImportEqualsDeclaration(node.parent.parent) && ts.getExternalModuleImportEqualsDeclarationExpression(node.parent.parent) === node) || ((node.parent.kind === 254 /* ImportDeclaration */ || node.parent.kind === 260 /* ExportDeclaration */) && node.parent.moduleSpecifier === node) || ((ts.isInJSFile(node) && ts.isRequireCall(node.parent, /*checkArgumentIsStringLiteralLike*/ false)) || ts.isImportCall(node.parent)) || (ts.isLiteralTypeNode(node.parent) && ts.isLiteralImportTypeNode(node.parent.parent) && node.parent.parent.argument === node.parent)) { return resolveExternalModuleName(node, node, ignoreErrors); } if (ts.isCallExpression(parent) && ts.isBindableObjectDefinePropertyCall(parent) && parent.arguments[1] === node) { return getSymbolOfNode(parent); } // falls through case 8 /* NumericLiteral */: // index access var objectType = ts.isElementAccessExpression(parent) ? parent.argumentExpression === node ? getTypeOfExpression(parent.expression) : undefined : ts.isLiteralTypeNode(parent) && ts.isIndexedAccessTypeNode(grandParent) ? getTypeFromTypeNode(grandParent.objectType) : undefined; return objectType && getPropertyOfType(objectType, ts.escapeLeadingUnderscores(node.text)); case 84 /* DefaultKeyword */: case 94 /* FunctionKeyword */: case 38 /* EqualsGreaterThanToken */: case 80 /* ClassKeyword */: return getSymbolOfNode(node.parent); case 188 /* ImportType */: return ts.isLiteralImportTypeNode(node) ? getSymbolAtLocation(node.argument.literal, ignoreErrors) : undefined; case 89 /* ExportKeyword */: return ts.isExportAssignment(node.parent) ? ts.Debug.checkDefined(node.parent.symbol) : undefined; default: return undefined; } } function getShorthandAssignmentValueSymbol(location) { if (location && location.kind === 282 /* ShorthandPropertyAssignment */) { return resolveEntityName(location.name, 111551 /* Value */ | 2097152 /* Alias */); } return undefined; } /** Returns the target of an export specifier without following aliases */ function getExportSpecifierLocalTargetSymbol(node) { return node.parent.parent.moduleSpecifier ? getExternalModuleMember(node.parent.parent, node) : resolveEntityName(node.propertyName || node.name, 111551 /* Value */ | 788968 /* Type */ | 1920 /* Namespace */ | 2097152 /* Alias */); } function getTypeOfNode(node) { if (node.flags & 16777216 /* InWithStatement */) { // We cannot answer semantic questions within a with block, do not proceed any further return errorType; } var classDecl = ts.tryGetClassImplementingOrExtendingExpressionWithTypeArguments(node); var classType = classDecl && getDeclaredTypeOfClassOrInterface(getSymbolOfNode(classDecl.class)); if (ts.isPartOfTypeNode(node)) { var typeFromTypeNode = getTypeFromTypeNode(node); return classType ? getTypeWithThisArgument(typeFromTypeNode, classType.thisType) : typeFromTypeNode; } if (ts.isExpressionNode(node)) { return getRegularTypeOfExpression(node); } if (classType && !classDecl.isImplements) { // A SyntaxKind.ExpressionWithTypeArguments is considered a type node, except when it occurs in the // extends clause of a class. We handle that case here. var baseType = ts.firstOrUndefined(getBaseTypes(classType)); return baseType ? getTypeWithThisArgument(baseType, classType.thisType) : errorType; } if (isTypeDeclaration(node)) { // In this case, we call getSymbolOfNode instead of getSymbolAtLocation because it is a declaration var symbol = getSymbolOfNode(node); return getDeclaredTypeOfSymbol(symbol); } if (isTypeDeclarationName(node)) { var symbol = getSymbolAtLocation(node); return symbol ? getDeclaredTypeOfSymbol(symbol) : errorType; } if (ts.isDeclaration(node)) { // In this case, we call getSymbolOfNode instead of getSymbolAtLocation because it is a declaration var symbol = getSymbolOfNode(node); return getTypeOfSymbol(symbol); } if (isDeclarationNameOrImportPropertyName(node)) { var symbol = getSymbolAtLocation(node); if (symbol) { return getTypeOfSymbol(symbol); } return errorType; } if (ts.isBindingPattern(node)) { return getTypeForVariableLikeDeclaration(node.parent, /*includeOptionality*/ true) || errorType; } if (isInRightSideOfImportOrExportAssignment(node)) { var symbol = getSymbolAtLocation(node); if (symbol) { var declaredType = getDeclaredTypeOfSymbol(symbol); return declaredType !== errorType ? declaredType : getTypeOfSymbol(symbol); } } return errorType; } // Gets the type of object literal or array literal of destructuring assignment. // { a } from // for ( { a } of elems) { // } // [ a ] from // [a] = [ some array ...] function getTypeOfAssignmentPattern(expr) { ts.Debug.assert(expr.kind === 193 /* ObjectLiteralExpression */ || expr.kind === 192 /* ArrayLiteralExpression */); // If this is from "for of" // for ( { a } of elems) { // } if (expr.parent.kind === 232 /* ForOfStatement */) { var iteratedType = checkRightHandSideOfForOf(expr.parent); return checkDestructuringAssignment(expr, iteratedType || errorType); } // If this is from "for" initializer // for ({a } = elems[0];.....) { } if (expr.parent.kind === 209 /* BinaryExpression */) { var iteratedType = getTypeOfExpression(expr.parent.right); return checkDestructuringAssignment(expr, iteratedType || errorType); } // If this is from nested object binding pattern // for ({ skills: { primary, secondary } } = multiRobot, i = 0; i < 1; i++) { if (expr.parent.kind === 281 /* PropertyAssignment */) { var node_4 = ts.cast(expr.parent.parent, ts.isObjectLiteralExpression); var typeOfParentObjectLiteral = getTypeOfAssignmentPattern(node_4) || errorType; var propertyIndex = ts.indexOfNode(node_4.properties, expr.parent); return checkObjectLiteralDestructuringPropertyAssignment(node_4, typeOfParentObjectLiteral, propertyIndex); } // Array literal assignment - array destructuring pattern var node = ts.cast(expr.parent, ts.isArrayLiteralExpression); // [{ property1: p1, property2 }] = elems; var typeOfArrayLiteral = getTypeOfAssignmentPattern(node) || errorType; var elementType = checkIteratedTypeOrElementType(65 /* Destructuring */, typeOfArrayLiteral, undefinedType, expr.parent) || errorType; return checkArrayLiteralDestructuringElementAssignment(node, typeOfArrayLiteral, node.elements.indexOf(expr), elementType); } // Gets the property symbol corresponding to the property in destructuring assignment // 'property1' from // for ( { property1: a } of elems) { // } // 'property1' at location 'a' from: // [a] = [ property1, property2 ] function getPropertySymbolOfDestructuringAssignment(location) { // Get the type of the object or array literal and then look for property of given name in the type var typeOfObjectLiteral = getTypeOfAssignmentPattern(ts.cast(location.parent.parent, ts.isAssignmentPattern)); return typeOfObjectLiteral && getPropertyOfType(typeOfObjectLiteral, location.escapedText); } function getRegularTypeOfExpression(expr) { if (ts.isRightSideOfQualifiedNameOrPropertyAccess(expr)) { expr = expr.parent; } return getRegularTypeOfLiteralType(getTypeOfExpression(expr)); } /** * Gets either the static or instance type of a class element, based on * whether the element is declared as "static". */ function getParentTypeOfClassElement(node) { var classSymbol = getSymbolOfNode(node.parent); return ts.hasModifier(node, 32 /* Static */) ? getTypeOfSymbol(classSymbol) : getDeclaredTypeOfSymbol(classSymbol); } function getClassElementPropertyKeyType(element) { var name = element.name; switch (name.kind) { case 75 /* Identifier */: return getLiteralType(ts.idText(name)); case 8 /* NumericLiteral */: case 10 /* StringLiteral */: return getLiteralType(name.text); case 154 /* ComputedPropertyName */: var nameType = checkComputedPropertyName(name); return isTypeAssignableToKind(nameType, 12288 /* ESSymbolLike */) ? nameType : stringType; default: return ts.Debug.fail("Unsupported property name."); } } // Return the list of properties of the given type, augmented with properties from Function // if the type has call or construct signatures function getAugmentedPropertiesOfType(type) { type = getApparentType(type); var propsByName = ts.createSymbolTable(getPropertiesOfType(type)); var functionType = getSignaturesOfType(type, 0 /* Call */).length ? globalCallableFunctionType : getSignaturesOfType(type, 1 /* Construct */).length ? globalNewableFunctionType : undefined; if (functionType) { ts.forEach(getPropertiesOfType(functionType), function (p) { if (!propsByName.has(p.escapedName)) { propsByName.set(p.escapedName, p); } }); } return getNamedMembers(propsByName); } function typeHasCallOrConstructSignatures(type) { return ts.typeHasCallOrConstructSignatures(type, checker); } function getRootSymbols(symbol) { var roots = getImmediateRootSymbols(symbol); return roots ? ts.flatMap(roots, getRootSymbols) : [symbol]; } function getImmediateRootSymbols(symbol) { if (ts.getCheckFlags(symbol) & 6 /* Synthetic */) { return ts.mapDefined(getSymbolLinks(symbol).containingType.types, function (type) { return getPropertyOfType(type, symbol.escapedName); }); } else if (symbol.flags & 33554432 /* Transient */) { var _a = symbol, leftSpread = _a.leftSpread, rightSpread = _a.rightSpread, syntheticOrigin = _a.syntheticOrigin; return leftSpread ? [leftSpread, rightSpread] : syntheticOrigin ? [syntheticOrigin] : ts.singleElementArray(tryGetAliasTarget(symbol)); } return undefined; } function tryGetAliasTarget(symbol) { var target; var next = symbol; while (next = getSymbolLinks(next).target) { target = next; } return target; } // Emitter support function isArgumentsLocalBinding(nodeIn) { if (!ts.isGeneratedIdentifier(nodeIn)) { var node = ts.getParseTreeNode(nodeIn, ts.isIdentifier); if (node) { var isPropertyName_1 = node.parent.kind === 194 /* PropertyAccessExpression */ && node.parent.name === node; return !isPropertyName_1 && getReferencedValueSymbol(node) === argumentsSymbol; } } return false; } function moduleExportsSomeValue(moduleReferenceExpression) { var moduleSymbol = resolveExternalModuleName(moduleReferenceExpression.parent, moduleReferenceExpression); if (!moduleSymbol || ts.isShorthandAmbientModuleSymbol(moduleSymbol)) { // If the module is not found or is shorthand, assume that it may export a value. return true; } var hasExportAssignment = hasExportAssignmentSymbol(moduleSymbol); // if module has export assignment then 'resolveExternalModuleSymbol' will return resolved symbol for export assignment // otherwise it will return moduleSymbol itself moduleSymbol = resolveExternalModuleSymbol(moduleSymbol); var symbolLinks = getSymbolLinks(moduleSymbol); if (symbolLinks.exportsSomeValue === undefined) { // for export assignments - check if resolved symbol for RHS is itself a value // otherwise - check if at least one export is value symbolLinks.exportsSomeValue = hasExportAssignment ? !!(moduleSymbol.flags & 111551 /* Value */) : ts.forEachEntry(getExportsOfModule(moduleSymbol), isValue); } return symbolLinks.exportsSomeValue; function isValue(s) { s = resolveSymbol(s); return s && !!(s.flags & 111551 /* Value */); } } function isNameOfModuleOrEnumDeclaration(node) { return ts.isModuleOrEnumDeclaration(node.parent) && node === node.parent.name; } // When resolved as an expression identifier, if the given node references an exported entity, return the declaration // node of the exported entity's container. Otherwise, return undefined. function getReferencedExportContainer(nodeIn, prefixLocals) { var node = ts.getParseTreeNode(nodeIn, ts.isIdentifier); if (node) { // When resolving the export container for the name of a module or enum // declaration, we need to start resolution at the declaration's container. // Otherwise, we could incorrectly resolve the export container as the // declaration if it contains an exported member with the same name. var symbol = getReferencedValueSymbol(node, /*startInDeclarationContainer*/ isNameOfModuleOrEnumDeclaration(node)); if (symbol) { if (symbol.flags & 1048576 /* ExportValue */) { // If we reference an exported entity within the same module declaration, then whether // we prefix depends on the kind of entity. SymbolFlags.ExportHasLocal encompasses all the // kinds that we do NOT prefix. var exportSymbol = getMergedSymbol(symbol.exportSymbol); if (!prefixLocals && exportSymbol.flags & 944 /* ExportHasLocal */ && !(exportSymbol.flags & 3 /* Variable */)) { return undefined; } symbol = exportSymbol; } var parentSymbol_1 = getParentOfSymbol(symbol); if (parentSymbol_1) { if (parentSymbol_1.flags & 512 /* ValueModule */ && parentSymbol_1.valueDeclaration.kind === 290 /* SourceFile */) { var symbolFile = parentSymbol_1.valueDeclaration; var referenceFile = ts.getSourceFileOfNode(node); // If `node` accesses an export and that export isn't in the same file, then symbol is a namespace export, so return undefined. var symbolIsUmdExport = symbolFile !== referenceFile; return symbolIsUmdExport ? undefined : symbolFile; } return ts.findAncestor(node.parent, function (n) { return ts.isModuleOrEnumDeclaration(n) && getSymbolOfNode(n) === parentSymbol_1; }); } } } } // When resolved as an expression identifier, if the given node references an import, return the declaration of // that import. Otherwise, return undefined. function getReferencedImportDeclaration(nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isIdentifier); if (node) { var symbol = getReferencedValueSymbol(node); // We should only get the declaration of an alias if there isn't a local value // declaration for the symbol if (isNonLocalAlias(symbol, /*excludes*/ 111551 /* Value */) && !getTypeOnlyAliasDeclaration(symbol)) { return getDeclarationOfAliasSymbol(symbol); } } return undefined; } function isSymbolOfDestructuredElementOfCatchBinding(symbol) { return ts.isBindingElement(symbol.valueDeclaration) && ts.walkUpBindingElementsAndPatterns(symbol.valueDeclaration).parent.kind === 280 /* CatchClause */; } function isSymbolOfDeclarationWithCollidingName(symbol) { if (symbol.flags & 418 /* BlockScoped */ && !ts.isSourceFile(symbol.valueDeclaration)) { var links = getSymbolLinks(symbol); if (links.isDeclarationWithCollidingName === undefined) { var container = ts.getEnclosingBlockScopeContainer(symbol.valueDeclaration); if (ts.isStatementWithLocals(container) || isSymbolOfDestructuredElementOfCatchBinding(symbol)) { var nodeLinks_1 = getNodeLinks(symbol.valueDeclaration); if (resolveName(container.parent, symbol.escapedName, 111551 /* Value */, /*nameNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ false)) { // redeclaration - always should be renamed links.isDeclarationWithCollidingName = true; } else if (nodeLinks_1.flags & 262144 /* CapturedBlockScopedBinding */) { // binding is captured in the function // should be renamed if: // - binding is not top level - top level bindings never collide with anything // AND // - binding is not declared in loop, should be renamed to avoid name reuse across siblings // let a, b // { let x = 1; a = () => x; } // { let x = 100; b = () => x; } // console.log(a()); // should print '1' // console.log(b()); // should print '100' // OR // - binding is declared inside loop but not in inside initializer of iteration statement or directly inside loop body // * variables from initializer are passed to rewritten loop body as parameters so they are not captured directly // * variables that are declared immediately in loop body will become top level variable after loop is rewritten and thus // they will not collide with anything var isDeclaredInLoop = nodeLinks_1.flags & 524288 /* BlockScopedBindingInLoop */; var inLoopInitializer = ts.isIterationStatement(container, /*lookInLabeledStatements*/ false); var inLoopBodyBlock = container.kind === 223 /* Block */ && ts.isIterationStatement(container.parent, /*lookInLabeledStatements*/ false); links.isDeclarationWithCollidingName = !ts.isBlockScopedContainerTopLevel(container) && (!isDeclaredInLoop || (!inLoopInitializer && !inLoopBodyBlock)); } else { links.isDeclarationWithCollidingName = false; } } } return links.isDeclarationWithCollidingName; } return false; } // When resolved as an expression identifier, if the given node references a nested block scoped entity with // a name that either hides an existing name or might hide it when compiled downlevel, // return the declaration of that entity. Otherwise, return undefined. function getReferencedDeclarationWithCollidingName(nodeIn) { if (!ts.isGeneratedIdentifier(nodeIn)) { var node = ts.getParseTreeNode(nodeIn, ts.isIdentifier); if (node) { var symbol = getReferencedValueSymbol(node); if (symbol && isSymbolOfDeclarationWithCollidingName(symbol)) { return symbol.valueDeclaration; } } } return undefined; } // Return true if the given node is a declaration of a nested block scoped entity with a name that either hides an // existing name or might hide a name when compiled downlevel function isDeclarationWithCollidingName(nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isDeclaration); if (node) { var symbol = getSymbolOfNode(node); if (symbol) { return isSymbolOfDeclarationWithCollidingName(symbol); } } return false; } function isValueAliasDeclaration(node) { switch (node.kind) { case 253 /* ImportEqualsDeclaration */: return isAliasResolvedToValue(getSymbolOfNode(node) || unknownSymbol); case 255 /* ImportClause */: case 256 /* NamespaceImport */: case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: var symbol = getSymbolOfNode(node) || unknownSymbol; return isAliasResolvedToValue(symbol) && !getTypeOnlyAliasDeclaration(symbol); case 260 /* ExportDeclaration */: var exportClause = node.exportClause; return !!exportClause && (ts.isNamespaceExport(exportClause) || ts.some(exportClause.elements, isValueAliasDeclaration)); case 259 /* ExportAssignment */: return node.expression && node.expression.kind === 75 /* Identifier */ ? isAliasResolvedToValue(getSymbolOfNode(node) || unknownSymbol) : true; } return false; } function isTopLevelValueImportEqualsWithEntityName(nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isImportEqualsDeclaration); if (node === undefined || node.parent.kind !== 290 /* SourceFile */ || !ts.isInternalModuleImportEqualsDeclaration(node)) { // parent is not source file or it is not reference to internal module return false; } var isValue = isAliasResolvedToValue(getSymbolOfNode(node)); return isValue && node.moduleReference && !ts.nodeIsMissing(node.moduleReference); } function isAliasResolvedToValue(symbol) { var target = resolveAlias(symbol); if (target === unknownSymbol) { return true; } // const enums and modules that contain only const enums are not considered values from the emit perspective // unless 'preserveConstEnums' option is set to true return !!(target.flags & 111551 /* Value */) && (compilerOptions.preserveConstEnums || !isConstEnumOrConstEnumOnlyModule(target)); } function isConstEnumOrConstEnumOnlyModule(s) { return isConstEnumSymbol(s) || !!s.constEnumOnlyModule; } function isReferencedAliasDeclaration(node, checkChildren) { if (isAliasSymbolDeclaration(node)) { var symbol = getSymbolOfNode(node); if (symbol && getSymbolLinks(symbol).referenced) { return true; } var target = getSymbolLinks(symbol).target; // TODO: GH#18217 if (target && ts.getModifierFlags(node) & 1 /* Export */ && target.flags & 111551 /* Value */ && (compilerOptions.preserveConstEnums || !isConstEnumOrConstEnumOnlyModule(target))) { // An `export import ... =` of a value symbol is always considered referenced return true; } } if (checkChildren) { return !!ts.forEachChild(node, function (node) { return isReferencedAliasDeclaration(node, checkChildren); }); } return false; } function isImplementationOfOverload(node) { if (ts.nodeIsPresent(node.body)) { if (ts.isGetAccessor(node) || ts.isSetAccessor(node)) return false; // Get or set accessors can never be overload implementations, but can have up to 2 signatures var symbol = getSymbolOfNode(node); var signaturesOfSymbol = getSignaturesOfSymbol(symbol); // If this function body corresponds to function with multiple signature, it is implementation of overload // e.g.: function foo(a: string): string; // function foo(a: number): number; // function foo(a: any) { // This is implementation of the overloads // return a; // } return signaturesOfSymbol.length > 1 || // If there is single signature for the symbol, it is overload if that signature isn't coming from the node // e.g.: function foo(a: string): string; // function foo(a: any) { // This is implementation of the overloads // return a; // } (signaturesOfSymbol.length === 1 && signaturesOfSymbol[0].declaration !== node); } return false; } function isRequiredInitializedParameter(parameter) { return !!strictNullChecks && !isOptionalParameter(parameter) && !ts.isJSDocParameterTag(parameter) && !!parameter.initializer && !ts.hasModifier(parameter, 92 /* ParameterPropertyModifier */); } function isOptionalUninitializedParameterProperty(parameter) { return strictNullChecks && isOptionalParameter(parameter) && !parameter.initializer && ts.hasModifier(parameter, 92 /* ParameterPropertyModifier */); } function isExpandoFunctionDeclaration(node) { var declaration = ts.getParseTreeNode(node, ts.isFunctionDeclaration); if (!declaration) { return false; } var symbol = getSymbolOfNode(declaration); if (!symbol || !(symbol.flags & 16 /* Function */)) { return false; } return !!ts.forEachEntry(getExportsOfSymbol(symbol), function (p) { return p.flags & 111551 /* Value */ && p.valueDeclaration && ts.isPropertyAccessExpression(p.valueDeclaration); }); } function getPropertiesOfContainerFunction(node) { var declaration = ts.getParseTreeNode(node, ts.isFunctionDeclaration); if (!declaration) { return ts.emptyArray; } var symbol = getSymbolOfNode(declaration); return symbol && getPropertiesOfType(getTypeOfSymbol(symbol)) || ts.emptyArray; } function getNodeCheckFlags(node) { return getNodeLinks(node).flags || 0; } function getEnumMemberValue(node) { computeEnumMemberValues(node.parent); return getNodeLinks(node).enumMemberValue; } function canHaveConstantValue(node) { switch (node.kind) { case 284 /* EnumMember */: case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return true; } return false; } function getConstantValue(node) { if (node.kind === 284 /* EnumMember */) { return getEnumMemberValue(node); } var symbol = getNodeLinks(node).resolvedSymbol; if (symbol && (symbol.flags & 8 /* EnumMember */)) { // inline property\index accesses only for const enums var member = symbol.valueDeclaration; if (ts.isEnumConst(member.parent)) { return getEnumMemberValue(member); } } return undefined; } function isFunctionType(type) { return !!(type.flags & 524288 /* Object */) && getSignaturesOfType(type, 0 /* Call */).length > 0; } function getTypeReferenceSerializationKind(typeNameIn, location) { // ensure both `typeName` and `location` are parse tree nodes. var typeName = ts.getParseTreeNode(typeNameIn, ts.isEntityName); if (!typeName) return ts.TypeReferenceSerializationKind.Unknown; if (location) { location = ts.getParseTreeNode(location); if (!location) return ts.TypeReferenceSerializationKind.Unknown; } // Resolve the symbol as a value to ensure the type can be reached at runtime during emit. var valueSymbol = resolveEntityName(typeName, 111551 /* Value */, /*ignoreErrors*/ true, /*dontResolveAlias*/ false, location); // Resolve the symbol as a type so that we can provide a more useful hint for the type serializer. var typeSymbol = resolveEntityName(typeName, 788968 /* Type */, /*ignoreErrors*/ true, /*dontResolveAlias*/ false, location); if (valueSymbol && valueSymbol === typeSymbol) { var globalPromiseSymbol = getGlobalPromiseConstructorSymbol(/*reportErrors*/ false); if (globalPromiseSymbol && valueSymbol === globalPromiseSymbol) { return ts.TypeReferenceSerializationKind.Promise; } var constructorType = getTypeOfSymbol(valueSymbol); if (constructorType && isConstructorType(constructorType)) { return ts.TypeReferenceSerializationKind.TypeWithConstructSignatureAndValue; } } // We might not be able to resolve type symbol so use unknown type in that case (eg error case) if (!typeSymbol) { return ts.TypeReferenceSerializationKind.Unknown; } var type = getDeclaredTypeOfSymbol(typeSymbol); if (type === errorType) { return ts.TypeReferenceSerializationKind.Unknown; } else if (type.flags & 3 /* AnyOrUnknown */) { return ts.TypeReferenceSerializationKind.ObjectType; } else if (isTypeAssignableToKind(type, 16384 /* Void */ | 98304 /* Nullable */ | 131072 /* Never */)) { return ts.TypeReferenceSerializationKind.VoidNullableOrNeverType; } else if (isTypeAssignableToKind(type, 528 /* BooleanLike */)) { return ts.TypeReferenceSerializationKind.BooleanType; } else if (isTypeAssignableToKind(type, 296 /* NumberLike */)) { return ts.TypeReferenceSerializationKind.NumberLikeType; } else if (isTypeAssignableToKind(type, 2112 /* BigIntLike */)) { return ts.TypeReferenceSerializationKind.BigIntLikeType; } else if (isTypeAssignableToKind(type, 132 /* StringLike */)) { return ts.TypeReferenceSerializationKind.StringLikeType; } else if (isTupleType(type)) { return ts.TypeReferenceSerializationKind.ArrayLikeType; } else if (isTypeAssignableToKind(type, 12288 /* ESSymbolLike */)) { return ts.TypeReferenceSerializationKind.ESSymbolType; } else if (isFunctionType(type)) { return ts.TypeReferenceSerializationKind.TypeWithCallSignature; } else if (isArrayType(type)) { return ts.TypeReferenceSerializationKind.ArrayLikeType; } else { return ts.TypeReferenceSerializationKind.ObjectType; } } function createTypeOfDeclaration(declarationIn, enclosingDeclaration, flags, tracker, addUndefined) { var declaration = ts.getParseTreeNode(declarationIn, ts.isVariableLikeOrAccessor); if (!declaration) { return ts.createToken(125 /* AnyKeyword */); } // Get type of the symbol if this is the valid symbol otherwise get type at location var symbol = getSymbolOfNode(declaration); var type = symbol && !(symbol.flags & (2048 /* TypeLiteral */ | 131072 /* Signature */)) ? getWidenedLiteralType(getTypeOfSymbol(symbol)) : errorType; if (type.flags & 8192 /* UniqueESSymbol */ && type.symbol === symbol) { flags |= 1048576 /* AllowUniqueESSymbolType */; } if (addUndefined) { type = getOptionalType(type); } return nodeBuilder.typeToTypeNode(type, enclosingDeclaration, flags | 1024 /* MultilineObjectLiterals */, tracker); } function createReturnTypeOfSignatureDeclaration(signatureDeclarationIn, enclosingDeclaration, flags, tracker) { var signatureDeclaration = ts.getParseTreeNode(signatureDeclarationIn, ts.isFunctionLike); if (!signatureDeclaration) { return ts.createToken(125 /* AnyKeyword */); } var signature = getSignatureFromDeclaration(signatureDeclaration); return nodeBuilder.typeToTypeNode(getReturnTypeOfSignature(signature), enclosingDeclaration, flags | 1024 /* MultilineObjectLiterals */, tracker); } function createTypeOfExpression(exprIn, enclosingDeclaration, flags, tracker) { var expr = ts.getParseTreeNode(exprIn, ts.isExpression); if (!expr) { return ts.createToken(125 /* AnyKeyword */); } var type = getWidenedType(getRegularTypeOfExpression(expr)); return nodeBuilder.typeToTypeNode(type, enclosingDeclaration, flags | 1024 /* MultilineObjectLiterals */, tracker); } function hasGlobalName(name) { return globals.has(ts.escapeLeadingUnderscores(name)); } function getReferencedValueSymbol(reference, startInDeclarationContainer) { var resolvedSymbol = getNodeLinks(reference).resolvedSymbol; if (resolvedSymbol) { return resolvedSymbol; } var location = reference; if (startInDeclarationContainer) { // When resolving the name of a declaration as a value, we need to start resolution // at a point outside of the declaration. var parent = reference.parent; if (ts.isDeclaration(parent) && reference === parent.name) { location = getDeclarationContainer(parent); } } return resolveName(location, reference.escapedText, 111551 /* Value */ | 1048576 /* ExportValue */ | 2097152 /* Alias */, /*nodeNotFoundMessage*/ undefined, /*nameArg*/ undefined, /*isUse*/ true); } function getReferencedValueDeclaration(referenceIn) { if (!ts.isGeneratedIdentifier(referenceIn)) { var reference = ts.getParseTreeNode(referenceIn, ts.isIdentifier); if (reference) { var symbol = getReferencedValueSymbol(reference); if (symbol) { return getExportSymbolOfValueSymbolIfExported(symbol).valueDeclaration; } } } return undefined; } function isLiteralConstDeclaration(node) { if (ts.isDeclarationReadonly(node) || ts.isVariableDeclaration(node) && ts.isVarConst(node)) { return isFreshLiteralType(getTypeOfSymbol(getSymbolOfNode(node))); } return false; } function literalTypeToNode(type, enclosing, tracker) { var enumResult = type.flags & 1024 /* EnumLiteral */ ? nodeBuilder.symbolToExpression(type.symbol, 111551 /* Value */, enclosing, /*flags*/ undefined, tracker) : type === trueType ? ts.createTrue() : type === falseType && ts.createFalse(); return enumResult || ts.createLiteral(type.value); } function createLiteralConstValue(node, tracker) { var type = getTypeOfSymbol(getSymbolOfNode(node)); return literalTypeToNode(type, node, tracker); } function getJsxFactoryEntity(location) { return location ? (getJsxNamespace(location), (ts.getSourceFileOfNode(location).localJsxFactory || _jsxFactoryEntity)) : _jsxFactoryEntity; } function createResolver() { // this variable and functions that use it are deliberately moved here from the outer scope // to avoid scope pollution var resolvedTypeReferenceDirectives = host.getResolvedTypeReferenceDirectives(); var fileToDirective; if (resolvedTypeReferenceDirectives) { // populate reverse mapping: file path -> type reference directive that was resolved to this file fileToDirective = ts.createMap(); resolvedTypeReferenceDirectives.forEach(function (resolvedDirective, key) { if (!resolvedDirective || !resolvedDirective.resolvedFileName) { return; } var file = host.getSourceFile(resolvedDirective.resolvedFileName); if (file) { // Add the transitive closure of path references loaded by this file (as long as they are not) // part of an existing type reference. addReferencedFilesToTypeDirective(file, key); } }); } return { getReferencedExportContainer: getReferencedExportContainer, getReferencedImportDeclaration: getReferencedImportDeclaration, getReferencedDeclarationWithCollidingName: getReferencedDeclarationWithCollidingName, isDeclarationWithCollidingName: isDeclarationWithCollidingName, isValueAliasDeclaration: function (node) { node = ts.getParseTreeNode(node); // Synthesized nodes are always treated like values. return node ? isValueAliasDeclaration(node) : true; }, hasGlobalName: hasGlobalName, isReferencedAliasDeclaration: function (node, checkChildren) { node = ts.getParseTreeNode(node); // Synthesized nodes are always treated as referenced. return node ? isReferencedAliasDeclaration(node, checkChildren) : true; }, getNodeCheckFlags: function (node) { node = ts.getParseTreeNode(node); return node ? getNodeCheckFlags(node) : 0; }, isTopLevelValueImportEqualsWithEntityName: isTopLevelValueImportEqualsWithEntityName, isDeclarationVisible: isDeclarationVisible, isImplementationOfOverload: isImplementationOfOverload, isRequiredInitializedParameter: isRequiredInitializedParameter, isOptionalUninitializedParameterProperty: isOptionalUninitializedParameterProperty, isExpandoFunctionDeclaration: isExpandoFunctionDeclaration, getPropertiesOfContainerFunction: getPropertiesOfContainerFunction, createTypeOfDeclaration: createTypeOfDeclaration, createReturnTypeOfSignatureDeclaration: createReturnTypeOfSignatureDeclaration, createTypeOfExpression: createTypeOfExpression, createLiteralConstValue: createLiteralConstValue, isSymbolAccessible: isSymbolAccessible, isEntityNameVisible: isEntityNameVisible, getConstantValue: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, canHaveConstantValue); return node ? getConstantValue(node) : undefined; }, collectLinkedAliases: collectLinkedAliases, getReferencedValueDeclaration: getReferencedValueDeclaration, getTypeReferenceSerializationKind: getTypeReferenceSerializationKind, isOptionalParameter: isOptionalParameter, moduleExportsSomeValue: moduleExportsSomeValue, isArgumentsLocalBinding: isArgumentsLocalBinding, getExternalModuleFileFromDeclaration: getExternalModuleFileFromDeclaration, getTypeReferenceDirectivesForEntityName: getTypeReferenceDirectivesForEntityName, getTypeReferenceDirectivesForSymbol: getTypeReferenceDirectivesForSymbol, isLiteralConstDeclaration: isLiteralConstDeclaration, isLateBound: function (nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isDeclaration); var symbol = node && getSymbolOfNode(node); return !!(symbol && ts.getCheckFlags(symbol) & 4096 /* Late */); }, getJsxFactoryEntity: getJsxFactoryEntity, getAllAccessorDeclarations: function (accessor) { accessor = ts.getParseTreeNode(accessor, ts.isGetOrSetAccessorDeclaration); // TODO: GH#18217 var otherKind = accessor.kind === 164 /* SetAccessor */ ? 163 /* GetAccessor */ : 164 /* SetAccessor */; var otherAccessor = ts.getDeclarationOfKind(getSymbolOfNode(accessor), otherKind); var firstAccessor = otherAccessor && (otherAccessor.pos < accessor.pos) ? otherAccessor : accessor; var secondAccessor = otherAccessor && (otherAccessor.pos < accessor.pos) ? accessor : otherAccessor; var setAccessor = accessor.kind === 164 /* SetAccessor */ ? accessor : otherAccessor; var getAccessor = accessor.kind === 163 /* GetAccessor */ ? accessor : otherAccessor; return { firstAccessor: firstAccessor, secondAccessor: secondAccessor, setAccessor: setAccessor, getAccessor: getAccessor }; }, getSymbolOfExternalModuleSpecifier: function (moduleName) { return resolveExternalModuleNameWorker(moduleName, moduleName, /*moduleNotFoundError*/ undefined); }, isBindingCapturedByNode: function (node, decl) { var parseNode = ts.getParseTreeNode(node); var parseDecl = ts.getParseTreeNode(decl); return !!parseNode && !!parseDecl && (ts.isVariableDeclaration(parseDecl) || ts.isBindingElement(parseDecl)) && isBindingCapturedByNode(parseNode, parseDecl); }, getDeclarationStatementsForSourceFile: function (node, flags, tracker, bundled) { var n = ts.getParseTreeNode(node); ts.Debug.assert(n && n.kind === 290 /* SourceFile */, "Non-sourcefile node passed into getDeclarationsForSourceFile"); var sym = getSymbolOfNode(node); if (!sym) { return !node.locals ? [] : nodeBuilder.symbolTableToDeclarationStatements(node.locals, node, flags, tracker, bundled); } return !sym.exports ? [] : nodeBuilder.symbolTableToDeclarationStatements(sym.exports, node, flags, tracker, bundled); }, isImportRequiredByAugmentation: isImportRequiredByAugmentation, }; function isImportRequiredByAugmentation(node) { var file = ts.getSourceFileOfNode(node); if (!file.symbol) return false; var importTarget = getExternalModuleFileFromDeclaration(node); if (!importTarget) return false; if (importTarget === file) return false; var exports = getExportsOfModule(file.symbol); for (var _i = 0, _a = ts.arrayFrom(exports.values()); _i < _a.length; _i++) { var s = _a[_i]; if (s.mergeId) { var merged = getMergedSymbol(s); for (var _b = 0, _c = merged.declarations; _b < _c.length; _b++) { var d = _c[_b]; var declFile = ts.getSourceFileOfNode(d); if (declFile === importTarget) { return true; } } } } return false; } function isInHeritageClause(node) { return node.parent && node.parent.kind === 216 /* ExpressionWithTypeArguments */ && node.parent.parent && node.parent.parent.kind === 279 /* HeritageClause */; } // defined here to avoid outer scope pollution function getTypeReferenceDirectivesForEntityName(node) { // program does not have any files with type reference directives - bail out if (!fileToDirective) { return undefined; } // property access can only be used as values, or types when within an expression with type arguments inside a heritage clause // qualified names can only be used as types\namespaces // identifiers are treated as values only if they appear in type queries var meaning = 788968 /* Type */ | 1920 /* Namespace */; if ((node.kind === 75 /* Identifier */ && isInTypeQuery(node)) || (node.kind === 194 /* PropertyAccessExpression */ && !isInHeritageClause(node))) { meaning = 111551 /* Value */ | 1048576 /* ExportValue */; } var symbol = resolveEntityName(node, meaning, /*ignoreErrors*/ true); return symbol && symbol !== unknownSymbol ? getTypeReferenceDirectivesForSymbol(symbol, meaning) : undefined; } // defined here to avoid outer scope pollution function getTypeReferenceDirectivesForSymbol(symbol, meaning) { // program does not have any files with type reference directives - bail out if (!fileToDirective) { return undefined; } if (!isSymbolFromTypeDeclarationFile(symbol)) { return undefined; } // check what declarations in the symbol can contribute to the target meaning var typeReferenceDirectives; for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; // check meaning of the local symbol to see if declaration needs to be analyzed further if (decl.symbol && decl.symbol.flags & meaning) { var file = ts.getSourceFileOfNode(decl); var typeReferenceDirective = fileToDirective.get(file.path); if (typeReferenceDirective) { (typeReferenceDirectives || (typeReferenceDirectives = [])).push(typeReferenceDirective); } else { // found at least one entry that does not originate from type reference directive return undefined; } } } return typeReferenceDirectives; } function isSymbolFromTypeDeclarationFile(symbol) { // bail out if symbol does not have associated declarations (i.e. this is transient symbol created for property in binding pattern) if (!symbol.declarations) { return false; } // walk the parent chain for symbols to make sure that top level parent symbol is in the global scope // external modules cannot define or contribute to type declaration files var current = symbol; while (true) { var parent = getParentOfSymbol(current); if (parent) { current = parent; } else { break; } } if (current.valueDeclaration && current.valueDeclaration.kind === 290 /* SourceFile */ && current.flags & 512 /* ValueModule */) { return false; } // check that at least one declaration of top level symbol originates from type declaration file for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var decl = _a[_i]; var file = ts.getSourceFileOfNode(decl); if (fileToDirective.has(file.path)) { return true; } } return false; } function addReferencedFilesToTypeDirective(file, key) { if (fileToDirective.has(file.path)) return; fileToDirective.set(file.path, key); for (var _i = 0, _a = file.referencedFiles; _i < _a.length; _i++) { var fileName = _a[_i].fileName; var resolvedFile = ts.resolveTripleslashReference(fileName, file.originalFileName); var referencedFile = host.getSourceFile(resolvedFile); if (referencedFile) { addReferencedFilesToTypeDirective(referencedFile, key); } } } } function getExternalModuleFileFromDeclaration(declaration) { var specifier = declaration.kind === 249 /* ModuleDeclaration */ ? ts.tryCast(declaration.name, ts.isStringLiteral) : ts.getExternalModuleName(declaration); var moduleSymbol = resolveExternalModuleNameWorker(specifier, specifier, /*moduleNotFoundError*/ undefined); // TODO: GH#18217 if (!moduleSymbol) { return undefined; } return ts.getDeclarationOfKind(moduleSymbol, 290 /* SourceFile */); } function initializeTypeChecker() { // Bind all source files and propagate errors for (var _i = 0, _a = host.getSourceFiles(); _i < _a.length; _i++) { var file = _a[_i]; ts.bindSourceFile(file, compilerOptions); } amalgamatedDuplicates = ts.createMap(); // Initialize global symbol table var augmentations; for (var _b = 0, _c = host.getSourceFiles(); _b < _c.length; _b++) { var file = _c[_b]; if (file.redirectInfo) { continue; } if (!ts.isExternalOrCommonJsModule(file)) { // It is an error for a non-external-module (i.e. script) to declare its own `globalThis`. // We can't use `builtinGlobals` for this due to synthetic expando-namespace generation in JS files. var fileGlobalThisSymbol = file.locals.get("globalThis"); if (fileGlobalThisSymbol) { for (var _d = 0, _e = fileGlobalThisSymbol.declarations; _d < _e.length; _d++) { var declaration = _e[_d]; diagnostics.add(ts.createDiagnosticForNode(declaration, ts.Diagnostics.Declaration_name_conflicts_with_built_in_global_identifier_0, "globalThis")); } } mergeSymbolTable(globals, file.locals); } if (file.jsGlobalAugmentations) { mergeSymbolTable(globals, file.jsGlobalAugmentations); } if (file.patternAmbientModules && file.patternAmbientModules.length) { patternAmbientModules = ts.concatenate(patternAmbientModules, file.patternAmbientModules); } if (file.moduleAugmentations.length) { (augmentations || (augmentations = [])).push(file.moduleAugmentations); } if (file.symbol && file.symbol.globalExports) { // Merge in UMD exports with first-in-wins semantics (see #9771) var source = file.symbol.globalExports; source.forEach(function (sourceSymbol, id) { if (!globals.has(id)) { globals.set(id, sourceSymbol); } }); } } // We do global augmentations separately from module augmentations (and before creating global types) because they // 1. Affect global types. We won't have the correct global types until global augmentations are merged. Also, // 2. Module augmentation instantiation requires creating the type of a module, which, in turn, can require // checking for an export or property on the module (if export=) which, in turn, can fall back to the // apparent type of the module - either globalObjectType or globalFunctionType - which wouldn't exist if we // did module augmentations prior to finalizing the global types. if (augmentations) { // merge _global_ module augmentations. // this needs to be done after global symbol table is initialized to make sure that all ambient modules are indexed for (var _f = 0, augmentations_1 = augmentations; _f < augmentations_1.length; _f++) { var list = augmentations_1[_f]; for (var _g = 0, list_1 = list; _g < list_1.length; _g++) { var augmentation = list_1[_g]; if (!ts.isGlobalScopeAugmentation(augmentation.parent)) continue; mergeModuleAugmentation(augmentation); } } } // Setup global builtins addToSymbolTable(globals, builtinGlobals, ts.Diagnostics.Declaration_name_conflicts_with_built_in_global_identifier_0); getSymbolLinks(undefinedSymbol).type = undefinedWideningType; getSymbolLinks(argumentsSymbol).type = getGlobalType("IArguments", /*arity*/ 0, /*reportErrors*/ true); getSymbolLinks(unknownSymbol).type = errorType; getSymbolLinks(globalThisSymbol).type = createObjectType(16 /* Anonymous */, globalThisSymbol); // Initialize special types globalArrayType = getGlobalType("Array", /*arity*/ 1, /*reportErrors*/ true); globalObjectType = getGlobalType("Object", /*arity*/ 0, /*reportErrors*/ true); globalFunctionType = getGlobalType("Function", /*arity*/ 0, /*reportErrors*/ true); globalCallableFunctionType = strictBindCallApply && getGlobalType("CallableFunction", /*arity*/ 0, /*reportErrors*/ true) || globalFunctionType; globalNewableFunctionType = strictBindCallApply && getGlobalType("NewableFunction", /*arity*/ 0, /*reportErrors*/ true) || globalFunctionType; globalStringType = getGlobalType("String", /*arity*/ 0, /*reportErrors*/ true); globalNumberType = getGlobalType("Number", /*arity*/ 0, /*reportErrors*/ true); globalBooleanType = getGlobalType("Boolean", /*arity*/ 0, /*reportErrors*/ true); globalRegExpType = getGlobalType("RegExp", /*arity*/ 0, /*reportErrors*/ true); anyArrayType = createArrayType(anyType); autoArrayType = createArrayType(autoType); if (autoArrayType === emptyObjectType) { // autoArrayType is used as a marker, so even if global Array type is not defined, it needs to be a unique type autoArrayType = createAnonymousType(undefined, emptySymbols, ts.emptyArray, ts.emptyArray, undefined, undefined); } globalReadonlyArrayType = getGlobalTypeOrUndefined("ReadonlyArray", /*arity*/ 1) || globalArrayType; anyReadonlyArrayType = globalReadonlyArrayType ? createTypeFromGenericGlobalType(globalReadonlyArrayType, [anyType]) : anyArrayType; globalThisType = getGlobalTypeOrUndefined("ThisType", /*arity*/ 1); if (augmentations) { // merge _nonglobal_ module augmentations. // this needs to be done after global symbol table is initialized to make sure that all ambient modules are indexed for (var _h = 0, augmentations_2 = augmentations; _h < augmentations_2.length; _h++) { var list = augmentations_2[_h]; for (var _j = 0, list_2 = list; _j < list_2.length; _j++) { var augmentation = list_2[_j]; if (ts.isGlobalScopeAugmentation(augmentation.parent)) continue; mergeModuleAugmentation(augmentation); } } } amalgamatedDuplicates.forEach(function (_a) { var firstFile = _a.firstFile, secondFile = _a.secondFile, conflictingSymbols = _a.conflictingSymbols; // If not many things conflict, issue individual errors if (conflictingSymbols.size < 8) { conflictingSymbols.forEach(function (_a, symbolName) { var isBlockScoped = _a.isBlockScoped, firstFileLocations = _a.firstFileLocations, secondFileLocations = _a.secondFileLocations; var message = isBlockScoped ? ts.Diagnostics.Cannot_redeclare_block_scoped_variable_0 : ts.Diagnostics.Duplicate_identifier_0; for (var _i = 0, firstFileLocations_1 = firstFileLocations; _i < firstFileLocations_1.length; _i++) { var node = firstFileLocations_1[_i]; addDuplicateDeclarationError(node, message, symbolName, secondFileLocations); } for (var _b = 0, secondFileLocations_1 = secondFileLocations; _b < secondFileLocations_1.length; _b++) { var node = secondFileLocations_1[_b]; addDuplicateDeclarationError(node, message, symbolName, firstFileLocations); } }); } else { // Otherwise issue top-level error since the files appear very identical in terms of what they contain var list = ts.arrayFrom(conflictingSymbols.keys()).join(", "); diagnostics.add(ts.addRelatedInfo(ts.createDiagnosticForNode(firstFile, ts.Diagnostics.Definitions_of_the_following_identifiers_conflict_with_those_in_another_file_Colon_0, list), ts.createDiagnosticForNode(secondFile, ts.Diagnostics.Conflicts_are_in_this_file))); diagnostics.add(ts.addRelatedInfo(ts.createDiagnosticForNode(secondFile, ts.Diagnostics.Definitions_of_the_following_identifiers_conflict_with_those_in_another_file_Colon_0, list), ts.createDiagnosticForNode(firstFile, ts.Diagnostics.Conflicts_are_in_this_file))); } }); amalgamatedDuplicates = undefined; } function checkExternalEmitHelpers(location, helpers) { if ((requestedExternalEmitHelpers & helpers) !== helpers && compilerOptions.importHelpers) { var sourceFile = ts.getSourceFileOfNode(location); if (ts.isEffectiveExternalModule(sourceFile, compilerOptions) && !(location.flags & 8388608 /* Ambient */)) { var helpersModule = resolveHelpersModule(sourceFile, location); if (helpersModule !== unknownSymbol) { var uncheckedHelpers = helpers & ~requestedExternalEmitHelpers; for (var helper = 1 /* FirstEmitHelper */; helper <= 1048576 /* LastEmitHelper */; helper <<= 1) { if (uncheckedHelpers & helper) { var name = getHelperName(helper); var symbol = getSymbol(helpersModule.exports, ts.escapeLeadingUnderscores(name), 111551 /* Value */); if (!symbol) { error(location, ts.Diagnostics.This_syntax_requires_an_imported_helper_named_1_which_does_not_exist_in_0_Consider_upgrading_your_version_of_0, ts.externalHelpersModuleNameText, name); } } } } requestedExternalEmitHelpers |= helpers; } } } function getHelperName(helper) { switch (helper) { case 1 /* Extends */: return "__extends"; case 2 /* Assign */: return "__assign"; case 4 /* Rest */: return "__rest"; case 8 /* Decorate */: return "__decorate"; case 16 /* Metadata */: return "__metadata"; case 32 /* Param */: return "__param"; case 64 /* Awaiter */: return "__awaiter"; case 128 /* Generator */: return "__generator"; case 256 /* Values */: return "__values"; case 512 /* Read */: return "__read"; case 1024 /* Spread */: return "__spread"; case 2048 /* SpreadArrays */: return "__spreadArrays"; case 4096 /* Await */: return "__await"; case 8192 /* AsyncGenerator */: return "__asyncGenerator"; case 16384 /* AsyncDelegator */: return "__asyncDelegator"; case 32768 /* AsyncValues */: return "__asyncValues"; case 65536 /* ExportStar */: return "__exportStar"; case 131072 /* MakeTemplateObject */: return "__makeTemplateObject"; case 262144 /* ClassPrivateFieldGet */: return "__classPrivateFieldGet"; case 524288 /* ClassPrivateFieldSet */: return "__classPrivateFieldSet"; case 1048576 /* CreateBinding */: return "__createBinding"; default: return ts.Debug.fail("Unrecognized helper"); } } function resolveHelpersModule(node, errorNode) { if (!externalHelpersModule) { externalHelpersModule = resolveExternalModule(node, ts.externalHelpersModuleNameText, ts.Diagnostics.This_syntax_requires_an_imported_helper_but_module_0_cannot_be_found, errorNode) || unknownSymbol; } return externalHelpersModule; } // GRAMMAR CHECKING function checkGrammarDecoratorsAndModifiers(node) { return checkGrammarDecorators(node) || checkGrammarModifiers(node); } function checkGrammarDecorators(node) { if (!node.decorators) { return false; } if (!ts.nodeCanBeDecorated(node, node.parent, node.parent.parent)) { if (node.kind === 161 /* MethodDeclaration */ && !ts.nodeIsPresent(node.body)) { return grammarErrorOnFirstToken(node, ts.Diagnostics.A_decorator_can_only_decorate_a_method_implementation_not_an_overload); } else { return grammarErrorOnFirstToken(node, ts.Diagnostics.Decorators_are_not_valid_here); } } else if (node.kind === 163 /* GetAccessor */ || node.kind === 164 /* SetAccessor */) { var accessors = ts.getAllAccessorDeclarations(node.parent.members, node); if (accessors.firstAccessor.decorators && node === accessors.secondAccessor) { return grammarErrorOnFirstToken(node, ts.Diagnostics.Decorators_cannot_be_applied_to_multiple_get_Slashset_accessors_of_the_same_name); } } return false; } function checkGrammarModifiers(node) { var quickResult = reportObviousModifierErrors(node); if (quickResult !== undefined) { return quickResult; } var lastStatic, lastDeclare, lastAsync, lastReadonly; var flags = 0 /* None */; for (var _i = 0, _a = node.modifiers; _i < _a.length; _i++) { var modifier = _a[_i]; if (modifier.kind !== 138 /* ReadonlyKeyword */) { if (node.kind === 158 /* PropertySignature */ || node.kind === 160 /* MethodSignature */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_type_member, ts.tokenToString(modifier.kind)); } if (node.kind === 167 /* IndexSignature */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_an_index_signature, ts.tokenToString(modifier.kind)); } } switch (modifier.kind) { case 81 /* ConstKeyword */: if (node.kind !== 248 /* EnumDeclaration */) { return grammarErrorOnNode(node, ts.Diagnostics.A_class_member_cannot_have_the_0_keyword, ts.tokenToString(81 /* ConstKeyword */)); } break; case 119 /* PublicKeyword */: case 118 /* ProtectedKeyword */: case 117 /* PrivateKeyword */: var text = visibilityToString(ts.modifierToFlag(modifier.kind)); if (flags & 28 /* AccessibilityModifier */) { return grammarErrorOnNode(modifier, ts.Diagnostics.Accessibility_modifier_already_seen); } else if (flags & 32 /* Static */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, text, "static"); } else if (flags & 64 /* Readonly */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, text, "readonly"); } else if (flags & 256 /* Async */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, text, "async"); } else if (node.parent.kind === 250 /* ModuleBlock */ || node.parent.kind === 290 /* SourceFile */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_module_or_namespace_element, text); } else if (flags & 128 /* Abstract */) { if (modifier.kind === 117 /* PrivateKeyword */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_1_modifier, text, "abstract"); } else { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, text, "abstract"); } } else if (ts.isPrivateIdentifierPropertyDeclaration(node)) { return grammarErrorOnNode(modifier, ts.Diagnostics.An_accessibility_modifier_cannot_be_used_with_a_private_identifier); } flags |= ts.modifierToFlag(modifier.kind); break; case 120 /* StaticKeyword */: if (flags & 32 /* Static */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_already_seen, "static"); } else if (flags & 64 /* Readonly */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, "static", "readonly"); } else if (flags & 256 /* Async */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, "static", "async"); } else if (node.parent.kind === 250 /* ModuleBlock */ || node.parent.kind === 290 /* SourceFile */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_module_or_namespace_element, "static"); } else if (node.kind === 156 /* Parameter */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_parameter, "static"); } else if (flags & 128 /* Abstract */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_1_modifier, "static", "abstract"); } else if (ts.isPrivateIdentifierPropertyDeclaration(node)) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_a_private_identifier, "static"); } flags |= 32 /* Static */; lastStatic = modifier; break; case 138 /* ReadonlyKeyword */: if (flags & 64 /* Readonly */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_already_seen, "readonly"); } else if (node.kind !== 159 /* PropertyDeclaration */ && node.kind !== 158 /* PropertySignature */ && node.kind !== 167 /* IndexSignature */ && node.kind !== 156 /* Parameter */) { // If node.kind === SyntaxKind.Parameter, checkParameter report an error if it's not a parameter property. return grammarErrorOnNode(modifier, ts.Diagnostics.readonly_modifier_can_only_appear_on_a_property_declaration_or_index_signature); } flags |= 64 /* Readonly */; lastReadonly = modifier; break; case 89 /* ExportKeyword */: if (flags & 1 /* Export */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_already_seen, "export"); } else if (flags & 2 /* Ambient */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, "export", "declare"); } else if (flags & 128 /* Abstract */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, "export", "abstract"); } else if (flags & 256 /* Async */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_must_precede_1_modifier, "export", "async"); } else if (ts.isClassLike(node.parent)) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_class_element, "export"); } else if (node.kind === 156 /* Parameter */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_parameter, "export"); } flags |= 1 /* Export */; break; case 84 /* DefaultKeyword */: var container = node.parent.kind === 290 /* SourceFile */ ? node.parent : node.parent.parent; if (container.kind === 249 /* ModuleDeclaration */ && !ts.isAmbientModule(container)) { return grammarErrorOnNode(modifier, ts.Diagnostics.A_default_export_can_only_be_used_in_an_ECMAScript_style_module); } flags |= 512 /* Default */; break; case 130 /* DeclareKeyword */: if (flags & 2 /* Ambient */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_already_seen, "declare"); } else if (flags & 256 /* Async */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_in_an_ambient_context, "async"); } else if (ts.isClassLike(node.parent) && !ts.isPropertyDeclaration(node)) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_class_element, "declare"); } else if (node.kind === 156 /* Parameter */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_parameter, "declare"); } else if ((node.parent.flags & 8388608 /* Ambient */) && node.parent.kind === 250 /* ModuleBlock */) { return grammarErrorOnNode(modifier, ts.Diagnostics.A_declare_modifier_cannot_be_used_in_an_already_ambient_context); } else if (ts.isPrivateIdentifierPropertyDeclaration(node)) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_a_private_identifier, "declare"); } flags |= 2 /* Ambient */; lastDeclare = modifier; break; case 122 /* AbstractKeyword */: if (flags & 128 /* Abstract */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_already_seen, "abstract"); } if (node.kind !== 245 /* ClassDeclaration */) { if (node.kind !== 161 /* MethodDeclaration */ && node.kind !== 159 /* PropertyDeclaration */ && node.kind !== 163 /* GetAccessor */ && node.kind !== 164 /* SetAccessor */) { return grammarErrorOnNode(modifier, ts.Diagnostics.abstract_modifier_can_only_appear_on_a_class_method_or_property_declaration); } if (!(node.parent.kind === 245 /* ClassDeclaration */ && ts.hasModifier(node.parent, 128 /* Abstract */))) { return grammarErrorOnNode(modifier, ts.Diagnostics.Abstract_methods_can_only_appear_within_an_abstract_class); } if (flags & 32 /* Static */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_1_modifier, "static", "abstract"); } if (flags & 8 /* Private */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_1_modifier, "private", "abstract"); } } if (ts.isNamedDeclaration(node) && node.name.kind === 76 /* PrivateIdentifier */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_with_a_private_identifier, "abstract"); } flags |= 128 /* Abstract */; break; case 126 /* AsyncKeyword */: if (flags & 256 /* Async */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_already_seen, "async"); } else if (flags & 2 /* Ambient */ || node.parent.flags & 8388608 /* Ambient */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_be_used_in_an_ambient_context, "async"); } else if (node.kind === 156 /* Parameter */) { return grammarErrorOnNode(modifier, ts.Diagnostics._0_modifier_cannot_appear_on_a_parameter, "async"); } flags |= 256 /* Async */; lastAsync = modifier; break; } } if (node.kind === 162 /* Constructor */) { if (flags & 32 /* Static */) { return grammarErrorOnNode(lastStatic, ts.Diagnostics._0_modifier_cannot_appear_on_a_constructor_declaration, "static"); } if (flags & 128 /* Abstract */) { return grammarErrorOnNode(lastStatic, ts.Diagnostics._0_modifier_cannot_appear_on_a_constructor_declaration, "abstract"); // TODO: GH#18217 } else if (flags & 256 /* Async */) { return grammarErrorOnNode(lastAsync, ts.Diagnostics._0_modifier_cannot_appear_on_a_constructor_declaration, "async"); } else if (flags & 64 /* Readonly */) { return grammarErrorOnNode(lastReadonly, ts.Diagnostics._0_modifier_cannot_appear_on_a_constructor_declaration, "readonly"); } return false; } else if ((node.kind === 254 /* ImportDeclaration */ || node.kind === 253 /* ImportEqualsDeclaration */) && flags & 2 /* Ambient */) { return grammarErrorOnNode(lastDeclare, ts.Diagnostics.A_0_modifier_cannot_be_used_with_an_import_declaration, "declare"); } else if (node.kind === 156 /* Parameter */ && (flags & 92 /* ParameterPropertyModifier */) && ts.isBindingPattern(node.name)) { return grammarErrorOnNode(node, ts.Diagnostics.A_parameter_property_may_not_be_declared_using_a_binding_pattern); } else if (node.kind === 156 /* Parameter */ && (flags & 92 /* ParameterPropertyModifier */) && node.dotDotDotToken) { return grammarErrorOnNode(node, ts.Diagnostics.A_parameter_property_cannot_be_declared_using_a_rest_parameter); } if (flags & 256 /* Async */) { return checkGrammarAsyncModifier(node, lastAsync); } return false; } /** * true | false: Early return this value from checkGrammarModifiers. * undefined: Need to do full checking on the modifiers. */ function reportObviousModifierErrors(node) { return !node.modifiers ? false : shouldReportBadModifier(node) ? grammarErrorOnFirstToken(node, ts.Diagnostics.Modifiers_cannot_appear_here) : undefined; } function shouldReportBadModifier(node) { switch (node.kind) { case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 162 /* Constructor */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: case 167 /* IndexSignature */: case 249 /* ModuleDeclaration */: case 254 /* ImportDeclaration */: case 253 /* ImportEqualsDeclaration */: case 260 /* ExportDeclaration */: case 259 /* ExportAssignment */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: case 156 /* Parameter */: return false; default: if (node.parent.kind === 250 /* ModuleBlock */ || node.parent.kind === 290 /* SourceFile */) { return false; } switch (node.kind) { case 244 /* FunctionDeclaration */: return nodeHasAnyModifiersExcept(node, 126 /* AsyncKeyword */); case 245 /* ClassDeclaration */: return nodeHasAnyModifiersExcept(node, 122 /* AbstractKeyword */); case 246 /* InterfaceDeclaration */: case 225 /* VariableStatement */: case 247 /* TypeAliasDeclaration */: return true; case 248 /* EnumDeclaration */: return nodeHasAnyModifiersExcept(node, 81 /* ConstKeyword */); default: ts.Debug.fail(); return false; } } } function nodeHasAnyModifiersExcept(node, allowedModifier) { return node.modifiers.length > 1 || node.modifiers[0].kind !== allowedModifier; } function checkGrammarAsyncModifier(node, asyncModifier) { switch (node.kind) { case 161 /* MethodDeclaration */: case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: case 202 /* ArrowFunction */: return false; } return grammarErrorOnNode(asyncModifier, ts.Diagnostics._0_modifier_cannot_be_used_here, "async"); } function checkGrammarForDisallowedTrailingComma(list, diag) { if (diag === void 0) { diag = ts.Diagnostics.Trailing_comma_not_allowed; } if (list && list.hasTrailingComma) { return grammarErrorAtPos(list[0], list.end - ",".length, ",".length, diag); } return false; } function checkGrammarTypeParameterList(typeParameters, file) { if (typeParameters && typeParameters.length === 0) { var start = typeParameters.pos - "<".length; var end = ts.skipTrivia(file.text, typeParameters.end) + ">".length; return grammarErrorAtPos(file, start, end - start, ts.Diagnostics.Type_parameter_list_cannot_be_empty); } return false; } function checkGrammarParameterList(parameters) { var seenOptionalParameter = false; var parameterCount = parameters.length; for (var i = 0; i < parameterCount; i++) { var parameter = parameters[i]; if (parameter.dotDotDotToken) { if (i !== (parameterCount - 1)) { return grammarErrorOnNode(parameter.dotDotDotToken, ts.Diagnostics.A_rest_parameter_must_be_last_in_a_parameter_list); } if (!(parameter.flags & 8388608 /* Ambient */)) { // Allow `...foo,` in ambient declarations; see GH#23070 checkGrammarForDisallowedTrailingComma(parameters, ts.Diagnostics.A_rest_parameter_or_binding_pattern_may_not_have_a_trailing_comma); } if (parameter.questionToken) { return grammarErrorOnNode(parameter.questionToken, ts.Diagnostics.A_rest_parameter_cannot_be_optional); } if (parameter.initializer) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.A_rest_parameter_cannot_have_an_initializer); } } else if (parameter.questionToken) { seenOptionalParameter = true; if (parameter.initializer) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.Parameter_cannot_have_question_mark_and_initializer); } } else if (seenOptionalParameter && !parameter.initializer) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.A_required_parameter_cannot_follow_an_optional_parameter); } } } function getNonSimpleParameters(parameters) { return ts.filter(parameters, function (parameter) { return !!parameter.initializer || ts.isBindingPattern(parameter.name) || ts.isRestParameter(parameter); }); } function checkGrammarForUseStrictSimpleParameterList(node) { if (languageVersion >= 3 /* ES2016 */) { var useStrictDirective_1 = node.body && ts.isBlock(node.body) && ts.findUseStrictPrologue(node.body.statements); if (useStrictDirective_1) { var nonSimpleParameters = getNonSimpleParameters(node.parameters); if (ts.length(nonSimpleParameters)) { ts.forEach(nonSimpleParameters, function (parameter) { ts.addRelatedInfo(error(parameter, ts.Diagnostics.This_parameter_is_not_allowed_with_use_strict_directive), ts.createDiagnosticForNode(useStrictDirective_1, ts.Diagnostics.use_strict_directive_used_here)); }); var diagnostics_1 = nonSimpleParameters.map(function (parameter, index) { return (index === 0 ? ts.createDiagnosticForNode(parameter, ts.Diagnostics.Non_simple_parameter_declared_here) : ts.createDiagnosticForNode(parameter, ts.Diagnostics.and_here)); }); ts.addRelatedInfo.apply(void 0, __spreadArrays([error(useStrictDirective_1, ts.Diagnostics.use_strict_directive_cannot_be_used_with_non_simple_parameter_list)], diagnostics_1)); return true; } } } return false; } function checkGrammarFunctionLikeDeclaration(node) { // Prevent cascading error by short-circuit var file = ts.getSourceFileOfNode(node); return checkGrammarDecoratorsAndModifiers(node) || checkGrammarTypeParameterList(node.typeParameters, file) || checkGrammarParameterList(node.parameters) || checkGrammarArrowFunction(node, file) || (ts.isFunctionLikeDeclaration(node) && checkGrammarForUseStrictSimpleParameterList(node)); } function checkGrammarClassLikeDeclaration(node) { var file = ts.getSourceFileOfNode(node); return checkGrammarClassDeclarationHeritageClauses(node) || checkGrammarTypeParameterList(node.typeParameters, file); } function checkGrammarArrowFunction(node, file) { if (!ts.isArrowFunction(node)) { return false; } var equalsGreaterThanToken = node.equalsGreaterThanToken; var startLine = ts.getLineAndCharacterOfPosition(file, equalsGreaterThanToken.pos).line; var endLine = ts.getLineAndCharacterOfPosition(file, equalsGreaterThanToken.end).line; return startLine !== endLine && grammarErrorOnNode(equalsGreaterThanToken, ts.Diagnostics.Line_terminator_not_permitted_before_arrow); } function checkGrammarIndexSignatureParameters(node) { var parameter = node.parameters[0]; if (node.parameters.length !== 1) { if (parameter) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_must_have_exactly_one_parameter); } else { return grammarErrorOnNode(node, ts.Diagnostics.An_index_signature_must_have_exactly_one_parameter); } } checkGrammarForDisallowedTrailingComma(node.parameters, ts.Diagnostics.An_index_signature_cannot_have_a_trailing_comma); if (parameter.dotDotDotToken) { return grammarErrorOnNode(parameter.dotDotDotToken, ts.Diagnostics.An_index_signature_cannot_have_a_rest_parameter); } if (ts.hasModifiers(parameter)) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_parameter_cannot_have_an_accessibility_modifier); } if (parameter.questionToken) { return grammarErrorOnNode(parameter.questionToken, ts.Diagnostics.An_index_signature_parameter_cannot_have_a_question_mark); } if (parameter.initializer) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_parameter_cannot_have_an_initializer); } if (!parameter.type) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_parameter_must_have_a_type_annotation); } if (parameter.type.kind !== 143 /* StringKeyword */ && parameter.type.kind !== 140 /* NumberKeyword */) { var type = getTypeFromTypeNode(parameter.type); if (type.flags & 4 /* String */ || type.flags & 8 /* Number */) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_parameter_type_cannot_be_a_type_alias_Consider_writing_0_Colon_1_Colon_2_instead, ts.getTextOfNode(parameter.name), typeToString(type), typeToString(node.type ? getTypeFromTypeNode(node.type) : anyType)); } if (type.flags & 1048576 /* Union */ && allTypesAssignableToKind(type, 384 /* StringOrNumberLiteral */, /*strict*/ true)) { return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_parameter_type_cannot_be_a_union_type_Consider_using_a_mapped_object_type_instead); } return grammarErrorOnNode(parameter.name, ts.Diagnostics.An_index_signature_parameter_type_must_be_either_string_or_number); } if (!node.type) { return grammarErrorOnNode(node, ts.Diagnostics.An_index_signature_must_have_a_type_annotation); } return false; } function checkGrammarIndexSignature(node) { // Prevent cascading error by short-circuit return checkGrammarDecoratorsAndModifiers(node) || checkGrammarIndexSignatureParameters(node); } function checkGrammarForAtLeastOneTypeArgument(node, typeArguments) { if (typeArguments && typeArguments.length === 0) { var sourceFile = ts.getSourceFileOfNode(node); var start = typeArguments.pos - "<".length; var end = ts.skipTrivia(sourceFile.text, typeArguments.end) + ">".length; return grammarErrorAtPos(sourceFile, start, end - start, ts.Diagnostics.Type_argument_list_cannot_be_empty); } return false; } function checkGrammarTypeArguments(node, typeArguments) { return checkGrammarForDisallowedTrailingComma(typeArguments) || checkGrammarForAtLeastOneTypeArgument(node, typeArguments); } function checkGrammarTaggedTemplateChain(node) { if (node.questionDotToken || node.flags & 32 /* OptionalChain */) { return grammarErrorOnNode(node.template, ts.Diagnostics.Tagged_template_expressions_are_not_permitted_in_an_optional_chain); } return false; } function checkGrammarForOmittedArgument(args) { if (args) { for (var _i = 0, args_4 = args; _i < args_4.length; _i++) { var arg = args_4[_i]; if (arg.kind === 215 /* OmittedExpression */) { return grammarErrorAtPos(arg, arg.pos, 0, ts.Diagnostics.Argument_expression_expected); } } } return false; } function checkGrammarArguments(args) { return checkGrammarForOmittedArgument(args); } function checkGrammarHeritageClause(node) { var types = node.types; if (checkGrammarForDisallowedTrailingComma(types)) { return true; } if (types && types.length === 0) { var listType = ts.tokenToString(node.token); return grammarErrorAtPos(node, types.pos, 0, ts.Diagnostics._0_list_cannot_be_empty, listType); } return ts.some(types, checkGrammarExpressionWithTypeArguments); } function checkGrammarExpressionWithTypeArguments(node) { return checkGrammarTypeArguments(node, node.typeArguments); } function checkGrammarClassDeclarationHeritageClauses(node) { var seenExtendsClause = false; var seenImplementsClause = false; if (!checkGrammarDecoratorsAndModifiers(node) && node.heritageClauses) { for (var _i = 0, _a = node.heritageClauses; _i < _a.length; _i++) { var heritageClause = _a[_i]; if (heritageClause.token === 90 /* ExtendsKeyword */) { if (seenExtendsClause) { return grammarErrorOnFirstToken(heritageClause, ts.Diagnostics.extends_clause_already_seen); } if (seenImplementsClause) { return grammarErrorOnFirstToken(heritageClause, ts.Diagnostics.extends_clause_must_precede_implements_clause); } if (heritageClause.types.length > 1) { return grammarErrorOnFirstToken(heritageClause.types[1], ts.Diagnostics.Classes_can_only_extend_a_single_class); } seenExtendsClause = true; } else { ts.Debug.assert(heritageClause.token === 113 /* ImplementsKeyword */); if (seenImplementsClause) { return grammarErrorOnFirstToken(heritageClause, ts.Diagnostics.implements_clause_already_seen); } seenImplementsClause = true; } // Grammar checking heritageClause inside class declaration checkGrammarHeritageClause(heritageClause); } } } function checkGrammarInterfaceDeclaration(node) { var seenExtendsClause = false; if (node.heritageClauses) { for (var _i = 0, _a = node.heritageClauses; _i < _a.length; _i++) { var heritageClause = _a[_i]; if (heritageClause.token === 90 /* ExtendsKeyword */) { if (seenExtendsClause) { return grammarErrorOnFirstToken(heritageClause, ts.Diagnostics.extends_clause_already_seen); } seenExtendsClause = true; } else { ts.Debug.assert(heritageClause.token === 113 /* ImplementsKeyword */); return grammarErrorOnFirstToken(heritageClause, ts.Diagnostics.Interface_declaration_cannot_have_implements_clause); } // Grammar checking heritageClause inside class declaration checkGrammarHeritageClause(heritageClause); } } return false; } function checkGrammarComputedPropertyName(node) { // If node is not a computedPropertyName, just skip the grammar checking if (node.kind !== 154 /* ComputedPropertyName */) { return false; } var computedPropertyName = node; if (computedPropertyName.expression.kind === 209 /* BinaryExpression */ && computedPropertyName.expression.operatorToken.kind === 27 /* CommaToken */) { return grammarErrorOnNode(computedPropertyName.expression, ts.Diagnostics.A_comma_expression_is_not_allowed_in_a_computed_property_name); } return false; } function checkGrammarForGenerator(node) { if (node.asteriskToken) { ts.Debug.assert(node.kind === 244 /* FunctionDeclaration */ || node.kind === 201 /* FunctionExpression */ || node.kind === 161 /* MethodDeclaration */); if (node.flags & 8388608 /* Ambient */) { return grammarErrorOnNode(node.asteriskToken, ts.Diagnostics.Generators_are_not_allowed_in_an_ambient_context); } if (!node.body) { return grammarErrorOnNode(node.asteriskToken, ts.Diagnostics.An_overload_signature_cannot_be_declared_as_a_generator); } } } function checkGrammarForInvalidQuestionMark(questionToken, message) { return !!questionToken && grammarErrorOnNode(questionToken, message); } function checkGrammarForInvalidExclamationToken(exclamationToken, message) { return !!exclamationToken && grammarErrorOnNode(exclamationToken, message); } function checkGrammarObjectLiteralExpression(node, inDestructuring) { var seen = ts.createUnderscoreEscapedMap(); for (var _i = 0, _a = node.properties; _i < _a.length; _i++) { var prop = _a[_i]; if (prop.kind === 283 /* SpreadAssignment */) { if (inDestructuring) { // a rest property cannot be destructured any further var expression = ts.skipParentheses(prop.expression); if (ts.isArrayLiteralExpression(expression) || ts.isObjectLiteralExpression(expression)) { return grammarErrorOnNode(prop.expression, ts.Diagnostics.A_rest_element_cannot_contain_a_binding_pattern); } } continue; } var name = prop.name; if (name.kind === 154 /* ComputedPropertyName */) { // If the name is not a ComputedPropertyName, the grammar checking will skip it checkGrammarComputedPropertyName(name); } if (prop.kind === 282 /* ShorthandPropertyAssignment */ && !inDestructuring && prop.objectAssignmentInitializer) { // having objectAssignmentInitializer is only valid in ObjectAssignmentPattern // outside of destructuring it is a syntax error return grammarErrorOnNode(prop.equalsToken, ts.Diagnostics.can_only_be_used_in_an_object_literal_property_inside_a_destructuring_assignment); } if (name.kind === 76 /* PrivateIdentifier */) { return grammarErrorOnNode(name, ts.Diagnostics.Private_identifiers_are_not_allowed_outside_class_bodies); } // Modifiers are never allowed on properties except for 'async' on a method declaration if (prop.modifiers) { // eslint-disable-next-line @typescript-eslint/no-unnecessary-type-assertion for (var _b = 0, _c = prop.modifiers; _b < _c.length; _b++) { // TODO: GH#19955 var mod = _c[_b]; if (mod.kind !== 126 /* AsyncKeyword */ || prop.kind !== 161 /* MethodDeclaration */) { grammarErrorOnNode(mod, ts.Diagnostics._0_modifier_cannot_be_used_here, ts.getTextOfNode(mod)); } } } // ECMA-262 11.1.5 Object Initializer // If previous is not undefined then throw a SyntaxError exception if any of the following conditions are true // a.This production is contained in strict code and IsDataDescriptor(previous) is true and // IsDataDescriptor(propId.descriptor) is true. // b.IsDataDescriptor(previous) is true and IsAccessorDescriptor(propId.descriptor) is true. // c.IsAccessorDescriptor(previous) is true and IsDataDescriptor(propId.descriptor) is true. // d.IsAccessorDescriptor(previous) is true and IsAccessorDescriptor(propId.descriptor) is true // and either both previous and propId.descriptor have[[Get]] fields or both previous and propId.descriptor have[[Set]] fields var currentKind = void 0; switch (prop.kind) { case 282 /* ShorthandPropertyAssignment */: checkGrammarForInvalidExclamationToken(prop.exclamationToken, ts.Diagnostics.A_definite_assignment_assertion_is_not_permitted_in_this_context); // falls through case 281 /* PropertyAssignment */: // Grammar checking for computedPropertyName and shorthandPropertyAssignment checkGrammarForInvalidQuestionMark(prop.questionToken, ts.Diagnostics.An_object_member_cannot_be_declared_optional); if (name.kind === 8 /* NumericLiteral */) { checkGrammarNumericLiteral(name); } currentKind = 4 /* PropertyAssignment */; break; case 161 /* MethodDeclaration */: currentKind = 8 /* Method */; break; case 163 /* GetAccessor */: currentKind = 1 /* GetAccessor */; break; case 164 /* SetAccessor */: currentKind = 2 /* SetAccessor */; break; default: throw ts.Debug.assertNever(prop, "Unexpected syntax kind:" + prop.kind); } if (!inDestructuring) { var effectiveName = ts.getPropertyNameForPropertyNameNode(name); if (effectiveName === undefined) { continue; } var existingKind = seen.get(effectiveName); if (!existingKind) { seen.set(effectiveName, currentKind); } else { if ((currentKind & 12 /* PropertyAssignmentOrMethod */) && (existingKind & 12 /* PropertyAssignmentOrMethod */)) { grammarErrorOnNode(name, ts.Diagnostics.Duplicate_identifier_0, ts.getTextOfNode(name)); } else if ((currentKind & 3 /* GetOrSetAccessor */) && (existingKind & 3 /* GetOrSetAccessor */)) { if (existingKind !== 3 /* GetOrSetAccessor */ && currentKind !== existingKind) { seen.set(effectiveName, currentKind | existingKind); } else { return grammarErrorOnNode(name, ts.Diagnostics.An_object_literal_cannot_have_multiple_get_Slashset_accessors_with_the_same_name); } } else { return grammarErrorOnNode(name, ts.Diagnostics.An_object_literal_cannot_have_property_and_accessor_with_the_same_name); } } } } } function checkGrammarJsxElement(node) { checkGrammarTypeArguments(node, node.typeArguments); var seen = ts.createUnderscoreEscapedMap(); for (var _i = 0, _a = node.attributes.properties; _i < _a.length; _i++) { var attr = _a[_i]; if (attr.kind === 275 /* JsxSpreadAttribute */) { continue; } var name = attr.name, initializer = attr.initializer; if (!seen.get(name.escapedText)) { seen.set(name.escapedText, true); } else { return grammarErrorOnNode(name, ts.Diagnostics.JSX_elements_cannot_have_multiple_attributes_with_the_same_name); } if (initializer && initializer.kind === 276 /* JsxExpression */ && !initializer.expression) { return grammarErrorOnNode(initializer, ts.Diagnostics.JSX_attributes_must_only_be_assigned_a_non_empty_expression); } } } function checkGrammarJsxExpression(node) { if (node.expression && ts.isCommaSequence(node.expression)) { return grammarErrorOnNode(node.expression, ts.Diagnostics.JSX_expressions_may_not_use_the_comma_operator_Did_you_mean_to_write_an_array); } } function checkGrammarForInOrForOfStatement(forInOrOfStatement) { if (checkGrammarStatementInAmbientContext(forInOrOfStatement)) { return true; } if (forInOrOfStatement.kind === 232 /* ForOfStatement */ && forInOrOfStatement.awaitModifier) { if ((forInOrOfStatement.flags & 32768 /* AwaitContext */) === 0 /* None */) { // use of 'for-await-of' in non-async function var sourceFile = ts.getSourceFileOfNode(forInOrOfStatement); if (!hasParseDiagnostics(sourceFile)) { var diagnostic = ts.createDiagnosticForNode(forInOrOfStatement.awaitModifier, ts.Diagnostics.A_for_await_of_statement_is_only_allowed_within_an_async_function_or_async_generator); var func = ts.getContainingFunction(forInOrOfStatement); if (func && func.kind !== 162 /* Constructor */) { ts.Debug.assert((ts.getFunctionFlags(func) & 2 /* Async */) === 0, "Enclosing function should never be an async function."); var relatedInfo = ts.createDiagnosticForNode(func, ts.Diagnostics.Did_you_mean_to_mark_this_function_as_async); ts.addRelatedInfo(diagnostic, relatedInfo); } diagnostics.add(diagnostic); return true; } return false; } } if (forInOrOfStatement.initializer.kind === 243 /* VariableDeclarationList */) { var variableList = forInOrOfStatement.initializer; if (!checkGrammarVariableDeclarationList(variableList)) { var declarations = variableList.declarations; // declarations.length can be zero if there is an error in variable declaration in for-of or for-in // See http://www.ecma-international.org/ecma-262/6.0/#sec-for-in-and-for-of-statements for details // For example: // var let = 10; // for (let of [1,2,3]) {} // this is invalid ES6 syntax // for (let in [1,2,3]) {} // this is invalid ES6 syntax // We will then want to skip on grammar checking on variableList declaration if (!declarations.length) { return false; } if (declarations.length > 1) { var diagnostic = forInOrOfStatement.kind === 231 /* ForInStatement */ ? ts.Diagnostics.Only_a_single_variable_declaration_is_allowed_in_a_for_in_statement : ts.Diagnostics.Only_a_single_variable_declaration_is_allowed_in_a_for_of_statement; return grammarErrorOnFirstToken(variableList.declarations[1], diagnostic); } var firstDeclaration = declarations[0]; if (firstDeclaration.initializer) { var diagnostic = forInOrOfStatement.kind === 231 /* ForInStatement */ ? ts.Diagnostics.The_variable_declaration_of_a_for_in_statement_cannot_have_an_initializer : ts.Diagnostics.The_variable_declaration_of_a_for_of_statement_cannot_have_an_initializer; return grammarErrorOnNode(firstDeclaration.name, diagnostic); } if (firstDeclaration.type) { var diagnostic = forInOrOfStatement.kind === 231 /* ForInStatement */ ? ts.Diagnostics.The_left_hand_side_of_a_for_in_statement_cannot_use_a_type_annotation : ts.Diagnostics.The_left_hand_side_of_a_for_of_statement_cannot_use_a_type_annotation; return grammarErrorOnNode(firstDeclaration, diagnostic); } } } return false; } function checkGrammarAccessor(accessor) { if (!(accessor.flags & 8388608 /* Ambient */)) { if (languageVersion < 1 /* ES5 */) { return grammarErrorOnNode(accessor.name, ts.Diagnostics.Accessors_are_only_available_when_targeting_ECMAScript_5_and_higher); } if (accessor.body === undefined && !ts.hasModifier(accessor, 128 /* Abstract */)) { return grammarErrorAtPos(accessor, accessor.end - 1, ";".length, ts.Diagnostics._0_expected, "{"); } } if (accessor.body && ts.hasModifier(accessor, 128 /* Abstract */)) { return grammarErrorOnNode(accessor, ts.Diagnostics.An_abstract_accessor_cannot_have_an_implementation); } if (accessor.typeParameters) { return grammarErrorOnNode(accessor.name, ts.Diagnostics.An_accessor_cannot_have_type_parameters); } if (!doesAccessorHaveCorrectParameterCount(accessor)) { return grammarErrorOnNode(accessor.name, accessor.kind === 163 /* GetAccessor */ ? ts.Diagnostics.A_get_accessor_cannot_have_parameters : ts.Diagnostics.A_set_accessor_must_have_exactly_one_parameter); } if (accessor.kind === 164 /* SetAccessor */) { if (accessor.type) { return grammarErrorOnNode(accessor.name, ts.Diagnostics.A_set_accessor_cannot_have_a_return_type_annotation); } var parameter = ts.Debug.checkDefined(ts.getSetAccessorValueParameter(accessor), "Return value does not match parameter count assertion."); if (parameter.dotDotDotToken) { return grammarErrorOnNode(parameter.dotDotDotToken, ts.Diagnostics.A_set_accessor_cannot_have_rest_parameter); } if (parameter.questionToken) { return grammarErrorOnNode(parameter.questionToken, ts.Diagnostics.A_set_accessor_cannot_have_an_optional_parameter); } if (parameter.initializer) { return grammarErrorOnNode(accessor.name, ts.Diagnostics.A_set_accessor_parameter_cannot_have_an_initializer); } } return false; } /** Does the accessor have the right number of parameters? * A get accessor has no parameters or a single `this` parameter. * A set accessor has one parameter or a `this` parameter and one more parameter. */ function doesAccessorHaveCorrectParameterCount(accessor) { return getAccessorThisParameter(accessor) || accessor.parameters.length === (accessor.kind === 163 /* GetAccessor */ ? 0 : 1); } function getAccessorThisParameter(accessor) { if (accessor.parameters.length === (accessor.kind === 163 /* GetAccessor */ ? 1 : 2)) { return ts.getThisParameter(accessor); } } function checkGrammarTypeOperatorNode(node) { if (node.operator === 147 /* UniqueKeyword */) { if (node.type.kind !== 144 /* SymbolKeyword */) { return grammarErrorOnNode(node.type, ts.Diagnostics._0_expected, ts.tokenToString(144 /* SymbolKeyword */)); } var parent = ts.walkUpParenthesizedTypes(node.parent); switch (parent.kind) { case 242 /* VariableDeclaration */: var decl = parent; if (decl.name.kind !== 75 /* Identifier */) { return grammarErrorOnNode(node, ts.Diagnostics.unique_symbol_types_may_not_be_used_on_a_variable_declaration_with_a_binding_name); } if (!ts.isVariableDeclarationInVariableStatement(decl)) { return grammarErrorOnNode(node, ts.Diagnostics.unique_symbol_types_are_only_allowed_on_variables_in_a_variable_statement); } if (!(decl.parent.flags & 2 /* Const */)) { return grammarErrorOnNode(parent.name, ts.Diagnostics.A_variable_whose_type_is_a_unique_symbol_type_must_be_const); } break; case 159 /* PropertyDeclaration */: if (!ts.hasModifier(parent, 32 /* Static */) || !ts.hasModifier(parent, 64 /* Readonly */)) { return grammarErrorOnNode(parent.name, ts.Diagnostics.A_property_of_a_class_whose_type_is_a_unique_symbol_type_must_be_both_static_and_readonly); } break; case 158 /* PropertySignature */: if (!ts.hasModifier(parent, 64 /* Readonly */)) { return grammarErrorOnNode(parent.name, ts.Diagnostics.A_property_of_an_interface_or_type_literal_whose_type_is_a_unique_symbol_type_must_be_readonly); } break; default: return grammarErrorOnNode(node, ts.Diagnostics.unique_symbol_types_are_not_allowed_here); } } else if (node.operator === 138 /* ReadonlyKeyword */) { if (node.type.kind !== 174 /* ArrayType */ && node.type.kind !== 175 /* TupleType */) { return grammarErrorOnFirstToken(node, ts.Diagnostics.readonly_type_modifier_is_only_permitted_on_array_and_tuple_literal_types, ts.tokenToString(144 /* SymbolKeyword */)); } } } function checkGrammarForInvalidDynamicName(node, message) { if (isNonBindableDynamicName(node)) { return grammarErrorOnNode(node, message); } } function checkGrammarMethod(node) { if (checkGrammarFunctionLikeDeclaration(node)) { return true; } if (node.kind === 161 /* MethodDeclaration */) { if (node.parent.kind === 193 /* ObjectLiteralExpression */) { // We only disallow modifier on a method declaration if it is a property of object-literal-expression if (node.modifiers && !(node.modifiers.length === 1 && ts.first(node.modifiers).kind === 126 /* AsyncKeyword */)) { return grammarErrorOnFirstToken(node, ts.Diagnostics.Modifiers_cannot_appear_here); } else if (checkGrammarForInvalidQuestionMark(node.questionToken, ts.Diagnostics.An_object_member_cannot_be_declared_optional)) { return true; } else if (checkGrammarForInvalidExclamationToken(node.exclamationToken, ts.Diagnostics.A_definite_assignment_assertion_is_not_permitted_in_this_context)) { return true; } else if (node.body === undefined) { return grammarErrorAtPos(node, node.end - 1, ";".length, ts.Diagnostics._0_expected, "{"); } } if (checkGrammarForGenerator(node)) { return true; } } if (ts.isClassLike(node.parent)) { // Technically, computed properties in ambient contexts is disallowed // for property declarations and accessors too, not just methods. // However, property declarations disallow computed names in general, // and accessors are not allowed in ambient contexts in general, // so this error only really matters for methods. if (node.flags & 8388608 /* Ambient */) { return checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_an_ambient_context_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type); } else if (node.kind === 161 /* MethodDeclaration */ && !node.body) { return checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_a_method_overload_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type); } } else if (node.parent.kind === 246 /* InterfaceDeclaration */) { return checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_an_interface_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type); } else if (node.parent.kind === 173 /* TypeLiteral */) { return checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_a_type_literal_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type); } } function checkGrammarBreakOrContinueStatement(node) { var current = node; while (current) { if (ts.isFunctionLike(current)) { return grammarErrorOnNode(node, ts.Diagnostics.Jump_target_cannot_cross_function_boundary); } switch (current.kind) { case 238 /* LabeledStatement */: if (node.label && current.label.escapedText === node.label.escapedText) { // found matching label - verify that label usage is correct // continue can only target labels that are on iteration statements var isMisplacedContinueLabel = node.kind === 233 /* ContinueStatement */ && !ts.isIterationStatement(current.statement, /*lookInLabeledStatement*/ true); if (isMisplacedContinueLabel) { return grammarErrorOnNode(node, ts.Diagnostics.A_continue_statement_can_only_jump_to_a_label_of_an_enclosing_iteration_statement); } return false; } break; case 237 /* SwitchStatement */: if (node.kind === 234 /* BreakStatement */ && !node.label) { // unlabeled break within switch statement - ok return false; } break; default: if (ts.isIterationStatement(current, /*lookInLabeledStatement*/ false) && !node.label) { // unlabeled break or continue within iteration statement - ok return false; } break; } current = current.parent; } if (node.label) { var message = node.kind === 234 /* BreakStatement */ ? ts.Diagnostics.A_break_statement_can_only_jump_to_a_label_of_an_enclosing_statement : ts.Diagnostics.A_continue_statement_can_only_jump_to_a_label_of_an_enclosing_iteration_statement; return grammarErrorOnNode(node, message); } else { var message = node.kind === 234 /* BreakStatement */ ? ts.Diagnostics.A_break_statement_can_only_be_used_within_an_enclosing_iteration_or_switch_statement : ts.Diagnostics.A_continue_statement_can_only_be_used_within_an_enclosing_iteration_statement; return grammarErrorOnNode(node, message); } } function checkGrammarBindingElement(node) { if (node.dotDotDotToken) { var elements = node.parent.elements; if (node !== ts.last(elements)) { return grammarErrorOnNode(node, ts.Diagnostics.A_rest_element_must_be_last_in_a_destructuring_pattern); } checkGrammarForDisallowedTrailingComma(elements, ts.Diagnostics.A_rest_parameter_or_binding_pattern_may_not_have_a_trailing_comma); if (node.propertyName) { return grammarErrorOnNode(node.name, ts.Diagnostics.A_rest_element_cannot_have_a_property_name); } if (node.initializer) { // Error on equals token which immediately precedes the initializer return grammarErrorAtPos(node, node.initializer.pos - 1, 1, ts.Diagnostics.A_rest_element_cannot_have_an_initializer); } } } function isStringOrNumberLiteralExpression(expr) { return ts.isStringOrNumericLiteralLike(expr) || expr.kind === 207 /* PrefixUnaryExpression */ && expr.operator === 40 /* MinusToken */ && expr.operand.kind === 8 /* NumericLiteral */; } function isBigIntLiteralExpression(expr) { return expr.kind === 9 /* BigIntLiteral */ || expr.kind === 207 /* PrefixUnaryExpression */ && expr.operator === 40 /* MinusToken */ && expr.operand.kind === 9 /* BigIntLiteral */; } function isSimpleLiteralEnumReference(expr) { if ((ts.isPropertyAccessExpression(expr) || (ts.isElementAccessExpression(expr) && isStringOrNumberLiteralExpression(expr.argumentExpression))) && ts.isEntityNameExpression(expr.expression)) { return !!(checkExpressionCached(expr).flags & 1024 /* EnumLiteral */); } } function checkAmbientInitializer(node) { var initializer = node.initializer; if (initializer) { var isInvalidInitializer = !(isStringOrNumberLiteralExpression(initializer) || isSimpleLiteralEnumReference(initializer) || initializer.kind === 106 /* TrueKeyword */ || initializer.kind === 91 /* FalseKeyword */ || isBigIntLiteralExpression(initializer)); var isConstOrReadonly = ts.isDeclarationReadonly(node) || ts.isVariableDeclaration(node) && ts.isVarConst(node); if (isConstOrReadonly && !node.type) { if (isInvalidInitializer) { return grammarErrorOnNode(initializer, ts.Diagnostics.A_const_initializer_in_an_ambient_context_must_be_a_string_or_numeric_literal_or_literal_enum_reference); } } else { return grammarErrorOnNode(initializer, ts.Diagnostics.Initializers_are_not_allowed_in_ambient_contexts); } if (!isConstOrReadonly || isInvalidInitializer) { return grammarErrorOnNode(initializer, ts.Diagnostics.Initializers_are_not_allowed_in_ambient_contexts); } } } function checkGrammarVariableDeclaration(node) { if (node.parent.parent.kind !== 231 /* ForInStatement */ && node.parent.parent.kind !== 232 /* ForOfStatement */) { if (node.flags & 8388608 /* Ambient */) { checkAmbientInitializer(node); } else if (!node.initializer) { if (ts.isBindingPattern(node.name) && !ts.isBindingPattern(node.parent)) { return grammarErrorOnNode(node, ts.Diagnostics.A_destructuring_declaration_must_have_an_initializer); } if (ts.isVarConst(node)) { return grammarErrorOnNode(node, ts.Diagnostics.const_declarations_must_be_initialized); } } } if (node.exclamationToken && (node.parent.parent.kind !== 225 /* VariableStatement */ || !node.type || node.initializer || node.flags & 8388608 /* Ambient */)) { return grammarErrorOnNode(node.exclamationToken, ts.Diagnostics.Definite_assignment_assertions_can_only_be_used_along_with_a_type_annotation); } var moduleKind = ts.getEmitModuleKind(compilerOptions); if (moduleKind < ts.ModuleKind.ES2015 && moduleKind !== ts.ModuleKind.System && !compilerOptions.noEmit && !(node.parent.parent.flags & 8388608 /* Ambient */) && ts.hasModifier(node.parent.parent, 1 /* Export */)) { checkESModuleMarker(node.name); } var checkLetConstNames = (ts.isLet(node) || ts.isVarConst(node)); // 1. LexicalDeclaration : LetOrConst BindingList ; // It is a Syntax Error if the BoundNames of BindingList contains "let". // 2. ForDeclaration: ForDeclaration : LetOrConst ForBinding // It is a Syntax Error if the BoundNames of ForDeclaration contains "let". // It is a SyntaxError if a VariableDeclaration or VariableDeclarationNoIn occurs within strict code // and its Identifier is eval or arguments return checkLetConstNames && checkGrammarNameInLetOrConstDeclarations(node.name); } function checkESModuleMarker(name) { if (name.kind === 75 /* Identifier */) { if (ts.idText(name) === "__esModule") { return grammarErrorOnNode(name, ts.Diagnostics.Identifier_expected_esModule_is_reserved_as_an_exported_marker_when_transforming_ECMAScript_modules); } } else { var elements = name.elements; for (var _i = 0, elements_1 = elements; _i < elements_1.length; _i++) { var element = elements_1[_i]; if (!ts.isOmittedExpression(element)) { return checkESModuleMarker(element.name); } } } return false; } function checkGrammarNameInLetOrConstDeclarations(name) { if (name.kind === 75 /* Identifier */) { if (name.originalKeywordKind === 115 /* LetKeyword */) { return grammarErrorOnNode(name, ts.Diagnostics.let_is_not_allowed_to_be_used_as_a_name_in_let_or_const_declarations); } } else { var elements = name.elements; for (var _i = 0, elements_2 = elements; _i < elements_2.length; _i++) { var element = elements_2[_i]; if (!ts.isOmittedExpression(element)) { checkGrammarNameInLetOrConstDeclarations(element.name); } } } return false; } function checkGrammarVariableDeclarationList(declarationList) { var declarations = declarationList.declarations; if (checkGrammarForDisallowedTrailingComma(declarationList.declarations)) { return true; } if (!declarationList.declarations.length) { return grammarErrorAtPos(declarationList, declarations.pos, declarations.end - declarations.pos, ts.Diagnostics.Variable_declaration_list_cannot_be_empty); } return false; } function allowLetAndConstDeclarations(parent) { switch (parent.kind) { case 227 /* IfStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: case 236 /* WithStatement */: case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: return false; case 238 /* LabeledStatement */: return allowLetAndConstDeclarations(parent.parent); } return true; } function checkGrammarForDisallowedLetOrConstStatement(node) { if (!allowLetAndConstDeclarations(node.parent)) { if (ts.isLet(node.declarationList)) { return grammarErrorOnNode(node, ts.Diagnostics.let_declarations_can_only_be_declared_inside_a_block); } else if (ts.isVarConst(node.declarationList)) { return grammarErrorOnNode(node, ts.Diagnostics.const_declarations_can_only_be_declared_inside_a_block); } } } function checkGrammarMetaProperty(node) { var escapedText = node.name.escapedText; switch (node.keywordToken) { case 99 /* NewKeyword */: if (escapedText !== "target") { return grammarErrorOnNode(node.name, ts.Diagnostics._0_is_not_a_valid_meta_property_for_keyword_1_Did_you_mean_2, node.name.escapedText, ts.tokenToString(node.keywordToken), "target"); } break; case 96 /* ImportKeyword */: if (escapedText !== "meta") { return grammarErrorOnNode(node.name, ts.Diagnostics._0_is_not_a_valid_meta_property_for_keyword_1_Did_you_mean_2, node.name.escapedText, ts.tokenToString(node.keywordToken), "meta"); } break; } } function hasParseDiagnostics(sourceFile) { return sourceFile.parseDiagnostics.length > 0; } function grammarErrorOnFirstToken(node, message, arg0, arg1, arg2) { var sourceFile = ts.getSourceFileOfNode(node); if (!hasParseDiagnostics(sourceFile)) { var span = ts.getSpanOfTokenAtPosition(sourceFile, node.pos); diagnostics.add(ts.createFileDiagnostic(sourceFile, span.start, span.length, message, arg0, arg1, arg2)); return true; } return false; } function grammarErrorAtPos(nodeForSourceFile, start, length, message, arg0, arg1, arg2) { var sourceFile = ts.getSourceFileOfNode(nodeForSourceFile); if (!hasParseDiagnostics(sourceFile)) { diagnostics.add(ts.createFileDiagnostic(sourceFile, start, length, message, arg0, arg1, arg2)); return true; } return false; } function grammarErrorOnNode(node, message, arg0, arg1, arg2) { var sourceFile = ts.getSourceFileOfNode(node); if (!hasParseDiagnostics(sourceFile)) { diagnostics.add(ts.createDiagnosticForNode(node, message, arg0, arg1, arg2)); return true; } return false; } function checkGrammarConstructorTypeParameters(node) { var jsdocTypeParameters = ts.isInJSFile(node) ? ts.getJSDocTypeParameterDeclarations(node) : undefined; var range = node.typeParameters || jsdocTypeParameters && ts.firstOrUndefined(jsdocTypeParameters); if (range) { var pos = range.pos === range.end ? range.pos : ts.skipTrivia(ts.getSourceFileOfNode(node).text, range.pos); return grammarErrorAtPos(node, pos, range.end - pos, ts.Diagnostics.Type_parameters_cannot_appear_on_a_constructor_declaration); } } function checkGrammarConstructorTypeAnnotation(node) { var type = ts.getEffectiveReturnTypeNode(node); if (type) { return grammarErrorOnNode(type, ts.Diagnostics.Type_annotation_cannot_appear_on_a_constructor_declaration); } } function checkGrammarProperty(node) { if (ts.isClassLike(node.parent)) { if (ts.isStringLiteral(node.name) && node.name.text === "constructor") { return grammarErrorOnNode(node.name, ts.Diagnostics.Classes_may_not_have_a_field_named_constructor); } if (checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_a_class_property_declaration_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type)) { return true; } if (languageVersion < 2 /* ES2015 */ && ts.isPrivateIdentifier(node.name)) { return grammarErrorOnNode(node.name, ts.Diagnostics.Private_identifiers_are_only_available_when_targeting_ECMAScript_2015_and_higher); } } else if (node.parent.kind === 246 /* InterfaceDeclaration */) { if (checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_an_interface_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type)) { return true; } if (node.initializer) { return grammarErrorOnNode(node.initializer, ts.Diagnostics.An_interface_property_cannot_have_an_initializer); } } else if (node.parent.kind === 173 /* TypeLiteral */) { if (checkGrammarForInvalidDynamicName(node.name, ts.Diagnostics.A_computed_property_name_in_a_type_literal_must_refer_to_an_expression_whose_type_is_a_literal_type_or_a_unique_symbol_type)) { return true; } if (node.initializer) { return grammarErrorOnNode(node.initializer, ts.Diagnostics.A_type_literal_property_cannot_have_an_initializer); } } if (node.flags & 8388608 /* Ambient */) { checkAmbientInitializer(node); } if (ts.isPropertyDeclaration(node) && node.exclamationToken && (!ts.isClassLike(node.parent) || !node.type || node.initializer || node.flags & 8388608 /* Ambient */ || ts.hasModifier(node, 32 /* Static */ | 128 /* Abstract */))) { return grammarErrorOnNode(node.exclamationToken, ts.Diagnostics.A_definite_assignment_assertion_is_not_permitted_in_this_context); } } function checkGrammarTopLevelElementForRequiredDeclareModifier(node) { // A declare modifier is required for any top level .d.ts declaration except export=, export default, export as namespace // interfaces and imports categories: // // DeclarationElement: // ExportAssignment // export_opt InterfaceDeclaration // export_opt TypeAliasDeclaration // export_opt ImportDeclaration // export_opt ExternalImportDeclaration // export_opt AmbientDeclaration // // TODO: The spec needs to be amended to reflect this grammar. if (node.kind === 246 /* InterfaceDeclaration */ || node.kind === 247 /* TypeAliasDeclaration */ || node.kind === 254 /* ImportDeclaration */ || node.kind === 253 /* ImportEqualsDeclaration */ || node.kind === 260 /* ExportDeclaration */ || node.kind === 259 /* ExportAssignment */ || node.kind === 252 /* NamespaceExportDeclaration */ || ts.hasModifier(node, 2 /* Ambient */ | 1 /* Export */ | 512 /* Default */)) { return false; } return grammarErrorOnFirstToken(node, ts.Diagnostics.Top_level_declarations_in_d_ts_files_must_start_with_either_a_declare_or_export_modifier); } function checkGrammarTopLevelElementsForRequiredDeclareModifier(file) { for (var _i = 0, _a = file.statements; _i < _a.length; _i++) { var decl = _a[_i]; if (ts.isDeclaration(decl) || decl.kind === 225 /* VariableStatement */) { if (checkGrammarTopLevelElementForRequiredDeclareModifier(decl)) { return true; } } } return false; } function checkGrammarSourceFile(node) { return !!(node.flags & 8388608 /* Ambient */) && checkGrammarTopLevelElementsForRequiredDeclareModifier(node); } function checkGrammarStatementInAmbientContext(node) { if (node.flags & 8388608 /* Ambient */) { // Find containing block which is either Block, ModuleBlock, SourceFile var links = getNodeLinks(node); if (!links.hasReportedStatementInAmbientContext && (ts.isFunctionLike(node.parent) || ts.isAccessor(node.parent))) { return getNodeLinks(node).hasReportedStatementInAmbientContext = grammarErrorOnFirstToken(node, ts.Diagnostics.An_implementation_cannot_be_declared_in_ambient_contexts); } // We are either parented by another statement, or some sort of block. // If we're in a block, we only want to really report an error once // to prevent noisiness. So use a bit on the block to indicate if // this has already been reported, and don't report if it has. // if (node.parent.kind === 223 /* Block */ || node.parent.kind === 250 /* ModuleBlock */ || node.parent.kind === 290 /* SourceFile */) { var links_2 = getNodeLinks(node.parent); // Check if the containing block ever report this error if (!links_2.hasReportedStatementInAmbientContext) { return links_2.hasReportedStatementInAmbientContext = grammarErrorOnFirstToken(node, ts.Diagnostics.Statements_are_not_allowed_in_ambient_contexts); } } else { // We must be parented by a statement. If so, there's no need // to report the error as our parent will have already done it. // Debug.assert(isStatement(node.parent)); } } return false; } function checkGrammarNumericLiteral(node) { // Grammar checking if (node.numericLiteralFlags & 32 /* Octal */) { var diagnosticMessage = void 0; if (languageVersion >= 1 /* ES5 */) { diagnosticMessage = ts.Diagnostics.Octal_literals_are_not_available_when_targeting_ECMAScript_5_and_higher_Use_the_syntax_0; } else if (ts.isChildOfNodeWithKind(node, 187 /* LiteralType */)) { diagnosticMessage = ts.Diagnostics.Octal_literal_types_must_use_ES2015_syntax_Use_the_syntax_0; } else if (ts.isChildOfNodeWithKind(node, 284 /* EnumMember */)) { diagnosticMessage = ts.Diagnostics.Octal_literals_are_not_allowed_in_enums_members_initializer_Use_the_syntax_0; } if (diagnosticMessage) { var withMinus = ts.isPrefixUnaryExpression(node.parent) && node.parent.operator === 40 /* MinusToken */; var literal = (withMinus ? "-" : "") + "0o" + node.text; return grammarErrorOnNode(withMinus ? node.parent : node, diagnosticMessage, literal); } } // Realism (size) checking checkNumericLiteralValueSize(node); return false; } function checkNumericLiteralValueSize(node) { // Scientific notation (e.g. 2e54 and 1e00000000010) can't be converted to bigint // Literals with 15 or fewer characters aren't long enough to reach past 2^53 - 1 // Fractional numbers (e.g. 9000000000000000.001) are inherently imprecise anyway if (node.numericLiteralFlags & 16 /* Scientific */ || node.text.length <= 15 || node.text.indexOf(".") !== -1) { return; } // We can't rely on the runtime to accurately store and compare extremely large numeric values // Even for internal use, we use getTextOfNode: https://github.com/microsoft/TypeScript/issues/33298 // Thus, if the runtime claims a too-large number is lower than Number.MAX_SAFE_INTEGER, // it's likely addition operations on it will fail too var apparentValue = +ts.getTextOfNode(node); if (apparentValue <= Math.pow(2, 53) - 1 && apparentValue + 1 > apparentValue) { return; } addErrorOrSuggestion(/*isError*/ false, ts.createDiagnosticForNode(node, ts.Diagnostics.Numeric_literals_with_absolute_values_equal_to_2_53_or_greater_are_too_large_to_be_represented_accurately_as_integers)); } function checkGrammarBigIntLiteral(node) { var literalType = ts.isLiteralTypeNode(node.parent) || ts.isPrefixUnaryExpression(node.parent) && ts.isLiteralTypeNode(node.parent.parent); if (!literalType) { if (languageVersion < 7 /* ES2020 */) { if (grammarErrorOnNode(node, ts.Diagnostics.BigInt_literals_are_not_available_when_targeting_lower_than_ES2020)) { return true; } } } return false; } function grammarErrorAfterFirstToken(node, message, arg0, arg1, arg2) { var sourceFile = ts.getSourceFileOfNode(node); if (!hasParseDiagnostics(sourceFile)) { var span = ts.getSpanOfTokenAtPosition(sourceFile, node.pos); diagnostics.add(ts.createFileDiagnostic(sourceFile, ts.textSpanEnd(span), /*length*/ 0, message, arg0, arg1, arg2)); return true; } return false; } function getAmbientModules() { if (!ambientModulesCache) { ambientModulesCache = []; globals.forEach(function (global, sym) { // No need to `unescapeLeadingUnderscores`, an escaped symbol is never an ambient module. if (ambientModuleSymbolRegex.test(sym)) { ambientModulesCache.push(global); } }); } return ambientModulesCache; } function checkGrammarImportClause(node) { if (node.isTypeOnly && node.name && node.namedBindings) { return grammarErrorOnNode(node, ts.Diagnostics.A_type_only_import_can_specify_a_default_import_or_named_bindings_but_not_both); } return false; } function checkGrammarImportCallExpression(node) { if (moduleKind === ts.ModuleKind.ES2015) { return grammarErrorOnNode(node, ts.Diagnostics.Dynamic_imports_are_only_supported_when_the_module_flag_is_set_to_es2020_esnext_commonjs_amd_system_or_umd); } if (node.typeArguments) { return grammarErrorOnNode(node, ts.Diagnostics.Dynamic_import_cannot_have_type_arguments); } var nodeArguments = node.arguments; if (nodeArguments.length !== 1) { return grammarErrorOnNode(node, ts.Diagnostics.Dynamic_import_must_have_one_specifier_as_an_argument); } checkGrammarForDisallowedTrailingComma(nodeArguments); // see: parseArgumentOrArrayLiteralElement...we use this function which parse arguments of callExpression to parse specifier for dynamic import. // parseArgumentOrArrayLiteralElement allows spread element to be in an argument list which is not allowed as specifier in dynamic import. if (ts.isSpreadElement(nodeArguments[0])) { return grammarErrorOnNode(nodeArguments[0], ts.Diagnostics.Specifier_of_dynamic_import_cannot_be_spread_element); } return false; } function findMatchingTypeReferenceOrTypeAliasReference(source, unionTarget) { var sourceObjectFlags = ts.getObjectFlags(source); if (sourceObjectFlags & (4 /* Reference */ | 16 /* Anonymous */) && unionTarget.flags & 1048576 /* Union */) { return ts.find(unionTarget.types, function (target) { if (target.flags & 524288 /* Object */) { var overlapObjFlags = sourceObjectFlags & ts.getObjectFlags(target); if (overlapObjFlags & 4 /* Reference */) { return source.target === target.target; } if (overlapObjFlags & 16 /* Anonymous */) { return !!source.aliasSymbol && source.aliasSymbol === target.aliasSymbol; } } return false; }); } } function findBestTypeForObjectLiteral(source, unionTarget) { if (ts.getObjectFlags(source) & 128 /* ObjectLiteral */ && forEachType(unionTarget, isArrayLikeType)) { return ts.find(unionTarget.types, function (t) { return !isArrayLikeType(t); }); } } function findBestTypeForInvokable(source, unionTarget) { var signatureKind = 0 /* Call */; var hasSignatures = getSignaturesOfType(source, signatureKind).length > 0 || (signatureKind = 1 /* Construct */, getSignaturesOfType(source, signatureKind).length > 0); if (hasSignatures) { return ts.find(unionTarget.types, function (t) { return getSignaturesOfType(t, signatureKind).length > 0; }); } } function findMostOverlappyType(source, unionTarget) { var bestMatch; var matchingCount = 0; for (var _i = 0, _a = unionTarget.types; _i < _a.length; _i++) { var target = _a[_i]; var overlap = getIntersectionType([getIndexType(source), getIndexType(target)]); if (overlap.flags & 4194304 /* Index */) { // perfect overlap of keys bestMatch = target; matchingCount = Infinity; } else if (overlap.flags & 1048576 /* Union */) { // We only want to account for literal types otherwise. // If we have a union of index types, it seems likely that we // needed to elaborate between two generic mapped types anyway. var len = ts.length(ts.filter(overlap.types, isUnitType)); if (len >= matchingCount) { bestMatch = target; matchingCount = len; } } else if (isUnitType(overlap) && 1 >= matchingCount) { bestMatch = target; matchingCount = 1; } } return bestMatch; } function filterPrimitivesIfContainsNonPrimitive(type) { if (maybeTypeOfKind(type, 67108864 /* NonPrimitive */)) { var result = filterType(type, function (t) { return !(t.flags & 131068 /* Primitive */); }); if (!(result.flags & 131072 /* Never */)) { return result; } } return type; } // Keep this up-to-date with the same logic within `getApparentTypeOfContextualType`, since they should behave similarly function findMatchingDiscriminantType(source, target, isRelatedTo, skipPartial) { if (target.flags & 1048576 /* Union */ && source.flags & (2097152 /* Intersection */ | 524288 /* Object */)) { var sourceProperties = getPropertiesOfType(source); if (sourceProperties) { var sourcePropertiesFiltered = findDiscriminantProperties(sourceProperties, target); if (sourcePropertiesFiltered) { return discriminateTypeByDiscriminableItems(target, ts.map(sourcePropertiesFiltered, function (p) { return [function () { return getTypeOfSymbol(p); }, p.escapedName]; }), isRelatedTo, /*defaultValue*/ undefined, skipPartial); } } } return undefined; } } ts.createTypeChecker = createTypeChecker; function isNotAccessor(declaration) { // Accessors check for their own matching duplicates, and in contexts where they are valid, there are already duplicate identifier checks return !ts.isAccessor(declaration); } function isNotOverload(declaration) { return (declaration.kind !== 244 /* FunctionDeclaration */ && declaration.kind !== 161 /* MethodDeclaration */) || !!declaration.body; } /** Like 'isDeclarationName', but returns true for LHS of `import { x as y }` or `export { x as y }`. */ function isDeclarationNameOrImportPropertyName(name) { switch (name.parent.kind) { case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: return ts.isIdentifier(name); default: return ts.isDeclarationName(name); } } function isSomeImportDeclaration(decl) { switch (decl.kind) { case 255 /* ImportClause */: // For default import case 253 /* ImportEqualsDeclaration */: case 256 /* NamespaceImport */: case 258 /* ImportSpecifier */: // For rename import `x as y` return true; case 75 /* Identifier */: // For regular import, `decl` is an Identifier under the ImportSpecifier. return decl.parent.kind === 258 /* ImportSpecifier */; default: return false; } } var JsxNames; (function (JsxNames) { JsxNames.JSX = "JSX"; JsxNames.IntrinsicElements = "IntrinsicElements"; JsxNames.ElementClass = "ElementClass"; JsxNames.ElementAttributesPropertyNameContainer = "ElementAttributesProperty"; // TODO: Deprecate and remove support JsxNames.ElementChildrenAttributeNameContainer = "ElementChildrenAttribute"; JsxNames.Element = "Element"; JsxNames.IntrinsicAttributes = "IntrinsicAttributes"; JsxNames.IntrinsicClassAttributes = "IntrinsicClassAttributes"; JsxNames.LibraryManagedAttributes = "LibraryManagedAttributes"; })(JsxNames || (JsxNames = {})); function getIterationTypesKeyFromIterationTypeKind(typeKind) { switch (typeKind) { case 0 /* Yield */: return "yieldType"; case 1 /* Return */: return "returnType"; case 2 /* Next */: return "nextType"; } } function signatureHasRestParameter(s) { return !!(s.flags & 1 /* HasRestParameter */); } ts.signatureHasRestParameter = signatureHasRestParameter; function signatureHasLiteralTypes(s) { return !!(s.flags & 2 /* HasLiteralTypes */); } ts.signatureHasLiteralTypes = signatureHasLiteralTypes; })(ts || (ts = {})); var ts; (function (ts) { function createSynthesizedNode(kind) { var node = ts.createNode(kind, -1, -1); node.flags |= 8 /* Synthesized */; return node; } /* @internal */ function updateNode(updated, original) { if (updated !== original) { setOriginalNode(updated, original); setTextRange(updated, original); ts.aggregateTransformFlags(updated); } return updated; } ts.updateNode = updateNode; /** * Make `elements` into a `NodeArray`. If `elements` is `undefined`, returns an empty `NodeArray`. */ function createNodeArray(elements, hasTrailingComma) { if (!elements || elements === ts.emptyArray) { elements = []; } else if (ts.isNodeArray(elements)) { return elements; } var array = elements; array.pos = -1; array.end = -1; array.hasTrailingComma = hasTrailingComma; return array; } ts.createNodeArray = createNodeArray; /** * Creates a shallow, memberwise clone of a node with no source map location. */ /* @internal */ function getSynthesizedClone(node) { // We don't use "clone" from core.ts here, as we need to preserve the prototype chain of // the original node. We also need to exclude specific properties and only include own- // properties (to skip members already defined on the shared prototype). if (node === undefined) { return node; } var clone = createSynthesizedNode(node.kind); clone.flags |= node.flags; setOriginalNode(clone, node); for (var key in node) { if (clone.hasOwnProperty(key) || !node.hasOwnProperty(key)) { continue; } clone[key] = node[key]; } return clone; } ts.getSynthesizedClone = getSynthesizedClone; function createLiteral(value, isSingleQuote) { if (typeof value === "number") { return createNumericLiteral(value + ""); } // eslint-disable-next-line no-in-operator if (typeof value === "object" && "base10Value" in value) { // PseudoBigInt return createBigIntLiteral(ts.pseudoBigIntToString(value) + "n"); } if (typeof value === "boolean") { return value ? createTrue() : createFalse(); } if (ts.isString(value)) { var res = createStringLiteral(value); if (isSingleQuote) res.singleQuote = true; return res; } return createLiteralFromNode(value); } ts.createLiteral = createLiteral; function createNumericLiteral(value, numericLiteralFlags) { if (numericLiteralFlags === void 0) { numericLiteralFlags = 0 /* None */; } var node = createSynthesizedNode(8 /* NumericLiteral */); node.text = value; node.numericLiteralFlags = numericLiteralFlags; return node; } ts.createNumericLiteral = createNumericLiteral; function createBigIntLiteral(value) { var node = createSynthesizedNode(9 /* BigIntLiteral */); node.text = value; return node; } ts.createBigIntLiteral = createBigIntLiteral; function createStringLiteral(text) { var node = createSynthesizedNode(10 /* StringLiteral */); node.text = text; return node; } ts.createStringLiteral = createStringLiteral; function createRegularExpressionLiteral(text) { var node = createSynthesizedNode(13 /* RegularExpressionLiteral */); node.text = text; return node; } ts.createRegularExpressionLiteral = createRegularExpressionLiteral; function createLiteralFromNode(sourceNode) { var node = createStringLiteral(ts.getTextOfIdentifierOrLiteral(sourceNode)); node.textSourceNode = sourceNode; return node; } function createIdentifier(text, typeArguments) { var node = createSynthesizedNode(75 /* Identifier */); node.escapedText = ts.escapeLeadingUnderscores(text); node.originalKeywordKind = text ? ts.stringToToken(text) : 0 /* Unknown */; node.autoGenerateFlags = 0 /* None */; node.autoGenerateId = 0; if (typeArguments) { node.typeArguments = createNodeArray(typeArguments); } return node; } ts.createIdentifier = createIdentifier; function updateIdentifier(node, typeArguments) { return node.typeArguments !== typeArguments ? updateNode(createIdentifier(ts.idText(node), typeArguments), node) : node; } ts.updateIdentifier = updateIdentifier; var nextAutoGenerateId = 0; function createTempVariable(recordTempVariable, reservedInNestedScopes) { var name = createIdentifier(""); name.autoGenerateFlags = 1 /* Auto */; name.autoGenerateId = nextAutoGenerateId; nextAutoGenerateId++; if (recordTempVariable) { recordTempVariable(name); } if (reservedInNestedScopes) { name.autoGenerateFlags |= 8 /* ReservedInNestedScopes */; } return name; } ts.createTempVariable = createTempVariable; /** Create a unique temporary variable for use in a loop. */ function createLoopVariable() { var name = createIdentifier(""); name.autoGenerateFlags = 2 /* Loop */; name.autoGenerateId = nextAutoGenerateId; nextAutoGenerateId++; return name; } ts.createLoopVariable = createLoopVariable; /** Create a unique name based on the supplied text. */ function createUniqueName(text) { var name = createIdentifier(text); name.autoGenerateFlags = 3 /* Unique */; name.autoGenerateId = nextAutoGenerateId; nextAutoGenerateId++; return name; } ts.createUniqueName = createUniqueName; function createOptimisticUniqueName(text) { var name = createIdentifier(text); name.autoGenerateFlags = 3 /* Unique */ | 16 /* Optimistic */; name.autoGenerateId = nextAutoGenerateId; nextAutoGenerateId++; return name; } ts.createOptimisticUniqueName = createOptimisticUniqueName; /** Create a unique name based on the supplied text. This does not consider names injected by the transformer. */ function createFileLevelUniqueName(text) { var name = createOptimisticUniqueName(text); name.autoGenerateFlags |= 32 /* FileLevel */; return name; } ts.createFileLevelUniqueName = createFileLevelUniqueName; function getGeneratedNameForNode(node, flags) { var name = createIdentifier(node && ts.isIdentifier(node) ? ts.idText(node) : ""); name.autoGenerateFlags = 4 /* Node */ | flags; name.autoGenerateId = nextAutoGenerateId; name.original = node; nextAutoGenerateId++; return name; } ts.getGeneratedNameForNode = getGeneratedNameForNode; // Private Identifiers function createPrivateIdentifier(text) { if (text[0] !== "#") { ts.Debug.fail("First character of private identifier must be #: " + text); } var node = createSynthesizedNode(76 /* PrivateIdentifier */); node.escapedText = ts.escapeLeadingUnderscores(text); return node; } ts.createPrivateIdentifier = createPrivateIdentifier; // Punctuation function createToken(token) { return createSynthesizedNode(token); } ts.createToken = createToken; // Reserved words function createSuper() { return createSynthesizedNode(102 /* SuperKeyword */); } ts.createSuper = createSuper; function createThis() { return createSynthesizedNode(104 /* ThisKeyword */); } ts.createThis = createThis; function createNull() { return createSynthesizedNode(100 /* NullKeyword */); } ts.createNull = createNull; function createTrue() { return createSynthesizedNode(106 /* TrueKeyword */); } ts.createTrue = createTrue; function createFalse() { return createSynthesizedNode(91 /* FalseKeyword */); } ts.createFalse = createFalse; // Modifiers function createModifier(kind) { return createToken(kind); } ts.createModifier = createModifier; function createModifiersFromModifierFlags(flags) { var result = []; if (flags & 1 /* Export */) { result.push(createModifier(89 /* ExportKeyword */)); } if (flags & 2 /* Ambient */) { result.push(createModifier(130 /* DeclareKeyword */)); } if (flags & 512 /* Default */) { result.push(createModifier(84 /* DefaultKeyword */)); } if (flags & 2048 /* Const */) { result.push(createModifier(81 /* ConstKeyword */)); } if (flags & 4 /* Public */) { result.push(createModifier(119 /* PublicKeyword */)); } if (flags & 8 /* Private */) { result.push(createModifier(117 /* PrivateKeyword */)); } if (flags & 16 /* Protected */) { result.push(createModifier(118 /* ProtectedKeyword */)); } if (flags & 128 /* Abstract */) { result.push(createModifier(122 /* AbstractKeyword */)); } if (flags & 32 /* Static */) { result.push(createModifier(120 /* StaticKeyword */)); } if (flags & 64 /* Readonly */) { result.push(createModifier(138 /* ReadonlyKeyword */)); } if (flags & 256 /* Async */) { result.push(createModifier(126 /* AsyncKeyword */)); } return result; } ts.createModifiersFromModifierFlags = createModifiersFromModifierFlags; // Names function createQualifiedName(left, right) { var node = createSynthesizedNode(153 /* QualifiedName */); node.left = left; node.right = asName(right); return node; } ts.createQualifiedName = createQualifiedName; function updateQualifiedName(node, left, right) { return node.left !== left || node.right !== right ? updateNode(createQualifiedName(left, right), node) : node; } ts.updateQualifiedName = updateQualifiedName; function parenthesizeForComputedName(expression) { return ts.isCommaSequence(expression) ? createParen(expression) : expression; } function createComputedPropertyName(expression) { var node = createSynthesizedNode(154 /* ComputedPropertyName */); node.expression = parenthesizeForComputedName(expression); return node; } ts.createComputedPropertyName = createComputedPropertyName; function updateComputedPropertyName(node, expression) { return node.expression !== expression ? updateNode(createComputedPropertyName(expression), node) : node; } ts.updateComputedPropertyName = updateComputedPropertyName; // Signature elements function createTypeParameterDeclaration(name, constraint, defaultType) { var node = createSynthesizedNode(155 /* TypeParameter */); node.name = asName(name); node.constraint = constraint; node.default = defaultType; return node; } ts.createTypeParameterDeclaration = createTypeParameterDeclaration; function updateTypeParameterDeclaration(node, name, constraint, defaultType) { return node.name !== name || node.constraint !== constraint || node.default !== defaultType ? updateNode(createTypeParameterDeclaration(name, constraint, defaultType), node) : node; } ts.updateTypeParameterDeclaration = updateTypeParameterDeclaration; function createParameter(decorators, modifiers, dotDotDotToken, name, questionToken, type, initializer) { var node = createSynthesizedNode(156 /* Parameter */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.dotDotDotToken = dotDotDotToken; node.name = asName(name); node.questionToken = questionToken; node.type = type; node.initializer = initializer ? ts.parenthesizeExpressionForList(initializer) : undefined; return node; } ts.createParameter = createParameter; function updateParameter(node, decorators, modifiers, dotDotDotToken, name, questionToken, type, initializer) { return node.decorators !== decorators || node.modifiers !== modifiers || node.dotDotDotToken !== dotDotDotToken || node.name !== name || node.questionToken !== questionToken || node.type !== type || node.initializer !== initializer ? updateNode(createParameter(decorators, modifiers, dotDotDotToken, name, questionToken, type, initializer), node) : node; } ts.updateParameter = updateParameter; function createDecorator(expression) { var node = createSynthesizedNode(157 /* Decorator */); node.expression = ts.parenthesizeForAccess(expression); return node; } ts.createDecorator = createDecorator; function updateDecorator(node, expression) { return node.expression !== expression ? updateNode(createDecorator(expression), node) : node; } ts.updateDecorator = updateDecorator; // Type Elements function createPropertySignature(modifiers, name, questionToken, type, initializer) { var node = createSynthesizedNode(158 /* PropertySignature */); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.questionToken = questionToken; node.type = type; node.initializer = initializer; return node; } ts.createPropertySignature = createPropertySignature; function updatePropertySignature(node, modifiers, name, questionToken, type, initializer) { return node.modifiers !== modifiers || node.name !== name || node.questionToken !== questionToken || node.type !== type || node.initializer !== initializer ? updateNode(createPropertySignature(modifiers, name, questionToken, type, initializer), node) : node; } ts.updatePropertySignature = updatePropertySignature; function createProperty(decorators, modifiers, name, questionOrExclamationToken, type, initializer) { var node = createSynthesizedNode(159 /* PropertyDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.questionToken = questionOrExclamationToken !== undefined && questionOrExclamationToken.kind === 57 /* QuestionToken */ ? questionOrExclamationToken : undefined; node.exclamationToken = questionOrExclamationToken !== undefined && questionOrExclamationToken.kind === 53 /* ExclamationToken */ ? questionOrExclamationToken : undefined; node.type = type; node.initializer = initializer; return node; } ts.createProperty = createProperty; function updateProperty(node, decorators, modifiers, name, questionOrExclamationToken, type, initializer) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.questionToken !== (questionOrExclamationToken !== undefined && questionOrExclamationToken.kind === 57 /* QuestionToken */ ? questionOrExclamationToken : undefined) || node.exclamationToken !== (questionOrExclamationToken !== undefined && questionOrExclamationToken.kind === 53 /* ExclamationToken */ ? questionOrExclamationToken : undefined) || node.type !== type || node.initializer !== initializer ? updateNode(createProperty(decorators, modifiers, name, questionOrExclamationToken, type, initializer), node) : node; } ts.updateProperty = updateProperty; function createMethodSignature(typeParameters, parameters, type, name, questionToken) { var node = createSignatureDeclaration(160 /* MethodSignature */, typeParameters, parameters, type); node.name = asName(name); node.questionToken = questionToken; return node; } ts.createMethodSignature = createMethodSignature; function updateMethodSignature(node, typeParameters, parameters, type, name, questionToken) { return node.typeParameters !== typeParameters || node.parameters !== parameters || node.type !== type || node.name !== name || node.questionToken !== questionToken ? updateNode(createMethodSignature(typeParameters, parameters, type, name, questionToken), node) : node; } ts.updateMethodSignature = updateMethodSignature; function createMethod(decorators, modifiers, asteriskToken, name, questionToken, typeParameters, parameters, type, body) { var node = createSynthesizedNode(161 /* MethodDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.asteriskToken = asteriskToken; node.name = asName(name); node.questionToken = questionToken; node.typeParameters = asNodeArray(typeParameters); node.parameters = createNodeArray(parameters); node.type = type; node.body = body; return node; } ts.createMethod = createMethod; function createMethodCall(object, methodName, argumentsList) { return createCall(createPropertyAccess(object, asName(methodName)), /*typeArguments*/ undefined, argumentsList); } function createGlobalMethodCall(globalObjectName, methodName, argumentsList) { return createMethodCall(createIdentifier(globalObjectName), methodName, argumentsList); } /* @internal */ function createObjectDefinePropertyCall(target, propertyName, attributes) { return createGlobalMethodCall("Object", "defineProperty", [target, asExpression(propertyName), attributes]); } ts.createObjectDefinePropertyCall = createObjectDefinePropertyCall; function tryAddPropertyAssignment(properties, propertyName, expression) { if (expression) { properties.push(createPropertyAssignment(propertyName, expression)); return true; } return false; } /* @internal */ function createPropertyDescriptor(attributes, singleLine) { var properties = []; tryAddPropertyAssignment(properties, "enumerable", asExpression(attributes.enumerable)); tryAddPropertyAssignment(properties, "configurable", asExpression(attributes.configurable)); var isData = tryAddPropertyAssignment(properties, "writable", asExpression(attributes.writable)); isData = tryAddPropertyAssignment(properties, "value", attributes.value) || isData; var isAccessor = tryAddPropertyAssignment(properties, "get", attributes.get); isAccessor = tryAddPropertyAssignment(properties, "set", attributes.set) || isAccessor; ts.Debug.assert(!(isData && isAccessor), "A PropertyDescriptor may not be both an accessor descriptor and a data descriptor."); return createObjectLiteral(properties, !singleLine); } ts.createPropertyDescriptor = createPropertyDescriptor; function updateMethod(node, decorators, modifiers, asteriskToken, name, questionToken, typeParameters, parameters, type, body) { return node.decorators !== decorators || node.modifiers !== modifiers || node.asteriskToken !== asteriskToken || node.name !== name || node.questionToken !== questionToken || node.typeParameters !== typeParameters || node.parameters !== parameters || node.type !== type || node.body !== body ? updateNode(createMethod(decorators, modifiers, asteriskToken, name, questionToken, typeParameters, parameters, type, body), node) : node; } ts.updateMethod = updateMethod; function createConstructor(decorators, modifiers, parameters, body) { var node = createSynthesizedNode(162 /* Constructor */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.typeParameters = undefined; node.parameters = createNodeArray(parameters); node.type = undefined; node.body = body; return node; } ts.createConstructor = createConstructor; function updateConstructor(node, decorators, modifiers, parameters, body) { return node.decorators !== decorators || node.modifiers !== modifiers || node.parameters !== parameters || node.body !== body ? updateNode(createConstructor(decorators, modifiers, parameters, body), node) : node; } ts.updateConstructor = updateConstructor; function createGetAccessor(decorators, modifiers, name, parameters, type, body) { var node = createSynthesizedNode(163 /* GetAccessor */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.typeParameters = undefined; node.parameters = createNodeArray(parameters); node.type = type; node.body = body; return node; } ts.createGetAccessor = createGetAccessor; function updateGetAccessor(node, decorators, modifiers, name, parameters, type, body) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.parameters !== parameters || node.type !== type || node.body !== body ? updateNode(createGetAccessor(decorators, modifiers, name, parameters, type, body), node) : node; } ts.updateGetAccessor = updateGetAccessor; function createSetAccessor(decorators, modifiers, name, parameters, body) { var node = createSynthesizedNode(164 /* SetAccessor */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.typeParameters = undefined; node.parameters = createNodeArray(parameters); node.body = body; return node; } ts.createSetAccessor = createSetAccessor; function updateSetAccessor(node, decorators, modifiers, name, parameters, body) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.parameters !== parameters || node.body !== body ? updateNode(createSetAccessor(decorators, modifiers, name, parameters, body), node) : node; } ts.updateSetAccessor = updateSetAccessor; function createCallSignature(typeParameters, parameters, type) { return createSignatureDeclaration(165 /* CallSignature */, typeParameters, parameters, type); } ts.createCallSignature = createCallSignature; function updateCallSignature(node, typeParameters, parameters, type) { return updateSignatureDeclaration(node, typeParameters, parameters, type); } ts.updateCallSignature = updateCallSignature; function createConstructSignature(typeParameters, parameters, type) { return createSignatureDeclaration(166 /* ConstructSignature */, typeParameters, parameters, type); } ts.createConstructSignature = createConstructSignature; function updateConstructSignature(node, typeParameters, parameters, type) { return updateSignatureDeclaration(node, typeParameters, parameters, type); } ts.updateConstructSignature = updateConstructSignature; function createIndexSignature(decorators, modifiers, parameters, type) { var node = createSynthesizedNode(167 /* IndexSignature */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.parameters = createNodeArray(parameters); node.type = type; return node; } ts.createIndexSignature = createIndexSignature; function updateIndexSignature(node, decorators, modifiers, parameters, type) { return node.parameters !== parameters || node.type !== type || node.decorators !== decorators || node.modifiers !== modifiers ? updateNode(createIndexSignature(decorators, modifiers, parameters, type), node) : node; } ts.updateIndexSignature = updateIndexSignature; /* @internal */ function createSignatureDeclaration(kind, typeParameters, parameters, type, typeArguments) { var node = createSynthesizedNode(kind); node.typeParameters = asNodeArray(typeParameters); node.parameters = asNodeArray(parameters); node.type = type; node.typeArguments = asNodeArray(typeArguments); return node; } ts.createSignatureDeclaration = createSignatureDeclaration; function updateSignatureDeclaration(node, typeParameters, parameters, type) { return node.typeParameters !== typeParameters || node.parameters !== parameters || node.type !== type ? updateNode(createSignatureDeclaration(node.kind, typeParameters, parameters, type), node) : node; } // Types function createKeywordTypeNode(kind) { return createSynthesizedNode(kind); } ts.createKeywordTypeNode = createKeywordTypeNode; function createTypePredicateNode(parameterName, type) { return createTypePredicateNodeWithModifier(/*assertsModifier*/ undefined, parameterName, type); } ts.createTypePredicateNode = createTypePredicateNode; function createTypePredicateNodeWithModifier(assertsModifier, parameterName, type) { var node = createSynthesizedNode(168 /* TypePredicate */); node.assertsModifier = assertsModifier; node.parameterName = asName(parameterName); node.type = type; return node; } ts.createTypePredicateNodeWithModifier = createTypePredicateNodeWithModifier; function updateTypePredicateNode(node, parameterName, type) { return updateTypePredicateNodeWithModifier(node, node.assertsModifier, parameterName, type); } ts.updateTypePredicateNode = updateTypePredicateNode; function updateTypePredicateNodeWithModifier(node, assertsModifier, parameterName, type) { return node.assertsModifier !== assertsModifier || node.parameterName !== parameterName || node.type !== type ? updateNode(createTypePredicateNodeWithModifier(assertsModifier, parameterName, type), node) : node; } ts.updateTypePredicateNodeWithModifier = updateTypePredicateNodeWithModifier; function createTypeReferenceNode(typeName, typeArguments) { var node = createSynthesizedNode(169 /* TypeReference */); node.typeName = asName(typeName); node.typeArguments = typeArguments && ts.parenthesizeTypeParameters(typeArguments); return node; } ts.createTypeReferenceNode = createTypeReferenceNode; function updateTypeReferenceNode(node, typeName, typeArguments) { return node.typeName !== typeName || node.typeArguments !== typeArguments ? updateNode(createTypeReferenceNode(typeName, typeArguments), node) : node; } ts.updateTypeReferenceNode = updateTypeReferenceNode; function createFunctionTypeNode(typeParameters, parameters, type) { return createSignatureDeclaration(170 /* FunctionType */, typeParameters, parameters, type); } ts.createFunctionTypeNode = createFunctionTypeNode; function updateFunctionTypeNode(node, typeParameters, parameters, type) { return updateSignatureDeclaration(node, typeParameters, parameters, type); } ts.updateFunctionTypeNode = updateFunctionTypeNode; function createConstructorTypeNode(typeParameters, parameters, type) { return createSignatureDeclaration(171 /* ConstructorType */, typeParameters, parameters, type); } ts.createConstructorTypeNode = createConstructorTypeNode; function updateConstructorTypeNode(node, typeParameters, parameters, type) { return updateSignatureDeclaration(node, typeParameters, parameters, type); } ts.updateConstructorTypeNode = updateConstructorTypeNode; function createTypeQueryNode(exprName) { var node = createSynthesizedNode(172 /* TypeQuery */); node.exprName = exprName; return node; } ts.createTypeQueryNode = createTypeQueryNode; function updateTypeQueryNode(node, exprName) { return node.exprName !== exprName ? updateNode(createTypeQueryNode(exprName), node) : node; } ts.updateTypeQueryNode = updateTypeQueryNode; function createTypeLiteralNode(members) { var node = createSynthesizedNode(173 /* TypeLiteral */); node.members = createNodeArray(members); return node; } ts.createTypeLiteralNode = createTypeLiteralNode; function updateTypeLiteralNode(node, members) { return node.members !== members ? updateNode(createTypeLiteralNode(members), node) : node; } ts.updateTypeLiteralNode = updateTypeLiteralNode; function createArrayTypeNode(elementType) { var node = createSynthesizedNode(174 /* ArrayType */); node.elementType = ts.parenthesizeArrayTypeMember(elementType); return node; } ts.createArrayTypeNode = createArrayTypeNode; function updateArrayTypeNode(node, elementType) { return node.elementType !== elementType ? updateNode(createArrayTypeNode(elementType), node) : node; } ts.updateArrayTypeNode = updateArrayTypeNode; function createTupleTypeNode(elementTypes) { var node = createSynthesizedNode(175 /* TupleType */); node.elementTypes = createNodeArray(elementTypes); return node; } ts.createTupleTypeNode = createTupleTypeNode; function updateTupleTypeNode(node, elementTypes) { return node.elementTypes !== elementTypes ? updateNode(createTupleTypeNode(elementTypes), node) : node; } ts.updateTupleTypeNode = updateTupleTypeNode; function createOptionalTypeNode(type) { var node = createSynthesizedNode(176 /* OptionalType */); node.type = ts.parenthesizeArrayTypeMember(type); return node; } ts.createOptionalTypeNode = createOptionalTypeNode; function updateOptionalTypeNode(node, type) { return node.type !== type ? updateNode(createOptionalTypeNode(type), node) : node; } ts.updateOptionalTypeNode = updateOptionalTypeNode; function createRestTypeNode(type) { var node = createSynthesizedNode(177 /* RestType */); node.type = type; return node; } ts.createRestTypeNode = createRestTypeNode; function updateRestTypeNode(node, type) { return node.type !== type ? updateNode(createRestTypeNode(type), node) : node; } ts.updateRestTypeNode = updateRestTypeNode; function createUnionTypeNode(types) { return createUnionOrIntersectionTypeNode(178 /* UnionType */, types); } ts.createUnionTypeNode = createUnionTypeNode; function updateUnionTypeNode(node, types) { return updateUnionOrIntersectionTypeNode(node, types); } ts.updateUnionTypeNode = updateUnionTypeNode; function createIntersectionTypeNode(types) { return createUnionOrIntersectionTypeNode(179 /* IntersectionType */, types); } ts.createIntersectionTypeNode = createIntersectionTypeNode; function updateIntersectionTypeNode(node, types) { return updateUnionOrIntersectionTypeNode(node, types); } ts.updateIntersectionTypeNode = updateIntersectionTypeNode; function createUnionOrIntersectionTypeNode(kind, types) { var node = createSynthesizedNode(kind); node.types = ts.parenthesizeElementTypeMembers(types); return node; } ts.createUnionOrIntersectionTypeNode = createUnionOrIntersectionTypeNode; function updateUnionOrIntersectionTypeNode(node, types) { return node.types !== types ? updateNode(createUnionOrIntersectionTypeNode(node.kind, types), node) : node; } function createConditionalTypeNode(checkType, extendsType, trueType, falseType) { var node = createSynthesizedNode(180 /* ConditionalType */); node.checkType = ts.parenthesizeConditionalTypeMember(checkType); node.extendsType = ts.parenthesizeConditionalTypeMember(extendsType); node.trueType = trueType; node.falseType = falseType; return node; } ts.createConditionalTypeNode = createConditionalTypeNode; function updateConditionalTypeNode(node, checkType, extendsType, trueType, falseType) { return node.checkType !== checkType || node.extendsType !== extendsType || node.trueType !== trueType || node.falseType !== falseType ? updateNode(createConditionalTypeNode(checkType, extendsType, trueType, falseType), node) : node; } ts.updateConditionalTypeNode = updateConditionalTypeNode; function createInferTypeNode(typeParameter) { var node = createSynthesizedNode(181 /* InferType */); node.typeParameter = typeParameter; return node; } ts.createInferTypeNode = createInferTypeNode; function updateInferTypeNode(node, typeParameter) { return node.typeParameter !== typeParameter ? updateNode(createInferTypeNode(typeParameter), node) : node; } ts.updateInferTypeNode = updateInferTypeNode; function createImportTypeNode(argument, qualifier, typeArguments, isTypeOf) { var node = createSynthesizedNode(188 /* ImportType */); node.argument = argument; node.qualifier = qualifier; node.typeArguments = ts.parenthesizeTypeParameters(typeArguments); node.isTypeOf = isTypeOf; return node; } ts.createImportTypeNode = createImportTypeNode; function updateImportTypeNode(node, argument, qualifier, typeArguments, isTypeOf) { return node.argument !== argument || node.qualifier !== qualifier || node.typeArguments !== typeArguments || node.isTypeOf !== isTypeOf ? updateNode(createImportTypeNode(argument, qualifier, typeArguments, isTypeOf), node) : node; } ts.updateImportTypeNode = updateImportTypeNode; function createParenthesizedType(type) { var node = createSynthesizedNode(182 /* ParenthesizedType */); node.type = type; return node; } ts.createParenthesizedType = createParenthesizedType; function updateParenthesizedType(node, type) { return node.type !== type ? updateNode(createParenthesizedType(type), node) : node; } ts.updateParenthesizedType = updateParenthesizedType; function createThisTypeNode() { return createSynthesizedNode(183 /* ThisType */); } ts.createThisTypeNode = createThisTypeNode; function createTypeOperatorNode(operatorOrType, type) { var node = createSynthesizedNode(184 /* TypeOperator */); node.operator = typeof operatorOrType === "number" ? operatorOrType : 134 /* KeyOfKeyword */; node.type = ts.parenthesizeElementTypeMember(typeof operatorOrType === "number" ? type : operatorOrType); return node; } ts.createTypeOperatorNode = createTypeOperatorNode; function updateTypeOperatorNode(node, type) { return node.type !== type ? updateNode(createTypeOperatorNode(node.operator, type), node) : node; } ts.updateTypeOperatorNode = updateTypeOperatorNode; function createIndexedAccessTypeNode(objectType, indexType) { var node = createSynthesizedNode(185 /* IndexedAccessType */); node.objectType = ts.parenthesizeElementTypeMember(objectType); node.indexType = indexType; return node; } ts.createIndexedAccessTypeNode = createIndexedAccessTypeNode; function updateIndexedAccessTypeNode(node, objectType, indexType) { return node.objectType !== objectType || node.indexType !== indexType ? updateNode(createIndexedAccessTypeNode(objectType, indexType), node) : node; } ts.updateIndexedAccessTypeNode = updateIndexedAccessTypeNode; function createMappedTypeNode(readonlyToken, typeParameter, questionToken, type) { var node = createSynthesizedNode(186 /* MappedType */); node.readonlyToken = readonlyToken; node.typeParameter = typeParameter; node.questionToken = questionToken; node.type = type; return node; } ts.createMappedTypeNode = createMappedTypeNode; function updateMappedTypeNode(node, readonlyToken, typeParameter, questionToken, type) { return node.readonlyToken !== readonlyToken || node.typeParameter !== typeParameter || node.questionToken !== questionToken || node.type !== type ? updateNode(createMappedTypeNode(readonlyToken, typeParameter, questionToken, type), node) : node; } ts.updateMappedTypeNode = updateMappedTypeNode; function createLiteralTypeNode(literal) { var node = createSynthesizedNode(187 /* LiteralType */); node.literal = literal; return node; } ts.createLiteralTypeNode = createLiteralTypeNode; function updateLiteralTypeNode(node, literal) { return node.literal !== literal ? updateNode(createLiteralTypeNode(literal), node) : node; } ts.updateLiteralTypeNode = updateLiteralTypeNode; // Binding Patterns function createObjectBindingPattern(elements) { var node = createSynthesizedNode(189 /* ObjectBindingPattern */); node.elements = createNodeArray(elements); return node; } ts.createObjectBindingPattern = createObjectBindingPattern; function updateObjectBindingPattern(node, elements) { return node.elements !== elements ? updateNode(createObjectBindingPattern(elements), node) : node; } ts.updateObjectBindingPattern = updateObjectBindingPattern; function createArrayBindingPattern(elements) { var node = createSynthesizedNode(190 /* ArrayBindingPattern */); node.elements = createNodeArray(elements); return node; } ts.createArrayBindingPattern = createArrayBindingPattern; function updateArrayBindingPattern(node, elements) { return node.elements !== elements ? updateNode(createArrayBindingPattern(elements), node) : node; } ts.updateArrayBindingPattern = updateArrayBindingPattern; function createBindingElement(dotDotDotToken, propertyName, name, initializer) { var node = createSynthesizedNode(191 /* BindingElement */); node.dotDotDotToken = dotDotDotToken; node.propertyName = asName(propertyName); node.name = asName(name); node.initializer = initializer; return node; } ts.createBindingElement = createBindingElement; function updateBindingElement(node, dotDotDotToken, propertyName, name, initializer) { return node.propertyName !== propertyName || node.dotDotDotToken !== dotDotDotToken || node.name !== name || node.initializer !== initializer ? updateNode(createBindingElement(dotDotDotToken, propertyName, name, initializer), node) : node; } ts.updateBindingElement = updateBindingElement; // Expression function createArrayLiteral(elements, multiLine) { var node = createSynthesizedNode(192 /* ArrayLiteralExpression */); node.elements = ts.parenthesizeListElements(createNodeArray(elements)); if (multiLine) node.multiLine = true; return node; } ts.createArrayLiteral = createArrayLiteral; function updateArrayLiteral(node, elements) { return node.elements !== elements ? updateNode(createArrayLiteral(elements, node.multiLine), node) : node; } ts.updateArrayLiteral = updateArrayLiteral; function createObjectLiteral(properties, multiLine) { var node = createSynthesizedNode(193 /* ObjectLiteralExpression */); node.properties = createNodeArray(properties); if (multiLine) node.multiLine = true; return node; } ts.createObjectLiteral = createObjectLiteral; function updateObjectLiteral(node, properties) { return node.properties !== properties ? updateNode(createObjectLiteral(properties, node.multiLine), node) : node; } ts.updateObjectLiteral = updateObjectLiteral; function createPropertyAccess(expression, name) { var node = createSynthesizedNode(194 /* PropertyAccessExpression */); node.expression = ts.parenthesizeForAccess(expression); node.name = asName(name); setEmitFlags(node, 131072 /* NoIndentation */); return node; } ts.createPropertyAccess = createPropertyAccess; function updatePropertyAccess(node, expression, name) { if (ts.isPropertyAccessChain(node)) { return updatePropertyAccessChain(node, expression, node.questionDotToken, ts.cast(name, ts.isIdentifier)); } // Because we are updating existed propertyAccess we want to inherit its emitFlags // instead of using the default from createPropertyAccess return node.expression !== expression || node.name !== name ? updateNode(setEmitFlags(createPropertyAccess(expression, name), ts.getEmitFlags(node)), node) : node; } ts.updatePropertyAccess = updatePropertyAccess; function createPropertyAccessChain(expression, questionDotToken, name) { var node = createSynthesizedNode(194 /* PropertyAccessExpression */); node.flags |= 32 /* OptionalChain */; node.expression = ts.parenthesizeForAccess(expression); node.questionDotToken = questionDotToken; node.name = asName(name); setEmitFlags(node, 131072 /* NoIndentation */); return node; } ts.createPropertyAccessChain = createPropertyAccessChain; function updatePropertyAccessChain(node, expression, questionDotToken, name) { ts.Debug.assert(!!(node.flags & 32 /* OptionalChain */), "Cannot update a PropertyAccessExpression using updatePropertyAccessChain. Use updatePropertyAccess instead."); // Because we are updating an existing PropertyAccessChain we want to inherit its emitFlags // instead of using the default from createPropertyAccess return node.expression !== expression || node.questionDotToken !== questionDotToken || node.name !== name ? updateNode(setEmitFlags(createPropertyAccessChain(expression, questionDotToken, name), ts.getEmitFlags(node)), node) : node; } ts.updatePropertyAccessChain = updatePropertyAccessChain; function createElementAccess(expression, index) { var node = createSynthesizedNode(195 /* ElementAccessExpression */); node.expression = ts.parenthesizeForAccess(expression); node.argumentExpression = asExpression(index); return node; } ts.createElementAccess = createElementAccess; function updateElementAccess(node, expression, argumentExpression) { if (ts.isOptionalChain(node)) { return updateElementAccessChain(node, expression, node.questionDotToken, argumentExpression); } return node.expression !== expression || node.argumentExpression !== argumentExpression ? updateNode(createElementAccess(expression, argumentExpression), node) : node; } ts.updateElementAccess = updateElementAccess; function createElementAccessChain(expression, questionDotToken, index) { var node = createSynthesizedNode(195 /* ElementAccessExpression */); node.flags |= 32 /* OptionalChain */; node.expression = ts.parenthesizeForAccess(expression); node.questionDotToken = questionDotToken; node.argumentExpression = asExpression(index); return node; } ts.createElementAccessChain = createElementAccessChain; function updateElementAccessChain(node, expression, questionDotToken, argumentExpression) { ts.Debug.assert(!!(node.flags & 32 /* OptionalChain */), "Cannot update an ElementAccessExpression using updateElementAccessChain. Use updateElementAccess instead."); return node.expression !== expression || node.questionDotToken !== questionDotToken || node.argumentExpression !== argumentExpression ? updateNode(createElementAccessChain(expression, questionDotToken, argumentExpression), node) : node; } ts.updateElementAccessChain = updateElementAccessChain; function createCall(expression, typeArguments, argumentsArray) { var node = createSynthesizedNode(196 /* CallExpression */); node.expression = ts.parenthesizeForAccess(expression); node.typeArguments = asNodeArray(typeArguments); node.arguments = ts.parenthesizeListElements(createNodeArray(argumentsArray)); return node; } ts.createCall = createCall; function updateCall(node, expression, typeArguments, argumentsArray) { if (ts.isOptionalChain(node)) { return updateCallChain(node, expression, node.questionDotToken, typeArguments, argumentsArray); } return node.expression !== expression || node.typeArguments !== typeArguments || node.arguments !== argumentsArray ? updateNode(createCall(expression, typeArguments, argumentsArray), node) : node; } ts.updateCall = updateCall; function createCallChain(expression, questionDotToken, typeArguments, argumentsArray) { var node = createSynthesizedNode(196 /* CallExpression */); node.flags |= 32 /* OptionalChain */; node.expression = ts.parenthesizeForAccess(expression); node.questionDotToken = questionDotToken; node.typeArguments = asNodeArray(typeArguments); node.arguments = ts.parenthesizeListElements(createNodeArray(argumentsArray)); return node; } ts.createCallChain = createCallChain; function updateCallChain(node, expression, questionDotToken, typeArguments, argumentsArray) { ts.Debug.assert(!!(node.flags & 32 /* OptionalChain */), "Cannot update a CallExpression using updateCallChain. Use updateCall instead."); return node.expression !== expression || node.questionDotToken !== questionDotToken || node.typeArguments !== typeArguments || node.arguments !== argumentsArray ? updateNode(createCallChain(expression, questionDotToken, typeArguments, argumentsArray), node) : node; } ts.updateCallChain = updateCallChain; function createNew(expression, typeArguments, argumentsArray) { var node = createSynthesizedNode(197 /* NewExpression */); node.expression = ts.parenthesizeForNew(expression); node.typeArguments = asNodeArray(typeArguments); node.arguments = argumentsArray ? ts.parenthesizeListElements(createNodeArray(argumentsArray)) : undefined; return node; } ts.createNew = createNew; function updateNew(node, expression, typeArguments, argumentsArray) { return node.expression !== expression || node.typeArguments !== typeArguments || node.arguments !== argumentsArray ? updateNode(createNew(expression, typeArguments, argumentsArray), node) : node; } ts.updateNew = updateNew; function createTaggedTemplate(tag, typeArgumentsOrTemplate, template) { var node = createSynthesizedNode(198 /* TaggedTemplateExpression */); node.tag = ts.parenthesizeForAccess(tag); if (template) { node.typeArguments = asNodeArray(typeArgumentsOrTemplate); node.template = template; } else { node.typeArguments = undefined; node.template = typeArgumentsOrTemplate; } return node; } ts.createTaggedTemplate = createTaggedTemplate; function updateTaggedTemplate(node, tag, typeArgumentsOrTemplate, template) { return node.tag !== tag || (template ? node.typeArguments !== typeArgumentsOrTemplate || node.template !== template : node.typeArguments !== undefined || node.template !== typeArgumentsOrTemplate) ? updateNode(createTaggedTemplate(tag, typeArgumentsOrTemplate, template), node) : node; } ts.updateTaggedTemplate = updateTaggedTemplate; function createTypeAssertion(type, expression) { var node = createSynthesizedNode(199 /* TypeAssertionExpression */); node.type = type; node.expression = ts.parenthesizePrefixOperand(expression); return node; } ts.createTypeAssertion = createTypeAssertion; function updateTypeAssertion(node, type, expression) { return node.type !== type || node.expression !== expression ? updateNode(createTypeAssertion(type, expression), node) : node; } ts.updateTypeAssertion = updateTypeAssertion; function createParen(expression) { var node = createSynthesizedNode(200 /* ParenthesizedExpression */); node.expression = expression; return node; } ts.createParen = createParen; function updateParen(node, expression) { return node.expression !== expression ? updateNode(createParen(expression), node) : node; } ts.updateParen = updateParen; function createFunctionExpression(modifiers, asteriskToken, name, typeParameters, parameters, type, body) { var node = createSynthesizedNode(201 /* FunctionExpression */); node.modifiers = asNodeArray(modifiers); node.asteriskToken = asteriskToken; node.name = asName(name); node.typeParameters = asNodeArray(typeParameters); node.parameters = createNodeArray(parameters); node.type = type; node.body = body; return node; } ts.createFunctionExpression = createFunctionExpression; function updateFunctionExpression(node, modifiers, asteriskToken, name, typeParameters, parameters, type, body) { return node.name !== name || node.modifiers !== modifiers || node.asteriskToken !== asteriskToken || node.typeParameters !== typeParameters || node.parameters !== parameters || node.type !== type || node.body !== body ? updateNode(createFunctionExpression(modifiers, asteriskToken, name, typeParameters, parameters, type, body), node) : node; } ts.updateFunctionExpression = updateFunctionExpression; function createArrowFunction(modifiers, typeParameters, parameters, type, equalsGreaterThanToken, body) { var node = createSynthesizedNode(202 /* ArrowFunction */); node.modifiers = asNodeArray(modifiers); node.typeParameters = asNodeArray(typeParameters); node.parameters = createNodeArray(parameters); node.type = type; node.equalsGreaterThanToken = equalsGreaterThanToken || createToken(38 /* EqualsGreaterThanToken */); node.body = ts.parenthesizeConciseBody(body); return node; } ts.createArrowFunction = createArrowFunction; function updateArrowFunction(node, modifiers, typeParameters, parameters, type, equalsGreaterThanToken, body) { return node.modifiers !== modifiers || node.typeParameters !== typeParameters || node.parameters !== parameters || node.type !== type || node.equalsGreaterThanToken !== equalsGreaterThanToken || node.body !== body ? updateNode(createArrowFunction(modifiers, typeParameters, parameters, type, equalsGreaterThanToken, body), node) : node; } ts.updateArrowFunction = updateArrowFunction; function createDelete(expression) { var node = createSynthesizedNode(203 /* DeleteExpression */); node.expression = ts.parenthesizePrefixOperand(expression); return node; } ts.createDelete = createDelete; function updateDelete(node, expression) { return node.expression !== expression ? updateNode(createDelete(expression), node) : node; } ts.updateDelete = updateDelete; function createTypeOf(expression) { var node = createSynthesizedNode(204 /* TypeOfExpression */); node.expression = ts.parenthesizePrefixOperand(expression); return node; } ts.createTypeOf = createTypeOf; function updateTypeOf(node, expression) { return node.expression !== expression ? updateNode(createTypeOf(expression), node) : node; } ts.updateTypeOf = updateTypeOf; function createVoid(expression) { var node = createSynthesizedNode(205 /* VoidExpression */); node.expression = ts.parenthesizePrefixOperand(expression); return node; } ts.createVoid = createVoid; function updateVoid(node, expression) { return node.expression !== expression ? updateNode(createVoid(expression), node) : node; } ts.updateVoid = updateVoid; function createAwait(expression) { var node = createSynthesizedNode(206 /* AwaitExpression */); node.expression = ts.parenthesizePrefixOperand(expression); return node; } ts.createAwait = createAwait; function updateAwait(node, expression) { return node.expression !== expression ? updateNode(createAwait(expression), node) : node; } ts.updateAwait = updateAwait; function createPrefix(operator, operand) { var node = createSynthesizedNode(207 /* PrefixUnaryExpression */); node.operator = operator; node.operand = ts.parenthesizePrefixOperand(operand); return node; } ts.createPrefix = createPrefix; function updatePrefix(node, operand) { return node.operand !== operand ? updateNode(createPrefix(node.operator, operand), node) : node; } ts.updatePrefix = updatePrefix; function createPostfix(operand, operator) { var node = createSynthesizedNode(208 /* PostfixUnaryExpression */); node.operand = ts.parenthesizePostfixOperand(operand); node.operator = operator; return node; } ts.createPostfix = createPostfix; function updatePostfix(node, operand) { return node.operand !== operand ? updateNode(createPostfix(operand, node.operator), node) : node; } ts.updatePostfix = updatePostfix; function createBinary(left, operator, right) { var node = createSynthesizedNode(209 /* BinaryExpression */); var operatorToken = asToken(operator); var operatorKind = operatorToken.kind; node.left = ts.parenthesizeBinaryOperand(operatorKind, left, /*isLeftSideOfBinary*/ true, /*leftOperand*/ undefined); node.operatorToken = operatorToken; node.right = ts.parenthesizeBinaryOperand(operatorKind, right, /*isLeftSideOfBinary*/ false, node.left); return node; } ts.createBinary = createBinary; function updateBinary(node, left, right, operator) { return node.left !== left || node.right !== right ? updateNode(createBinary(left, operator || node.operatorToken, right), node) : node; } ts.updateBinary = updateBinary; function createConditional(condition, questionTokenOrWhenTrue, whenTrueOrWhenFalse, colonToken, whenFalse) { var node = createSynthesizedNode(210 /* ConditionalExpression */); node.condition = ts.parenthesizeForConditionalHead(condition); node.questionToken = whenFalse ? questionTokenOrWhenTrue : createToken(57 /* QuestionToken */); node.whenTrue = ts.parenthesizeSubexpressionOfConditionalExpression(whenFalse ? whenTrueOrWhenFalse : questionTokenOrWhenTrue); node.colonToken = whenFalse ? colonToken : createToken(58 /* ColonToken */); node.whenFalse = ts.parenthesizeSubexpressionOfConditionalExpression(whenFalse ? whenFalse : whenTrueOrWhenFalse); return node; } ts.createConditional = createConditional; function updateConditional(node, condition, questionToken, whenTrue, colonToken, whenFalse) { return node.condition !== condition || node.questionToken !== questionToken || node.whenTrue !== whenTrue || node.colonToken !== colonToken || node.whenFalse !== whenFalse ? updateNode(createConditional(condition, questionToken, whenTrue, colonToken, whenFalse), node) : node; } ts.updateConditional = updateConditional; function createTemplateExpression(head, templateSpans) { var node = createSynthesizedNode(211 /* TemplateExpression */); node.head = head; node.templateSpans = createNodeArray(templateSpans); return node; } ts.createTemplateExpression = createTemplateExpression; function updateTemplateExpression(node, head, templateSpans) { return node.head !== head || node.templateSpans !== templateSpans ? updateNode(createTemplateExpression(head, templateSpans), node) : node; } ts.updateTemplateExpression = updateTemplateExpression; var rawTextScanner; var invalidValueSentinel = {}; function getCookedText(kind, rawText) { if (!rawTextScanner) { rawTextScanner = ts.createScanner(99 /* Latest */, /*skipTrivia*/ false, 0 /* Standard */); } switch (kind) { case 14 /* NoSubstitutionTemplateLiteral */: rawTextScanner.setText("`" + rawText + "`"); break; case 15 /* TemplateHead */: rawTextScanner.setText("`" + rawText + "${"); break; case 16 /* TemplateMiddle */: rawTextScanner.setText("}" + rawText + "${"); break; case 17 /* TemplateTail */: rawTextScanner.setText("}" + rawText + "`"); break; } var token = rawTextScanner.scan(); if (token === 23 /* CloseBracketToken */) { token = rawTextScanner.reScanTemplateToken(/* isTaggedTemplate */ false); } if (rawTextScanner.isUnterminated()) { rawTextScanner.setText(undefined); return invalidValueSentinel; } var tokenValue; switch (token) { case 14 /* NoSubstitutionTemplateLiteral */: case 15 /* TemplateHead */: case 16 /* TemplateMiddle */: case 17 /* TemplateTail */: tokenValue = rawTextScanner.getTokenValue(); break; } if (rawTextScanner.scan() !== 1 /* EndOfFileToken */) { rawTextScanner.setText(undefined); return invalidValueSentinel; } rawTextScanner.setText(undefined); return tokenValue; } function createTemplateLiteralLikeNode(kind, text, rawText) { var node = createSynthesizedNode(kind); node.text = text; if (rawText === undefined || text === rawText) { node.rawText = rawText; } else { var cooked = getCookedText(kind, rawText); if (typeof cooked === "object") { return ts.Debug.fail("Invalid raw text"); } ts.Debug.assert(text === cooked, "Expected argument 'text' to be the normalized (i.e. 'cooked') version of argument 'rawText'."); node.rawText = rawText; } return node; } function createTemplateHead(text, rawText) { var node = createTemplateLiteralLikeNode(15 /* TemplateHead */, text, rawText); node.text = text; return node; } ts.createTemplateHead = createTemplateHead; function createTemplateMiddle(text, rawText) { var node = createTemplateLiteralLikeNode(16 /* TemplateMiddle */, text, rawText); node.text = text; return node; } ts.createTemplateMiddle = createTemplateMiddle; function createTemplateTail(text, rawText) { var node = createTemplateLiteralLikeNode(17 /* TemplateTail */, text, rawText); node.text = text; return node; } ts.createTemplateTail = createTemplateTail; function createNoSubstitutionTemplateLiteral(text, rawText) { var node = createTemplateLiteralLikeNode(14 /* NoSubstitutionTemplateLiteral */, text, rawText); return node; } ts.createNoSubstitutionTemplateLiteral = createNoSubstitutionTemplateLiteral; function createYield(asteriskTokenOrExpression, expression) { var asteriskToken = asteriskTokenOrExpression && asteriskTokenOrExpression.kind === 41 /* AsteriskToken */ ? asteriskTokenOrExpression : undefined; expression = asteriskTokenOrExpression && asteriskTokenOrExpression.kind !== 41 /* AsteriskToken */ ? asteriskTokenOrExpression : expression; var node = createSynthesizedNode(212 /* YieldExpression */); node.asteriskToken = asteriskToken; node.expression = expression && ts.parenthesizeExpressionForList(expression); return node; } ts.createYield = createYield; function updateYield(node, asteriskToken, expression) { return node.expression !== expression || node.asteriskToken !== asteriskToken ? updateNode(createYield(asteriskToken, expression), node) : node; } ts.updateYield = updateYield; function createSpread(expression) { var node = createSynthesizedNode(213 /* SpreadElement */); node.expression = ts.parenthesizeExpressionForList(expression); return node; } ts.createSpread = createSpread; function updateSpread(node, expression) { return node.expression !== expression ? updateNode(createSpread(expression), node) : node; } ts.updateSpread = updateSpread; function createClassExpression(modifiers, name, typeParameters, heritageClauses, members) { var node = createSynthesizedNode(214 /* ClassExpression */); node.decorators = undefined; node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.typeParameters = asNodeArray(typeParameters); node.heritageClauses = asNodeArray(heritageClauses); node.members = createNodeArray(members); return node; } ts.createClassExpression = createClassExpression; function updateClassExpression(node, modifiers, name, typeParameters, heritageClauses, members) { return node.modifiers !== modifiers || node.name !== name || node.typeParameters !== typeParameters || node.heritageClauses !== heritageClauses || node.members !== members ? updateNode(createClassExpression(modifiers, name, typeParameters, heritageClauses, members), node) : node; } ts.updateClassExpression = updateClassExpression; function createOmittedExpression() { return createSynthesizedNode(215 /* OmittedExpression */); } ts.createOmittedExpression = createOmittedExpression; function createExpressionWithTypeArguments(typeArguments, expression) { var node = createSynthesizedNode(216 /* ExpressionWithTypeArguments */); node.expression = ts.parenthesizeForAccess(expression); node.typeArguments = asNodeArray(typeArguments); return node; } ts.createExpressionWithTypeArguments = createExpressionWithTypeArguments; function updateExpressionWithTypeArguments(node, typeArguments, expression) { return node.typeArguments !== typeArguments || node.expression !== expression ? updateNode(createExpressionWithTypeArguments(typeArguments, expression), node) : node; } ts.updateExpressionWithTypeArguments = updateExpressionWithTypeArguments; function createAsExpression(expression, type) { var node = createSynthesizedNode(217 /* AsExpression */); node.expression = expression; node.type = type; return node; } ts.createAsExpression = createAsExpression; function updateAsExpression(node, expression, type) { return node.expression !== expression || node.type !== type ? updateNode(createAsExpression(expression, type), node) : node; } ts.updateAsExpression = updateAsExpression; function createNonNullExpression(expression) { var node = createSynthesizedNode(218 /* NonNullExpression */); node.expression = ts.parenthesizeForAccess(expression); return node; } ts.createNonNullExpression = createNonNullExpression; function updateNonNullExpression(node, expression) { if (ts.isNonNullChain(node)) { return updateNonNullChain(node, expression); } return node.expression !== expression ? updateNode(createNonNullExpression(expression), node) : node; } ts.updateNonNullExpression = updateNonNullExpression; function createNonNullChain(expression) { var node = createSynthesizedNode(218 /* NonNullExpression */); node.flags |= 32 /* OptionalChain */; node.expression = ts.parenthesizeForAccess(expression); return node; } ts.createNonNullChain = createNonNullChain; function updateNonNullChain(node, expression) { ts.Debug.assert(!!(node.flags & 32 /* OptionalChain */), "Cannot update a NonNullExpression using updateNonNullChain. Use updateNonNullExpression instead."); return node.expression !== expression ? updateNode(createNonNullChain(expression), node) : node; } ts.updateNonNullChain = updateNonNullChain; function createMetaProperty(keywordToken, name) { var node = createSynthesizedNode(219 /* MetaProperty */); node.keywordToken = keywordToken; node.name = name; return node; } ts.createMetaProperty = createMetaProperty; function updateMetaProperty(node, name) { return node.name !== name ? updateNode(createMetaProperty(node.keywordToken, name), node) : node; } ts.updateMetaProperty = updateMetaProperty; // Misc function createTemplateSpan(expression, literal) { var node = createSynthesizedNode(221 /* TemplateSpan */); node.expression = expression; node.literal = literal; return node; } ts.createTemplateSpan = createTemplateSpan; function updateTemplateSpan(node, expression, literal) { return node.expression !== expression || node.literal !== literal ? updateNode(createTemplateSpan(expression, literal), node) : node; } ts.updateTemplateSpan = updateTemplateSpan; function createSemicolonClassElement() { return createSynthesizedNode(222 /* SemicolonClassElement */); } ts.createSemicolonClassElement = createSemicolonClassElement; // Element function createBlock(statements, multiLine) { var block = createSynthesizedNode(223 /* Block */); block.statements = createNodeArray(statements); if (multiLine) block.multiLine = multiLine; return block; } ts.createBlock = createBlock; function updateBlock(node, statements) { return node.statements !== statements ? updateNode(createBlock(statements, node.multiLine), node) : node; } ts.updateBlock = updateBlock; function createVariableStatement(modifiers, declarationList) { var node = createSynthesizedNode(225 /* VariableStatement */); node.decorators = undefined; node.modifiers = asNodeArray(modifiers); node.declarationList = ts.isArray(declarationList) ? createVariableDeclarationList(declarationList) : declarationList; return node; } ts.createVariableStatement = createVariableStatement; function updateVariableStatement(node, modifiers, declarationList) { return node.modifiers !== modifiers || node.declarationList !== declarationList ? updateNode(createVariableStatement(modifiers, declarationList), node) : node; } ts.updateVariableStatement = updateVariableStatement; function createEmptyStatement() { return createSynthesizedNode(224 /* EmptyStatement */); } ts.createEmptyStatement = createEmptyStatement; function createExpressionStatement(expression) { var node = createSynthesizedNode(226 /* ExpressionStatement */); node.expression = ts.parenthesizeExpressionForExpressionStatement(expression); return node; } ts.createExpressionStatement = createExpressionStatement; function updateExpressionStatement(node, expression) { return node.expression !== expression ? updateNode(createExpressionStatement(expression), node) : node; } ts.updateExpressionStatement = updateExpressionStatement; /** @deprecated Use `createExpressionStatement` instead. */ ts.createStatement = createExpressionStatement; /** @deprecated Use `updateExpressionStatement` instead. */ ts.updateStatement = updateExpressionStatement; function createIf(expression, thenStatement, elseStatement) { var node = createSynthesizedNode(227 /* IfStatement */); node.expression = expression; node.thenStatement = asEmbeddedStatement(thenStatement); node.elseStatement = asEmbeddedStatement(elseStatement); return node; } ts.createIf = createIf; function updateIf(node, expression, thenStatement, elseStatement) { return node.expression !== expression || node.thenStatement !== thenStatement || node.elseStatement !== elseStatement ? updateNode(createIf(expression, thenStatement, elseStatement), node) : node; } ts.updateIf = updateIf; function createDo(statement, expression) { var node = createSynthesizedNode(228 /* DoStatement */); node.statement = asEmbeddedStatement(statement); node.expression = expression; return node; } ts.createDo = createDo; function updateDo(node, statement, expression) { return node.statement !== statement || node.expression !== expression ? updateNode(createDo(statement, expression), node) : node; } ts.updateDo = updateDo; function createWhile(expression, statement) { var node = createSynthesizedNode(229 /* WhileStatement */); node.expression = expression; node.statement = asEmbeddedStatement(statement); return node; } ts.createWhile = createWhile; function updateWhile(node, expression, statement) { return node.expression !== expression || node.statement !== statement ? updateNode(createWhile(expression, statement), node) : node; } ts.updateWhile = updateWhile; function createFor(initializer, condition, incrementor, statement) { var node = createSynthesizedNode(230 /* ForStatement */); node.initializer = initializer; node.condition = condition; node.incrementor = incrementor; node.statement = asEmbeddedStatement(statement); return node; } ts.createFor = createFor; function updateFor(node, initializer, condition, incrementor, statement) { return node.initializer !== initializer || node.condition !== condition || node.incrementor !== incrementor || node.statement !== statement ? updateNode(createFor(initializer, condition, incrementor, statement), node) : node; } ts.updateFor = updateFor; function createForIn(initializer, expression, statement) { var node = createSynthesizedNode(231 /* ForInStatement */); node.initializer = initializer; node.expression = expression; node.statement = asEmbeddedStatement(statement); return node; } ts.createForIn = createForIn; function updateForIn(node, initializer, expression, statement) { return node.initializer !== initializer || node.expression !== expression || node.statement !== statement ? updateNode(createForIn(initializer, expression, statement), node) : node; } ts.updateForIn = updateForIn; function createForOf(awaitModifier, initializer, expression, statement) { var node = createSynthesizedNode(232 /* ForOfStatement */); node.awaitModifier = awaitModifier; node.initializer = initializer; node.expression = ts.isCommaSequence(expression) ? createParen(expression) : expression; node.statement = asEmbeddedStatement(statement); return node; } ts.createForOf = createForOf; function updateForOf(node, awaitModifier, initializer, expression, statement) { return node.awaitModifier !== awaitModifier || node.initializer !== initializer || node.expression !== expression || node.statement !== statement ? updateNode(createForOf(awaitModifier, initializer, expression, statement), node) : node; } ts.updateForOf = updateForOf; function createContinue(label) { var node = createSynthesizedNode(233 /* ContinueStatement */); node.label = asName(label); return node; } ts.createContinue = createContinue; function updateContinue(node, label) { return node.label !== label ? updateNode(createContinue(label), node) : node; } ts.updateContinue = updateContinue; function createBreak(label) { var node = createSynthesizedNode(234 /* BreakStatement */); node.label = asName(label); return node; } ts.createBreak = createBreak; function updateBreak(node, label) { return node.label !== label ? updateNode(createBreak(label), node) : node; } ts.updateBreak = updateBreak; function createReturn(expression) { var node = createSynthesizedNode(235 /* ReturnStatement */); node.expression = expression; return node; } ts.createReturn = createReturn; function updateReturn(node, expression) { return node.expression !== expression ? updateNode(createReturn(expression), node) : node; } ts.updateReturn = updateReturn; function createWith(expression, statement) { var node = createSynthesizedNode(236 /* WithStatement */); node.expression = expression; node.statement = asEmbeddedStatement(statement); return node; } ts.createWith = createWith; function updateWith(node, expression, statement) { return node.expression !== expression || node.statement !== statement ? updateNode(createWith(expression, statement), node) : node; } ts.updateWith = updateWith; function createSwitch(expression, caseBlock) { var node = createSynthesizedNode(237 /* SwitchStatement */); node.expression = ts.parenthesizeExpressionForList(expression); node.caseBlock = caseBlock; return node; } ts.createSwitch = createSwitch; function updateSwitch(node, expression, caseBlock) { return node.expression !== expression || node.caseBlock !== caseBlock ? updateNode(createSwitch(expression, caseBlock), node) : node; } ts.updateSwitch = updateSwitch; function createLabel(label, statement) { var node = createSynthesizedNode(238 /* LabeledStatement */); node.label = asName(label); node.statement = asEmbeddedStatement(statement); return node; } ts.createLabel = createLabel; function updateLabel(node, label, statement) { return node.label !== label || node.statement !== statement ? updateNode(createLabel(label, statement), node) : node; } ts.updateLabel = updateLabel; function createThrow(expression) { var node = createSynthesizedNode(239 /* ThrowStatement */); node.expression = expression; return node; } ts.createThrow = createThrow; function updateThrow(node, expression) { return node.expression !== expression ? updateNode(createThrow(expression), node) : node; } ts.updateThrow = updateThrow; function createTry(tryBlock, catchClause, finallyBlock) { var node = createSynthesizedNode(240 /* TryStatement */); node.tryBlock = tryBlock; node.catchClause = catchClause; node.finallyBlock = finallyBlock; return node; } ts.createTry = createTry; function updateTry(node, tryBlock, catchClause, finallyBlock) { return node.tryBlock !== tryBlock || node.catchClause !== catchClause || node.finallyBlock !== finallyBlock ? updateNode(createTry(tryBlock, catchClause, finallyBlock), node) : node; } ts.updateTry = updateTry; function createDebuggerStatement() { return createSynthesizedNode(241 /* DebuggerStatement */); } ts.createDebuggerStatement = createDebuggerStatement; function createVariableDeclaration(name, type, initializer) { /* Internally, one should probably use createTypeScriptVariableDeclaration instead and handle definite assignment assertions */ var node = createSynthesizedNode(242 /* VariableDeclaration */); node.name = asName(name); node.type = type; node.initializer = initializer !== undefined ? ts.parenthesizeExpressionForList(initializer) : undefined; return node; } ts.createVariableDeclaration = createVariableDeclaration; function updateVariableDeclaration(node, name, type, initializer) { /* Internally, one should probably use updateTypeScriptVariableDeclaration instead and handle definite assignment assertions */ return node.name !== name || node.type !== type || node.initializer !== initializer ? updateNode(createVariableDeclaration(name, type, initializer), node) : node; } ts.updateVariableDeclaration = updateVariableDeclaration; /* @internal */ function createTypeScriptVariableDeclaration(name, exclaimationToken, type, initializer) { var node = createSynthesizedNode(242 /* VariableDeclaration */); node.name = asName(name); node.type = type; node.initializer = initializer !== undefined ? ts.parenthesizeExpressionForList(initializer) : undefined; node.exclamationToken = exclaimationToken; return node; } ts.createTypeScriptVariableDeclaration = createTypeScriptVariableDeclaration; /* @internal */ function updateTypeScriptVariableDeclaration(node, name, exclaimationToken, type, initializer) { return node.name !== name || node.type !== type || node.initializer !== initializer || node.exclamationToken !== exclaimationToken ? updateNode(createTypeScriptVariableDeclaration(name, exclaimationToken, type, initializer), node) : node; } ts.updateTypeScriptVariableDeclaration = updateTypeScriptVariableDeclaration; function createVariableDeclarationList(declarations, flags) { if (flags === void 0) { flags = 0 /* None */; } var node = createSynthesizedNode(243 /* VariableDeclarationList */); node.flags |= flags & 3 /* BlockScoped */; node.declarations = createNodeArray(declarations); return node; } ts.createVariableDeclarationList = createVariableDeclarationList; function updateVariableDeclarationList(node, declarations) { return node.declarations !== declarations ? updateNode(createVariableDeclarationList(declarations, node.flags), node) : node; } ts.updateVariableDeclarationList = updateVariableDeclarationList; function createFunctionDeclaration(decorators, modifiers, asteriskToken, name, typeParameters, parameters, type, body) { var node = createSynthesizedNode(244 /* FunctionDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.asteriskToken = asteriskToken; node.name = asName(name); node.typeParameters = asNodeArray(typeParameters); node.parameters = createNodeArray(parameters); node.type = type; node.body = body; return node; } ts.createFunctionDeclaration = createFunctionDeclaration; function updateFunctionDeclaration(node, decorators, modifiers, asteriskToken, name, typeParameters, parameters, type, body) { return node.decorators !== decorators || node.modifiers !== modifiers || node.asteriskToken !== asteriskToken || node.name !== name || node.typeParameters !== typeParameters || node.parameters !== parameters || node.type !== type || node.body !== body ? updateNode(createFunctionDeclaration(decorators, modifiers, asteriskToken, name, typeParameters, parameters, type, body), node) : node; } ts.updateFunctionDeclaration = updateFunctionDeclaration; /* @internal */ function updateFunctionLikeBody(declaration, body) { switch (declaration.kind) { case 244 /* FunctionDeclaration */: return createFunctionDeclaration(declaration.decorators, declaration.modifiers, declaration.asteriskToken, declaration.name, declaration.typeParameters, declaration.parameters, declaration.type, body); case 161 /* MethodDeclaration */: return createMethod(declaration.decorators, declaration.modifiers, declaration.asteriskToken, declaration.name, declaration.questionToken, declaration.typeParameters, declaration.parameters, declaration.type, body); case 163 /* GetAccessor */: return createGetAccessor(declaration.decorators, declaration.modifiers, declaration.name, declaration.parameters, declaration.type, body); case 164 /* SetAccessor */: return createSetAccessor(declaration.decorators, declaration.modifiers, declaration.name, declaration.parameters, body); case 162 /* Constructor */: return createConstructor(declaration.decorators, declaration.modifiers, declaration.parameters, body); case 201 /* FunctionExpression */: return createFunctionExpression(declaration.modifiers, declaration.asteriskToken, declaration.name, declaration.typeParameters, declaration.parameters, declaration.type, body); case 202 /* ArrowFunction */: return createArrowFunction(declaration.modifiers, declaration.typeParameters, declaration.parameters, declaration.type, declaration.equalsGreaterThanToken, body); } } ts.updateFunctionLikeBody = updateFunctionLikeBody; function createClassDeclaration(decorators, modifiers, name, typeParameters, heritageClauses, members) { var node = createSynthesizedNode(245 /* ClassDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.typeParameters = asNodeArray(typeParameters); node.heritageClauses = asNodeArray(heritageClauses); node.members = createNodeArray(members); return node; } ts.createClassDeclaration = createClassDeclaration; function updateClassDeclaration(node, decorators, modifiers, name, typeParameters, heritageClauses, members) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.typeParameters !== typeParameters || node.heritageClauses !== heritageClauses || node.members !== members ? updateNode(createClassDeclaration(decorators, modifiers, name, typeParameters, heritageClauses, members), node) : node; } ts.updateClassDeclaration = updateClassDeclaration; function createInterfaceDeclaration(decorators, modifiers, name, typeParameters, heritageClauses, members) { var node = createSynthesizedNode(246 /* InterfaceDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.typeParameters = asNodeArray(typeParameters); node.heritageClauses = asNodeArray(heritageClauses); node.members = createNodeArray(members); return node; } ts.createInterfaceDeclaration = createInterfaceDeclaration; function updateInterfaceDeclaration(node, decorators, modifiers, name, typeParameters, heritageClauses, members) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.typeParameters !== typeParameters || node.heritageClauses !== heritageClauses || node.members !== members ? updateNode(createInterfaceDeclaration(decorators, modifiers, name, typeParameters, heritageClauses, members), node) : node; } ts.updateInterfaceDeclaration = updateInterfaceDeclaration; function createTypeAliasDeclaration(decorators, modifiers, name, typeParameters, type) { var node = createSynthesizedNode(247 /* TypeAliasDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.typeParameters = asNodeArray(typeParameters); node.type = type; return node; } ts.createTypeAliasDeclaration = createTypeAliasDeclaration; function updateTypeAliasDeclaration(node, decorators, modifiers, name, typeParameters, type) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.typeParameters !== typeParameters || node.type !== type ? updateNode(createTypeAliasDeclaration(decorators, modifiers, name, typeParameters, type), node) : node; } ts.updateTypeAliasDeclaration = updateTypeAliasDeclaration; function createEnumDeclaration(decorators, modifiers, name, members) { var node = createSynthesizedNode(248 /* EnumDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.members = createNodeArray(members); return node; } ts.createEnumDeclaration = createEnumDeclaration; function updateEnumDeclaration(node, decorators, modifiers, name, members) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.members !== members ? updateNode(createEnumDeclaration(decorators, modifiers, name, members), node) : node; } ts.updateEnumDeclaration = updateEnumDeclaration; function createModuleDeclaration(decorators, modifiers, name, body, flags) { if (flags === void 0) { flags = 0 /* None */; } var node = createSynthesizedNode(249 /* ModuleDeclaration */); node.flags |= flags & (16 /* Namespace */ | 4 /* NestedNamespace */ | 1024 /* GlobalAugmentation */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = name; node.body = body; return node; } ts.createModuleDeclaration = createModuleDeclaration; function updateModuleDeclaration(node, decorators, modifiers, name, body) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.body !== body ? updateNode(createModuleDeclaration(decorators, modifiers, name, body, node.flags), node) : node; } ts.updateModuleDeclaration = updateModuleDeclaration; function createModuleBlock(statements) { var node = createSynthesizedNode(250 /* ModuleBlock */); node.statements = createNodeArray(statements); return node; } ts.createModuleBlock = createModuleBlock; function updateModuleBlock(node, statements) { return node.statements !== statements ? updateNode(createModuleBlock(statements), node) : node; } ts.updateModuleBlock = updateModuleBlock; function createCaseBlock(clauses) { var node = createSynthesizedNode(251 /* CaseBlock */); node.clauses = createNodeArray(clauses); return node; } ts.createCaseBlock = createCaseBlock; function updateCaseBlock(node, clauses) { return node.clauses !== clauses ? updateNode(createCaseBlock(clauses), node) : node; } ts.updateCaseBlock = updateCaseBlock; function createNamespaceExportDeclaration(name) { var node = createSynthesizedNode(252 /* NamespaceExportDeclaration */); node.name = asName(name); return node; } ts.createNamespaceExportDeclaration = createNamespaceExportDeclaration; function updateNamespaceExportDeclaration(node, name) { return node.name !== name ? updateNode(createNamespaceExportDeclaration(name), node) : node; } ts.updateNamespaceExportDeclaration = updateNamespaceExportDeclaration; function createImportEqualsDeclaration(decorators, modifiers, name, moduleReference) { var node = createSynthesizedNode(253 /* ImportEqualsDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.name = asName(name); node.moduleReference = moduleReference; return node; } ts.createImportEqualsDeclaration = createImportEqualsDeclaration; function updateImportEqualsDeclaration(node, decorators, modifiers, name, moduleReference) { return node.decorators !== decorators || node.modifiers !== modifiers || node.name !== name || node.moduleReference !== moduleReference ? updateNode(createImportEqualsDeclaration(decorators, modifiers, name, moduleReference), node) : node; } ts.updateImportEqualsDeclaration = updateImportEqualsDeclaration; function createImportDeclaration(decorators, modifiers, importClause, moduleSpecifier) { var node = createSynthesizedNode(254 /* ImportDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.importClause = importClause; node.moduleSpecifier = moduleSpecifier; return node; } ts.createImportDeclaration = createImportDeclaration; function updateImportDeclaration(node, decorators, modifiers, importClause, moduleSpecifier) { return node.decorators !== decorators || node.modifiers !== modifiers || node.importClause !== importClause || node.moduleSpecifier !== moduleSpecifier ? updateNode(createImportDeclaration(decorators, modifiers, importClause, moduleSpecifier), node) : node; } ts.updateImportDeclaration = updateImportDeclaration; function createImportClause(name, namedBindings, isTypeOnly) { if (isTypeOnly === void 0) { isTypeOnly = false; } var node = createSynthesizedNode(255 /* ImportClause */); node.name = name; node.namedBindings = namedBindings; node.isTypeOnly = isTypeOnly; return node; } ts.createImportClause = createImportClause; function updateImportClause(node, name, namedBindings, isTypeOnly) { return node.name !== name || node.namedBindings !== namedBindings || node.isTypeOnly !== isTypeOnly ? updateNode(createImportClause(name, namedBindings, isTypeOnly), node) : node; } ts.updateImportClause = updateImportClause; function createNamespaceImport(name) { var node = createSynthesizedNode(256 /* NamespaceImport */); node.name = name; return node; } ts.createNamespaceImport = createNamespaceImport; function createNamespaceExport(name) { var node = createSynthesizedNode(262 /* NamespaceExport */); node.name = name; return node; } ts.createNamespaceExport = createNamespaceExport; function updateNamespaceImport(node, name) { return node.name !== name ? updateNode(createNamespaceImport(name), node) : node; } ts.updateNamespaceImport = updateNamespaceImport; function updateNamespaceExport(node, name) { return node.name !== name ? updateNode(createNamespaceExport(name), node) : node; } ts.updateNamespaceExport = updateNamespaceExport; function createNamedImports(elements) { var node = createSynthesizedNode(257 /* NamedImports */); node.elements = createNodeArray(elements); return node; } ts.createNamedImports = createNamedImports; function updateNamedImports(node, elements) { return node.elements !== elements ? updateNode(createNamedImports(elements), node) : node; } ts.updateNamedImports = updateNamedImports; function createImportSpecifier(propertyName, name) { var node = createSynthesizedNode(258 /* ImportSpecifier */); node.propertyName = propertyName; node.name = name; return node; } ts.createImportSpecifier = createImportSpecifier; function updateImportSpecifier(node, propertyName, name) { return node.propertyName !== propertyName || node.name !== name ? updateNode(createImportSpecifier(propertyName, name), node) : node; } ts.updateImportSpecifier = updateImportSpecifier; function createExportAssignment(decorators, modifiers, isExportEquals, expression) { var node = createSynthesizedNode(259 /* ExportAssignment */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.isExportEquals = isExportEquals; node.expression = isExportEquals ? ts.parenthesizeBinaryOperand(62 /* EqualsToken */, expression, /*isLeftSideOfBinary*/ false, /*leftOperand*/ undefined) : ts.parenthesizeDefaultExpression(expression); return node; } ts.createExportAssignment = createExportAssignment; function updateExportAssignment(node, decorators, modifiers, expression) { return node.decorators !== decorators || node.modifiers !== modifiers || node.expression !== expression ? updateNode(createExportAssignment(decorators, modifiers, node.isExportEquals, expression), node) : node; } ts.updateExportAssignment = updateExportAssignment; function createExportDeclaration(decorators, modifiers, exportClause, moduleSpecifier, isTypeOnly) { if (isTypeOnly === void 0) { isTypeOnly = false; } var node = createSynthesizedNode(260 /* ExportDeclaration */); node.decorators = asNodeArray(decorators); node.modifiers = asNodeArray(modifiers); node.isTypeOnly = isTypeOnly; node.exportClause = exportClause; node.moduleSpecifier = moduleSpecifier; return node; } ts.createExportDeclaration = createExportDeclaration; function updateExportDeclaration(node, decorators, modifiers, exportClause, moduleSpecifier, isTypeOnly) { return node.decorators !== decorators || node.modifiers !== modifiers || node.isTypeOnly !== isTypeOnly || node.exportClause !== exportClause || node.moduleSpecifier !== moduleSpecifier ? updateNode(createExportDeclaration(decorators, modifiers, exportClause, moduleSpecifier, isTypeOnly), node) : node; } ts.updateExportDeclaration = updateExportDeclaration; /* @internal */ function createEmptyExports() { return createExportDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, createNamedExports([]), /*moduleSpecifier*/ undefined); } ts.createEmptyExports = createEmptyExports; function createNamedExports(elements) { var node = createSynthesizedNode(261 /* NamedExports */); node.elements = createNodeArray(elements); return node; } ts.createNamedExports = createNamedExports; function updateNamedExports(node, elements) { return node.elements !== elements ? updateNode(createNamedExports(elements), node) : node; } ts.updateNamedExports = updateNamedExports; function createExportSpecifier(propertyName, name) { var node = createSynthesizedNode(263 /* ExportSpecifier */); node.propertyName = asName(propertyName); node.name = asName(name); return node; } ts.createExportSpecifier = createExportSpecifier; function updateExportSpecifier(node, propertyName, name) { return node.propertyName !== propertyName || node.name !== name ? updateNode(createExportSpecifier(propertyName, name), node) : node; } ts.updateExportSpecifier = updateExportSpecifier; // Module references function createExternalModuleReference(expression) { var node = createSynthesizedNode(265 /* ExternalModuleReference */); node.expression = expression; return node; } ts.createExternalModuleReference = createExternalModuleReference; function updateExternalModuleReference(node, expression) { return node.expression !== expression ? updateNode(createExternalModuleReference(expression), node) : node; } ts.updateExternalModuleReference = updateExternalModuleReference; // JSDoc /* @internal */ function createJSDocTypeExpression(type) { var node = createSynthesizedNode(294 /* JSDocTypeExpression */); node.type = type; return node; } ts.createJSDocTypeExpression = createJSDocTypeExpression; /* @internal */ function createJSDocTypeTag(typeExpression, comment) { var tag = createJSDocTag(320 /* JSDocTypeTag */, "type"); tag.typeExpression = typeExpression; tag.comment = comment; return tag; } ts.createJSDocTypeTag = createJSDocTypeTag; /* @internal */ function createJSDocReturnTag(typeExpression, comment) { var tag = createJSDocTag(318 /* JSDocReturnTag */, "returns"); tag.typeExpression = typeExpression; tag.comment = comment; return tag; } ts.createJSDocReturnTag = createJSDocReturnTag; /** @internal */ function createJSDocThisTag(typeExpression) { var tag = createJSDocTag(319 /* JSDocThisTag */, "this"); tag.typeExpression = typeExpression; return tag; } ts.createJSDocThisTag = createJSDocThisTag; /* @internal */ function createJSDocParamTag(name, isBracketed, typeExpression, comment) { var tag = createJSDocTag(317 /* JSDocParameterTag */, "param"); tag.typeExpression = typeExpression; tag.name = name; tag.isBracketed = isBracketed; tag.comment = comment; return tag; } ts.createJSDocParamTag = createJSDocParamTag; /* @internal */ function createJSDocClassTag() { return createJSDocTag(310 /* JSDocClassTag */, "class"); } ts.createJSDocClassTag = createJSDocClassTag; /* @internal */ function createJSDocComment(comment, tags) { var node = createSynthesizedNode(303 /* JSDocComment */); node.comment = comment; node.tags = tags; return node; } ts.createJSDocComment = createJSDocComment; /* @internal */ function createJSDocTag(kind, tagName) { var node = createSynthesizedNode(kind); node.tagName = createIdentifier(tagName); return node; } // JSX function createJsxElement(openingElement, children, closingElement) { var node = createSynthesizedNode(266 /* JsxElement */); node.openingElement = openingElement; node.children = createNodeArray(children); node.closingElement = closingElement; return node; } ts.createJsxElement = createJsxElement; function updateJsxElement(node, openingElement, children, closingElement) { return node.openingElement !== openingElement || node.children !== children || node.closingElement !== closingElement ? updateNode(createJsxElement(openingElement, children, closingElement), node) : node; } ts.updateJsxElement = updateJsxElement; function createJsxSelfClosingElement(tagName, typeArguments, attributes) { var node = createSynthesizedNode(267 /* JsxSelfClosingElement */); node.tagName = tagName; node.typeArguments = asNodeArray(typeArguments); node.attributes = attributes; return node; } ts.createJsxSelfClosingElement = createJsxSelfClosingElement; function updateJsxSelfClosingElement(node, tagName, typeArguments, attributes) { return node.tagName !== tagName || node.typeArguments !== typeArguments || node.attributes !== attributes ? updateNode(createJsxSelfClosingElement(tagName, typeArguments, attributes), node) : node; } ts.updateJsxSelfClosingElement = updateJsxSelfClosingElement; function createJsxOpeningElement(tagName, typeArguments, attributes) { var node = createSynthesizedNode(268 /* JsxOpeningElement */); node.tagName = tagName; node.typeArguments = asNodeArray(typeArguments); node.attributes = attributes; return node; } ts.createJsxOpeningElement = createJsxOpeningElement; function updateJsxOpeningElement(node, tagName, typeArguments, attributes) { return node.tagName !== tagName || node.typeArguments !== typeArguments || node.attributes !== attributes ? updateNode(createJsxOpeningElement(tagName, typeArguments, attributes), node) : node; } ts.updateJsxOpeningElement = updateJsxOpeningElement; function createJsxClosingElement(tagName) { var node = createSynthesizedNode(269 /* JsxClosingElement */); node.tagName = tagName; return node; } ts.createJsxClosingElement = createJsxClosingElement; function updateJsxClosingElement(node, tagName) { return node.tagName !== tagName ? updateNode(createJsxClosingElement(tagName), node) : node; } ts.updateJsxClosingElement = updateJsxClosingElement; function createJsxFragment(openingFragment, children, closingFragment) { var node = createSynthesizedNode(270 /* JsxFragment */); node.openingFragment = openingFragment; node.children = createNodeArray(children); node.closingFragment = closingFragment; return node; } ts.createJsxFragment = createJsxFragment; function createJsxText(text, containsOnlyTriviaWhiteSpaces) { var node = createSynthesizedNode(11 /* JsxText */); node.text = text; node.containsOnlyTriviaWhiteSpaces = !!containsOnlyTriviaWhiteSpaces; return node; } ts.createJsxText = createJsxText; function updateJsxText(node, text, containsOnlyTriviaWhiteSpaces) { return node.text !== text || node.containsOnlyTriviaWhiteSpaces !== containsOnlyTriviaWhiteSpaces ? updateNode(createJsxText(text, containsOnlyTriviaWhiteSpaces), node) : node; } ts.updateJsxText = updateJsxText; function createJsxOpeningFragment() { return createSynthesizedNode(271 /* JsxOpeningFragment */); } ts.createJsxOpeningFragment = createJsxOpeningFragment; function createJsxJsxClosingFragment() { return createSynthesizedNode(272 /* JsxClosingFragment */); } ts.createJsxJsxClosingFragment = createJsxJsxClosingFragment; function updateJsxFragment(node, openingFragment, children, closingFragment) { return node.openingFragment !== openingFragment || node.children !== children || node.closingFragment !== closingFragment ? updateNode(createJsxFragment(openingFragment, children, closingFragment), node) : node; } ts.updateJsxFragment = updateJsxFragment; function createJsxAttribute(name, initializer) { var node = createSynthesizedNode(273 /* JsxAttribute */); node.name = name; node.initializer = initializer; return node; } ts.createJsxAttribute = createJsxAttribute; function updateJsxAttribute(node, name, initializer) { return node.name !== name || node.initializer !== initializer ? updateNode(createJsxAttribute(name, initializer), node) : node; } ts.updateJsxAttribute = updateJsxAttribute; function createJsxAttributes(properties) { var node = createSynthesizedNode(274 /* JsxAttributes */); node.properties = createNodeArray(properties); return node; } ts.createJsxAttributes = createJsxAttributes; function updateJsxAttributes(node, properties) { return node.properties !== properties ? updateNode(createJsxAttributes(properties), node) : node; } ts.updateJsxAttributes = updateJsxAttributes; function createJsxSpreadAttribute(expression) { var node = createSynthesizedNode(275 /* JsxSpreadAttribute */); node.expression = expression; return node; } ts.createJsxSpreadAttribute = createJsxSpreadAttribute; function updateJsxSpreadAttribute(node, expression) { return node.expression !== expression ? updateNode(createJsxSpreadAttribute(expression), node) : node; } ts.updateJsxSpreadAttribute = updateJsxSpreadAttribute; function createJsxExpression(dotDotDotToken, expression) { var node = createSynthesizedNode(276 /* JsxExpression */); node.dotDotDotToken = dotDotDotToken; node.expression = expression; return node; } ts.createJsxExpression = createJsxExpression; function updateJsxExpression(node, expression) { return node.expression !== expression ? updateNode(createJsxExpression(node.dotDotDotToken, expression), node) : node; } ts.updateJsxExpression = updateJsxExpression; // Clauses function createCaseClause(expression, statements) { var node = createSynthesizedNode(277 /* CaseClause */); node.expression = ts.parenthesizeExpressionForList(expression); node.statements = createNodeArray(statements); return node; } ts.createCaseClause = createCaseClause; function updateCaseClause(node, expression, statements) { return node.expression !== expression || node.statements !== statements ? updateNode(createCaseClause(expression, statements), node) : node; } ts.updateCaseClause = updateCaseClause; function createDefaultClause(statements) { var node = createSynthesizedNode(278 /* DefaultClause */); node.statements = createNodeArray(statements); return node; } ts.createDefaultClause = createDefaultClause; function updateDefaultClause(node, statements) { return node.statements !== statements ? updateNode(createDefaultClause(statements), node) : node; } ts.updateDefaultClause = updateDefaultClause; function createHeritageClause(token, types) { var node = createSynthesizedNode(279 /* HeritageClause */); node.token = token; node.types = createNodeArray(types); return node; } ts.createHeritageClause = createHeritageClause; function updateHeritageClause(node, types) { return node.types !== types ? updateNode(createHeritageClause(node.token, types), node) : node; } ts.updateHeritageClause = updateHeritageClause; function createCatchClause(variableDeclaration, block) { var node = createSynthesizedNode(280 /* CatchClause */); node.variableDeclaration = ts.isString(variableDeclaration) ? createVariableDeclaration(variableDeclaration) : variableDeclaration; node.block = block; return node; } ts.createCatchClause = createCatchClause; function updateCatchClause(node, variableDeclaration, block) { return node.variableDeclaration !== variableDeclaration || node.block !== block ? updateNode(createCatchClause(variableDeclaration, block), node) : node; } ts.updateCatchClause = updateCatchClause; // Property assignments function createPropertyAssignment(name, initializer) { var node = createSynthesizedNode(281 /* PropertyAssignment */); node.name = asName(name); node.questionToken = undefined; node.initializer = ts.parenthesizeExpressionForList(initializer); return node; } ts.createPropertyAssignment = createPropertyAssignment; function updatePropertyAssignment(node, name, initializer) { return node.name !== name || node.initializer !== initializer ? updateNode(createPropertyAssignment(name, initializer), node) : node; } ts.updatePropertyAssignment = updatePropertyAssignment; function createShorthandPropertyAssignment(name, objectAssignmentInitializer) { var node = createSynthesizedNode(282 /* ShorthandPropertyAssignment */); node.name = asName(name); node.objectAssignmentInitializer = objectAssignmentInitializer !== undefined ? ts.parenthesizeExpressionForList(objectAssignmentInitializer) : undefined; return node; } ts.createShorthandPropertyAssignment = createShorthandPropertyAssignment; function updateShorthandPropertyAssignment(node, name, objectAssignmentInitializer) { return node.name !== name || node.objectAssignmentInitializer !== objectAssignmentInitializer ? updateNode(createShorthandPropertyAssignment(name, objectAssignmentInitializer), node) : node; } ts.updateShorthandPropertyAssignment = updateShorthandPropertyAssignment; function createSpreadAssignment(expression) { var node = createSynthesizedNode(283 /* SpreadAssignment */); node.expression = ts.parenthesizeExpressionForList(expression); return node; } ts.createSpreadAssignment = createSpreadAssignment; function updateSpreadAssignment(node, expression) { return node.expression !== expression ? updateNode(createSpreadAssignment(expression), node) : node; } ts.updateSpreadAssignment = updateSpreadAssignment; // Enum function createEnumMember(name, initializer) { var node = createSynthesizedNode(284 /* EnumMember */); node.name = asName(name); node.initializer = initializer && ts.parenthesizeExpressionForList(initializer); return node; } ts.createEnumMember = createEnumMember; function updateEnumMember(node, name, initializer) { return node.name !== name || node.initializer !== initializer ? updateNode(createEnumMember(name, initializer), node) : node; } ts.updateEnumMember = updateEnumMember; // Top-level nodes function updateSourceFileNode(node, statements, isDeclarationFile, referencedFiles, typeReferences, hasNoDefaultLib, libReferences) { if (node.statements !== statements || (isDeclarationFile !== undefined && node.isDeclarationFile !== isDeclarationFile) || (referencedFiles !== undefined && node.referencedFiles !== referencedFiles) || (typeReferences !== undefined && node.typeReferenceDirectives !== typeReferences) || (libReferences !== undefined && node.libReferenceDirectives !== libReferences) || (hasNoDefaultLib !== undefined && node.hasNoDefaultLib !== hasNoDefaultLib)) { var updated = createSynthesizedNode(290 /* SourceFile */); updated.flags |= node.flags; updated.statements = createNodeArray(statements); updated.endOfFileToken = node.endOfFileToken; updated.fileName = node.fileName; updated.path = node.path; updated.text = node.text; updated.isDeclarationFile = isDeclarationFile === undefined ? node.isDeclarationFile : isDeclarationFile; updated.referencedFiles = referencedFiles === undefined ? node.referencedFiles : referencedFiles; updated.typeReferenceDirectives = typeReferences === undefined ? node.typeReferenceDirectives : typeReferences; updated.hasNoDefaultLib = hasNoDefaultLib === undefined ? node.hasNoDefaultLib : hasNoDefaultLib; updated.libReferenceDirectives = libReferences === undefined ? node.libReferenceDirectives : libReferences; if (node.amdDependencies !== undefined) updated.amdDependencies = node.amdDependencies; if (node.moduleName !== undefined) updated.moduleName = node.moduleName; if (node.languageVariant !== undefined) updated.languageVariant = node.languageVariant; if (node.renamedDependencies !== undefined) updated.renamedDependencies = node.renamedDependencies; if (node.languageVersion !== undefined) updated.languageVersion = node.languageVersion; if (node.scriptKind !== undefined) updated.scriptKind = node.scriptKind; if (node.externalModuleIndicator !== undefined) updated.externalModuleIndicator = node.externalModuleIndicator; if (node.commonJsModuleIndicator !== undefined) updated.commonJsModuleIndicator = node.commonJsModuleIndicator; if (node.identifiers !== undefined) updated.identifiers = node.identifiers; if (node.nodeCount !== undefined) updated.nodeCount = node.nodeCount; if (node.identifierCount !== undefined) updated.identifierCount = node.identifierCount; if (node.symbolCount !== undefined) updated.symbolCount = node.symbolCount; if (node.parseDiagnostics !== undefined) updated.parseDiagnostics = node.parseDiagnostics; if (node.bindDiagnostics !== undefined) updated.bindDiagnostics = node.bindDiagnostics; if (node.bindSuggestionDiagnostics !== undefined) updated.bindSuggestionDiagnostics = node.bindSuggestionDiagnostics; if (node.lineMap !== undefined) updated.lineMap = node.lineMap; if (node.classifiableNames !== undefined) updated.classifiableNames = node.classifiableNames; if (node.resolvedModules !== undefined) updated.resolvedModules = node.resolvedModules; if (node.resolvedTypeReferenceDirectiveNames !== undefined) updated.resolvedTypeReferenceDirectiveNames = node.resolvedTypeReferenceDirectiveNames; if (node.imports !== undefined) updated.imports = node.imports; if (node.moduleAugmentations !== undefined) updated.moduleAugmentations = node.moduleAugmentations; if (node.pragmas !== undefined) updated.pragmas = node.pragmas; if (node.localJsxFactory !== undefined) updated.localJsxFactory = node.localJsxFactory; if (node.localJsxNamespace !== undefined) updated.localJsxNamespace = node.localJsxNamespace; return updateNode(updated, node); } return node; } ts.updateSourceFileNode = updateSourceFileNode; /** * Creates a shallow, memberwise clone of a node for mutation. */ function getMutableClone(node) { var clone = getSynthesizedClone(node); clone.pos = node.pos; clone.end = node.end; clone.parent = node.parent; return clone; } ts.getMutableClone = getMutableClone; // Transformation nodes /** * Creates a synthetic statement to act as a placeholder for a not-emitted statement in * order to preserve comments. * * @param original The original statement. */ function createNotEmittedStatement(original) { var node = createSynthesizedNode(325 /* NotEmittedStatement */); node.original = original; setTextRange(node, original); return node; } ts.createNotEmittedStatement = createNotEmittedStatement; /** * Creates a synthetic element to act as a placeholder for the end of an emitted declaration in * order to properly emit exports. */ /* @internal */ function createEndOfDeclarationMarker(original) { var node = createSynthesizedNode(329 /* EndOfDeclarationMarker */); node.emitNode = {}; node.original = original; return node; } ts.createEndOfDeclarationMarker = createEndOfDeclarationMarker; /** * Creates a synthetic element to act as a placeholder for the beginning of a merged declaration in * order to properly emit exports. */ /* @internal */ function createMergeDeclarationMarker(original) { var node = createSynthesizedNode(328 /* MergeDeclarationMarker */); node.emitNode = {}; node.original = original; return node; } ts.createMergeDeclarationMarker = createMergeDeclarationMarker; /** * Creates a synthetic expression to act as a placeholder for a not-emitted expression in * order to preserve comments or sourcemap positions. * * @param expression The inner expression to emit. * @param original The original outer expression. * @param location The location for the expression. Defaults to the positions from "original" if provided. */ function createPartiallyEmittedExpression(expression, original) { var node = createSynthesizedNode(326 /* PartiallyEmittedExpression */); node.expression = expression; node.original = original; setTextRange(node, original); return node; } ts.createPartiallyEmittedExpression = createPartiallyEmittedExpression; function updatePartiallyEmittedExpression(node, expression) { if (node.expression !== expression) { return updateNode(createPartiallyEmittedExpression(expression, node.original), node); } return node; } ts.updatePartiallyEmittedExpression = updatePartiallyEmittedExpression; function flattenCommaElements(node) { if (ts.nodeIsSynthesized(node) && !ts.isParseTreeNode(node) && !node.original && !node.emitNode && !node.id) { if (node.kind === 327 /* CommaListExpression */) { return node.elements; } if (ts.isBinaryExpression(node) && node.operatorToken.kind === 27 /* CommaToken */) { return [node.left, node.right]; } } return node; } function createCommaList(elements) { var node = createSynthesizedNode(327 /* CommaListExpression */); node.elements = createNodeArray(ts.sameFlatMap(elements, flattenCommaElements)); return node; } ts.createCommaList = createCommaList; function updateCommaList(node, elements) { return node.elements !== elements ? updateNode(createCommaList(elements), node) : node; } ts.updateCommaList = updateCommaList; /* @internal */ function createSyntheticReferenceExpression(expression, thisArg) { var node = createSynthesizedNode(330 /* SyntheticReferenceExpression */); node.expression = expression; node.thisArg = thisArg; return node; } ts.createSyntheticReferenceExpression = createSyntheticReferenceExpression; /* @internal */ function updateSyntheticReferenceExpression(node, expression, thisArg) { return node.expression !== expression || node.thisArg !== thisArg ? updateNode(createSyntheticReferenceExpression(expression, thisArg), node) : node; } ts.updateSyntheticReferenceExpression = updateSyntheticReferenceExpression; function createBundle(sourceFiles, prepends) { if (prepends === void 0) { prepends = ts.emptyArray; } var node = ts.createNode(291 /* Bundle */); node.prepends = prepends; node.sourceFiles = sourceFiles; return node; } ts.createBundle = createBundle; var allUnscopedEmitHelpers; function getAllUnscopedEmitHelpers() { return allUnscopedEmitHelpers || (allUnscopedEmitHelpers = ts.arrayToMap([ ts.valuesHelper, ts.readHelper, ts.spreadHelper, ts.spreadArraysHelper, ts.restHelper, ts.decorateHelper, ts.metadataHelper, ts.paramHelper, ts.awaiterHelper, ts.assignHelper, ts.awaitHelper, ts.asyncGeneratorHelper, ts.asyncDelegator, ts.asyncValues, ts.extendsHelper, ts.templateObjectHelper, ts.generatorHelper, ts.importStarHelper, ts.importDefaultHelper, ts.classPrivateFieldGetHelper, ts.classPrivateFieldSetHelper, ts.createBindingHelper, ts.setModuleDefaultHelper ], function (helper) { return helper.name; })); } function createUnparsedSource() { var node = ts.createNode(292 /* UnparsedSource */); node.prologues = ts.emptyArray; node.referencedFiles = ts.emptyArray; node.libReferenceDirectives = ts.emptyArray; node.getLineAndCharacterOfPosition = function (pos) { return ts.getLineAndCharacterOfPosition(node, pos); }; return node; } function createUnparsedSourceFile(textOrInputFiles, mapPathOrType, mapTextOrStripInternal) { var node = createUnparsedSource(); var stripInternal; var bundleFileInfo; if (!ts.isString(textOrInputFiles)) { ts.Debug.assert(mapPathOrType === "js" || mapPathOrType === "dts"); node.fileName = (mapPathOrType === "js" ? textOrInputFiles.javascriptPath : textOrInputFiles.declarationPath) || ""; node.sourceMapPath = mapPathOrType === "js" ? textOrInputFiles.javascriptMapPath : textOrInputFiles.declarationMapPath; Object.defineProperties(node, { text: { get: function () { return mapPathOrType === "js" ? textOrInputFiles.javascriptText : textOrInputFiles.declarationText; } }, sourceMapText: { get: function () { return mapPathOrType === "js" ? textOrInputFiles.javascriptMapText : textOrInputFiles.declarationMapText; } }, }); if (textOrInputFiles.buildInfo && textOrInputFiles.buildInfo.bundle) { node.oldFileOfCurrentEmit = textOrInputFiles.oldFileOfCurrentEmit; ts.Debug.assert(mapTextOrStripInternal === undefined || typeof mapTextOrStripInternal === "boolean"); stripInternal = mapTextOrStripInternal; bundleFileInfo = mapPathOrType === "js" ? textOrInputFiles.buildInfo.bundle.js : textOrInputFiles.buildInfo.bundle.dts; if (node.oldFileOfCurrentEmit) { parseOldFileOfCurrentEmit(node, ts.Debug.checkDefined(bundleFileInfo)); return node; } } } else { node.fileName = ""; node.text = textOrInputFiles; node.sourceMapPath = mapPathOrType; node.sourceMapText = mapTextOrStripInternal; } ts.Debug.assert(!node.oldFileOfCurrentEmit); parseUnparsedSourceFile(node, bundleFileInfo, stripInternal); return node; } ts.createUnparsedSourceFile = createUnparsedSourceFile; function parseUnparsedSourceFile(node, bundleFileInfo, stripInternal) { var prologues; var helpers; var referencedFiles; var typeReferenceDirectives; var libReferenceDirectives; var texts; for (var _i = 0, _a = bundleFileInfo ? bundleFileInfo.sections : ts.emptyArray; _i < _a.length; _i++) { var section = _a[_i]; switch (section.kind) { case "prologue" /* Prologue */: (prologues || (prologues = [])).push(createUnparsedNode(section, node)); break; case "emitHelpers" /* EmitHelpers */: (helpers || (helpers = [])).push(getAllUnscopedEmitHelpers().get(section.data)); break; case "no-default-lib" /* NoDefaultLib */: node.hasNoDefaultLib = true; break; case "reference" /* Reference */: (referencedFiles || (referencedFiles = [])).push({ pos: -1, end: -1, fileName: section.data }); break; case "type" /* Type */: (typeReferenceDirectives || (typeReferenceDirectives = [])).push(section.data); break; case "lib" /* Lib */: (libReferenceDirectives || (libReferenceDirectives = [])).push({ pos: -1, end: -1, fileName: section.data }); break; case "prepend" /* Prepend */: var prependNode = createUnparsedNode(section, node); var prependTexts = void 0; for (var _b = 0, _c = section.texts; _b < _c.length; _b++) { var text = _c[_b]; if (!stripInternal || text.kind !== "internal" /* Internal */) { (prependTexts || (prependTexts = [])).push(createUnparsedNode(text, node)); } } prependNode.texts = prependTexts || ts.emptyArray; (texts || (texts = [])).push(prependNode); break; case "internal" /* Internal */: if (stripInternal) { if (!texts) texts = []; break; } // falls through case "text" /* Text */: (texts || (texts = [])).push(createUnparsedNode(section, node)); break; default: ts.Debug.assertNever(section); } } node.prologues = prologues || ts.emptyArray; node.helpers = helpers; node.referencedFiles = referencedFiles || ts.emptyArray; node.typeReferenceDirectives = typeReferenceDirectives; node.libReferenceDirectives = libReferenceDirectives || ts.emptyArray; node.texts = texts || [createUnparsedNode({ kind: "text" /* Text */, pos: 0, end: node.text.length }, node)]; } function parseOldFileOfCurrentEmit(node, bundleFileInfo) { ts.Debug.assert(!!node.oldFileOfCurrentEmit); var texts; var syntheticReferences; for (var _i = 0, _a = bundleFileInfo.sections; _i < _a.length; _i++) { var section = _a[_i]; switch (section.kind) { case "internal" /* Internal */: case "text" /* Text */: (texts || (texts = [])).push(createUnparsedNode(section, node)); break; case "no-default-lib" /* NoDefaultLib */: case "reference" /* Reference */: case "type" /* Type */: case "lib" /* Lib */: (syntheticReferences || (syntheticReferences = [])).push(createUnparsedSyntheticReference(section, node)); break; // Ignore case "prologue" /* Prologue */: case "emitHelpers" /* EmitHelpers */: case "prepend" /* Prepend */: break; default: ts.Debug.assertNever(section); } } node.texts = texts || ts.emptyArray; node.helpers = ts.map(bundleFileInfo.sources && bundleFileInfo.sources.helpers, function (name) { return getAllUnscopedEmitHelpers().get(name); }); node.syntheticReferences = syntheticReferences; return node; } function mapBundleFileSectionKindToSyntaxKind(kind) { switch (kind) { case "prologue" /* Prologue */: return 285 /* UnparsedPrologue */; case "prepend" /* Prepend */: return 286 /* UnparsedPrepend */; case "internal" /* Internal */: return 288 /* UnparsedInternalText */; case "text" /* Text */: return 287 /* UnparsedText */; case "emitHelpers" /* EmitHelpers */: case "no-default-lib" /* NoDefaultLib */: case "reference" /* Reference */: case "type" /* Type */: case "lib" /* Lib */: return ts.Debug.fail("BundleFileSectionKind: " + kind + " not yet mapped to SyntaxKind"); default: return ts.Debug.assertNever(kind); } } function createUnparsedNode(section, parent) { var node = ts.createNode(mapBundleFileSectionKindToSyntaxKind(section.kind), section.pos, section.end); node.parent = parent; node.data = section.data; return node; } function createUnparsedSyntheticReference(section, parent) { var node = ts.createNode(289 /* UnparsedSyntheticReference */, section.pos, section.end); node.parent = parent; node.data = section.data; node.section = section; return node; } function createInputFiles(javascriptTextOrReadFileText, declarationTextOrJavascriptPath, javascriptMapPath, javascriptMapTextOrDeclarationPath, declarationMapPath, declarationMapTextOrBuildInfoPath, javascriptPath, declarationPath, buildInfoPath, buildInfo, oldFileOfCurrentEmit) { var node = ts.createNode(293 /* InputFiles */); if (!ts.isString(javascriptTextOrReadFileText)) { var cache_1 = ts.createMap(); var textGetter_1 = function (path) { if (path === undefined) return undefined; var value = cache_1.get(path); if (value === undefined) { value = javascriptTextOrReadFileText(path); cache_1.set(path, value !== undefined ? value : false); } return value !== false ? value : undefined; }; var definedTextGetter_1 = function (path) { var result = textGetter_1(path); return result !== undefined ? result : "/* Input file " + path + " was missing */\r\n"; }; var buildInfo_1; var getAndCacheBuildInfo_1 = function (getText) { if (buildInfo_1 === undefined) { var result = getText(); buildInfo_1 = result !== undefined ? ts.getBuildInfo(result) : false; } return buildInfo_1 || undefined; }; node.javascriptPath = declarationTextOrJavascriptPath; node.javascriptMapPath = javascriptMapPath; node.declarationPath = ts.Debug.checkDefined(javascriptMapTextOrDeclarationPath); node.declarationMapPath = declarationMapPath; node.buildInfoPath = declarationMapTextOrBuildInfoPath; Object.defineProperties(node, { javascriptText: { get: function () { return definedTextGetter_1(declarationTextOrJavascriptPath); } }, javascriptMapText: { get: function () { return textGetter_1(javascriptMapPath); } }, declarationText: { get: function () { return definedTextGetter_1(ts.Debug.checkDefined(javascriptMapTextOrDeclarationPath)); } }, declarationMapText: { get: function () { return textGetter_1(declarationMapPath); } }, buildInfo: { get: function () { return getAndCacheBuildInfo_1(function () { return textGetter_1(declarationMapTextOrBuildInfoPath); }); } } }); } else { node.javascriptText = javascriptTextOrReadFileText; node.javascriptMapPath = javascriptMapPath; node.javascriptMapText = javascriptMapTextOrDeclarationPath; node.declarationText = declarationTextOrJavascriptPath; node.declarationMapPath = declarationMapPath; node.declarationMapText = declarationMapTextOrBuildInfoPath; node.javascriptPath = javascriptPath; node.declarationPath = declarationPath; node.buildInfoPath = buildInfoPath; node.buildInfo = buildInfo; node.oldFileOfCurrentEmit = oldFileOfCurrentEmit; } return node; } ts.createInputFiles = createInputFiles; function updateBundle(node, sourceFiles, prepends) { if (prepends === void 0) { prepends = ts.emptyArray; } if (node.sourceFiles !== sourceFiles || node.prepends !== prepends) { return createBundle(sourceFiles, prepends); } return node; } ts.updateBundle = updateBundle; function createImmediatelyInvokedFunctionExpression(statements, param, paramValue) { return createCall(createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, /*parameters*/ param ? [param] : [], /*type*/ undefined, createBlock(statements, /*multiLine*/ true)), /*typeArguments*/ undefined, /*argumentsArray*/ paramValue ? [paramValue] : []); } ts.createImmediatelyInvokedFunctionExpression = createImmediatelyInvokedFunctionExpression; function createImmediatelyInvokedArrowFunction(statements, param, paramValue) { return createCall(createArrowFunction( /*modifiers*/ undefined, /*typeParameters*/ undefined, /*parameters*/ param ? [param] : [], /*type*/ undefined, /*equalsGreaterThanToken*/ undefined, createBlock(statements, /*multiLine*/ true)), /*typeArguments*/ undefined, /*argumentsArray*/ paramValue ? [paramValue] : []); } ts.createImmediatelyInvokedArrowFunction = createImmediatelyInvokedArrowFunction; function createComma(left, right) { return createBinary(left, 27 /* CommaToken */, right); } ts.createComma = createComma; function createLessThan(left, right) { return createBinary(left, 29 /* LessThanToken */, right); } ts.createLessThan = createLessThan; function createAssignment(left, right) { return createBinary(left, 62 /* EqualsToken */, right); } ts.createAssignment = createAssignment; function createStrictEquality(left, right) { return createBinary(left, 36 /* EqualsEqualsEqualsToken */, right); } ts.createStrictEquality = createStrictEquality; function createStrictInequality(left, right) { return createBinary(left, 37 /* ExclamationEqualsEqualsToken */, right); } ts.createStrictInequality = createStrictInequality; function createAdd(left, right) { return createBinary(left, 39 /* PlusToken */, right); } ts.createAdd = createAdd; function createSubtract(left, right) { return createBinary(left, 40 /* MinusToken */, right); } ts.createSubtract = createSubtract; function createPostfixIncrement(operand) { return createPostfix(operand, 45 /* PlusPlusToken */); } ts.createPostfixIncrement = createPostfixIncrement; function createLogicalAnd(left, right) { return createBinary(left, 55 /* AmpersandAmpersandToken */, right); } ts.createLogicalAnd = createLogicalAnd; function createLogicalOr(left, right) { return createBinary(left, 56 /* BarBarToken */, right); } ts.createLogicalOr = createLogicalOr; function createNullishCoalesce(left, right) { return createBinary(left, 60 /* QuestionQuestionToken */, right); } ts.createNullishCoalesce = createNullishCoalesce; function createLogicalNot(operand) { return createPrefix(53 /* ExclamationToken */, operand); } ts.createLogicalNot = createLogicalNot; function createVoidZero() { return createVoid(createLiteral(0)); } ts.createVoidZero = createVoidZero; function createExportDefault(expression) { return createExportAssignment(/*decorators*/ undefined, /*modifiers*/ undefined, /*isExportEquals*/ false, expression); } ts.createExportDefault = createExportDefault; function createExternalModuleExport(exportName) { return createExportDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, createNamedExports([createExportSpecifier(/*propertyName*/ undefined, exportName)])); } ts.createExternalModuleExport = createExternalModuleExport; // Utilities function asName(name) { return ts.isString(name) ? createIdentifier(name) : name; } function asExpression(value) { return typeof value === "string" ? createStringLiteral(value) : typeof value === "number" ? createNumericLiteral("" + value) : typeof value === "boolean" ? value ? createTrue() : createFalse() : value; } function asNodeArray(array) { return array ? createNodeArray(array) : undefined; } function asToken(value) { return typeof value === "number" ? createToken(value) : value; } function asEmbeddedStatement(statement) { return statement && ts.isNotEmittedStatement(statement) ? setTextRange(setOriginalNode(createEmptyStatement(), statement), statement) : statement; } /** * Clears any EmitNode entries from parse-tree nodes. * @param sourceFile A source file. */ function disposeEmitNodes(sourceFile) { // During transformation we may need to annotate a parse tree node with transient // transformation properties. As parse tree nodes live longer than transformation // nodes, we need to make sure we reclaim any memory allocated for custom ranges // from these nodes to ensure we do not hold onto entire subtrees just for position // information. We also need to reset these nodes to a pre-transformation state // for incremental parsing scenarios so that we do not impact later emit. sourceFile = ts.getSourceFileOfNode(ts.getParseTreeNode(sourceFile)); var emitNode = sourceFile && sourceFile.emitNode; var annotatedNodes = emitNode && emitNode.annotatedNodes; if (annotatedNodes) { for (var _i = 0, annotatedNodes_1 = annotatedNodes; _i < annotatedNodes_1.length; _i++) { var node = annotatedNodes_1[_i]; node.emitNode = undefined; } } } ts.disposeEmitNodes = disposeEmitNodes; /** * Associates a node with the current transformation, initializing * various transient transformation properties. */ /* @internal */ function getOrCreateEmitNode(node) { if (!node.emitNode) { if (ts.isParseTreeNode(node)) { // To avoid holding onto transformation artifacts, we keep track of any // parse tree node we are annotating. This allows us to clean them up after // all transformations have completed. if (node.kind === 290 /* SourceFile */) { return node.emitNode = { annotatedNodes: [node] }; } var sourceFile = ts.getSourceFileOfNode(ts.getParseTreeNode(ts.getSourceFileOfNode(node))); getOrCreateEmitNode(sourceFile).annotatedNodes.push(node); } node.emitNode = {}; } return node.emitNode; } ts.getOrCreateEmitNode = getOrCreateEmitNode; /** * Sets `EmitFlags.NoComments` on a node and removes any leading and trailing synthetic comments. * @internal */ function removeAllComments(node) { var emitNode = getOrCreateEmitNode(node); emitNode.flags |= 1536 /* NoComments */; emitNode.leadingComments = undefined; emitNode.trailingComments = undefined; return node; } ts.removeAllComments = removeAllComments; function setTextRange(range, location) { if (location) { range.pos = location.pos; range.end = location.end; } return range; } ts.setTextRange = setTextRange; /** * Sets flags that control emit behavior of a node. */ function setEmitFlags(node, emitFlags) { getOrCreateEmitNode(node).flags = emitFlags; return node; } ts.setEmitFlags = setEmitFlags; /** * Sets flags that control emit behavior of a node. */ /* @internal */ function addEmitFlags(node, emitFlags) { var emitNode = getOrCreateEmitNode(node); emitNode.flags = emitNode.flags | emitFlags; return node; } ts.addEmitFlags = addEmitFlags; /** * Gets a custom text range to use when emitting source maps. */ function getSourceMapRange(node) { var emitNode = node.emitNode; return (emitNode && emitNode.sourceMapRange) || node; } ts.getSourceMapRange = getSourceMapRange; /** * Sets a custom text range to use when emitting source maps. */ function setSourceMapRange(node, range) { getOrCreateEmitNode(node).sourceMapRange = range; return node; } ts.setSourceMapRange = setSourceMapRange; var SourceMapSource; /** * Create an external source map source file reference */ function createSourceMapSource(fileName, text, skipTrivia) { return new (SourceMapSource || (SourceMapSource = ts.objectAllocator.getSourceMapSourceConstructor()))(fileName, text, skipTrivia); } ts.createSourceMapSource = createSourceMapSource; /** * Gets the TextRange to use for source maps for a token of a node. */ function getTokenSourceMapRange(node, token) { var emitNode = node.emitNode; var tokenSourceMapRanges = emitNode && emitNode.tokenSourceMapRanges; return tokenSourceMapRanges && tokenSourceMapRanges[token]; } ts.getTokenSourceMapRange = getTokenSourceMapRange; /** * Sets the TextRange to use for source maps for a token of a node. */ function setTokenSourceMapRange(node, token, range) { var emitNode = getOrCreateEmitNode(node); var tokenSourceMapRanges = emitNode.tokenSourceMapRanges || (emitNode.tokenSourceMapRanges = []); tokenSourceMapRanges[token] = range; return node; } ts.setTokenSourceMapRange = setTokenSourceMapRange; /** * Gets a custom text range to use when emitting comments. */ /*@internal*/ function getStartsOnNewLine(node) { var emitNode = node.emitNode; return emitNode && emitNode.startsOnNewLine; } ts.getStartsOnNewLine = getStartsOnNewLine; /** * Sets a custom text range to use when emitting comments. */ /*@internal*/ function setStartsOnNewLine(node, newLine) { getOrCreateEmitNode(node).startsOnNewLine = newLine; return node; } ts.setStartsOnNewLine = setStartsOnNewLine; /** * Gets a custom text range to use when emitting comments. */ function getCommentRange(node) { var emitNode = node.emitNode; return (emitNode && emitNode.commentRange) || node; } ts.getCommentRange = getCommentRange; /** * Sets a custom text range to use when emitting comments. */ function setCommentRange(node, range) { getOrCreateEmitNode(node).commentRange = range; return node; } ts.setCommentRange = setCommentRange; function getSyntheticLeadingComments(node) { var emitNode = node.emitNode; return emitNode && emitNode.leadingComments; } ts.getSyntheticLeadingComments = getSyntheticLeadingComments; function setSyntheticLeadingComments(node, comments) { getOrCreateEmitNode(node).leadingComments = comments; return node; } ts.setSyntheticLeadingComments = setSyntheticLeadingComments; function addSyntheticLeadingComment(node, kind, text, hasTrailingNewLine) { return setSyntheticLeadingComments(node, ts.append(getSyntheticLeadingComments(node), { kind: kind, pos: -1, end: -1, hasTrailingNewLine: hasTrailingNewLine, text: text })); } ts.addSyntheticLeadingComment = addSyntheticLeadingComment; function getSyntheticTrailingComments(node) { var emitNode = node.emitNode; return emitNode && emitNode.trailingComments; } ts.getSyntheticTrailingComments = getSyntheticTrailingComments; function setSyntheticTrailingComments(node, comments) { getOrCreateEmitNode(node).trailingComments = comments; return node; } ts.setSyntheticTrailingComments = setSyntheticTrailingComments; function addSyntheticTrailingComment(node, kind, text, hasTrailingNewLine) { return setSyntheticTrailingComments(node, ts.append(getSyntheticTrailingComments(node), { kind: kind, pos: -1, end: -1, hasTrailingNewLine: hasTrailingNewLine, text: text })); } ts.addSyntheticTrailingComment = addSyntheticTrailingComment; function moveSyntheticComments(node, original) { setSyntheticLeadingComments(node, getSyntheticLeadingComments(original)); setSyntheticTrailingComments(node, getSyntheticTrailingComments(original)); var emit = getOrCreateEmitNode(original); emit.leadingComments = undefined; emit.trailingComments = undefined; return node; } ts.moveSyntheticComments = moveSyntheticComments; /** @internal */ function ignoreSourceNewlines(node) { getOrCreateEmitNode(node).flags |= 134217728 /* IgnoreSourceNewlines */; return node; } ts.ignoreSourceNewlines = ignoreSourceNewlines; /** * Gets the constant value to emit for an expression. */ function getConstantValue(node) { var emitNode = node.emitNode; return emitNode && emitNode.constantValue; } ts.getConstantValue = getConstantValue; /** * Sets the constant value to emit for an expression. */ function setConstantValue(node, value) { var emitNode = getOrCreateEmitNode(node); emitNode.constantValue = value; return node; } ts.setConstantValue = setConstantValue; /** * Adds an EmitHelper to a node. */ function addEmitHelper(node, helper) { var emitNode = getOrCreateEmitNode(node); emitNode.helpers = ts.append(emitNode.helpers, helper); return node; } ts.addEmitHelper = addEmitHelper; /** * Add EmitHelpers to a node. */ function addEmitHelpers(node, helpers) { if (ts.some(helpers)) { var emitNode = getOrCreateEmitNode(node); for (var _i = 0, helpers_1 = helpers; _i < helpers_1.length; _i++) { var helper = helpers_1[_i]; emitNode.helpers = ts.appendIfUnique(emitNode.helpers, helper); } } return node; } ts.addEmitHelpers = addEmitHelpers; /** * Removes an EmitHelper from a node. */ function removeEmitHelper(node, helper) { var emitNode = node.emitNode; if (emitNode) { var helpers = emitNode.helpers; if (helpers) { return ts.orderedRemoveItem(helpers, helper); } } return false; } ts.removeEmitHelper = removeEmitHelper; /** * Gets the EmitHelpers of a node. */ function getEmitHelpers(node) { var emitNode = node.emitNode; return emitNode && emitNode.helpers; } ts.getEmitHelpers = getEmitHelpers; /** * Moves matching emit helpers from a source node to a target node. */ function moveEmitHelpers(source, target, predicate) { var sourceEmitNode = source.emitNode; var sourceEmitHelpers = sourceEmitNode && sourceEmitNode.helpers; if (!ts.some(sourceEmitHelpers)) return; var targetEmitNode = getOrCreateEmitNode(target); var helpersRemoved = 0; for (var i = 0; i < sourceEmitHelpers.length; i++) { var helper = sourceEmitHelpers[i]; if (predicate(helper)) { helpersRemoved++; targetEmitNode.helpers = ts.appendIfUnique(targetEmitNode.helpers, helper); } else if (helpersRemoved > 0) { sourceEmitHelpers[i - helpersRemoved] = helper; } } if (helpersRemoved > 0) { sourceEmitHelpers.length -= helpersRemoved; } } ts.moveEmitHelpers = moveEmitHelpers; /* @internal */ function compareEmitHelpers(x, y) { if (x === y) return 0 /* EqualTo */; if (x.priority === y.priority) return 0 /* EqualTo */; if (x.priority === undefined) return 1 /* GreaterThan */; if (y.priority === undefined) return -1 /* LessThan */; return ts.compareValues(x.priority, y.priority); } ts.compareEmitHelpers = compareEmitHelpers; function setOriginalNode(node, original) { node.original = original; if (original) { var emitNode = original.emitNode; if (emitNode) node.emitNode = mergeEmitNode(emitNode, node.emitNode); } return node; } ts.setOriginalNode = setOriginalNode; function mergeEmitNode(sourceEmitNode, destEmitNode) { var flags = sourceEmitNode.flags, leadingComments = sourceEmitNode.leadingComments, trailingComments = sourceEmitNode.trailingComments, commentRange = sourceEmitNode.commentRange, sourceMapRange = sourceEmitNode.sourceMapRange, tokenSourceMapRanges = sourceEmitNode.tokenSourceMapRanges, constantValue = sourceEmitNode.constantValue, helpers = sourceEmitNode.helpers, startsOnNewLine = sourceEmitNode.startsOnNewLine; if (!destEmitNode) destEmitNode = {}; // We are using `.slice()` here in case `destEmitNode.leadingComments` is pushed to later. if (leadingComments) destEmitNode.leadingComments = ts.addRange(leadingComments.slice(), destEmitNode.leadingComments); if (trailingComments) destEmitNode.trailingComments = ts.addRange(trailingComments.slice(), destEmitNode.trailingComments); if (flags) destEmitNode.flags = flags; if (commentRange) destEmitNode.commentRange = commentRange; if (sourceMapRange) destEmitNode.sourceMapRange = sourceMapRange; if (tokenSourceMapRanges) destEmitNode.tokenSourceMapRanges = mergeTokenSourceMapRanges(tokenSourceMapRanges, destEmitNode.tokenSourceMapRanges); if (constantValue !== undefined) destEmitNode.constantValue = constantValue; if (helpers) destEmitNode.helpers = ts.addRange(destEmitNode.helpers, helpers); if (startsOnNewLine !== undefined) destEmitNode.startsOnNewLine = startsOnNewLine; return destEmitNode; } function mergeTokenSourceMapRanges(sourceRanges, destRanges) { if (!destRanges) destRanges = []; for (var key in sourceRanges) { destRanges[key] = sourceRanges[key]; } return destRanges; } })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { ts.nullTransformationContext = { enableEmitNotification: ts.noop, enableSubstitution: ts.noop, endLexicalEnvironment: ts.returnUndefined, getCompilerOptions: function () { return ({}); }, getEmitHost: ts.notImplemented, getEmitResolver: ts.notImplemented, setLexicalEnvironmentFlags: ts.noop, getLexicalEnvironmentFlags: function () { return 0; }, hoistFunctionDeclaration: ts.noop, hoistVariableDeclaration: ts.noop, addInitializationStatement: ts.noop, isEmitNotificationEnabled: ts.notImplemented, isSubstitutionEnabled: ts.notImplemented, onEmitNode: ts.noop, onSubstituteNode: ts.notImplemented, readEmitHelpers: ts.notImplemented, requestEmitHelper: ts.noop, resumeLexicalEnvironment: ts.noop, startLexicalEnvironment: ts.noop, suspendLexicalEnvironment: ts.noop, addDiagnostic: ts.noop, }; function createTypeCheck(value, tag) { return tag === "undefined" ? ts.createStrictEquality(value, ts.createVoidZero()) : ts.createStrictEquality(ts.createTypeOf(value), ts.createLiteral(tag)); } ts.createTypeCheck = createTypeCheck; function createMemberAccessForPropertyName(target, memberName, location) { if (ts.isComputedPropertyName(memberName)) { return ts.setTextRange(ts.createElementAccess(target, memberName.expression), location); } else { var expression = ts.setTextRange((ts.isIdentifier(memberName) || ts.isPrivateIdentifier(memberName)) ? ts.createPropertyAccess(target, memberName) : ts.createElementAccess(target, memberName), memberName); ts.getOrCreateEmitNode(expression).flags |= 64 /* NoNestedSourceMaps */; return expression; } } ts.createMemberAccessForPropertyName = createMemberAccessForPropertyName; function createFunctionCall(func, thisArg, argumentsList, location) { return ts.setTextRange(ts.createCall(ts.createPropertyAccess(func, "call"), /*typeArguments*/ undefined, __spreadArrays([ thisArg ], argumentsList)), location); } ts.createFunctionCall = createFunctionCall; function createFunctionApply(func, thisArg, argumentsExpression, location) { return ts.setTextRange(ts.createCall(ts.createPropertyAccess(func, "apply"), /*typeArguments*/ undefined, [ thisArg, argumentsExpression ]), location); } ts.createFunctionApply = createFunctionApply; function createArraySlice(array, start) { var argumentsList = []; if (start !== undefined) { argumentsList.push(typeof start === "number" ? ts.createLiteral(start) : start); } return ts.createCall(ts.createPropertyAccess(array, "slice"), /*typeArguments*/ undefined, argumentsList); } ts.createArraySlice = createArraySlice; function createArrayConcat(array, values) { return ts.createCall(ts.createPropertyAccess(array, "concat"), /*typeArguments*/ undefined, values); } ts.createArrayConcat = createArrayConcat; function createMathPow(left, right, location) { return ts.setTextRange(ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Math"), "pow"), /*typeArguments*/ undefined, [left, right]), location); } ts.createMathPow = createMathPow; function createReactNamespace(reactNamespace, parent) { // To ensure the emit resolver can properly resolve the namespace, we need to // treat this identifier as if it were a source tree node by clearing the `Synthesized` // flag and setting a parent node. var react = ts.createIdentifier(reactNamespace || "React"); react.flags &= ~8 /* Synthesized */; // Set the parent that is in parse tree // this makes sure that parent chain is intact for checker to traverse complete scope tree react.parent = ts.getParseTreeNode(parent); return react; } function createJsxFactoryExpressionFromEntityName(jsxFactory, parent) { if (ts.isQualifiedName(jsxFactory)) { var left = createJsxFactoryExpressionFromEntityName(jsxFactory.left, parent); var right = ts.createIdentifier(ts.idText(jsxFactory.right)); right.escapedText = jsxFactory.right.escapedText; return ts.createPropertyAccess(left, right); } else { return createReactNamespace(ts.idText(jsxFactory), parent); } } function createJsxFactoryExpression(jsxFactoryEntity, reactNamespace, parent) { return jsxFactoryEntity ? createJsxFactoryExpressionFromEntityName(jsxFactoryEntity, parent) : ts.createPropertyAccess(createReactNamespace(reactNamespace, parent), "createElement"); } function createExpressionForJsxElement(jsxFactoryEntity, reactNamespace, tagName, props, children, parentElement, location) { var argumentsList = [tagName]; if (props) { argumentsList.push(props); } if (children && children.length > 0) { if (!props) { argumentsList.push(ts.createNull()); } if (children.length > 1) { for (var _i = 0, children_2 = children; _i < children_2.length; _i++) { var child = children_2[_i]; startOnNewLine(child); argumentsList.push(child); } } else { argumentsList.push(children[0]); } } return ts.setTextRange(ts.createCall(createJsxFactoryExpression(jsxFactoryEntity, reactNamespace, parentElement), /*typeArguments*/ undefined, argumentsList), location); } ts.createExpressionForJsxElement = createExpressionForJsxElement; function createExpressionForJsxFragment(jsxFactoryEntity, reactNamespace, children, parentElement, location) { var tagName = ts.createPropertyAccess(createReactNamespace(reactNamespace, parentElement), "Fragment"); var argumentsList = [tagName]; argumentsList.push(ts.createNull()); if (children && children.length > 0) { if (children.length > 1) { for (var _i = 0, children_3 = children; _i < children_3.length; _i++) { var child = children_3[_i]; startOnNewLine(child); argumentsList.push(child); } } else { argumentsList.push(children[0]); } } return ts.setTextRange(ts.createCall(createJsxFactoryExpression(jsxFactoryEntity, reactNamespace, parentElement), /*typeArguments*/ undefined, argumentsList), location); } ts.createExpressionForJsxFragment = createExpressionForJsxFragment; // Helpers /** * Gets an identifier for the name of an *unscoped* emit helper. */ function getUnscopedHelperName(name) { return ts.setEmitFlags(ts.createIdentifier(name), 4096 /* HelperName */ | 2 /* AdviseOnEmitNode */); } ts.getUnscopedHelperName = getUnscopedHelperName; ts.valuesHelper = { name: "typescript:values", importName: "__values", scoped: false, text: "\n var __values = (this && this.__values) || function(o) {\n var s = typeof Symbol === \"function\" && Symbol.iterator, m = s && o[s], i = 0;\n if (m) return m.call(o);\n if (o && typeof o.length === \"number\") return {\n next: function () {\n if (o && i >= o.length) o = void 0;\n return { value: o && o[i++], done: !o };\n }\n };\n throw new TypeError(s ? \"Object is not iterable.\" : \"Symbol.iterator is not defined.\");\n };" }; function createValuesHelper(context, expression, location) { context.requestEmitHelper(ts.valuesHelper); return ts.setTextRange(ts.createCall(getUnscopedHelperName("__values"), /*typeArguments*/ undefined, [expression]), location); } ts.createValuesHelper = createValuesHelper; ts.readHelper = { name: "typescript:read", importName: "__read", scoped: false, text: "\n var __read = (this && this.__read) || function (o, n) {\n var m = typeof Symbol === \"function\" && o[Symbol.iterator];\n if (!m) return o;\n var i = m.call(o), r, ar = [], e;\n try {\n while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value);\n }\n catch (error) { e = { error: error }; }\n finally {\n try {\n if (r && !r.done && (m = i[\"return\"])) m.call(i);\n }\n finally { if (e) throw e.error; }\n }\n return ar;\n };" }; function createReadHelper(context, iteratorRecord, count, location) { context.requestEmitHelper(ts.readHelper); return ts.setTextRange(ts.createCall(getUnscopedHelperName("__read"), /*typeArguments*/ undefined, count !== undefined ? [iteratorRecord, ts.createLiteral(count)] : [iteratorRecord]), location); } ts.createReadHelper = createReadHelper; ts.spreadHelper = { name: "typescript:spread", importName: "__spread", scoped: false, dependencies: [ts.readHelper], text: "\n var __spread = (this && this.__spread) || function () {\n for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i]));\n return ar;\n };" }; function createSpreadHelper(context, argumentList, location) { context.requestEmitHelper(ts.spreadHelper); return ts.setTextRange(ts.createCall(getUnscopedHelperName("__spread"), /*typeArguments*/ undefined, argumentList), location); } ts.createSpreadHelper = createSpreadHelper; ts.spreadArraysHelper = { name: "typescript:spreadArrays", importName: "__spreadArrays", scoped: false, text: "\n var __spreadArrays = (this && this.__spreadArrays) || function () {\n for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length;\n for (var r = Array(s), k = 0, i = 0; i < il; i++)\n for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++)\n r[k] = a[j];\n return r;\n };" }; function createSpreadArraysHelper(context, argumentList, location) { context.requestEmitHelper(ts.spreadArraysHelper); return ts.setTextRange(ts.createCall(getUnscopedHelperName("__spreadArrays"), /*typeArguments*/ undefined, argumentList), location); } ts.createSpreadArraysHelper = createSpreadArraysHelper; // Utilities function createForOfBindingStatement(node, boundValue) { if (ts.isVariableDeclarationList(node)) { var firstDeclaration = ts.first(node.declarations); var updatedDeclaration = ts.updateVariableDeclaration(firstDeclaration, firstDeclaration.name, /*typeNode*/ undefined, boundValue); return ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.updateVariableDeclarationList(node, [updatedDeclaration])), /*location*/ node); } else { var updatedExpression = ts.setTextRange(ts.createAssignment(node, boundValue), /*location*/ node); return ts.setTextRange(ts.createStatement(updatedExpression), /*location*/ node); } } ts.createForOfBindingStatement = createForOfBindingStatement; function insertLeadingStatement(dest, source) { if (ts.isBlock(dest)) { return ts.updateBlock(dest, ts.setTextRange(ts.createNodeArray(__spreadArrays([source], dest.statements)), dest.statements)); } else { return ts.createBlock(ts.createNodeArray([dest, source]), /*multiLine*/ true); } } ts.insertLeadingStatement = insertLeadingStatement; function restoreEnclosingLabel(node, outermostLabeledStatement, afterRestoreLabelCallback) { if (!outermostLabeledStatement) { return node; } var updated = ts.updateLabel(outermostLabeledStatement, outermostLabeledStatement.label, outermostLabeledStatement.statement.kind === 238 /* LabeledStatement */ ? restoreEnclosingLabel(node, outermostLabeledStatement.statement) : node); if (afterRestoreLabelCallback) { afterRestoreLabelCallback(outermostLabeledStatement); } return updated; } ts.restoreEnclosingLabel = restoreEnclosingLabel; function shouldBeCapturedInTempVariable(node, cacheIdentifiers) { var target = ts.skipParentheses(node); switch (target.kind) { case 75 /* Identifier */: return cacheIdentifiers; case 104 /* ThisKeyword */: case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: case 10 /* StringLiteral */: return false; case 192 /* ArrayLiteralExpression */: var elements = target.elements; if (elements.length === 0) { return false; } return true; case 193 /* ObjectLiteralExpression */: return target.properties.length > 0; default: return true; } } function createCallBinding(expression, recordTempVariable, languageVersion, cacheIdentifiers) { if (cacheIdentifiers === void 0) { cacheIdentifiers = false; } var callee = skipOuterExpressions(expression, 15 /* All */); var thisArg; var target; if (ts.isSuperProperty(callee)) { thisArg = ts.createThis(); target = callee; } else if (callee.kind === 102 /* SuperKeyword */) { thisArg = ts.createThis(); target = languageVersion < 2 /* ES2015 */ ? ts.setTextRange(ts.createIdentifier("_super"), callee) : callee; } else if (ts.getEmitFlags(callee) & 4096 /* HelperName */) { thisArg = ts.createVoidZero(); target = parenthesizeForAccess(callee); } else { switch (callee.kind) { case 194 /* PropertyAccessExpression */: { if (shouldBeCapturedInTempVariable(callee.expression, cacheIdentifiers)) { // for `a.b()` target is `(_a = a).b` and thisArg is `_a` thisArg = ts.createTempVariable(recordTempVariable); target = ts.createPropertyAccess(ts.setTextRange(ts.createAssignment(thisArg, callee.expression), callee.expression), callee.name); ts.setTextRange(target, callee); } else { thisArg = callee.expression; target = callee; } break; } case 195 /* ElementAccessExpression */: { if (shouldBeCapturedInTempVariable(callee.expression, cacheIdentifiers)) { // for `a[b]()` target is `(_a = a)[b]` and thisArg is `_a` thisArg = ts.createTempVariable(recordTempVariable); target = ts.createElementAccess(ts.setTextRange(ts.createAssignment(thisArg, callee.expression), callee.expression), callee.argumentExpression); ts.setTextRange(target, callee); } else { thisArg = callee.expression; target = callee; } break; } default: { // for `a()` target is `a` and thisArg is `void 0` thisArg = ts.createVoidZero(); target = parenthesizeForAccess(expression); break; } } } return { target: target, thisArg: thisArg }; } ts.createCallBinding = createCallBinding; function inlineExpressions(expressions) { // Avoid deeply nested comma expressions as traversing them during emit can result in "Maximum call // stack size exceeded" errors. return expressions.length > 10 ? ts.createCommaList(expressions) : ts.reduceLeft(expressions, ts.createComma); } ts.inlineExpressions = inlineExpressions; function createExpressionFromEntityName(node) { if (ts.isQualifiedName(node)) { var left = createExpressionFromEntityName(node.left); var right = ts.getMutableClone(node.right); return ts.setTextRange(ts.createPropertyAccess(left, right), node); } else { return ts.getMutableClone(node); } } ts.createExpressionFromEntityName = createExpressionFromEntityName; function createExpressionForPropertyName(memberName) { if (ts.isIdentifier(memberName)) { return ts.createLiteral(memberName); } else if (ts.isComputedPropertyName(memberName)) { return ts.getMutableClone(memberName.expression); } else { return ts.getMutableClone(memberName); } } ts.createExpressionForPropertyName = createExpressionForPropertyName; function createExpressionForObjectLiteralElementLike(node, property, receiver) { if (property.name && ts.isPrivateIdentifier(property.name)) { ts.Debug.failBadSyntaxKind(property.name, "Private identifiers are not allowed in object literals."); } switch (property.kind) { case 163 /* GetAccessor */: case 164 /* SetAccessor */: return createExpressionForAccessorDeclaration(node.properties, property, receiver, !!node.multiLine); case 281 /* PropertyAssignment */: return createExpressionForPropertyAssignment(property, receiver); case 282 /* ShorthandPropertyAssignment */: return createExpressionForShorthandPropertyAssignment(property, receiver); case 161 /* MethodDeclaration */: return createExpressionForMethodDeclaration(property, receiver); } } ts.createExpressionForObjectLiteralElementLike = createExpressionForObjectLiteralElementLike; function createExpressionForAccessorDeclaration(properties, property, receiver, multiLine) { var _a = ts.getAllAccessorDeclarations(properties, property), firstAccessor = _a.firstAccessor, getAccessor = _a.getAccessor, setAccessor = _a.setAccessor; if (property === firstAccessor) { var properties_7 = []; if (getAccessor) { var getterFunction = ts.createFunctionExpression(getAccessor.modifiers, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, getAccessor.parameters, /*type*/ undefined, getAccessor.body // TODO: GH#18217 ); ts.setTextRange(getterFunction, getAccessor); ts.setOriginalNode(getterFunction, getAccessor); var getter = ts.createPropertyAssignment("get", getterFunction); properties_7.push(getter); } if (setAccessor) { var setterFunction = ts.createFunctionExpression(setAccessor.modifiers, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, setAccessor.parameters, /*type*/ undefined, setAccessor.body // TODO: GH#18217 ); ts.setTextRange(setterFunction, setAccessor); ts.setOriginalNode(setterFunction, setAccessor); var setter = ts.createPropertyAssignment("set", setterFunction); properties_7.push(setter); } properties_7.push(ts.createPropertyAssignment("enumerable", getAccessor || setAccessor ? ts.createFalse() : ts.createTrue())); properties_7.push(ts.createPropertyAssignment("configurable", ts.createTrue())); var expression = ts.setTextRange(ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Object"), "defineProperty"), /*typeArguments*/ undefined, [ receiver, createExpressionForPropertyName(property.name), ts.createObjectLiteral(properties_7, multiLine) ]), /*location*/ firstAccessor); return ts.aggregateTransformFlags(expression); } return undefined; } function createExpressionForPropertyAssignment(property, receiver) { return ts.aggregateTransformFlags(ts.setOriginalNode(ts.setTextRange(ts.createAssignment(createMemberAccessForPropertyName(receiver, property.name, /*location*/ property.name), property.initializer), property), property)); } function createExpressionForShorthandPropertyAssignment(property, receiver) { return ts.aggregateTransformFlags(ts.setOriginalNode(ts.setTextRange(ts.createAssignment(createMemberAccessForPropertyName(receiver, property.name, /*location*/ property.name), ts.getSynthesizedClone(property.name)), /*location*/ property), /*original*/ property)); } function createExpressionForMethodDeclaration(method, receiver) { return ts.aggregateTransformFlags(ts.setOriginalNode(ts.setTextRange(ts.createAssignment(createMemberAccessForPropertyName(receiver, method.name, /*location*/ method.name), ts.setOriginalNode(ts.setTextRange(ts.createFunctionExpression(method.modifiers, method.asteriskToken, /*name*/ undefined, /*typeParameters*/ undefined, method.parameters, /*type*/ undefined, method.body // TODO: GH#18217 ), /*location*/ method), /*original*/ method)), /*location*/ method), /*original*/ method)); } /** * Gets the internal name of a declaration. This is primarily used for declarations that can be * referred to by name in the body of an ES5 class function body. An internal name will *never* * be prefixed with an module or namespace export modifier like "exports." when emitted as an * expression. An internal name will also *never* be renamed due to a collision with a block * scoped variable. * * @param node The declaration. * @param allowComments A value indicating whether comments may be emitted for the name. * @param allowSourceMaps A value indicating whether source maps may be emitted for the name. */ function getInternalName(node, allowComments, allowSourceMaps) { return getName(node, allowComments, allowSourceMaps, 16384 /* LocalName */ | 32768 /* InternalName */); } ts.getInternalName = getInternalName; /** * Gets whether an identifier should only be referred to by its internal name. */ function isInternalName(node) { return (ts.getEmitFlags(node) & 32768 /* InternalName */) !== 0; } ts.isInternalName = isInternalName; /** * Gets the local name of a declaration. This is primarily used for declarations that can be * referred to by name in the declaration's immediate scope (classes, enums, namespaces). A * local name will *never* be prefixed with an module or namespace export modifier like * "exports." when emitted as an expression. * * @param node The declaration. * @param allowComments A value indicating whether comments may be emitted for the name. * @param allowSourceMaps A value indicating whether source maps may be emitted for the name. */ function getLocalName(node, allowComments, allowSourceMaps) { return getName(node, allowComments, allowSourceMaps, 16384 /* LocalName */); } ts.getLocalName = getLocalName; /** * Gets whether an identifier should only be referred to by its local name. */ function isLocalName(node) { return (ts.getEmitFlags(node) & 16384 /* LocalName */) !== 0; } ts.isLocalName = isLocalName; /** * Gets the export name of a declaration. This is primarily used for declarations that can be * referred to by name in the declaration's immediate scope (classes, enums, namespaces). An * export name will *always* be prefixed with an module or namespace export modifier like * `"exports."` when emitted as an expression if the name points to an exported symbol. * * @param node The declaration. * @param allowComments A value indicating whether comments may be emitted for the name. * @param allowSourceMaps A value indicating whether source maps may be emitted for the name. */ function getExportName(node, allowComments, allowSourceMaps) { return getName(node, allowComments, allowSourceMaps, 8192 /* ExportName */); } ts.getExportName = getExportName; /** * Gets whether an identifier should only be referred to by its export representation if the * name points to an exported symbol. */ function isExportName(node) { return (ts.getEmitFlags(node) & 8192 /* ExportName */) !== 0; } ts.isExportName = isExportName; /** * Gets the name of a declaration for use in declarations. * * @param node The declaration. * @param allowComments A value indicating whether comments may be emitted for the name. * @param allowSourceMaps A value indicating whether source maps may be emitted for the name. */ function getDeclarationName(node, allowComments, allowSourceMaps) { return getName(node, allowComments, allowSourceMaps); } ts.getDeclarationName = getDeclarationName; function getName(node, allowComments, allowSourceMaps, emitFlags) { if (emitFlags === void 0) { emitFlags = 0; } var nodeName = ts.getNameOfDeclaration(node); if (nodeName && ts.isIdentifier(nodeName) && !ts.isGeneratedIdentifier(nodeName)) { var name = ts.getMutableClone(nodeName); emitFlags |= ts.getEmitFlags(nodeName); if (!allowSourceMaps) emitFlags |= 48 /* NoSourceMap */; if (!allowComments) emitFlags |= 1536 /* NoComments */; if (emitFlags) ts.setEmitFlags(name, emitFlags); return name; } return ts.getGeneratedNameForNode(node); } /** * Gets the exported name of a declaration for use in expressions. * * An exported name will *always* be prefixed with an module or namespace export modifier like * "exports." if the name points to an exported symbol. * * @param ns The namespace identifier. * @param node The declaration. * @param allowComments A value indicating whether comments may be emitted for the name. * @param allowSourceMaps A value indicating whether source maps may be emitted for the name. */ function getExternalModuleOrNamespaceExportName(ns, node, allowComments, allowSourceMaps) { if (ns && ts.hasModifier(node, 1 /* Export */)) { return getNamespaceMemberName(ns, getName(node), allowComments, allowSourceMaps); } return getExportName(node, allowComments, allowSourceMaps); } ts.getExternalModuleOrNamespaceExportName = getExternalModuleOrNamespaceExportName; /** * Gets a namespace-qualified name for use in expressions. * * @param ns The namespace identifier. * @param name The name. * @param allowComments A value indicating whether comments may be emitted for the name. * @param allowSourceMaps A value indicating whether source maps may be emitted for the name. */ function getNamespaceMemberName(ns, name, allowComments, allowSourceMaps) { var qualifiedName = ts.createPropertyAccess(ns, ts.nodeIsSynthesized(name) ? name : ts.getSynthesizedClone(name)); ts.setTextRange(qualifiedName, name); var emitFlags = 0; if (!allowSourceMaps) emitFlags |= 48 /* NoSourceMap */; if (!allowComments) emitFlags |= 1536 /* NoComments */; if (emitFlags) ts.setEmitFlags(qualifiedName, emitFlags); return qualifiedName; } ts.getNamespaceMemberName = getNamespaceMemberName; function convertToFunctionBody(node, multiLine) { return ts.isBlock(node) ? node : ts.setTextRange(ts.createBlock([ts.setTextRange(ts.createReturn(node), node)], multiLine), node); } ts.convertToFunctionBody = convertToFunctionBody; function convertFunctionDeclarationToExpression(node) { if (!node.body) return ts.Debug.fail(); var updated = ts.createFunctionExpression(node.modifiers, node.asteriskToken, node.name, node.typeParameters, node.parameters, node.type, node.body); ts.setOriginalNode(updated, node); ts.setTextRange(updated, node); if (ts.getStartsOnNewLine(node)) { ts.setStartsOnNewLine(updated, /*newLine*/ true); } ts.aggregateTransformFlags(updated); return updated; } ts.convertFunctionDeclarationToExpression = convertFunctionDeclarationToExpression; function isUseStrictPrologue(node) { return ts.isStringLiteral(node.expression) && node.expression.text === "use strict"; } /** * Add any necessary prologue-directives into target statement-array. * The function needs to be called during each transformation step. * This function needs to be called whenever we transform the statement * list of a source file, namespace, or function-like body. * * @param target: result statements array * @param source: origin statements array * @param ensureUseStrict: boolean determining whether the function need to add prologue-directives * @param visitor: Optional callback used to visit any custom prologue directives. */ function addPrologue(target, source, ensureUseStrict, visitor) { var offset = addStandardPrologue(target, source, ensureUseStrict); return addCustomPrologue(target, source, offset, visitor); } ts.addPrologue = addPrologue; /** * Add just the standard (string-expression) prologue-directives into target statement-array. * The function needs to be called during each transformation step. * This function needs to be called whenever we transform the statement * list of a source file, namespace, or function-like body. */ function addStandardPrologue(target, source, ensureUseStrict) { ts.Debug.assert(target.length === 0, "Prologue directives should be at the first statement in the target statements array"); var foundUseStrict = false; var statementOffset = 0; var numStatements = source.length; while (statementOffset < numStatements) { var statement = source[statementOffset]; if (ts.isPrologueDirective(statement)) { if (isUseStrictPrologue(statement)) { foundUseStrict = true; } target.push(statement); } else { break; } statementOffset++; } if (ensureUseStrict && !foundUseStrict) { target.push(startOnNewLine(ts.createStatement(ts.createLiteral("use strict")))); } return statementOffset; } ts.addStandardPrologue = addStandardPrologue; function addCustomPrologue(target, source, statementOffset, visitor, filter) { if (filter === void 0) { filter = ts.returnTrue; } var numStatements = source.length; while (statementOffset !== undefined && statementOffset < numStatements) { var statement = source[statementOffset]; if (ts.getEmitFlags(statement) & 1048576 /* CustomPrologue */ && filter(statement)) { ts.append(target, visitor ? ts.visitNode(statement, visitor, ts.isStatement) : statement); } else { break; } statementOffset++; } return statementOffset; } ts.addCustomPrologue = addCustomPrologue; function findUseStrictPrologue(statements) { for (var _i = 0, statements_4 = statements; _i < statements_4.length; _i++) { var statement = statements_4[_i]; if (ts.isPrologueDirective(statement)) { if (isUseStrictPrologue(statement)) { return statement; } } else { break; } } return undefined; } ts.findUseStrictPrologue = findUseStrictPrologue; function startsWithUseStrict(statements) { var firstStatement = ts.firstOrUndefined(statements); return firstStatement !== undefined && ts.isPrologueDirective(firstStatement) && isUseStrictPrologue(firstStatement); } ts.startsWithUseStrict = startsWithUseStrict; /** * Ensures "use strict" directive is added * * @param statements An array of statements */ function ensureUseStrict(statements) { var foundUseStrict = findUseStrictPrologue(statements); if (!foundUseStrict) { return ts.setTextRange(ts.createNodeArray(__spreadArrays([ startOnNewLine(ts.createStatement(ts.createLiteral("use strict"))) ], statements)), statements); } return statements; } ts.ensureUseStrict = ensureUseStrict; /** * Wraps the operand to a BinaryExpression in parentheses if they are needed to preserve the intended * order of operations. * * @param binaryOperator The operator for the BinaryExpression. * @param operand The operand for the BinaryExpression. * @param isLeftSideOfBinary A value indicating whether the operand is the left side of the * BinaryExpression. */ function parenthesizeBinaryOperand(binaryOperator, operand, isLeftSideOfBinary, leftOperand) { var skipped = ts.skipPartiallyEmittedExpressions(operand); // If the resulting expression is already parenthesized, we do not need to do any further processing. if (skipped.kind === 200 /* ParenthesizedExpression */) { return operand; } return binaryOperandNeedsParentheses(binaryOperator, operand, isLeftSideOfBinary, leftOperand) ? ts.createParen(operand) : operand; } ts.parenthesizeBinaryOperand = parenthesizeBinaryOperand; /** * Determines whether the operand to a BinaryExpression needs to be parenthesized. * * @param binaryOperator The operator for the BinaryExpression. * @param operand The operand for the BinaryExpression. * @param isLeftSideOfBinary A value indicating whether the operand is the left side of the * BinaryExpression. */ function binaryOperandNeedsParentheses(binaryOperator, operand, isLeftSideOfBinary, leftOperand) { // If the operand has lower precedence, then it needs to be parenthesized to preserve the // intent of the expression. For example, if the operand is `a + b` and the operator is // `*`, then we need to parenthesize the operand to preserve the intended order of // operations: `(a + b) * x`. // // If the operand has higher precedence, then it does not need to be parenthesized. For // example, if the operand is `a * b` and the operator is `+`, then we do not need to // parenthesize to preserve the intended order of operations: `a * b + x`. // // If the operand has the same precedence, then we need to check the associativity of // the operator based on whether this is the left or right operand of the expression. // // For example, if `a / d` is on the right of operator `*`, we need to parenthesize // to preserve the intended order of operations: `x * (a / d)` // // If `a ** d` is on the left of operator `**`, we need to parenthesize to preserve // the intended order of operations: `(a ** b) ** c` var binaryOperatorPrecedence = ts.getOperatorPrecedence(209 /* BinaryExpression */, binaryOperator); var binaryOperatorAssociativity = ts.getOperatorAssociativity(209 /* BinaryExpression */, binaryOperator); var emittedOperand = ts.skipPartiallyEmittedExpressions(operand); if (!isLeftSideOfBinary && operand.kind === 202 /* ArrowFunction */ && binaryOperatorPrecedence > 3) { // We need to parenthesize arrow functions on the right side to avoid it being // parsed as parenthesized expression: `a && (() => {})` return true; } var operandPrecedence = ts.getExpressionPrecedence(emittedOperand); switch (ts.compareValues(operandPrecedence, binaryOperatorPrecedence)) { case -1 /* LessThan */: // If the operand is the right side of a right-associative binary operation // and is a yield expression, then we do not need parentheses. if (!isLeftSideOfBinary && binaryOperatorAssociativity === 1 /* Right */ && operand.kind === 212 /* YieldExpression */) { return false; } return true; case 1 /* GreaterThan */: return false; case 0 /* EqualTo */: if (isLeftSideOfBinary) { // No need to parenthesize the left operand when the binary operator is // left associative: // (a*b)/x -> a*b/x // (a**b)/x -> a**b/x // // Parentheses are needed for the left operand when the binary operator is // right associative: // (a/b)**x -> (a/b)**x // (a**b)**x -> (a**b)**x return binaryOperatorAssociativity === 1 /* Right */; } else { if (ts.isBinaryExpression(emittedOperand) && emittedOperand.operatorToken.kind === binaryOperator) { // No need to parenthesize the right operand when the binary operator and // operand are the same and one of the following: // x*(a*b) => x*a*b // x|(a|b) => x|a|b // x&(a&b) => x&a&b // x^(a^b) => x^a^b if (operatorHasAssociativeProperty(binaryOperator)) { return false; } // No need to parenthesize the right operand when the binary operator // is plus (+) if both the left and right operands consist solely of either // literals of the same kind or binary plus (+) expressions for literals of // the same kind (recursively). // "a"+(1+2) => "a"+(1+2) // "a"+("b"+"c") => "a"+"b"+"c" if (binaryOperator === 39 /* PlusToken */) { var leftKind = leftOperand ? getLiteralKindOfBinaryPlusOperand(leftOperand) : 0 /* Unknown */; if (ts.isLiteralKind(leftKind) && leftKind === getLiteralKindOfBinaryPlusOperand(emittedOperand)) { return false; } } } // No need to parenthesize the right operand when the operand is right // associative: // x/(a**b) -> x/a**b // x**(a**b) -> x**a**b // // Parentheses are needed for the right operand when the operand is left // associative: // x/(a*b) -> x/(a*b) // x**(a/b) -> x**(a/b) var operandAssociativity = ts.getExpressionAssociativity(emittedOperand); return operandAssociativity === 0 /* Left */; } } } /** * Determines whether a binary operator is mathematically associative. * * @param binaryOperator The binary operator. */ function operatorHasAssociativeProperty(binaryOperator) { // The following operators are associative in JavaScript: // (a*b)*c -> a*(b*c) -> a*b*c // (a|b)|c -> a|(b|c) -> a|b|c // (a&b)&c -> a&(b&c) -> a&b&c // (a^b)^c -> a^(b^c) -> a^b^c // // While addition is associative in mathematics, JavaScript's `+` is not // guaranteed to be associative as it is overloaded with string concatenation. return binaryOperator === 41 /* AsteriskToken */ || binaryOperator === 51 /* BarToken */ || binaryOperator === 50 /* AmpersandToken */ || binaryOperator === 52 /* CaretToken */; } /** * This function determines whether an expression consists of a homogeneous set of * literal expressions or binary plus expressions that all share the same literal kind. * It is used to determine whether the right-hand operand of a binary plus expression can be * emitted without parentheses. */ function getLiteralKindOfBinaryPlusOperand(node) { node = ts.skipPartiallyEmittedExpressions(node); if (ts.isLiteralKind(node.kind)) { return node.kind; } if (node.kind === 209 /* BinaryExpression */ && node.operatorToken.kind === 39 /* PlusToken */) { if (node.cachedLiteralKind !== undefined) { return node.cachedLiteralKind; } var leftKind = getLiteralKindOfBinaryPlusOperand(node.left); var literalKind = ts.isLiteralKind(leftKind) && leftKind === getLiteralKindOfBinaryPlusOperand(node.right) ? leftKind : 0 /* Unknown */; node.cachedLiteralKind = literalKind; return literalKind; } return 0 /* Unknown */; } function parenthesizeForConditionalHead(condition) { var conditionalPrecedence = ts.getOperatorPrecedence(210 /* ConditionalExpression */, 57 /* QuestionToken */); var emittedCondition = ts.skipPartiallyEmittedExpressions(condition); var conditionPrecedence = ts.getExpressionPrecedence(emittedCondition); if (ts.compareValues(conditionPrecedence, conditionalPrecedence) !== 1 /* GreaterThan */) { return ts.createParen(condition); } return condition; } ts.parenthesizeForConditionalHead = parenthesizeForConditionalHead; function parenthesizeSubexpressionOfConditionalExpression(e) { // per ES grammar both 'whenTrue' and 'whenFalse' parts of conditional expression are assignment expressions // so in case when comma expression is introduced as a part of previous transformations // if should be wrapped in parens since comma operator has the lowest precedence var emittedExpression = ts.skipPartiallyEmittedExpressions(e); return isCommaSequence(emittedExpression) ? ts.createParen(e) : e; } ts.parenthesizeSubexpressionOfConditionalExpression = parenthesizeSubexpressionOfConditionalExpression; /** * [Per the spec](https://tc39.github.io/ecma262/#prod-ExportDeclaration), `export default` accepts _AssigmentExpression_ but * has a lookahead restriction for `function`, `async function`, and `class`. * * Basically, that means we need to parenthesize in the following cases: * * - BinaryExpression of CommaToken * - CommaList (synthetic list of multiple comma expressions) * - FunctionExpression * - ClassExpression */ function parenthesizeDefaultExpression(e) { var check = ts.skipPartiallyEmittedExpressions(e); var needsParens = isCommaSequence(check); if (!needsParens) { switch (getLeftmostExpression(check, /*stopAtCallExpression*/ false).kind) { case 214 /* ClassExpression */: case 201 /* FunctionExpression */: needsParens = true; } } return needsParens ? ts.createParen(e) : e; } ts.parenthesizeDefaultExpression = parenthesizeDefaultExpression; /** * Wraps an expression in parentheses if it is needed in order to use the expression * as the expression of a NewExpression node. * * @param expression The Expression node. */ function parenthesizeForNew(expression) { var leftmostExpr = getLeftmostExpression(expression, /*stopAtCallExpressions*/ true); switch (leftmostExpr.kind) { case 196 /* CallExpression */: return ts.createParen(expression); case 197 /* NewExpression */: return !leftmostExpr.arguments ? ts.createParen(expression) : expression; } return parenthesizeForAccess(expression); } ts.parenthesizeForNew = parenthesizeForNew; /** * Wraps an expression in parentheses if it is needed in order to use the expression for * property or element access. * * @param expr The expression node. */ function parenthesizeForAccess(expression) { // isLeftHandSideExpression is almost the correct criterion for when it is not necessary // to parenthesize the expression before a dot. The known exception is: // // NewExpression: // new C.x -> not the same as (new C).x // var emittedExpression = ts.skipPartiallyEmittedExpressions(expression); if (ts.isLeftHandSideExpression(emittedExpression) && (emittedExpression.kind !== 197 /* NewExpression */ || emittedExpression.arguments)) { return expression; } return ts.setTextRange(ts.createParen(expression), expression); } ts.parenthesizeForAccess = parenthesizeForAccess; function parenthesizePostfixOperand(operand) { return ts.isLeftHandSideExpression(operand) ? operand : ts.setTextRange(ts.createParen(operand), operand); } ts.parenthesizePostfixOperand = parenthesizePostfixOperand; function parenthesizePrefixOperand(operand) { return ts.isUnaryExpression(operand) ? operand : ts.setTextRange(ts.createParen(operand), operand); } ts.parenthesizePrefixOperand = parenthesizePrefixOperand; function parenthesizeListElements(elements) { var result; for (var i = 0; i < elements.length; i++) { var element = parenthesizeExpressionForList(elements[i]); if (result !== undefined || element !== elements[i]) { if (result === undefined) { result = elements.slice(0, i); } result.push(element); } } if (result !== undefined) { return ts.setTextRange(ts.createNodeArray(result, elements.hasTrailingComma), elements); } return elements; } ts.parenthesizeListElements = parenthesizeListElements; function parenthesizeExpressionForList(expression) { var emittedExpression = ts.skipPartiallyEmittedExpressions(expression); var expressionPrecedence = ts.getExpressionPrecedence(emittedExpression); var commaPrecedence = ts.getOperatorPrecedence(209 /* BinaryExpression */, 27 /* CommaToken */); return expressionPrecedence > commaPrecedence ? expression : ts.setTextRange(ts.createParen(expression), expression); } ts.parenthesizeExpressionForList = parenthesizeExpressionForList; function parenthesizeExpressionForExpressionStatement(expression) { var emittedExpression = ts.skipPartiallyEmittedExpressions(expression); if (ts.isCallExpression(emittedExpression)) { var callee = emittedExpression.expression; var kind = ts.skipPartiallyEmittedExpressions(callee).kind; if (kind === 201 /* FunctionExpression */ || kind === 202 /* ArrowFunction */) { var mutableCall = ts.getMutableClone(emittedExpression); mutableCall.expression = ts.setTextRange(ts.createParen(callee), callee); return recreateOuterExpressions(expression, mutableCall, 8 /* PartiallyEmittedExpressions */); } } var leftmostExpressionKind = getLeftmostExpression(emittedExpression, /*stopAtCallExpressions*/ false).kind; if (leftmostExpressionKind === 193 /* ObjectLiteralExpression */ || leftmostExpressionKind === 201 /* FunctionExpression */) { return ts.setTextRange(ts.createParen(expression), expression); } return expression; } ts.parenthesizeExpressionForExpressionStatement = parenthesizeExpressionForExpressionStatement; function parenthesizeConditionalTypeMember(member) { return member.kind === 180 /* ConditionalType */ ? ts.createParenthesizedType(member) : member; } ts.parenthesizeConditionalTypeMember = parenthesizeConditionalTypeMember; function parenthesizeElementTypeMember(member) { switch (member.kind) { case 178 /* UnionType */: case 179 /* IntersectionType */: case 170 /* FunctionType */: case 171 /* ConstructorType */: return ts.createParenthesizedType(member); } return parenthesizeConditionalTypeMember(member); } ts.parenthesizeElementTypeMember = parenthesizeElementTypeMember; function parenthesizeArrayTypeMember(member) { switch (member.kind) { case 172 /* TypeQuery */: case 184 /* TypeOperator */: case 181 /* InferType */: return ts.createParenthesizedType(member); } return parenthesizeElementTypeMember(member); } ts.parenthesizeArrayTypeMember = parenthesizeArrayTypeMember; function parenthesizeElementTypeMembers(members) { return ts.createNodeArray(ts.sameMap(members, parenthesizeElementTypeMember)); } ts.parenthesizeElementTypeMembers = parenthesizeElementTypeMembers; function parenthesizeTypeParameters(typeParameters) { if (ts.some(typeParameters)) { var params = []; for (var i = 0; i < typeParameters.length; ++i) { var entry = typeParameters[i]; params.push(i === 0 && ts.isFunctionOrConstructorTypeNode(entry) && entry.typeParameters ? ts.createParenthesizedType(entry) : entry); } return ts.createNodeArray(params); } } ts.parenthesizeTypeParameters = parenthesizeTypeParameters; function getLeftmostExpression(node, stopAtCallExpressions) { while (true) { switch (node.kind) { case 208 /* PostfixUnaryExpression */: node = node.operand; continue; case 209 /* BinaryExpression */: node = node.left; continue; case 210 /* ConditionalExpression */: node = node.condition; continue; case 198 /* TaggedTemplateExpression */: node = node.tag; continue; case 196 /* CallExpression */: if (stopAtCallExpressions) { return node; } // falls through case 217 /* AsExpression */: case 195 /* ElementAccessExpression */: case 194 /* PropertyAccessExpression */: case 218 /* NonNullExpression */: case 326 /* PartiallyEmittedExpression */: node = node.expression; continue; } return node; } } ts.getLeftmostExpression = getLeftmostExpression; function parenthesizeConciseBody(body) { if (!ts.isBlock(body) && (isCommaSequence(body) || getLeftmostExpression(body, /*stopAtCallExpressions*/ false).kind === 193 /* ObjectLiteralExpression */)) { return ts.setTextRange(ts.createParen(body), body); } return body; } ts.parenthesizeConciseBody = parenthesizeConciseBody; function isCommaSequence(node) { return node.kind === 209 /* BinaryExpression */ && node.operatorToken.kind === 27 /* CommaToken */ || node.kind === 327 /* CommaListExpression */; } ts.isCommaSequence = isCommaSequence; var OuterExpressionKinds; (function (OuterExpressionKinds) { OuterExpressionKinds[OuterExpressionKinds["Parentheses"] = 1] = "Parentheses"; OuterExpressionKinds[OuterExpressionKinds["TypeAssertions"] = 2] = "TypeAssertions"; OuterExpressionKinds[OuterExpressionKinds["NonNullAssertions"] = 4] = "NonNullAssertions"; OuterExpressionKinds[OuterExpressionKinds["PartiallyEmittedExpressions"] = 8] = "PartiallyEmittedExpressions"; OuterExpressionKinds[OuterExpressionKinds["Assertions"] = 6] = "Assertions"; OuterExpressionKinds[OuterExpressionKinds["All"] = 15] = "All"; })(OuterExpressionKinds = ts.OuterExpressionKinds || (ts.OuterExpressionKinds = {})); function isOuterExpression(node, kinds) { if (kinds === void 0) { kinds = 15 /* All */; } switch (node.kind) { case 200 /* ParenthesizedExpression */: return (kinds & 1 /* Parentheses */) !== 0; case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: return (kinds & 2 /* TypeAssertions */) !== 0; case 218 /* NonNullExpression */: return (kinds & 4 /* NonNullAssertions */) !== 0; case 326 /* PartiallyEmittedExpression */: return (kinds & 8 /* PartiallyEmittedExpressions */) !== 0; } return false; } ts.isOuterExpression = isOuterExpression; function skipOuterExpressions(node, kinds) { if (kinds === void 0) { kinds = 15 /* All */; } while (isOuterExpression(node, kinds)) { node = node.expression; } return node; } ts.skipOuterExpressions = skipOuterExpressions; function skipAssertions(node) { return skipOuterExpressions(node, 6 /* Assertions */); } ts.skipAssertions = skipAssertions; function updateOuterExpression(outerExpression, expression) { switch (outerExpression.kind) { case 200 /* ParenthesizedExpression */: return ts.updateParen(outerExpression, expression); case 199 /* TypeAssertionExpression */: return ts.updateTypeAssertion(outerExpression, outerExpression.type, expression); case 217 /* AsExpression */: return ts.updateAsExpression(outerExpression, expression, outerExpression.type); case 218 /* NonNullExpression */: return ts.updateNonNullExpression(outerExpression, expression); case 326 /* PartiallyEmittedExpression */: return ts.updatePartiallyEmittedExpression(outerExpression, expression); } } /** * Determines whether a node is a parenthesized expression that can be ignored when recreating outer expressions. * * A parenthesized expression can be ignored when all of the following are true: * * - It's `pos` and `end` are not -1 * - It does not have a custom source map range * - It does not have a custom comment range * - It does not have synthetic leading or trailing comments * * If an outermost parenthesized expression is ignored, but the containing expression requires a parentheses around * the expression to maintain precedence, a new parenthesized expression should be created automatically when * the containing expression is created/updated. */ function isIgnorableParen(node) { return node.kind === 200 /* ParenthesizedExpression */ && ts.nodeIsSynthesized(node) && ts.nodeIsSynthesized(ts.getSourceMapRange(node)) && ts.nodeIsSynthesized(ts.getCommentRange(node)) && !ts.some(ts.getSyntheticLeadingComments(node)) && !ts.some(ts.getSyntheticTrailingComments(node)); } function recreateOuterExpressions(outerExpression, innerExpression, kinds) { if (kinds === void 0) { kinds = 15 /* All */; } if (outerExpression && isOuterExpression(outerExpression, kinds) && !isIgnorableParen(outerExpression)) { return updateOuterExpression(outerExpression, recreateOuterExpressions(outerExpression.expression, innerExpression)); } return innerExpression; } ts.recreateOuterExpressions = recreateOuterExpressions; function startOnNewLine(node) { return ts.setStartsOnNewLine(node, /*newLine*/ true); } ts.startOnNewLine = startOnNewLine; function getExternalHelpersModuleName(node) { var parseNode = ts.getOriginalNode(node, ts.isSourceFile); var emitNode = parseNode && parseNode.emitNode; return emitNode && emitNode.externalHelpersModuleName; } ts.getExternalHelpersModuleName = getExternalHelpersModuleName; function hasRecordedExternalHelpers(sourceFile) { var parseNode = ts.getOriginalNode(sourceFile, ts.isSourceFile); var emitNode = parseNode && parseNode.emitNode; return !!emitNode && (!!emitNode.externalHelpersModuleName || !!emitNode.externalHelpers); } ts.hasRecordedExternalHelpers = hasRecordedExternalHelpers; function createExternalHelpersImportDeclarationIfNeeded(sourceFile, compilerOptions, hasExportStarsToExportValues, hasImportStar, hasImportDefault) { if (compilerOptions.importHelpers && ts.isEffectiveExternalModule(sourceFile, compilerOptions)) { var namedBindings = void 0; var moduleKind = ts.getEmitModuleKind(compilerOptions); if (moduleKind >= ts.ModuleKind.ES2015 && moduleKind <= ts.ModuleKind.ESNext) { // use named imports var helpers = ts.getEmitHelpers(sourceFile); if (helpers) { var helperNames = []; for (var _i = 0, helpers_2 = helpers; _i < helpers_2.length; _i++) { var helper = helpers_2[_i]; if (!helper.scoped) { var importName = helper.importName; if (importName) { ts.pushIfUnique(helperNames, importName); } } } if (ts.some(helperNames)) { helperNames.sort(ts.compareStringsCaseSensitive); // Alias the imports if the names are used somewhere in the file. // NOTE: We don't need to care about global import collisions as this is a module. namedBindings = ts.createNamedImports(ts.map(helperNames, function (name) { return ts.isFileLevelUniqueName(sourceFile, name) ? ts.createImportSpecifier(/*propertyName*/ undefined, ts.createIdentifier(name)) : ts.createImportSpecifier(ts.createIdentifier(name), getUnscopedHelperName(name)); })); var parseNode = ts.getOriginalNode(sourceFile, ts.isSourceFile); var emitNode = ts.getOrCreateEmitNode(parseNode); emitNode.externalHelpers = true; } } } else { // use a namespace import var externalHelpersModuleName = getOrCreateExternalHelpersModuleNameIfNeeded(sourceFile, compilerOptions, hasExportStarsToExportValues, hasImportStar || hasImportDefault); if (externalHelpersModuleName) { namedBindings = ts.createNamespaceImport(externalHelpersModuleName); } } if (namedBindings) { var externalHelpersImportDeclaration = ts.createImportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createImportClause(/*name*/ undefined, namedBindings), ts.createLiteral(ts.externalHelpersModuleNameText)); ts.addEmitFlags(externalHelpersImportDeclaration, 67108864 /* NeverApplyImportHelper */); return externalHelpersImportDeclaration; } } } ts.createExternalHelpersImportDeclarationIfNeeded = createExternalHelpersImportDeclarationIfNeeded; function getOrCreateExternalHelpersModuleNameIfNeeded(node, compilerOptions, hasExportStarsToExportValues, hasImportStarOrImportDefault) { if (compilerOptions.importHelpers && ts.isEffectiveExternalModule(node, compilerOptions)) { var externalHelpersModuleName = getExternalHelpersModuleName(node); if (externalHelpersModuleName) { return externalHelpersModuleName; } var moduleKind = ts.getEmitModuleKind(compilerOptions); var create = (hasExportStarsToExportValues || (compilerOptions.esModuleInterop && hasImportStarOrImportDefault)) && moduleKind !== ts.ModuleKind.System && moduleKind < ts.ModuleKind.ES2015; if (!create) { var helpers = ts.getEmitHelpers(node); if (helpers) { for (var _i = 0, helpers_3 = helpers; _i < helpers_3.length; _i++) { var helper = helpers_3[_i]; if (!helper.scoped) { create = true; break; } } } } if (create) { var parseNode = ts.getOriginalNode(node, ts.isSourceFile); var emitNode = ts.getOrCreateEmitNode(parseNode); return emitNode.externalHelpersModuleName || (emitNode.externalHelpersModuleName = ts.createUniqueName(ts.externalHelpersModuleNameText)); } } } ts.getOrCreateExternalHelpersModuleNameIfNeeded = getOrCreateExternalHelpersModuleNameIfNeeded; /** * Get the name of that target module from an import or export declaration */ function getLocalNameForExternalImport(node, sourceFile) { var namespaceDeclaration = ts.getNamespaceDeclarationNode(node); if (namespaceDeclaration && !ts.isDefaultImport(node)) { var name = namespaceDeclaration.name; return ts.isGeneratedIdentifier(name) ? name : ts.createIdentifier(ts.getSourceTextOfNodeFromSourceFile(sourceFile, name) || ts.idText(name)); } if (node.kind === 254 /* ImportDeclaration */ && node.importClause) { return ts.getGeneratedNameForNode(node); } if (node.kind === 260 /* ExportDeclaration */ && node.moduleSpecifier) { return ts.getGeneratedNameForNode(node); } return undefined; } ts.getLocalNameForExternalImport = getLocalNameForExternalImport; /** * Get the name of a target module from an import/export declaration as should be written in the emitted output. * The emitted output name can be different from the input if: * 1. The module has a /// * 2. --out or --outFile is used, making the name relative to the rootDir * 3- The containing SourceFile has an entry in renamedDependencies for the import as requested by some module loaders (e.g. System). * Otherwise, a new StringLiteral node representing the module name will be returned. */ function getExternalModuleNameLiteral(importNode, sourceFile, host, resolver, compilerOptions) { var moduleName = ts.getExternalModuleName(importNode); // TODO: GH#18217 if (moduleName.kind === 10 /* StringLiteral */) { return tryGetModuleNameFromDeclaration(importNode, host, resolver, compilerOptions) || tryRenameExternalModule(moduleName, sourceFile) || ts.getSynthesizedClone(moduleName); } return undefined; } ts.getExternalModuleNameLiteral = getExternalModuleNameLiteral; /** * Some bundlers (SystemJS builder) sometimes want to rename dependencies. * Here we check if alternative name was provided for a given moduleName and return it if possible. */ function tryRenameExternalModule(moduleName, sourceFile) { var rename = sourceFile.renamedDependencies && sourceFile.renamedDependencies.get(moduleName.text); return rename && ts.createLiteral(rename); } /** * Get the name of a module as should be written in the emitted output. * The emitted output name can be different from the input if: * 1. The module has a /// * 2. --out or --outFile is used, making the name relative to the rootDir * Otherwise, a new StringLiteral node representing the module name will be returned. */ function tryGetModuleNameFromFile(file, host, options) { if (!file) { return undefined; } if (file.moduleName) { return ts.createLiteral(file.moduleName); } if (!file.isDeclarationFile && (options.out || options.outFile)) { return ts.createLiteral(ts.getExternalModuleNameFromPath(host, file.fileName)); } return undefined; } ts.tryGetModuleNameFromFile = tryGetModuleNameFromFile; function tryGetModuleNameFromDeclaration(declaration, host, resolver, compilerOptions) { return tryGetModuleNameFromFile(resolver.getExternalModuleFileFromDeclaration(declaration), host, compilerOptions); } /** * Gets the initializer of an BindingOrAssignmentElement. */ function getInitializerOfBindingOrAssignmentElement(bindingElement) { if (ts.isDeclarationBindingElement(bindingElement)) { // `1` in `let { a = 1 } = ...` // `1` in `let { a: b = 1 } = ...` // `1` in `let { a: {b} = 1 } = ...` // `1` in `let { a: [b] = 1 } = ...` // `1` in `let [a = 1] = ...` // `1` in `let [{a} = 1] = ...` // `1` in `let [[a] = 1] = ...` return bindingElement.initializer; } if (ts.isPropertyAssignment(bindingElement)) { // `1` in `({ a: b = 1 } = ...)` // `1` in `({ a: {b} = 1 } = ...)` // `1` in `({ a: [b] = 1 } = ...)` var initializer = bindingElement.initializer; return ts.isAssignmentExpression(initializer, /*excludeCompoundAssignment*/ true) ? initializer.right : undefined; } if (ts.isShorthandPropertyAssignment(bindingElement)) { // `1` in `({ a = 1 } = ...)` return bindingElement.objectAssignmentInitializer; } if (ts.isAssignmentExpression(bindingElement, /*excludeCompoundAssignment*/ true)) { // `1` in `[a = 1] = ...` // `1` in `[{a} = 1] = ...` // `1` in `[[a] = 1] = ...` return bindingElement.right; } if (ts.isSpreadElement(bindingElement)) { // Recovery consistent with existing emit. return getInitializerOfBindingOrAssignmentElement(bindingElement.expression); } } ts.getInitializerOfBindingOrAssignmentElement = getInitializerOfBindingOrAssignmentElement; /** * Gets the name of an BindingOrAssignmentElement. */ function getTargetOfBindingOrAssignmentElement(bindingElement) { if (ts.isDeclarationBindingElement(bindingElement)) { // `a` in `let { a } = ...` // `a` in `let { a = 1 } = ...` // `b` in `let { a: b } = ...` // `b` in `let { a: b = 1 } = ...` // `a` in `let { ...a } = ...` // `{b}` in `let { a: {b} } = ...` // `{b}` in `let { a: {b} = 1 } = ...` // `[b]` in `let { a: [b] } = ...` // `[b]` in `let { a: [b] = 1 } = ...` // `a` in `let [a] = ...` // `a` in `let [a = 1] = ...` // `a` in `let [...a] = ...` // `{a}` in `let [{a}] = ...` // `{a}` in `let [{a} = 1] = ...` // `[a]` in `let [[a]] = ...` // `[a]` in `let [[a] = 1] = ...` return bindingElement.name; } if (ts.isObjectLiteralElementLike(bindingElement)) { switch (bindingElement.kind) { case 281 /* PropertyAssignment */: // `b` in `({ a: b } = ...)` // `b` in `({ a: b = 1 } = ...)` // `{b}` in `({ a: {b} } = ...)` // `{b}` in `({ a: {b} = 1 } = ...)` // `[b]` in `({ a: [b] } = ...)` // `[b]` in `({ a: [b] = 1 } = ...)` // `b.c` in `({ a: b.c } = ...)` // `b.c` in `({ a: b.c = 1 } = ...)` // `b[0]` in `({ a: b[0] } = ...)` // `b[0]` in `({ a: b[0] = 1 } = ...)` return getTargetOfBindingOrAssignmentElement(bindingElement.initializer); case 282 /* ShorthandPropertyAssignment */: // `a` in `({ a } = ...)` // `a` in `({ a = 1 } = ...)` return bindingElement.name; case 283 /* SpreadAssignment */: // `a` in `({ ...a } = ...)` return getTargetOfBindingOrAssignmentElement(bindingElement.expression); } // no target return undefined; } if (ts.isAssignmentExpression(bindingElement, /*excludeCompoundAssignment*/ true)) { // `a` in `[a = 1] = ...` // `{a}` in `[{a} = 1] = ...` // `[a]` in `[[a] = 1] = ...` // `a.b` in `[a.b = 1] = ...` // `a[0]` in `[a[0] = 1] = ...` return getTargetOfBindingOrAssignmentElement(bindingElement.left); } if (ts.isSpreadElement(bindingElement)) { // `a` in `[...a] = ...` return getTargetOfBindingOrAssignmentElement(bindingElement.expression); } // `a` in `[a] = ...` // `{a}` in `[{a}] = ...` // `[a]` in `[[a]] = ...` // `a.b` in `[a.b] = ...` // `a[0]` in `[a[0]] = ...` return bindingElement; } ts.getTargetOfBindingOrAssignmentElement = getTargetOfBindingOrAssignmentElement; /** * Determines whether an BindingOrAssignmentElement is a rest element. */ function getRestIndicatorOfBindingOrAssignmentElement(bindingElement) { switch (bindingElement.kind) { case 156 /* Parameter */: case 191 /* BindingElement */: // `...` in `let [...a] = ...` return bindingElement.dotDotDotToken; case 213 /* SpreadElement */: case 283 /* SpreadAssignment */: // `...` in `[...a] = ...` return bindingElement; } return undefined; } ts.getRestIndicatorOfBindingOrAssignmentElement = getRestIndicatorOfBindingOrAssignmentElement; /** * Gets the property name of a BindingOrAssignmentElement */ function getPropertyNameOfBindingOrAssignmentElement(bindingElement) { var propertyName = tryGetPropertyNameOfBindingOrAssignmentElement(bindingElement); ts.Debug.assert(!!propertyName || ts.isSpreadAssignment(bindingElement), "Invalid property name for binding element."); return propertyName; } ts.getPropertyNameOfBindingOrAssignmentElement = getPropertyNameOfBindingOrAssignmentElement; function tryGetPropertyNameOfBindingOrAssignmentElement(bindingElement) { switch (bindingElement.kind) { case 191 /* BindingElement */: // `a` in `let { a: b } = ...` // `[a]` in `let { [a]: b } = ...` // `"a"` in `let { "a": b } = ...` // `1` in `let { 1: b } = ...` if (bindingElement.propertyName) { var propertyName = bindingElement.propertyName; if (ts.isPrivateIdentifier(propertyName)) { return ts.Debug.failBadSyntaxKind(propertyName); } return ts.isComputedPropertyName(propertyName) && isStringOrNumericLiteral(propertyName.expression) ? propertyName.expression : propertyName; } break; case 281 /* PropertyAssignment */: // `a` in `({ a: b } = ...)` // `[a]` in `({ [a]: b } = ...)` // `"a"` in `({ "a": b } = ...)` // `1` in `({ 1: b } = ...)` if (bindingElement.name) { var propertyName = bindingElement.name; if (ts.isPrivateIdentifier(propertyName)) { return ts.Debug.failBadSyntaxKind(propertyName); } return ts.isComputedPropertyName(propertyName) && isStringOrNumericLiteral(propertyName.expression) ? propertyName.expression : propertyName; } break; case 283 /* SpreadAssignment */: // `a` in `({ ...a } = ...)` if (bindingElement.name && ts.isPrivateIdentifier(bindingElement.name)) { return ts.Debug.failBadSyntaxKind(bindingElement.name); } return bindingElement.name; } var target = getTargetOfBindingOrAssignmentElement(bindingElement); if (target && ts.isPropertyName(target)) { return target; } } ts.tryGetPropertyNameOfBindingOrAssignmentElement = tryGetPropertyNameOfBindingOrAssignmentElement; function isStringOrNumericLiteral(node) { var kind = node.kind; return kind === 10 /* StringLiteral */ || kind === 8 /* NumericLiteral */; } /** * Gets the elements of a BindingOrAssignmentPattern */ function getElementsOfBindingOrAssignmentPattern(name) { switch (name.kind) { case 189 /* ObjectBindingPattern */: case 190 /* ArrayBindingPattern */: case 192 /* ArrayLiteralExpression */: // `a` in `{a}` // `a` in `[a]` return name.elements; case 193 /* ObjectLiteralExpression */: // `a` in `{a}` return name.properties; } } ts.getElementsOfBindingOrAssignmentPattern = getElementsOfBindingOrAssignmentPattern; function convertToArrayAssignmentElement(element) { if (ts.isBindingElement(element)) { if (element.dotDotDotToken) { ts.Debug.assertNode(element.name, ts.isIdentifier); return ts.setOriginalNode(ts.setTextRange(ts.createSpread(element.name), element), element); } var expression = convertToAssignmentElementTarget(element.name); return element.initializer ? ts.setOriginalNode(ts.setTextRange(ts.createAssignment(expression, element.initializer), element), element) : expression; } ts.Debug.assertNode(element, ts.isExpression); return element; } ts.convertToArrayAssignmentElement = convertToArrayAssignmentElement; function convertToObjectAssignmentElement(element) { if (ts.isBindingElement(element)) { if (element.dotDotDotToken) { ts.Debug.assertNode(element.name, ts.isIdentifier); return ts.setOriginalNode(ts.setTextRange(ts.createSpreadAssignment(element.name), element), element); } if (element.propertyName) { var expression = convertToAssignmentElementTarget(element.name); return ts.setOriginalNode(ts.setTextRange(ts.createPropertyAssignment(element.propertyName, element.initializer ? ts.createAssignment(expression, element.initializer) : expression), element), element); } ts.Debug.assertNode(element.name, ts.isIdentifier); return ts.setOriginalNode(ts.setTextRange(ts.createShorthandPropertyAssignment(element.name, element.initializer), element), element); } ts.Debug.assertNode(element, ts.isObjectLiteralElementLike); return element; } ts.convertToObjectAssignmentElement = convertToObjectAssignmentElement; function convertToAssignmentPattern(node) { switch (node.kind) { case 190 /* ArrayBindingPattern */: case 192 /* ArrayLiteralExpression */: return convertToArrayAssignmentPattern(node); case 189 /* ObjectBindingPattern */: case 193 /* ObjectLiteralExpression */: return convertToObjectAssignmentPattern(node); } } ts.convertToAssignmentPattern = convertToAssignmentPattern; function convertToObjectAssignmentPattern(node) { if (ts.isObjectBindingPattern(node)) { return ts.setOriginalNode(ts.setTextRange(ts.createObjectLiteral(ts.map(node.elements, convertToObjectAssignmentElement)), node), node); } ts.Debug.assertNode(node, ts.isObjectLiteralExpression); return node; } ts.convertToObjectAssignmentPattern = convertToObjectAssignmentPattern; function convertToArrayAssignmentPattern(node) { if (ts.isArrayBindingPattern(node)) { return ts.setOriginalNode(ts.setTextRange(ts.createArrayLiteral(ts.map(node.elements, convertToArrayAssignmentElement)), node), node); } ts.Debug.assertNode(node, ts.isArrayLiteralExpression); return node; } ts.convertToArrayAssignmentPattern = convertToArrayAssignmentPattern; function convertToAssignmentElementTarget(node) { if (ts.isBindingPattern(node)) { return convertToAssignmentPattern(node); } ts.Debug.assertNode(node, ts.isExpression); return node; } ts.convertToAssignmentElementTarget = convertToAssignmentElementTarget; })(ts || (ts = {})); var ts; (function (ts) { var isTypeNodeOrTypeParameterDeclaration = ts.or(ts.isTypeNode, ts.isTypeParameterDeclaration); function visitNode(node, visitor, test, lift) { if (node === undefined || visitor === undefined) { return node; } ts.aggregateTransformFlags(node); var visited = visitor(node); if (visited === node) { return node; } var visitedNode; if (visited === undefined) { return undefined; } else if (ts.isArray(visited)) { visitedNode = (lift || extractSingleNode)(visited); } else { visitedNode = visited; } ts.Debug.assertNode(visitedNode, test); ts.aggregateTransformFlags(visitedNode); return visitedNode; } ts.visitNode = visitNode; /** * Visits a NodeArray using the supplied visitor, possibly returning a new NodeArray in its place. * * @param nodes The NodeArray to visit. * @param visitor The callback used to visit a Node. * @param test A node test to execute for each node. * @param start An optional value indicating the starting offset at which to start visiting. * @param count An optional value indicating the maximum number of nodes to visit. */ function visitNodes(nodes, visitor, test, start, count) { if (nodes === undefined || visitor === undefined) { return nodes; } var updated; // Ensure start and count have valid values var length = nodes.length; if (start === undefined || start < 0) { start = 0; } if (count === undefined || count > length - start) { count = length - start; } if (start > 0 || count < length) { // If we are not visiting all of the original nodes, we must always create a new array. // Since this is a fragment of a node array, we do not copy over the previous location // and will only copy over `hasTrailingComma` if we are including the last element. updated = ts.createNodeArray([], /*hasTrailingComma*/ nodes.hasTrailingComma && start + count === length); } // Visit each original node. for (var i = 0; i < count; i++) { var node = nodes[i + start]; ts.aggregateTransformFlags(node); var visited = node !== undefined ? visitor(node) : undefined; if (updated !== undefined || visited === undefined || visited !== node) { if (updated === undefined) { // Ensure we have a copy of `nodes`, up to the current index. updated = ts.createNodeArray(nodes.slice(0, i), nodes.hasTrailingComma); ts.setTextRange(updated, nodes); } if (visited) { if (ts.isArray(visited)) { for (var _i = 0, visited_1 = visited; _i < visited_1.length; _i++) { var visitedNode = visited_1[_i]; ts.Debug.assertNode(visitedNode, test); ts.aggregateTransformFlags(visitedNode); updated.push(visitedNode); } } else { ts.Debug.assertNode(visited, test); ts.aggregateTransformFlags(visited); updated.push(visited); } } } } return updated || nodes; } ts.visitNodes = visitNodes; /** * Starts a new lexical environment and visits a statement list, ending the lexical environment * and merging hoisted declarations upon completion. */ function visitLexicalEnvironment(statements, visitor, context, start, ensureUseStrict) { context.startLexicalEnvironment(); statements = visitNodes(statements, visitor, ts.isStatement, start); if (ensureUseStrict) statements = ts.ensureUseStrict(statements); // eslint-disable-line @typescript-eslint/no-unnecessary-qualifier return ts.mergeLexicalEnvironment(statements, context.endLexicalEnvironment()); } ts.visitLexicalEnvironment = visitLexicalEnvironment; function visitParameterList(nodes, visitor, context, nodesVisitor) { if (nodesVisitor === void 0) { nodesVisitor = visitNodes; } var updated; context.startLexicalEnvironment(); if (nodes) { context.setLexicalEnvironmentFlags(1 /* InParameters */, true); updated = nodesVisitor(nodes, visitor, ts.isParameterDeclaration); // As of ES2015, any runtime execution of that occurs in for a parameter (such as evaluating an // initializer or a binding pattern), occurs in its own lexical scope. As a result, any expression // that we might transform that introduces a temporary variable would fail as the temporary variable // exists in a different lexical scope. To address this, we move any binding patterns and initializers // in a parameter list to the body if we detect a variable being hoisted while visiting a parameter list // when the emit target is greater than ES2015. if (context.getLexicalEnvironmentFlags() & 2 /* VariablesHoistedInParameters */ && ts.getEmitScriptTarget(context.getCompilerOptions()) >= 2 /* ES2015 */) { updated = addDefaultValueAssignmentsIfNeeded(updated, context); } context.setLexicalEnvironmentFlags(1 /* InParameters */, false); } context.suspendLexicalEnvironment(); return updated; } ts.visitParameterList = visitParameterList; function addDefaultValueAssignmentsIfNeeded(parameters, context) { var result; for (var i = 0; i < parameters.length; i++) { var parameter = parameters[i]; var updated = addDefaultValueAssignmentIfNeeded(parameter, context); if (result || updated !== parameter) { if (!result) result = parameters.slice(0, i); result[i] = updated; } } if (result) { return ts.setTextRange(ts.createNodeArray(result, parameters.hasTrailingComma), parameters); } return parameters; } function addDefaultValueAssignmentIfNeeded(parameter, context) { // A rest parameter cannot have a binding pattern or an initializer, // so let's just ignore it. return parameter.dotDotDotToken ? parameter : ts.isBindingPattern(parameter.name) ? addDefaultValueAssignmentForBindingPattern(parameter, context) : parameter.initializer ? addDefaultValueAssignmentForInitializer(parameter, parameter.name, parameter.initializer, context) : parameter; } function addDefaultValueAssignmentForBindingPattern(parameter, context) { context.addInitializationStatement(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(parameter.name, parameter.type, parameter.initializer ? ts.createConditional(ts.createStrictEquality(ts.getGeneratedNameForNode(parameter), ts.createVoidZero()), parameter.initializer, ts.getGeneratedNameForNode(parameter)) : ts.getGeneratedNameForNode(parameter)), ]))); return ts.updateParameter(parameter, parameter.decorators, parameter.modifiers, parameter.dotDotDotToken, ts.getGeneratedNameForNode(parameter), parameter.questionToken, parameter.type, /*initializer*/ undefined); } function addDefaultValueAssignmentForInitializer(parameter, name, initializer, context) { context.addInitializationStatement(ts.createIf(ts.createTypeCheck(ts.getSynthesizedClone(name), "undefined"), ts.setEmitFlags(ts.setTextRange(ts.createBlock([ ts.createExpressionStatement(ts.setEmitFlags(ts.setTextRange(ts.createAssignment(ts.setEmitFlags(ts.getMutableClone(name), 48 /* NoSourceMap */), ts.setEmitFlags(initializer, 48 /* NoSourceMap */ | ts.getEmitFlags(initializer) | 1536 /* NoComments */)), parameter), 1536 /* NoComments */)) ]), parameter), 1 /* SingleLine */ | 32 /* NoTrailingSourceMap */ | 384 /* NoTokenSourceMaps */ | 1536 /* NoComments */))); return ts.updateParameter(parameter, parameter.decorators, parameter.modifiers, parameter.dotDotDotToken, parameter.name, parameter.questionToken, parameter.type, /*initializer*/ undefined); } function visitFunctionBody(node, visitor, context) { context.resumeLexicalEnvironment(); var updated = visitNode(node, visitor, ts.isConciseBody); var declarations = context.endLexicalEnvironment(); if (ts.some(declarations)) { var block = ts.convertToFunctionBody(updated); var statements = ts.mergeLexicalEnvironment(block.statements, declarations); return ts.updateBlock(block, statements); } return updated; } ts.visitFunctionBody = visitFunctionBody; function visitEachChild(node, visitor, context, nodesVisitor, tokenVisitor) { if (nodesVisitor === void 0) { nodesVisitor = visitNodes; } if (node === undefined) { return undefined; } var kind = node.kind; // No need to visit nodes with no children. if ((kind > 0 /* FirstToken */ && kind <= 152 /* LastToken */) || kind === 183 /* ThisType */) { return node; } switch (kind) { // Names case 75 /* Identifier */: return ts.updateIdentifier(node, nodesVisitor(node.typeArguments, visitor, isTypeNodeOrTypeParameterDeclaration)); case 153 /* QualifiedName */: return ts.updateQualifiedName(node, visitNode(node.left, visitor, ts.isEntityName), visitNode(node.right, visitor, ts.isIdentifier)); case 154 /* ComputedPropertyName */: return ts.updateComputedPropertyName(node, visitNode(node.expression, visitor, ts.isExpression)); // Signature elements case 155 /* TypeParameter */: return ts.updateTypeParameterDeclaration(node, visitNode(node.name, visitor, ts.isIdentifier), visitNode(node.constraint, visitor, ts.isTypeNode), visitNode(node.default, visitor, ts.isTypeNode)); case 156 /* Parameter */: return ts.updateParameter(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.dotDotDotToken, tokenVisitor, ts.isToken), visitNode(node.name, visitor, ts.isBindingName), visitNode(node.questionToken, tokenVisitor, ts.isToken), visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.initializer, visitor, ts.isExpression)); case 157 /* Decorator */: return ts.updateDecorator(node, visitNode(node.expression, visitor, ts.isExpression)); // Type elements case 158 /* PropertySignature */: return ts.updatePropertySignature(node, nodesVisitor(node.modifiers, visitor, ts.isToken), visitNode(node.name, visitor, ts.isPropertyName), visitNode(node.questionToken, tokenVisitor, ts.isToken), visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.initializer, visitor, ts.isExpression)); case 159 /* PropertyDeclaration */: return ts.updateProperty(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isPropertyName), // QuestionToken and ExclamationToken is uniqued in Property Declaration and the signature of 'updateProperty' is that too visitNode(node.questionToken || node.exclamationToken, tokenVisitor, ts.isToken), visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.initializer, visitor, ts.isExpression)); case 160 /* MethodSignature */: return ts.updateMethodSignature(node, nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.parameters, visitor, ts.isParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.name, visitor, ts.isPropertyName), visitNode(node.questionToken, tokenVisitor, ts.isToken)); case 161 /* MethodDeclaration */: return ts.updateMethod(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.asteriskToken, tokenVisitor, ts.isToken), visitNode(node.name, visitor, ts.isPropertyName), visitNode(node.questionToken, tokenVisitor, ts.isToken), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitNode(node.type, visitor, ts.isTypeNode), visitFunctionBody(node.body, visitor, context)); case 162 /* Constructor */: return ts.updateConstructor(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitFunctionBody(node.body, visitor, context)); case 163 /* GetAccessor */: return ts.updateGetAccessor(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isPropertyName), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitNode(node.type, visitor, ts.isTypeNode), visitFunctionBody(node.body, visitor, context)); case 164 /* SetAccessor */: return ts.updateSetAccessor(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isPropertyName), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitFunctionBody(node.body, visitor, context)); case 165 /* CallSignature */: return ts.updateCallSignature(node, nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.parameters, visitor, ts.isParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode)); case 166 /* ConstructSignature */: return ts.updateConstructSignature(node, nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.parameters, visitor, ts.isParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode)); case 167 /* IndexSignature */: return ts.updateIndexSignature(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), nodesVisitor(node.parameters, visitor, ts.isParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode)); // Types case 168 /* TypePredicate */: return ts.updateTypePredicateNodeWithModifier(node, visitNode(node.assertsModifier, visitor), visitNode(node.parameterName, visitor), visitNode(node.type, visitor, ts.isTypeNode)); case 169 /* TypeReference */: return ts.updateTypeReferenceNode(node, visitNode(node.typeName, visitor, ts.isEntityName), nodesVisitor(node.typeArguments, visitor, ts.isTypeNode)); case 170 /* FunctionType */: return ts.updateFunctionTypeNode(node, nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.parameters, visitor, ts.isParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode)); case 171 /* ConstructorType */: return ts.updateConstructorTypeNode(node, nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.parameters, visitor, ts.isParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode)); case 172 /* TypeQuery */: return ts.updateTypeQueryNode(node, visitNode(node.exprName, visitor, ts.isEntityName)); case 173 /* TypeLiteral */: return ts.updateTypeLiteralNode(node, nodesVisitor(node.members, visitor, ts.isTypeElement)); case 174 /* ArrayType */: return ts.updateArrayTypeNode(node, visitNode(node.elementType, visitor, ts.isTypeNode)); case 175 /* TupleType */: return ts.updateTupleTypeNode(node, nodesVisitor(node.elementTypes, visitor, ts.isTypeNode)); case 176 /* OptionalType */: return ts.updateOptionalTypeNode(node, visitNode(node.type, visitor, ts.isTypeNode)); case 177 /* RestType */: return ts.updateRestTypeNode(node, visitNode(node.type, visitor, ts.isTypeNode)); case 178 /* UnionType */: return ts.updateUnionTypeNode(node, nodesVisitor(node.types, visitor, ts.isTypeNode)); case 179 /* IntersectionType */: return ts.updateIntersectionTypeNode(node, nodesVisitor(node.types, visitor, ts.isTypeNode)); case 180 /* ConditionalType */: return ts.updateConditionalTypeNode(node, visitNode(node.checkType, visitor, ts.isTypeNode), visitNode(node.extendsType, visitor, ts.isTypeNode), visitNode(node.trueType, visitor, ts.isTypeNode), visitNode(node.falseType, visitor, ts.isTypeNode)); case 181 /* InferType */: return ts.updateInferTypeNode(node, visitNode(node.typeParameter, visitor, ts.isTypeParameterDeclaration)); case 188 /* ImportType */: return ts.updateImportTypeNode(node, visitNode(node.argument, visitor, ts.isTypeNode), visitNode(node.qualifier, visitor, ts.isEntityName), visitNodes(node.typeArguments, visitor, ts.isTypeNode), node.isTypeOf); case 182 /* ParenthesizedType */: return ts.updateParenthesizedType(node, visitNode(node.type, visitor, ts.isTypeNode)); case 184 /* TypeOperator */: return ts.updateTypeOperatorNode(node, visitNode(node.type, visitor, ts.isTypeNode)); case 185 /* IndexedAccessType */: return ts.updateIndexedAccessTypeNode(node, visitNode(node.objectType, visitor, ts.isTypeNode), visitNode(node.indexType, visitor, ts.isTypeNode)); case 186 /* MappedType */: return ts.updateMappedTypeNode(node, visitNode(node.readonlyToken, tokenVisitor, ts.isToken), visitNode(node.typeParameter, visitor, ts.isTypeParameterDeclaration), visitNode(node.questionToken, tokenVisitor, ts.isToken), visitNode(node.type, visitor, ts.isTypeNode)); case 187 /* LiteralType */: return ts.updateLiteralTypeNode(node, visitNode(node.literal, visitor, ts.isExpression)); // Binding patterns case 189 /* ObjectBindingPattern */: return ts.updateObjectBindingPattern(node, nodesVisitor(node.elements, visitor, ts.isBindingElement)); case 190 /* ArrayBindingPattern */: return ts.updateArrayBindingPattern(node, nodesVisitor(node.elements, visitor, ts.isArrayBindingElement)); case 191 /* BindingElement */: return ts.updateBindingElement(node, visitNode(node.dotDotDotToken, tokenVisitor, ts.isToken), visitNode(node.propertyName, visitor, ts.isPropertyName), visitNode(node.name, visitor, ts.isBindingName), visitNode(node.initializer, visitor, ts.isExpression)); // Expression case 192 /* ArrayLiteralExpression */: return ts.updateArrayLiteral(node, nodesVisitor(node.elements, visitor, ts.isExpression)); case 193 /* ObjectLiteralExpression */: return ts.updateObjectLiteral(node, nodesVisitor(node.properties, visitor, ts.isObjectLiteralElementLike)); case 194 /* PropertyAccessExpression */: if (node.flags & 32 /* OptionalChain */) { return ts.updatePropertyAccessChain(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.questionDotToken, tokenVisitor, ts.isToken), visitNode(node.name, visitor, ts.isIdentifier)); } return ts.updatePropertyAccess(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.name, visitor, ts.isIdentifierOrPrivateIdentifier)); case 195 /* ElementAccessExpression */: if (node.flags & 32 /* OptionalChain */) { return ts.updateElementAccessChain(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.questionDotToken, tokenVisitor, ts.isToken), visitNode(node.argumentExpression, visitor, ts.isExpression)); } return ts.updateElementAccess(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.argumentExpression, visitor, ts.isExpression)); case 196 /* CallExpression */: if (node.flags & 32 /* OptionalChain */) { return ts.updateCallChain(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.questionDotToken, tokenVisitor, ts.isToken), nodesVisitor(node.typeArguments, visitor, ts.isTypeNode), nodesVisitor(node.arguments, visitor, ts.isExpression)); } return ts.updateCall(node, visitNode(node.expression, visitor, ts.isExpression), nodesVisitor(node.typeArguments, visitor, ts.isTypeNode), nodesVisitor(node.arguments, visitor, ts.isExpression)); case 197 /* NewExpression */: return ts.updateNew(node, visitNode(node.expression, visitor, ts.isExpression), nodesVisitor(node.typeArguments, visitor, ts.isTypeNode), nodesVisitor(node.arguments, visitor, ts.isExpression)); case 198 /* TaggedTemplateExpression */: return ts.updateTaggedTemplate(node, visitNode(node.tag, visitor, ts.isExpression), visitNodes(node.typeArguments, visitor, ts.isExpression), visitNode(node.template, visitor, ts.isTemplateLiteral)); case 199 /* TypeAssertionExpression */: return ts.updateTypeAssertion(node, visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.expression, visitor, ts.isExpression)); case 200 /* ParenthesizedExpression */: return ts.updateParen(node, visitNode(node.expression, visitor, ts.isExpression)); case 201 /* FunctionExpression */: return ts.updateFunctionExpression(node, nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.asteriskToken, tokenVisitor, ts.isToken), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitNode(node.type, visitor, ts.isTypeNode), visitFunctionBody(node.body, visitor, context)); case 202 /* ArrowFunction */: return ts.updateArrowFunction(node, nodesVisitor(node.modifiers, visitor, ts.isModifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.equalsGreaterThanToken, tokenVisitor, ts.isToken), visitFunctionBody(node.body, visitor, context)); case 203 /* DeleteExpression */: return ts.updateDelete(node, visitNode(node.expression, visitor, ts.isExpression)); case 204 /* TypeOfExpression */: return ts.updateTypeOf(node, visitNode(node.expression, visitor, ts.isExpression)); case 205 /* VoidExpression */: return ts.updateVoid(node, visitNode(node.expression, visitor, ts.isExpression)); case 206 /* AwaitExpression */: return ts.updateAwait(node, visitNode(node.expression, visitor, ts.isExpression)); case 207 /* PrefixUnaryExpression */: return ts.updatePrefix(node, visitNode(node.operand, visitor, ts.isExpression)); case 208 /* PostfixUnaryExpression */: return ts.updatePostfix(node, visitNode(node.operand, visitor, ts.isExpression)); case 209 /* BinaryExpression */: return ts.updateBinary(node, visitNode(node.left, visitor, ts.isExpression), visitNode(node.right, visitor, ts.isExpression), visitNode(node.operatorToken, tokenVisitor, ts.isToken)); case 210 /* ConditionalExpression */: return ts.updateConditional(node, visitNode(node.condition, visitor, ts.isExpression), visitNode(node.questionToken, tokenVisitor, ts.isToken), visitNode(node.whenTrue, visitor, ts.isExpression), visitNode(node.colonToken, tokenVisitor, ts.isToken), visitNode(node.whenFalse, visitor, ts.isExpression)); case 211 /* TemplateExpression */: return ts.updateTemplateExpression(node, visitNode(node.head, visitor, ts.isTemplateHead), nodesVisitor(node.templateSpans, visitor, ts.isTemplateSpan)); case 212 /* YieldExpression */: return ts.updateYield(node, visitNode(node.asteriskToken, tokenVisitor, ts.isToken), visitNode(node.expression, visitor, ts.isExpression)); case 213 /* SpreadElement */: return ts.updateSpread(node, visitNode(node.expression, visitor, ts.isExpression)); case 214 /* ClassExpression */: return ts.updateClassExpression(node, nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.heritageClauses, visitor, ts.isHeritageClause), nodesVisitor(node.members, visitor, ts.isClassElement)); case 216 /* ExpressionWithTypeArguments */: return ts.updateExpressionWithTypeArguments(node, nodesVisitor(node.typeArguments, visitor, ts.isTypeNode), visitNode(node.expression, visitor, ts.isExpression)); case 217 /* AsExpression */: return ts.updateAsExpression(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.type, visitor, ts.isTypeNode)); case 218 /* NonNullExpression */: return ts.updateNonNullExpression(node, visitNode(node.expression, visitor, ts.isExpression)); case 219 /* MetaProperty */: return ts.updateMetaProperty(node, visitNode(node.name, visitor, ts.isIdentifier)); // Misc case 221 /* TemplateSpan */: return ts.updateTemplateSpan(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.literal, visitor, ts.isTemplateMiddleOrTemplateTail)); // Element case 223 /* Block */: return ts.updateBlock(node, nodesVisitor(node.statements, visitor, ts.isStatement)); case 225 /* VariableStatement */: return ts.updateVariableStatement(node, nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.declarationList, visitor, ts.isVariableDeclarationList)); case 226 /* ExpressionStatement */: return ts.updateExpressionStatement(node, visitNode(node.expression, visitor, ts.isExpression)); case 227 /* IfStatement */: return ts.updateIf(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.thenStatement, visitor, ts.isStatement, ts.liftToBlock), visitNode(node.elseStatement, visitor, ts.isStatement, ts.liftToBlock)); case 228 /* DoStatement */: return ts.updateDo(node, visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock), visitNode(node.expression, visitor, ts.isExpression)); case 229 /* WhileStatement */: return ts.updateWhile(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); case 230 /* ForStatement */: return ts.updateFor(node, visitNode(node.initializer, visitor, ts.isForInitializer), visitNode(node.condition, visitor, ts.isExpression), visitNode(node.incrementor, visitor, ts.isExpression), visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); case 231 /* ForInStatement */: return ts.updateForIn(node, visitNode(node.initializer, visitor, ts.isForInitializer), visitNode(node.expression, visitor, ts.isExpression), visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); case 232 /* ForOfStatement */: return ts.updateForOf(node, visitNode(node.awaitModifier, tokenVisitor, ts.isToken), visitNode(node.initializer, visitor, ts.isForInitializer), visitNode(node.expression, visitor, ts.isExpression), visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); case 233 /* ContinueStatement */: return ts.updateContinue(node, visitNode(node.label, visitor, ts.isIdentifier)); case 234 /* BreakStatement */: return ts.updateBreak(node, visitNode(node.label, visitor, ts.isIdentifier)); case 235 /* ReturnStatement */: return ts.updateReturn(node, visitNode(node.expression, visitor, ts.isExpression)); case 236 /* WithStatement */: return ts.updateWith(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); case 237 /* SwitchStatement */: return ts.updateSwitch(node, visitNode(node.expression, visitor, ts.isExpression), visitNode(node.caseBlock, visitor, ts.isCaseBlock)); case 238 /* LabeledStatement */: return ts.updateLabel(node, visitNode(node.label, visitor, ts.isIdentifier), visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); case 239 /* ThrowStatement */: return ts.updateThrow(node, visitNode(node.expression, visitor, ts.isExpression)); case 240 /* TryStatement */: return ts.updateTry(node, visitNode(node.tryBlock, visitor, ts.isBlock), visitNode(node.catchClause, visitor, ts.isCatchClause), visitNode(node.finallyBlock, visitor, ts.isBlock)); case 242 /* VariableDeclaration */: return ts.updateTypeScriptVariableDeclaration(node, visitNode(node.name, visitor, ts.isBindingName), visitNode(node.exclamationToken, tokenVisitor, ts.isToken), visitNode(node.type, visitor, ts.isTypeNode), visitNode(node.initializer, visitor, ts.isExpression)); case 243 /* VariableDeclarationList */: return ts.updateVariableDeclarationList(node, nodesVisitor(node.declarations, visitor, ts.isVariableDeclaration)); case 244 /* FunctionDeclaration */: return ts.updateFunctionDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.asteriskToken, tokenVisitor, ts.isToken), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), visitParameterList(node.parameters, visitor, context, nodesVisitor), visitNode(node.type, visitor, ts.isTypeNode), visitFunctionBody(node.body, visitor, context)); case 245 /* ClassDeclaration */: return ts.updateClassDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.heritageClauses, visitor, ts.isHeritageClause), nodesVisitor(node.members, visitor, ts.isClassElement)); case 246 /* InterfaceDeclaration */: return ts.updateInterfaceDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), nodesVisitor(node.heritageClauses, visitor, ts.isHeritageClause), nodesVisitor(node.members, visitor, ts.isTypeElement)); case 247 /* TypeAliasDeclaration */: return ts.updateTypeAliasDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.typeParameters, visitor, ts.isTypeParameterDeclaration), visitNode(node.type, visitor, ts.isTypeNode)); case 248 /* EnumDeclaration */: return ts.updateEnumDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), nodesVisitor(node.members, visitor, ts.isEnumMember)); case 249 /* ModuleDeclaration */: return ts.updateModuleDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), visitNode(node.body, visitor, ts.isModuleBody)); case 250 /* ModuleBlock */: return ts.updateModuleBlock(node, nodesVisitor(node.statements, visitor, ts.isStatement)); case 251 /* CaseBlock */: return ts.updateCaseBlock(node, nodesVisitor(node.clauses, visitor, ts.isCaseOrDefaultClause)); case 252 /* NamespaceExportDeclaration */: return ts.updateNamespaceExportDeclaration(node, visitNode(node.name, visitor, ts.isIdentifier)); case 253 /* ImportEqualsDeclaration */: return ts.updateImportEqualsDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.name, visitor, ts.isIdentifier), visitNode(node.moduleReference, visitor, ts.isModuleReference)); case 254 /* ImportDeclaration */: return ts.updateImportDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.importClause, visitor, ts.isImportClause), visitNode(node.moduleSpecifier, visitor, ts.isExpression)); case 255 /* ImportClause */: return ts.updateImportClause(node, visitNode(node.name, visitor, ts.isIdentifier), visitNode(node.namedBindings, visitor, ts.isNamedImportBindings), node.isTypeOnly); case 256 /* NamespaceImport */: return ts.updateNamespaceImport(node, visitNode(node.name, visitor, ts.isIdentifier)); case 262 /* NamespaceExport */: return ts.updateNamespaceExport(node, visitNode(node.name, visitor, ts.isIdentifier)); case 257 /* NamedImports */: return ts.updateNamedImports(node, nodesVisitor(node.elements, visitor, ts.isImportSpecifier)); case 258 /* ImportSpecifier */: return ts.updateImportSpecifier(node, visitNode(node.propertyName, visitor, ts.isIdentifier), visitNode(node.name, visitor, ts.isIdentifier)); case 259 /* ExportAssignment */: return ts.updateExportAssignment(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.expression, visitor, ts.isExpression)); case 260 /* ExportDeclaration */: return ts.updateExportDeclaration(node, nodesVisitor(node.decorators, visitor, ts.isDecorator), nodesVisitor(node.modifiers, visitor, ts.isModifier), visitNode(node.exportClause, visitor, ts.isNamedExportBindings), visitNode(node.moduleSpecifier, visitor, ts.isExpression), node.isTypeOnly); case 261 /* NamedExports */: return ts.updateNamedExports(node, nodesVisitor(node.elements, visitor, ts.isExportSpecifier)); case 263 /* ExportSpecifier */: return ts.updateExportSpecifier(node, visitNode(node.propertyName, visitor, ts.isIdentifier), visitNode(node.name, visitor, ts.isIdentifier)); // Module references case 265 /* ExternalModuleReference */: return ts.updateExternalModuleReference(node, visitNode(node.expression, visitor, ts.isExpression)); // JSX case 266 /* JsxElement */: return ts.updateJsxElement(node, visitNode(node.openingElement, visitor, ts.isJsxOpeningElement), nodesVisitor(node.children, visitor, ts.isJsxChild), visitNode(node.closingElement, visitor, ts.isJsxClosingElement)); case 267 /* JsxSelfClosingElement */: return ts.updateJsxSelfClosingElement(node, visitNode(node.tagName, visitor, ts.isJsxTagNameExpression), nodesVisitor(node.typeArguments, visitor, ts.isTypeNode), visitNode(node.attributes, visitor, ts.isJsxAttributes)); case 268 /* JsxOpeningElement */: return ts.updateJsxOpeningElement(node, visitNode(node.tagName, visitor, ts.isJsxTagNameExpression), nodesVisitor(node.typeArguments, visitor, ts.isTypeNode), visitNode(node.attributes, visitor, ts.isJsxAttributes)); case 269 /* JsxClosingElement */: return ts.updateJsxClosingElement(node, visitNode(node.tagName, visitor, ts.isJsxTagNameExpression)); case 270 /* JsxFragment */: return ts.updateJsxFragment(node, visitNode(node.openingFragment, visitor, ts.isJsxOpeningFragment), nodesVisitor(node.children, visitor, ts.isJsxChild), visitNode(node.closingFragment, visitor, ts.isJsxClosingFragment)); case 273 /* JsxAttribute */: return ts.updateJsxAttribute(node, visitNode(node.name, visitor, ts.isIdentifier), visitNode(node.initializer, visitor, ts.isStringLiteralOrJsxExpression)); case 274 /* JsxAttributes */: return ts.updateJsxAttributes(node, nodesVisitor(node.properties, visitor, ts.isJsxAttributeLike)); case 275 /* JsxSpreadAttribute */: return ts.updateJsxSpreadAttribute(node, visitNode(node.expression, visitor, ts.isExpression)); case 276 /* JsxExpression */: return ts.updateJsxExpression(node, visitNode(node.expression, visitor, ts.isExpression)); // Clauses case 277 /* CaseClause */: return ts.updateCaseClause(node, visitNode(node.expression, visitor, ts.isExpression), nodesVisitor(node.statements, visitor, ts.isStatement)); case 278 /* DefaultClause */: return ts.updateDefaultClause(node, nodesVisitor(node.statements, visitor, ts.isStatement)); case 279 /* HeritageClause */: return ts.updateHeritageClause(node, nodesVisitor(node.types, visitor, ts.isExpressionWithTypeArguments)); case 280 /* CatchClause */: return ts.updateCatchClause(node, visitNode(node.variableDeclaration, visitor, ts.isVariableDeclaration), visitNode(node.block, visitor, ts.isBlock)); // Property assignments case 281 /* PropertyAssignment */: return ts.updatePropertyAssignment(node, visitNode(node.name, visitor, ts.isPropertyName), visitNode(node.initializer, visitor, ts.isExpression)); case 282 /* ShorthandPropertyAssignment */: return ts.updateShorthandPropertyAssignment(node, visitNode(node.name, visitor, ts.isIdentifier), visitNode(node.objectAssignmentInitializer, visitor, ts.isExpression)); case 283 /* SpreadAssignment */: return ts.updateSpreadAssignment(node, visitNode(node.expression, visitor, ts.isExpression)); // Enum case 284 /* EnumMember */: return ts.updateEnumMember(node, visitNode(node.name, visitor, ts.isPropertyName), visitNode(node.initializer, visitor, ts.isExpression)); // Top-level nodes case 290 /* SourceFile */: return ts.updateSourceFileNode(node, visitLexicalEnvironment(node.statements, visitor, context)); // Transformation nodes case 326 /* PartiallyEmittedExpression */: return ts.updatePartiallyEmittedExpression(node, visitNode(node.expression, visitor, ts.isExpression)); case 327 /* CommaListExpression */: return ts.updateCommaList(node, nodesVisitor(node.elements, visitor, ts.isExpression)); default: // No need to visit nodes with no children. return node; } } ts.visitEachChild = visitEachChild; /** * Extracts the single node from a NodeArray. * * @param nodes The NodeArray. */ function extractSingleNode(nodes) { ts.Debug.assert(nodes.length <= 1, "Too many nodes written to output."); return ts.singleOrUndefined(nodes); } })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { function reduceNode(node, f, initial) { return node ? f(initial, node) : initial; } function reduceNodeArray(nodes, f, initial) { return nodes ? f(initial, nodes) : initial; } /** * Similar to `reduceLeft`, performs a reduction against each child of a node. * NOTE: Unlike `forEachChild`, this does *not* visit every node. * * @param node The node containing the children to reduce. * @param initial The initial value to supply to the reduction. * @param f The callback function */ function reduceEachChild(node, initial, cbNode, cbNodeArray) { if (node === undefined) { return initial; } var reduceNodes = cbNodeArray ? reduceNodeArray : ts.reduceLeft; var cbNodes = cbNodeArray || cbNode; var kind = node.kind; // No need to visit nodes with no children. if ((kind > 0 /* FirstToken */ && kind <= 152 /* LastToken */)) { return initial; } // We do not yet support types. if ((kind >= 168 /* TypePredicate */ && kind <= 187 /* LiteralType */)) { return initial; } var result = initial; switch (node.kind) { // Leaf nodes case 222 /* SemicolonClassElement */: case 224 /* EmptyStatement */: case 215 /* OmittedExpression */: case 241 /* DebuggerStatement */: case 325 /* NotEmittedStatement */: // No need to visit nodes with no children. break; // Names case 153 /* QualifiedName */: result = reduceNode(node.left, cbNode, result); result = reduceNode(node.right, cbNode, result); break; case 154 /* ComputedPropertyName */: result = reduceNode(node.expression, cbNode, result); break; // Signature elements case 156 /* Parameter */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; case 157 /* Decorator */: result = reduceNode(node.expression, cbNode, result); break; // Type member case 158 /* PropertySignature */: result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNode(node.questionToken, cbNode, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; case 159 /* PropertyDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; case 161 /* MethodDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.typeParameters, cbNodes, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.body, cbNode, result); break; case 162 /* Constructor */: result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.body, cbNode, result); break; case 163 /* GetAccessor */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.body, cbNode, result); break; case 164 /* SetAccessor */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.body, cbNode, result); break; // Binding patterns case 189 /* ObjectBindingPattern */: case 190 /* ArrayBindingPattern */: result = reduceNodes(node.elements, cbNodes, result); break; case 191 /* BindingElement */: result = reduceNode(node.propertyName, cbNode, result); result = reduceNode(node.name, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; // Expression case 192 /* ArrayLiteralExpression */: result = reduceNodes(node.elements, cbNodes, result); break; case 193 /* ObjectLiteralExpression */: result = reduceNodes(node.properties, cbNodes, result); break; case 194 /* PropertyAccessExpression */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.name, cbNode, result); break; case 195 /* ElementAccessExpression */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.argumentExpression, cbNode, result); break; case 196 /* CallExpression */: result = reduceNode(node.expression, cbNode, result); result = reduceNodes(node.typeArguments, cbNodes, result); result = reduceNodes(node.arguments, cbNodes, result); break; case 197 /* NewExpression */: result = reduceNode(node.expression, cbNode, result); result = reduceNodes(node.typeArguments, cbNodes, result); result = reduceNodes(node.arguments, cbNodes, result); break; case 198 /* TaggedTemplateExpression */: result = reduceNode(node.tag, cbNode, result); result = reduceNodes(node.typeArguments, cbNodes, result); result = reduceNode(node.template, cbNode, result); break; case 199 /* TypeAssertionExpression */: result = reduceNode(node.type, cbNode, result); result = reduceNode(node.expression, cbNode, result); break; case 201 /* FunctionExpression */: result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.typeParameters, cbNodes, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.body, cbNode, result); break; case 202 /* ArrowFunction */: result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNodes(node.typeParameters, cbNodes, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.body, cbNode, result); break; case 200 /* ParenthesizedExpression */: case 203 /* DeleteExpression */: case 204 /* TypeOfExpression */: case 205 /* VoidExpression */: case 206 /* AwaitExpression */: case 212 /* YieldExpression */: case 213 /* SpreadElement */: case 218 /* NonNullExpression */: result = reduceNode(node.expression, cbNode, result); break; case 207 /* PrefixUnaryExpression */: case 208 /* PostfixUnaryExpression */: result = reduceNode(node.operand, cbNode, result); break; case 209 /* BinaryExpression */: result = reduceNode(node.left, cbNode, result); result = reduceNode(node.right, cbNode, result); break; case 210 /* ConditionalExpression */: result = reduceNode(node.condition, cbNode, result); result = reduceNode(node.whenTrue, cbNode, result); result = reduceNode(node.whenFalse, cbNode, result); break; case 211 /* TemplateExpression */: result = reduceNode(node.head, cbNode, result); result = reduceNodes(node.templateSpans, cbNodes, result); break; case 214 /* ClassExpression */: result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.typeParameters, cbNodes, result); result = reduceNodes(node.heritageClauses, cbNodes, result); result = reduceNodes(node.members, cbNodes, result); break; case 216 /* ExpressionWithTypeArguments */: result = reduceNode(node.expression, cbNode, result); result = reduceNodes(node.typeArguments, cbNodes, result); break; case 217 /* AsExpression */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.type, cbNode, result); break; // Misc case 221 /* TemplateSpan */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.literal, cbNode, result); break; // Element case 223 /* Block */: result = reduceNodes(node.statements, cbNodes, result); break; case 225 /* VariableStatement */: result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.declarationList, cbNode, result); break; case 226 /* ExpressionStatement */: result = reduceNode(node.expression, cbNode, result); break; case 227 /* IfStatement */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.thenStatement, cbNode, result); result = reduceNode(node.elseStatement, cbNode, result); break; case 228 /* DoStatement */: result = reduceNode(node.statement, cbNode, result); result = reduceNode(node.expression, cbNode, result); break; case 229 /* WhileStatement */: case 236 /* WithStatement */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.statement, cbNode, result); break; case 230 /* ForStatement */: result = reduceNode(node.initializer, cbNode, result); result = reduceNode(node.condition, cbNode, result); result = reduceNode(node.incrementor, cbNode, result); result = reduceNode(node.statement, cbNode, result); break; case 231 /* ForInStatement */: case 232 /* ForOfStatement */: result = reduceNode(node.initializer, cbNode, result); result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.statement, cbNode, result); break; case 235 /* ReturnStatement */: case 239 /* ThrowStatement */: result = reduceNode(node.expression, cbNode, result); break; case 237 /* SwitchStatement */: result = reduceNode(node.expression, cbNode, result); result = reduceNode(node.caseBlock, cbNode, result); break; case 238 /* LabeledStatement */: result = reduceNode(node.label, cbNode, result); result = reduceNode(node.statement, cbNode, result); break; case 240 /* TryStatement */: result = reduceNode(node.tryBlock, cbNode, result); result = reduceNode(node.catchClause, cbNode, result); result = reduceNode(node.finallyBlock, cbNode, result); break; case 242 /* VariableDeclaration */: result = reduceNode(node.name, cbNode, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; case 243 /* VariableDeclarationList */: result = reduceNodes(node.declarations, cbNodes, result); break; case 244 /* FunctionDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.typeParameters, cbNodes, result); result = reduceNodes(node.parameters, cbNodes, result); result = reduceNode(node.type, cbNode, result); result = reduceNode(node.body, cbNode, result); break; case 245 /* ClassDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.typeParameters, cbNodes, result); result = reduceNodes(node.heritageClauses, cbNodes, result); result = reduceNodes(node.members, cbNodes, result); break; case 248 /* EnumDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNodes(node.members, cbNodes, result); break; case 249 /* ModuleDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNode(node.body, cbNode, result); break; case 250 /* ModuleBlock */: result = reduceNodes(node.statements, cbNodes, result); break; case 251 /* CaseBlock */: result = reduceNodes(node.clauses, cbNodes, result); break; case 253 /* ImportEqualsDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.name, cbNode, result); result = reduceNode(node.moduleReference, cbNode, result); break; case 254 /* ImportDeclaration */: result = reduceNodes(node.decorators, cbNodes, result); result = reduceNodes(node.modifiers, cbNodes, result); result = reduceNode(node.importClause, cbNode, result); result = reduceNode(node.moduleSpecifier, cbNode, result); break; case 255 /* ImportClause */: result = reduceNode(node.name, cbNode, result); result = reduceNode(node.namedBindings, cbNode, result); break; case 256 /* NamespaceImport */: result = reduceNode(node.name, cbNode, result); break; case 262 /* NamespaceExport */: result = reduceNode(node.name, cbNode, result); break; case 257 /* NamedImports */: case 261 /* NamedExports */: result = reduceNodes(node.elements, cbNodes, result); break; case 258 /* ImportSpecifier */: case 263 /* ExportSpecifier */: result = reduceNode(node.propertyName, cbNode, result); result = reduceNode(node.name, cbNode, result); break; case 259 /* ExportAssignment */: result = ts.reduceLeft(node.decorators, cbNode, result); result = ts.reduceLeft(node.modifiers, cbNode, result); result = reduceNode(node.expression, cbNode, result); break; case 260 /* ExportDeclaration */: result = ts.reduceLeft(node.decorators, cbNode, result); result = ts.reduceLeft(node.modifiers, cbNode, result); result = reduceNode(node.exportClause, cbNode, result); result = reduceNode(node.moduleSpecifier, cbNode, result); break; // Module references case 265 /* ExternalModuleReference */: result = reduceNode(node.expression, cbNode, result); break; // JSX case 266 /* JsxElement */: result = reduceNode(node.openingElement, cbNode, result); result = ts.reduceLeft(node.children, cbNode, result); result = reduceNode(node.closingElement, cbNode, result); break; case 270 /* JsxFragment */: result = reduceNode(node.openingFragment, cbNode, result); result = ts.reduceLeft(node.children, cbNode, result); result = reduceNode(node.closingFragment, cbNode, result); break; case 267 /* JsxSelfClosingElement */: case 268 /* JsxOpeningElement */: result = reduceNode(node.tagName, cbNode, result); result = reduceNodes(node.typeArguments, cbNode, result); result = reduceNode(node.attributes, cbNode, result); break; case 274 /* JsxAttributes */: result = reduceNodes(node.properties, cbNodes, result); break; case 269 /* JsxClosingElement */: result = reduceNode(node.tagName, cbNode, result); break; case 273 /* JsxAttribute */: result = reduceNode(node.name, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; case 275 /* JsxSpreadAttribute */: result = reduceNode(node.expression, cbNode, result); break; case 276 /* JsxExpression */: result = reduceNode(node.expression, cbNode, result); break; // Clauses case 277 /* CaseClause */: result = reduceNode(node.expression, cbNode, result); // falls through case 278 /* DefaultClause */: result = reduceNodes(node.statements, cbNodes, result); break; case 279 /* HeritageClause */: result = reduceNodes(node.types, cbNodes, result); break; case 280 /* CatchClause */: result = reduceNode(node.variableDeclaration, cbNode, result); result = reduceNode(node.block, cbNode, result); break; // Property assignments case 281 /* PropertyAssignment */: result = reduceNode(node.name, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; case 282 /* ShorthandPropertyAssignment */: result = reduceNode(node.name, cbNode, result); result = reduceNode(node.objectAssignmentInitializer, cbNode, result); break; case 283 /* SpreadAssignment */: result = reduceNode(node.expression, cbNode, result); break; // Enum case 284 /* EnumMember */: result = reduceNode(node.name, cbNode, result); result = reduceNode(node.initializer, cbNode, result); break; // Top-level nodes case 290 /* SourceFile */: result = reduceNodes(node.statements, cbNodes, result); break; // Transformation nodes case 326 /* PartiallyEmittedExpression */: result = reduceNode(node.expression, cbNode, result); break; case 327 /* CommaListExpression */: result = reduceNodes(node.elements, cbNodes, result); break; default: break; } return result; } ts.reduceEachChild = reduceEachChild; function findSpanEnd(array, test, start) { var i = start; while (i < array.length && test(array[i])) { i++; } return i; } function mergeLexicalEnvironment(statements, declarations) { if (!ts.some(declarations)) { return statements; } // When we merge new lexical statements into an existing statement list, we merge them in the following manner: // // Given: // // | Left | Right | // |------------------------------------|-------------------------------------| // | [standard prologues (left)] | [standard prologues (right)] | // | [hoisted functions (left)] | [hoisted functions (right)] | // | [hoisted variables (left)] | [hoisted variables (right)] | // | [lexical init statements (left)] | [lexical init statements (right)] | // | [other statements (left)] | | // // The resulting statement list will be: // // | Result | // |-------------------------------------| // | [standard prologues (right)] | // | [standard prologues (left)] | // | [hoisted functions (right)] | // | [hoisted functions (left)] | // | [hoisted variables (right)] | // | [hoisted variables (left)] | // | [lexical init statements (right)] | // | [lexical init statements (left)] | // | [other statements (left)] | // // NOTE: It is expected that new lexical init statements must be evaluated before existing lexical init statements, // as the prior transformation may depend on the evaluation of the lexical init statements to be in the correct state. // find standard prologues on left in the following order: standard directives, hoisted functions, hoisted variables, other custom var leftStandardPrologueEnd = findSpanEnd(statements, ts.isPrologueDirective, 0); var leftHoistedFunctionsEnd = findSpanEnd(statements, ts.isHoistedFunction, leftStandardPrologueEnd); var leftHoistedVariablesEnd = findSpanEnd(statements, ts.isHoistedVariableStatement, leftHoistedFunctionsEnd); // find standard prologues on right in the following order: standard directives, hoisted functions, hoisted variables, other custom var rightStandardPrologueEnd = findSpanEnd(declarations, ts.isPrologueDirective, 0); var rightHoistedFunctionsEnd = findSpanEnd(declarations, ts.isHoistedFunction, rightStandardPrologueEnd); var rightHoistedVariablesEnd = findSpanEnd(declarations, ts.isHoistedVariableStatement, rightHoistedFunctionsEnd); var rightCustomPrologueEnd = findSpanEnd(declarations, ts.isCustomPrologue, rightHoistedVariablesEnd); ts.Debug.assert(rightCustomPrologueEnd === declarations.length, "Expected declarations to be valid standard or custom prologues"); // splice prologues from the right into the left. We do this in reverse order // so that we don't need to recompute the index on the left when we insert items. var left = ts.isNodeArray(statements) ? statements.slice() : statements; // splice other custom prologues from right into left if (rightCustomPrologueEnd > rightHoistedVariablesEnd) { left.splice.apply(left, __spreadArrays([leftHoistedVariablesEnd, 0], declarations.slice(rightHoistedVariablesEnd, rightCustomPrologueEnd))); } // splice hoisted variables from right into left if (rightHoistedVariablesEnd > rightHoistedFunctionsEnd) { left.splice.apply(left, __spreadArrays([leftHoistedFunctionsEnd, 0], declarations.slice(rightHoistedFunctionsEnd, rightHoistedVariablesEnd))); } // splice hoisted functions from right into left if (rightHoistedFunctionsEnd > rightStandardPrologueEnd) { left.splice.apply(left, __spreadArrays([leftStandardPrologueEnd, 0], declarations.slice(rightStandardPrologueEnd, rightHoistedFunctionsEnd))); } // splice standard prologues from right into left (that are not already in left) if (rightStandardPrologueEnd > 0) { if (leftStandardPrologueEnd === 0) { left.splice.apply(left, __spreadArrays([0, 0], declarations.slice(0, rightStandardPrologueEnd))); } else { var leftPrologues = ts.createMap(); for (var i = 0; i < leftStandardPrologueEnd; i++) { var leftPrologue = statements[i]; leftPrologues.set(leftPrologue.expression.text, true); } for (var i = rightStandardPrologueEnd - 1; i >= 0; i--) { var rightPrologue = declarations[i]; if (!leftPrologues.has(rightPrologue.expression.text)) { left.unshift(rightPrologue); } } } } if (ts.isNodeArray(statements)) { return ts.setTextRange(ts.createNodeArray(left, statements.hasTrailingComma), statements); } return statements; } ts.mergeLexicalEnvironment = mergeLexicalEnvironment; /** * Lifts a NodeArray containing only Statement nodes to a block. * * @param nodes The NodeArray. */ function liftToBlock(nodes) { ts.Debug.assert(ts.every(nodes, ts.isStatement), "Cannot lift nodes to a Block."); return ts.singleOrUndefined(nodes) || ts.createBlock(nodes); } ts.liftToBlock = liftToBlock; /** * Aggregates the TransformFlags for a Node and its subtree. */ function aggregateTransformFlags(node) { aggregateTransformFlagsForNode(node); return node; } ts.aggregateTransformFlags = aggregateTransformFlags; /** * Aggregates the TransformFlags for a Node and its subtree. The flags for the subtree are * computed first, then the transform flags for the current node are computed from the subtree * flags and the state of the current node. Finally, the transform flags of the node are * returned, excluding any flags that should not be included in its parent node's subtree * flags. */ function aggregateTransformFlagsForNode(node) { if (node === undefined) { return 0 /* None */; } if (node.transformFlags & 536870912 /* HasComputedFlags */) { return node.transformFlags & ~ts.getTransformFlagsSubtreeExclusions(node.kind); } var subtreeFlags = aggregateTransformFlagsForSubtree(node); return ts.computeTransformFlagsForNode(node, subtreeFlags); } function aggregateTransformFlagsForNodeArray(nodes) { if (nodes === undefined) { return 0 /* None */; } var subtreeFlags = 0 /* None */; var nodeArrayFlags = 0 /* None */; for (var _i = 0, nodes_3 = nodes; _i < nodes_3.length; _i++) { var node = nodes_3[_i]; subtreeFlags |= aggregateTransformFlagsForNode(node); nodeArrayFlags |= node.transformFlags & ~536870912 /* HasComputedFlags */; } nodes.transformFlags = nodeArrayFlags | 536870912 /* HasComputedFlags */; return subtreeFlags; } /** * Aggregates the transform flags for the subtree of a node. */ function aggregateTransformFlagsForSubtree(node) { // We do not transform ambient declarations or types, so there is no need to // recursively aggregate transform flags. if (ts.hasModifier(node, 2 /* Ambient */) || (ts.isTypeNode(node) && node.kind !== 216 /* ExpressionWithTypeArguments */)) { return 0 /* None */; } // Aggregate the transform flags of each child. return reduceEachChild(node, 0 /* None */, aggregateTransformFlagsForChildNode, aggregateTransformFlagsForChildNodes); } /** * Aggregates the TransformFlags of a child node with the TransformFlags of its * siblings. */ function aggregateTransformFlagsForChildNode(transformFlags, node) { return transformFlags | aggregateTransformFlagsForNode(node); } function aggregateTransformFlagsForChildNodes(transformFlags, nodes) { return transformFlags | aggregateTransformFlagsForNodeArray(nodes); } })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { function createSourceMapGenerator(host, file, sourceRoot, sourcesDirectoryPath, generatorOptions) { var _a = generatorOptions.extendedDiagnostics ? ts.performance.createTimer("Source Map", "beforeSourcemap", "afterSourcemap") : ts.performance.nullTimer, enter = _a.enter, exit = _a.exit; // Current source map file and its index in the sources list var rawSources = []; var sources = []; var sourceToSourceIndexMap = ts.createMap(); var sourcesContent; var names = []; var nameToNameIndexMap; var mappings = ""; // Last recorded and encoded mappings var lastGeneratedLine = 0; var lastGeneratedCharacter = 0; var lastSourceIndex = 0; var lastSourceLine = 0; var lastSourceCharacter = 0; var lastNameIndex = 0; var hasLast = false; var pendingGeneratedLine = 0; var pendingGeneratedCharacter = 0; var pendingSourceIndex = 0; var pendingSourceLine = 0; var pendingSourceCharacter = 0; var pendingNameIndex = 0; var hasPending = false; var hasPendingSource = false; var hasPendingName = false; return { getSources: function () { return rawSources; }, addSource: addSource, setSourceContent: setSourceContent, addName: addName, addMapping: addMapping, appendSourceMap: appendSourceMap, toJSON: toJSON, toString: function () { return JSON.stringify(toJSON()); } }; function addSource(fileName) { enter(); var source = ts.getRelativePathToDirectoryOrUrl(sourcesDirectoryPath, fileName, host.getCurrentDirectory(), host.getCanonicalFileName, /*isAbsolutePathAnUrl*/ true); var sourceIndex = sourceToSourceIndexMap.get(source); if (sourceIndex === undefined) { sourceIndex = sources.length; sources.push(source); rawSources.push(fileName); sourceToSourceIndexMap.set(source, sourceIndex); } exit(); return sourceIndex; } /* eslint-disable boolean-trivia, no-null/no-null */ function setSourceContent(sourceIndex, content) { enter(); if (content !== null) { if (!sourcesContent) sourcesContent = []; while (sourcesContent.length < sourceIndex) { sourcesContent.push(null); } sourcesContent[sourceIndex] = content; } exit(); } /* eslint-enable boolean-trivia, no-null/no-null */ function addName(name) { enter(); if (!nameToNameIndexMap) nameToNameIndexMap = ts.createMap(); var nameIndex = nameToNameIndexMap.get(name); if (nameIndex === undefined) { nameIndex = names.length; names.push(name); nameToNameIndexMap.set(name, nameIndex); } exit(); return nameIndex; } function isNewGeneratedPosition(generatedLine, generatedCharacter) { return !hasPending || pendingGeneratedLine !== generatedLine || pendingGeneratedCharacter !== generatedCharacter; } function isBacktrackingSourcePosition(sourceIndex, sourceLine, sourceCharacter) { return sourceIndex !== undefined && sourceLine !== undefined && sourceCharacter !== undefined && pendingSourceIndex === sourceIndex && (pendingSourceLine > sourceLine || pendingSourceLine === sourceLine && pendingSourceCharacter > sourceCharacter); } function addMapping(generatedLine, generatedCharacter, sourceIndex, sourceLine, sourceCharacter, nameIndex) { ts.Debug.assert(generatedLine >= pendingGeneratedLine, "generatedLine cannot backtrack"); ts.Debug.assert(generatedCharacter >= 0, "generatedCharacter cannot be negative"); ts.Debug.assert(sourceIndex === undefined || sourceIndex >= 0, "sourceIndex cannot be negative"); ts.Debug.assert(sourceLine === undefined || sourceLine >= 0, "sourceLine cannot be negative"); ts.Debug.assert(sourceCharacter === undefined || sourceCharacter >= 0, "sourceCharacter cannot be negative"); enter(); // If this location wasn't recorded or the location in source is going backwards, record the mapping if (isNewGeneratedPosition(generatedLine, generatedCharacter) || isBacktrackingSourcePosition(sourceIndex, sourceLine, sourceCharacter)) { commitPendingMapping(); pendingGeneratedLine = generatedLine; pendingGeneratedCharacter = generatedCharacter; hasPendingSource = false; hasPendingName = false; hasPending = true; } if (sourceIndex !== undefined && sourceLine !== undefined && sourceCharacter !== undefined) { pendingSourceIndex = sourceIndex; pendingSourceLine = sourceLine; pendingSourceCharacter = sourceCharacter; hasPendingSource = true; if (nameIndex !== undefined) { pendingNameIndex = nameIndex; hasPendingName = true; } } exit(); } function appendSourceMap(generatedLine, generatedCharacter, map, sourceMapPath, start, end) { ts.Debug.assert(generatedLine >= pendingGeneratedLine, "generatedLine cannot backtrack"); ts.Debug.assert(generatedCharacter >= 0, "generatedCharacter cannot be negative"); enter(); // First, decode the old component sourcemap var sourceIndexToNewSourceIndexMap = []; var nameIndexToNewNameIndexMap; var mappingIterator = decodeMappings(map.mappings); for (var iterResult = mappingIterator.next(); !iterResult.done; iterResult = mappingIterator.next()) { var raw = iterResult.value; if (end && (raw.generatedLine > end.line || (raw.generatedLine === end.line && raw.generatedCharacter > end.character))) { break; } if (start && (raw.generatedLine < start.line || (start.line === raw.generatedLine && raw.generatedCharacter < start.character))) { continue; } // Then reencode all the updated mappings into the overall map var newSourceIndex = void 0; var newSourceLine = void 0; var newSourceCharacter = void 0; var newNameIndex = void 0; if (raw.sourceIndex !== undefined) { newSourceIndex = sourceIndexToNewSourceIndexMap[raw.sourceIndex]; if (newSourceIndex === undefined) { // Apply offsets to each position and fixup source entries var rawPath = map.sources[raw.sourceIndex]; var relativePath = map.sourceRoot ? ts.combinePaths(map.sourceRoot, rawPath) : rawPath; var combinedPath = ts.combinePaths(ts.getDirectoryPath(sourceMapPath), relativePath); sourceIndexToNewSourceIndexMap[raw.sourceIndex] = newSourceIndex = addSource(combinedPath); if (map.sourcesContent && typeof map.sourcesContent[raw.sourceIndex] === "string") { setSourceContent(newSourceIndex, map.sourcesContent[raw.sourceIndex]); } } newSourceLine = raw.sourceLine; newSourceCharacter = raw.sourceCharacter; if (map.names && raw.nameIndex !== undefined) { if (!nameIndexToNewNameIndexMap) nameIndexToNewNameIndexMap = []; newNameIndex = nameIndexToNewNameIndexMap[raw.nameIndex]; if (newNameIndex === undefined) { nameIndexToNewNameIndexMap[raw.nameIndex] = newNameIndex = addName(map.names[raw.nameIndex]); } } } var rawGeneratedLine = raw.generatedLine - (start ? start.line : 0); var newGeneratedLine = rawGeneratedLine + generatedLine; var rawGeneratedCharacter = start && start.line === raw.generatedLine ? raw.generatedCharacter - start.character : raw.generatedCharacter; var newGeneratedCharacter = rawGeneratedLine === 0 ? rawGeneratedCharacter + generatedCharacter : rawGeneratedCharacter; addMapping(newGeneratedLine, newGeneratedCharacter, newSourceIndex, newSourceLine, newSourceCharacter, newNameIndex); } exit(); } function shouldCommitMapping() { return !hasLast || lastGeneratedLine !== pendingGeneratedLine || lastGeneratedCharacter !== pendingGeneratedCharacter || lastSourceIndex !== pendingSourceIndex || lastSourceLine !== pendingSourceLine || lastSourceCharacter !== pendingSourceCharacter || lastNameIndex !== pendingNameIndex; } function commitPendingMapping() { if (!hasPending || !shouldCommitMapping()) { return; } enter(); // Line/Comma delimiters if (lastGeneratedLine < pendingGeneratedLine) { // Emit line delimiters do { mappings += ";"; lastGeneratedLine++; lastGeneratedCharacter = 0; } while (lastGeneratedLine < pendingGeneratedLine); } else { ts.Debug.assertEqual(lastGeneratedLine, pendingGeneratedLine, "generatedLine cannot backtrack"); // Emit comma to separate the entry if (hasLast) { mappings += ","; } } // 1. Relative generated character mappings += base64VLQFormatEncode(pendingGeneratedCharacter - lastGeneratedCharacter); lastGeneratedCharacter = pendingGeneratedCharacter; if (hasPendingSource) { // 2. Relative sourceIndex mappings += base64VLQFormatEncode(pendingSourceIndex - lastSourceIndex); lastSourceIndex = pendingSourceIndex; // 3. Relative source line mappings += base64VLQFormatEncode(pendingSourceLine - lastSourceLine); lastSourceLine = pendingSourceLine; // 4. Relative source character mappings += base64VLQFormatEncode(pendingSourceCharacter - lastSourceCharacter); lastSourceCharacter = pendingSourceCharacter; if (hasPendingName) { // 5. Relative nameIndex mappings += base64VLQFormatEncode(pendingNameIndex - lastNameIndex); lastNameIndex = pendingNameIndex; } } hasLast = true; exit(); } function toJSON() { commitPendingMapping(); return { version: 3, file: file, sourceRoot: sourceRoot, sources: sources, names: names, mappings: mappings, sourcesContent: sourcesContent, }; } } ts.createSourceMapGenerator = createSourceMapGenerator; // Sometimes tools can see the following line as a source mapping url comment, so we mangle it a bit (the [M]) var sourceMapCommentRegExp = /^\/\/[@#] source[M]appingURL=(.+)\s*$/; var whitespaceOrMapCommentRegExp = /^\s*(\/\/[@#] .*)?$/; function getLineInfo(text, lineStarts) { return { getLineCount: function () { return lineStarts.length; }, getLineText: function (line) { return text.substring(lineStarts[line], lineStarts[line + 1]); } }; } ts.getLineInfo = getLineInfo; /** * Tries to find the sourceMappingURL comment at the end of a file. */ function tryGetSourceMappingURL(lineInfo) { for (var index = lineInfo.getLineCount() - 1; index >= 0; index--) { var line = lineInfo.getLineText(index); var comment = sourceMapCommentRegExp.exec(line); if (comment) { return comment[1]; } // If we see a non-whitespace/map comment-like line, break, to avoid scanning up the entire file else if (!line.match(whitespaceOrMapCommentRegExp)) { break; } } } ts.tryGetSourceMappingURL = tryGetSourceMappingURL; /* eslint-disable no-null/no-null */ function isStringOrNull(x) { return typeof x === "string" || x === null; } function isRawSourceMap(x) { return x !== null && typeof x === "object" && x.version === 3 && typeof x.file === "string" && typeof x.mappings === "string" && ts.isArray(x.sources) && ts.every(x.sources, ts.isString) && (x.sourceRoot === undefined || x.sourceRoot === null || typeof x.sourceRoot === "string") && (x.sourcesContent === undefined || x.sourcesContent === null || ts.isArray(x.sourcesContent) && ts.every(x.sourcesContent, isStringOrNull)) && (x.names === undefined || x.names === null || ts.isArray(x.names) && ts.every(x.names, ts.isString)); } ts.isRawSourceMap = isRawSourceMap; /* eslint-enable no-null/no-null */ function tryParseRawSourceMap(text) { try { var parsed = JSON.parse(text); if (isRawSourceMap(parsed)) { return parsed; } } catch (_a) { // empty } return undefined; } ts.tryParseRawSourceMap = tryParseRawSourceMap; function decodeMappings(mappings) { var done = false; var pos = 0; var generatedLine = 0; var generatedCharacter = 0; var sourceIndex = 0; var sourceLine = 0; var sourceCharacter = 0; var nameIndex = 0; var error; return { get pos() { return pos; }, get error() { return error; }, get state() { return captureMapping(/*hasSource*/ true, /*hasName*/ true); }, next: function () { while (!done && pos < mappings.length) { var ch = mappings.charCodeAt(pos); if (ch === 59 /* semicolon */) { // new line generatedLine++; generatedCharacter = 0; pos++; continue; } if (ch === 44 /* comma */) { // Next entry is on same line - no action needed pos++; continue; } var hasSource = false; var hasName = false; generatedCharacter += base64VLQFormatDecode(); if (hasReportedError()) return stopIterating(); if (generatedCharacter < 0) return setErrorAndStopIterating("Invalid generatedCharacter found"); if (!isSourceMappingSegmentEnd()) { hasSource = true; sourceIndex += base64VLQFormatDecode(); if (hasReportedError()) return stopIterating(); if (sourceIndex < 0) return setErrorAndStopIterating("Invalid sourceIndex found"); if (isSourceMappingSegmentEnd()) return setErrorAndStopIterating("Unsupported Format: No entries after sourceIndex"); sourceLine += base64VLQFormatDecode(); if (hasReportedError()) return stopIterating(); if (sourceLine < 0) return setErrorAndStopIterating("Invalid sourceLine found"); if (isSourceMappingSegmentEnd()) return setErrorAndStopIterating("Unsupported Format: No entries after sourceLine"); sourceCharacter += base64VLQFormatDecode(); if (hasReportedError()) return stopIterating(); if (sourceCharacter < 0) return setErrorAndStopIterating("Invalid sourceCharacter found"); if (!isSourceMappingSegmentEnd()) { hasName = true; nameIndex += base64VLQFormatDecode(); if (hasReportedError()) return stopIterating(); if (nameIndex < 0) return setErrorAndStopIterating("Invalid nameIndex found"); if (!isSourceMappingSegmentEnd()) return setErrorAndStopIterating("Unsupported Error Format: Entries after nameIndex"); } } return { value: captureMapping(hasSource, hasName), done: done }; } return stopIterating(); } }; function captureMapping(hasSource, hasName) { return { generatedLine: generatedLine, generatedCharacter: generatedCharacter, sourceIndex: hasSource ? sourceIndex : undefined, sourceLine: hasSource ? sourceLine : undefined, sourceCharacter: hasSource ? sourceCharacter : undefined, nameIndex: hasName ? nameIndex : undefined }; } function stopIterating() { done = true; return { value: undefined, done: true }; } function setError(message) { if (error === undefined) { error = message; } } function setErrorAndStopIterating(message) { setError(message); return stopIterating(); } function hasReportedError() { return error !== undefined; } function isSourceMappingSegmentEnd() { return (pos === mappings.length || mappings.charCodeAt(pos) === 44 /* comma */ || mappings.charCodeAt(pos) === 59 /* semicolon */); } function base64VLQFormatDecode() { var moreDigits = true; var shiftCount = 0; var value = 0; for (; moreDigits; pos++) { if (pos >= mappings.length) return setError("Error in decoding base64VLQFormatDecode, past the mapping string"), -1; // 6 digit number var currentByte = base64FormatDecode(mappings.charCodeAt(pos)); if (currentByte === -1) return setError("Invalid character in VLQ"), -1; // If msb is set, we still have more bits to continue moreDigits = (currentByte & 32) !== 0; // least significant 5 bits are the next msbs in the final value. value = value | ((currentByte & 31) << shiftCount); shiftCount += 5; } // Least significant bit if 1 represents negative and rest of the msb is actual absolute value if ((value & 1) === 0) { // + number value = value >> 1; } else { // - number value = value >> 1; value = -value; } return value; } } ts.decodeMappings = decodeMappings; function sameMapping(left, right) { return left === right || left.generatedLine === right.generatedLine && left.generatedCharacter === right.generatedCharacter && left.sourceIndex === right.sourceIndex && left.sourceLine === right.sourceLine && left.sourceCharacter === right.sourceCharacter && left.nameIndex === right.nameIndex; } ts.sameMapping = sameMapping; function isSourceMapping(mapping) { return mapping.sourceIndex !== undefined && mapping.sourceLine !== undefined && mapping.sourceCharacter !== undefined; } ts.isSourceMapping = isSourceMapping; function base64FormatEncode(value) { return value >= 0 && value < 26 ? 65 /* A */ + value : value >= 26 && value < 52 ? 97 /* a */ + value - 26 : value >= 52 && value < 62 ? 48 /* _0 */ + value - 52 : value === 62 ? 43 /* plus */ : value === 63 ? 47 /* slash */ : ts.Debug.fail(value + ": not a base64 value"); } function base64FormatDecode(ch) { return ch >= 65 /* A */ && ch <= 90 /* Z */ ? ch - 65 /* A */ : ch >= 97 /* a */ && ch <= 122 /* z */ ? ch - 97 /* a */ + 26 : ch >= 48 /* _0 */ && ch <= 57 /* _9 */ ? ch - 48 /* _0 */ + 52 : ch === 43 /* plus */ ? 62 : ch === 47 /* slash */ ? 63 : -1; } function base64VLQFormatEncode(inValue) { // Add a new least significant bit that has the sign of the value. // if negative number the least significant bit that gets added to the number has value 1 // else least significant bit value that gets added is 0 // eg. -1 changes to binary : 01 [1] => 3 // +1 changes to binary : 01 [0] => 2 if (inValue < 0) { inValue = ((-inValue) << 1) + 1; } else { inValue = inValue << 1; } // Encode 5 bits at a time starting from least significant bits var encodedStr = ""; do { var currentDigit = inValue & 31; // 11111 inValue = inValue >> 5; if (inValue > 0) { // There are still more digits to decode, set the msb (6th bit) currentDigit = currentDigit | 32; } encodedStr = encodedStr + String.fromCharCode(base64FormatEncode(currentDigit)); } while (inValue > 0); return encodedStr; } function isSourceMappedPosition(value) { return value.sourceIndex !== undefined && value.sourcePosition !== undefined; } function sameMappedPosition(left, right) { return left.generatedPosition === right.generatedPosition && left.sourceIndex === right.sourceIndex && left.sourcePosition === right.sourcePosition; } function compareSourcePositions(left, right) { // Compares sourcePosition without comparing sourceIndex // since the mappings are grouped by sourceIndex ts.Debug.assert(left.sourceIndex === right.sourceIndex); return ts.compareValues(left.sourcePosition, right.sourcePosition); } function compareGeneratedPositions(left, right) { return ts.compareValues(left.generatedPosition, right.generatedPosition); } function getSourcePositionOfMapping(value) { return value.sourcePosition; } function getGeneratedPositionOfMapping(value) { return value.generatedPosition; } function createDocumentPositionMapper(host, map, mapPath) { var mapDirectory = ts.getDirectoryPath(mapPath); var sourceRoot = map.sourceRoot ? ts.getNormalizedAbsolutePath(map.sourceRoot, mapDirectory) : mapDirectory; var generatedAbsoluteFilePath = ts.getNormalizedAbsolutePath(map.file, mapDirectory); var generatedFile = host.getSourceFileLike(generatedAbsoluteFilePath); var sourceFileAbsolutePaths = map.sources.map(function (source) { return ts.getNormalizedAbsolutePath(source, sourceRoot); }); var sourceToSourceIndexMap = ts.createMapFromEntries(sourceFileAbsolutePaths.map(function (source, i) { return [host.getCanonicalFileName(source), i]; })); var decodedMappings; var generatedMappings; var sourceMappings; return { getSourcePosition: getSourcePosition, getGeneratedPosition: getGeneratedPosition }; function processMapping(mapping) { var generatedPosition = generatedFile !== undefined ? ts.getPositionOfLineAndCharacter(generatedFile, mapping.generatedLine, mapping.generatedCharacter, /*allowEdits*/ true) : -1; var source; var sourcePosition; if (isSourceMapping(mapping)) { var sourceFile = host.getSourceFileLike(sourceFileAbsolutePaths[mapping.sourceIndex]); source = map.sources[mapping.sourceIndex]; sourcePosition = sourceFile !== undefined ? ts.getPositionOfLineAndCharacter(sourceFile, mapping.sourceLine, mapping.sourceCharacter, /*allowEdits*/ true) : -1; } return { generatedPosition: generatedPosition, source: source, sourceIndex: mapping.sourceIndex, sourcePosition: sourcePosition, nameIndex: mapping.nameIndex }; } function getDecodedMappings() { if (decodedMappings === undefined) { var decoder = decodeMappings(map.mappings); var mappings = ts.arrayFrom(decoder, processMapping); if (decoder.error !== undefined) { if (host.log) { host.log("Encountered error while decoding sourcemap: " + decoder.error); } decodedMappings = ts.emptyArray; } else { decodedMappings = mappings; } } return decodedMappings; } function getSourceMappings(sourceIndex) { if (sourceMappings === undefined) { var lists = []; for (var _i = 0, _a = getDecodedMappings(); _i < _a.length; _i++) { var mapping = _a[_i]; if (!isSourceMappedPosition(mapping)) continue; var list = lists[mapping.sourceIndex]; if (!list) lists[mapping.sourceIndex] = list = []; list.push(mapping); } sourceMappings = lists.map(function (list) { return ts.sortAndDeduplicate(list, compareSourcePositions, sameMappedPosition); }); } return sourceMappings[sourceIndex]; } function getGeneratedMappings() { if (generatedMappings === undefined) { var list = []; for (var _i = 0, _a = getDecodedMappings(); _i < _a.length; _i++) { var mapping = _a[_i]; list.push(mapping); } generatedMappings = ts.sortAndDeduplicate(list, compareGeneratedPositions, sameMappedPosition); } return generatedMappings; } function getGeneratedPosition(loc) { var sourceIndex = sourceToSourceIndexMap.get(host.getCanonicalFileName(loc.fileName)); if (sourceIndex === undefined) return loc; var sourceMappings = getSourceMappings(sourceIndex); if (!ts.some(sourceMappings)) return loc; var targetIndex = ts.binarySearchKey(sourceMappings, loc.pos, getSourcePositionOfMapping, ts.compareValues); if (targetIndex < 0) { // if no exact match, closest is 2's complement of result targetIndex = ~targetIndex; } var mapping = sourceMappings[targetIndex]; if (mapping === undefined || mapping.sourceIndex !== sourceIndex) { return loc; } return { fileName: generatedAbsoluteFilePath, pos: mapping.generatedPosition }; // Closest pos } function getSourcePosition(loc) { var generatedMappings = getGeneratedMappings(); if (!ts.some(generatedMappings)) return loc; var targetIndex = ts.binarySearchKey(generatedMappings, loc.pos, getGeneratedPositionOfMapping, ts.compareValues); if (targetIndex < 0) { // if no exact match, closest is 2's complement of result targetIndex = ~targetIndex; } var mapping = generatedMappings[targetIndex]; if (mapping === undefined || !isSourceMappedPosition(mapping)) { return loc; } return { fileName: sourceFileAbsolutePaths[mapping.sourceIndex], pos: mapping.sourcePosition }; // Closest pos } } ts.createDocumentPositionMapper = createDocumentPositionMapper; ts.identitySourceMapConsumer = { getSourcePosition: ts.identity, getGeneratedPosition: ts.identity }; })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { function getOriginalNodeId(node) { node = ts.getOriginalNode(node); return node ? ts.getNodeId(node) : 0; } ts.getOriginalNodeId = getOriginalNodeId; function containsDefaultReference(node) { if (!node) return false; if (!ts.isNamedImports(node)) return false; return ts.some(node.elements, isNamedDefaultReference); } function isNamedDefaultReference(e) { return e.propertyName !== undefined && e.propertyName.escapedText === "default" /* Default */; } function chainBundle(transformSourceFile) { return transformSourceFileOrBundle; function transformSourceFileOrBundle(node) { return node.kind === 290 /* SourceFile */ ? transformSourceFile(node) : transformBundle(node); } function transformBundle(node) { return ts.createBundle(ts.map(node.sourceFiles, transformSourceFile), node.prepends); } } ts.chainBundle = chainBundle; function getExportNeedsImportStarHelper(node) { return !!ts.getNamespaceDeclarationNode(node); } ts.getExportNeedsImportStarHelper = getExportNeedsImportStarHelper; function getImportNeedsImportStarHelper(node) { if (!!ts.getNamespaceDeclarationNode(node)) { return true; } var bindings = node.importClause && node.importClause.namedBindings; if (!bindings) { return false; } if (!ts.isNamedImports(bindings)) return false; var defaultRefCount = 0; for (var _i = 0, _a = bindings.elements; _i < _a.length; _i++) { var binding = _a[_i]; if (isNamedDefaultReference(binding)) { defaultRefCount++; } } // Import star is required if there's default named refs mixed with non-default refs, or if theres non-default refs and it has a default import return (defaultRefCount > 0 && defaultRefCount !== bindings.elements.length) || (!!(bindings.elements.length - defaultRefCount) && ts.isDefaultImport(node)); } ts.getImportNeedsImportStarHelper = getImportNeedsImportStarHelper; function getImportNeedsImportDefaultHelper(node) { // Import default is needed if there's a default import or a default ref and no other refs (meaning an import star helper wasn't requested) return !getImportNeedsImportStarHelper(node) && (ts.isDefaultImport(node) || (!!node.importClause && ts.isNamedImports(node.importClause.namedBindings) && containsDefaultReference(node.importClause.namedBindings))); // TODO: GH#18217 } ts.getImportNeedsImportDefaultHelper = getImportNeedsImportDefaultHelper; function collectExternalModuleInfo(sourceFile, resolver, compilerOptions) { var externalImports = []; var exportSpecifiers = ts.createMultiMap(); var exportedBindings = []; var uniqueExports = ts.createMap(); var exportedNames; var hasExportDefault = false; var exportEquals; var hasExportStarsToExportValues = false; var hasImportStar = false; var hasImportDefault = false; for (var _i = 0, _a = sourceFile.statements; _i < _a.length; _i++) { var node = _a[_i]; switch (node.kind) { case 254 /* ImportDeclaration */: // import "mod" // import x from "mod" // import * as x from "mod" // import { x, y } from "mod" externalImports.push(node); if (!hasImportStar && getImportNeedsImportStarHelper(node)) { hasImportStar = true; } if (!hasImportDefault && getImportNeedsImportDefaultHelper(node)) { hasImportDefault = true; } break; case 253 /* ImportEqualsDeclaration */: if (node.moduleReference.kind === 265 /* ExternalModuleReference */) { // import x = require("mod") externalImports.push(node); } break; case 260 /* ExportDeclaration */: if (node.moduleSpecifier) { if (!node.exportClause) { // export * from "mod" externalImports.push(node); hasExportStarsToExportValues = true; } else { // export * as ns from "mod" // export { x, y } from "mod" externalImports.push(node); } } else { // export { x, y } for (var _b = 0, _c = ts.cast(node.exportClause, ts.isNamedExports).elements; _b < _c.length; _b++) { var specifier = _c[_b]; if (!uniqueExports.get(ts.idText(specifier.name))) { var name = specifier.propertyName || specifier.name; exportSpecifiers.add(ts.idText(name), specifier); var decl = resolver.getReferencedImportDeclaration(name) || resolver.getReferencedValueDeclaration(name); if (decl) { multiMapSparseArrayAdd(exportedBindings, getOriginalNodeId(decl), specifier.name); } uniqueExports.set(ts.idText(specifier.name), true); exportedNames = ts.append(exportedNames, specifier.name); } } } break; case 259 /* ExportAssignment */: if (node.isExportEquals && !exportEquals) { // export = x exportEquals = node; } break; case 225 /* VariableStatement */: if (ts.hasModifier(node, 1 /* Export */)) { for (var _d = 0, _e = node.declarationList.declarations; _d < _e.length; _d++) { var decl = _e[_d]; exportedNames = collectExportedVariableInfo(decl, uniqueExports, exportedNames); } } break; case 244 /* FunctionDeclaration */: if (ts.hasModifier(node, 1 /* Export */)) { if (ts.hasModifier(node, 512 /* Default */)) { // export default function() { } if (!hasExportDefault) { multiMapSparseArrayAdd(exportedBindings, getOriginalNodeId(node), ts.getDeclarationName(node)); hasExportDefault = true; } } else { // export function x() { } var name = node.name; if (!uniqueExports.get(ts.idText(name))) { multiMapSparseArrayAdd(exportedBindings, getOriginalNodeId(node), name); uniqueExports.set(ts.idText(name), true); exportedNames = ts.append(exportedNames, name); } } } break; case 245 /* ClassDeclaration */: if (ts.hasModifier(node, 1 /* Export */)) { if (ts.hasModifier(node, 512 /* Default */)) { // export default class { } if (!hasExportDefault) { multiMapSparseArrayAdd(exportedBindings, getOriginalNodeId(node), ts.getDeclarationName(node)); hasExportDefault = true; } } else { // export class x { } var name = node.name; if (name && !uniqueExports.get(ts.idText(name))) { multiMapSparseArrayAdd(exportedBindings, getOriginalNodeId(node), name); uniqueExports.set(ts.idText(name), true); exportedNames = ts.append(exportedNames, name); } } } break; } } var externalHelpersImportDeclaration = ts.createExternalHelpersImportDeclarationIfNeeded(sourceFile, compilerOptions, hasExportStarsToExportValues, hasImportStar, hasImportDefault); if (externalHelpersImportDeclaration) { externalImports.unshift(externalHelpersImportDeclaration); } return { externalImports: externalImports, exportSpecifiers: exportSpecifiers, exportEquals: exportEquals, hasExportStarsToExportValues: hasExportStarsToExportValues, exportedBindings: exportedBindings, exportedNames: exportedNames, externalHelpersImportDeclaration: externalHelpersImportDeclaration }; } ts.collectExternalModuleInfo = collectExternalModuleInfo; function collectExportedVariableInfo(decl, uniqueExports, exportedNames) { if (ts.isBindingPattern(decl.name)) { for (var _i = 0, _a = decl.name.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { exportedNames = collectExportedVariableInfo(element, uniqueExports, exportedNames); } } } else if (!ts.isGeneratedIdentifier(decl.name)) { var text = ts.idText(decl.name); if (!uniqueExports.get(text)) { uniqueExports.set(text, true); exportedNames = ts.append(exportedNames, decl.name); } } return exportedNames; } /** Use a sparse array as a multi-map. */ function multiMapSparseArrayAdd(map, key, value) { var values = map[key]; if (values) { values.push(value); } else { map[key] = values = [value]; } return values; } /** * Used in the module transformer to check if an expression is reasonably without sideeffect, * and thus better to copy into multiple places rather than to cache in a temporary variable * - this is mostly subjective beyond the requirement that the expression not be sideeffecting */ function isSimpleCopiableExpression(expression) { return ts.isStringLiteralLike(expression) || expression.kind === 8 /* NumericLiteral */ || ts.isKeyword(expression.kind) || ts.isIdentifier(expression); } ts.isSimpleCopiableExpression = isSimpleCopiableExpression; /** * A simple inlinable expression is an expression which can be copied into multiple locations * without risk of repeating any sideeffects and whose value could not possibly change between * any such locations */ function isSimpleInlineableExpression(expression) { return !ts.isIdentifier(expression) && isSimpleCopiableExpression(expression) || ts.isWellKnownSymbolSyntactically(expression); } ts.isSimpleInlineableExpression = isSimpleInlineableExpression; function isCompoundAssignment(kind) { return kind >= 63 /* FirstCompoundAssignment */ && kind <= 74 /* LastCompoundAssignment */; } ts.isCompoundAssignment = isCompoundAssignment; function getNonAssignmentOperatorForCompoundAssignment(kind) { switch (kind) { case 63 /* PlusEqualsToken */: return 39 /* PlusToken */; case 64 /* MinusEqualsToken */: return 40 /* MinusToken */; case 65 /* AsteriskEqualsToken */: return 41 /* AsteriskToken */; case 66 /* AsteriskAsteriskEqualsToken */: return 42 /* AsteriskAsteriskToken */; case 67 /* SlashEqualsToken */: return 43 /* SlashToken */; case 68 /* PercentEqualsToken */: return 44 /* PercentToken */; case 69 /* LessThanLessThanEqualsToken */: return 47 /* LessThanLessThanToken */; case 70 /* GreaterThanGreaterThanEqualsToken */: return 48 /* GreaterThanGreaterThanToken */; case 71 /* GreaterThanGreaterThanGreaterThanEqualsToken */: return 49 /* GreaterThanGreaterThanGreaterThanToken */; case 72 /* AmpersandEqualsToken */: return 50 /* AmpersandToken */; case 73 /* BarEqualsToken */: return 51 /* BarToken */; case 74 /* CaretEqualsToken */: return 52 /* CaretToken */; } } ts.getNonAssignmentOperatorForCompoundAssignment = getNonAssignmentOperatorForCompoundAssignment; /** * Adds super call and preceding prologue directives into the list of statements. * * @param ctor The constructor node. * @param result The list of statements. * @param visitor The visitor to apply to each node added to the result array. * @returns index of the statement that follows super call */ function addPrologueDirectivesAndInitialSuperCall(ctor, result, visitor) { if (ctor.body) { var statements = ctor.body.statements; // add prologue directives to the list (if any) var index = ts.addPrologue(result, statements, /*ensureUseStrict*/ false, visitor); if (index === statements.length) { // list contains nothing but prologue directives (or empty) - exit return index; } var superIndex = ts.findIndex(statements, function (s) { return ts.isExpressionStatement(s) && ts.isSuperCall(s.expression); }, index); if (superIndex > -1) { for (var i = index; i <= superIndex; i++) { result.push(ts.visitNode(statements[i], visitor, ts.isStatement)); } return superIndex + 1; } return index; } return 0; } ts.addPrologueDirectivesAndInitialSuperCall = addPrologueDirectivesAndInitialSuperCall; /** * @param input Template string input strings * @param args Names which need to be made file-level unique */ function helperString(input) { var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } return function (uniqueName) { var result = ""; for (var i = 0; i < args.length; i++) { result += input[i]; result += uniqueName(args[i]); } result += input[input.length - 1]; return result; }; } ts.helperString = helperString; /** * Gets all the static or all the instance property declarations of a class * * @param node The class node. * @param isStatic A value indicating whether to get properties from the static or instance side of the class. */ function getProperties(node, requireInitializer, isStatic) { return ts.filter(node.members, function (m) { return isInitializedOrStaticProperty(m, requireInitializer, isStatic); }); } ts.getProperties = getProperties; /** * Is a class element either a static or an instance property declaration with an initializer? * * @param member The class element node. * @param isStatic A value indicating whether the member should be a static or instance member. */ function isInitializedOrStaticProperty(member, requireInitializer, isStatic) { return ts.isPropertyDeclaration(member) && (!!member.initializer || !requireInitializer) && ts.hasStaticModifier(member) === isStatic; } /** * Gets a value indicating whether a class element is either a static or an instance property declaration with an initializer. * * @param member The class element node. * @param isStatic A value indicating whether the member should be a static or instance member. */ function isInitializedProperty(member) { return member.kind === 159 /* PropertyDeclaration */ && member.initializer !== undefined; } ts.isInitializedProperty = isInitializedProperty; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var FlattenLevel; (function (FlattenLevel) { FlattenLevel[FlattenLevel["All"] = 0] = "All"; FlattenLevel[FlattenLevel["ObjectRest"] = 1] = "ObjectRest"; })(FlattenLevel = ts.FlattenLevel || (ts.FlattenLevel = {})); /** * Flattens a DestructuringAssignment or a VariableDeclaration to an expression. * * @param node The node to flatten. * @param visitor An optional visitor used to visit initializers. * @param context The transformation context. * @param level Indicates the extent to which flattening should occur. * @param needsValue An optional value indicating whether the value from the right-hand-side of * the destructuring assignment is needed as part of a larger expression. * @param createAssignmentCallback An optional callback used to create the assignment expression. */ function flattenDestructuringAssignment(node, visitor, context, level, needsValue, createAssignmentCallback) { var location = node; var value; if (ts.isDestructuringAssignment(node)) { value = node.right; while (ts.isEmptyArrayLiteral(node.left) || ts.isEmptyObjectLiteral(node.left)) { if (ts.isDestructuringAssignment(value)) { location = node = value; value = node.right; } else { return ts.visitNode(value, visitor, ts.isExpression); } } } var expressions; var flattenContext = { context: context, level: level, downlevelIteration: !!context.getCompilerOptions().downlevelIteration, hoistTempVariables: true, emitExpression: emitExpression, emitBindingOrAssignment: emitBindingOrAssignment, createArrayBindingOrAssignmentPattern: makeArrayAssignmentPattern, createObjectBindingOrAssignmentPattern: makeObjectAssignmentPattern, createArrayBindingOrAssignmentElement: makeAssignmentElement, visitor: visitor }; if (value) { value = ts.visitNode(value, visitor, ts.isExpression); if (ts.isIdentifier(value) && bindingOrAssignmentElementAssignsToName(node, value.escapedText) || bindingOrAssignmentElementContainsNonLiteralComputedName(node)) { // If the right-hand value of the assignment is also an assignment target then // we need to cache the right-hand value. value = ensureIdentifier(flattenContext, value, /*reuseIdentifierExpressions*/ false, location); } else if (needsValue) { // If the right-hand value of the destructuring assignment needs to be preserved (as // is the case when the destructuring assignment is part of a larger expression), // then we need to cache the right-hand value. // // The source map location for the assignment should point to the entire binary // expression. value = ensureIdentifier(flattenContext, value, /*reuseIdentifierExpressions*/ true, location); } else if (ts.nodeIsSynthesized(node)) { // Generally, the source map location for a destructuring assignment is the root // expression. // // However, if the root expression is synthesized (as in the case // of the initializer when transforming a ForOfStatement), then the source map // location should point to the right-hand value of the expression. location = value; } } flattenBindingOrAssignmentElement(flattenContext, node, value, location, /*skipInitializer*/ ts.isDestructuringAssignment(node)); if (value && needsValue) { if (!ts.some(expressions)) { return value; } expressions.push(value); } return ts.aggregateTransformFlags(ts.inlineExpressions(expressions)) || ts.createOmittedExpression(); function emitExpression(expression) { ts.aggregateTransformFlags(expression); expressions = ts.append(expressions, expression); } function emitBindingOrAssignment(target, value, location, original) { ts.Debug.assertNode(target, createAssignmentCallback ? ts.isIdentifier : ts.isExpression); var expression = createAssignmentCallback ? createAssignmentCallback(target, value, location) : ts.setTextRange(ts.createAssignment(ts.visitNode(target, visitor, ts.isExpression), value), location); expression.original = original; emitExpression(expression); } } ts.flattenDestructuringAssignment = flattenDestructuringAssignment; function bindingOrAssignmentElementAssignsToName(element, escapedName) { var target = ts.getTargetOfBindingOrAssignmentElement(element); // TODO: GH#18217 if (ts.isBindingOrAssignmentPattern(target)) { return bindingOrAssignmentPatternAssignsToName(target, escapedName); } else if (ts.isIdentifier(target)) { return target.escapedText === escapedName; } return false; } function bindingOrAssignmentPatternAssignsToName(pattern, escapedName) { var elements = ts.getElementsOfBindingOrAssignmentPattern(pattern); for (var _i = 0, elements_3 = elements; _i < elements_3.length; _i++) { var element = elements_3[_i]; if (bindingOrAssignmentElementAssignsToName(element, escapedName)) { return true; } } return false; } function bindingOrAssignmentElementContainsNonLiteralComputedName(element) { var propertyName = ts.tryGetPropertyNameOfBindingOrAssignmentElement(element); if (propertyName && ts.isComputedPropertyName(propertyName) && !ts.isLiteralExpression(propertyName.expression)) { return true; } var target = ts.getTargetOfBindingOrAssignmentElement(element); return !!target && ts.isBindingOrAssignmentPattern(target) && bindingOrAssignmentPatternContainsNonLiteralComputedName(target); } function bindingOrAssignmentPatternContainsNonLiteralComputedName(pattern) { return !!ts.forEach(ts.getElementsOfBindingOrAssignmentPattern(pattern), bindingOrAssignmentElementContainsNonLiteralComputedName); } /** * Flattens a VariableDeclaration or ParameterDeclaration to one or more variable declarations. * * @param node The node to flatten. * @param visitor An optional visitor used to visit initializers. * @param context The transformation context. * @param boundValue The value bound to the declaration. * @param skipInitializer A value indicating whether to ignore the initializer of `node`. * @param hoistTempVariables Indicates whether temporary variables should not be recorded in-line. * @param level Indicates the extent to which flattening should occur. */ function flattenDestructuringBinding(node, visitor, context, level, rval, hoistTempVariables, skipInitializer) { if (hoistTempVariables === void 0) { hoistTempVariables = false; } var pendingExpressions; var pendingDeclarations = []; var declarations = []; var flattenContext = { context: context, level: level, downlevelIteration: !!context.getCompilerOptions().downlevelIteration, hoistTempVariables: hoistTempVariables, emitExpression: emitExpression, emitBindingOrAssignment: emitBindingOrAssignment, createArrayBindingOrAssignmentPattern: makeArrayBindingPattern, createObjectBindingOrAssignmentPattern: makeObjectBindingPattern, createArrayBindingOrAssignmentElement: makeBindingElement, visitor: visitor }; if (ts.isVariableDeclaration(node)) { var initializer = ts.getInitializerOfBindingOrAssignmentElement(node); if (initializer && (ts.isIdentifier(initializer) && bindingOrAssignmentElementAssignsToName(node, initializer.escapedText) || bindingOrAssignmentElementContainsNonLiteralComputedName(node))) { // If the right-hand value of the assignment is also an assignment target then // we need to cache the right-hand value. initializer = ensureIdentifier(flattenContext, initializer, /*reuseIdentifierExpressions*/ false, initializer); node = ts.updateVariableDeclaration(node, node.name, node.type, initializer); } } flattenBindingOrAssignmentElement(flattenContext, node, rval, node, skipInitializer); if (pendingExpressions) { var temp = ts.createTempVariable(/*recordTempVariable*/ undefined); if (hoistTempVariables) { var value = ts.inlineExpressions(pendingExpressions); pendingExpressions = undefined; emitBindingOrAssignment(temp, value, /*location*/ undefined, /*original*/ undefined); } else { context.hoistVariableDeclaration(temp); var pendingDeclaration = ts.last(pendingDeclarations); pendingDeclaration.pendingExpressions = ts.append(pendingDeclaration.pendingExpressions, ts.createAssignment(temp, pendingDeclaration.value)); ts.addRange(pendingDeclaration.pendingExpressions, pendingExpressions); pendingDeclaration.value = temp; } } for (var _i = 0, pendingDeclarations_1 = pendingDeclarations; _i < pendingDeclarations_1.length; _i++) { var _a = pendingDeclarations_1[_i], pendingExpressions_1 = _a.pendingExpressions, name = _a.name, value = _a.value, location = _a.location, original = _a.original; var variable = ts.createVariableDeclaration(name, /*type*/ undefined, pendingExpressions_1 ? ts.inlineExpressions(ts.append(pendingExpressions_1, value)) : value); variable.original = original; ts.setTextRange(variable, location); ts.aggregateTransformFlags(variable); declarations.push(variable); } return declarations; function emitExpression(value) { pendingExpressions = ts.append(pendingExpressions, value); } function emitBindingOrAssignment(target, value, location, original) { ts.Debug.assertNode(target, ts.isBindingName); if (pendingExpressions) { value = ts.inlineExpressions(ts.append(pendingExpressions, value)); pendingExpressions = undefined; } pendingDeclarations.push({ pendingExpressions: pendingExpressions, name: target, value: value, location: location, original: original }); } } ts.flattenDestructuringBinding = flattenDestructuringBinding; /** * Flattens a BindingOrAssignmentElement into zero or more bindings or assignments. * * @param flattenContext Options used to control flattening. * @param element The element to flatten. * @param value The current RHS value to assign to the element. * @param location The location to use for source maps and comments. * @param skipInitializer An optional value indicating whether to include the initializer * for the element. */ function flattenBindingOrAssignmentElement(flattenContext, element, value, location, skipInitializer) { if (!skipInitializer) { var initializer = ts.visitNode(ts.getInitializerOfBindingOrAssignmentElement(element), flattenContext.visitor, ts.isExpression); if (initializer) { // Combine value and initializer value = value ? createDefaultValueCheck(flattenContext, value, initializer, location) : initializer; } else if (!value) { // Use 'void 0' in absence of value and initializer value = ts.createVoidZero(); } } var bindingTarget = ts.getTargetOfBindingOrAssignmentElement(element); // TODO: GH#18217 if (ts.isObjectBindingOrAssignmentPattern(bindingTarget)) { flattenObjectBindingOrAssignmentPattern(flattenContext, element, bindingTarget, value, location); } else if (ts.isArrayBindingOrAssignmentPattern(bindingTarget)) { flattenArrayBindingOrAssignmentPattern(flattenContext, element, bindingTarget, value, location); } else { flattenContext.emitBindingOrAssignment(bindingTarget, value, location, /*original*/ element); // TODO: GH#18217 } } /** * Flattens an ObjectBindingOrAssignmentPattern into zero or more bindings or assignments. * * @param flattenContext Options used to control flattening. * @param parent The parent element of the pattern. * @param pattern The ObjectBindingOrAssignmentPattern to flatten. * @param value The current RHS value to assign to the element. * @param location The location to use for source maps and comments. */ function flattenObjectBindingOrAssignmentPattern(flattenContext, parent, pattern, value, location) { var elements = ts.getElementsOfBindingOrAssignmentPattern(pattern); var numElements = elements.length; if (numElements !== 1) { // For anything other than a single-element destructuring we need to generate a temporary // to ensure value is evaluated exactly once. Additionally, if we have zero elements // we need to emit *something* to ensure that in case a 'var' keyword was already emitted, // so in that case, we'll intentionally create that temporary. var reuseIdentifierExpressions = !ts.isDeclarationBindingElement(parent) || numElements !== 0; value = ensureIdentifier(flattenContext, value, reuseIdentifierExpressions, location); } var bindingElements; var computedTempVariables; for (var i = 0; i < numElements; i++) { var element = elements[i]; if (!ts.getRestIndicatorOfBindingOrAssignmentElement(element)) { var propertyName = ts.getPropertyNameOfBindingOrAssignmentElement(element); if (flattenContext.level >= 1 /* ObjectRest */ && !(element.transformFlags & (8192 /* ContainsRestOrSpread */ | 16384 /* ContainsObjectRestOrSpread */)) && !(ts.getTargetOfBindingOrAssignmentElement(element).transformFlags & (8192 /* ContainsRestOrSpread */ | 16384 /* ContainsObjectRestOrSpread */)) && !ts.isComputedPropertyName(propertyName)) { bindingElements = ts.append(bindingElements, ts.visitNode(element, flattenContext.visitor)); } else { if (bindingElements) { flattenContext.emitBindingOrAssignment(flattenContext.createObjectBindingOrAssignmentPattern(bindingElements), value, location, pattern); bindingElements = undefined; } var rhsValue = createDestructuringPropertyAccess(flattenContext, value, propertyName); if (ts.isComputedPropertyName(propertyName)) { computedTempVariables = ts.append(computedTempVariables, rhsValue.argumentExpression); } flattenBindingOrAssignmentElement(flattenContext, element, rhsValue, /*location*/ element); } } else if (i === numElements - 1) { if (bindingElements) { flattenContext.emitBindingOrAssignment(flattenContext.createObjectBindingOrAssignmentPattern(bindingElements), value, location, pattern); bindingElements = undefined; } var rhsValue = createRestCall(flattenContext.context, value, elements, computedTempVariables, pattern); // TODO: GH#18217 flattenBindingOrAssignmentElement(flattenContext, element, rhsValue, element); } } if (bindingElements) { flattenContext.emitBindingOrAssignment(flattenContext.createObjectBindingOrAssignmentPattern(bindingElements), value, location, pattern); } } /** * Flattens an ArrayBindingOrAssignmentPattern into zero or more bindings or assignments. * * @param flattenContext Options used to control flattening. * @param parent The parent element of the pattern. * @param pattern The ArrayBindingOrAssignmentPattern to flatten. * @param value The current RHS value to assign to the element. * @param location The location to use for source maps and comments. */ function flattenArrayBindingOrAssignmentPattern(flattenContext, parent, pattern, value, location) { var elements = ts.getElementsOfBindingOrAssignmentPattern(pattern); var numElements = elements.length; if (flattenContext.level < 1 /* ObjectRest */ && flattenContext.downlevelIteration) { // Read the elements of the iterable into an array value = ensureIdentifier(flattenContext, ts.createReadHelper(flattenContext.context, value, numElements > 0 && ts.getRestIndicatorOfBindingOrAssignmentElement(elements[numElements - 1]) ? undefined : numElements, location), /*reuseIdentifierExpressions*/ false, location); } else if (numElements !== 1 && (flattenContext.level < 1 /* ObjectRest */ || numElements === 0) || ts.every(elements, ts.isOmittedExpression)) { // For anything other than a single-element destructuring we need to generate a temporary // to ensure value is evaluated exactly once. Additionally, if we have zero elements // we need to emit *something* to ensure that in case a 'var' keyword was already emitted, // so in that case, we'll intentionally create that temporary. // Or all the elements of the binding pattern are omitted expression such as "var [,] = [1,2]", // then we will create temporary variable. var reuseIdentifierExpressions = !ts.isDeclarationBindingElement(parent) || numElements !== 0; value = ensureIdentifier(flattenContext, value, reuseIdentifierExpressions, location); } var bindingElements; var restContainingElements; for (var i = 0; i < numElements; i++) { var element = elements[i]; if (flattenContext.level >= 1 /* ObjectRest */) { // If an array pattern contains an ObjectRest, we must cache the result so that we // can perform the ObjectRest destructuring in a different declaration if (element.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { var temp = ts.createTempVariable(/*recordTempVariable*/ undefined); if (flattenContext.hoistTempVariables) { flattenContext.context.hoistVariableDeclaration(temp); } restContainingElements = ts.append(restContainingElements, [temp, element]); bindingElements = ts.append(bindingElements, flattenContext.createArrayBindingOrAssignmentElement(temp)); } else { bindingElements = ts.append(bindingElements, element); } } else if (ts.isOmittedExpression(element)) { continue; } else if (!ts.getRestIndicatorOfBindingOrAssignmentElement(element)) { var rhsValue = ts.createElementAccess(value, i); flattenBindingOrAssignmentElement(flattenContext, element, rhsValue, /*location*/ element); } else if (i === numElements - 1) { var rhsValue = ts.createArraySlice(value, i); flattenBindingOrAssignmentElement(flattenContext, element, rhsValue, /*location*/ element); } } if (bindingElements) { flattenContext.emitBindingOrAssignment(flattenContext.createArrayBindingOrAssignmentPattern(bindingElements), value, location, pattern); } if (restContainingElements) { for (var _i = 0, restContainingElements_1 = restContainingElements; _i < restContainingElements_1.length; _i++) { var _a = restContainingElements_1[_i], id = _a[0], element = _a[1]; flattenBindingOrAssignmentElement(flattenContext, element, id, element); } } } /** * Creates an expression used to provide a default value if a value is `undefined` at runtime. * * @param flattenContext Options used to control flattening. * @param value The RHS value to test. * @param defaultValue The default value to use if `value` is `undefined` at runtime. * @param location The location to use for source maps and comments. */ function createDefaultValueCheck(flattenContext, value, defaultValue, location) { value = ensureIdentifier(flattenContext, value, /*reuseIdentifierExpressions*/ true, location); return ts.createConditional(ts.createTypeCheck(value, "undefined"), defaultValue, value); } /** * Creates either a PropertyAccessExpression or an ElementAccessExpression for the * right-hand side of a transformed destructuring assignment. * * @link https://tc39.github.io/ecma262/#sec-runtime-semantics-keyeddestructuringassignmentevaluation * * @param flattenContext Options used to control flattening. * @param value The RHS value that is the source of the property. * @param propertyName The destructuring property name. */ function createDestructuringPropertyAccess(flattenContext, value, propertyName) { if (ts.isComputedPropertyName(propertyName)) { var argumentExpression = ensureIdentifier(flattenContext, ts.visitNode(propertyName.expression, flattenContext.visitor), /*reuseIdentifierExpressions*/ false, /*location*/ propertyName); return ts.createElementAccess(value, argumentExpression); } else if (ts.isStringOrNumericLiteralLike(propertyName)) { var argumentExpression = ts.getSynthesizedClone(propertyName); argumentExpression.text = argumentExpression.text; return ts.createElementAccess(value, argumentExpression); } else { var name = ts.createIdentifier(ts.idText(propertyName)); return ts.createPropertyAccess(value, name); } } /** * Ensures that there exists a declared identifier whose value holds the given expression. * This function is useful to ensure that the expression's value can be read from in subsequent expressions. * Unless 'reuseIdentifierExpressions' is false, 'value' will be returned if it is just an identifier. * * @param flattenContext Options used to control flattening. * @param value the expression whose value needs to be bound. * @param reuseIdentifierExpressions true if identifier expressions can simply be returned; * false if it is necessary to always emit an identifier. * @param location The location to use for source maps and comments. */ function ensureIdentifier(flattenContext, value, reuseIdentifierExpressions, location) { if (ts.isIdentifier(value) && reuseIdentifierExpressions) { return value; } else { var temp = ts.createTempVariable(/*recordTempVariable*/ undefined); if (flattenContext.hoistTempVariables) { flattenContext.context.hoistVariableDeclaration(temp); flattenContext.emitExpression(ts.setTextRange(ts.createAssignment(temp, value), location)); } else { flattenContext.emitBindingOrAssignment(temp, value, location, /*original*/ undefined); } return temp; } } function makeArrayBindingPattern(elements) { ts.Debug.assertEachNode(elements, ts.isArrayBindingElement); return ts.createArrayBindingPattern(elements); } function makeArrayAssignmentPattern(elements) { return ts.createArrayLiteral(ts.map(elements, ts.convertToArrayAssignmentElement)); } function makeObjectBindingPattern(elements) { ts.Debug.assertEachNode(elements, ts.isBindingElement); return ts.createObjectBindingPattern(elements); } function makeObjectAssignmentPattern(elements) { return ts.createObjectLiteral(ts.map(elements, ts.convertToObjectAssignmentElement)); } function makeBindingElement(name) { return ts.createBindingElement(/*dotDotDotToken*/ undefined, /*propertyName*/ undefined, name); } function makeAssignmentElement(name) { return name; } ts.restHelper = { name: "typescript:rest", importName: "__rest", scoped: false, text: "\n var __rest = (this && this.__rest) || function (s, e) {\n var t = {};\n for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0)\n t[p] = s[p];\n if (s != null && typeof Object.getOwnPropertySymbols === \"function\")\n for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) {\n if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i]))\n t[p[i]] = s[p[i]];\n }\n return t;\n };" }; /** Given value: o, propName: p, pattern: { a, b, ...p } from the original statement * `{ a, b, ...p } = o`, create `p = __rest(o, ["a", "b"]);` */ function createRestCall(context, value, elements, computedTempVariables, location) { context.requestEmitHelper(ts.restHelper); var propertyNames = []; var computedTempVariableOffset = 0; for (var i = 0; i < elements.length - 1; i++) { var propertyName = ts.getPropertyNameOfBindingOrAssignmentElement(elements[i]); if (propertyName) { if (ts.isComputedPropertyName(propertyName)) { var temp = computedTempVariables[computedTempVariableOffset]; computedTempVariableOffset++; // typeof _tmp === "symbol" ? _tmp : _tmp + "" propertyNames.push(ts.createConditional(ts.createTypeCheck(temp, "symbol"), temp, ts.createAdd(temp, ts.createLiteral("")))); } else { propertyNames.push(ts.createLiteral(propertyName)); } } } return ts.createCall(ts.getUnscopedHelperName("__rest"), /*typeArguments*/ undefined, [ value, ts.setTextRange(ts.createArrayLiteral(propertyNames), location) ]); } })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var ProcessLevel; (function (ProcessLevel) { ProcessLevel[ProcessLevel["LiftRestriction"] = 0] = "LiftRestriction"; ProcessLevel[ProcessLevel["All"] = 1] = "All"; })(ProcessLevel = ts.ProcessLevel || (ts.ProcessLevel = {})); function processTaggedTemplateExpression(context, node, visitor, currentSourceFile, recordTaggedTemplateString, level) { // Visit the tag expression var tag = ts.visitNode(node.tag, visitor, ts.isExpression); // Build up the template arguments and the raw and cooked strings for the template. // We start out with 'undefined' for the first argument and revisit later // to avoid walking over the template string twice and shifting all our arguments over after the fact. var templateArguments = [undefined]; var cookedStrings = []; var rawStrings = []; var template = node.template; if (level === ProcessLevel.LiftRestriction && !ts.hasInvalidEscape(template)) return node; if (ts.isNoSubstitutionTemplateLiteral(template)) { cookedStrings.push(createTemplateCooked(template)); rawStrings.push(getRawLiteral(template, currentSourceFile)); } else { cookedStrings.push(createTemplateCooked(template.head)); rawStrings.push(getRawLiteral(template.head, currentSourceFile)); for (var _i = 0, _a = template.templateSpans; _i < _a.length; _i++) { var templateSpan = _a[_i]; cookedStrings.push(createTemplateCooked(templateSpan.literal)); rawStrings.push(getRawLiteral(templateSpan.literal, currentSourceFile)); templateArguments.push(ts.visitNode(templateSpan.expression, visitor, ts.isExpression)); } } var helperCall = createTemplateObjectHelper(context, ts.createArrayLiteral(cookedStrings), ts.createArrayLiteral(rawStrings)); // Create a variable to cache the template object if we're in a module. // Do not do this in the global scope, as any variable we currently generate could conflict with // variables from outside of the current compilation. In the future, we can revisit this behavior. if (ts.isExternalModule(currentSourceFile)) { var tempVar = ts.createUniqueName("templateObject"); recordTaggedTemplateString(tempVar); templateArguments[0] = ts.createLogicalOr(tempVar, ts.createAssignment(tempVar, helperCall)); } else { templateArguments[0] = helperCall; } return ts.createCall(tag, /*typeArguments*/ undefined, templateArguments); } ts.processTaggedTemplateExpression = processTaggedTemplateExpression; function createTemplateCooked(template) { return template.templateFlags ? ts.createIdentifier("undefined") : ts.createLiteral(template.text); } /** * Creates an ES5 compatible literal from an ES6 template literal. * * @param node The ES6 template literal. */ function getRawLiteral(node, currentSourceFile) { // Find original source text, since we need to emit the raw strings of the tagged template. // The raw strings contain the (escaped) strings of what the user wrote. // Examples: `\n` is converted to "\\n", a template string with a newline to "\n". var text = ts.getSourceTextOfNodeFromSourceFile(currentSourceFile, node); // text contains the original source, it will also contain quotes ("`"), dolar signs and braces ("${" and "}"), // thus we need to remove those characters. // First template piece starts with "`", others with "}" // Last template piece ends with "`", others with "${" var isLast = node.kind === 14 /* NoSubstitutionTemplateLiteral */ || node.kind === 17 /* TemplateTail */; text = text.substring(1, text.length - (isLast ? 1 : 2)); // Newline normalization: // ES6 Spec 11.8.6.1 - Static Semantics of TV's and TRV's // and LineTerminatorSequences are normalized to for both TV and TRV. text = text.replace(/\r\n?/g, "\n"); return ts.setTextRange(ts.createLiteral(text), node); } function createTemplateObjectHelper(context, cooked, raw) { context.requestEmitHelper(ts.templateObjectHelper); return ts.createCall(ts.getUnscopedHelperName("__makeTemplateObject"), /*typeArguments*/ undefined, [ cooked, raw ]); } ts.templateObjectHelper = { name: "typescript:makeTemplateObject", importName: "__makeTemplateObject", scoped: false, priority: 0, text: "\n var __makeTemplateObject = (this && this.__makeTemplateObject) || function (cooked, raw) {\n if (Object.defineProperty) { Object.defineProperty(cooked, \"raw\", { value: raw }); } else { cooked.raw = raw; }\n return cooked;\n };" }; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { /** * Indicates whether to emit type metadata in the new format. */ var USE_NEW_TYPE_METADATA_FORMAT = false; var TypeScriptSubstitutionFlags; (function (TypeScriptSubstitutionFlags) { /** Enables substitutions for decorated classes. */ TypeScriptSubstitutionFlags[TypeScriptSubstitutionFlags["ClassAliases"] = 1] = "ClassAliases"; /** Enables substitutions for namespace exports. */ TypeScriptSubstitutionFlags[TypeScriptSubstitutionFlags["NamespaceExports"] = 2] = "NamespaceExports"; /* Enables substitutions for unqualified enum members */ TypeScriptSubstitutionFlags[TypeScriptSubstitutionFlags["NonQualifiedEnumMembers"] = 8] = "NonQualifiedEnumMembers"; })(TypeScriptSubstitutionFlags || (TypeScriptSubstitutionFlags = {})); var ClassFacts; (function (ClassFacts) { ClassFacts[ClassFacts["None"] = 0] = "None"; ClassFacts[ClassFacts["HasStaticInitializedProperties"] = 1] = "HasStaticInitializedProperties"; ClassFacts[ClassFacts["HasConstructorDecorators"] = 2] = "HasConstructorDecorators"; ClassFacts[ClassFacts["HasMemberDecorators"] = 4] = "HasMemberDecorators"; ClassFacts[ClassFacts["IsExportOfNamespace"] = 8] = "IsExportOfNamespace"; ClassFacts[ClassFacts["IsNamedExternalExport"] = 16] = "IsNamedExternalExport"; ClassFacts[ClassFacts["IsDefaultExternalExport"] = 32] = "IsDefaultExternalExport"; ClassFacts[ClassFacts["IsDerivedClass"] = 64] = "IsDerivedClass"; ClassFacts[ClassFacts["HasAnyDecorators"] = 6] = "HasAnyDecorators"; ClassFacts[ClassFacts["NeedsName"] = 5] = "NeedsName"; ClassFacts[ClassFacts["UseImmediatelyInvokedFunctionExpression"] = 7] = "UseImmediatelyInvokedFunctionExpression"; ClassFacts[ClassFacts["IsExported"] = 56] = "IsExported"; })(ClassFacts || (ClassFacts = {})); function transformTypeScript(context) { var startLexicalEnvironment = context.startLexicalEnvironment, resumeLexicalEnvironment = context.resumeLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistVariableDeclaration = context.hoistVariableDeclaration; var resolver = context.getEmitResolver(); var compilerOptions = context.getCompilerOptions(); var strictNullChecks = ts.getStrictOptionValue(compilerOptions, "strictNullChecks"); var languageVersion = ts.getEmitScriptTarget(compilerOptions); var moduleKind = ts.getEmitModuleKind(compilerOptions); // Save the previous transformation hooks. var previousOnEmitNode = context.onEmitNode; var previousOnSubstituteNode = context.onSubstituteNode; // Set new transformation hooks. context.onEmitNode = onEmitNode; context.onSubstituteNode = onSubstituteNode; // Enable substitution for property/element access to emit const enum values. context.enableSubstitution(194 /* PropertyAccessExpression */); context.enableSubstitution(195 /* ElementAccessExpression */); // These variables contain state that changes as we descend into the tree. var currentSourceFile; var currentNamespace; var currentNamespaceContainerName; var currentLexicalScope; var currentNameScope; var currentScopeFirstDeclarationsOfName; var currentClassHasParameterProperties; /** * Keeps track of whether expression substitution has been enabled for specific edge cases. * They are persisted between each SourceFile transformation and should not be reset. */ var enabledSubstitutions; /** * A map that keeps track of aliases created for classes with decorators to avoid issues * with the double-binding behavior of classes. */ var classAliases; /** * Keeps track of whether we are within any containing namespaces when performing * just-in-time substitution while printing an expression identifier. */ var applicableSubstitutions; return transformSourceFileOrBundle; function transformSourceFileOrBundle(node) { if (node.kind === 291 /* Bundle */) { return transformBundle(node); } return transformSourceFile(node); } function transformBundle(node) { return ts.createBundle(node.sourceFiles.map(transformSourceFile), ts.mapDefined(node.prepends, function (prepend) { if (prepend.kind === 293 /* InputFiles */) { return ts.createUnparsedSourceFile(prepend, "js"); } return prepend; })); } /** * Transform TypeScript-specific syntax in a SourceFile. * * @param node A SourceFile node. */ function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } currentSourceFile = node; var visited = saveStateAndInvoke(node, visitSourceFile); ts.addEmitHelpers(visited, context.readEmitHelpers()); currentSourceFile = undefined; return visited; } /** * Visits a node, saving and restoring state variables on the stack. * * @param node The node to visit. */ function saveStateAndInvoke(node, f) { // Save state var savedCurrentScope = currentLexicalScope; var savedCurrentNameScope = currentNameScope; var savedCurrentScopeFirstDeclarationsOfName = currentScopeFirstDeclarationsOfName; var savedCurrentClassHasParameterProperties = currentClassHasParameterProperties; // Handle state changes before visiting a node. onBeforeVisitNode(node); var visited = f(node); // Restore state if (currentLexicalScope !== savedCurrentScope) { currentScopeFirstDeclarationsOfName = savedCurrentScopeFirstDeclarationsOfName; } currentLexicalScope = savedCurrentScope; currentNameScope = savedCurrentNameScope; currentClassHasParameterProperties = savedCurrentClassHasParameterProperties; return visited; } /** * Performs actions that should always occur immediately before visiting a node. * * @param node The node to visit. */ function onBeforeVisitNode(node) { switch (node.kind) { case 290 /* SourceFile */: case 251 /* CaseBlock */: case 250 /* ModuleBlock */: case 223 /* Block */: currentLexicalScope = node; currentNameScope = undefined; currentScopeFirstDeclarationsOfName = undefined; break; case 245 /* ClassDeclaration */: case 244 /* FunctionDeclaration */: if (ts.hasModifier(node, 2 /* Ambient */)) { break; } // Record these declarations provided that they have a name. if (node.name) { recordEmittedDeclarationInScope(node); } else { // These nodes should always have names unless they are default-exports; // however, class declaration parsing allows for undefined names, so syntactically invalid // programs may also have an undefined name. ts.Debug.assert(node.kind === 245 /* ClassDeclaration */ || ts.hasModifier(node, 512 /* Default */)); } if (ts.isClassDeclaration(node)) { // XXX: should probably also cover interfaces and type aliases that can have type variables? currentNameScope = node; } break; } } /** * General-purpose node visitor. * * @param node The node to visit. */ function visitor(node) { return saveStateAndInvoke(node, visitorWorker); } /** * Visits and possibly transforms any node. * * @param node The node to visit. */ function visitorWorker(node) { if (node.transformFlags & 1 /* ContainsTypeScript */) { return visitTypeScript(node); } return node; } /** * Specialized visitor that visits the immediate children of a SourceFile. * * @param node The node to visit. */ function sourceElementVisitor(node) { return saveStateAndInvoke(node, sourceElementVisitorWorker); } /** * Specialized visitor that visits the immediate children of a SourceFile. * * @param node The node to visit. */ function sourceElementVisitorWorker(node) { switch (node.kind) { case 254 /* ImportDeclaration */: case 253 /* ImportEqualsDeclaration */: case 259 /* ExportAssignment */: case 260 /* ExportDeclaration */: return visitEllidableStatement(node); default: return visitorWorker(node); } } function visitEllidableStatement(node) { var parsed = ts.getParseTreeNode(node); if (parsed !== node) { // If the node has been transformed by a `before` transformer, perform no ellision on it // As the type information we would attempt to lookup to perform ellision is potentially unavailable for the synthesized nodes // We do not reuse `visitorWorker`, as the ellidable statement syntax kinds are technically unrecognized by the switch-case in `visitTypeScript`, // and will trigger debug failures when debug verbosity is turned up if (node.transformFlags & 1 /* ContainsTypeScript */) { // This node contains TypeScript, so we should visit its children. return ts.visitEachChild(node, visitor, context); } // Otherwise, we can just return the node return node; } switch (node.kind) { case 254 /* ImportDeclaration */: return visitImportDeclaration(node); case 253 /* ImportEqualsDeclaration */: return visitImportEqualsDeclaration(node); case 259 /* ExportAssignment */: return visitExportAssignment(node); case 260 /* ExportDeclaration */: return visitExportDeclaration(node); default: ts.Debug.fail("Unhandled ellided statement"); } } /** * Specialized visitor that visits the immediate children of a namespace. * * @param node The node to visit. */ function namespaceElementVisitor(node) { return saveStateAndInvoke(node, namespaceElementVisitorWorker); } /** * Specialized visitor that visits the immediate children of a namespace. * * @param node The node to visit. */ function namespaceElementVisitorWorker(node) { if (node.kind === 260 /* ExportDeclaration */ || node.kind === 254 /* ImportDeclaration */ || node.kind === 255 /* ImportClause */ || (node.kind === 253 /* ImportEqualsDeclaration */ && node.moduleReference.kind === 265 /* ExternalModuleReference */)) { // do not emit ES6 imports and exports since they are illegal inside a namespace return undefined; } else if (node.transformFlags & 1 /* ContainsTypeScript */ || ts.hasModifier(node, 1 /* Export */)) { return visitTypeScript(node); } return node; } /** * Specialized visitor that visits the immediate children of a class with TypeScript syntax. * * @param node The node to visit. */ function classElementVisitor(node) { return saveStateAndInvoke(node, classElementVisitorWorker); } /** * Specialized visitor that visits the immediate children of a class with TypeScript syntax. * * @param node The node to visit. */ function classElementVisitorWorker(node) { switch (node.kind) { case 162 /* Constructor */: return visitConstructor(node); case 159 /* PropertyDeclaration */: // Property declarations are not TypeScript syntax, but they must be visited // for the decorator transformation. return visitPropertyDeclaration(node); case 167 /* IndexSignature */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 161 /* MethodDeclaration */: // Fallback to the default visit behavior. return visitorWorker(node); case 222 /* SemicolonClassElement */: return node; default: return ts.Debug.failBadSyntaxKind(node); } } function modifierVisitor(node) { if (ts.modifierToFlag(node.kind) & 2270 /* TypeScriptModifier */) { return undefined; } else if (currentNamespace && node.kind === 89 /* ExportKeyword */) { return undefined; } return node; } /** * Branching visitor, visits a TypeScript syntax node. * * @param node The node to visit. */ function visitTypeScript(node) { if (ts.isStatement(node) && ts.hasModifier(node, 2 /* Ambient */)) { // TypeScript ambient declarations are elided, but some comments may be preserved. // See the implementation of `getLeadingComments` in comments.ts for more details. return ts.createNotEmittedStatement(node); } switch (node.kind) { case 89 /* ExportKeyword */: case 84 /* DefaultKeyword */: // ES6 export and default modifiers are elided when inside a namespace. return currentNamespace ? undefined : node; case 119 /* PublicKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 122 /* AbstractKeyword */: case 81 /* ConstKeyword */: case 130 /* DeclareKeyword */: case 138 /* ReadonlyKeyword */: // TypeScript accessibility and readonly modifiers are elided // falls through case 174 /* ArrayType */: case 175 /* TupleType */: case 176 /* OptionalType */: case 177 /* RestType */: case 173 /* TypeLiteral */: case 168 /* TypePredicate */: case 155 /* TypeParameter */: case 125 /* AnyKeyword */: case 148 /* UnknownKeyword */: case 128 /* BooleanKeyword */: case 143 /* StringKeyword */: case 140 /* NumberKeyword */: case 137 /* NeverKeyword */: case 110 /* VoidKeyword */: case 144 /* SymbolKeyword */: case 171 /* ConstructorType */: case 170 /* FunctionType */: case 172 /* TypeQuery */: case 169 /* TypeReference */: case 178 /* UnionType */: case 179 /* IntersectionType */: case 180 /* ConditionalType */: case 182 /* ParenthesizedType */: case 183 /* ThisType */: case 184 /* TypeOperator */: case 185 /* IndexedAccessType */: case 186 /* MappedType */: case 187 /* LiteralType */: // TypeScript type nodes are elided. // falls through case 167 /* IndexSignature */: // TypeScript index signatures are elided. // falls through case 157 /* Decorator */: // TypeScript decorators are elided. They will be emitted as part of visitClassDeclaration. // falls through case 247 /* TypeAliasDeclaration */: // TypeScript type-only declarations are elided. return undefined; case 159 /* PropertyDeclaration */: // TypeScript property declarations are elided. However their names are still visited, and can potentially be retained if they could have sideeffects return visitPropertyDeclaration(node); case 252 /* NamespaceExportDeclaration */: // TypeScript namespace export declarations are elided. return undefined; case 162 /* Constructor */: return visitConstructor(node); case 246 /* InterfaceDeclaration */: // TypeScript interfaces are elided, but some comments may be preserved. // See the implementation of `getLeadingComments` in comments.ts for more details. return ts.createNotEmittedStatement(node); case 245 /* ClassDeclaration */: // This may be a class declaration with TypeScript syntax extensions. // // TypeScript class syntax extensions include: // - decorators // - optional `implements` heritage clause // - parameter property assignments in the constructor // - index signatures // - method overload signatures return visitClassDeclaration(node); case 214 /* ClassExpression */: // This may be a class expression with TypeScript syntax extensions. // // TypeScript class syntax extensions include: // - decorators // - optional `implements` heritage clause // - parameter property assignments in the constructor // - index signatures // - method overload signatures return visitClassExpression(node); case 279 /* HeritageClause */: // This may be a heritage clause with TypeScript syntax extensions. // // TypeScript heritage clause extensions include: // - `implements` clause return visitHeritageClause(node); case 216 /* ExpressionWithTypeArguments */: // TypeScript supports type arguments on an expression in an `extends` heritage clause. return visitExpressionWithTypeArguments(node); case 161 /* MethodDeclaration */: // TypeScript method declarations may have decorators, modifiers // or type annotations. return visitMethodDeclaration(node); case 163 /* GetAccessor */: // Get Accessors can have TypeScript modifiers, decorators, and type annotations. return visitGetAccessor(node); case 164 /* SetAccessor */: // Set Accessors can have TypeScript modifiers and type annotations. return visitSetAccessor(node); case 244 /* FunctionDeclaration */: // Typescript function declarations can have modifiers, decorators, and type annotations. return visitFunctionDeclaration(node); case 201 /* FunctionExpression */: // TypeScript function expressions can have modifiers and type annotations. return visitFunctionExpression(node); case 202 /* ArrowFunction */: // TypeScript arrow functions can have modifiers and type annotations. return visitArrowFunction(node); case 156 /* Parameter */: // This may be a parameter declaration with TypeScript syntax extensions. // // TypeScript parameter declaration syntax extensions include: // - decorators // - accessibility modifiers // - the question mark (?) token for optional parameters // - type annotations // - this parameters return visitParameter(node); case 200 /* ParenthesizedExpression */: // ParenthesizedExpressions are TypeScript if their expression is a // TypeAssertion or AsExpression return visitParenthesizedExpression(node); case 199 /* TypeAssertionExpression */: case 217 /* AsExpression */: // TypeScript type assertions are removed, but their subtrees are preserved. return visitAssertionExpression(node); case 196 /* CallExpression */: return visitCallExpression(node); case 197 /* NewExpression */: return visitNewExpression(node); case 198 /* TaggedTemplateExpression */: return visitTaggedTemplateExpression(node); case 218 /* NonNullExpression */: // TypeScript non-null expressions are removed, but their subtrees are preserved. return visitNonNullExpression(node); case 248 /* EnumDeclaration */: // TypeScript enum declarations do not exist in ES6 and must be rewritten. return visitEnumDeclaration(node); case 225 /* VariableStatement */: // TypeScript namespace exports for variable statements must be transformed. return visitVariableStatement(node); case 242 /* VariableDeclaration */: return visitVariableDeclaration(node); case 249 /* ModuleDeclaration */: // TypeScript namespace declarations must be transformed. return visitModuleDeclaration(node); case 253 /* ImportEqualsDeclaration */: // TypeScript namespace or external module import. return visitImportEqualsDeclaration(node); case 267 /* JsxSelfClosingElement */: return visitJsxSelfClosingElement(node); case 268 /* JsxOpeningElement */: return visitJsxJsxOpeningElement(node); default: // node contains some other TypeScript syntax return ts.visitEachChild(node, visitor, context); } } function visitSourceFile(node) { var alwaysStrict = ts.getStrictOptionValue(compilerOptions, "alwaysStrict") && !(ts.isExternalModule(node) && moduleKind >= ts.ModuleKind.ES2015) && !ts.isJsonSourceFile(node); return ts.updateSourceFileNode(node, ts.visitLexicalEnvironment(node.statements, sourceElementVisitor, context, /*start*/ 0, alwaysStrict)); } /** * Tests whether we should emit a __decorate call for a class declaration. */ function shouldEmitDecorateCallForClass(node) { if (node.decorators && node.decorators.length > 0) { return true; } var constructor = ts.getFirstConstructorWithBody(node); if (constructor) { return ts.forEach(constructor.parameters, shouldEmitDecorateCallForParameter); } return false; } /** * Tests whether we should emit a __decorate call for a parameter declaration. */ function shouldEmitDecorateCallForParameter(parameter) { return parameter.decorators !== undefined && parameter.decorators.length > 0; } function getClassFacts(node, staticProperties) { var facts = 0 /* None */; if (ts.some(staticProperties)) facts |= 1 /* HasStaticInitializedProperties */; var extendsClauseElement = ts.getEffectiveBaseTypeNode(node); if (extendsClauseElement && ts.skipOuterExpressions(extendsClauseElement.expression).kind !== 100 /* NullKeyword */) facts |= 64 /* IsDerivedClass */; if (shouldEmitDecorateCallForClass(node)) facts |= 2 /* HasConstructorDecorators */; if (ts.childIsDecorated(node)) facts |= 4 /* HasMemberDecorators */; if (isExportOfNamespace(node)) facts |= 8 /* IsExportOfNamespace */; else if (isDefaultExternalModuleExport(node)) facts |= 32 /* IsDefaultExternalExport */; else if (isNamedExternalModuleExport(node)) facts |= 16 /* IsNamedExternalExport */; return facts; } function hasTypeScriptClassSyntax(node) { return !!(node.transformFlags & 2048 /* ContainsTypeScriptClassSyntax */); } function isClassLikeDeclarationWithTypeScriptSyntax(node) { return ts.some(node.decorators) || ts.some(node.typeParameters) || ts.some(node.heritageClauses, hasTypeScriptClassSyntax) || ts.some(node.members, hasTypeScriptClassSyntax); } function visitClassDeclaration(node) { if (!isClassLikeDeclarationWithTypeScriptSyntax(node) && !(currentNamespace && ts.hasModifier(node, 1 /* Export */))) { return ts.visitEachChild(node, visitor, context); } var staticProperties = ts.getProperties(node, /*requireInitializer*/ true, /*isStatic*/ true); var facts = getClassFacts(node, staticProperties); if (facts & 7 /* UseImmediatelyInvokedFunctionExpression */) { context.startLexicalEnvironment(); } var name = node.name || (facts & 5 /* NeedsName */ ? ts.getGeneratedNameForNode(node) : undefined); var classStatement = facts & 2 /* HasConstructorDecorators */ ? createClassDeclarationHeadWithDecorators(node, name) : createClassDeclarationHeadWithoutDecorators(node, name, facts); var statements = [classStatement]; // Write any decorators of the node. addClassElementDecorationStatements(statements, node, /*isStatic*/ false); addClassElementDecorationStatements(statements, node, /*isStatic*/ true); addConstructorDecorationStatement(statements, node); if (facts & 7 /* UseImmediatelyInvokedFunctionExpression */) { // When we emit a TypeScript class down to ES5, we must wrap it in an IIFE so that the // 'es2015' transformer can properly nest static initializers and decorators. The result // looks something like: // // var C = function () { // class C { // } // C.static_prop = 1; // return C; // }(); // var closingBraceLocation = ts.createTokenRange(ts.skipTrivia(currentSourceFile.text, node.members.end), 19 /* CloseBraceToken */); var localName = ts.getInternalName(node); // The following partially-emitted expression exists purely to align our sourcemap // emit with the original emitter. var outer = ts.createPartiallyEmittedExpression(localName); outer.end = closingBraceLocation.end; ts.setEmitFlags(outer, 1536 /* NoComments */); var statement = ts.createReturn(outer); statement.pos = closingBraceLocation.pos; ts.setEmitFlags(statement, 1536 /* NoComments */ | 384 /* NoTokenSourceMaps */); statements.push(statement); ts.insertStatementsAfterStandardPrologue(statements, context.endLexicalEnvironment()); var iife = ts.createImmediatelyInvokedArrowFunction(statements); ts.setEmitFlags(iife, 33554432 /* TypeScriptClassWrapper */); // Class comment is already added by the ES2015 transform when targeting ES5 or below. // Only add if targetting ES2015+ to prevent duplicates if (languageVersion > 1 /* ES5 */) { ts.addSyntheticLeadingComment(iife, 3 /* MultiLineCommentTrivia */, "* @class "); } var varStatement = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ false), /*type*/ undefined, iife) ], languageVersion > 1 /* ES5 */ ? 1 /* Let */ : undefined)); ts.setOriginalNode(varStatement, node); ts.setCommentRange(varStatement, node); ts.setSourceMapRange(varStatement, ts.moveRangePastDecorators(node)); ts.startOnNewLine(varStatement); statements = [varStatement]; } // If the class is exported as part of a TypeScript namespace, emit the namespace export. // Otherwise, if the class was exported at the top level and was decorated, emit an export // declaration or export default for the class. if (facts & 8 /* IsExportOfNamespace */) { addExportMemberAssignment(statements, node); } else if (facts & 7 /* UseImmediatelyInvokedFunctionExpression */ || facts & 2 /* HasConstructorDecorators */) { if (facts & 32 /* IsDefaultExternalExport */) { statements.push(ts.createExportDefault(ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true))); } else if (facts & 16 /* IsNamedExternalExport */) { statements.push(ts.createExternalModuleExport(ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true))); } } if (statements.length > 1) { // Add a DeclarationMarker as a marker for the end of the declaration statements.push(ts.createEndOfDeclarationMarker(node)); ts.setEmitFlags(classStatement, ts.getEmitFlags(classStatement) | 4194304 /* HasEndOfDeclarationMarker */); } return ts.singleOrMany(statements); } /** * Transforms a non-decorated class declaration and appends the resulting statements. * * @param node A ClassDeclaration node. * @param name The name of the class. * @param facts Precomputed facts about the class. */ function createClassDeclarationHeadWithoutDecorators(node, name, facts) { // ${modifiers} class ${name} ${heritageClauses} { // ${members} // } // we do not emit modifiers on the declaration if we are emitting an IIFE var modifiers = !(facts & 7 /* UseImmediatelyInvokedFunctionExpression */) ? ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier) : undefined; var classDeclaration = ts.createClassDeclaration( /*decorators*/ undefined, modifiers, name, /*typeParameters*/ undefined, ts.visitNodes(node.heritageClauses, visitor, ts.isHeritageClause), transformClassMembers(node)); // To better align with the old emitter, we should not emit a trailing source map // entry if the class has static properties. var emitFlags = ts.getEmitFlags(node); if (facts & 1 /* HasStaticInitializedProperties */) { emitFlags |= 32 /* NoTrailingSourceMap */; } ts.aggregateTransformFlags(classDeclaration); ts.setTextRange(classDeclaration, node); ts.setOriginalNode(classDeclaration, node); ts.setEmitFlags(classDeclaration, emitFlags); return classDeclaration; } /** * Transforms a decorated class declaration and appends the resulting statements. If * the class requires an alias to avoid issues with double-binding, the alias is returned. */ function createClassDeclarationHeadWithDecorators(node, name) { // When we emit an ES6 class that has a class decorator, we must tailor the // emit to certain specific cases. // // In the simplest case, we emit the class declaration as a let declaration, and // evaluate decorators after the close of the class body: // // [Example 1] // --------------------------------------------------------------------- // TypeScript | Javascript // --------------------------------------------------------------------- // @dec | let C = class C { // class C { | } // } | C = __decorate([dec], C); // --------------------------------------------------------------------- // @dec | let C = class C { // export class C { | } // } | C = __decorate([dec], C); // | export { C }; // --------------------------------------------------------------------- // // If a class declaration contains a reference to itself *inside* of the class body, // this introduces two bindings to the class: One outside of the class body, and one // inside of the class body. If we apply decorators as in [Example 1] above, there // is the possibility that the decorator `dec` will return a new value for the // constructor, which would result in the binding inside of the class no longer // pointing to the same reference as the binding outside of the class. // // As a result, we must instead rewrite all references to the class *inside* of the // class body to instead point to a local temporary alias for the class: // // [Example 2] // --------------------------------------------------------------------- // TypeScript | Javascript // --------------------------------------------------------------------- // @dec | let C = C_1 = class C { // class C { | static x() { return C_1.y; } // static x() { return C.y; } | } // static y = 1; | C.y = 1; // } | C = C_1 = __decorate([dec], C); // | var C_1; // --------------------------------------------------------------------- // @dec | let C = class C { // export class C { | static x() { return C_1.y; } // static x() { return C.y; } | } // static y = 1; | C.y = 1; // } | C = C_1 = __decorate([dec], C); // | export { C }; // | var C_1; // --------------------------------------------------------------------- // // If a class declaration is the default export of a module, we instead emit // the export after the decorated declaration: // // [Example 3] // --------------------------------------------------------------------- // TypeScript | Javascript // --------------------------------------------------------------------- // @dec | let default_1 = class { // export default class { | } // } | default_1 = __decorate([dec], default_1); // | export default default_1; // --------------------------------------------------------------------- // @dec | let C = class C { // export default class C { | } // } | C = __decorate([dec], C); // | export default C; // --------------------------------------------------------------------- // // If the class declaration is the default export and a reference to itself // inside of the class body, we must emit both an alias for the class *and* // move the export after the declaration: // // [Example 4] // --------------------------------------------------------------------- // TypeScript | Javascript // --------------------------------------------------------------------- // @dec | let C = class C { // export default class C { | static x() { return C_1.y; } // static x() { return C.y; } | } // static y = 1; | C.y = 1; // } | C = C_1 = __decorate([dec], C); // | export default C; // | var C_1; // --------------------------------------------------------------------- // var location = ts.moveRangePastDecorators(node); var classAlias = getClassAliasIfNeeded(node); var declName = ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true); // ... = class ${name} ${heritageClauses} { // ${members} // } var heritageClauses = ts.visitNodes(node.heritageClauses, visitor, ts.isHeritageClause); var members = transformClassMembers(node); var classExpression = ts.createClassExpression(/*modifiers*/ undefined, name, /*typeParameters*/ undefined, heritageClauses, members); ts.aggregateTransformFlags(classExpression); ts.setOriginalNode(classExpression, node); ts.setTextRange(classExpression, location); // let ${name} = ${classExpression} where name is either declaredName if the class doesn't contain self-reference // or decoratedClassAlias if the class contain self-reference. var statement = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(declName, /*type*/ undefined, classAlias ? ts.createAssignment(classAlias, classExpression) : classExpression) ], 1 /* Let */)); ts.setOriginalNode(statement, node); ts.setTextRange(statement, location); ts.setCommentRange(statement, node); return statement; } function visitClassExpression(node) { if (!isClassLikeDeclarationWithTypeScriptSyntax(node)) { return ts.visitEachChild(node, visitor, context); } var classExpression = ts.createClassExpression( /*modifiers*/ undefined, node.name, /*typeParameters*/ undefined, ts.visitNodes(node.heritageClauses, visitor, ts.isHeritageClause), transformClassMembers(node)); ts.aggregateTransformFlags(classExpression); ts.setOriginalNode(classExpression, node); ts.setTextRange(classExpression, node); return classExpression; } /** * Transforms the members of a class. * * @param node The current class. */ function transformClassMembers(node) { var members = []; var constructor = ts.getFirstConstructorWithBody(node); var parametersWithPropertyAssignments = constructor && ts.filter(constructor.parameters, function (p) { return ts.isParameterPropertyDeclaration(p, constructor); }); if (parametersWithPropertyAssignments) { for (var _i = 0, parametersWithPropertyAssignments_1 = parametersWithPropertyAssignments; _i < parametersWithPropertyAssignments_1.length; _i++) { var parameter = parametersWithPropertyAssignments_1[_i]; if (ts.isIdentifier(parameter.name)) { members.push(ts.setOriginalNode(ts.aggregateTransformFlags(ts.createProperty( /*decorators*/ undefined, /*modifiers*/ undefined, parameter.name, /*questionOrExclamationToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined)), parameter)); } } } ts.addRange(members, ts.visitNodes(node.members, classElementVisitor, ts.isClassElement)); return ts.setTextRange(ts.createNodeArray(members), /*location*/ node.members); } /** * Gets either the static or instance members of a class that are decorated, or have * parameters that are decorated. * * @param node The class containing the member. * @param isStatic A value indicating whether to retrieve static or instance members of * the class. */ function getDecoratedClassElements(node, isStatic) { return ts.filter(node.members, isStatic ? function (m) { return isStaticDecoratedClassElement(m, node); } : function (m) { return isInstanceDecoratedClassElement(m, node); }); } /** * Determines whether a class member is a static member of a class that is decorated, or * has parameters that are decorated. * * @param member The class member. */ function isStaticDecoratedClassElement(member, parent) { return isDecoratedClassElement(member, /*isStatic*/ true, parent); } /** * Determines whether a class member is an instance member of a class that is decorated, * or has parameters that are decorated. * * @param member The class member. */ function isInstanceDecoratedClassElement(member, parent) { return isDecoratedClassElement(member, /*isStatic*/ false, parent); } /** * Determines whether a class member is either a static or an instance member of a class * that is decorated, or has parameters that are decorated. * * @param member The class member. */ function isDecoratedClassElement(member, isStatic, parent) { return ts.nodeOrChildIsDecorated(member, parent) && isStatic === ts.hasModifier(member, 32 /* Static */); } /** * Gets an array of arrays of decorators for the parameters of a function-like node. * The offset into the result array should correspond to the offset of the parameter. * * @param node The function-like node. */ function getDecoratorsOfParameters(node) { var decorators; if (node) { var parameters = node.parameters; var firstParameterIsThis = parameters.length > 0 && ts.parameterIsThisKeyword(parameters[0]); var firstParameterOffset = firstParameterIsThis ? 1 : 0; var numParameters = firstParameterIsThis ? parameters.length - 1 : parameters.length; for (var i = 0; i < numParameters; i++) { var parameter = parameters[i + firstParameterOffset]; if (decorators || parameter.decorators) { if (!decorators) { decorators = new Array(numParameters); } decorators[i] = parameter.decorators; } } } return decorators; } /** * Gets an AllDecorators object containing the decorators for the class and the decorators for the * parameters of the constructor of the class. * * @param node The class node. */ function getAllDecoratorsOfConstructor(node) { var decorators = node.decorators; var parameters = getDecoratorsOfParameters(ts.getFirstConstructorWithBody(node)); if (!decorators && !parameters) { return undefined; } return { decorators: decorators, parameters: parameters }; } /** * Gets an AllDecorators object containing the decorators for the member and its parameters. * * @param node The class node that contains the member. * @param member The class member. */ function getAllDecoratorsOfClassElement(node, member) { switch (member.kind) { case 163 /* GetAccessor */: case 164 /* SetAccessor */: return getAllDecoratorsOfAccessors(node, member); case 161 /* MethodDeclaration */: return getAllDecoratorsOfMethod(member); case 159 /* PropertyDeclaration */: return getAllDecoratorsOfProperty(member); default: return undefined; } } /** * Gets an AllDecorators object containing the decorators for the accessor and its parameters. * * @param node The class node that contains the accessor. * @param accessor The class accessor member. */ function getAllDecoratorsOfAccessors(node, accessor) { if (!accessor.body) { return undefined; } var _a = ts.getAllAccessorDeclarations(node.members, accessor), firstAccessor = _a.firstAccessor, secondAccessor = _a.secondAccessor, setAccessor = _a.setAccessor; var firstAccessorWithDecorators = firstAccessor.decorators ? firstAccessor : secondAccessor && secondAccessor.decorators ? secondAccessor : undefined; if (!firstAccessorWithDecorators || accessor !== firstAccessorWithDecorators) { return undefined; } var decorators = firstAccessorWithDecorators.decorators; var parameters = getDecoratorsOfParameters(setAccessor); if (!decorators && !parameters) { return undefined; } return { decorators: decorators, parameters: parameters }; } /** * Gets an AllDecorators object containing the decorators for the method and its parameters. * * @param method The class method member. */ function getAllDecoratorsOfMethod(method) { if (!method.body) { return undefined; } var decorators = method.decorators; var parameters = getDecoratorsOfParameters(method); if (!decorators && !parameters) { return undefined; } return { decorators: decorators, parameters: parameters }; } /** * Gets an AllDecorators object containing the decorators for the property. * * @param property The class property member. */ function getAllDecoratorsOfProperty(property) { var decorators = property.decorators; if (!decorators) { return undefined; } return { decorators: decorators }; } /** * Transforms all of the decorators for a declaration into an array of expressions. * * @param node The declaration node. * @param allDecorators An object containing all of the decorators for the declaration. */ function transformAllDecoratorsOfDeclaration(node, container, allDecorators) { if (!allDecorators) { return undefined; } var decoratorExpressions = []; ts.addRange(decoratorExpressions, ts.map(allDecorators.decorators, transformDecorator)); ts.addRange(decoratorExpressions, ts.flatMap(allDecorators.parameters, transformDecoratorsOfParameter)); addTypeMetadata(node, container, decoratorExpressions); return decoratorExpressions; } /** * Generates statements used to apply decorators to either the static or instance members * of a class. * * @param node The class node. * @param isStatic A value indicating whether to generate statements for static or * instance members. */ function addClassElementDecorationStatements(statements, node, isStatic) { ts.addRange(statements, ts.map(generateClassElementDecorationExpressions(node, isStatic), expressionToStatement)); } /** * Generates expressions used to apply decorators to either the static or instance members * of a class. * * @param node The class node. * @param isStatic A value indicating whether to generate expressions for static or * instance members. */ function generateClassElementDecorationExpressions(node, isStatic) { var members = getDecoratedClassElements(node, isStatic); var expressions; for (var _i = 0, members_6 = members; _i < members_6.length; _i++) { var member = members_6[_i]; var expression = generateClassElementDecorationExpression(node, member); if (expression) { if (!expressions) { expressions = [expression]; } else { expressions.push(expression); } } } return expressions; } /** * Generates an expression used to evaluate class element decorators at runtime. * * @param node The class node that contains the member. * @param member The class member. */ function generateClassElementDecorationExpression(node, member) { var allDecorators = getAllDecoratorsOfClassElement(node, member); var decoratorExpressions = transformAllDecoratorsOfDeclaration(member, node, allDecorators); if (!decoratorExpressions) { return undefined; } // Emit the call to __decorate. Given the following: // // class C { // @dec method(@dec2 x) {} // @dec get accessor() {} // @dec prop; // } // // The emit for a method is: // // __decorate([ // dec, // __param(0, dec2), // __metadata("design:type", Function), // __metadata("design:paramtypes", [Object]), // __metadata("design:returntype", void 0) // ], C.prototype, "method", null); // // The emit for an accessor is: // // __decorate([ // dec // ], C.prototype, "accessor", null); // // The emit for a property is: // // __decorate([ // dec // ], C.prototype, "prop"); // var prefix = getClassMemberPrefix(node, member); var memberName = getExpressionForPropertyName(member, /*generateNameForComputedPropertyName*/ true); var descriptor = languageVersion > 0 /* ES3 */ ? member.kind === 159 /* PropertyDeclaration */ // We emit `void 0` here to indicate to `__decorate` that it can invoke `Object.defineProperty` directly, but that it // should not invoke `Object.getOwnPropertyDescriptor`. ? ts.createVoidZero() // We emit `null` here to indicate to `__decorate` that it can invoke `Object.getOwnPropertyDescriptor` directly. // We have this extra argument here so that we can inject an explicit property descriptor at a later date. : ts.createNull() : undefined; var helper = createDecorateHelper(context, decoratorExpressions, prefix, memberName, descriptor, ts.moveRangePastDecorators(member)); ts.setEmitFlags(helper, 1536 /* NoComments */); return helper; } /** * Generates a __decorate helper call for a class constructor. * * @param node The class node. */ function addConstructorDecorationStatement(statements, node) { var expression = generateConstructorDecorationExpression(node); if (expression) { statements.push(ts.setOriginalNode(ts.createExpressionStatement(expression), node)); } } /** * Generates a __decorate helper call for a class constructor. * * @param node The class node. */ function generateConstructorDecorationExpression(node) { var allDecorators = getAllDecoratorsOfConstructor(node); var decoratorExpressions = transformAllDecoratorsOfDeclaration(node, node, allDecorators); if (!decoratorExpressions) { return undefined; } var classAlias = classAliases && classAliases[ts.getOriginalNodeId(node)]; var localName = ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true); var decorate = createDecorateHelper(context, decoratorExpressions, localName); var expression = ts.createAssignment(localName, classAlias ? ts.createAssignment(classAlias, decorate) : decorate); ts.setEmitFlags(expression, 1536 /* NoComments */); ts.setSourceMapRange(expression, ts.moveRangePastDecorators(node)); return expression; } /** * Transforms a decorator into an expression. * * @param decorator The decorator node. */ function transformDecorator(decorator) { return ts.visitNode(decorator.expression, visitor, ts.isExpression); } /** * Transforms the decorators of a parameter. * * @param decorators The decorators for the parameter at the provided offset. * @param parameterOffset The offset of the parameter. */ function transformDecoratorsOfParameter(decorators, parameterOffset) { var expressions; if (decorators) { expressions = []; for (var _i = 0, decorators_1 = decorators; _i < decorators_1.length; _i++) { var decorator = decorators_1[_i]; var helper = createParamHelper(context, transformDecorator(decorator), parameterOffset, /*location*/ decorator.expression); ts.setEmitFlags(helper, 1536 /* NoComments */); expressions.push(helper); } } return expressions; } /** * Adds optional type metadata for a declaration. * * @param node The declaration node. * @param decoratorExpressions The destination array to which to add new decorator expressions. */ function addTypeMetadata(node, container, decoratorExpressions) { if (USE_NEW_TYPE_METADATA_FORMAT) { addNewTypeMetadata(node, container, decoratorExpressions); } else { addOldTypeMetadata(node, container, decoratorExpressions); } } function addOldTypeMetadata(node, container, decoratorExpressions) { if (compilerOptions.emitDecoratorMetadata) { if (shouldAddTypeMetadata(node)) { decoratorExpressions.push(createMetadataHelper(context, "design:type", serializeTypeOfNode(node))); } if (shouldAddParamTypesMetadata(node)) { decoratorExpressions.push(createMetadataHelper(context, "design:paramtypes", serializeParameterTypesOfNode(node, container))); } if (shouldAddReturnTypeMetadata(node)) { decoratorExpressions.push(createMetadataHelper(context, "design:returntype", serializeReturnTypeOfNode(node))); } } } function addNewTypeMetadata(node, container, decoratorExpressions) { if (compilerOptions.emitDecoratorMetadata) { var properties = void 0; if (shouldAddTypeMetadata(node)) { (properties || (properties = [])).push(ts.createPropertyAssignment("type", ts.createArrowFunction(/*modifiers*/ undefined, /*typeParameters*/ undefined, [], /*type*/ undefined, ts.createToken(38 /* EqualsGreaterThanToken */), serializeTypeOfNode(node)))); } if (shouldAddParamTypesMetadata(node)) { (properties || (properties = [])).push(ts.createPropertyAssignment("paramTypes", ts.createArrowFunction(/*modifiers*/ undefined, /*typeParameters*/ undefined, [], /*type*/ undefined, ts.createToken(38 /* EqualsGreaterThanToken */), serializeParameterTypesOfNode(node, container)))); } if (shouldAddReturnTypeMetadata(node)) { (properties || (properties = [])).push(ts.createPropertyAssignment("returnType", ts.createArrowFunction(/*modifiers*/ undefined, /*typeParameters*/ undefined, [], /*type*/ undefined, ts.createToken(38 /* EqualsGreaterThanToken */), serializeReturnTypeOfNode(node)))); } if (properties) { decoratorExpressions.push(createMetadataHelper(context, "design:typeinfo", ts.createObjectLiteral(properties, /*multiLine*/ true))); } } } /** * Determines whether to emit the "design:type" metadata based on the node's kind. * The caller should have already tested whether the node has decorators and whether the * emitDecoratorMetadata compiler option is set. * * @param node The node to test. */ function shouldAddTypeMetadata(node) { var kind = node.kind; return kind === 161 /* MethodDeclaration */ || kind === 163 /* GetAccessor */ || kind === 164 /* SetAccessor */ || kind === 159 /* PropertyDeclaration */; } /** * Determines whether to emit the "design:returntype" metadata based on the node's kind. * The caller should have already tested whether the node has decorators and whether the * emitDecoratorMetadata compiler option is set. * * @param node The node to test. */ function shouldAddReturnTypeMetadata(node) { return node.kind === 161 /* MethodDeclaration */; } /** * Determines whether to emit the "design:paramtypes" metadata based on the node's kind. * The caller should have already tested whether the node has decorators and whether the * emitDecoratorMetadata compiler option is set. * * @param node The node to test. */ function shouldAddParamTypesMetadata(node) { switch (node.kind) { case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return ts.getFirstConstructorWithBody(node) !== undefined; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return true; } return false; } function getAccessorTypeNode(node) { var accessors = resolver.getAllAccessorDeclarations(node); return accessors.setAccessor && ts.getSetAccessorTypeAnnotationNode(accessors.setAccessor) || accessors.getAccessor && ts.getEffectiveReturnTypeNode(accessors.getAccessor); } /** * Serializes the type of a node for use with decorator type metadata. * * @param node The node that should have its type serialized. */ function serializeTypeOfNode(node) { switch (node.kind) { case 159 /* PropertyDeclaration */: case 156 /* Parameter */: return serializeTypeNode(node.type); case 164 /* SetAccessor */: case 163 /* GetAccessor */: return serializeTypeNode(getAccessorTypeNode(node)); case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 161 /* MethodDeclaration */: return ts.createIdentifier("Function"); default: return ts.createVoidZero(); } } /** * Serializes the types of the parameters of a node for use with decorator type metadata. * * @param node The node that should have its parameter types serialized. */ function serializeParameterTypesOfNode(node, container) { var valueDeclaration = ts.isClassLike(node) ? ts.getFirstConstructorWithBody(node) : ts.isFunctionLike(node) && ts.nodeIsPresent(node.body) ? node : undefined; var expressions = []; if (valueDeclaration) { var parameters = getParametersOfDecoratedDeclaration(valueDeclaration, container); var numParameters = parameters.length; for (var i = 0; i < numParameters; i++) { var parameter = parameters[i]; if (i === 0 && ts.isIdentifier(parameter.name) && parameter.name.escapedText === "this") { continue; } if (parameter.dotDotDotToken) { expressions.push(serializeTypeNode(ts.getRestParameterElementType(parameter.type))); } else { expressions.push(serializeTypeOfNode(parameter)); } } } return ts.createArrayLiteral(expressions); } function getParametersOfDecoratedDeclaration(node, container) { if (container && node.kind === 163 /* GetAccessor */) { var setAccessor = ts.getAllAccessorDeclarations(container.members, node).setAccessor; if (setAccessor) { return setAccessor.parameters; } } return node.parameters; } /** * Serializes the return type of a node for use with decorator type metadata. * * @param node The node that should have its return type serialized. */ function serializeReturnTypeOfNode(node) { if (ts.isFunctionLike(node) && node.type) { return serializeTypeNode(node.type); } else if (ts.isAsyncFunction(node)) { return ts.createIdentifier("Promise"); } return ts.createVoidZero(); } /** * Serializes a type node for use with decorator type metadata. * * Types are serialized in the following fashion: * - Void types point to "undefined" (e.g. "void 0") * - Function and Constructor types point to the global "Function" constructor. * - Interface types with a call or construct signature types point to the global * "Function" constructor. * - Array and Tuple types point to the global "Array" constructor. * - Type predicates and booleans point to the global "Boolean" constructor. * - String literal types and strings point to the global "String" constructor. * - Enum and number types point to the global "Number" constructor. * - Symbol types point to the global "Symbol" constructor. * - Type references to classes (or class-like variables) point to the constructor for the class. * - Anything else points to the global "Object" constructor. * * @param node The type node to serialize. */ function serializeTypeNode(node) { if (node === undefined) { return ts.createIdentifier("Object"); } switch (node.kind) { case 110 /* VoidKeyword */: case 146 /* UndefinedKeyword */: case 100 /* NullKeyword */: case 137 /* NeverKeyword */: return ts.createVoidZero(); case 182 /* ParenthesizedType */: return serializeTypeNode(node.type); case 170 /* FunctionType */: case 171 /* ConstructorType */: return ts.createIdentifier("Function"); case 174 /* ArrayType */: case 175 /* TupleType */: return ts.createIdentifier("Array"); case 168 /* TypePredicate */: case 128 /* BooleanKeyword */: return ts.createIdentifier("Boolean"); case 143 /* StringKeyword */: return ts.createIdentifier("String"); case 141 /* ObjectKeyword */: return ts.createIdentifier("Object"); case 187 /* LiteralType */: switch (node.literal.kind) { case 10 /* StringLiteral */: return ts.createIdentifier("String"); case 207 /* PrefixUnaryExpression */: case 8 /* NumericLiteral */: return ts.createIdentifier("Number"); case 9 /* BigIntLiteral */: return getGlobalBigIntNameWithFallback(); case 106 /* TrueKeyword */: case 91 /* FalseKeyword */: return ts.createIdentifier("Boolean"); default: return ts.Debug.failBadSyntaxKind(node.literal); } case 140 /* NumberKeyword */: return ts.createIdentifier("Number"); case 151 /* BigIntKeyword */: return getGlobalBigIntNameWithFallback(); case 144 /* SymbolKeyword */: return languageVersion < 2 /* ES2015 */ ? getGlobalSymbolNameWithFallback() : ts.createIdentifier("Symbol"); case 169 /* TypeReference */: return serializeTypeReferenceNode(node); case 179 /* IntersectionType */: case 178 /* UnionType */: return serializeTypeList(node.types); case 180 /* ConditionalType */: return serializeTypeList([node.trueType, node.falseType]); case 184 /* TypeOperator */: if (node.operator === 138 /* ReadonlyKeyword */) { return serializeTypeNode(node.type); } break; case 172 /* TypeQuery */: case 185 /* IndexedAccessType */: case 186 /* MappedType */: case 173 /* TypeLiteral */: case 125 /* AnyKeyword */: case 148 /* UnknownKeyword */: case 183 /* ThisType */: case 188 /* ImportType */: break; // handle JSDoc types from an invalid parse case 295 /* JSDocAllType */: case 296 /* JSDocUnknownType */: case 300 /* JSDocFunctionType */: case 301 /* JSDocVariadicType */: case 302 /* JSDocNamepathType */: break; case 297 /* JSDocNullableType */: case 298 /* JSDocNonNullableType */: case 299 /* JSDocOptionalType */: return serializeTypeNode(node.type); default: return ts.Debug.failBadSyntaxKind(node); } return ts.createIdentifier("Object"); } function serializeTypeList(types) { // Note when updating logic here also update getEntityNameForDecoratorMetadata // so that aliases can be marked as referenced var serializedUnion; for (var _i = 0, types_21 = types; _i < types_21.length; _i++) { var typeNode = types_21[_i]; while (typeNode.kind === 182 /* ParenthesizedType */) { typeNode = typeNode.type; // Skip parens if need be } if (typeNode.kind === 137 /* NeverKeyword */) { continue; // Always elide `never` from the union/intersection if possible } if (!strictNullChecks && (typeNode.kind === 100 /* NullKeyword */ || typeNode.kind === 146 /* UndefinedKeyword */)) { continue; // Elide null and undefined from unions for metadata, just like what we did prior to the implementation of strict null checks } var serializedIndividual = serializeTypeNode(typeNode); if (ts.isIdentifier(serializedIndividual) && serializedIndividual.escapedText === "Object") { // One of the individual is global object, return immediately return serializedIndividual; } // If there exists union that is not void 0 expression, check if the the common type is identifier. // anything more complex and we will just default to Object else if (serializedUnion) { // Different types if (!ts.isIdentifier(serializedUnion) || !ts.isIdentifier(serializedIndividual) || serializedUnion.escapedText !== serializedIndividual.escapedText) { return ts.createIdentifier("Object"); } } else { // Initialize the union type serializedUnion = serializedIndividual; } } // If we were able to find common type, use it return serializedUnion || ts.createVoidZero(); // Fallback is only hit if all union constituients are null/undefined/never } /** * Serializes a TypeReferenceNode to an appropriate JS constructor value for use with * decorator type metadata. * * @param node The type reference node. */ function serializeTypeReferenceNode(node) { var kind = resolver.getTypeReferenceSerializationKind(node.typeName, currentNameScope || currentLexicalScope); switch (kind) { case ts.TypeReferenceSerializationKind.Unknown: // From conditional type type reference that cannot be resolved is Similar to any or unknown if (ts.findAncestor(node, function (n) { return n.parent && ts.isConditionalTypeNode(n.parent) && (n.parent.trueType === n || n.parent.falseType === n); })) { return ts.createIdentifier("Object"); } var serialized = serializeEntityNameAsExpressionFallback(node.typeName); var temp = ts.createTempVariable(hoistVariableDeclaration); return ts.createConditional(ts.createTypeCheck(ts.createAssignment(temp, serialized), "function"), temp, ts.createIdentifier("Object")); case ts.TypeReferenceSerializationKind.TypeWithConstructSignatureAndValue: return serializeEntityNameAsExpression(node.typeName); case ts.TypeReferenceSerializationKind.VoidNullableOrNeverType: return ts.createVoidZero(); case ts.TypeReferenceSerializationKind.BigIntLikeType: return getGlobalBigIntNameWithFallback(); case ts.TypeReferenceSerializationKind.BooleanType: return ts.createIdentifier("Boolean"); case ts.TypeReferenceSerializationKind.NumberLikeType: return ts.createIdentifier("Number"); case ts.TypeReferenceSerializationKind.StringLikeType: return ts.createIdentifier("String"); case ts.TypeReferenceSerializationKind.ArrayLikeType: return ts.createIdentifier("Array"); case ts.TypeReferenceSerializationKind.ESSymbolType: return languageVersion < 2 /* ES2015 */ ? getGlobalSymbolNameWithFallback() : ts.createIdentifier("Symbol"); case ts.TypeReferenceSerializationKind.TypeWithCallSignature: return ts.createIdentifier("Function"); case ts.TypeReferenceSerializationKind.Promise: return ts.createIdentifier("Promise"); case ts.TypeReferenceSerializationKind.ObjectType: return ts.createIdentifier("Object"); default: return ts.Debug.assertNever(kind); } } function createCheckedValue(left, right) { return ts.createLogicalAnd(ts.createStrictInequality(ts.createTypeOf(left), ts.createLiteral("undefined")), right); } /** * Serializes an entity name which may not exist at runtime, but whose access shouldn't throw * * @param node The entity name to serialize. */ function serializeEntityNameAsExpressionFallback(node) { if (node.kind === 75 /* Identifier */) { // A -> typeof A !== undefined && A var copied = serializeEntityNameAsExpression(node); return createCheckedValue(copied, copied); } if (node.left.kind === 75 /* Identifier */) { // A.B -> typeof A !== undefined && A.B return createCheckedValue(serializeEntityNameAsExpression(node.left), serializeEntityNameAsExpression(node)); } // A.B.C -> typeof A !== undefined && (_a = A.B) !== void 0 && _a.C var left = serializeEntityNameAsExpressionFallback(node.left); var temp = ts.createTempVariable(hoistVariableDeclaration); return ts.createLogicalAnd(ts.createLogicalAnd(left.left, ts.createStrictInequality(ts.createAssignment(temp, left.right), ts.createVoidZero())), ts.createPropertyAccess(temp, node.right)); } /** * Serializes an entity name as an expression for decorator type metadata. * * @param node The entity name to serialize. */ function serializeEntityNameAsExpression(node) { switch (node.kind) { case 75 /* Identifier */: // Create a clone of the name with a new parent, and treat it as if it were // a source tree node for the purposes of the checker. var name = ts.getMutableClone(node); name.flags &= ~8 /* Synthesized */; name.original = undefined; name.parent = ts.getParseTreeNode(currentLexicalScope); // ensure the parent is set to a parse tree node. return name; case 153 /* QualifiedName */: return serializeQualifiedNameAsExpression(node); } } /** * Serializes an qualified name as an expression for decorator type metadata. * * @param node The qualified name to serialize. * @param useFallback A value indicating whether to use logical operators to test for the * qualified name at runtime. */ function serializeQualifiedNameAsExpression(node) { return ts.createPropertyAccess(serializeEntityNameAsExpression(node.left), node.right); } /** * Gets an expression that points to the global "Symbol" constructor at runtime if it is * available. */ function getGlobalSymbolNameWithFallback() { return ts.createConditional(ts.createTypeCheck(ts.createIdentifier("Symbol"), "function"), ts.createIdentifier("Symbol"), ts.createIdentifier("Object")); } /** * Gets an expression that points to the global "BigInt" constructor at runtime if it is * available. */ function getGlobalBigIntNameWithFallback() { return languageVersion < 99 /* ESNext */ ? ts.createConditional(ts.createTypeCheck(ts.createIdentifier("BigInt"), "function"), ts.createIdentifier("BigInt"), ts.createIdentifier("Object")) : ts.createIdentifier("BigInt"); } /** * Gets an expression that represents a property name (for decorated properties or enums). * For a computed property, a name is generated for the node. * * @param member The member whose name should be converted into an expression. */ function getExpressionForPropertyName(member, generateNameForComputedPropertyName) { var name = member.name; if (ts.isPrivateIdentifier(name)) { return ts.createIdentifier(""); } else if (ts.isComputedPropertyName(name)) { return generateNameForComputedPropertyName && !ts.isSimpleInlineableExpression(name.expression) ? ts.getGeneratedNameForNode(name) : name.expression; } else if (ts.isIdentifier(name)) { return ts.createLiteral(ts.idText(name)); } else { return ts.getSynthesizedClone(name); } } /** * Visits the property name of a class element, for use when emitting property * initializers. For a computed property on a node with decorators, a temporary * value is stored for later use. * * @param member The member whose name should be visited. */ function visitPropertyNameOfClassElement(member) { var name = member.name; // Computed property names need to be transformed into a hoisted variable when they are used more than once. // The names are used more than once when: // - the property is non-static and its initializer is moved to the constructor (when there are parameter property assignments). // - the property has a decorator. if (ts.isComputedPropertyName(name) && ((!ts.hasStaticModifier(member) && currentClassHasParameterProperties) || ts.some(member.decorators))) { var expression = ts.visitNode(name.expression, visitor, ts.isExpression); var innerExpression = ts.skipPartiallyEmittedExpressions(expression); if (!ts.isSimpleInlineableExpression(innerExpression)) { var generatedName = ts.getGeneratedNameForNode(name); hoistVariableDeclaration(generatedName); return ts.updateComputedPropertyName(name, ts.createAssignment(generatedName, expression)); } } return ts.visitNode(name, visitor, ts.isPropertyName); } /** * Transforms a HeritageClause with TypeScript syntax. * * This function will only be called when one of the following conditions are met: * - The node is a non-`extends` heritage clause that should be elided. * - The node is an `extends` heritage clause that should be visited, but only allow a single type. * * @param node The HeritageClause to transform. */ function visitHeritageClause(node) { if (node.token === 113 /* ImplementsKeyword */) { // implements clauses are elided return undefined; } return ts.visitEachChild(node, visitor, context); } /** * Transforms an ExpressionWithTypeArguments with TypeScript syntax. * * This function will only be called when one of the following conditions are met: * - The node contains type arguments that should be elided. * * @param node The ExpressionWithTypeArguments to transform. */ function visitExpressionWithTypeArguments(node) { return ts.updateExpressionWithTypeArguments(node, /*typeArguments*/ undefined, ts.visitNode(node.expression, visitor, ts.isLeftHandSideExpression)); } /** * Determines whether to emit a function-like declaration. We should not emit the * declaration if it does not have a body. * * @param node The declaration node. */ function shouldEmitFunctionLikeDeclaration(node) { return !ts.nodeIsMissing(node.body); } function visitPropertyDeclaration(node) { if (node.flags & 8388608 /* Ambient */) { return undefined; } var updated = ts.updateProperty(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, visitor, ts.isModifier), visitPropertyNameOfClassElement(node), /*questionOrExclamationToken*/ undefined, /*type*/ undefined, ts.visitNode(node.initializer, visitor)); if (updated !== node) { // While we emit the source map for the node after skipping decorators and modifiers, // we need to emit the comments for the original range. ts.setCommentRange(updated, node); ts.setSourceMapRange(updated, ts.moveRangePastDecorators(node)); } return updated; } function visitConstructor(node) { if (!shouldEmitFunctionLikeDeclaration(node)) { return undefined; } return ts.updateConstructor(node, /*decorators*/ undefined, /*modifiers*/ undefined, ts.visitParameterList(node.parameters, visitor, context), transformConstructorBody(node.body, node)); } function transformConstructorBody(body, constructor) { var parametersWithPropertyAssignments = constructor && ts.filter(constructor.parameters, function (p) { return ts.isParameterPropertyDeclaration(p, constructor); }); if (!ts.some(parametersWithPropertyAssignments)) { return ts.visitFunctionBody(body, visitor, context); } var statements = []; var indexOfFirstStatement = 0; resumeLexicalEnvironment(); indexOfFirstStatement = ts.addPrologueDirectivesAndInitialSuperCall(constructor, statements, visitor); // Add parameters with property assignments. Transforms this: // // constructor (public x, public y) { // } // // Into this: // // constructor (x, y) { // this.x = x; // this.y = y; // } // ts.addRange(statements, ts.map(parametersWithPropertyAssignments, transformParameterWithPropertyAssignment)); // Add the existing statements, skipping the initial super call. ts.addRange(statements, ts.visitNodes(body.statements, visitor, ts.isStatement, indexOfFirstStatement)); // End the lexical environment. statements = ts.mergeLexicalEnvironment(statements, endLexicalEnvironment()); var block = ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), body.statements), /*multiLine*/ true); ts.setTextRange(block, /*location*/ body); ts.setOriginalNode(block, body); return block; } /** * Transforms a parameter into a property assignment statement. * * @param node The parameter declaration. */ function transformParameterWithPropertyAssignment(node) { var name = node.name; if (!ts.isIdentifier(name)) { return undefined; } var propertyName = ts.getMutableClone(name); ts.setEmitFlags(propertyName, 1536 /* NoComments */ | 48 /* NoSourceMap */); var localName = ts.getMutableClone(name); ts.setEmitFlags(localName, 1536 /* NoComments */); return ts.startOnNewLine(ts.removeAllComments(ts.setTextRange(ts.setOriginalNode(ts.createExpressionStatement(ts.createAssignment(ts.setTextRange(ts.createPropertyAccess(ts.createThis(), propertyName), node.name), localName)), node), ts.moveRangePos(node, -1)))); } function visitMethodDeclaration(node) { if (!shouldEmitFunctionLikeDeclaration(node)) { return undefined; } var updated = ts.updateMethod(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), node.asteriskToken, visitPropertyNameOfClassElement(node), /*questionToken*/ undefined, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.visitFunctionBody(node.body, visitor, context)); if (updated !== node) { // While we emit the source map for the node after skipping decorators and modifiers, // we need to emit the comments for the original range. ts.setCommentRange(updated, node); ts.setSourceMapRange(updated, ts.moveRangePastDecorators(node)); } return updated; } /** * Determines whether to emit an accessor declaration. We should not emit the * declaration if it does not have a body and is abstract. * * @param node The declaration node. */ function shouldEmitAccessorDeclaration(node) { return !(ts.nodeIsMissing(node.body) && ts.hasModifier(node, 128 /* Abstract */)); } function visitGetAccessor(node) { if (!shouldEmitAccessorDeclaration(node)) { return undefined; } var updated = ts.updateGetAccessor(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), visitPropertyNameOfClassElement(node), ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.visitFunctionBody(node.body, visitor, context) || ts.createBlock([])); if (updated !== node) { // While we emit the source map for the node after skipping decorators and modifiers, // we need to emit the comments for the original range. ts.setCommentRange(updated, node); ts.setSourceMapRange(updated, ts.moveRangePastDecorators(node)); } return updated; } function visitSetAccessor(node) { if (!shouldEmitAccessorDeclaration(node)) { return undefined; } var updated = ts.updateSetAccessor(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), visitPropertyNameOfClassElement(node), ts.visitParameterList(node.parameters, visitor, context), ts.visitFunctionBody(node.body, visitor, context) || ts.createBlock([])); if (updated !== node) { // While we emit the source map for the node after skipping decorators and modifiers, // we need to emit the comments for the original range. ts.setCommentRange(updated, node); ts.setSourceMapRange(updated, ts.moveRangePastDecorators(node)); } return updated; } function visitFunctionDeclaration(node) { if (!shouldEmitFunctionLikeDeclaration(node)) { return ts.createNotEmittedStatement(node); } var updated = ts.updateFunctionDeclaration(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), node.asteriskToken, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.visitFunctionBody(node.body, visitor, context) || ts.createBlock([])); if (isExportOfNamespace(node)) { var statements = [updated]; addExportMemberAssignment(statements, node); return statements; } return updated; } function visitFunctionExpression(node) { if (!shouldEmitFunctionLikeDeclaration(node)) { return ts.createOmittedExpression(); } var updated = ts.updateFunctionExpression(node, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), node.asteriskToken, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.visitFunctionBody(node.body, visitor, context) || ts.createBlock([])); return updated; } function visitArrowFunction(node) { var updated = ts.updateArrowFunction(node, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, node.equalsGreaterThanToken, ts.visitFunctionBody(node.body, visitor, context)); return updated; } function visitParameter(node) { if (ts.parameterIsThisKeyword(node)) { return undefined; } var updated = ts.updateParameter(node, /*decorators*/ undefined, /*modifiers*/ undefined, node.dotDotDotToken, ts.visitNode(node.name, visitor, ts.isBindingName), /*questionToken*/ undefined, /*type*/ undefined, ts.visitNode(node.initializer, visitor, ts.isExpression)); if (updated !== node) { // While we emit the source map for the node after skipping decorators and modifiers, // we need to emit the comments for the original range. ts.setCommentRange(updated, node); ts.setTextRange(updated, ts.moveRangePastModifiers(node)); ts.setSourceMapRange(updated, ts.moveRangePastModifiers(node)); ts.setEmitFlags(updated.name, 32 /* NoTrailingSourceMap */); } return updated; } function visitVariableStatement(node) { if (isExportOfNamespace(node)) { var variables = ts.getInitializedVariables(node.declarationList); if (variables.length === 0) { // elide statement if there are no initialized variables. return undefined; } return ts.setTextRange(ts.createExpressionStatement(ts.inlineExpressions(ts.map(variables, transformInitializedVariable))), node); } else { return ts.visitEachChild(node, visitor, context); } } function transformInitializedVariable(node) { var name = node.name; if (ts.isBindingPattern(name)) { return ts.flattenDestructuringAssignment(node, visitor, context, 0 /* All */, /*needsValue*/ false, createNamespaceExportExpression); } else { return ts.setTextRange(ts.createAssignment(getNamespaceMemberNameWithSourceMapsAndWithoutComments(name), ts.visitNode(node.initializer, visitor, ts.isExpression)), /*location*/ node); } } function visitVariableDeclaration(node) { return ts.updateTypeScriptVariableDeclaration(node, ts.visitNode(node.name, visitor, ts.isBindingName), /*exclaimationToken*/ undefined, /*type*/ undefined, ts.visitNode(node.initializer, visitor, ts.isExpression)); } function visitParenthesizedExpression(node) { var innerExpression = ts.skipOuterExpressions(node.expression, ~6 /* Assertions */); if (ts.isAssertionExpression(innerExpression)) { // Make sure we consider all nested cast expressions, e.g.: // (-A).x; var expression = ts.visitNode(node.expression, visitor, ts.isExpression); // We have an expression of the form: (SubExpr). Emitting this as (SubExpr) // is really not desirable. We would like to emit the subexpression as-is. Omitting // the parentheses, however, could cause change in the semantics of the generated // code if the casted expression has a lower precedence than the rest of the // expression. // // To preserve comments, we return a "PartiallyEmittedExpression" here which will // preserve the position information of the original expression. // // Due to the auto-parenthesization rules used by the visitor and factory functions // we can safely elide the parentheses here, as a new synthetic // ParenthesizedExpression will be inserted if we remove parentheses too // aggressively. // HOWEVER - if there are leading comments on the expression itself, to handle ASI // correctly for return and throw, we must keep the parenthesis if (ts.length(ts.getLeadingCommentRangesOfNode(expression, currentSourceFile))) { return ts.updateParen(node, expression); } return ts.createPartiallyEmittedExpression(expression, node); } return ts.visitEachChild(node, visitor, context); } function visitAssertionExpression(node) { var expression = ts.visitNode(node.expression, visitor, ts.isExpression); return ts.createPartiallyEmittedExpression(expression, node); } function visitNonNullExpression(node) { var expression = ts.visitNode(node.expression, visitor, ts.isLeftHandSideExpression); return ts.createPartiallyEmittedExpression(expression, node); } function visitCallExpression(node) { return ts.updateCall(node, ts.visitNode(node.expression, visitor, ts.isExpression), /*typeArguments*/ undefined, ts.visitNodes(node.arguments, visitor, ts.isExpression)); } function visitNewExpression(node) { return ts.updateNew(node, ts.visitNode(node.expression, visitor, ts.isExpression), /*typeArguments*/ undefined, ts.visitNodes(node.arguments, visitor, ts.isExpression)); } function visitTaggedTemplateExpression(node) { return ts.updateTaggedTemplate(node, ts.visitNode(node.tag, visitor, ts.isExpression), /*typeArguments*/ undefined, ts.visitNode(node.template, visitor, ts.isExpression)); } function visitJsxSelfClosingElement(node) { return ts.updateJsxSelfClosingElement(node, ts.visitNode(node.tagName, visitor, ts.isJsxTagNameExpression), /*typeArguments*/ undefined, ts.visitNode(node.attributes, visitor, ts.isJsxAttributes)); } function visitJsxJsxOpeningElement(node) { return ts.updateJsxOpeningElement(node, ts.visitNode(node.tagName, visitor, ts.isJsxTagNameExpression), /*typeArguments*/ undefined, ts.visitNode(node.attributes, visitor, ts.isJsxAttributes)); } /** * Determines whether to emit an enum declaration. * * @param node The enum declaration node. */ function shouldEmitEnumDeclaration(node) { return !ts.isEnumConst(node) || compilerOptions.preserveConstEnums || compilerOptions.isolatedModules; } /** * Visits an enum declaration. * * This function will be called any time a TypeScript enum is encountered. * * @param node The enum declaration node. */ function visitEnumDeclaration(node) { if (!shouldEmitEnumDeclaration(node)) { return ts.createNotEmittedStatement(node); } var statements = []; // We request to be advised when the printer is about to print this node. This allows // us to set up the correct state for later substitutions. var emitFlags = 2 /* AdviseOnEmitNode */; // If needed, we should emit a variable declaration for the enum. If we emit // a leading variable declaration, we should not emit leading comments for the // enum body. var varAdded = addVarForEnumOrModuleDeclaration(statements, node); if (varAdded) { // We should still emit the comments if we are emitting a system module. if (moduleKind !== ts.ModuleKind.System || currentLexicalScope !== currentSourceFile) { emitFlags |= 512 /* NoLeadingComments */; } } // `parameterName` is the declaration name used inside of the enum. var parameterName = getNamespaceParameterName(node); // `containerName` is the expression used inside of the enum for assignments. var containerName = getNamespaceContainerName(node); // `exportName` is the expression used within this node's container for any exported references. var exportName = ts.hasModifier(node, 1 /* Export */) ? ts.getExternalModuleOrNamespaceExportName(currentNamespaceContainerName, node, /*allowComments*/ false, /*allowSourceMaps*/ true) : ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true); // x || (x = {}) // exports.x || (exports.x = {}) var moduleArg = ts.createLogicalOr(exportName, ts.createAssignment(exportName, ts.createObjectLiteral())); if (hasNamespaceQualifiedExportName(node)) { // `localName` is the expression used within this node's containing scope for any local references. var localName = ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true); // x = (exports.x || (exports.x = {})) moduleArg = ts.createAssignment(localName, moduleArg); } // (function (x) { // x[x["y"] = 0] = "y"; // ... // })(x || (x = {})); var enumStatement = ts.createExpressionStatement(ts.createCall(ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, parameterName)], /*type*/ undefined, transformEnumBody(node, containerName)), /*typeArguments*/ undefined, [moduleArg])); ts.setOriginalNode(enumStatement, node); if (varAdded) { // If a variable was added, synthetic comments are emitted on it, not on the moduleStatement. ts.setSyntheticLeadingComments(enumStatement, undefined); ts.setSyntheticTrailingComments(enumStatement, undefined); } ts.setTextRange(enumStatement, node); ts.addEmitFlags(enumStatement, emitFlags); statements.push(enumStatement); // Add a DeclarationMarker for the enum to preserve trailing comments and mark // the end of the declaration. statements.push(ts.createEndOfDeclarationMarker(node)); return statements; } /** * Transforms the body of an enum declaration. * * @param node The enum declaration node. */ function transformEnumBody(node, localName) { var savedCurrentNamespaceLocalName = currentNamespaceContainerName; currentNamespaceContainerName = localName; var statements = []; startLexicalEnvironment(); var members = ts.map(node.members, transformEnumMember); ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); ts.addRange(statements, members); currentNamespaceContainerName = savedCurrentNamespaceLocalName; return ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), /*location*/ node.members), /*multiLine*/ true); } /** * Transforms an enum member into a statement. * * @param member The enum member node. */ function transformEnumMember(member) { // enums don't support computed properties // we pass false as 'generateNameForComputedPropertyName' for a backward compatibility purposes // old emitter always generate 'expression' part of the name as-is. var name = getExpressionForPropertyName(member, /*generateNameForComputedPropertyName*/ false); var valueExpression = transformEnumMemberDeclarationValue(member); var innerAssignment = ts.createAssignment(ts.createElementAccess(currentNamespaceContainerName, name), valueExpression); var outerAssignment = valueExpression.kind === 10 /* StringLiteral */ ? innerAssignment : ts.createAssignment(ts.createElementAccess(currentNamespaceContainerName, innerAssignment), name); return ts.setTextRange(ts.createExpressionStatement(ts.setTextRange(outerAssignment, member)), member); } /** * Transforms the value of an enum member. * * @param member The enum member node. */ function transformEnumMemberDeclarationValue(member) { var value = resolver.getConstantValue(member); if (value !== undefined) { return ts.createLiteral(value); } else { enableSubstitutionForNonQualifiedEnumMembers(); if (member.initializer) { return ts.visitNode(member.initializer, visitor, ts.isExpression); } else { return ts.createVoidZero(); } } } /** * Determines whether to elide a module declaration. * * @param node The module declaration node. */ function shouldEmitModuleDeclaration(nodeIn) { var node = ts.getParseTreeNode(nodeIn, ts.isModuleDeclaration); if (!node) { // If we can't find a parse tree node, assume the node is instantiated. return true; } return ts.isInstantiatedModule(node, !!compilerOptions.preserveConstEnums || !!compilerOptions.isolatedModules); } /** * Determines whether an exported declaration will have a qualified export name (e.g. `f.x` * or `exports.x`). */ function hasNamespaceQualifiedExportName(node) { return isExportOfNamespace(node) || (isExternalModuleExport(node) && moduleKind !== ts.ModuleKind.ES2015 && moduleKind !== ts.ModuleKind.ES2020 && moduleKind !== ts.ModuleKind.ESNext && moduleKind !== ts.ModuleKind.System); } /** * Records that a declaration was emitted in the current scope, if it was the first * declaration for the provided symbol. */ function recordEmittedDeclarationInScope(node) { if (!currentScopeFirstDeclarationsOfName) { currentScopeFirstDeclarationsOfName = ts.createUnderscoreEscapedMap(); } var name = declaredNameInScope(node); if (!currentScopeFirstDeclarationsOfName.has(name)) { currentScopeFirstDeclarationsOfName.set(name, node); } } /** * Determines whether a declaration is the first declaration with * the same name emitted in the current scope. */ function isFirstEmittedDeclarationInScope(node) { if (currentScopeFirstDeclarationsOfName) { var name = declaredNameInScope(node); return currentScopeFirstDeclarationsOfName.get(name) === node; } return true; } function declaredNameInScope(node) { ts.Debug.assertNode(node.name, ts.isIdentifier); return node.name.escapedText; } /** * Adds a leading VariableStatement for a enum or module declaration. */ function addVarForEnumOrModuleDeclaration(statements, node) { // Emit a variable statement for the module. We emit top-level enums as a `var` // declaration to avoid static errors in global scripts scripts due to redeclaration. // enums in any other scope are emitted as a `let` declaration. var statement = ts.createVariableStatement(ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), ts.createVariableDeclarationList([ ts.createVariableDeclaration(ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true)) ], currentLexicalScope.kind === 290 /* SourceFile */ ? 0 /* None */ : 1 /* Let */)); ts.setOriginalNode(statement, node); recordEmittedDeclarationInScope(node); if (isFirstEmittedDeclarationInScope(node)) { // Adjust the source map emit to match the old emitter. if (node.kind === 248 /* EnumDeclaration */) { ts.setSourceMapRange(statement.declarationList, node); } else { ts.setSourceMapRange(statement, node); } // Trailing comments for module declaration should be emitted after the function closure // instead of the variable statement: // // /** Module comment*/ // module m1 { // function foo4Export() { // } // } // trailing comment module // // Should emit: // // /** Module comment*/ // var m1; // (function (m1) { // function foo4Export() { // } // })(m1 || (m1 = {})); // trailing comment module // ts.setCommentRange(statement, node); ts.addEmitFlags(statement, 1024 /* NoTrailingComments */ | 4194304 /* HasEndOfDeclarationMarker */); statements.push(statement); return true; } else { // For an EnumDeclaration or ModuleDeclaration that merges with a preceeding // declaration we do not emit a leading variable declaration. To preserve the // begin/end semantics of the declararation and to properly handle exports // we wrap the leading variable declaration in a `MergeDeclarationMarker`. var mergeMarker = ts.createMergeDeclarationMarker(statement); ts.setEmitFlags(mergeMarker, 1536 /* NoComments */ | 4194304 /* HasEndOfDeclarationMarker */); statements.push(mergeMarker); return false; } } /** * Visits a module declaration node. * * This function will be called any time a TypeScript namespace (ModuleDeclaration) is encountered. * * @param node The module declaration node. */ function visitModuleDeclaration(node) { if (!shouldEmitModuleDeclaration(node)) { return ts.createNotEmittedStatement(node); } ts.Debug.assertNode(node.name, ts.isIdentifier, "A TypeScript namespace should have an Identifier name."); enableSubstitutionForNamespaceExports(); var statements = []; // We request to be advised when the printer is about to print this node. This allows // us to set up the correct state for later substitutions. var emitFlags = 2 /* AdviseOnEmitNode */; // If needed, we should emit a variable declaration for the module. If we emit // a leading variable declaration, we should not emit leading comments for the // module body. var varAdded = addVarForEnumOrModuleDeclaration(statements, node); if (varAdded) { // We should still emit the comments if we are emitting a system module. if (moduleKind !== ts.ModuleKind.System || currentLexicalScope !== currentSourceFile) { emitFlags |= 512 /* NoLeadingComments */; } } // `parameterName` is the declaration name used inside of the namespace. var parameterName = getNamespaceParameterName(node); // `containerName` is the expression used inside of the namespace for exports. var containerName = getNamespaceContainerName(node); // `exportName` is the expression used within this node's container for any exported references. var exportName = ts.hasModifier(node, 1 /* Export */) ? ts.getExternalModuleOrNamespaceExportName(currentNamespaceContainerName, node, /*allowComments*/ false, /*allowSourceMaps*/ true) : ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true); // x || (x = {}) // exports.x || (exports.x = {}) var moduleArg = ts.createLogicalOr(exportName, ts.createAssignment(exportName, ts.createObjectLiteral())); if (hasNamespaceQualifiedExportName(node)) { // `localName` is the expression used within this node's containing scope for any local references. var localName = ts.getLocalName(node, /*allowComments*/ false, /*allowSourceMaps*/ true); // x = (exports.x || (exports.x = {})) moduleArg = ts.createAssignment(localName, moduleArg); } // (function (x_1) { // x_1.y = ...; // })(x || (x = {})); var moduleStatement = ts.createExpressionStatement(ts.createCall(ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, parameterName)], /*type*/ undefined, transformModuleBody(node, containerName)), /*typeArguments*/ undefined, [moduleArg])); ts.setOriginalNode(moduleStatement, node); if (varAdded) { // If a variable was added, synthetic comments are emitted on it, not on the moduleStatement. ts.setSyntheticLeadingComments(moduleStatement, undefined); ts.setSyntheticTrailingComments(moduleStatement, undefined); } ts.setTextRange(moduleStatement, node); ts.addEmitFlags(moduleStatement, emitFlags); statements.push(moduleStatement); // Add a DeclarationMarker for the namespace to preserve trailing comments and mark // the end of the declaration. statements.push(ts.createEndOfDeclarationMarker(node)); return statements; } /** * Transforms the body of a module declaration. * * @param node The module declaration node. */ function transformModuleBody(node, namespaceLocalName) { var savedCurrentNamespaceContainerName = currentNamespaceContainerName; var savedCurrentNamespace = currentNamespace; var savedCurrentScopeFirstDeclarationsOfName = currentScopeFirstDeclarationsOfName; currentNamespaceContainerName = namespaceLocalName; currentNamespace = node; currentScopeFirstDeclarationsOfName = undefined; var statements = []; startLexicalEnvironment(); var statementsLocation; var blockLocation; if (node.body) { if (node.body.kind === 250 /* ModuleBlock */) { saveStateAndInvoke(node.body, function (body) { return ts.addRange(statements, ts.visitNodes(body.statements, namespaceElementVisitor, ts.isStatement)); }); statementsLocation = node.body.statements; blockLocation = node.body; } else { var result = visitModuleDeclaration(node.body); if (result) { if (ts.isArray(result)) { ts.addRange(statements, result); } else { statements.push(result); } } var moduleBlock = getInnerMostModuleDeclarationFromDottedModule(node).body; statementsLocation = ts.moveRangePos(moduleBlock.statements, -1); } } ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); currentNamespaceContainerName = savedCurrentNamespaceContainerName; currentNamespace = savedCurrentNamespace; currentScopeFirstDeclarationsOfName = savedCurrentScopeFirstDeclarationsOfName; var block = ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), /*location*/ statementsLocation), /*multiLine*/ true); ts.setTextRange(block, blockLocation); // namespace hello.hi.world { // function foo() {} // // // TODO, blah // } // // should be emitted as // // var hello; // (function (hello) { // var hi; // (function (hi) { // var world; // (function (world) { // function foo() { } // // TODO, blah // })(world = hi.world || (hi.world = {})); // })(hi = hello.hi || (hello.hi = {})); // })(hello || (hello = {})); // We only want to emit comment on the namespace which contains block body itself, not the containing namespaces. if (!node.body || node.body.kind !== 250 /* ModuleBlock */) { ts.setEmitFlags(block, ts.getEmitFlags(block) | 1536 /* NoComments */); } return block; } function getInnerMostModuleDeclarationFromDottedModule(moduleDeclaration) { if (moduleDeclaration.body.kind === 249 /* ModuleDeclaration */) { var recursiveInnerModule = getInnerMostModuleDeclarationFromDottedModule(moduleDeclaration.body); return recursiveInnerModule || moduleDeclaration.body; } } /** * Visits an import declaration, eliding it if it is not referenced and `importsNotUsedAsValues` is not 'preserve'. * * @param node The import declaration node. */ function visitImportDeclaration(node) { if (!node.importClause) { // Do not elide a side-effect only import declaration. // import "foo"; return node; } if (node.importClause.isTypeOnly) { // Always elide type-only imports return undefined; } // Elide the declaration if the import clause was elided. var importClause = ts.visitNode(node.importClause, visitImportClause, ts.isImportClause); return importClause || compilerOptions.importsNotUsedAsValues === 1 /* Preserve */ || compilerOptions.importsNotUsedAsValues === 2 /* Error */ ? ts.updateImportDeclaration(node, /*decorators*/ undefined, /*modifiers*/ undefined, importClause, node.moduleSpecifier) : undefined; } /** * Visits an import clause, eliding it if it is not referenced. * * @param node The import clause node. */ function visitImportClause(node) { if (node.isTypeOnly) { return undefined; } // Elide the import clause if we elide both its name and its named bindings. var name = resolver.isReferencedAliasDeclaration(node) ? node.name : undefined; var namedBindings = ts.visitNode(node.namedBindings, visitNamedImportBindings, ts.isNamedImportBindings); return (name || namedBindings) ? ts.updateImportClause(node, name, namedBindings, /*isTypeOnly*/ false) : undefined; } /** * Visits named import bindings, eliding it if it is not referenced. * * @param node The named import bindings node. */ function visitNamedImportBindings(node) { if (node.kind === 256 /* NamespaceImport */) { // Elide a namespace import if it is not referenced. return resolver.isReferencedAliasDeclaration(node) ? node : undefined; } else { // Elide named imports if all of its import specifiers are elided. var elements = ts.visitNodes(node.elements, visitImportSpecifier, ts.isImportSpecifier); return ts.some(elements) ? ts.updateNamedImports(node, elements) : undefined; } } /** * Visits an import specifier, eliding it if it is not referenced. * * @param node The import specifier node. */ function visitImportSpecifier(node) { // Elide an import specifier if it is not referenced. return resolver.isReferencedAliasDeclaration(node) ? node : undefined; } /** * Visits an export assignment, eliding it if it does not contain a clause that resolves * to a value. * * @param node The export assignment node. */ function visitExportAssignment(node) { // Elide the export assignment if it does not reference a value. return resolver.isValueAliasDeclaration(node) ? ts.visitEachChild(node, visitor, context) : undefined; } /** * Visits an export declaration, eliding it if it does not contain a clause that resolves * to a value. * * @param node The export declaration node. */ function visitExportDeclaration(node) { if (node.isTypeOnly) { return undefined; } if (!node.exportClause || ts.isNamespaceExport(node.exportClause)) { // never elide `export from ` declarations - // they should be kept for sideffects/untyped exports, even when the // type checker doesn't know about any exports return node; } if (!resolver.isValueAliasDeclaration(node)) { // Elide the export declaration if it does not export a value. return undefined; } // Elide the export declaration if all of its named exports are elided. var exportClause = ts.visitNode(node.exportClause, visitNamedExportBindings, ts.isNamedExportBindings); return exportClause ? ts.updateExportDeclaration(node, /*decorators*/ undefined, /*modifiers*/ undefined, exportClause, node.moduleSpecifier, node.isTypeOnly) : undefined; } /** * Visits named exports, eliding it if it does not contain an export specifier that * resolves to a value. * * @param node The named exports node. */ function visitNamedExports(node) { // Elide the named exports if all of its export specifiers were elided. var elements = ts.visitNodes(node.elements, visitExportSpecifier, ts.isExportSpecifier); return ts.some(elements) ? ts.updateNamedExports(node, elements) : undefined; } function visitNamespaceExports(node) { return ts.updateNamespaceExport(node, ts.visitNode(node.name, visitor, ts.isIdentifier)); } function visitNamedExportBindings(node) { return ts.isNamespaceExport(node) ? visitNamespaceExports(node) : visitNamedExports(node); } /** * Visits an export specifier, eliding it if it does not resolve to a value. * * @param node The export specifier node. */ function visitExportSpecifier(node) { // Elide an export specifier if it does not reference a value. return resolver.isValueAliasDeclaration(node) ? node : undefined; } /** * Determines whether to emit an import equals declaration. * * @param node The import equals declaration node. */ function shouldEmitImportEqualsDeclaration(node) { // preserve old compiler's behavior: emit 'var' for import declaration (even if we do not consider them referenced) when // - current file is not external module // - import declaration is top level and target is value imported by entity name return resolver.isReferencedAliasDeclaration(node) || (!ts.isExternalModule(currentSourceFile) && resolver.isTopLevelValueImportEqualsWithEntityName(node)); } /** * Visits an import equals declaration. * * @param node The import equals declaration node. */ function visitImportEqualsDeclaration(node) { if (ts.isExternalModuleImportEqualsDeclaration(node)) { var isReferenced = resolver.isReferencedAliasDeclaration(node); // If the alias is unreferenced but we want to keep the import, replace with 'import "mod"'. if (!isReferenced && compilerOptions.importsNotUsedAsValues === 1 /* Preserve */) { return ts.setOriginalNode(ts.setTextRange(ts.createImportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, /*importClause*/ undefined, node.moduleReference.expression), node), node); } return isReferenced ? ts.visitEachChild(node, visitor, context) : undefined; } if (!shouldEmitImportEqualsDeclaration(node)) { return undefined; } var moduleReference = ts.createExpressionFromEntityName(node.moduleReference); ts.setEmitFlags(moduleReference, 1536 /* NoComments */ | 2048 /* NoNestedComments */); if (isNamedExternalModuleExport(node) || !isExportOfNamespace(node)) { // export var ${name} = ${moduleReference}; // var ${name} = ${moduleReference}; return ts.setOriginalNode(ts.setTextRange(ts.createVariableStatement(ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), ts.createVariableDeclarationList([ ts.setOriginalNode(ts.createVariableDeclaration(node.name, /*type*/ undefined, moduleReference), node) ])), node), node); } else { // exports.${name} = ${moduleReference}; return ts.setOriginalNode(createNamespaceExport(node.name, moduleReference, node), node); } } /** * Gets a value indicating whether the node is exported from a namespace. * * @param node The node to test. */ function isExportOfNamespace(node) { return currentNamespace !== undefined && ts.hasModifier(node, 1 /* Export */); } /** * Gets a value indicating whether the node is exported from an external module. * * @param node The node to test. */ function isExternalModuleExport(node) { return currentNamespace === undefined && ts.hasModifier(node, 1 /* Export */); } /** * Gets a value indicating whether the node is a named export from an external module. * * @param node The node to test. */ function isNamedExternalModuleExport(node) { return isExternalModuleExport(node) && !ts.hasModifier(node, 512 /* Default */); } /** * Gets a value indicating whether the node is the default export of an external module. * * @param node The node to test. */ function isDefaultExternalModuleExport(node) { return isExternalModuleExport(node) && ts.hasModifier(node, 512 /* Default */); } /** * Creates a statement for the provided expression. This is used in calls to `map`. */ function expressionToStatement(expression) { return ts.createExpressionStatement(expression); } function addExportMemberAssignment(statements, node) { var expression = ts.createAssignment(ts.getExternalModuleOrNamespaceExportName(currentNamespaceContainerName, node, /*allowComments*/ false, /*allowSourceMaps*/ true), ts.getLocalName(node)); ts.setSourceMapRange(expression, ts.createRange(node.name ? node.name.pos : node.pos, node.end)); var statement = ts.createExpressionStatement(expression); ts.setSourceMapRange(statement, ts.createRange(-1, node.end)); statements.push(statement); } function createNamespaceExport(exportName, exportValue, location) { return ts.setTextRange(ts.createExpressionStatement(ts.createAssignment(ts.getNamespaceMemberName(currentNamespaceContainerName, exportName, /*allowComments*/ false, /*allowSourceMaps*/ true), exportValue)), location); } function createNamespaceExportExpression(exportName, exportValue, location) { return ts.setTextRange(ts.createAssignment(getNamespaceMemberNameWithSourceMapsAndWithoutComments(exportName), exportValue), location); } function getNamespaceMemberNameWithSourceMapsAndWithoutComments(name) { return ts.getNamespaceMemberName(currentNamespaceContainerName, name, /*allowComments*/ false, /*allowSourceMaps*/ true); } /** * Gets the declaration name used inside of a namespace or enum. */ function getNamespaceParameterName(node) { var name = ts.getGeneratedNameForNode(node); ts.setSourceMapRange(name, node.name); return name; } /** * Gets the expression used to refer to a namespace or enum within the body * of its declaration. */ function getNamespaceContainerName(node) { return ts.getGeneratedNameForNode(node); } /** * Gets a local alias for a class declaration if it is a decorated class with an internal * reference to the static side of the class. This is necessary to avoid issues with * double-binding semantics for the class name. */ function getClassAliasIfNeeded(node) { if (resolver.getNodeCheckFlags(node) & 16777216 /* ClassWithConstructorReference */) { enableSubstitutionForClassAliases(); var classAlias = ts.createUniqueName(node.name && !ts.isGeneratedIdentifier(node.name) ? ts.idText(node.name) : "default"); classAliases[ts.getOriginalNodeId(node)] = classAlias; hoistVariableDeclaration(classAlias); return classAlias; } } function getClassPrototype(node) { return ts.createPropertyAccess(ts.getDeclarationName(node), "prototype"); } function getClassMemberPrefix(node, member) { return ts.hasModifier(member, 32 /* Static */) ? ts.getDeclarationName(node) : getClassPrototype(node); } function enableSubstitutionForNonQualifiedEnumMembers() { if ((enabledSubstitutions & 8 /* NonQualifiedEnumMembers */) === 0) { enabledSubstitutions |= 8 /* NonQualifiedEnumMembers */; context.enableSubstitution(75 /* Identifier */); } } function enableSubstitutionForClassAliases() { if ((enabledSubstitutions & 1 /* ClassAliases */) === 0) { enabledSubstitutions |= 1 /* ClassAliases */; // We need to enable substitutions for identifiers. This allows us to // substitute class names inside of a class declaration. context.enableSubstitution(75 /* Identifier */); // Keep track of class aliases. classAliases = []; } } function enableSubstitutionForNamespaceExports() { if ((enabledSubstitutions & 2 /* NamespaceExports */) === 0) { enabledSubstitutions |= 2 /* NamespaceExports */; // We need to enable substitutions for identifiers and shorthand property assignments. This allows us to // substitute the names of exported members of a namespace. context.enableSubstitution(75 /* Identifier */); context.enableSubstitution(282 /* ShorthandPropertyAssignment */); // We need to be notified when entering and exiting namespaces. context.enableEmitNotification(249 /* ModuleDeclaration */); } } function isTransformedModuleDeclaration(node) { return ts.getOriginalNode(node).kind === 249 /* ModuleDeclaration */; } function isTransformedEnumDeclaration(node) { return ts.getOriginalNode(node).kind === 248 /* EnumDeclaration */; } /** * Hook for node emit. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emit A callback used to emit the node in the printer. */ function onEmitNode(hint, node, emitCallback) { var savedApplicableSubstitutions = applicableSubstitutions; var savedCurrentSourceFile = currentSourceFile; if (ts.isSourceFile(node)) { currentSourceFile = node; } if (enabledSubstitutions & 2 /* NamespaceExports */ && isTransformedModuleDeclaration(node)) { applicableSubstitutions |= 2 /* NamespaceExports */; } if (enabledSubstitutions & 8 /* NonQualifiedEnumMembers */ && isTransformedEnumDeclaration(node)) { applicableSubstitutions |= 8 /* NonQualifiedEnumMembers */; } previousOnEmitNode(hint, node, emitCallback); applicableSubstitutions = savedApplicableSubstitutions; currentSourceFile = savedCurrentSourceFile; } /** * Hooks node substitutions. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (hint === 1 /* Expression */) { return substituteExpression(node); } else if (ts.isShorthandPropertyAssignment(node)) { return substituteShorthandPropertyAssignment(node); } return node; } function substituteShorthandPropertyAssignment(node) { if (enabledSubstitutions & 2 /* NamespaceExports */) { var name = node.name; var exportedName = trySubstituteNamespaceExportedName(name); if (exportedName) { // A shorthand property with an assignment initializer is probably part of a // destructuring assignment if (node.objectAssignmentInitializer) { var initializer = ts.createAssignment(exportedName, node.objectAssignmentInitializer); return ts.setTextRange(ts.createPropertyAssignment(name, initializer), node); } return ts.setTextRange(ts.createPropertyAssignment(name, exportedName), node); } } return node; } function substituteExpression(node) { switch (node.kind) { case 75 /* Identifier */: return substituteExpressionIdentifier(node); case 194 /* PropertyAccessExpression */: return substitutePropertyAccessExpression(node); case 195 /* ElementAccessExpression */: return substituteElementAccessExpression(node); } return node; } function substituteExpressionIdentifier(node) { return trySubstituteClassAlias(node) || trySubstituteNamespaceExportedName(node) || node; } function trySubstituteClassAlias(node) { if (enabledSubstitutions & 1 /* ClassAliases */) { if (resolver.getNodeCheckFlags(node) & 33554432 /* ConstructorReferenceInClass */) { // Due to the emit for class decorators, any reference to the class from inside of the class body // must instead be rewritten to point to a temporary variable to avoid issues with the double-bind // behavior of class names in ES6. // Also, when emitting statics for class expressions, we must substitute a class alias for // constructor references in static property initializers. var declaration = resolver.getReferencedValueDeclaration(node); if (declaration) { var classAlias = classAliases[declaration.id]; // TODO: GH#18217 if (classAlias) { var clone_1 = ts.getSynthesizedClone(classAlias); ts.setSourceMapRange(clone_1, node); ts.setCommentRange(clone_1, node); return clone_1; } } } } return undefined; } function trySubstituteNamespaceExportedName(node) { // If this is explicitly a local name, do not substitute. if (enabledSubstitutions & applicableSubstitutions && !ts.isGeneratedIdentifier(node) && !ts.isLocalName(node)) { // If we are nested within a namespace declaration, we may need to qualifiy // an identifier that is exported from a merged namespace. var container = resolver.getReferencedExportContainer(node, /*prefixLocals*/ false); if (container && container.kind !== 290 /* SourceFile */) { var substitute = (applicableSubstitutions & 2 /* NamespaceExports */ && container.kind === 249 /* ModuleDeclaration */) || (applicableSubstitutions & 8 /* NonQualifiedEnumMembers */ && container.kind === 248 /* EnumDeclaration */); if (substitute) { return ts.setTextRange(ts.createPropertyAccess(ts.getGeneratedNameForNode(container), node), /*location*/ node); } } } return undefined; } function substitutePropertyAccessExpression(node) { return substituteConstantValue(node); } function substituteElementAccessExpression(node) { return substituteConstantValue(node); } function substituteConstantValue(node) { var constantValue = tryGetConstEnumValue(node); if (constantValue !== undefined) { // track the constant value on the node for the printer in needsDotDotForPropertyAccess ts.setConstantValue(node, constantValue); var substitute = ts.createLiteral(constantValue); if (!compilerOptions.removeComments) { var originalNode = ts.getOriginalNode(node, ts.isAccessExpression); var propertyName = ts.isPropertyAccessExpression(originalNode) ? ts.declarationNameToString(originalNode.name) : ts.getTextOfNode(originalNode.argumentExpression); ts.addSyntheticTrailingComment(substitute, 3 /* MultiLineCommentTrivia */, " " + propertyName + " "); } return substitute; } return node; } function tryGetConstEnumValue(node) { if (compilerOptions.isolatedModules) { return undefined; } return ts.isPropertyAccessExpression(node) || ts.isElementAccessExpression(node) ? resolver.getConstantValue(node) : undefined; } } ts.transformTypeScript = transformTypeScript; function createDecorateHelper(context, decoratorExpressions, target, memberName, descriptor, location) { var argumentsArray = []; argumentsArray.push(ts.createArrayLiteral(decoratorExpressions, /*multiLine*/ true)); argumentsArray.push(target); if (memberName) { argumentsArray.push(memberName); if (descriptor) { argumentsArray.push(descriptor); } } context.requestEmitHelper(ts.decorateHelper); return ts.setTextRange(ts.createCall(ts.getUnscopedHelperName("__decorate"), /*typeArguments*/ undefined, argumentsArray), location); } ts.decorateHelper = { name: "typescript:decorate", importName: "__decorate", scoped: false, priority: 2, text: "\n var __decorate = (this && this.__decorate) || function (decorators, target, key, desc) {\n var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d;\n if (typeof Reflect === \"object\" && typeof Reflect.decorate === \"function\") r = Reflect.decorate(decorators, target, key, desc);\n else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r;\n return c > 3 && r && Object.defineProperty(target, key, r), r;\n };" }; function createMetadataHelper(context, metadataKey, metadataValue) { context.requestEmitHelper(ts.metadataHelper); return ts.createCall(ts.getUnscopedHelperName("__metadata"), /*typeArguments*/ undefined, [ ts.createLiteral(metadataKey), metadataValue ]); } ts.metadataHelper = { name: "typescript:metadata", importName: "__metadata", scoped: false, priority: 3, text: "\n var __metadata = (this && this.__metadata) || function (k, v) {\n if (typeof Reflect === \"object\" && typeof Reflect.metadata === \"function\") return Reflect.metadata(k, v);\n };" }; function createParamHelper(context, expression, parameterOffset, location) { context.requestEmitHelper(ts.paramHelper); return ts.setTextRange(ts.createCall(ts.getUnscopedHelperName("__param"), /*typeArguments*/ undefined, [ ts.createLiteral(parameterOffset), expression ]), location); } ts.paramHelper = { name: "typescript:param", importName: "__param", scoped: false, priority: 4, text: "\n var __param = (this && this.__param) || function (paramIndex, decorator) {\n return function (target, key) { decorator(target, key, paramIndex); }\n };" }; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var ClassPropertySubstitutionFlags; (function (ClassPropertySubstitutionFlags) { /** * Enables substitutions for class expressions with static fields * which have initializers that reference the class name. */ ClassPropertySubstitutionFlags[ClassPropertySubstitutionFlags["ClassAliases"] = 1] = "ClassAliases"; })(ClassPropertySubstitutionFlags || (ClassPropertySubstitutionFlags = {})); var PrivateIdentifierPlacement; (function (PrivateIdentifierPlacement) { PrivateIdentifierPlacement[PrivateIdentifierPlacement["InstanceField"] = 0] = "InstanceField"; })(PrivateIdentifierPlacement || (PrivateIdentifierPlacement = {})); /** * Transforms ECMAScript Class Syntax. * TypeScript parameter property syntax is transformed in the TypeScript transformer. * For now, this transforms public field declarations using TypeScript class semantics, * where declarations are elided and initializers are transformed as assignments in the constructor. * When --useDefineForClassFields is on, this transforms to ECMAScript semantics, with Object.defineProperty. */ function transformClassFields(context) { var hoistVariableDeclaration = context.hoistVariableDeclaration, endLexicalEnvironment = context.endLexicalEnvironment, resumeLexicalEnvironment = context.resumeLexicalEnvironment; var resolver = context.getEmitResolver(); var compilerOptions = context.getCompilerOptions(); var languageVersion = ts.getEmitScriptTarget(compilerOptions); var shouldTransformPrivateFields = languageVersion < 99 /* ESNext */; var previousOnSubstituteNode = context.onSubstituteNode; context.onSubstituteNode = onSubstituteNode; var enabledSubstitutions; var classAliases; /** * Tracks what computed name expressions originating from elided names must be inlined * at the next execution site, in document order */ var pendingExpressions; /** * Tracks what computed name expression statements and static property initializers must be * emitted at the next execution site, in document order (for decorated classes). */ var pendingStatements; var privateIdentifierEnvironmentStack = []; var currentPrivateIdentifierEnvironment; return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { var options = context.getCompilerOptions(); if (node.isDeclarationFile || options.useDefineForClassFields && options.target === 99 /* ESNext */) { return node; } var visited = ts.visitEachChild(node, visitor, context); ts.addEmitHelpers(visited, context.readEmitHelpers()); return visited; } function visitor(node) { if (!(node.transformFlags & 4194304 /* ContainsClassFields */)) return node; switch (node.kind) { case 214 /* ClassExpression */: case 245 /* ClassDeclaration */: return visitClassLike(node); case 159 /* PropertyDeclaration */: return visitPropertyDeclaration(node); case 225 /* VariableStatement */: return visitVariableStatement(node); case 154 /* ComputedPropertyName */: return visitComputedPropertyName(node); case 194 /* PropertyAccessExpression */: return visitPropertyAccessExpression(node); case 207 /* PrefixUnaryExpression */: return visitPrefixUnaryExpression(node); case 208 /* PostfixUnaryExpression */: return visitPostfixUnaryExpression(node, /*valueIsDiscarded*/ false); case 196 /* CallExpression */: return visitCallExpression(node); case 209 /* BinaryExpression */: return visitBinaryExpression(node); case 76 /* PrivateIdentifier */: return visitPrivateIdentifier(node); case 226 /* ExpressionStatement */: return visitExpressionStatement(node); case 230 /* ForStatement */: return visitForStatement(node); case 198 /* TaggedTemplateExpression */: return visitTaggedTemplateExpression(node); } return ts.visitEachChild(node, visitor, context); } function visitorDestructuringTarget(node) { switch (node.kind) { case 193 /* ObjectLiteralExpression */: case 192 /* ArrayLiteralExpression */: return visitAssignmentPattern(node); default: return visitor(node); } } /** * If we visit a private name, this means it is an undeclared private name. * Replace it with an empty identifier to indicate a problem with the code. */ function visitPrivateIdentifier(node) { if (!shouldTransformPrivateFields) { return node; } return ts.setOriginalNode(ts.createIdentifier(""), node); } /** * Visits the members of a class that has fields. * * @param node The node to visit. */ function classElementVisitor(node) { switch (node.kind) { case 162 /* Constructor */: // Constructors for classes using class fields are transformed in // `visitClassDeclaration` or `visitClassExpression`. return undefined; case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 161 /* MethodDeclaration */: // Visit the name of the member (if it's a computed property name). return ts.visitEachChild(node, classElementVisitor, context); case 159 /* PropertyDeclaration */: return visitPropertyDeclaration(node); case 154 /* ComputedPropertyName */: return visitComputedPropertyName(node); case 222 /* SemicolonClassElement */: return node; default: return visitor(node); } } function visitVariableStatement(node) { var savedPendingStatements = pendingStatements; pendingStatements = []; var visitedNode = ts.visitEachChild(node, visitor, context); var statement = ts.some(pendingStatements) ? __spreadArrays([visitedNode], pendingStatements) : visitedNode; pendingStatements = savedPendingStatements; return statement; } function visitComputedPropertyName(name) { var node = ts.visitEachChild(name, visitor, context); if (ts.some(pendingExpressions)) { var expressions = pendingExpressions; expressions.push(name.expression); pendingExpressions = []; node = ts.updateComputedPropertyName(node, ts.inlineExpressions(expressions)); } return node; } function visitPropertyDeclaration(node) { ts.Debug.assert(!ts.some(node.decorators)); if (!shouldTransformPrivateFields && ts.isPrivateIdentifier(node.name)) { // Initializer is elided as the field is initialized in transformConstructor. return ts.updateProperty(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, visitor, ts.isModifier), node.name, /*questionOrExclamationToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined); } // Create a temporary variable to store a computed property name (if necessary). // If it's not inlineable, then we emit an expression after the class which assigns // the property name to the temporary variable. var expr = getPropertyNameExpressionIfNeeded(node.name, !!node.initializer || !!context.getCompilerOptions().useDefineForClassFields); if (expr && !ts.isSimpleInlineableExpression(expr)) { (pendingExpressions || (pendingExpressions = [])).push(expr); } return undefined; } function createPrivateIdentifierAccess(info, receiver) { receiver = ts.visitNode(receiver, visitor, ts.isExpression); switch (info.placement) { case 0 /* InstanceField */: return createClassPrivateFieldGetHelper(context, ts.nodeIsSynthesized(receiver) ? receiver : ts.getSynthesizedClone(receiver), info.weakMapName); default: return ts.Debug.fail("Unexpected private identifier placement"); } } function visitPropertyAccessExpression(node) { if (shouldTransformPrivateFields && ts.isPrivateIdentifier(node.name)) { var privateIdentifierInfo = accessPrivateIdentifier(node.name); if (privateIdentifierInfo) { return ts.setOriginalNode(createPrivateIdentifierAccess(privateIdentifierInfo, node.expression), node); } } return ts.visitEachChild(node, visitor, context); } function visitPrefixUnaryExpression(node) { if (shouldTransformPrivateFields && ts.isPrivateIdentifierPropertyAccessExpression(node.operand)) { var operator = node.operator === 45 /* PlusPlusToken */ ? 39 /* PlusToken */ : node.operator === 46 /* MinusMinusToken */ ? 40 /* MinusToken */ : undefined; var info = void 0; if (operator && (info = accessPrivateIdentifier(node.operand.name))) { var receiver = ts.visitNode(node.operand.expression, visitor, ts.isExpression); var _a = createCopiableReceiverExpr(receiver), readExpression = _a.readExpression, initializeExpression = _a.initializeExpression; var existingValue = ts.createPrefix(39 /* PlusToken */, createPrivateIdentifierAccess(info, readExpression)); return ts.setOriginalNode(createPrivateIdentifierAssignment(info, initializeExpression || readExpression, ts.createBinary(existingValue, operator, ts.createLiteral(1)), 62 /* EqualsToken */), node); } } return ts.visitEachChild(node, visitor, context); } function visitPostfixUnaryExpression(node, valueIsDiscarded) { if (shouldTransformPrivateFields && ts.isPrivateIdentifierPropertyAccessExpression(node.operand)) { var operator = node.operator === 45 /* PlusPlusToken */ ? 39 /* PlusToken */ : node.operator === 46 /* MinusMinusToken */ ? 40 /* MinusToken */ : undefined; var info = void 0; if (operator && (info = accessPrivateIdentifier(node.operand.name))) { var receiver = ts.visitNode(node.operand.expression, visitor, ts.isExpression); var _a = createCopiableReceiverExpr(receiver), readExpression = _a.readExpression, initializeExpression = _a.initializeExpression; var existingValue = ts.createPrefix(39 /* PlusToken */, createPrivateIdentifierAccess(info, readExpression)); // Create a temporary variable to store the value returned by the expression. var returnValue = valueIsDiscarded ? undefined : ts.createTempVariable(hoistVariableDeclaration); return ts.setOriginalNode(ts.inlineExpressions(ts.compact([ createPrivateIdentifierAssignment(info, initializeExpression || readExpression, ts.createBinary(returnValue ? ts.createAssignment(returnValue, existingValue) : existingValue, operator, ts.createLiteral(1)), 62 /* EqualsToken */), returnValue ])), node); } } return ts.visitEachChild(node, visitor, context); } function visitForStatement(node) { if (node.incrementor && ts.isPostfixUnaryExpression(node.incrementor)) { return ts.updateFor(node, ts.visitNode(node.initializer, visitor, ts.isForInitializer), ts.visitNode(node.condition, visitor, ts.isExpression), visitPostfixUnaryExpression(node.incrementor, /*valueIsDiscarded*/ true), ts.visitNode(node.statement, visitor, ts.isStatement)); } return ts.visitEachChild(node, visitor, context); } function visitExpressionStatement(node) { if (ts.isPostfixUnaryExpression(node.expression)) { return ts.updateExpressionStatement(node, visitPostfixUnaryExpression(node.expression, /*valueIsDiscarded*/ true)); } return ts.visitEachChild(node, visitor, context); } function createCopiableReceiverExpr(receiver) { var clone = ts.nodeIsSynthesized(receiver) ? receiver : ts.getSynthesizedClone(receiver); if (ts.isSimpleInlineableExpression(receiver)) { return { readExpression: clone, initializeExpression: undefined }; } var readExpression = ts.createTempVariable(hoistVariableDeclaration); var initializeExpression = ts.createAssignment(readExpression, clone); return { readExpression: readExpression, initializeExpression: initializeExpression }; } function visitCallExpression(node) { if (shouldTransformPrivateFields && ts.isPrivateIdentifierPropertyAccessExpression(node.expression)) { // Transform call expressions of private names to properly bind the `this` parameter. var _a = ts.createCallBinding(node.expression, hoistVariableDeclaration, languageVersion), thisArg = _a.thisArg, target = _a.target; return ts.updateCall(node, ts.createPropertyAccess(ts.visitNode(target, visitor), "call"), /*typeArguments*/ undefined, __spreadArrays([ts.visitNode(thisArg, visitor, ts.isExpression)], ts.visitNodes(node.arguments, visitor, ts.isExpression))); } return ts.visitEachChild(node, visitor, context); } function visitTaggedTemplateExpression(node) { if (shouldTransformPrivateFields && ts.isPrivateIdentifierPropertyAccessExpression(node.tag)) { // Bind the `this` correctly for tagged template literals when the tag is a private identifier property access. var _a = ts.createCallBinding(node.tag, hoistVariableDeclaration, languageVersion), thisArg = _a.thisArg, target = _a.target; return ts.updateTaggedTemplate(node, ts.createCall(ts.createPropertyAccess(ts.visitNode(target, visitor), "bind"), /*typeArguments*/ undefined, [ts.visitNode(thisArg, visitor, ts.isExpression)]), ts.visitNode(node.template, visitor, ts.isTemplateLiteral)); } return ts.visitEachChild(node, visitor, context); } function visitBinaryExpression(node) { if (shouldTransformPrivateFields) { if (ts.isDestructuringAssignment(node)) { var savedPendingExpressions = pendingExpressions; pendingExpressions = undefined; node = ts.updateBinary(node, ts.visitNode(node.left, visitorDestructuringTarget), ts.visitNode(node.right, visitor), node.operatorToken); var expr = ts.some(pendingExpressions) ? ts.inlineExpressions(ts.compact(__spreadArrays(pendingExpressions, [node]))) : node; pendingExpressions = savedPendingExpressions; return expr; } if (ts.isAssignmentExpression(node) && ts.isPrivateIdentifierPropertyAccessExpression(node.left)) { var info = accessPrivateIdentifier(node.left.name); if (info) { return ts.setOriginalNode(createPrivateIdentifierAssignment(info, node.left.expression, node.right, node.operatorToken.kind), node); } } } return ts.visitEachChild(node, visitor, context); } function createPrivateIdentifierAssignment(info, receiver, right, operator) { switch (info.placement) { case 0 /* InstanceField */: { return createPrivateIdentifierInstanceFieldAssignment(info, receiver, right, operator); } default: return ts.Debug.fail("Unexpected private identifier placement"); } } function createPrivateIdentifierInstanceFieldAssignment(info, receiver, right, operator) { receiver = ts.visitNode(receiver, visitor, ts.isExpression); right = ts.visitNode(right, visitor, ts.isExpression); if (ts.isCompoundAssignment(operator)) { var _a = createCopiableReceiverExpr(receiver), readExpression = _a.readExpression, initializeExpression = _a.initializeExpression; return createClassPrivateFieldSetHelper(context, initializeExpression || readExpression, info.weakMapName, ts.createBinary(createClassPrivateFieldGetHelper(context, readExpression, info.weakMapName), ts.getNonAssignmentOperatorForCompoundAssignment(operator), right)); } else { return createClassPrivateFieldSetHelper(context, receiver, info.weakMapName, right); } } /** * Set up the environment for a class. */ function visitClassLike(node) { var savedPendingExpressions = pendingExpressions; pendingExpressions = undefined; if (shouldTransformPrivateFields) { startPrivateIdentifierEnvironment(); } var result = ts.isClassDeclaration(node) ? visitClassDeclaration(node) : visitClassExpression(node); if (shouldTransformPrivateFields) { endPrivateIdentifierEnvironment(); } pendingExpressions = savedPendingExpressions; return result; } function doesClassElementNeedTransform(node) { return ts.isPropertyDeclaration(node) || (shouldTransformPrivateFields && node.name && ts.isPrivateIdentifier(node.name)); } function visitClassDeclaration(node) { if (!ts.forEach(node.members, doesClassElementNeedTransform)) { return ts.visitEachChild(node, visitor, context); } var extendsClauseElement = ts.getEffectiveBaseTypeNode(node); var isDerivedClass = !!(extendsClauseElement && ts.skipOuterExpressions(extendsClauseElement.expression).kind !== 100 /* NullKeyword */); var statements = [ ts.updateClassDeclaration(node, /*decorators*/ undefined, node.modifiers, node.name, /*typeParameters*/ undefined, ts.visitNodes(node.heritageClauses, visitor, ts.isHeritageClause), transformClassMembers(node, isDerivedClass)) ]; // Write any pending expressions from elided or moved computed property names if (ts.some(pendingExpressions)) { statements.push(ts.createExpressionStatement(ts.inlineExpressions(pendingExpressions))); } // Emit static property assignment. Because classDeclaration is lexically evaluated, // it is safe to emit static property assignment after classDeclaration // From ES6 specification: // HasLexicalDeclaration (N) : Determines if the argument identifier has a binding in this environment record that was created using // a lexical declaration such as a LexicalDeclaration or a ClassDeclaration. var staticProperties = ts.getProperties(node, /*requireInitializer*/ true, /*isStatic*/ true); if (ts.some(staticProperties)) { addPropertyStatements(statements, staticProperties, ts.getInternalName(node)); } return statements; } function visitClassExpression(node) { if (!ts.forEach(node.members, doesClassElementNeedTransform)) { return ts.visitEachChild(node, visitor, context); } // If this class expression is a transformation of a decorated class declaration, // then we want to output the pendingExpressions as statements, not as inlined // expressions with the class statement. // // In this case, we use pendingStatements to produce the same output as the // class declaration transformation. The VariableStatement visitor will insert // these statements after the class expression variable statement. var isDecoratedClassDeclaration = ts.isClassDeclaration(ts.getOriginalNode(node)); var staticProperties = ts.getProperties(node, /*requireInitializer*/ true, /*isStatic*/ true); var extendsClauseElement = ts.getEffectiveBaseTypeNode(node); var isDerivedClass = !!(extendsClauseElement && ts.skipOuterExpressions(extendsClauseElement.expression).kind !== 100 /* NullKeyword */); var classExpression = ts.updateClassExpression(node, node.modifiers, node.name, /*typeParameters*/ undefined, ts.visitNodes(node.heritageClauses, visitor, ts.isHeritageClause), transformClassMembers(node, isDerivedClass)); if (ts.some(staticProperties) || ts.some(pendingExpressions)) { if (isDecoratedClassDeclaration) { ts.Debug.assertIsDefined(pendingStatements, "Decorated classes transformed by TypeScript are expected to be within a variable declaration."); // Write any pending expressions from elided or moved computed property names if (pendingStatements && pendingExpressions && ts.some(pendingExpressions)) { pendingStatements.push(ts.createExpressionStatement(ts.inlineExpressions(pendingExpressions))); } if (pendingStatements && ts.some(staticProperties)) { addPropertyStatements(pendingStatements, staticProperties, ts.getInternalName(node)); } return classExpression; } else { var expressions = []; var isClassWithConstructorReference = resolver.getNodeCheckFlags(node) & 16777216 /* ClassWithConstructorReference */; var temp = ts.createTempVariable(hoistVariableDeclaration, !!isClassWithConstructorReference); if (isClassWithConstructorReference) { // record an alias as the class name is not in scope for statics. enableSubstitutionForClassAliases(); var alias = ts.getSynthesizedClone(temp); alias.autoGenerateFlags &= ~8 /* ReservedInNestedScopes */; classAliases[ts.getOriginalNodeId(node)] = alias; } // To preserve the behavior of the old emitter, we explicitly indent // the body of a class with static initializers. ts.setEmitFlags(classExpression, 65536 /* Indented */ | ts.getEmitFlags(classExpression)); expressions.push(ts.startOnNewLine(ts.createAssignment(temp, classExpression))); // Add any pending expressions leftover from elided or relocated computed property names ts.addRange(expressions, ts.map(pendingExpressions, ts.startOnNewLine)); ts.addRange(expressions, generateInitializedPropertyExpressions(staticProperties, temp)); expressions.push(ts.startOnNewLine(temp)); return ts.inlineExpressions(expressions); } } return classExpression; } function transformClassMembers(node, isDerivedClass) { if (shouldTransformPrivateFields) { // Declare private names. for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; if (ts.isPrivateIdentifierPropertyDeclaration(member)) { addPrivateIdentifierToEnvironment(member.name); } } } var members = []; var constructor = transformConstructor(node, isDerivedClass); if (constructor) { members.push(constructor); } ts.addRange(members, ts.visitNodes(node.members, classElementVisitor, ts.isClassElement)); return ts.setTextRange(ts.createNodeArray(members), /*location*/ node.members); } function isPropertyDeclarationThatRequiresConstructorStatement(member) { if (!ts.isPropertyDeclaration(member) || ts.hasStaticModifier(member)) { return false; } if (context.getCompilerOptions().useDefineForClassFields) { // If we are using define semantics and targeting ESNext or higher, // then we don't need to transform any class properties. return languageVersion < 99 /* ESNext */; } return ts.isInitializedProperty(member) || shouldTransformPrivateFields && ts.isPrivateIdentifierPropertyDeclaration(member); } function transformConstructor(node, isDerivedClass) { var constructor = ts.visitNode(ts.getFirstConstructorWithBody(node), visitor, ts.isConstructorDeclaration); var properties = node.members.filter(isPropertyDeclarationThatRequiresConstructorStatement); if (!ts.some(properties)) { return constructor; } var parameters = ts.visitParameterList(constructor ? constructor.parameters : undefined, visitor, context); var body = transformConstructorBody(node, constructor, isDerivedClass); if (!body) { return undefined; } return ts.startOnNewLine(ts.setOriginalNode(ts.setTextRange(ts.createConstructor( /*decorators*/ undefined, /*modifiers*/ undefined, parameters !== null && parameters !== void 0 ? parameters : [], body), constructor || node), constructor)); } function transformConstructorBody(node, constructor, isDerivedClass) { var useDefineForClassFields = context.getCompilerOptions().useDefineForClassFields; var properties = ts.getProperties(node, /*requireInitializer*/ false, /*isStatic*/ false); if (!useDefineForClassFields) { properties = ts.filter(properties, function (property) { return !!property.initializer || ts.isPrivateIdentifier(property.name); }); } // Only generate synthetic constructor when there are property initializers to move. if (!constructor && !ts.some(properties)) { return ts.visitFunctionBody(/*node*/ undefined, visitor, context); } resumeLexicalEnvironment(); var indexOfFirstStatement = 0; var statements = []; if (!constructor && isDerivedClass) { // Add a synthetic `super` call: // // super(...arguments); // statements.push(ts.createExpressionStatement(ts.createCall(ts.createSuper(), /*typeArguments*/ undefined, [ts.createSpread(ts.createIdentifier("arguments"))]))); } if (constructor) { indexOfFirstStatement = ts.addPrologueDirectivesAndInitialSuperCall(constructor, statements, visitor); } // Add the property initializers. Transforms this: // // public x = 1; // // Into this: // // constructor() { // this.x = 1; // } // if (constructor === null || constructor === void 0 ? void 0 : constructor.body) { var afterParameterProperties = ts.findIndex(constructor.body.statements, function (s) { return !ts.isParameterPropertyDeclaration(ts.getOriginalNode(s), constructor); }, indexOfFirstStatement); if (afterParameterProperties === -1) { afterParameterProperties = constructor.body.statements.length; } if (afterParameterProperties > indexOfFirstStatement) { if (!useDefineForClassFields) { ts.addRange(statements, ts.visitNodes(constructor.body.statements, visitor, ts.isStatement, indexOfFirstStatement, afterParameterProperties - indexOfFirstStatement)); } indexOfFirstStatement = afterParameterProperties; } } addPropertyStatements(statements, properties, ts.createThis()); // Add existing statements, skipping the initial super call. if (constructor) { ts.addRange(statements, ts.visitNodes(constructor.body.statements, visitor, ts.isStatement, indexOfFirstStatement)); } statements = ts.mergeLexicalEnvironment(statements, endLexicalEnvironment()); return ts.setTextRange(ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), /*location*/ constructor ? constructor.body.statements : node.members), /*multiLine*/ true), /*location*/ constructor ? constructor.body : undefined); } /** * Generates assignment statements for property initializers. * * @param properties An array of property declarations to transform. * @param receiver The receiver on which each property should be assigned. */ function addPropertyStatements(statements, properties, receiver) { for (var _i = 0, properties_8 = properties; _i < properties_8.length; _i++) { var property = properties_8[_i]; var expression = transformProperty(property, receiver); if (!expression) { continue; } var statement = ts.createExpressionStatement(expression); ts.setSourceMapRange(statement, ts.moveRangePastModifiers(property)); ts.setCommentRange(statement, property); ts.setOriginalNode(statement, property); statements.push(statement); } } /** * Generates assignment expressions for property initializers. * * @param properties An array of property declarations to transform. * @param receiver The receiver on which each property should be assigned. */ function generateInitializedPropertyExpressions(properties, receiver) { var expressions = []; for (var _i = 0, properties_9 = properties; _i < properties_9.length; _i++) { var property = properties_9[_i]; var expression = transformProperty(property, receiver); if (!expression) { continue; } ts.startOnNewLine(expression); ts.setSourceMapRange(expression, ts.moveRangePastModifiers(property)); ts.setCommentRange(expression, property); ts.setOriginalNode(expression, property); expressions.push(expression); } return expressions; } /** * Transforms a property initializer into an assignment statement. * * @param property The property declaration. * @param receiver The object receiving the property assignment. */ function transformProperty(property, receiver) { // We generate a name here in order to reuse the value cached by the relocated computed name expression (which uses the same generated name) var emitAssignment = !context.getCompilerOptions().useDefineForClassFields; var propertyName = ts.isComputedPropertyName(property.name) && !ts.isSimpleInlineableExpression(property.name.expression) ? ts.updateComputedPropertyName(property.name, ts.getGeneratedNameForNode(property.name)) : property.name; if (shouldTransformPrivateFields && ts.isPrivateIdentifier(propertyName)) { var privateIdentifierInfo = accessPrivateIdentifier(propertyName); if (privateIdentifierInfo) { switch (privateIdentifierInfo.placement) { case 0 /* InstanceField */: { return createPrivateInstanceFieldInitializer(receiver, ts.visitNode(property.initializer, visitor, ts.isExpression), privateIdentifierInfo.weakMapName); } } } else { ts.Debug.fail("Undeclared private name for property declaration."); } } if (ts.isPrivateIdentifier(propertyName) && !property.initializer) { return undefined; } if (ts.isPrivateIdentifier(propertyName) && !property.initializer) { return undefined; } var propertyOriginalNode = ts.getOriginalNode(property); var initializer = property.initializer || emitAssignment ? ts.visitNode(property.initializer, visitor, ts.isExpression) : ts.isParameterPropertyDeclaration(propertyOriginalNode, propertyOriginalNode.parent) && ts.isIdentifier(propertyName) ? propertyName : ts.createVoidZero(); if (emitAssignment || ts.isPrivateIdentifier(propertyName)) { var memberAccess = ts.createMemberAccessForPropertyName(receiver, propertyName, /*location*/ propertyName); return ts.createAssignment(memberAccess, initializer); } else { var name = ts.isComputedPropertyName(propertyName) ? propertyName.expression : ts.isIdentifier(propertyName) ? ts.createStringLiteral(ts.unescapeLeadingUnderscores(propertyName.escapedText)) : propertyName; var descriptor = ts.createPropertyDescriptor({ value: initializer, configurable: true, writable: true, enumerable: true }); return ts.createObjectDefinePropertyCall(receiver, name, descriptor); } } function enableSubstitutionForClassAliases() { if ((enabledSubstitutions & 1 /* ClassAliases */) === 0) { enabledSubstitutions |= 1 /* ClassAliases */; // We need to enable substitutions for identifiers. This allows us to // substitute class names inside of a class declaration. context.enableSubstitution(75 /* Identifier */); // Keep track of class aliases. classAliases = []; } } /** * Hooks node substitutions. * * @param hint The context for the emitter. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (hint === 1 /* Expression */) { return substituteExpression(node); } return node; } function substituteExpression(node) { switch (node.kind) { case 75 /* Identifier */: return substituteExpressionIdentifier(node); } return node; } function substituteExpressionIdentifier(node) { return trySubstituteClassAlias(node) || node; } function trySubstituteClassAlias(node) { if (enabledSubstitutions & 1 /* ClassAliases */) { if (resolver.getNodeCheckFlags(node) & 33554432 /* ConstructorReferenceInClass */) { // Due to the emit for class decorators, any reference to the class from inside of the class body // must instead be rewritten to point to a temporary variable to avoid issues with the double-bind // behavior of class names in ES6. // Also, when emitting statics for class expressions, we must substitute a class alias for // constructor references in static property initializers. var declaration = resolver.getReferencedValueDeclaration(node); if (declaration) { var classAlias = classAliases[declaration.id]; // TODO: GH#18217 if (classAlias) { var clone_2 = ts.getSynthesizedClone(classAlias); ts.setSourceMapRange(clone_2, node); ts.setCommentRange(clone_2, node); return clone_2; } } } } return undefined; } /** * If the name is a computed property, this function transforms it, then either returns an expression which caches the * value of the result or the expression itself if the value is either unused or safe to inline into multiple locations * @param shouldHoist Does the expression need to be reused? (ie, for an initializer or a decorator) */ function getPropertyNameExpressionIfNeeded(name, shouldHoist) { if (ts.isComputedPropertyName(name)) { var expression = ts.visitNode(name.expression, visitor, ts.isExpression); var innerExpression = ts.skipPartiallyEmittedExpressions(expression); var inlinable = ts.isSimpleInlineableExpression(innerExpression); var alreadyTransformed = ts.isAssignmentExpression(innerExpression) && ts.isGeneratedIdentifier(innerExpression.left); if (!alreadyTransformed && !inlinable && shouldHoist) { var generatedName = ts.getGeneratedNameForNode(name); hoistVariableDeclaration(generatedName); return ts.createAssignment(generatedName, expression); } return (inlinable || ts.isIdentifier(innerExpression)) ? undefined : expression; } } function startPrivateIdentifierEnvironment() { privateIdentifierEnvironmentStack.push(currentPrivateIdentifierEnvironment); currentPrivateIdentifierEnvironment = undefined; } function endPrivateIdentifierEnvironment() { currentPrivateIdentifierEnvironment = privateIdentifierEnvironmentStack.pop(); } function addPrivateIdentifierToEnvironment(name) { var text = ts.getTextOfPropertyName(name); var weakMapName = ts.createOptimisticUniqueName("_" + text.substring(1)); weakMapName.autoGenerateFlags |= 8 /* ReservedInNestedScopes */; hoistVariableDeclaration(weakMapName); (currentPrivateIdentifierEnvironment || (currentPrivateIdentifierEnvironment = ts.createUnderscoreEscapedMap())) .set(name.escapedText, { placement: 0 /* InstanceField */, weakMapName: weakMapName }); (pendingExpressions || (pendingExpressions = [])).push(ts.createAssignment(weakMapName, ts.createNew(ts.createIdentifier("WeakMap"), /*typeArguments*/ undefined, []))); } function accessPrivateIdentifier(name) { if (currentPrivateIdentifierEnvironment) { var info = currentPrivateIdentifierEnvironment.get(name.escapedText); if (info) { return info; } } for (var i = privateIdentifierEnvironmentStack.length - 1; i >= 0; --i) { var env = privateIdentifierEnvironmentStack[i]; if (!env) { continue; } var info = env.get(name.escapedText); if (info) { return info; } } return undefined; } function wrapPrivateIdentifierForDestructuringTarget(node) { var parameter = ts.getGeneratedNameForNode(node); var info = accessPrivateIdentifier(node.name); if (!info) { return ts.visitEachChild(node, visitor, context); } var receiver = node.expression; // We cannot copy `this` or `super` into the function because they will be bound // differently inside the function. if (ts.isThisProperty(node) || ts.isSuperProperty(node) || !ts.isSimpleCopiableExpression(node.expression)) { receiver = ts.createTempVariable(hoistVariableDeclaration); receiver.autoGenerateFlags |= 8 /* ReservedInNestedScopes */; (pendingExpressions || (pendingExpressions = [])).push(ts.createBinary(receiver, 62 /* EqualsToken */, node.expression)); } return ts.createPropertyAccess( // Explicit parens required because of v8 regression (https://bugs.chromium.org/p/v8/issues/detail?id=9560) ts.createParen(ts.createObjectLiteral([ ts.createSetAccessor( /*decorators*/ undefined, /*modifiers*/ undefined, "value", [ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, parameter, /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined)], ts.createBlock([ts.createExpressionStatement(createPrivateIdentifierAssignment(info, receiver, parameter, 62 /* EqualsToken */))])) ])), "value"); } function visitArrayAssignmentTarget(node) { var target = ts.getTargetOfBindingOrAssignmentElement(node); if (target && ts.isPrivateIdentifierPropertyAccessExpression(target)) { var wrapped = wrapPrivateIdentifierForDestructuringTarget(target); if (ts.isAssignmentExpression(node)) { return ts.updateBinary(node, wrapped, ts.visitNode(node.right, visitor, ts.isExpression), node.operatorToken); } else if (ts.isSpreadElement(node)) { return ts.updateSpread(node, wrapped); } else { return wrapped; } } return ts.visitNode(node, visitorDestructuringTarget); } function visitObjectAssignmentTarget(node) { if (ts.isPropertyAssignment(node)) { var target = ts.getTargetOfBindingOrAssignmentElement(node); if (target && ts.isPrivateIdentifierPropertyAccessExpression(target)) { var initializer = ts.getInitializerOfBindingOrAssignmentElement(node); var wrapped = wrapPrivateIdentifierForDestructuringTarget(target); return ts.updatePropertyAssignment(node, ts.visitNode(node.name, visitor), initializer ? ts.createAssignment(wrapped, ts.visitNode(initializer, visitor)) : wrapped); } return ts.updatePropertyAssignment(node, ts.visitNode(node.name, visitor), ts.visitNode(node.initializer, visitorDestructuringTarget)); } return ts.visitNode(node, visitor); } function visitAssignmentPattern(node) { if (ts.isArrayLiteralExpression(node)) { // Transforms private names in destructuring assignment array bindings. // // Source: // ([ this.#myProp ] = [ "hello" ]); // // Transformation: // [ { set value(x) { this.#myProp = x; } }.value ] = [ "hello" ]; return ts.updateArrayLiteral(node, ts.visitNodes(node.elements, visitArrayAssignmentTarget, ts.isExpression)); } else { // Transforms private names in destructuring assignment object bindings. // // Source: // ({ stringProperty: this.#myProp } = { stringProperty: "hello" }); // // Transformation: // ({ stringProperty: { set value(x) { this.#myProp = x; } }.value }) = { stringProperty: "hello" }; return ts.updateObjectLiteral(node, ts.visitNodes(node.properties, visitObjectAssignmentTarget, ts.isObjectLiteralElementLike)); } } } ts.transformClassFields = transformClassFields; function createPrivateInstanceFieldInitializer(receiver, initializer, weakMapName) { return ts.createCall(ts.createPropertyAccess(weakMapName, "set"), /*typeArguments*/ undefined, [receiver, initializer || ts.createVoidZero()]); } ts.classPrivateFieldGetHelper = { name: "typescript:classPrivateFieldGet", scoped: false, text: "\n var __classPrivateFieldGet = (this && this.__classPrivateFieldGet) || function (receiver, privateMap) {\n if (!privateMap.has(receiver)) {\n throw new TypeError(\"attempted to get private field on non-instance\");\n }\n return privateMap.get(receiver);\n };" }; function createClassPrivateFieldGetHelper(context, receiver, privateField) { context.requestEmitHelper(ts.classPrivateFieldGetHelper); return ts.createCall(ts.getUnscopedHelperName("__classPrivateFieldGet"), /* typeArguments */ undefined, [receiver, privateField]); } ts.classPrivateFieldSetHelper = { name: "typescript:classPrivateFieldSet", scoped: false, text: "\n var __classPrivateFieldSet = (this && this.__classPrivateFieldSet) || function (receiver, privateMap, value) {\n if (!privateMap.has(receiver)) {\n throw new TypeError(\"attempted to set private field on non-instance\");\n }\n privateMap.set(receiver, value);\n return value;\n };" }; function createClassPrivateFieldSetHelper(context, receiver, privateField, value) { context.requestEmitHelper(ts.classPrivateFieldSetHelper); return ts.createCall(ts.getUnscopedHelperName("__classPrivateFieldSet"), /* typeArguments */ undefined, [receiver, privateField, value]); } })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var ES2017SubstitutionFlags; (function (ES2017SubstitutionFlags) { /** Enables substitutions for async methods with `super` calls. */ ES2017SubstitutionFlags[ES2017SubstitutionFlags["AsyncMethodsWithSuper"] = 1] = "AsyncMethodsWithSuper"; })(ES2017SubstitutionFlags || (ES2017SubstitutionFlags = {})); var ContextFlags; (function (ContextFlags) { ContextFlags[ContextFlags["NonTopLevel"] = 1] = "NonTopLevel"; ContextFlags[ContextFlags["HasLexicalThis"] = 2] = "HasLexicalThis"; })(ContextFlags || (ContextFlags = {})); function transformES2017(context) { var resumeLexicalEnvironment = context.resumeLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistVariableDeclaration = context.hoistVariableDeclaration; var resolver = context.getEmitResolver(); var compilerOptions = context.getCompilerOptions(); var languageVersion = ts.getEmitScriptTarget(compilerOptions); /** * Keeps track of whether expression substitution has been enabled for specific edge cases. * They are persisted between each SourceFile transformation and should not be reset. */ var enabledSubstitutions; /** * This keeps track of containers where `super` is valid, for use with * just-in-time substitution for `super` expressions inside of async methods. */ var enclosingSuperContainerFlags = 0; var enclosingFunctionParameterNames; /** * Keeps track of property names accessed on super (`super.x`) within async functions. */ var capturedSuperProperties; /** Whether the async function contains an element access on super (`super[x]`). */ var hasSuperElementAccess; /** A set of node IDs for generated super accessors (variable statements). */ var substitutedSuperAccessors = []; var contextFlags = 0; // Save the previous transformation hooks. var previousOnEmitNode = context.onEmitNode; var previousOnSubstituteNode = context.onSubstituteNode; // Set new transformation hooks. context.onEmitNode = onEmitNode; context.onSubstituteNode = onSubstituteNode; return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } setContextFlag(1 /* NonTopLevel */, false); setContextFlag(2 /* HasLexicalThis */, !ts.isEffectiveStrictModeSourceFile(node, compilerOptions)); var visited = ts.visitEachChild(node, visitor, context); ts.addEmitHelpers(visited, context.readEmitHelpers()); return visited; } function setContextFlag(flag, val) { contextFlags = val ? contextFlags | flag : contextFlags & ~flag; } function inContext(flags) { return (contextFlags & flags) !== 0; } function inTopLevelContext() { return !inContext(1 /* NonTopLevel */); } function inHasLexicalThisContext() { return inContext(2 /* HasLexicalThis */); } function doWithContext(flags, cb, value) { var contextFlagsToSet = flags & ~contextFlags; if (contextFlagsToSet) { setContextFlag(contextFlagsToSet, /*val*/ true); var result = cb(value); setContextFlag(contextFlagsToSet, /*val*/ false); return result; } return cb(value); } function visitDefault(node) { return ts.visitEachChild(node, visitor, context); } function visitor(node) { if ((node.transformFlags & 64 /* ContainsES2017 */) === 0) { return node; } switch (node.kind) { case 126 /* AsyncKeyword */: // ES2017 async modifier should be elided for targets < ES2017 return undefined; case 206 /* AwaitExpression */: return visitAwaitExpression(node); case 161 /* MethodDeclaration */: return doWithContext(1 /* NonTopLevel */ | 2 /* HasLexicalThis */, visitMethodDeclaration, node); case 244 /* FunctionDeclaration */: return doWithContext(1 /* NonTopLevel */ | 2 /* HasLexicalThis */, visitFunctionDeclaration, node); case 201 /* FunctionExpression */: return doWithContext(1 /* NonTopLevel */ | 2 /* HasLexicalThis */, visitFunctionExpression, node); case 202 /* ArrowFunction */: return doWithContext(1 /* NonTopLevel */, visitArrowFunction, node); case 194 /* PropertyAccessExpression */: if (capturedSuperProperties && ts.isPropertyAccessExpression(node) && node.expression.kind === 102 /* SuperKeyword */) { capturedSuperProperties.set(node.name.escapedText, true); } return ts.visitEachChild(node, visitor, context); case 195 /* ElementAccessExpression */: if (capturedSuperProperties && node.expression.kind === 102 /* SuperKeyword */) { hasSuperElementAccess = true; } return ts.visitEachChild(node, visitor, context); case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 162 /* Constructor */: case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return doWithContext(1 /* NonTopLevel */ | 2 /* HasLexicalThis */, visitDefault, node); default: return ts.visitEachChild(node, visitor, context); } } function asyncBodyVisitor(node) { if (ts.isNodeWithPossibleHoistedDeclaration(node)) { switch (node.kind) { case 225 /* VariableStatement */: return visitVariableStatementInAsyncBody(node); case 230 /* ForStatement */: return visitForStatementInAsyncBody(node); case 231 /* ForInStatement */: return visitForInStatementInAsyncBody(node); case 232 /* ForOfStatement */: return visitForOfStatementInAsyncBody(node); case 280 /* CatchClause */: return visitCatchClauseInAsyncBody(node); case 223 /* Block */: case 237 /* SwitchStatement */: case 251 /* CaseBlock */: case 277 /* CaseClause */: case 278 /* DefaultClause */: case 240 /* TryStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: case 227 /* IfStatement */: case 236 /* WithStatement */: case 238 /* LabeledStatement */: return ts.visitEachChild(node, asyncBodyVisitor, context); default: return ts.Debug.assertNever(node, "Unhandled node."); } } return visitor(node); } function visitCatchClauseInAsyncBody(node) { var catchClauseNames = ts.createUnderscoreEscapedMap(); recordDeclarationName(node.variableDeclaration, catchClauseNames); // TODO: GH#18217 // names declared in a catch variable are block scoped var catchClauseUnshadowedNames; catchClauseNames.forEach(function (_, escapedName) { if (enclosingFunctionParameterNames.has(escapedName)) { if (!catchClauseUnshadowedNames) { catchClauseUnshadowedNames = ts.cloneMap(enclosingFunctionParameterNames); } catchClauseUnshadowedNames.delete(escapedName); } }); if (catchClauseUnshadowedNames) { var savedEnclosingFunctionParameterNames = enclosingFunctionParameterNames; enclosingFunctionParameterNames = catchClauseUnshadowedNames; var result = ts.visitEachChild(node, asyncBodyVisitor, context); enclosingFunctionParameterNames = savedEnclosingFunctionParameterNames; return result; } else { return ts.visitEachChild(node, asyncBodyVisitor, context); } } function visitVariableStatementInAsyncBody(node) { if (isVariableDeclarationListWithCollidingName(node.declarationList)) { var expression = visitVariableDeclarationListWithCollidingNames(node.declarationList, /*hasReceiver*/ false); return expression ? ts.createExpressionStatement(expression) : undefined; } return ts.visitEachChild(node, visitor, context); } function visitForInStatementInAsyncBody(node) { return ts.updateForIn(node, isVariableDeclarationListWithCollidingName(node.initializer) ? visitVariableDeclarationListWithCollidingNames(node.initializer, /*hasReceiver*/ true) : ts.visitNode(node.initializer, visitor, ts.isForInitializer), ts.visitNode(node.expression, visitor, ts.isExpression), ts.visitNode(node.statement, asyncBodyVisitor, ts.isStatement, ts.liftToBlock)); } function visitForOfStatementInAsyncBody(node) { return ts.updateForOf(node, ts.visitNode(node.awaitModifier, visitor, ts.isToken), isVariableDeclarationListWithCollidingName(node.initializer) ? visitVariableDeclarationListWithCollidingNames(node.initializer, /*hasReceiver*/ true) : ts.visitNode(node.initializer, visitor, ts.isForInitializer), ts.visitNode(node.expression, visitor, ts.isExpression), ts.visitNode(node.statement, asyncBodyVisitor, ts.isStatement, ts.liftToBlock)); } function visitForStatementInAsyncBody(node) { var initializer = node.initializer; // TODO: GH#18217 return ts.updateFor(node, isVariableDeclarationListWithCollidingName(initializer) ? visitVariableDeclarationListWithCollidingNames(initializer, /*hasReceiver*/ false) : ts.visitNode(node.initializer, visitor, ts.isForInitializer), ts.visitNode(node.condition, visitor, ts.isExpression), ts.visitNode(node.incrementor, visitor, ts.isExpression), ts.visitNode(node.statement, asyncBodyVisitor, ts.isStatement, ts.liftToBlock)); } /** * Visits an AwaitExpression node. * * This function will be called any time a ES2017 await expression is encountered. * * @param node The node to visit. */ function visitAwaitExpression(node) { // do not downlevel a top-level await as it is module syntax... if (inTopLevelContext()) { return ts.visitEachChild(node, visitor, context); } return ts.setOriginalNode(ts.setTextRange(ts.createYield( /*asteriskToken*/ undefined, ts.visitNode(node.expression, visitor, ts.isExpression)), node), node); } /** * Visits a MethodDeclaration node. * * This function will be called when one of the following conditions are met: * - The node is marked as async * * @param node The node to visit. */ function visitMethodDeclaration(node) { return ts.updateMethod(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, visitor, ts.isModifier), node.asteriskToken, node.name, /*questionToken*/ undefined, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.getFunctionFlags(node) & 2 /* Async */ ? transformAsyncFunctionBody(node) : ts.visitFunctionBody(node.body, visitor, context)); } /** * Visits a FunctionDeclaration node. * * This function will be called when one of the following conditions are met: * - The node is marked async * * @param node The node to visit. */ function visitFunctionDeclaration(node) { return ts.updateFunctionDeclaration(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, visitor, ts.isModifier), node.asteriskToken, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.getFunctionFlags(node) & 2 /* Async */ ? transformAsyncFunctionBody(node) : ts.visitFunctionBody(node.body, visitor, context)); } /** * Visits a FunctionExpression node. * * This function will be called when one of the following conditions are met: * - The node is marked async * * @param node The node to visit. */ function visitFunctionExpression(node) { return ts.updateFunctionExpression(node, ts.visitNodes(node.modifiers, visitor, ts.isModifier), node.asteriskToken, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, ts.getFunctionFlags(node) & 2 /* Async */ ? transformAsyncFunctionBody(node) : ts.visitFunctionBody(node.body, visitor, context)); } /** * Visits an ArrowFunction. * * This function will be called when one of the following conditions are met: * - The node is marked async * * @param node The node to visit. */ function visitArrowFunction(node) { return ts.updateArrowFunction(node, ts.visitNodes(node.modifiers, visitor, ts.isModifier), /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, node.equalsGreaterThanToken, ts.getFunctionFlags(node) & 2 /* Async */ ? transformAsyncFunctionBody(node) : ts.visitFunctionBody(node.body, visitor, context)); } function recordDeclarationName(_a, names) { var name = _a.name; if (ts.isIdentifier(name)) { names.set(name.escapedText, true); } else { for (var _i = 0, _b = name.elements; _i < _b.length; _i++) { var element = _b[_i]; if (!ts.isOmittedExpression(element)) { recordDeclarationName(element, names); } } } } function isVariableDeclarationListWithCollidingName(node) { return !!node && ts.isVariableDeclarationList(node) && !(node.flags & 3 /* BlockScoped */) && node.declarations.some(collidesWithParameterName); } function visitVariableDeclarationListWithCollidingNames(node, hasReceiver) { hoistVariableDeclarationList(node); var variables = ts.getInitializedVariables(node); if (variables.length === 0) { if (hasReceiver) { return ts.visitNode(ts.convertToAssignmentElementTarget(node.declarations[0].name), visitor, ts.isExpression); } return undefined; } return ts.inlineExpressions(ts.map(variables, transformInitializedVariable)); } function hoistVariableDeclarationList(node) { ts.forEach(node.declarations, hoistVariable); } function hoistVariable(_a) { var name = _a.name; if (ts.isIdentifier(name)) { hoistVariableDeclaration(name); } else { for (var _i = 0, _b = name.elements; _i < _b.length; _i++) { var element = _b[_i]; if (!ts.isOmittedExpression(element)) { hoistVariable(element); } } } } function transformInitializedVariable(node) { var converted = ts.setSourceMapRange(ts.createAssignment(ts.convertToAssignmentElementTarget(node.name), node.initializer), node); return ts.visitNode(converted, visitor, ts.isExpression); } function collidesWithParameterName(_a) { var name = _a.name; if (ts.isIdentifier(name)) { return enclosingFunctionParameterNames.has(name.escapedText); } else { for (var _i = 0, _b = name.elements; _i < _b.length; _i++) { var element = _b[_i]; if (!ts.isOmittedExpression(element) && collidesWithParameterName(element)) { return true; } } } return false; } function transformAsyncFunctionBody(node) { resumeLexicalEnvironment(); var original = ts.getOriginalNode(node, ts.isFunctionLike); var nodeType = original.type; var promiseConstructor = languageVersion < 2 /* ES2015 */ ? getPromiseConstructor(nodeType) : undefined; var isArrowFunction = node.kind === 202 /* ArrowFunction */; var hasLexicalArguments = (resolver.getNodeCheckFlags(node) & 8192 /* CaptureArguments */) !== 0; // An async function is emit as an outer function that calls an inner // generator function. To preserve lexical bindings, we pass the current // `this` and `arguments` objects to `__awaiter`. The generator function // passed to `__awaiter` is executed inside of the callback to the // promise constructor. var savedEnclosingFunctionParameterNames = enclosingFunctionParameterNames; enclosingFunctionParameterNames = ts.createUnderscoreEscapedMap(); for (var _i = 0, _a = node.parameters; _i < _a.length; _i++) { var parameter = _a[_i]; recordDeclarationName(parameter, enclosingFunctionParameterNames); } var savedCapturedSuperProperties = capturedSuperProperties; var savedHasSuperElementAccess = hasSuperElementAccess; if (!isArrowFunction) { capturedSuperProperties = ts.createUnderscoreEscapedMap(); hasSuperElementAccess = false; } var result; if (!isArrowFunction) { var statements = []; var statementOffset = ts.addPrologue(statements, node.body.statements, /*ensureUseStrict*/ false, visitor); statements.push(ts.createReturn(createAwaiterHelper(context, inHasLexicalThisContext(), hasLexicalArguments, promiseConstructor, transformAsyncFunctionBodyWorker(node.body, statementOffset)))); ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); // Minor optimization, emit `_super` helper to capture `super` access in an arrow. // This step isn't needed if we eventually transform this to ES5. var emitSuperHelpers = languageVersion >= 2 /* ES2015 */ && resolver.getNodeCheckFlags(node) & (4096 /* AsyncMethodWithSuperBinding */ | 2048 /* AsyncMethodWithSuper */); if (emitSuperHelpers) { enableSubstitutionForAsyncMethodsWithSuper(); if (ts.hasEntries(capturedSuperProperties)) { var variableStatement = createSuperAccessVariableStatement(resolver, node, capturedSuperProperties); substitutedSuperAccessors[ts.getNodeId(variableStatement)] = true; ts.insertStatementsAfterStandardPrologue(statements, [variableStatement]); } } var block = ts.createBlock(statements, /*multiLine*/ true); ts.setTextRange(block, node.body); if (emitSuperHelpers && hasSuperElementAccess) { // Emit helpers for super element access expressions (`super[x]`). if (resolver.getNodeCheckFlags(node) & 4096 /* AsyncMethodWithSuperBinding */) { ts.addEmitHelper(block, ts.advancedAsyncSuperHelper); } else if (resolver.getNodeCheckFlags(node) & 2048 /* AsyncMethodWithSuper */) { ts.addEmitHelper(block, ts.asyncSuperHelper); } } result = block; } else { var expression = createAwaiterHelper(context, inHasLexicalThisContext(), hasLexicalArguments, promiseConstructor, transformAsyncFunctionBodyWorker(node.body)); var declarations = endLexicalEnvironment(); if (ts.some(declarations)) { var block = ts.convertToFunctionBody(expression); result = ts.updateBlock(block, ts.setTextRange(ts.createNodeArray(ts.concatenate(declarations, block.statements)), block.statements)); } else { result = expression; } } enclosingFunctionParameterNames = savedEnclosingFunctionParameterNames; if (!isArrowFunction) { capturedSuperProperties = savedCapturedSuperProperties; hasSuperElementAccess = savedHasSuperElementAccess; } return result; } function transformAsyncFunctionBodyWorker(body, start) { if (ts.isBlock(body)) { return ts.updateBlock(body, ts.visitNodes(body.statements, asyncBodyVisitor, ts.isStatement, start)); } else { return ts.convertToFunctionBody(ts.visitNode(body, asyncBodyVisitor, ts.isConciseBody)); } } function getPromiseConstructor(type) { var typeName = type && ts.getEntityNameFromTypeNode(type); if (typeName && ts.isEntityName(typeName)) { var serializationKind = resolver.getTypeReferenceSerializationKind(typeName); if (serializationKind === ts.TypeReferenceSerializationKind.TypeWithConstructSignatureAndValue || serializationKind === ts.TypeReferenceSerializationKind.Unknown) { return typeName; } } return undefined; } function enableSubstitutionForAsyncMethodsWithSuper() { if ((enabledSubstitutions & 1 /* AsyncMethodsWithSuper */) === 0) { enabledSubstitutions |= 1 /* AsyncMethodsWithSuper */; // We need to enable substitutions for call, property access, and element access // if we need to rewrite super calls. context.enableSubstitution(196 /* CallExpression */); context.enableSubstitution(194 /* PropertyAccessExpression */); context.enableSubstitution(195 /* ElementAccessExpression */); // We need to be notified when entering and exiting declarations that bind super. context.enableEmitNotification(245 /* ClassDeclaration */); context.enableEmitNotification(161 /* MethodDeclaration */); context.enableEmitNotification(163 /* GetAccessor */); context.enableEmitNotification(164 /* SetAccessor */); context.enableEmitNotification(162 /* Constructor */); // We need to be notified when entering the generated accessor arrow functions. context.enableEmitNotification(225 /* VariableStatement */); } } /** * Hook for node emit. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emit A callback used to emit the node in the printer. */ function onEmitNode(hint, node, emitCallback) { // If we need to support substitutions for `super` in an async method, // we should track it here. if (enabledSubstitutions & 1 /* AsyncMethodsWithSuper */ && isSuperContainer(node)) { var superContainerFlags = resolver.getNodeCheckFlags(node) & (2048 /* AsyncMethodWithSuper */ | 4096 /* AsyncMethodWithSuperBinding */); if (superContainerFlags !== enclosingSuperContainerFlags) { var savedEnclosingSuperContainerFlags = enclosingSuperContainerFlags; enclosingSuperContainerFlags = superContainerFlags; previousOnEmitNode(hint, node, emitCallback); enclosingSuperContainerFlags = savedEnclosingSuperContainerFlags; return; } } // Disable substitution in the generated super accessor itself. else if (enabledSubstitutions && substitutedSuperAccessors[ts.getNodeId(node)]) { var savedEnclosingSuperContainerFlags = enclosingSuperContainerFlags; enclosingSuperContainerFlags = 0; previousOnEmitNode(hint, node, emitCallback); enclosingSuperContainerFlags = savedEnclosingSuperContainerFlags; return; } previousOnEmitNode(hint, node, emitCallback); } /** * Hooks node substitutions. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (hint === 1 /* Expression */ && enclosingSuperContainerFlags) { return substituteExpression(node); } return node; } function substituteExpression(node) { switch (node.kind) { case 194 /* PropertyAccessExpression */: return substitutePropertyAccessExpression(node); case 195 /* ElementAccessExpression */: return substituteElementAccessExpression(node); case 196 /* CallExpression */: return substituteCallExpression(node); } return node; } function substitutePropertyAccessExpression(node) { if (node.expression.kind === 102 /* SuperKeyword */) { return ts.setTextRange(ts.createPropertyAccess(ts.createFileLevelUniqueName("_super"), node.name), node); } return node; } function substituteElementAccessExpression(node) { if (node.expression.kind === 102 /* SuperKeyword */) { return createSuperElementAccessInAsyncMethod(node.argumentExpression, node); } return node; } function substituteCallExpression(node) { var expression = node.expression; if (ts.isSuperProperty(expression)) { var argumentExpression = ts.isPropertyAccessExpression(expression) ? substitutePropertyAccessExpression(expression) : substituteElementAccessExpression(expression); return ts.createCall(ts.createPropertyAccess(argumentExpression, "call"), /*typeArguments*/ undefined, __spreadArrays([ ts.createThis() ], node.arguments)); } return node; } function isSuperContainer(node) { var kind = node.kind; return kind === 245 /* ClassDeclaration */ || kind === 162 /* Constructor */ || kind === 161 /* MethodDeclaration */ || kind === 163 /* GetAccessor */ || kind === 164 /* SetAccessor */; } function createSuperElementAccessInAsyncMethod(argumentExpression, location) { if (enclosingSuperContainerFlags & 4096 /* AsyncMethodWithSuperBinding */) { return ts.setTextRange(ts.createPropertyAccess(ts.createCall(ts.createFileLevelUniqueName("_superIndex"), /*typeArguments*/ undefined, [argumentExpression]), "value"), location); } else { return ts.setTextRange(ts.createCall(ts.createFileLevelUniqueName("_superIndex"), /*typeArguments*/ undefined, [argumentExpression]), location); } } } ts.transformES2017 = transformES2017; /** Creates a variable named `_super` with accessor properties for the given property names. */ function createSuperAccessVariableStatement(resolver, node, names) { // Create a variable declaration with a getter/setter (if binding) definition for each name: // const _super = Object.create(null, { x: { get: () => super.x, set: (v) => super.x = v }, ... }); var hasBinding = (resolver.getNodeCheckFlags(node) & 4096 /* AsyncMethodWithSuperBinding */) !== 0; var accessors = []; names.forEach(function (_, key) { var name = ts.unescapeLeadingUnderscores(key); var getterAndSetter = []; getterAndSetter.push(ts.createPropertyAssignment("get", ts.createArrowFunction( /* modifiers */ undefined, /* typeParameters */ undefined, /* parameters */ [], /* type */ undefined, /* equalsGreaterThanToken */ undefined, ts.setEmitFlags(ts.createPropertyAccess(ts.setEmitFlags(ts.createSuper(), 4 /* NoSubstitution */), name), 4 /* NoSubstitution */)))); if (hasBinding) { getterAndSetter.push(ts.createPropertyAssignment("set", ts.createArrowFunction( /* modifiers */ undefined, /* typeParameters */ undefined, /* parameters */ [ ts.createParameter( /* decorators */ undefined, /* modifiers */ undefined, /* dotDotDotToken */ undefined, "v", /* questionToken */ undefined, /* type */ undefined, /* initializer */ undefined) ], /* type */ undefined, /* equalsGreaterThanToken */ undefined, ts.createAssignment(ts.setEmitFlags(ts.createPropertyAccess(ts.setEmitFlags(ts.createSuper(), 4 /* NoSubstitution */), name), 4 /* NoSubstitution */), ts.createIdentifier("v"))))); } accessors.push(ts.createPropertyAssignment(name, ts.createObjectLiteral(getterAndSetter))); }); return ts.createVariableStatement( /* modifiers */ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(ts.createFileLevelUniqueName("_super"), /* type */ undefined, ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Object"), "create"), /* typeArguments */ undefined, [ ts.createNull(), ts.createObjectLiteral(accessors, /* multiline */ true) ])) ], 2 /* Const */)); } ts.createSuperAccessVariableStatement = createSuperAccessVariableStatement; ts.awaiterHelper = { name: "typescript:awaiter", importName: "__awaiter", scoped: false, priority: 5, text: "\n var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {\n function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }\n return new (P || (P = Promise))(function (resolve, reject) {\n function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }\n function rejected(value) { try { step(generator[\"throw\"](value)); } catch (e) { reject(e); } }\n function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }\n step((generator = generator.apply(thisArg, _arguments || [])).next());\n });\n };" }; function createAwaiterHelper(context, hasLexicalThis, hasLexicalArguments, promiseConstructor, body) { context.requestEmitHelper(ts.awaiterHelper); var generatorFunc = ts.createFunctionExpression( /*modifiers*/ undefined, ts.createToken(41 /* AsteriskToken */), /*name*/ undefined, /*typeParameters*/ undefined, /*parameters*/ [], /*type*/ undefined, body); // Mark this node as originally an async function (generatorFunc.emitNode || (generatorFunc.emitNode = {})).flags |= 262144 /* AsyncFunctionBody */ | 524288 /* ReuseTempVariableScope */; return ts.createCall(ts.getUnscopedHelperName("__awaiter"), /*typeArguments*/ undefined, [ hasLexicalThis ? ts.createThis() : ts.createVoidZero(), hasLexicalArguments ? ts.createIdentifier("arguments") : ts.createVoidZero(), promiseConstructor ? ts.createExpressionFromEntityName(promiseConstructor) : ts.createVoidZero(), generatorFunc ]); } ts.asyncSuperHelper = { name: "typescript:async-super", scoped: true, text: ts.helperString(__makeTemplateObject(["\n const ", " = name => super[name];"], ["\n const ", " = name => super[name];"]), "_superIndex") }; ts.advancedAsyncSuperHelper = { name: "typescript:advanced-async-super", scoped: true, text: ts.helperString(__makeTemplateObject(["\n const ", " = (function (geti, seti) {\n const cache = Object.create(null);\n return name => cache[name] || (cache[name] = { get value() { return geti(name); }, set value(v) { seti(name, v); } });\n })(name => super[name], (name, value) => super[name] = value);"], ["\n const ", " = (function (geti, seti) {\n const cache = Object.create(null);\n return name => cache[name] || (cache[name] = { get value() { return geti(name); }, set value(v) { seti(name, v); } });\n })(name => super[name], (name, value) => super[name] = value);"]), "_superIndex") }; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var ESNextSubstitutionFlags; (function (ESNextSubstitutionFlags) { /** Enables substitutions for async methods with `super` calls. */ ESNextSubstitutionFlags[ESNextSubstitutionFlags["AsyncMethodsWithSuper"] = 1] = "AsyncMethodsWithSuper"; })(ESNextSubstitutionFlags || (ESNextSubstitutionFlags = {})); // Facts we track as we traverse the tree var HierarchyFacts; (function (HierarchyFacts) { HierarchyFacts[HierarchyFacts["None"] = 0] = "None"; // // Ancestor facts // HierarchyFacts[HierarchyFacts["HasLexicalThis"] = 1] = "HasLexicalThis"; HierarchyFacts[HierarchyFacts["IterationContainer"] = 2] = "IterationContainer"; // NOTE: do not add more ancestor flags without also updating AncestorFactsMask below. // // Ancestor masks // HierarchyFacts[HierarchyFacts["AncestorFactsMask"] = 3] = "AncestorFactsMask"; HierarchyFacts[HierarchyFacts["SourceFileIncludes"] = 1] = "SourceFileIncludes"; HierarchyFacts[HierarchyFacts["SourceFileExcludes"] = 2] = "SourceFileExcludes"; HierarchyFacts[HierarchyFacts["StrictModeSourceFileIncludes"] = 0] = "StrictModeSourceFileIncludes"; HierarchyFacts[HierarchyFacts["ClassOrFunctionIncludes"] = 1] = "ClassOrFunctionIncludes"; HierarchyFacts[HierarchyFacts["ClassOrFunctionExcludes"] = 2] = "ClassOrFunctionExcludes"; HierarchyFacts[HierarchyFacts["ArrowFunctionIncludes"] = 0] = "ArrowFunctionIncludes"; HierarchyFacts[HierarchyFacts["ArrowFunctionExcludes"] = 2] = "ArrowFunctionExcludes"; HierarchyFacts[HierarchyFacts["IterationStatementIncludes"] = 2] = "IterationStatementIncludes"; HierarchyFacts[HierarchyFacts["IterationStatementExcludes"] = 0] = "IterationStatementExcludes"; })(HierarchyFacts || (HierarchyFacts = {})); function transformES2018(context) { var resumeLexicalEnvironment = context.resumeLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistVariableDeclaration = context.hoistVariableDeclaration; var resolver = context.getEmitResolver(); var compilerOptions = context.getCompilerOptions(); var languageVersion = ts.getEmitScriptTarget(compilerOptions); var previousOnEmitNode = context.onEmitNode; context.onEmitNode = onEmitNode; var previousOnSubstituteNode = context.onSubstituteNode; context.onSubstituteNode = onSubstituteNode; var exportedVariableStatement = false; var enabledSubstitutions; var enclosingFunctionFlags; var enclosingSuperContainerFlags = 0; var hierarchyFacts = 0; var currentSourceFile; var taggedTemplateStringDeclarations; /** Keeps track of property names accessed on super (`super.x`) within async functions. */ var capturedSuperProperties; /** Whether the async function contains an element access on super (`super[x]`). */ var hasSuperElementAccess; /** A set of node IDs for generated super accessors. */ var substitutedSuperAccessors = []; return ts.chainBundle(transformSourceFile); function affectsSubtree(excludeFacts, includeFacts) { return hierarchyFacts !== (hierarchyFacts & ~excludeFacts | includeFacts); } /** * Sets the `HierarchyFacts` for this node prior to visiting this node's subtree, returning the facts set prior to modification. * @param excludeFacts The existing `HierarchyFacts` to reset before visiting the subtree. * @param includeFacts The new `HierarchyFacts` to set before visiting the subtree. */ function enterSubtree(excludeFacts, includeFacts) { var ancestorFacts = hierarchyFacts; hierarchyFacts = (hierarchyFacts & ~excludeFacts | includeFacts) & 3 /* AncestorFactsMask */; return ancestorFacts; } /** * Restores the `HierarchyFacts` for this node's ancestor after visiting this node's * subtree. * @param ancestorFacts The `HierarchyFacts` of the ancestor to restore after visiting the subtree. */ function exitSubtree(ancestorFacts) { hierarchyFacts = ancestorFacts; } function recordTaggedTemplateString(temp) { taggedTemplateStringDeclarations = ts.append(taggedTemplateStringDeclarations, ts.createVariableDeclaration(temp)); } function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } currentSourceFile = node; var visited = visitSourceFile(node); ts.addEmitHelpers(visited, context.readEmitHelpers()); currentSourceFile = undefined; taggedTemplateStringDeclarations = undefined; return visited; } function visitor(node) { return visitorWorker(node, /*noDestructuringValue*/ false); } function visitorNoDestructuringValue(node) { return visitorWorker(node, /*noDestructuringValue*/ true); } function visitorNoAsyncModifier(node) { if (node.kind === 126 /* AsyncKeyword */) { return undefined; } return node; } function doWithHierarchyFacts(cb, value, excludeFacts, includeFacts) { if (affectsSubtree(excludeFacts, includeFacts)) { var ancestorFacts = enterSubtree(excludeFacts, includeFacts); var result = cb(value); exitSubtree(ancestorFacts); return result; } return cb(value); } function visitDefault(node) { return ts.visitEachChild(node, visitor, context); } function visitorWorker(node, noDestructuringValue) { if ((node.transformFlags & 32 /* ContainsES2018 */) === 0) { return node; } switch (node.kind) { case 206 /* AwaitExpression */: return visitAwaitExpression(node); case 212 /* YieldExpression */: return visitYieldExpression(node); case 235 /* ReturnStatement */: return visitReturnStatement(node); case 238 /* LabeledStatement */: return visitLabeledStatement(node); case 193 /* ObjectLiteralExpression */: return visitObjectLiteralExpression(node); case 209 /* BinaryExpression */: return visitBinaryExpression(node, noDestructuringValue); case 280 /* CatchClause */: return visitCatchClause(node); case 225 /* VariableStatement */: return visitVariableStatement(node); case 242 /* VariableDeclaration */: return visitVariableDeclaration(node); case 228 /* DoStatement */: case 229 /* WhileStatement */: case 231 /* ForInStatement */: return doWithHierarchyFacts(visitDefault, node, 0 /* IterationStatementExcludes */, 2 /* IterationStatementIncludes */); case 232 /* ForOfStatement */: return visitForOfStatement(node, /*outermostLabeledStatement*/ undefined); case 230 /* ForStatement */: return doWithHierarchyFacts(visitForStatement, node, 0 /* IterationStatementExcludes */, 2 /* IterationStatementIncludes */); case 205 /* VoidExpression */: return visitVoidExpression(node); case 162 /* Constructor */: return doWithHierarchyFacts(visitConstructorDeclaration, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); case 161 /* MethodDeclaration */: return doWithHierarchyFacts(visitMethodDeclaration, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); case 163 /* GetAccessor */: return doWithHierarchyFacts(visitGetAccessorDeclaration, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); case 164 /* SetAccessor */: return doWithHierarchyFacts(visitSetAccessorDeclaration, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); case 244 /* FunctionDeclaration */: return doWithHierarchyFacts(visitFunctionDeclaration, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); case 201 /* FunctionExpression */: return doWithHierarchyFacts(visitFunctionExpression, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); case 202 /* ArrowFunction */: return doWithHierarchyFacts(visitArrowFunction, node, 2 /* ArrowFunctionExcludes */, 0 /* ArrowFunctionIncludes */); case 156 /* Parameter */: return visitParameter(node); case 226 /* ExpressionStatement */: return visitExpressionStatement(node); case 200 /* ParenthesizedExpression */: return visitParenthesizedExpression(node, noDestructuringValue); case 198 /* TaggedTemplateExpression */: return visitTaggedTemplateExpression(node); case 194 /* PropertyAccessExpression */: if (capturedSuperProperties && ts.isPropertyAccessExpression(node) && node.expression.kind === 102 /* SuperKeyword */) { capturedSuperProperties.set(node.name.escapedText, true); } return ts.visitEachChild(node, visitor, context); case 195 /* ElementAccessExpression */: if (capturedSuperProperties && node.expression.kind === 102 /* SuperKeyword */) { hasSuperElementAccess = true; } return ts.visitEachChild(node, visitor, context); case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: return doWithHierarchyFacts(visitDefault, node, 2 /* ClassOrFunctionExcludes */, 1 /* ClassOrFunctionIncludes */); default: return ts.visitEachChild(node, visitor, context); } } function visitAwaitExpression(node) { if (enclosingFunctionFlags & 2 /* Async */ && enclosingFunctionFlags & 1 /* Generator */) { return ts.setOriginalNode(ts.setTextRange(ts.createYield(createAwaitHelper(context, ts.visitNode(node.expression, visitor, ts.isExpression))), /*location*/ node), node); } return ts.visitEachChild(node, visitor, context); } function visitYieldExpression(node) { if (enclosingFunctionFlags & 2 /* Async */ && enclosingFunctionFlags & 1 /* Generator */) { if (node.asteriskToken) { var expression = ts.visitNode(node.expression, visitor, ts.isExpression); return ts.setOriginalNode(ts.setTextRange(ts.createYield(createAwaitHelper(context, ts.updateYield(node, node.asteriskToken, createAsyncDelegatorHelper(context, createAsyncValuesHelper(context, expression, expression), expression)))), node), node); } return ts.setOriginalNode(ts.setTextRange(ts.createYield(createDownlevelAwait(node.expression ? ts.visitNode(node.expression, visitor, ts.isExpression) : ts.createVoidZero())), node), node); } return ts.visitEachChild(node, visitor, context); } function visitReturnStatement(node) { if (enclosingFunctionFlags & 2 /* Async */ && enclosingFunctionFlags & 1 /* Generator */) { return ts.updateReturn(node, createDownlevelAwait(node.expression ? ts.visitNode(node.expression, visitor, ts.isExpression) : ts.createVoidZero())); } return ts.visitEachChild(node, visitor, context); } function visitLabeledStatement(node) { if (enclosingFunctionFlags & 2 /* Async */) { var statement = ts.unwrapInnermostStatementOfLabel(node); if (statement.kind === 232 /* ForOfStatement */ && statement.awaitModifier) { return visitForOfStatement(statement, node); } return ts.restoreEnclosingLabel(ts.visitNode(statement, visitor, ts.isStatement, ts.liftToBlock), node); } return ts.visitEachChild(node, visitor, context); } function chunkObjectLiteralElements(elements) { var chunkObject; var objects = []; for (var _i = 0, elements_4 = elements; _i < elements_4.length; _i++) { var e = elements_4[_i]; if (e.kind === 283 /* SpreadAssignment */) { if (chunkObject) { objects.push(ts.createObjectLiteral(chunkObject)); chunkObject = undefined; } var target = e.expression; objects.push(ts.visitNode(target, visitor, ts.isExpression)); } else { chunkObject = ts.append(chunkObject, e.kind === 281 /* PropertyAssignment */ ? ts.createPropertyAssignment(e.name, ts.visitNode(e.initializer, visitor, ts.isExpression)) : ts.visitNode(e, visitor, ts.isObjectLiteralElementLike)); } } if (chunkObject) { objects.push(ts.createObjectLiteral(chunkObject)); } return objects; } function visitObjectLiteralExpression(node) { if (node.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { // spread elements emit like so: // non-spread elements are chunked together into object literals, and then all are passed to __assign: // { a, ...o, b } => __assign(__assign({a}, o), {b}); // If the first element is a spread element, then the first argument to __assign is {}: // { ...o, a, b, ...o2 } => __assign(__assign(__assign({}, o), {a, b}), o2) // // We cannot call __assign with more than two elements, since any element could cause side effects. For // example: // var k = { a: 1, b: 2 }; // var o = { a: 3, ...k, b: k.a++ }; // // expected: { a: 1, b: 1 } // If we translate the above to `__assign({ a: 3 }, k, { b: k.a++ })`, the `k.a++` will evaluate before // `k` is spread and we end up with `{ a: 2, b: 1 }`. // // This also occurs for spread elements, not just property assignments: // var k = { a: 1, get b() { l = { z: 9 }; return 2; } }; // var l = { c: 3 }; // var o = { ...k, ...l }; // // expected: { a: 1, b: 2, z: 9 } // If we translate the above to `__assign({}, k, l)`, the `l` will evaluate before `k` is spread and we // end up with `{ a: 1, b: 2, c: 3 }` var objects = chunkObjectLiteralElements(node.properties); if (objects.length && objects[0].kind !== 193 /* ObjectLiteralExpression */) { objects.unshift(ts.createObjectLiteral()); } var expression = objects[0]; if (objects.length > 1) { for (var i = 1; i < objects.length; i++) { expression = createAssignHelper(context, [expression, objects[i]]); } return expression; } else { return createAssignHelper(context, objects); } } return ts.visitEachChild(node, visitor, context); } function visitExpressionStatement(node) { return ts.visitEachChild(node, visitorNoDestructuringValue, context); } function visitParenthesizedExpression(node, noDestructuringValue) { return ts.visitEachChild(node, noDestructuringValue ? visitorNoDestructuringValue : visitor, context); } function visitSourceFile(node) { var ancestorFacts = enterSubtree(2 /* SourceFileExcludes */, ts.isEffectiveStrictModeSourceFile(node, compilerOptions) ? 0 /* StrictModeSourceFileIncludes */ : 1 /* SourceFileIncludes */); exportedVariableStatement = false; var visited = ts.visitEachChild(node, visitor, context); var statement = ts.concatenate(visited.statements, taggedTemplateStringDeclarations && [ ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList(taggedTemplateStringDeclarations)) ]); var result = ts.updateSourceFileNode(visited, ts.setTextRange(ts.createNodeArray(statement), node.statements)); exitSubtree(ancestorFacts); return result; } function visitTaggedTemplateExpression(node) { return ts.processTaggedTemplateExpression(context, node, visitor, currentSourceFile, recordTaggedTemplateString, ts.ProcessLevel.LiftRestriction); } /** * Visits a BinaryExpression that contains a destructuring assignment. * * @param node A BinaryExpression node. */ function visitBinaryExpression(node, noDestructuringValue) { if (ts.isDestructuringAssignment(node) && node.left.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { return ts.flattenDestructuringAssignment(node, visitor, context, 1 /* ObjectRest */, !noDestructuringValue); } else if (node.operatorToken.kind === 27 /* CommaToken */) { return ts.updateBinary(node, ts.visitNode(node.left, visitorNoDestructuringValue, ts.isExpression), ts.visitNode(node.right, noDestructuringValue ? visitorNoDestructuringValue : visitor, ts.isExpression)); } return ts.visitEachChild(node, visitor, context); } function visitCatchClause(node) { if (node.variableDeclaration && ts.isBindingPattern(node.variableDeclaration.name) && node.variableDeclaration.name.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { var name = ts.getGeneratedNameForNode(node.variableDeclaration.name); var updatedDecl = ts.updateVariableDeclaration(node.variableDeclaration, node.variableDeclaration.name, /*type*/ undefined, name); var visitedBindings = ts.flattenDestructuringBinding(updatedDecl, visitor, context, 1 /* ObjectRest */); var block = ts.visitNode(node.block, visitor, ts.isBlock); if (ts.some(visitedBindings)) { block = ts.updateBlock(block, __spreadArrays([ ts.createVariableStatement(/*modifiers*/ undefined, visitedBindings) ], block.statements)); } return ts.updateCatchClause(node, ts.updateVariableDeclaration(node.variableDeclaration, name, /*type*/ undefined, /*initializer*/ undefined), block); } return ts.visitEachChild(node, visitor, context); } function visitVariableStatement(node) { if (ts.hasModifier(node, 1 /* Export */)) { var savedExportedVariableStatement = exportedVariableStatement; exportedVariableStatement = true; var visited = ts.visitEachChild(node, visitor, context); exportedVariableStatement = savedExportedVariableStatement; return visited; } return ts.visitEachChild(node, visitor, context); } /** * Visits a VariableDeclaration node with a binding pattern. * * @param node A VariableDeclaration node. */ function visitVariableDeclaration(node) { if (exportedVariableStatement) { var savedExportedVariableStatement = exportedVariableStatement; exportedVariableStatement = false; var visited = visitVariableDeclarationWorker(node, /*exportedVariableStatement*/ true); exportedVariableStatement = savedExportedVariableStatement; return visited; } return visitVariableDeclarationWorker(node, /*exportedVariableStatement*/ false); } function visitVariableDeclarationWorker(node, exportedVariableStatement) { // If we are here it is because the name contains a binding pattern with a rest somewhere in it. if (ts.isBindingPattern(node.name) && node.name.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { return ts.flattenDestructuringBinding(node, visitor, context, 1 /* ObjectRest */, /*rval*/ undefined, exportedVariableStatement); } return ts.visitEachChild(node, visitor, context); } function visitForStatement(node) { return ts.updateFor(node, ts.visitNode(node.initializer, visitorNoDestructuringValue, ts.isForInitializer), ts.visitNode(node.condition, visitor, ts.isExpression), ts.visitNode(node.incrementor, visitor, ts.isExpression), ts.visitNode(node.statement, visitor, ts.isStatement)); } function visitVoidExpression(node) { return ts.visitEachChild(node, visitorNoDestructuringValue, context); } /** * Visits a ForOfStatement and converts it into a ES2015-compatible ForOfStatement. * * @param node A ForOfStatement. */ function visitForOfStatement(node, outermostLabeledStatement) { var ancestorFacts = enterSubtree(0 /* IterationStatementExcludes */, 2 /* IterationStatementIncludes */); if (node.initializer.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { node = transformForOfStatementWithObjectRest(node); } var result = node.awaitModifier ? transformForAwaitOfStatement(node, outermostLabeledStatement, ancestorFacts) : ts.restoreEnclosingLabel(ts.visitEachChild(node, visitor, context), outermostLabeledStatement); exitSubtree(ancestorFacts); return result; } function transformForOfStatementWithObjectRest(node) { var initializerWithoutParens = ts.skipParentheses(node.initializer); if (ts.isVariableDeclarationList(initializerWithoutParens) || ts.isAssignmentPattern(initializerWithoutParens)) { var bodyLocation = void 0; var statementsLocation = void 0; var temp = ts.createTempVariable(/*recordTempVariable*/ undefined); var statements = [ts.createForOfBindingStatement(initializerWithoutParens, temp)]; if (ts.isBlock(node.statement)) { ts.addRange(statements, node.statement.statements); bodyLocation = node.statement; statementsLocation = node.statement.statements; } else if (node.statement) { ts.append(statements, node.statement); bodyLocation = node.statement; statementsLocation = node.statement; } return ts.updateForOf(node, node.awaitModifier, ts.setTextRange(ts.createVariableDeclarationList([ ts.setTextRange(ts.createVariableDeclaration(temp), node.initializer) ], 1 /* Let */), node.initializer), node.expression, ts.setTextRange(ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), statementsLocation), /*multiLine*/ true), bodyLocation)); } return node; } function convertForOfStatementHead(node, boundValue) { var binding = ts.createForOfBindingStatement(node.initializer, boundValue); var bodyLocation; var statementsLocation; var statements = [ts.visitNode(binding, visitor, ts.isStatement)]; var statement = ts.visitNode(node.statement, visitor, ts.isStatement); if (ts.isBlock(statement)) { ts.addRange(statements, statement.statements); bodyLocation = statement; statementsLocation = statement.statements; } else { statements.push(statement); } return ts.setEmitFlags(ts.setTextRange(ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), statementsLocation), /*multiLine*/ true), bodyLocation), 48 /* NoSourceMap */ | 384 /* NoTokenSourceMaps */); } function createDownlevelAwait(expression) { return enclosingFunctionFlags & 1 /* Generator */ ? ts.createYield(/*asteriskToken*/ undefined, createAwaitHelper(context, expression)) : ts.createAwait(expression); } function transformForAwaitOfStatement(node, outermostLabeledStatement, ancestorFacts) { var expression = ts.visitNode(node.expression, visitor, ts.isExpression); var iterator = ts.isIdentifier(expression) ? ts.getGeneratedNameForNode(expression) : ts.createTempVariable(/*recordTempVariable*/ undefined); var result = ts.isIdentifier(expression) ? ts.getGeneratedNameForNode(iterator) : ts.createTempVariable(/*recordTempVariable*/ undefined); var errorRecord = ts.createUniqueName("e"); var catchVariable = ts.getGeneratedNameForNode(errorRecord); var returnMethod = ts.createTempVariable(/*recordTempVariable*/ undefined); var callValues = createAsyncValuesHelper(context, expression, /*location*/ node.expression); var callNext = ts.createCall(ts.createPropertyAccess(iterator, "next"), /*typeArguments*/ undefined, []); var getDone = ts.createPropertyAccess(result, "done"); var getValue = ts.createPropertyAccess(result, "value"); var callReturn = ts.createFunctionCall(returnMethod, iterator, []); hoistVariableDeclaration(errorRecord); hoistVariableDeclaration(returnMethod); // if we are enclosed in an outer loop ensure we reset 'errorRecord' per each iteration var initializer = ancestorFacts & 2 /* IterationContainer */ ? ts.inlineExpressions([ts.createAssignment(errorRecord, ts.createVoidZero()), callValues]) : callValues; var forStatement = ts.setEmitFlags(ts.setTextRange(ts.createFor( /*initializer*/ ts.setEmitFlags(ts.setTextRange(ts.createVariableDeclarationList([ ts.setTextRange(ts.createVariableDeclaration(iterator, /*type*/ undefined, initializer), node.expression), ts.createVariableDeclaration(result) ]), node.expression), 2097152 /* NoHoisting */), /*condition*/ ts.createComma(ts.createAssignment(result, createDownlevelAwait(callNext)), ts.createLogicalNot(getDone)), /*incrementor*/ undefined, /*statement*/ convertForOfStatementHead(node, getValue)), /*location*/ node), 256 /* NoTokenTrailingSourceMaps */); return ts.createTry(ts.createBlock([ ts.restoreEnclosingLabel(forStatement, outermostLabeledStatement) ]), ts.createCatchClause(ts.createVariableDeclaration(catchVariable), ts.setEmitFlags(ts.createBlock([ ts.createExpressionStatement(ts.createAssignment(errorRecord, ts.createObjectLiteral([ ts.createPropertyAssignment("error", catchVariable) ]))) ]), 1 /* SingleLine */)), ts.createBlock([ ts.createTry( /*tryBlock*/ ts.createBlock([ ts.setEmitFlags(ts.createIf(ts.createLogicalAnd(ts.createLogicalAnd(result, ts.createLogicalNot(getDone)), ts.createAssignment(returnMethod, ts.createPropertyAccess(iterator, "return"))), ts.createExpressionStatement(createDownlevelAwait(callReturn))), 1 /* SingleLine */) ]), /*catchClause*/ undefined, /*finallyBlock*/ ts.setEmitFlags(ts.createBlock([ ts.setEmitFlags(ts.createIf(errorRecord, ts.createThrow(ts.createPropertyAccess(errorRecord, "error"))), 1 /* SingleLine */) ]), 1 /* SingleLine */)) ])); } function visitParameter(node) { if (node.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { // Binding patterns are converted into a generated name and are // evaluated inside the function body. return ts.updateParameter(node, /*decorators*/ undefined, /*modifiers*/ undefined, node.dotDotDotToken, ts.getGeneratedNameForNode(node), /*questionToken*/ undefined, /*type*/ undefined, ts.visitNode(node.initializer, visitor, ts.isExpression)); } return ts.visitEachChild(node, visitor, context); } function visitConstructorDeclaration(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = 0 /* Normal */; var updated = ts.updateConstructor(node, /*decorators*/ undefined, node.modifiers, ts.visitParameterList(node.parameters, visitor, context), transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function visitGetAccessorDeclaration(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = 0 /* Normal */; var updated = ts.updateGetAccessor(node, /*decorators*/ undefined, node.modifiers, ts.visitNode(node.name, visitor, ts.isPropertyName), ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function visitSetAccessorDeclaration(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = 0 /* Normal */; var updated = ts.updateSetAccessor(node, /*decorators*/ undefined, node.modifiers, ts.visitNode(node.name, visitor, ts.isPropertyName), ts.visitParameterList(node.parameters, visitor, context), transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function visitMethodDeclaration(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = ts.getFunctionFlags(node); var updated = ts.updateMethod(node, /*decorators*/ undefined, enclosingFunctionFlags & 1 /* Generator */ ? ts.visitNodes(node.modifiers, visitorNoAsyncModifier, ts.isModifier) : node.modifiers, enclosingFunctionFlags & 2 /* Async */ ? undefined : node.asteriskToken, ts.visitNode(node.name, visitor, ts.isPropertyName), ts.visitNode(/*questionToken*/ undefined, visitor, ts.isToken), /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, enclosingFunctionFlags & 2 /* Async */ && enclosingFunctionFlags & 1 /* Generator */ ? transformAsyncGeneratorFunctionBody(node) : transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function visitFunctionDeclaration(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = ts.getFunctionFlags(node); var updated = ts.updateFunctionDeclaration(node, /*decorators*/ undefined, enclosingFunctionFlags & 1 /* Generator */ ? ts.visitNodes(node.modifiers, visitorNoAsyncModifier, ts.isModifier) : node.modifiers, enclosingFunctionFlags & 2 /* Async */ ? undefined : node.asteriskToken, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, enclosingFunctionFlags & 2 /* Async */ && enclosingFunctionFlags & 1 /* Generator */ ? transformAsyncGeneratorFunctionBody(node) : transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function visitArrowFunction(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = ts.getFunctionFlags(node); var updated = ts.updateArrowFunction(node, node.modifiers, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, node.equalsGreaterThanToken, transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function visitFunctionExpression(node) { var savedEnclosingFunctionFlags = enclosingFunctionFlags; enclosingFunctionFlags = ts.getFunctionFlags(node); var updated = ts.updateFunctionExpression(node, enclosingFunctionFlags & 1 /* Generator */ ? ts.visitNodes(node.modifiers, visitorNoAsyncModifier, ts.isModifier) : node.modifiers, enclosingFunctionFlags & 2 /* Async */ ? undefined : node.asteriskToken, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, enclosingFunctionFlags & 2 /* Async */ && enclosingFunctionFlags & 1 /* Generator */ ? transformAsyncGeneratorFunctionBody(node) : transformFunctionBody(node)); enclosingFunctionFlags = savedEnclosingFunctionFlags; return updated; } function transformAsyncGeneratorFunctionBody(node) { resumeLexicalEnvironment(); var statements = []; var statementOffset = ts.addPrologue(statements, node.body.statements, /*ensureUseStrict*/ false, visitor); appendObjectRestAssignmentsIfNeeded(statements, node); var savedCapturedSuperProperties = capturedSuperProperties; var savedHasSuperElementAccess = hasSuperElementAccess; capturedSuperProperties = ts.createUnderscoreEscapedMap(); hasSuperElementAccess = false; var returnStatement = ts.createReturn(createAsyncGeneratorHelper(context, ts.createFunctionExpression( /*modifiers*/ undefined, ts.createToken(41 /* AsteriskToken */), node.name && ts.getGeneratedNameForNode(node.name), /*typeParameters*/ undefined, /*parameters*/ [], /*type*/ undefined, ts.updateBlock(node.body, ts.visitLexicalEnvironment(node.body.statements, visitor, context, statementOffset))), !!(hierarchyFacts & 1 /* HasLexicalThis */))); // Minor optimization, emit `_super` helper to capture `super` access in an arrow. // This step isn't needed if we eventually transform this to ES5. var emitSuperHelpers = languageVersion >= 2 /* ES2015 */ && resolver.getNodeCheckFlags(node) & (4096 /* AsyncMethodWithSuperBinding */ | 2048 /* AsyncMethodWithSuper */); if (emitSuperHelpers) { enableSubstitutionForAsyncMethodsWithSuper(); var variableStatement = ts.createSuperAccessVariableStatement(resolver, node, capturedSuperProperties); substitutedSuperAccessors[ts.getNodeId(variableStatement)] = true; ts.insertStatementsAfterStandardPrologue(statements, [variableStatement]); } statements.push(returnStatement); ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); var block = ts.updateBlock(node.body, statements); if (emitSuperHelpers && hasSuperElementAccess) { if (resolver.getNodeCheckFlags(node) & 4096 /* AsyncMethodWithSuperBinding */) { ts.addEmitHelper(block, ts.advancedAsyncSuperHelper); } else if (resolver.getNodeCheckFlags(node) & 2048 /* AsyncMethodWithSuper */) { ts.addEmitHelper(block, ts.asyncSuperHelper); } } capturedSuperProperties = savedCapturedSuperProperties; hasSuperElementAccess = savedHasSuperElementAccess; return block; } function transformFunctionBody(node) { resumeLexicalEnvironment(); var statementOffset = 0; var statements = []; var body = ts.visitNode(node.body, visitor, ts.isConciseBody); if (ts.isBlock(body)) { statementOffset = ts.addPrologue(statements, body.statements, /*ensureUseStrict*/ false, visitor); } ts.addRange(statements, appendObjectRestAssignmentsIfNeeded(/*statements*/ undefined, node)); var leadingStatements = endLexicalEnvironment(); if (statementOffset > 0 || ts.some(statements) || ts.some(leadingStatements)) { var block = ts.convertToFunctionBody(body, /*multiLine*/ true); ts.insertStatementsAfterStandardPrologue(statements, leadingStatements); ts.addRange(statements, block.statements.slice(statementOffset)); return ts.updateBlock(block, ts.setTextRange(ts.createNodeArray(statements), block.statements)); } return body; } function appendObjectRestAssignmentsIfNeeded(statements, node) { for (var _i = 0, _a = node.parameters; _i < _a.length; _i++) { var parameter = _a[_i]; if (parameter.transformFlags & 16384 /* ContainsObjectRestOrSpread */) { var temp = ts.getGeneratedNameForNode(parameter); var declarations = ts.flattenDestructuringBinding(parameter, visitor, context, 1 /* ObjectRest */, temp, /*doNotRecordTempVariablesInLine*/ false, /*skipInitializer*/ true); if (ts.some(declarations)) { var statement = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList(declarations)); ts.setEmitFlags(statement, 1048576 /* CustomPrologue */); statements = ts.append(statements, statement); } } } return statements; } function enableSubstitutionForAsyncMethodsWithSuper() { if ((enabledSubstitutions & 1 /* AsyncMethodsWithSuper */) === 0) { enabledSubstitutions |= 1 /* AsyncMethodsWithSuper */; // We need to enable substitutions for call, property access, and element access // if we need to rewrite super calls. context.enableSubstitution(196 /* CallExpression */); context.enableSubstitution(194 /* PropertyAccessExpression */); context.enableSubstitution(195 /* ElementAccessExpression */); // We need to be notified when entering and exiting declarations that bind super. context.enableEmitNotification(245 /* ClassDeclaration */); context.enableEmitNotification(161 /* MethodDeclaration */); context.enableEmitNotification(163 /* GetAccessor */); context.enableEmitNotification(164 /* SetAccessor */); context.enableEmitNotification(162 /* Constructor */); // We need to be notified when entering the generated accessor arrow functions. context.enableEmitNotification(225 /* VariableStatement */); } } /** * Called by the printer just before a node is printed. * * @param hint A hint as to the intended usage of the node. * @param node The node to be printed. * @param emitCallback The callback used to emit the node. */ function onEmitNode(hint, node, emitCallback) { // If we need to support substitutions for `super` in an async method, // we should track it here. if (enabledSubstitutions & 1 /* AsyncMethodsWithSuper */ && isSuperContainer(node)) { var superContainerFlags = resolver.getNodeCheckFlags(node) & (2048 /* AsyncMethodWithSuper */ | 4096 /* AsyncMethodWithSuperBinding */); if (superContainerFlags !== enclosingSuperContainerFlags) { var savedEnclosingSuperContainerFlags = enclosingSuperContainerFlags; enclosingSuperContainerFlags = superContainerFlags; previousOnEmitNode(hint, node, emitCallback); enclosingSuperContainerFlags = savedEnclosingSuperContainerFlags; return; } } // Disable substitution in the generated super accessor itself. else if (enabledSubstitutions && substitutedSuperAccessors[ts.getNodeId(node)]) { var savedEnclosingSuperContainerFlags = enclosingSuperContainerFlags; enclosingSuperContainerFlags = 0; previousOnEmitNode(hint, node, emitCallback); enclosingSuperContainerFlags = savedEnclosingSuperContainerFlags; return; } previousOnEmitNode(hint, node, emitCallback); } /** * Hooks node substitutions. * * @param hint The context for the emitter. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (hint === 1 /* Expression */ && enclosingSuperContainerFlags) { return substituteExpression(node); } return node; } function substituteExpression(node) { switch (node.kind) { case 194 /* PropertyAccessExpression */: return substitutePropertyAccessExpression(node); case 195 /* ElementAccessExpression */: return substituteElementAccessExpression(node); case 196 /* CallExpression */: return substituteCallExpression(node); } return node; } function substitutePropertyAccessExpression(node) { if (node.expression.kind === 102 /* SuperKeyword */) { return ts.setTextRange(ts.createPropertyAccess(ts.createFileLevelUniqueName("_super"), node.name), node); } return node; } function substituteElementAccessExpression(node) { if (node.expression.kind === 102 /* SuperKeyword */) { return createSuperElementAccessInAsyncMethod(node.argumentExpression, node); } return node; } function substituteCallExpression(node) { var expression = node.expression; if (ts.isSuperProperty(expression)) { var argumentExpression = ts.isPropertyAccessExpression(expression) ? substitutePropertyAccessExpression(expression) : substituteElementAccessExpression(expression); return ts.createCall(ts.createPropertyAccess(argumentExpression, "call"), /*typeArguments*/ undefined, __spreadArrays([ ts.createThis() ], node.arguments)); } return node; } function isSuperContainer(node) { var kind = node.kind; return kind === 245 /* ClassDeclaration */ || kind === 162 /* Constructor */ || kind === 161 /* MethodDeclaration */ || kind === 163 /* GetAccessor */ || kind === 164 /* SetAccessor */; } function createSuperElementAccessInAsyncMethod(argumentExpression, location) { if (enclosingSuperContainerFlags & 4096 /* AsyncMethodWithSuperBinding */) { return ts.setTextRange(ts.createPropertyAccess(ts.createCall(ts.createIdentifier("_superIndex"), /*typeArguments*/ undefined, [argumentExpression]), "value"), location); } else { return ts.setTextRange(ts.createCall(ts.createIdentifier("_superIndex"), /*typeArguments*/ undefined, [argumentExpression]), location); } } } ts.transformES2018 = transformES2018; ts.assignHelper = { name: "typescript:assign", importName: "__assign", scoped: false, priority: 1, text: "\n var __assign = (this && this.__assign) || function () {\n __assign = Object.assign || function(t) {\n for (var s, i = 1, n = arguments.length; i < n; i++) {\n s = arguments[i];\n for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p))\n t[p] = s[p];\n }\n return t;\n };\n return __assign.apply(this, arguments);\n };" }; function createAssignHelper(context, attributesSegments) { if (context.getCompilerOptions().target >= 2 /* ES2015 */) { return ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Object"), "assign"), /*typeArguments*/ undefined, attributesSegments); } context.requestEmitHelper(ts.assignHelper); return ts.createCall(ts.getUnscopedHelperName("__assign"), /*typeArguments*/ undefined, attributesSegments); } ts.createAssignHelper = createAssignHelper; ts.awaitHelper = { name: "typescript:await", importName: "__await", scoped: false, text: "\n var __await = (this && this.__await) || function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); }" }; function createAwaitHelper(context, expression) { context.requestEmitHelper(ts.awaitHelper); return ts.createCall(ts.getUnscopedHelperName("__await"), /*typeArguments*/ undefined, [expression]); } ts.asyncGeneratorHelper = { name: "typescript:asyncGenerator", importName: "__asyncGenerator", scoped: false, dependencies: [ts.awaitHelper], text: "\n var __asyncGenerator = (this && this.__asyncGenerator) || function (thisArg, _arguments, generator) {\n if (!Symbol.asyncIterator) throw new TypeError(\"Symbol.asyncIterator is not defined.\");\n var g = generator.apply(thisArg, _arguments || []), i, q = [];\n return i = {}, verb(\"next\"), verb(\"throw\"), verb(\"return\"), i[Symbol.asyncIterator] = function () { return this; }, i;\n function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; }\n function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } }\n function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); }\n function fulfill(value) { resume(\"next\", value); }\n function reject(value) { resume(\"throw\", value); }\n function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); }\n };" }; function createAsyncGeneratorHelper(context, generatorFunc, hasLexicalThis) { context.requestEmitHelper(ts.asyncGeneratorHelper); // Mark this node as originally an async function (generatorFunc.emitNode || (generatorFunc.emitNode = {})).flags |= 262144 /* AsyncFunctionBody */ | 524288 /* ReuseTempVariableScope */; return ts.createCall(ts.getUnscopedHelperName("__asyncGenerator"), /*typeArguments*/ undefined, [ hasLexicalThis ? ts.createThis() : ts.createVoidZero(), ts.createIdentifier("arguments"), generatorFunc ]); } ts.asyncDelegator = { name: "typescript:asyncDelegator", importName: "__asyncDelegator", scoped: false, dependencies: [ts.awaitHelper], text: "\n var __asyncDelegator = (this && this.__asyncDelegator) || function (o) {\n var i, p;\n return i = {}, verb(\"next\"), verb(\"throw\", function (e) { throw e; }), verb(\"return\"), i[Symbol.iterator] = function () { return this; }, i;\n function verb(n, f) { i[n] = o[n] ? function (v) { return (p = !p) ? { value: __await(o[n](v)), done: n === \"return\" } : f ? f(v) : v; } : f; }\n };" }; function createAsyncDelegatorHelper(context, expression, location) { context.requestEmitHelper(ts.asyncDelegator); return ts.setTextRange(ts.createCall(ts.getUnscopedHelperName("__asyncDelegator"), /*typeArguments*/ undefined, [expression]), location); } ts.asyncValues = { name: "typescript:asyncValues", importName: "__asyncValues", scoped: false, text: "\n var __asyncValues = (this && this.__asyncValues) || function (o) {\n if (!Symbol.asyncIterator) throw new TypeError(\"Symbol.asyncIterator is not defined.\");\n var m = o[Symbol.asyncIterator], i;\n return m ? m.call(o) : (o = typeof __values === \"function\" ? __values(o) : o[Symbol.iterator](), i = {}, verb(\"next\"), verb(\"throw\"), verb(\"return\"), i[Symbol.asyncIterator] = function () { return this; }, i);\n function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; }\n function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); }\n };" }; function createAsyncValuesHelper(context, expression, location) { context.requestEmitHelper(ts.asyncValues); return ts.setTextRange(ts.createCall(ts.getUnscopedHelperName("__asyncValues"), /*typeArguments*/ undefined, [expression]), location); } })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformES2019(context) { return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } return ts.visitEachChild(node, visitor, context); } function visitor(node) { if ((node.transformFlags & 16 /* ContainsES2019 */) === 0) { return node; } switch (node.kind) { case 280 /* CatchClause */: return visitCatchClause(node); default: return ts.visitEachChild(node, visitor, context); } } function visitCatchClause(node) { if (!node.variableDeclaration) { return ts.updateCatchClause(node, ts.createVariableDeclaration(ts.createTempVariable(/*recordTempVariable*/ undefined)), ts.visitNode(node.block, visitor, ts.isBlock)); } return ts.visitEachChild(node, visitor, context); } } ts.transformES2019 = transformES2019; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformES2020(context) { var hoistVariableDeclaration = context.hoistVariableDeclaration; return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } return ts.visitEachChild(node, visitor, context); } function visitor(node) { if ((node.transformFlags & 8 /* ContainsES2020 */) === 0) { return node; } switch (node.kind) { case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: case 196 /* CallExpression */: if (node.flags & 32 /* OptionalChain */) { var updated = visitOptionalExpression(node, /*captureThisArg*/ false, /*isDelete*/ false); ts.Debug.assertNotNode(updated, ts.isSyntheticReference); return updated; } return ts.visitEachChild(node, visitor, context); case 209 /* BinaryExpression */: if (node.operatorToken.kind === 60 /* QuestionQuestionToken */) { return transformNullishCoalescingExpression(node); } return ts.visitEachChild(node, visitor, context); case 203 /* DeleteExpression */: return visitDeleteExpression(node); default: return ts.visitEachChild(node, visitor, context); } } function flattenChain(chain) { ts.Debug.assertNotNode(chain, ts.isNonNullChain); var links = [chain]; while (!chain.questionDotToken && !ts.isTaggedTemplateExpression(chain)) { chain = ts.cast(ts.skipPartiallyEmittedExpressions(chain.expression), ts.isOptionalChain); ts.Debug.assertNotNode(chain, ts.isNonNullChain); links.unshift(chain); } return { expression: chain.expression, chain: links }; } function visitNonOptionalParenthesizedExpression(node, captureThisArg, isDelete) { var expression = visitNonOptionalExpression(node.expression, captureThisArg, isDelete); if (ts.isSyntheticReference(expression)) { // `(a.b)` -> { expression `((_a = a).b)`, thisArg: `_a` } // `(a[b])` -> { expression `((_a = a)[b])`, thisArg: `_a` } return ts.createSyntheticReferenceExpression(ts.updateParen(node, expression.expression), expression.thisArg); } return ts.updateParen(node, expression); } function visitNonOptionalPropertyOrElementAccessExpression(node, captureThisArg, isDelete) { if (ts.isOptionalChain(node)) { // If `node` is an optional chain, then it is the outermost chain of an optional expression. return visitOptionalExpression(node, captureThisArg, isDelete); } var expression = ts.visitNode(node.expression, visitor, ts.isExpression); ts.Debug.assertNotNode(expression, ts.isSyntheticReference); var thisArg; if (captureThisArg) { if (shouldCaptureInTempVariable(expression)) { thisArg = ts.createTempVariable(hoistVariableDeclaration); expression = ts.createAssignment(thisArg, expression); // if (inParameterInitializer) tempVariableInParameter = true; } else { thisArg = expression; } } expression = node.kind === 194 /* PropertyAccessExpression */ ? ts.updatePropertyAccess(node, expression, ts.visitNode(node.name, visitor, ts.isIdentifier)) : ts.updateElementAccess(node, expression, ts.visitNode(node.argumentExpression, visitor, ts.isExpression)); return thisArg ? ts.createSyntheticReferenceExpression(expression, thisArg) : expression; } function visitNonOptionalCallExpression(node, captureThisArg) { if (ts.isOptionalChain(node)) { // If `node` is an optional chain, then it is the outermost chain of an optional expression. return visitOptionalExpression(node, captureThisArg, /*isDelete*/ false); } return ts.visitEachChild(node, visitor, context); } function visitNonOptionalExpression(node, captureThisArg, isDelete) { switch (node.kind) { case 200 /* ParenthesizedExpression */: return visitNonOptionalParenthesizedExpression(node, captureThisArg, isDelete); case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: return visitNonOptionalPropertyOrElementAccessExpression(node, captureThisArg, isDelete); case 196 /* CallExpression */: return visitNonOptionalCallExpression(node, captureThisArg); default: return ts.visitNode(node, visitor, ts.isExpression); } } function visitOptionalExpression(node, captureThisArg, isDelete) { var _a = flattenChain(node), expression = _a.expression, chain = _a.chain; var left = visitNonOptionalExpression(expression, ts.isCallChain(chain[0]), /*isDelete*/ false); var leftThisArg = ts.isSyntheticReference(left) ? left.thisArg : undefined; var leftExpression = ts.isSyntheticReference(left) ? left.expression : left; var capturedLeft = leftExpression; if (shouldCaptureInTempVariable(leftExpression)) { capturedLeft = ts.createTempVariable(hoistVariableDeclaration); leftExpression = ts.createAssignment(capturedLeft, leftExpression); // if (inParameterInitializer) tempVariableInParameter = true; } var rightExpression = capturedLeft; var thisArg; for (var i = 0; i < chain.length; i++) { var segment = chain[i]; switch (segment.kind) { case 194 /* PropertyAccessExpression */: case 195 /* ElementAccessExpression */: if (i === chain.length - 1 && captureThisArg) { if (shouldCaptureInTempVariable(rightExpression)) { thisArg = ts.createTempVariable(hoistVariableDeclaration); rightExpression = ts.createAssignment(thisArg, rightExpression); // if (inParameterInitializer) tempVariableInParameter = true; } else { thisArg = rightExpression; } } rightExpression = segment.kind === 194 /* PropertyAccessExpression */ ? ts.createPropertyAccess(rightExpression, ts.visitNode(segment.name, visitor, ts.isIdentifier)) : ts.createElementAccess(rightExpression, ts.visitNode(segment.argumentExpression, visitor, ts.isExpression)); break; case 196 /* CallExpression */: if (i === 0 && leftThisArg) { rightExpression = ts.createFunctionCall(rightExpression, leftThisArg.kind === 102 /* SuperKeyword */ ? ts.createThis() : leftThisArg, ts.visitNodes(segment.arguments, visitor, ts.isExpression)); } else { rightExpression = ts.createCall(rightExpression, /*typeArguments*/ undefined, ts.visitNodes(segment.arguments, visitor, ts.isExpression)); } break; } ts.setOriginalNode(rightExpression, segment); } var target = isDelete ? ts.createConditional(createNotNullCondition(leftExpression, capturedLeft, /*invert*/ true), ts.createTrue(), ts.createDelete(rightExpression)) : ts.createConditional(createNotNullCondition(leftExpression, capturedLeft, /*invert*/ true), ts.createVoidZero(), rightExpression); return thisArg ? ts.createSyntheticReferenceExpression(target, thisArg) : target; } function createNotNullCondition(left, right, invert) { return ts.createBinary(ts.createBinary(left, ts.createToken(invert ? 36 /* EqualsEqualsEqualsToken */ : 37 /* ExclamationEqualsEqualsToken */), ts.createNull()), ts.createToken(invert ? 56 /* BarBarToken */ : 55 /* AmpersandAmpersandToken */), ts.createBinary(right, ts.createToken(invert ? 36 /* EqualsEqualsEqualsToken */ : 37 /* ExclamationEqualsEqualsToken */), ts.createVoidZero())); } function transformNullishCoalescingExpression(node) { var left = ts.visitNode(node.left, visitor, ts.isExpression); var right = left; if (shouldCaptureInTempVariable(left)) { right = ts.createTempVariable(hoistVariableDeclaration); left = ts.createAssignment(right, left); // if (inParameterInitializer) tempVariableInParameter = true; } return ts.createConditional(createNotNullCondition(left, right), right, ts.visitNode(node.right, visitor, ts.isExpression)); } function shouldCaptureInTempVariable(expression) { // don't capture identifiers and `this` in a temporary variable // `super` cannot be captured as it's no real variable return !ts.isIdentifier(expression) && expression.kind !== 104 /* ThisKeyword */ && expression.kind !== 102 /* SuperKeyword */; } function visitDeleteExpression(node) { return ts.isOptionalChain(ts.skipParentheses(node.expression)) ? ts.setOriginalNode(visitNonOptionalExpression(node.expression, /*captureThisArg*/ false, /*isDelete*/ true), node) : ts.updateDelete(node, ts.visitNode(node.expression, visitor, ts.isExpression)); } } ts.transformES2020 = transformES2020; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformESNext(context) { return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } return ts.visitEachChild(node, visitor, context); } function visitor(node) { if ((node.transformFlags & 4 /* ContainsESNext */) === 0) { return node; } switch (node.kind) { default: return ts.visitEachChild(node, visitor, context); } } } ts.transformESNext = transformESNext; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformJsx(context) { var compilerOptions = context.getCompilerOptions(); var currentSourceFile; return ts.chainBundle(transformSourceFile); /** * Transform JSX-specific syntax in a SourceFile. * * @param node A SourceFile node. */ function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } currentSourceFile = node; var visited = ts.visitEachChild(node, visitor, context); ts.addEmitHelpers(visited, context.readEmitHelpers()); return visited; } function visitor(node) { if (node.transformFlags & 2 /* ContainsJsx */) { return visitorWorker(node); } else { return node; } } function visitorWorker(node) { switch (node.kind) { case 266 /* JsxElement */: return visitJsxElement(node, /*isChild*/ false); case 267 /* JsxSelfClosingElement */: return visitJsxSelfClosingElement(node, /*isChild*/ false); case 270 /* JsxFragment */: return visitJsxFragment(node, /*isChild*/ false); case 276 /* JsxExpression */: return visitJsxExpression(node); default: return ts.visitEachChild(node, visitor, context); } } function transformJsxChildToExpression(node) { switch (node.kind) { case 11 /* JsxText */: return visitJsxText(node); case 276 /* JsxExpression */: return visitJsxExpression(node); case 266 /* JsxElement */: return visitJsxElement(node, /*isChild*/ true); case 267 /* JsxSelfClosingElement */: return visitJsxSelfClosingElement(node, /*isChild*/ true); case 270 /* JsxFragment */: return visitJsxFragment(node, /*isChild*/ true); default: return ts.Debug.failBadSyntaxKind(node); } } function visitJsxElement(node, isChild) { return visitJsxOpeningLikeElement(node.openingElement, node.children, isChild, /*location*/ node); } function visitJsxSelfClosingElement(node, isChild) { return visitJsxOpeningLikeElement(node, /*children*/ undefined, isChild, /*location*/ node); } function visitJsxFragment(node, isChild) { return visitJsxOpeningFragment(node.openingFragment, node.children, isChild, /*location*/ node); } function visitJsxOpeningLikeElement(node, children, isChild, location) { var tagName = getTagName(node); var objectProperties; var attrs = node.attributes.properties; if (attrs.length === 0) { // When there are no attributes, React wants "null" objectProperties = ts.createNull(); } else { // Map spans of JsxAttribute nodes into object literals and spans // of JsxSpreadAttribute nodes into expressions. var segments = ts.flatten(ts.spanMap(attrs, ts.isJsxSpreadAttribute, function (attrs, isSpread) { return isSpread ? ts.map(attrs, transformJsxSpreadAttributeToExpression) : ts.createObjectLiteral(ts.map(attrs, transformJsxAttributeToObjectLiteralElement)); })); if (ts.isJsxSpreadAttribute(attrs[0])) { // We must always emit at least one object literal before a spread // argument. segments.unshift(ts.createObjectLiteral()); } // Either emit one big object literal (no spread attribs), or // a call to the __assign helper. objectProperties = ts.singleOrUndefined(segments); if (!objectProperties) { objectProperties = ts.createAssignHelper(context, segments); } } var element = ts.createExpressionForJsxElement(context.getEmitResolver().getJsxFactoryEntity(currentSourceFile), compilerOptions.reactNamespace, // TODO: GH#18217 tagName, objectProperties, ts.mapDefined(children, transformJsxChildToExpression), node, location); if (isChild) { ts.startOnNewLine(element); } return element; } function visitJsxOpeningFragment(node, children, isChild, location) { var element = ts.createExpressionForJsxFragment(context.getEmitResolver().getJsxFactoryEntity(currentSourceFile), compilerOptions.reactNamespace, // TODO: GH#18217 ts.mapDefined(children, transformJsxChildToExpression), node, location); if (isChild) { ts.startOnNewLine(element); } return element; } function transformJsxSpreadAttributeToExpression(node) { return ts.visitNode(node.expression, visitor, ts.isExpression); } function transformJsxAttributeToObjectLiteralElement(node) { var name = getAttributeName(node); var expression = transformJsxAttributeInitializer(node.initializer); return ts.createPropertyAssignment(name, expression); } function transformJsxAttributeInitializer(node) { if (node === undefined) { return ts.createTrue(); } else if (node.kind === 10 /* StringLiteral */) { // Always recreate the literal to escape any escape sequences or newlines which may be in the original jsx string and which // Need to be escaped to be handled correctly in a normal string var literal = ts.createLiteral(tryDecodeEntities(node.text) || node.text); literal.singleQuote = node.singleQuote !== undefined ? node.singleQuote : !ts.isStringDoubleQuoted(node, currentSourceFile); return ts.setTextRange(literal, node); } else if (node.kind === 276 /* JsxExpression */) { if (node.expression === undefined) { return ts.createTrue(); } return visitJsxExpression(node); } else { return ts.Debug.failBadSyntaxKind(node); } } function visitJsxText(node) { var fixed = fixupWhitespaceAndDecodeEntities(node.text); return fixed === undefined ? undefined : ts.createLiteral(fixed); } /** * JSX trims whitespace at the end and beginning of lines, except that the * start/end of a tag is considered a start/end of a line only if that line is * on the same line as the closing tag. See examples in * tests/cases/conformance/jsx/tsxReactEmitWhitespace.tsx * See also https://www.w3.org/TR/html4/struct/text.html#h-9.1 and https://www.w3.org/TR/CSS2/text.html#white-space-model * * An equivalent algorithm would be: * - If there is only one line, return it. * - If there is only whitespace (but multiple lines), return `undefined`. * - Split the text into lines. * - 'trimRight' the first line, 'trimLeft' the last line, 'trim' middle lines. * - Decode entities on each line (individually). * - Remove empty lines and join the rest with " ". */ function fixupWhitespaceAndDecodeEntities(text) { var acc; // First non-whitespace character on this line. var firstNonWhitespace = 0; // Last non-whitespace character on this line. var lastNonWhitespace = -1; // These initial values are special because the first line is: // firstNonWhitespace = 0 to indicate that we want leading whitsepace, // but lastNonWhitespace = -1 as a special flag to indicate that we *don't* include the line if it's all whitespace. for (var i = 0; i < text.length; i++) { var c = text.charCodeAt(i); if (ts.isLineBreak(c)) { // If we've seen any non-whitespace characters on this line, add the 'trim' of the line. // (lastNonWhitespace === -1 is a special flag to detect whether the first line is all whitespace.) if (firstNonWhitespace !== -1 && lastNonWhitespace !== -1) { acc = addLineOfJsxText(acc, text.substr(firstNonWhitespace, lastNonWhitespace - firstNonWhitespace + 1)); } // Reset firstNonWhitespace for the next line. // Don't bother to reset lastNonWhitespace because we ignore it if firstNonWhitespace = -1. firstNonWhitespace = -1; } else if (!ts.isWhiteSpaceSingleLine(c)) { lastNonWhitespace = i; if (firstNonWhitespace === -1) { firstNonWhitespace = i; } } } return firstNonWhitespace !== -1 // Last line had a non-whitespace character. Emit the 'trimLeft', meaning keep trailing whitespace. ? addLineOfJsxText(acc, text.substr(firstNonWhitespace)) // Last line was all whitespace, so ignore it : acc; } function addLineOfJsxText(acc, trimmedLine) { // We do not escape the string here as that is handled by the printer // when it emits the literal. We do, however, need to decode JSX entities. var decoded = decodeEntities(trimmedLine); return acc === undefined ? decoded : acc + " " + decoded; } /** * Replace entities like " ", "{", and "�" with the characters they encode. * See https://en.wikipedia.org/wiki/List_of_XML_and_HTML_character_entity_references */ function decodeEntities(text) { return text.replace(/&((#((\d+)|x([\da-fA-F]+)))|(\w+));/g, function (match, _all, _number, _digits, decimal, hex, word) { if (decimal) { return ts.utf16EncodeAsString(parseInt(decimal, 10)); } else if (hex) { return ts.utf16EncodeAsString(parseInt(hex, 16)); } else { var ch = entities.get(word); // If this is not a valid entity, then just use `match` (replace it with itself, i.e. don't replace) return ch ? ts.utf16EncodeAsString(ch) : match; } }); } /** Like `decodeEntities` but returns `undefined` if there were no entities to decode. */ function tryDecodeEntities(text) { var decoded = decodeEntities(text); return decoded === text ? undefined : decoded; } function getTagName(node) { if (node.kind === 266 /* JsxElement */) { return getTagName(node.openingElement); } else { var name = node.tagName; if (ts.isIdentifier(name) && ts.isIntrinsicJsxName(name.escapedText)) { return ts.createLiteral(ts.idText(name)); } else { return ts.createExpressionFromEntityName(name); } } } /** * Emit an attribute name, which is quoted if it needs to be quoted. Because * these emit into an object literal property name, we don't need to be worried * about keywords, just non-identifier characters */ function getAttributeName(node) { var name = node.name; var text = ts.idText(name); if (/^[A-Za-z_]\w*$/.test(text)) { return name; } else { return ts.createLiteral(text); } } function visitJsxExpression(node) { return ts.visitNode(node.expression, visitor, ts.isExpression); } } ts.transformJsx = transformJsx; var entities = ts.createMapFromTemplate({ quot: 0x0022, amp: 0x0026, apos: 0x0027, lt: 0x003C, gt: 0x003E, nbsp: 0x00A0, iexcl: 0x00A1, cent: 0x00A2, pound: 0x00A3, curren: 0x00A4, yen: 0x00A5, brvbar: 0x00A6, sect: 0x00A7, uml: 0x00A8, copy: 0x00A9, ordf: 0x00AA, laquo: 0x00AB, not: 0x00AC, shy: 0x00AD, reg: 0x00AE, macr: 0x00AF, deg: 0x00B0, plusmn: 0x00B1, sup2: 0x00B2, sup3: 0x00B3, acute: 0x00B4, micro: 0x00B5, para: 0x00B6, middot: 0x00B7, cedil: 0x00B8, sup1: 0x00B9, ordm: 0x00BA, raquo: 0x00BB, frac14: 0x00BC, frac12: 0x00BD, frac34: 0x00BE, iquest: 0x00BF, Agrave: 0x00C0, Aacute: 0x00C1, Acirc: 0x00C2, Atilde: 0x00C3, Auml: 0x00C4, Aring: 0x00C5, AElig: 0x00C6, Ccedil: 0x00C7, Egrave: 0x00C8, Eacute: 0x00C9, Ecirc: 0x00CA, Euml: 0x00CB, Igrave: 0x00CC, Iacute: 0x00CD, Icirc: 0x00CE, Iuml: 0x00CF, ETH: 0x00D0, Ntilde: 0x00D1, Ograve: 0x00D2, Oacute: 0x00D3, Ocirc: 0x00D4, Otilde: 0x00D5, Ouml: 0x00D6, times: 0x00D7, Oslash: 0x00D8, Ugrave: 0x00D9, Uacute: 0x00DA, Ucirc: 0x00DB, Uuml: 0x00DC, Yacute: 0x00DD, THORN: 0x00DE, szlig: 0x00DF, agrave: 0x00E0, aacute: 0x00E1, acirc: 0x00E2, atilde: 0x00E3, auml: 0x00E4, aring: 0x00E5, aelig: 0x00E6, ccedil: 0x00E7, egrave: 0x00E8, eacute: 0x00E9, ecirc: 0x00EA, euml: 0x00EB, igrave: 0x00EC, iacute: 0x00ED, icirc: 0x00EE, iuml: 0x00EF, eth: 0x00F0, ntilde: 0x00F1, ograve: 0x00F2, oacute: 0x00F3, ocirc: 0x00F4, otilde: 0x00F5, ouml: 0x00F6, divide: 0x00F7, oslash: 0x00F8, ugrave: 0x00F9, uacute: 0x00FA, ucirc: 0x00FB, uuml: 0x00FC, yacute: 0x00FD, thorn: 0x00FE, yuml: 0x00FF, OElig: 0x0152, oelig: 0x0153, Scaron: 0x0160, scaron: 0x0161, Yuml: 0x0178, fnof: 0x0192, circ: 0x02C6, tilde: 0x02DC, Alpha: 0x0391, Beta: 0x0392, Gamma: 0x0393, Delta: 0x0394, Epsilon: 0x0395, Zeta: 0x0396, Eta: 0x0397, Theta: 0x0398, Iota: 0x0399, Kappa: 0x039A, Lambda: 0x039B, Mu: 0x039C, Nu: 0x039D, Xi: 0x039E, Omicron: 0x039F, Pi: 0x03A0, Rho: 0x03A1, Sigma: 0x03A3, Tau: 0x03A4, Upsilon: 0x03A5, Phi: 0x03A6, Chi: 0x03A7, Psi: 0x03A8, Omega: 0x03A9, alpha: 0x03B1, beta: 0x03B2, gamma: 0x03B3, delta: 0x03B4, epsilon: 0x03B5, zeta: 0x03B6, eta: 0x03B7, theta: 0x03B8, iota: 0x03B9, kappa: 0x03BA, lambda: 0x03BB, mu: 0x03BC, nu: 0x03BD, xi: 0x03BE, omicron: 0x03BF, pi: 0x03C0, rho: 0x03C1, sigmaf: 0x03C2, sigma: 0x03C3, tau: 0x03C4, upsilon: 0x03C5, phi: 0x03C6, chi: 0x03C7, psi: 0x03C8, omega: 0x03C9, thetasym: 0x03D1, upsih: 0x03D2, piv: 0x03D6, ensp: 0x2002, emsp: 0x2003, thinsp: 0x2009, zwnj: 0x200C, zwj: 0x200D, lrm: 0x200E, rlm: 0x200F, ndash: 0x2013, mdash: 0x2014, lsquo: 0x2018, rsquo: 0x2019, sbquo: 0x201A, ldquo: 0x201C, rdquo: 0x201D, bdquo: 0x201E, dagger: 0x2020, Dagger: 0x2021, bull: 0x2022, hellip: 0x2026, permil: 0x2030, prime: 0x2032, Prime: 0x2033, lsaquo: 0x2039, rsaquo: 0x203A, oline: 0x203E, frasl: 0x2044, euro: 0x20AC, image: 0x2111, weierp: 0x2118, real: 0x211C, trade: 0x2122, alefsym: 0x2135, larr: 0x2190, uarr: 0x2191, rarr: 0x2192, darr: 0x2193, harr: 0x2194, crarr: 0x21B5, lArr: 0x21D0, uArr: 0x21D1, rArr: 0x21D2, dArr: 0x21D3, hArr: 0x21D4, forall: 0x2200, part: 0x2202, exist: 0x2203, empty: 0x2205, nabla: 0x2207, isin: 0x2208, notin: 0x2209, ni: 0x220B, prod: 0x220F, sum: 0x2211, minus: 0x2212, lowast: 0x2217, radic: 0x221A, prop: 0x221D, infin: 0x221E, ang: 0x2220, and: 0x2227, or: 0x2228, cap: 0x2229, cup: 0x222A, int: 0x222B, there4: 0x2234, sim: 0x223C, cong: 0x2245, asymp: 0x2248, ne: 0x2260, equiv: 0x2261, le: 0x2264, ge: 0x2265, sub: 0x2282, sup: 0x2283, nsub: 0x2284, sube: 0x2286, supe: 0x2287, oplus: 0x2295, otimes: 0x2297, perp: 0x22A5, sdot: 0x22C5, lceil: 0x2308, rceil: 0x2309, lfloor: 0x230A, rfloor: 0x230B, lang: 0x2329, rang: 0x232A, loz: 0x25CA, spades: 0x2660, clubs: 0x2663, hearts: 0x2665, diams: 0x2666 }); })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformES2016(context) { var hoistVariableDeclaration = context.hoistVariableDeclaration; return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } return ts.visitEachChild(node, visitor, context); } function visitor(node) { if ((node.transformFlags & 128 /* ContainsES2016 */) === 0) { return node; } switch (node.kind) { case 209 /* BinaryExpression */: return visitBinaryExpression(node); default: return ts.visitEachChild(node, visitor, context); } } function visitBinaryExpression(node) { switch (node.operatorToken.kind) { case 66 /* AsteriskAsteriskEqualsToken */: return visitExponentiationAssignmentExpression(node); case 42 /* AsteriskAsteriskToken */: return visitExponentiationExpression(node); default: return ts.visitEachChild(node, visitor, context); } } function visitExponentiationAssignmentExpression(node) { var target; var value; var left = ts.visitNode(node.left, visitor, ts.isExpression); var right = ts.visitNode(node.right, visitor, ts.isExpression); if (ts.isElementAccessExpression(left)) { // Transforms `a[x] **= b` into `(_a = a)[_x = x] = Math.pow(_a[_x], b)` var expressionTemp = ts.createTempVariable(hoistVariableDeclaration); var argumentExpressionTemp = ts.createTempVariable(hoistVariableDeclaration); target = ts.setTextRange(ts.createElementAccess(ts.setTextRange(ts.createAssignment(expressionTemp, left.expression), left.expression), ts.setTextRange(ts.createAssignment(argumentExpressionTemp, left.argumentExpression), left.argumentExpression)), left); value = ts.setTextRange(ts.createElementAccess(expressionTemp, argumentExpressionTemp), left); } else if (ts.isPropertyAccessExpression(left)) { // Transforms `a.x **= b` into `(_a = a).x = Math.pow(_a.x, b)` var expressionTemp = ts.createTempVariable(hoistVariableDeclaration); target = ts.setTextRange(ts.createPropertyAccess(ts.setTextRange(ts.createAssignment(expressionTemp, left.expression), left.expression), left.name), left); value = ts.setTextRange(ts.createPropertyAccess(expressionTemp, left.name), left); } else { // Transforms `a **= b` into `a = Math.pow(a, b)` target = left; value = left; } return ts.setTextRange(ts.createAssignment(target, ts.createMathPow(value, right, /*location*/ node)), node); } function visitExponentiationExpression(node) { // Transforms `a ** b` into `Math.pow(a, b)` var left = ts.visitNode(node.left, visitor, ts.isExpression); var right = ts.visitNode(node.right, visitor, ts.isExpression); return ts.createMathPow(left, right, /*location*/ node); } } ts.transformES2016 = transformES2016; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var ES2015SubstitutionFlags; (function (ES2015SubstitutionFlags) { /** Enables substitutions for captured `this` */ ES2015SubstitutionFlags[ES2015SubstitutionFlags["CapturedThis"] = 1] = "CapturedThis"; /** Enables substitutions for block-scoped bindings. */ ES2015SubstitutionFlags[ES2015SubstitutionFlags["BlockScopedBindings"] = 2] = "BlockScopedBindings"; })(ES2015SubstitutionFlags || (ES2015SubstitutionFlags = {})); var LoopOutParameterFlags; (function (LoopOutParameterFlags) { LoopOutParameterFlags[LoopOutParameterFlags["Body"] = 1] = "Body"; LoopOutParameterFlags[LoopOutParameterFlags["Initializer"] = 2] = "Initializer"; })(LoopOutParameterFlags || (LoopOutParameterFlags = {})); var CopyDirection; (function (CopyDirection) { CopyDirection[CopyDirection["ToOriginal"] = 0] = "ToOriginal"; CopyDirection[CopyDirection["ToOutParameter"] = 1] = "ToOutParameter"; })(CopyDirection || (CopyDirection = {})); var Jump; (function (Jump) { Jump[Jump["Break"] = 2] = "Break"; Jump[Jump["Continue"] = 4] = "Continue"; Jump[Jump["Return"] = 8] = "Return"; })(Jump || (Jump = {})); // Facts we track as we traverse the tree var HierarchyFacts; (function (HierarchyFacts) { HierarchyFacts[HierarchyFacts["None"] = 0] = "None"; // // Ancestor facts // HierarchyFacts[HierarchyFacts["Function"] = 1] = "Function"; HierarchyFacts[HierarchyFacts["ArrowFunction"] = 2] = "ArrowFunction"; HierarchyFacts[HierarchyFacts["AsyncFunctionBody"] = 4] = "AsyncFunctionBody"; HierarchyFacts[HierarchyFacts["NonStaticClassElement"] = 8] = "NonStaticClassElement"; HierarchyFacts[HierarchyFacts["CapturesThis"] = 16] = "CapturesThis"; HierarchyFacts[HierarchyFacts["ExportedVariableStatement"] = 32] = "ExportedVariableStatement"; HierarchyFacts[HierarchyFacts["TopLevel"] = 64] = "TopLevel"; HierarchyFacts[HierarchyFacts["Block"] = 128] = "Block"; HierarchyFacts[HierarchyFacts["IterationStatement"] = 256] = "IterationStatement"; HierarchyFacts[HierarchyFacts["IterationStatementBlock"] = 512] = "IterationStatementBlock"; HierarchyFacts[HierarchyFacts["IterationContainer"] = 1024] = "IterationContainer"; HierarchyFacts[HierarchyFacts["ForStatement"] = 2048] = "ForStatement"; HierarchyFacts[HierarchyFacts["ForInOrForOfStatement"] = 4096] = "ForInOrForOfStatement"; HierarchyFacts[HierarchyFacts["ConstructorWithCapturedSuper"] = 8192] = "ConstructorWithCapturedSuper"; // NOTE: do not add more ancestor flags without also updating AncestorFactsMask below. // NOTE: when adding a new ancestor flag, be sure to update the subtree flags below. // // Ancestor masks // HierarchyFacts[HierarchyFacts["AncestorFactsMask"] = 16383] = "AncestorFactsMask"; // We are always in *some* kind of block scope, but only specific block-scope containers are // top-level or Blocks. HierarchyFacts[HierarchyFacts["BlockScopeIncludes"] = 0] = "BlockScopeIncludes"; HierarchyFacts[HierarchyFacts["BlockScopeExcludes"] = 7104] = "BlockScopeExcludes"; // A source file is a top-level block scope. HierarchyFacts[HierarchyFacts["SourceFileIncludes"] = 64] = "SourceFileIncludes"; HierarchyFacts[HierarchyFacts["SourceFileExcludes"] = 8064] = "SourceFileExcludes"; // Functions, methods, and accessors are both new lexical scopes and new block scopes. HierarchyFacts[HierarchyFacts["FunctionIncludes"] = 65] = "FunctionIncludes"; HierarchyFacts[HierarchyFacts["FunctionExcludes"] = 16286] = "FunctionExcludes"; HierarchyFacts[HierarchyFacts["AsyncFunctionBodyIncludes"] = 69] = "AsyncFunctionBodyIncludes"; HierarchyFacts[HierarchyFacts["AsyncFunctionBodyExcludes"] = 16278] = "AsyncFunctionBodyExcludes"; // Arrow functions are lexically scoped to their container, but are new block scopes. HierarchyFacts[HierarchyFacts["ArrowFunctionIncludes"] = 66] = "ArrowFunctionIncludes"; HierarchyFacts[HierarchyFacts["ArrowFunctionExcludes"] = 15232] = "ArrowFunctionExcludes"; // Constructors are both new lexical scopes and new block scopes. Constructors are also // always considered non-static members of a class. HierarchyFacts[HierarchyFacts["ConstructorIncludes"] = 73] = "ConstructorIncludes"; HierarchyFacts[HierarchyFacts["ConstructorExcludes"] = 16278] = "ConstructorExcludes"; // 'do' and 'while' statements are not block scopes. We track that the subtree is contained // within an IterationStatement to indicate whether the embedded statement is an // IterationStatementBlock. HierarchyFacts[HierarchyFacts["DoOrWhileStatementIncludes"] = 1280] = "DoOrWhileStatementIncludes"; HierarchyFacts[HierarchyFacts["DoOrWhileStatementExcludes"] = 0] = "DoOrWhileStatementExcludes"; // 'for' statements are new block scopes and have special handling for 'let' declarations. HierarchyFacts[HierarchyFacts["ForStatementIncludes"] = 3328] = "ForStatementIncludes"; HierarchyFacts[HierarchyFacts["ForStatementExcludes"] = 5056] = "ForStatementExcludes"; // 'for-in' and 'for-of' statements are new block scopes and have special handling for // 'let' declarations. HierarchyFacts[HierarchyFacts["ForInOrForOfStatementIncludes"] = 5376] = "ForInOrForOfStatementIncludes"; HierarchyFacts[HierarchyFacts["ForInOrForOfStatementExcludes"] = 3008] = "ForInOrForOfStatementExcludes"; // Blocks (other than function bodies) are new block scopes. HierarchyFacts[HierarchyFacts["BlockIncludes"] = 128] = "BlockIncludes"; HierarchyFacts[HierarchyFacts["BlockExcludes"] = 6976] = "BlockExcludes"; HierarchyFacts[HierarchyFacts["IterationStatementBlockIncludes"] = 512] = "IterationStatementBlockIncludes"; HierarchyFacts[HierarchyFacts["IterationStatementBlockExcludes"] = 7104] = "IterationStatementBlockExcludes"; // // Subtree facts // HierarchyFacts[HierarchyFacts["NewTarget"] = 16384] = "NewTarget"; HierarchyFacts[HierarchyFacts["CapturedLexicalThis"] = 32768] = "CapturedLexicalThis"; // // Subtree masks // HierarchyFacts[HierarchyFacts["SubtreeFactsMask"] = -16384] = "SubtreeFactsMask"; HierarchyFacts[HierarchyFacts["ArrowFunctionSubtreeExcludes"] = 0] = "ArrowFunctionSubtreeExcludes"; HierarchyFacts[HierarchyFacts["FunctionSubtreeExcludes"] = 49152] = "FunctionSubtreeExcludes"; })(HierarchyFacts || (HierarchyFacts = {})); function transformES2015(context) { var startLexicalEnvironment = context.startLexicalEnvironment, resumeLexicalEnvironment = context.resumeLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistVariableDeclaration = context.hoistVariableDeclaration; var compilerOptions = context.getCompilerOptions(); var resolver = context.getEmitResolver(); var previousOnSubstituteNode = context.onSubstituteNode; var previousOnEmitNode = context.onEmitNode; context.onEmitNode = onEmitNode; context.onSubstituteNode = onSubstituteNode; var currentSourceFile; var currentText; var hierarchyFacts; var taggedTemplateStringDeclarations; function recordTaggedTemplateString(temp) { taggedTemplateStringDeclarations = ts.append(taggedTemplateStringDeclarations, ts.createVariableDeclaration(temp)); } /** * Used to track if we are emitting body of the converted loop */ var convertedLoopState; /** * Keeps track of whether substitutions have been enabled for specific cases. * They are persisted between each SourceFile transformation and should not * be reset. */ var enabledSubstitutions; return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } currentSourceFile = node; currentText = node.text; var visited = visitSourceFile(node); ts.addEmitHelpers(visited, context.readEmitHelpers()); currentSourceFile = undefined; currentText = undefined; taggedTemplateStringDeclarations = undefined; hierarchyFacts = 0 /* None */; return visited; } /** * Sets the `HierarchyFacts` for this node prior to visiting this node's subtree, returning the facts set prior to modification. * @param excludeFacts The existing `HierarchyFacts` to reset before visiting the subtree. * @param includeFacts The new `HierarchyFacts` to set before visiting the subtree. */ function enterSubtree(excludeFacts, includeFacts) { var ancestorFacts = hierarchyFacts; hierarchyFacts = (hierarchyFacts & ~excludeFacts | includeFacts) & 16383 /* AncestorFactsMask */; return ancestorFacts; } /** * Restores the `HierarchyFacts` for this node's ancestor after visiting this node's * subtree, propagating specific facts from the subtree. * @param ancestorFacts The `HierarchyFacts` of the ancestor to restore after visiting the subtree. * @param excludeFacts The existing `HierarchyFacts` of the subtree that should not be propagated. * @param includeFacts The new `HierarchyFacts` of the subtree that should be propagated. */ function exitSubtree(ancestorFacts, excludeFacts, includeFacts) { hierarchyFacts = (hierarchyFacts & ~excludeFacts | includeFacts) & -16384 /* SubtreeFactsMask */ | ancestorFacts; } function isReturnVoidStatementInConstructorWithCapturedSuper(node) { return (hierarchyFacts & 8192 /* ConstructorWithCapturedSuper */) !== 0 && node.kind === 235 /* ReturnStatement */ && !node.expression; } function shouldVisitNode(node) { return (node.transformFlags & 256 /* ContainsES2015 */) !== 0 || convertedLoopState !== undefined || (hierarchyFacts & 8192 /* ConstructorWithCapturedSuper */ && (ts.isStatement(node) || (node.kind === 223 /* Block */))) || (ts.isIterationStatement(node, /*lookInLabeledStatements*/ false) && shouldConvertIterationStatement(node)) || (ts.getEmitFlags(node) & 33554432 /* TypeScriptClassWrapper */) !== 0; } function visitor(node) { if (shouldVisitNode(node)) { return visitJavaScript(node); } else { return node; } } function callExpressionVisitor(node) { if (node.kind === 102 /* SuperKeyword */) { return visitSuperKeyword(/*isExpressionOfCall*/ true); } return visitor(node); } function visitJavaScript(node) { switch (node.kind) { case 120 /* StaticKeyword */: return undefined; // elide static keyword case 245 /* ClassDeclaration */: return visitClassDeclaration(node); case 214 /* ClassExpression */: return visitClassExpression(node); case 156 /* Parameter */: return visitParameter(node); case 244 /* FunctionDeclaration */: return visitFunctionDeclaration(node); case 202 /* ArrowFunction */: return visitArrowFunction(node); case 201 /* FunctionExpression */: return visitFunctionExpression(node); case 242 /* VariableDeclaration */: return visitVariableDeclaration(node); case 75 /* Identifier */: return visitIdentifier(node); case 243 /* VariableDeclarationList */: return visitVariableDeclarationList(node); case 237 /* SwitchStatement */: return visitSwitchStatement(node); case 251 /* CaseBlock */: return visitCaseBlock(node); case 223 /* Block */: return visitBlock(node, /*isFunctionBody*/ false); case 234 /* BreakStatement */: case 233 /* ContinueStatement */: return visitBreakOrContinueStatement(node); case 238 /* LabeledStatement */: return visitLabeledStatement(node); case 228 /* DoStatement */: case 229 /* WhileStatement */: return visitDoOrWhileStatement(node, /*outermostLabeledStatement*/ undefined); case 230 /* ForStatement */: return visitForStatement(node, /*outermostLabeledStatement*/ undefined); case 231 /* ForInStatement */: return visitForInStatement(node, /*outermostLabeledStatement*/ undefined); case 232 /* ForOfStatement */: return visitForOfStatement(node, /*outermostLabeledStatement*/ undefined); case 226 /* ExpressionStatement */: return visitExpressionStatement(node); case 193 /* ObjectLiteralExpression */: return visitObjectLiteralExpression(node); case 280 /* CatchClause */: return visitCatchClause(node); case 282 /* ShorthandPropertyAssignment */: return visitShorthandPropertyAssignment(node); case 154 /* ComputedPropertyName */: return visitComputedPropertyName(node); case 192 /* ArrayLiteralExpression */: return visitArrayLiteralExpression(node); case 196 /* CallExpression */: return visitCallExpression(node); case 197 /* NewExpression */: return visitNewExpression(node); case 200 /* ParenthesizedExpression */: return visitParenthesizedExpression(node, /*needsDestructuringValue*/ true); case 209 /* BinaryExpression */: return visitBinaryExpression(node, /*needsDestructuringValue*/ true); case 14 /* NoSubstitutionTemplateLiteral */: case 15 /* TemplateHead */: case 16 /* TemplateMiddle */: case 17 /* TemplateTail */: return visitTemplateLiteral(node); case 10 /* StringLiteral */: return visitStringLiteral(node); case 8 /* NumericLiteral */: return visitNumericLiteral(node); case 198 /* TaggedTemplateExpression */: return visitTaggedTemplateExpression(node); case 211 /* TemplateExpression */: return visitTemplateExpression(node); case 212 /* YieldExpression */: return visitYieldExpression(node); case 213 /* SpreadElement */: return visitSpreadElement(node); case 102 /* SuperKeyword */: return visitSuperKeyword(/*isExpressionOfCall*/ false); case 104 /* ThisKeyword */: return visitThisKeyword(node); case 219 /* MetaProperty */: return visitMetaProperty(node); case 161 /* MethodDeclaration */: return visitMethodDeclaration(node); case 163 /* GetAccessor */: case 164 /* SetAccessor */: return visitAccessorDeclaration(node); case 225 /* VariableStatement */: return visitVariableStatement(node); case 235 /* ReturnStatement */: return visitReturnStatement(node); default: return ts.visitEachChild(node, visitor, context); } } function visitSourceFile(node) { var ancestorFacts = enterSubtree(8064 /* SourceFileExcludes */, 64 /* SourceFileIncludes */); var prologue = []; var statements = []; startLexicalEnvironment(); var statementOffset = ts.addStandardPrologue(prologue, node.statements, /*ensureUseStrict*/ false); statementOffset = ts.addCustomPrologue(prologue, node.statements, statementOffset, visitor); ts.addRange(statements, ts.visitNodes(node.statements, visitor, ts.isStatement, statementOffset)); if (taggedTemplateStringDeclarations) { statements.push(ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList(taggedTemplateStringDeclarations))); } ts.mergeLexicalEnvironment(prologue, endLexicalEnvironment()); insertCaptureThisForNodeIfNeeded(prologue, node); exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return ts.updateSourceFileNode(node, ts.setTextRange(ts.createNodeArray(ts.concatenate(prologue, statements)), node.statements)); } function visitSwitchStatement(node) { if (convertedLoopState !== undefined) { var savedAllowedNonLabeledJumps = convertedLoopState.allowedNonLabeledJumps; // for switch statement allow only non-labeled break convertedLoopState.allowedNonLabeledJumps |= 2 /* Break */; var result = ts.visitEachChild(node, visitor, context); convertedLoopState.allowedNonLabeledJumps = savedAllowedNonLabeledJumps; return result; } return ts.visitEachChild(node, visitor, context); } function visitCaseBlock(node) { var ancestorFacts = enterSubtree(7104 /* BlockScopeExcludes */, 0 /* BlockScopeIncludes */); var updated = ts.visitEachChild(node, visitor, context); exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return updated; } function returnCapturedThis(node) { return ts.setOriginalNode(ts.createReturn(ts.createFileLevelUniqueName("_this")), node); } function visitReturnStatement(node) { if (convertedLoopState) { convertedLoopState.nonLocalJumps |= 8 /* Return */; if (isReturnVoidStatementInConstructorWithCapturedSuper(node)) { node = returnCapturedThis(node); } return ts.createReturn(ts.createObjectLiteral([ ts.createPropertyAssignment(ts.createIdentifier("value"), node.expression ? ts.visitNode(node.expression, visitor, ts.isExpression) : ts.createVoidZero()) ])); } else if (isReturnVoidStatementInConstructorWithCapturedSuper(node)) { return returnCapturedThis(node); } return ts.visitEachChild(node, visitor, context); } function visitThisKeyword(node) { if (hierarchyFacts & 2 /* ArrowFunction */) { hierarchyFacts |= 32768 /* CapturedLexicalThis */; } if (convertedLoopState) { if (hierarchyFacts & 2 /* ArrowFunction */) { // if the enclosing function is an ArrowFunction then we use the captured 'this' keyword. convertedLoopState.containsLexicalThis = true; return node; } return convertedLoopState.thisName || (convertedLoopState.thisName = ts.createUniqueName("this")); } return node; } function visitIdentifier(node) { if (!convertedLoopState) { return node; } if (ts.isGeneratedIdentifier(node)) { return node; } if (node.escapedText !== "arguments" || !resolver.isArgumentsLocalBinding(node)) { return node; } return convertedLoopState.argumentsName || (convertedLoopState.argumentsName = ts.createUniqueName("arguments")); } function visitBreakOrContinueStatement(node) { if (convertedLoopState) { // check if we can emit break/continue as is // it is possible if either // - break/continue is labeled and label is located inside the converted loop // - break/continue is non-labeled and located in non-converted loop/switch statement var jump = node.kind === 234 /* BreakStatement */ ? 2 /* Break */ : 4 /* Continue */; var canUseBreakOrContinue = (node.label && convertedLoopState.labels && convertedLoopState.labels.get(ts.idText(node.label))) || (!node.label && (convertedLoopState.allowedNonLabeledJumps & jump)); if (!canUseBreakOrContinue) { var labelMarker = void 0; var label = node.label; if (!label) { if (node.kind === 234 /* BreakStatement */) { convertedLoopState.nonLocalJumps |= 2 /* Break */; labelMarker = "break"; } else { convertedLoopState.nonLocalJumps |= 4 /* Continue */; // note: return value is emitted only to simplify debugging, call to converted loop body does not do any dispatching on it. labelMarker = "continue"; } } else { if (node.kind === 234 /* BreakStatement */) { labelMarker = "break-" + label.escapedText; setLabeledJump(convertedLoopState, /*isBreak*/ true, ts.idText(label), labelMarker); } else { labelMarker = "continue-" + label.escapedText; setLabeledJump(convertedLoopState, /*isBreak*/ false, ts.idText(label), labelMarker); } } var returnExpression = ts.createLiteral(labelMarker); if (convertedLoopState.loopOutParameters.length) { var outParams = convertedLoopState.loopOutParameters; var expr = void 0; for (var i = 0; i < outParams.length; i++) { var copyExpr = copyOutParameter(outParams[i], 1 /* ToOutParameter */); if (i === 0) { expr = copyExpr; } else { expr = ts.createBinary(expr, 27 /* CommaToken */, copyExpr); } } returnExpression = ts.createBinary(expr, 27 /* CommaToken */, returnExpression); } return ts.createReturn(returnExpression); } } return ts.visitEachChild(node, visitor, context); } /** * Visits a ClassDeclaration and transforms it into a variable statement. * * @param node A ClassDeclaration node. */ function visitClassDeclaration(node) { // [source] // class C { } // // [output] // var C = (function () { // function C() { // } // return C; // }()); var variable = ts.createVariableDeclaration(ts.getLocalName(node, /*allowComments*/ true), /*type*/ undefined, transformClassLikeDeclarationToExpression(node)); ts.setOriginalNode(variable, node); var statements = []; var statement = ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList([variable])); ts.setOriginalNode(statement, node); ts.setTextRange(statement, node); ts.startOnNewLine(statement); statements.push(statement); // Add an `export default` statement for default exports (for `--target es5 --module es6`) if (ts.hasModifier(node, 1 /* Export */)) { var exportStatement = ts.hasModifier(node, 512 /* Default */) ? ts.createExportDefault(ts.getLocalName(node)) : ts.createExternalModuleExport(ts.getLocalName(node)); ts.setOriginalNode(exportStatement, statement); statements.push(exportStatement); } var emitFlags = ts.getEmitFlags(node); if ((emitFlags & 4194304 /* HasEndOfDeclarationMarker */) === 0) { // Add a DeclarationMarker as a marker for the end of the declaration statements.push(ts.createEndOfDeclarationMarker(node)); ts.setEmitFlags(statement, emitFlags | 4194304 /* HasEndOfDeclarationMarker */); } return ts.singleOrMany(statements); } /** * Visits a ClassExpression and transforms it into an expression. * * @param node A ClassExpression node. */ function visitClassExpression(node) { // [source] // C = class { } // // [output] // C = (function () { // function class_1() { // } // return class_1; // }()) return transformClassLikeDeclarationToExpression(node); } /** * Transforms a ClassExpression or ClassDeclaration into an expression. * * @param node A ClassExpression or ClassDeclaration node. */ function transformClassLikeDeclarationToExpression(node) { // [source] // class C extends D { // constructor() {} // method() {} // get prop() {} // set prop(v) {} // } // // [output] // (function (_super) { // __extends(C, _super); // function C() { // } // C.prototype.method = function () {} // Object.defineProperty(C.prototype, "prop", { // get: function() {}, // set: function() {}, // enumerable: true, // configurable: true // }); // return C; // }(D)) if (node.name) { enableSubstitutionsForBlockScopedBindings(); } var extendsClauseElement = ts.getClassExtendsHeritageElement(node); var classFunction = ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, extendsClauseElement ? [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, ts.createFileLevelUniqueName("_super"))] : [], /*type*/ undefined, transformClassBody(node, extendsClauseElement)); // To preserve the behavior of the old emitter, we explicitly indent // the body of the function here if it was requested in an earlier // transformation. ts.setEmitFlags(classFunction, (ts.getEmitFlags(node) & 65536 /* Indented */) | 524288 /* ReuseTempVariableScope */); // "inner" and "outer" below are added purely to preserve source map locations from // the old emitter var inner = ts.createPartiallyEmittedExpression(classFunction); inner.end = node.end; ts.setEmitFlags(inner, 1536 /* NoComments */); var outer = ts.createPartiallyEmittedExpression(inner); outer.end = ts.skipTrivia(currentText, node.pos); ts.setEmitFlags(outer, 1536 /* NoComments */); var result = ts.createParen(ts.createCall(outer, /*typeArguments*/ undefined, extendsClauseElement ? [ts.visitNode(extendsClauseElement.expression, visitor, ts.isExpression)] : [])); ts.addSyntheticLeadingComment(result, 3 /* MultiLineCommentTrivia */, "* @class "); return result; } /** * Transforms a ClassExpression or ClassDeclaration into a function body. * * @param node A ClassExpression or ClassDeclaration node. * @param extendsClauseElement The expression for the class `extends` clause. */ function transformClassBody(node, extendsClauseElement) { var statements = []; startLexicalEnvironment(); addExtendsHelperIfNeeded(statements, node, extendsClauseElement); addConstructor(statements, node, extendsClauseElement); addClassMembers(statements, node); // Create a synthetic text range for the return statement. var closingBraceLocation = ts.createTokenRange(ts.skipTrivia(currentText, node.members.end), 19 /* CloseBraceToken */); var localName = ts.getInternalName(node); // The following partially-emitted expression exists purely to align our sourcemap // emit with the original emitter. var outer = ts.createPartiallyEmittedExpression(localName); outer.end = closingBraceLocation.end; ts.setEmitFlags(outer, 1536 /* NoComments */); var statement = ts.createReturn(outer); statement.pos = closingBraceLocation.pos; ts.setEmitFlags(statement, 1536 /* NoComments */ | 384 /* NoTokenSourceMaps */); statements.push(statement); ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); var block = ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), /*location*/ node.members), /*multiLine*/ true); ts.setEmitFlags(block, 1536 /* NoComments */); return block; } /** * Adds a call to the `__extends` helper if needed for a class. * * @param statements The statements of the class body function. * @param node The ClassExpression or ClassDeclaration node. * @param extendsClauseElement The expression for the class `extends` clause. */ function addExtendsHelperIfNeeded(statements, node, extendsClauseElement) { if (extendsClauseElement) { statements.push(ts.setTextRange(ts.createExpressionStatement(createExtendsHelper(context, ts.getInternalName(node))), /*location*/ extendsClauseElement)); } } /** * Adds the constructor of the class to a class body function. * * @param statements The statements of the class body function. * @param node The ClassExpression or ClassDeclaration node. * @param extendsClauseElement The expression for the class `extends` clause. */ function addConstructor(statements, node, extendsClauseElement) { var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var ancestorFacts = enterSubtree(16278 /* ConstructorExcludes */, 73 /* ConstructorIncludes */); var constructor = ts.getFirstConstructorWithBody(node); var hasSynthesizedSuper = hasSynthesizedDefaultSuperCall(constructor, extendsClauseElement !== undefined); var constructorFunction = ts.createFunctionDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, /*asteriskToken*/ undefined, ts.getInternalName(node), /*typeParameters*/ undefined, transformConstructorParameters(constructor, hasSynthesizedSuper), /*type*/ undefined, transformConstructorBody(constructor, node, extendsClauseElement, hasSynthesizedSuper)); ts.setTextRange(constructorFunction, constructor || node); if (extendsClauseElement) { ts.setEmitFlags(constructorFunction, 8 /* CapturesThis */); } statements.push(constructorFunction); exitSubtree(ancestorFacts, 49152 /* FunctionSubtreeExcludes */, 0 /* None */); convertedLoopState = savedConvertedLoopState; } /** * Transforms the parameters of the constructor declaration of a class. * * @param constructor The constructor for the class. * @param hasSynthesizedSuper A value indicating whether the constructor starts with a * synthesized `super` call. */ function transformConstructorParameters(constructor, hasSynthesizedSuper) { // If the TypeScript transformer needed to synthesize a constructor for property // initializers, it would have also added a synthetic `...args` parameter and // `super` call. // If this is the case, we do not include the synthetic `...args` parameter and // will instead use the `arguments` object in ES5/3. return ts.visitParameterList(constructor && !hasSynthesizedSuper ? constructor.parameters : undefined, visitor, context) || []; } function createDefaultConstructorBody(node, isDerivedClass) { // We must be here because the user didn't write a constructor // but we needed to call 'super(...args)' anyway as per 14.5.14 of the ES2016 spec. // If that's the case we can just immediately return the result of a 'super()' call. var statements = []; resumeLexicalEnvironment(); ts.mergeLexicalEnvironment(statements, endLexicalEnvironment()); if (isDerivedClass) { // return _super !== null && _super.apply(this, arguments) || this; statements.push(ts.createReturn(createDefaultSuperCallOrThis())); } var statementsArray = ts.createNodeArray(statements); ts.setTextRange(statementsArray, node.members); var block = ts.createBlock(statementsArray, /*multiLine*/ true); ts.setTextRange(block, node); ts.setEmitFlags(block, 1536 /* NoComments */); return block; } /** * Transforms the body of a constructor declaration of a class. * * @param constructor The constructor for the class. * @param node The node which contains the constructor. * @param extendsClauseElement The expression for the class `extends` clause. * @param hasSynthesizedSuper A value indicating whether the constructor starts with a * synthesized `super` call. */ function transformConstructorBody(constructor, node, extendsClauseElement, hasSynthesizedSuper) { // determine whether the class is known syntactically to be a derived class (e.g. a // class that extends a value that is not syntactically known to be `null`). var isDerivedClass = !!extendsClauseElement && ts.skipOuterExpressions(extendsClauseElement.expression).kind !== 100 /* NullKeyword */; // When the subclass does not have a constructor, we synthesize a *default* constructor using the following // representation: // // ``` // // es2015 (source) // class C extends Base { } // // // es5 (transformed) // var C = (function (_super) { // function C() { // return _super.apply(this, arguments) || this; // } // return C; // })(Base); // ``` if (!constructor) return createDefaultConstructorBody(node, isDerivedClass); // The prologue will contain all leading standard and custom prologue statements added by this transform var prologue = []; var statements = []; resumeLexicalEnvironment(); // If a super call has already been synthesized, // we're going to assume that we should just transform everything after that. // The assumption is that no prior step in the pipeline has added any prologue directives. var statementOffset = 0; if (!hasSynthesizedSuper) statementOffset = ts.addStandardPrologue(prologue, constructor.body.statements, /*ensureUseStrict*/ false); addDefaultValueAssignmentsIfNeeded(statements, constructor); addRestParameterIfNeeded(statements, constructor, hasSynthesizedSuper); if (!hasSynthesizedSuper) statementOffset = ts.addCustomPrologue(statements, constructor.body.statements, statementOffset, visitor); // If the first statement is a call to `super()`, visit the statement directly var superCallExpression; if (hasSynthesizedSuper) { superCallExpression = createDefaultSuperCallOrThis(); } else if (isDerivedClass && statementOffset < constructor.body.statements.length) { var firstStatement = constructor.body.statements[statementOffset]; if (ts.isExpressionStatement(firstStatement) && ts.isSuperCall(firstStatement.expression)) { superCallExpression = visitImmediateSuperCallInBody(firstStatement.expression); } } if (superCallExpression) { hierarchyFacts |= 8192 /* ConstructorWithCapturedSuper */; statementOffset++; // skip this statement, we will add it after visiting the rest of the body. } // visit the remaining statements ts.addRange(statements, ts.visitNodes(constructor.body.statements, visitor, ts.isStatement, /*start*/ statementOffset)); ts.mergeLexicalEnvironment(prologue, endLexicalEnvironment()); insertCaptureNewTargetIfNeeded(prologue, constructor, /*copyOnWrite*/ false); if (isDerivedClass) { if (superCallExpression && statementOffset === constructor.body.statements.length && !(constructor.body.transformFlags & 4096 /* ContainsLexicalThis */)) { // If the subclass constructor does *not* contain `this` and *ends* with a `super()` call, we will use the // following representation: // // ``` // // es2015 (source) // class C extends Base { // constructor() { // super("foo"); // } // } // // // es5 (transformed) // var C = (function (_super) { // function C() { // return _super.call(this, "foo") || this; // } // return C; // })(Base); // ``` var superCall = ts.cast(ts.cast(superCallExpression, ts.isBinaryExpression).left, ts.isCallExpression); var returnStatement = ts.createReturn(superCallExpression); ts.setCommentRange(returnStatement, ts.getCommentRange(superCall)); ts.setEmitFlags(superCall, 1536 /* NoComments */); statements.push(returnStatement); } else { // Otherwise, we will use the following transformed representation for calls to `super()` in a constructor: // // ``` // // es2015 (source) // class C extends Base { // constructor() { // super("foo"); // this.x = 1; // } // } // // // es5 (transformed) // var C = (function (_super) { // function C() { // var _this = _super.call(this, "foo") || this; // _this.x = 1; // return _this; // } // return C; // })(Base); // ``` // Since the `super()` call was the first statement, we insert the `this` capturing call to // `super()` at the top of the list of `statements` (after any pre-existing custom prologues). insertCaptureThisForNode(statements, constructor, superCallExpression || createActualThis()); if (!isSufficientlyCoveredByReturnStatements(constructor.body)) { statements.push(ts.createReturn(ts.createFileLevelUniqueName("_this"))); } } } else { // If a class is not derived from a base class or does not have a call to `super()`, `this` is only // captured when necessitated by an arrow function capturing the lexical `this`: // // ``` // // es2015 // class C {} // // // es5 // var C = (function () { // function C() { // } // return C; // })(); // ``` insertCaptureThisForNodeIfNeeded(prologue, constructor); } var block = ts.createBlock(ts.setTextRange(ts.createNodeArray(ts.concatenate(prologue, statements)), /*location*/ constructor.body.statements), /*multiLine*/ true); ts.setTextRange(block, constructor.body); return block; } /** * We want to try to avoid emitting a return statement in certain cases if a user already returned something. * It would generate obviously dead code, so we'll try to make things a little bit prettier * by doing a minimal check on whether some common patterns always explicitly return. */ function isSufficientlyCoveredByReturnStatements(statement) { // A return statement is considered covered. if (statement.kind === 235 /* ReturnStatement */) { return true; } // An if-statement with two covered branches is covered. else if (statement.kind === 227 /* IfStatement */) { var ifStatement = statement; if (ifStatement.elseStatement) { return isSufficientlyCoveredByReturnStatements(ifStatement.thenStatement) && isSufficientlyCoveredByReturnStatements(ifStatement.elseStatement); } } // A block is covered if it has a last statement which is covered. else if (statement.kind === 223 /* Block */) { var lastStatement = ts.lastOrUndefined(statement.statements); if (lastStatement && isSufficientlyCoveredByReturnStatements(lastStatement)) { return true; } } return false; } function createActualThis() { return ts.setEmitFlags(ts.createThis(), 4 /* NoSubstitution */); } function createDefaultSuperCallOrThis() { return ts.createLogicalOr(ts.createLogicalAnd(ts.createStrictInequality(ts.createFileLevelUniqueName("_super"), ts.createNull()), ts.createFunctionApply(ts.createFileLevelUniqueName("_super"), createActualThis(), ts.createIdentifier("arguments"))), createActualThis()); } /** * Visits a parameter declaration. * * @param node A ParameterDeclaration node. */ function visitParameter(node) { if (node.dotDotDotToken) { // rest parameters are elided return undefined; } else if (ts.isBindingPattern(node.name)) { // Binding patterns are converted into a generated name and are // evaluated inside the function body. return ts.setOriginalNode(ts.setTextRange(ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, ts.getGeneratedNameForNode(node), /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined), /*location*/ node), /*original*/ node); } else if (node.initializer) { // Initializers are elided return ts.setOriginalNode(ts.setTextRange(ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, node.name, /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined), /*location*/ node), /*original*/ node); } else { return node; } } function hasDefaultValueOrBindingPattern(node) { return node.initializer !== undefined || ts.isBindingPattern(node.name); } /** * Adds statements to the body of a function-like node if it contains parameters with * binding patterns or initializers. * * @param statements The statements for the new function body. * @param node A function-like node. */ function addDefaultValueAssignmentsIfNeeded(statements, node) { if (!ts.some(node.parameters, hasDefaultValueOrBindingPattern)) { return false; } var added = false; for (var _i = 0, _a = node.parameters; _i < _a.length; _i++) { var parameter = _a[_i]; var name = parameter.name, initializer = parameter.initializer, dotDotDotToken = parameter.dotDotDotToken; // A rest parameter cannot have a binding pattern or an initializer, // so let's just ignore it. if (dotDotDotToken) { continue; } if (ts.isBindingPattern(name)) { added = insertDefaultValueAssignmentForBindingPattern(statements, parameter, name, initializer) || added; } else if (initializer) { insertDefaultValueAssignmentForInitializer(statements, parameter, name, initializer); added = true; } } return added; } /** * Adds statements to the body of a function-like node for parameters with binding patterns * * @param statements The statements for the new function body. * @param parameter The parameter for the function. * @param name The name of the parameter. * @param initializer The initializer for the parameter. */ function insertDefaultValueAssignmentForBindingPattern(statements, parameter, name, initializer) { // In cases where a binding pattern is simply '[]' or '{}', // we usually don't want to emit a var declaration; however, in the presence // of an initializer, we must emit that expression to preserve side effects. if (name.elements.length > 0) { ts.insertStatementAfterCustomPrologue(statements, ts.setEmitFlags(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList(ts.flattenDestructuringBinding(parameter, visitor, context, 0 /* All */, ts.getGeneratedNameForNode(parameter)))), 1048576 /* CustomPrologue */)); return true; } else if (initializer) { ts.insertStatementAfterCustomPrologue(statements, ts.setEmitFlags(ts.createExpressionStatement(ts.createAssignment(ts.getGeneratedNameForNode(parameter), ts.visitNode(initializer, visitor, ts.isExpression))), 1048576 /* CustomPrologue */)); return true; } return false; } /** * Adds statements to the body of a function-like node for parameters with initializers. * * @param statements The statements for the new function body. * @param parameter The parameter for the function. * @param name The name of the parameter. * @param initializer The initializer for the parameter. */ function insertDefaultValueAssignmentForInitializer(statements, parameter, name, initializer) { initializer = ts.visitNode(initializer, visitor, ts.isExpression); var statement = ts.createIf(ts.createTypeCheck(ts.getSynthesizedClone(name), "undefined"), ts.setEmitFlags(ts.setTextRange(ts.createBlock([ ts.createExpressionStatement(ts.setEmitFlags(ts.setTextRange(ts.createAssignment(ts.setEmitFlags(ts.getMutableClone(name), 48 /* NoSourceMap */), ts.setEmitFlags(initializer, 48 /* NoSourceMap */ | ts.getEmitFlags(initializer) | 1536 /* NoComments */)), parameter), 1536 /* NoComments */)) ]), parameter), 1 /* SingleLine */ | 32 /* NoTrailingSourceMap */ | 384 /* NoTokenSourceMaps */ | 1536 /* NoComments */)); ts.startOnNewLine(statement); ts.setTextRange(statement, parameter); ts.setEmitFlags(statement, 384 /* NoTokenSourceMaps */ | 32 /* NoTrailingSourceMap */ | 1048576 /* CustomPrologue */ | 1536 /* NoComments */); ts.insertStatementAfterCustomPrologue(statements, statement); } /** * Gets a value indicating whether we need to add statements to handle a rest parameter. * * @param node A ParameterDeclaration node. * @param inConstructorWithSynthesizedSuper A value indicating whether the parameter is * part of a constructor declaration with a * synthesized call to `super` */ function shouldAddRestParameter(node, inConstructorWithSynthesizedSuper) { return !!(node && node.dotDotDotToken && !inConstructorWithSynthesizedSuper); } /** * Adds statements to the body of a function-like node if it contains a rest parameter. * * @param statements The statements for the new function body. * @param node A function-like node. * @param inConstructorWithSynthesizedSuper A value indicating whether the parameter is * part of a constructor declaration with a * synthesized call to `super` */ function addRestParameterIfNeeded(statements, node, inConstructorWithSynthesizedSuper) { var prologueStatements = []; var parameter = ts.lastOrUndefined(node.parameters); if (!shouldAddRestParameter(parameter, inConstructorWithSynthesizedSuper)) { return false; } // `declarationName` is the name of the local declaration for the parameter. var declarationName = parameter.name.kind === 75 /* Identifier */ ? ts.getMutableClone(parameter.name) : ts.createTempVariable(/*recordTempVariable*/ undefined); ts.setEmitFlags(declarationName, 48 /* NoSourceMap */); // `expressionName` is the name of the parameter used in expressions. var expressionName = parameter.name.kind === 75 /* Identifier */ ? ts.getSynthesizedClone(parameter.name) : declarationName; var restIndex = node.parameters.length - 1; var temp = ts.createLoopVariable(); // var param = []; prologueStatements.push(ts.setEmitFlags(ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(declarationName, /*type*/ undefined, ts.createArrayLiteral([])) ])), /*location*/ parameter), 1048576 /* CustomPrologue */)); // for (var _i = restIndex; _i < arguments.length; _i++) { // param[_i - restIndex] = arguments[_i]; // } var forStatement = ts.createFor(ts.setTextRange(ts.createVariableDeclarationList([ ts.createVariableDeclaration(temp, /*type*/ undefined, ts.createLiteral(restIndex)) ]), parameter), ts.setTextRange(ts.createLessThan(temp, ts.createPropertyAccess(ts.createIdentifier("arguments"), "length")), parameter), ts.setTextRange(ts.createPostfixIncrement(temp), parameter), ts.createBlock([ ts.startOnNewLine(ts.setTextRange(ts.createExpressionStatement(ts.createAssignment(ts.createElementAccess(expressionName, restIndex === 0 ? temp : ts.createSubtract(temp, ts.createLiteral(restIndex))), ts.createElementAccess(ts.createIdentifier("arguments"), temp))), /*location*/ parameter)) ])); ts.setEmitFlags(forStatement, 1048576 /* CustomPrologue */); ts.startOnNewLine(forStatement); prologueStatements.push(forStatement); if (parameter.name.kind !== 75 /* Identifier */) { // do the actual destructuring of the rest parameter if necessary prologueStatements.push(ts.setEmitFlags(ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList(ts.flattenDestructuringBinding(parameter, visitor, context, 0 /* All */, expressionName))), parameter), 1048576 /* CustomPrologue */)); } ts.insertStatementsAfterCustomPrologue(statements, prologueStatements); return true; } /** * Adds a statement to capture the `this` of a function declaration if it is needed. * NOTE: This must be executed *after* the subtree has been visited. * * @param statements The statements for the new function body. * @param node A node. */ function insertCaptureThisForNodeIfNeeded(statements, node) { if (hierarchyFacts & 32768 /* CapturedLexicalThis */ && node.kind !== 202 /* ArrowFunction */) { insertCaptureThisForNode(statements, node, ts.createThis()); return true; } return false; } function insertCaptureThisForNode(statements, node, initializer) { enableSubstitutionsForCapturedThis(); var captureThisStatement = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(ts.createFileLevelUniqueName("_this"), /*type*/ undefined, initializer) ])); ts.setEmitFlags(captureThisStatement, 1536 /* NoComments */ | 1048576 /* CustomPrologue */); ts.setSourceMapRange(captureThisStatement, node); ts.insertStatementAfterCustomPrologue(statements, captureThisStatement); } function insertCaptureNewTargetIfNeeded(statements, node, copyOnWrite) { if (hierarchyFacts & 16384 /* NewTarget */) { var newTarget = void 0; switch (node.kind) { case 202 /* ArrowFunction */: return statements; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: // Methods and accessors cannot be constructors, so 'new.target' will // always return 'undefined'. newTarget = ts.createVoidZero(); break; case 162 /* Constructor */: // Class constructors can only be called with `new`, so `this.constructor` // should be relatively safe to use. newTarget = ts.createPropertyAccess(ts.setEmitFlags(ts.createThis(), 4 /* NoSubstitution */), "constructor"); break; case 244 /* FunctionDeclaration */: case 201 /* FunctionExpression */: // Functions can be called or constructed, and may have a `this` due to // being a member or when calling an imported function via `other_1.f()`. newTarget = ts.createConditional(ts.createLogicalAnd(ts.setEmitFlags(ts.createThis(), 4 /* NoSubstitution */), ts.createBinary(ts.setEmitFlags(ts.createThis(), 4 /* NoSubstitution */), 98 /* InstanceOfKeyword */, ts.getLocalName(node))), ts.createPropertyAccess(ts.setEmitFlags(ts.createThis(), 4 /* NoSubstitution */), "constructor"), ts.createVoidZero()); break; default: return ts.Debug.failBadSyntaxKind(node); } var captureNewTargetStatement = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(ts.createFileLevelUniqueName("_newTarget"), /*type*/ undefined, newTarget) ])); ts.setEmitFlags(captureNewTargetStatement, 1536 /* NoComments */ | 1048576 /* CustomPrologue */); if (copyOnWrite) { statements = statements.slice(); } ts.insertStatementAfterCustomPrologue(statements, captureNewTargetStatement); } return statements; } /** * Adds statements to the class body function for a class to define the members of the * class. * * @param statements The statements for the class body function. * @param node The ClassExpression or ClassDeclaration node. */ function addClassMembers(statements, node) { for (var _i = 0, _a = node.members; _i < _a.length; _i++) { var member = _a[_i]; switch (member.kind) { case 222 /* SemicolonClassElement */: statements.push(transformSemicolonClassElementToStatement(member)); break; case 161 /* MethodDeclaration */: statements.push(transformClassMethodDeclarationToStatement(getClassMemberPrefix(node, member), member, node)); break; case 163 /* GetAccessor */: case 164 /* SetAccessor */: var accessors = ts.getAllAccessorDeclarations(node.members, member); if (member === accessors.firstAccessor) { statements.push(transformAccessorsToStatement(getClassMemberPrefix(node, member), accessors, node)); } break; case 162 /* Constructor */: // Constructors are handled in visitClassExpression/visitClassDeclaration break; default: ts.Debug.failBadSyntaxKind(member, currentSourceFile && currentSourceFile.fileName); break; } } } /** * Transforms a SemicolonClassElement into a statement for a class body function. * * @param member The SemicolonClassElement node. */ function transformSemicolonClassElementToStatement(member) { return ts.setTextRange(ts.createEmptyStatement(), member); } /** * Transforms a MethodDeclaration into a statement for a class body function. * * @param receiver The receiver for the member. * @param member The MethodDeclaration node. */ function transformClassMethodDeclarationToStatement(receiver, member, container) { var commentRange = ts.getCommentRange(member); var sourceMapRange = ts.getSourceMapRange(member); var memberFunction = transformFunctionLikeToExpression(member, /*location*/ member, /*name*/ undefined, container); var propertyName = ts.visitNode(member.name, visitor, ts.isPropertyName); var e; if (!ts.isPrivateIdentifier(propertyName) && context.getCompilerOptions().useDefineForClassFields) { var name = ts.isComputedPropertyName(propertyName) ? propertyName.expression : ts.isIdentifier(propertyName) ? ts.createStringLiteral(ts.unescapeLeadingUnderscores(propertyName.escapedText)) : propertyName; e = ts.createObjectDefinePropertyCall(receiver, name, ts.createPropertyDescriptor({ value: memberFunction, enumerable: false, writable: true, configurable: true })); } else { var memberName = ts.createMemberAccessForPropertyName(receiver, propertyName, /*location*/ member.name); e = ts.createAssignment(memberName, memberFunction); } ts.setEmitFlags(memberFunction, 1536 /* NoComments */); ts.setSourceMapRange(memberFunction, sourceMapRange); var statement = ts.setTextRange(ts.createExpressionStatement(e), /*location*/ member); ts.setOriginalNode(statement, member); ts.setCommentRange(statement, commentRange); // The location for the statement is used to emit comments only. // No source map should be emitted for this statement to align with the // old emitter. ts.setEmitFlags(statement, 48 /* NoSourceMap */); return statement; } /** * Transforms a set of related of get/set accessors into a statement for a class body function. * * @param receiver The receiver for the member. * @param accessors The set of related get/set accessors. */ function transformAccessorsToStatement(receiver, accessors, container) { var statement = ts.createExpressionStatement(transformAccessorsToExpression(receiver, accessors, container, /*startsOnNewLine*/ false)); // The location for the statement is used to emit source maps only. // No comments should be emitted for this statement to align with the // old emitter. ts.setEmitFlags(statement, 1536 /* NoComments */); ts.setSourceMapRange(statement, ts.getSourceMapRange(accessors.firstAccessor)); return statement; } /** * Transforms a set of related get/set accessors into an expression for either a class * body function or an ObjectLiteralExpression with computed properties. * * @param receiver The receiver for the member. */ function transformAccessorsToExpression(receiver, _a, container, startsOnNewLine) { var firstAccessor = _a.firstAccessor, getAccessor = _a.getAccessor, setAccessor = _a.setAccessor; // To align with source maps in the old emitter, the receiver and property name // arguments are both mapped contiguously to the accessor name. var target = ts.getMutableClone(receiver); ts.setEmitFlags(target, 1536 /* NoComments */ | 32 /* NoTrailingSourceMap */); ts.setSourceMapRange(target, firstAccessor.name); var visitedAccessorName = ts.visitNode(firstAccessor.name, visitor, ts.isPropertyName); if (ts.isPrivateIdentifier(visitedAccessorName)) { return ts.Debug.failBadSyntaxKind(visitedAccessorName, "Encountered unhandled private identifier while transforming ES2015."); } var propertyName = ts.createExpressionForPropertyName(visitedAccessorName); ts.setEmitFlags(propertyName, 1536 /* NoComments */ | 16 /* NoLeadingSourceMap */); ts.setSourceMapRange(propertyName, firstAccessor.name); var properties = []; if (getAccessor) { var getterFunction = transformFunctionLikeToExpression(getAccessor, /*location*/ undefined, /*name*/ undefined, container); ts.setSourceMapRange(getterFunction, ts.getSourceMapRange(getAccessor)); ts.setEmitFlags(getterFunction, 512 /* NoLeadingComments */); var getter = ts.createPropertyAssignment("get", getterFunction); ts.setCommentRange(getter, ts.getCommentRange(getAccessor)); properties.push(getter); } if (setAccessor) { var setterFunction = transformFunctionLikeToExpression(setAccessor, /*location*/ undefined, /*name*/ undefined, container); ts.setSourceMapRange(setterFunction, ts.getSourceMapRange(setAccessor)); ts.setEmitFlags(setterFunction, 512 /* NoLeadingComments */); var setter = ts.createPropertyAssignment("set", setterFunction); ts.setCommentRange(setter, ts.getCommentRange(setAccessor)); properties.push(setter); } properties.push(ts.createPropertyAssignment("enumerable", getAccessor || setAccessor ? ts.createFalse() : ts.createTrue()), ts.createPropertyAssignment("configurable", ts.createTrue())); var call = ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Object"), "defineProperty"), /*typeArguments*/ undefined, [ target, propertyName, ts.createObjectLiteral(properties, /*multiLine*/ true) ]); if (startsOnNewLine) { ts.startOnNewLine(call); } return call; } /** * Visits an ArrowFunction and transforms it into a FunctionExpression. * * @param node An ArrowFunction node. */ function visitArrowFunction(node) { if (node.transformFlags & 4096 /* ContainsLexicalThis */) { hierarchyFacts |= 32768 /* CapturedLexicalThis */; } var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var ancestorFacts = enterSubtree(15232 /* ArrowFunctionExcludes */, 66 /* ArrowFunctionIncludes */); var func = ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, transformFunctionBody(node)); ts.setTextRange(func, node); ts.setOriginalNode(func, node); ts.setEmitFlags(func, 8 /* CapturesThis */); if (hierarchyFacts & 32768 /* CapturedLexicalThis */) { enableSubstitutionsForCapturedThis(); } // If an arrow function contains exitSubtree(ancestorFacts, 0 /* ArrowFunctionSubtreeExcludes */, 0 /* None */); convertedLoopState = savedConvertedLoopState; return func; } /** * Visits a FunctionExpression node. * * @param node a FunctionExpression node. */ function visitFunctionExpression(node) { var ancestorFacts = ts.getEmitFlags(node) & 262144 /* AsyncFunctionBody */ ? enterSubtree(16278 /* AsyncFunctionBodyExcludes */, 69 /* AsyncFunctionBodyIncludes */) : enterSubtree(16286 /* FunctionExcludes */, 65 /* FunctionIncludes */); var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var parameters = ts.visitParameterList(node.parameters, visitor, context); var body = transformFunctionBody(node); var name = hierarchyFacts & 16384 /* NewTarget */ ? ts.getLocalName(node) : node.name; exitSubtree(ancestorFacts, 49152 /* FunctionSubtreeExcludes */, 0 /* None */); convertedLoopState = savedConvertedLoopState; return ts.updateFunctionExpression(node, /*modifiers*/ undefined, node.asteriskToken, name, /*typeParameters*/ undefined, parameters, /*type*/ undefined, body); } /** * Visits a FunctionDeclaration node. * * @param node a FunctionDeclaration node. */ function visitFunctionDeclaration(node) { var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var ancestorFacts = enterSubtree(16286 /* FunctionExcludes */, 65 /* FunctionIncludes */); var parameters = ts.visitParameterList(node.parameters, visitor, context); var body = transformFunctionBody(node); var name = hierarchyFacts & 16384 /* NewTarget */ ? ts.getLocalName(node) : node.name; exitSubtree(ancestorFacts, 49152 /* FunctionSubtreeExcludes */, 0 /* None */); convertedLoopState = savedConvertedLoopState; return ts.updateFunctionDeclaration(node, /*decorators*/ undefined, ts.visitNodes(node.modifiers, visitor, ts.isModifier), node.asteriskToken, name, /*typeParameters*/ undefined, parameters, /*type*/ undefined, body); } /** * Transforms a function-like node into a FunctionExpression. * * @param node The function-like node to transform. * @param location The source-map location for the new FunctionExpression. * @param name The name of the new FunctionExpression. */ function transformFunctionLikeToExpression(node, location, name, container) { var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var ancestorFacts = container && ts.isClassLike(container) && !ts.hasModifier(node, 32 /* Static */) ? enterSubtree(16286 /* FunctionExcludes */, 65 /* FunctionIncludes */ | 8 /* NonStaticClassElement */) : enterSubtree(16286 /* FunctionExcludes */, 65 /* FunctionIncludes */); var parameters = ts.visitParameterList(node.parameters, visitor, context); var body = transformFunctionBody(node); if (hierarchyFacts & 16384 /* NewTarget */ && !name && (node.kind === 244 /* FunctionDeclaration */ || node.kind === 201 /* FunctionExpression */)) { name = ts.getGeneratedNameForNode(node); } exitSubtree(ancestorFacts, 49152 /* FunctionSubtreeExcludes */, 0 /* None */); convertedLoopState = savedConvertedLoopState; return ts.setOriginalNode(ts.setTextRange(ts.createFunctionExpression( /*modifiers*/ undefined, node.asteriskToken, name, /*typeParameters*/ undefined, parameters, /*type*/ undefined, body), location), /*original*/ node); } /** * Transforms the body of a function-like node. * * @param node A function-like node. */ function transformFunctionBody(node) { var multiLine = false; // indicates whether the block *must* be emitted as multiple lines var singleLine = false; // indicates whether the block *may* be emitted as a single line var statementsLocation; var closeBraceLocation; var prologue = []; var statements = []; var body = node.body; var statementOffset; resumeLexicalEnvironment(); if (ts.isBlock(body)) { // ensureUseStrict is false because no new prologue-directive should be added. // addStandardPrologue will put already-existing directives at the beginning of the target statement-array statementOffset = ts.addStandardPrologue(prologue, body.statements, /*ensureUseStrict*/ false); statementOffset = ts.addCustomPrologue(statements, body.statements, statementOffset, visitor, ts.isHoistedFunction); statementOffset = ts.addCustomPrologue(statements, body.statements, statementOffset, visitor, ts.isHoistedVariableStatement); } multiLine = addDefaultValueAssignmentsIfNeeded(statements, node) || multiLine; multiLine = addRestParameterIfNeeded(statements, node, /*inConstructorWithSynthesizedSuper*/ false) || multiLine; if (ts.isBlock(body)) { // addCustomPrologue puts already-existing directives at the beginning of the target statement-array statementOffset = ts.addCustomPrologue(statements, body.statements, statementOffset, visitor); statementsLocation = body.statements; ts.addRange(statements, ts.visitNodes(body.statements, visitor, ts.isStatement, statementOffset)); // If the original body was a multi-line block, this must be a multi-line block. if (!multiLine && body.multiLine) { multiLine = true; } } else { ts.Debug.assert(node.kind === 202 /* ArrowFunction */); // To align with the old emitter, we use a synthetic end position on the location // for the statement list we synthesize when we down-level an arrow function with // an expression function body. This prevents both comments and source maps from // being emitted for the end position only. statementsLocation = ts.moveRangeEnd(body, -1); var equalsGreaterThanToken = node.equalsGreaterThanToken; if (!ts.nodeIsSynthesized(equalsGreaterThanToken) && !ts.nodeIsSynthesized(body)) { if (ts.rangeEndIsOnSameLineAsRangeStart(equalsGreaterThanToken, body, currentSourceFile)) { singleLine = true; } else { multiLine = true; } } var expression = ts.visitNode(body, visitor, ts.isExpression); var returnStatement = ts.createReturn(expression); ts.setTextRange(returnStatement, body); ts.moveSyntheticComments(returnStatement, body); ts.setEmitFlags(returnStatement, 384 /* NoTokenSourceMaps */ | 32 /* NoTrailingSourceMap */ | 1024 /* NoTrailingComments */); statements.push(returnStatement); // To align with the source map emit for the old emitter, we set a custom // source map location for the close brace. closeBraceLocation = body; } ts.mergeLexicalEnvironment(prologue, endLexicalEnvironment()); insertCaptureNewTargetIfNeeded(prologue, node, /*copyOnWrite*/ false); insertCaptureThisForNodeIfNeeded(prologue, node); // If we added any final generated statements, this must be a multi-line block if (ts.some(prologue)) { multiLine = true; } statements.unshift.apply(statements, prologue); if (ts.isBlock(body) && ts.arrayIsEqualTo(statements, body.statements)) { // no changes were made, preserve the tree return body; } var block = ts.createBlock(ts.setTextRange(ts.createNodeArray(statements), statementsLocation), multiLine); ts.setTextRange(block, node.body); if (!multiLine && singleLine) { ts.setEmitFlags(block, 1 /* SingleLine */); } if (closeBraceLocation) { ts.setTokenSourceMapRange(block, 19 /* CloseBraceToken */, closeBraceLocation); } ts.setOriginalNode(block, node.body); return block; } function visitBlock(node, isFunctionBody) { if (isFunctionBody) { // A function body is not a block scope. return ts.visitEachChild(node, visitor, context); } var ancestorFacts = hierarchyFacts & 256 /* IterationStatement */ ? enterSubtree(7104 /* IterationStatementBlockExcludes */, 512 /* IterationStatementBlockIncludes */) : enterSubtree(6976 /* BlockExcludes */, 128 /* BlockIncludes */); var updated = ts.visitEachChild(node, visitor, context); exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return updated; } /** * Visits an ExpressionStatement that contains a destructuring assignment. * * @param node An ExpressionStatement node. */ function visitExpressionStatement(node) { // If we are here it is most likely because our expression is a destructuring assignment. switch (node.expression.kind) { case 200 /* ParenthesizedExpression */: return ts.updateExpressionStatement(node, visitParenthesizedExpression(node.expression, /*needsDestructuringValue*/ false)); case 209 /* BinaryExpression */: return ts.updateExpressionStatement(node, visitBinaryExpression(node.expression, /*needsDestructuringValue*/ false)); } return ts.visitEachChild(node, visitor, context); } /** * Visits a ParenthesizedExpression that may contain a destructuring assignment. * * @param node A ParenthesizedExpression node. * @param needsDestructuringValue A value indicating whether we need to hold onto the rhs * of a destructuring assignment. */ function visitParenthesizedExpression(node, needsDestructuringValue) { // If we are here it is most likely because our expression is a destructuring assignment. if (!needsDestructuringValue) { // By default we always emit the RHS at the end of a flattened destructuring // expression. If we are in a state where we do not need the destructuring value, // we pass that information along to the children that care about it. switch (node.expression.kind) { case 200 /* ParenthesizedExpression */: return ts.updateParen(node, visitParenthesizedExpression(node.expression, /*needsDestructuringValue*/ false)); case 209 /* BinaryExpression */: return ts.updateParen(node, visitBinaryExpression(node.expression, /*needsDestructuringValue*/ false)); } } return ts.visitEachChild(node, visitor, context); } /** * Visits a BinaryExpression that contains a destructuring assignment. * * @param node A BinaryExpression node. * @param needsDestructuringValue A value indicating whether we need to hold onto the rhs * of a destructuring assignment. */ function visitBinaryExpression(node, needsDestructuringValue) { // If we are here it is because this is a destructuring assignment. if (ts.isDestructuringAssignment(node)) { return ts.flattenDestructuringAssignment(node, visitor, context, 0 /* All */, needsDestructuringValue); } return ts.visitEachChild(node, visitor, context); } function isVariableStatementOfTypeScriptClassWrapper(node) { return node.declarationList.declarations.length === 1 && !!node.declarationList.declarations[0].initializer && !!(ts.getEmitFlags(node.declarationList.declarations[0].initializer) & 33554432 /* TypeScriptClassWrapper */); } function visitVariableStatement(node) { var ancestorFacts = enterSubtree(0 /* None */, ts.hasModifier(node, 1 /* Export */) ? 32 /* ExportedVariableStatement */ : 0 /* None */); var updated; if (convertedLoopState && (node.declarationList.flags & 3 /* BlockScoped */) === 0 && !isVariableStatementOfTypeScriptClassWrapper(node)) { // we are inside a converted loop - hoist variable declarations var assignments = void 0; for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var decl = _a[_i]; hoistVariableDeclarationDeclaredInConvertedLoop(convertedLoopState, decl); if (decl.initializer) { var assignment = void 0; if (ts.isBindingPattern(decl.name)) { assignment = ts.flattenDestructuringAssignment(decl, visitor, context, 0 /* All */); } else { assignment = ts.createBinary(decl.name, 62 /* EqualsToken */, ts.visitNode(decl.initializer, visitor, ts.isExpression)); ts.setTextRange(assignment, decl); } assignments = ts.append(assignments, assignment); } } if (assignments) { updated = ts.setTextRange(ts.createExpressionStatement(ts.inlineExpressions(assignments)), node); } else { // none of declarations has initializer - the entire variable statement can be deleted updated = undefined; } } else { updated = ts.visitEachChild(node, visitor, context); } exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return updated; } /** * Visits a VariableDeclarationList that is block scoped (e.g. `let` or `const`). * * @param node A VariableDeclarationList node. */ function visitVariableDeclarationList(node) { if (node.flags & 3 /* BlockScoped */ || node.transformFlags & 131072 /* ContainsBindingPattern */) { if (node.flags & 3 /* BlockScoped */) { enableSubstitutionsForBlockScopedBindings(); } var declarations = ts.flatMap(node.declarations, node.flags & 1 /* Let */ ? visitVariableDeclarationInLetDeclarationList : visitVariableDeclaration); var declarationList = ts.createVariableDeclarationList(declarations); ts.setOriginalNode(declarationList, node); ts.setTextRange(declarationList, node); ts.setCommentRange(declarationList, node); // If the first or last declaration is a binding pattern, we need to modify // the source map range for the declaration list. if (node.transformFlags & 131072 /* ContainsBindingPattern */ && (ts.isBindingPattern(node.declarations[0].name) || ts.isBindingPattern(ts.last(node.declarations).name))) { ts.setSourceMapRange(declarationList, getRangeUnion(declarations)); } return declarationList; } return ts.visitEachChild(node, visitor, context); } function getRangeUnion(declarations) { // declarations may not be sorted by position. // pos should be the minimum* position over all nodes (that's not -1), end should be the maximum end over all nodes. var pos = -1, end = -1; for (var _i = 0, declarations_10 = declarations; _i < declarations_10.length; _i++) { var node = declarations_10[_i]; pos = pos === -1 ? node.pos : node.pos === -1 ? pos : Math.min(pos, node.pos); end = Math.max(end, node.end); } return ts.createRange(pos, end); } /** * Gets a value indicating whether we should emit an explicit initializer for a variable * declaration in a `let` declaration list. * * @param node A VariableDeclaration node. */ function shouldEmitExplicitInitializerForLetDeclaration(node) { // Nested let bindings might need to be initialized explicitly to preserve // ES6 semantic: // // { let x = 1; } // { let x; } // x here should be undefined. not 1 // // Top level bindings never collide with anything and thus don't require // explicit initialization. As for nested let bindings there are two cases: // // - Nested let bindings that were not renamed definitely should be // initialized explicitly: // // { let x = 1; } // { let x; if (some-condition) { x = 1}; if (x) { /*1*/ } } // // Without explicit initialization code in /*1*/ can be executed even if // some-condition is evaluated to false. // // - Renaming introduces fresh name that should not collide with any // existing names, however renamed bindings sometimes also should be // explicitly initialized. One particular case: non-captured binding // declared inside loop body (but not in loop initializer): // // let x; // for (;;) { // let x; // } // // In downlevel codegen inner 'x' will be renamed so it won't collide // with outer 'x' however it will should be reset on every iteration as // if it was declared anew. // // * Why non-captured binding? // - Because if loop contains block scoped binding captured in some // function then loop body will be rewritten to have a fresh scope // on every iteration so everything will just work. // // * Why loop initializer is excluded? // - Since we've introduced a fresh name it already will be undefined. var flags = resolver.getNodeCheckFlags(node); var isCapturedInFunction = flags & 262144 /* CapturedBlockScopedBinding */; var isDeclaredInLoop = flags & 524288 /* BlockScopedBindingInLoop */; var emittedAsTopLevel = (hierarchyFacts & 64 /* TopLevel */) !== 0 || (isCapturedInFunction && isDeclaredInLoop && (hierarchyFacts & 512 /* IterationStatementBlock */) !== 0); var emitExplicitInitializer = !emittedAsTopLevel && (hierarchyFacts & 4096 /* ForInOrForOfStatement */) === 0 && (!resolver.isDeclarationWithCollidingName(node) || (isDeclaredInLoop && !isCapturedInFunction && (hierarchyFacts & (2048 /* ForStatement */ | 4096 /* ForInOrForOfStatement */)) === 0)); return emitExplicitInitializer; } /** * Visits a VariableDeclaration in a `let` declaration list. * * @param node A VariableDeclaration node. */ function visitVariableDeclarationInLetDeclarationList(node) { // For binding pattern names that lack initializers there is no point to emit // explicit initializer since downlevel codegen for destructuring will fail // in the absence of initializer so all binding elements will say uninitialized var name = node.name; if (ts.isBindingPattern(name)) { return visitVariableDeclaration(node); } if (!node.initializer && shouldEmitExplicitInitializerForLetDeclaration(node)) { var clone_3 = ts.getMutableClone(node); clone_3.initializer = ts.createVoidZero(); return clone_3; } return ts.visitEachChild(node, visitor, context); } /** * Visits a VariableDeclaration node with a binding pattern. * * @param node A VariableDeclaration node. */ function visitVariableDeclaration(node) { var ancestorFacts = enterSubtree(32 /* ExportedVariableStatement */, 0 /* None */); var updated; if (ts.isBindingPattern(node.name)) { updated = ts.flattenDestructuringBinding(node, visitor, context, 0 /* All */, /*value*/ undefined, (ancestorFacts & 32 /* ExportedVariableStatement */) !== 0); } else { updated = ts.visitEachChild(node, visitor, context); } exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return updated; } function recordLabel(node) { convertedLoopState.labels.set(ts.idText(node.label), true); } function resetLabel(node) { convertedLoopState.labels.set(ts.idText(node.label), false); } function visitLabeledStatement(node) { if (convertedLoopState && !convertedLoopState.labels) { convertedLoopState.labels = ts.createMap(); } var statement = ts.unwrapInnermostStatementOfLabel(node, convertedLoopState && recordLabel); return ts.isIterationStatement(statement, /*lookInLabeledStatements*/ false) ? visitIterationStatement(statement, /*outermostLabeledStatement*/ node) : ts.restoreEnclosingLabel(ts.visitNode(statement, visitor, ts.isStatement, ts.liftToBlock), node, convertedLoopState && resetLabel); } function visitIterationStatement(node, outermostLabeledStatement) { switch (node.kind) { case 228 /* DoStatement */: case 229 /* WhileStatement */: return visitDoOrWhileStatement(node, outermostLabeledStatement); case 230 /* ForStatement */: return visitForStatement(node, outermostLabeledStatement); case 231 /* ForInStatement */: return visitForInStatement(node, outermostLabeledStatement); case 232 /* ForOfStatement */: return visitForOfStatement(node, outermostLabeledStatement); } } function visitIterationStatementWithFacts(excludeFacts, includeFacts, node, outermostLabeledStatement, convert) { var ancestorFacts = enterSubtree(excludeFacts, includeFacts); var updated = convertIterationStatementBodyIfNecessary(node, outermostLabeledStatement, ancestorFacts, convert); exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return updated; } function visitDoOrWhileStatement(node, outermostLabeledStatement) { return visitIterationStatementWithFacts(0 /* DoOrWhileStatementExcludes */, 1280 /* DoOrWhileStatementIncludes */, node, outermostLabeledStatement); } function visitForStatement(node, outermostLabeledStatement) { return visitIterationStatementWithFacts(5056 /* ForStatementExcludes */, 3328 /* ForStatementIncludes */, node, outermostLabeledStatement); } function visitForInStatement(node, outermostLabeledStatement) { return visitIterationStatementWithFacts(3008 /* ForInOrForOfStatementExcludes */, 5376 /* ForInOrForOfStatementIncludes */, node, outermostLabeledStatement); } function visitForOfStatement(node, outermostLabeledStatement) { return visitIterationStatementWithFacts(3008 /* ForInOrForOfStatementExcludes */, 5376 /* ForInOrForOfStatementIncludes */, node, outermostLabeledStatement, compilerOptions.downlevelIteration ? convertForOfStatementForIterable : convertForOfStatementForArray); } function convertForOfStatementHead(node, boundValue, convertedLoopBodyStatements) { var statements = []; var initializer = node.initializer; if (ts.isVariableDeclarationList(initializer)) { if (node.initializer.flags & 3 /* BlockScoped */) { enableSubstitutionsForBlockScopedBindings(); } var firstOriginalDeclaration = ts.firstOrUndefined(initializer.declarations); if (firstOriginalDeclaration && ts.isBindingPattern(firstOriginalDeclaration.name)) { // This works whether the declaration is a var, let, or const. // It will use rhsIterationValue _a[_i] as the initializer. var declarations = ts.flattenDestructuringBinding(firstOriginalDeclaration, visitor, context, 0 /* All */, boundValue); var declarationList = ts.setTextRange(ts.createVariableDeclarationList(declarations), node.initializer); ts.setOriginalNode(declarationList, node.initializer); // Adjust the source map range for the first declaration to align with the old // emitter. ts.setSourceMapRange(declarationList, ts.createRange(declarations[0].pos, ts.last(declarations).end)); statements.push(ts.createVariableStatement( /*modifiers*/ undefined, declarationList)); } else { // The following call does not include the initializer, so we have // to emit it separately. statements.push(ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.setOriginalNode(ts.setTextRange(ts.createVariableDeclarationList([ ts.createVariableDeclaration(firstOriginalDeclaration ? firstOriginalDeclaration.name : ts.createTempVariable(/*recordTempVariable*/ undefined), /*type*/ undefined, boundValue) ]), ts.moveRangePos(initializer, -1)), initializer)), ts.moveRangeEnd(initializer, -1))); } } else { // Initializer is an expression. Emit the expression in the body, so that it's // evaluated on every iteration. var assignment = ts.createAssignment(initializer, boundValue); if (ts.isDestructuringAssignment(assignment)) { ts.aggregateTransformFlags(assignment); statements.push(ts.createExpressionStatement(visitBinaryExpression(assignment, /*needsDestructuringValue*/ false))); } else { assignment.end = initializer.end; statements.push(ts.setTextRange(ts.createExpressionStatement(ts.visitNode(assignment, visitor, ts.isExpression)), ts.moveRangeEnd(initializer, -1))); } } if (convertedLoopBodyStatements) { return createSyntheticBlockForConvertedStatements(ts.addRange(statements, convertedLoopBodyStatements)); } else { var statement = ts.visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock); if (ts.isBlock(statement)) { return ts.updateBlock(statement, ts.setTextRange(ts.createNodeArray(ts.concatenate(statements, statement.statements)), statement.statements)); } else { statements.push(statement); return createSyntheticBlockForConvertedStatements(statements); } } } function createSyntheticBlockForConvertedStatements(statements) { return ts.setEmitFlags(ts.createBlock(ts.createNodeArray(statements), /*multiLine*/ true), 48 /* NoSourceMap */ | 384 /* NoTokenSourceMaps */); } function convertForOfStatementForArray(node, outermostLabeledStatement, convertedLoopBodyStatements) { // The following ES6 code: // // for (let v of expr) { } // // should be emitted as // // for (var _i = 0, _a = expr; _i < _a.length; _i++) { // var v = _a[_i]; // } // // where _a and _i are temps emitted to capture the RHS and the counter, // respectively. // When the left hand side is an expression instead of a let declaration, // the "let v" is not emitted. // When the left hand side is a let/const, the v is renamed if there is // another v in scope. // Note that all assignments to the LHS are emitted in the body, including // all destructuring. // Note also that because an extra statement is needed to assign to the LHS, // for-of bodies are always emitted as blocks. var expression = ts.visitNode(node.expression, visitor, ts.isExpression); // In the case where the user wrote an identifier as the RHS, like this: // // for (let v of arr) { } // // we don't want to emit a temporary variable for the RHS, just use it directly. var counter = ts.createLoopVariable(); var rhsReference = ts.isIdentifier(expression) ? ts.getGeneratedNameForNode(expression) : ts.createTempVariable(/*recordTempVariable*/ undefined); // The old emitter does not emit source maps for the expression ts.setEmitFlags(expression, 48 /* NoSourceMap */ | ts.getEmitFlags(expression)); var forStatement = ts.setTextRange(ts.createFor( /*initializer*/ ts.setEmitFlags(ts.setTextRange(ts.createVariableDeclarationList([ ts.setTextRange(ts.createVariableDeclaration(counter, /*type*/ undefined, ts.createLiteral(0)), ts.moveRangePos(node.expression, -1)), ts.setTextRange(ts.createVariableDeclaration(rhsReference, /*type*/ undefined, expression), node.expression) ]), node.expression), 2097152 /* NoHoisting */), /*condition*/ ts.setTextRange(ts.createLessThan(counter, ts.createPropertyAccess(rhsReference, "length")), node.expression), /*incrementor*/ ts.setTextRange(ts.createPostfixIncrement(counter), node.expression), /*statement*/ convertForOfStatementHead(node, ts.createElementAccess(rhsReference, counter), convertedLoopBodyStatements)), /*location*/ node); // Disable trailing source maps for the OpenParenToken to align source map emit with the old emitter. ts.setEmitFlags(forStatement, 256 /* NoTokenTrailingSourceMaps */); ts.setTextRange(forStatement, node); return ts.restoreEnclosingLabel(forStatement, outermostLabeledStatement, convertedLoopState && resetLabel); } function convertForOfStatementForIterable(node, outermostLabeledStatement, convertedLoopBodyStatements, ancestorFacts) { var expression = ts.visitNode(node.expression, visitor, ts.isExpression); var iterator = ts.isIdentifier(expression) ? ts.getGeneratedNameForNode(expression) : ts.createTempVariable(/*recordTempVariable*/ undefined); var result = ts.isIdentifier(expression) ? ts.getGeneratedNameForNode(iterator) : ts.createTempVariable(/*recordTempVariable*/ undefined); var errorRecord = ts.createUniqueName("e"); var catchVariable = ts.getGeneratedNameForNode(errorRecord); var returnMethod = ts.createTempVariable(/*recordTempVariable*/ undefined); var values = ts.createValuesHelper(context, expression, node.expression); var next = ts.createCall(ts.createPropertyAccess(iterator, "next"), /*typeArguments*/ undefined, []); hoistVariableDeclaration(errorRecord); hoistVariableDeclaration(returnMethod); // if we are enclosed in an outer loop ensure we reset 'errorRecord' per each iteration var initializer = ancestorFacts & 1024 /* IterationContainer */ ? ts.inlineExpressions([ts.createAssignment(errorRecord, ts.createVoidZero()), values]) : values; var forStatement = ts.setEmitFlags(ts.setTextRange(ts.createFor( /*initializer*/ ts.setEmitFlags(ts.setTextRange(ts.createVariableDeclarationList([ ts.setTextRange(ts.createVariableDeclaration(iterator, /*type*/ undefined, initializer), node.expression), ts.createVariableDeclaration(result, /*type*/ undefined, next) ]), node.expression), 2097152 /* NoHoisting */), /*condition*/ ts.createLogicalNot(ts.createPropertyAccess(result, "done")), /*incrementor*/ ts.createAssignment(result, next), /*statement*/ convertForOfStatementHead(node, ts.createPropertyAccess(result, "value"), convertedLoopBodyStatements)), /*location*/ node), 256 /* NoTokenTrailingSourceMaps */); return ts.createTry(ts.createBlock([ ts.restoreEnclosingLabel(forStatement, outermostLabeledStatement, convertedLoopState && resetLabel) ]), ts.createCatchClause(ts.createVariableDeclaration(catchVariable), ts.setEmitFlags(ts.createBlock([ ts.createExpressionStatement(ts.createAssignment(errorRecord, ts.createObjectLiteral([ ts.createPropertyAssignment("error", catchVariable) ]))) ]), 1 /* SingleLine */)), ts.createBlock([ ts.createTry( /*tryBlock*/ ts.createBlock([ ts.setEmitFlags(ts.createIf(ts.createLogicalAnd(ts.createLogicalAnd(result, ts.createLogicalNot(ts.createPropertyAccess(result, "done"))), ts.createAssignment(returnMethod, ts.createPropertyAccess(iterator, "return"))), ts.createExpressionStatement(ts.createFunctionCall(returnMethod, iterator, []))), 1 /* SingleLine */), ]), /*catchClause*/ undefined, /*finallyBlock*/ ts.setEmitFlags(ts.createBlock([ ts.setEmitFlags(ts.createIf(errorRecord, ts.createThrow(ts.createPropertyAccess(errorRecord, "error"))), 1 /* SingleLine */) ]), 1 /* SingleLine */)) ])); } /** * Visits an ObjectLiteralExpression with computed property names. * * @param node An ObjectLiteralExpression node. */ function visitObjectLiteralExpression(node) { // We are here because a ComputedPropertyName was used somewhere in the expression. var properties = node.properties; var numProperties = properties.length; // Find the first computed property. // Everything until that point can be emitted as part of the initial object literal. var numInitialProperties = numProperties; var numInitialPropertiesWithoutYield = numProperties; for (var i = 0; i < numProperties; i++) { var property = properties[i]; if ((property.transformFlags & 262144 /* ContainsYield */ && hierarchyFacts & 4 /* AsyncFunctionBody */) && i < numInitialPropertiesWithoutYield) { numInitialPropertiesWithoutYield = i; } if (property.name.kind === 154 /* ComputedPropertyName */) { numInitialProperties = i; break; } } if (numInitialProperties !== numProperties) { if (numInitialPropertiesWithoutYield < numInitialProperties) { numInitialProperties = numInitialPropertiesWithoutYield; } // For computed properties, we need to create a unique handle to the object // literal so we can modify it without risking internal assignments tainting the object. var temp = ts.createTempVariable(hoistVariableDeclaration); // Write out the first non-computed properties, then emit the rest through indexing on the temp variable. var expressions = []; var assignment = ts.createAssignment(temp, ts.setEmitFlags(ts.createObjectLiteral(ts.visitNodes(properties, visitor, ts.isObjectLiteralElementLike, 0, numInitialProperties), node.multiLine), 65536 /* Indented */)); if (node.multiLine) { ts.startOnNewLine(assignment); } expressions.push(assignment); addObjectLiteralMembers(expressions, node, temp, numInitialProperties); // We need to clone the temporary identifier so that we can write it on a // new line expressions.push(node.multiLine ? ts.startOnNewLine(ts.getMutableClone(temp)) : temp); return ts.inlineExpressions(expressions); } return ts.visitEachChild(node, visitor, context); } function shouldConvertPartOfIterationStatement(node) { return (resolver.getNodeCheckFlags(node) & 131072 /* ContainsCapturedBlockScopeBinding */) !== 0; } function shouldConvertInitializerOfForStatement(node) { return ts.isForStatement(node) && !!node.initializer && shouldConvertPartOfIterationStatement(node.initializer); } function shouldConvertConditionOfForStatement(node) { return ts.isForStatement(node) && !!node.condition && shouldConvertPartOfIterationStatement(node.condition); } function shouldConvertIncrementorOfForStatement(node) { return ts.isForStatement(node) && !!node.incrementor && shouldConvertPartOfIterationStatement(node.incrementor); } function shouldConvertIterationStatement(node) { return shouldConvertBodyOfIterationStatement(node) || shouldConvertInitializerOfForStatement(node); } function shouldConvertBodyOfIterationStatement(node) { return (resolver.getNodeCheckFlags(node) & 65536 /* LoopWithCapturedBlockScopedBinding */) !== 0; } /** * Records constituents of name for the given variable to be hoisted in the outer scope. */ function hoistVariableDeclarationDeclaredInConvertedLoop(state, node) { if (!state.hoistedLocalVariables) { state.hoistedLocalVariables = []; } visit(node.name); function visit(node) { if (node.kind === 75 /* Identifier */) { state.hoistedLocalVariables.push(node); } else { for (var _i = 0, _a = node.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { visit(element.name); } } } } } function convertIterationStatementBodyIfNecessary(node, outermostLabeledStatement, ancestorFacts, convert) { if (!shouldConvertIterationStatement(node)) { var saveAllowedNonLabeledJumps = void 0; if (convertedLoopState) { // we get here if we are trying to emit normal loop loop inside converted loop // set allowedNonLabeledJumps to Break | Continue to mark that break\continue inside the loop should be emitted as is saveAllowedNonLabeledJumps = convertedLoopState.allowedNonLabeledJumps; convertedLoopState.allowedNonLabeledJumps = 2 /* Break */ | 4 /* Continue */; } var result = convert ? convert(node, outermostLabeledStatement, /*convertedLoopBodyStatements*/ undefined, ancestorFacts) : ts.restoreEnclosingLabel(ts.visitEachChild(node, visitor, context), outermostLabeledStatement, convertedLoopState && resetLabel); if (convertedLoopState) { convertedLoopState.allowedNonLabeledJumps = saveAllowedNonLabeledJumps; } return result; } var currentState = createConvertedLoopState(node); var statements = []; var outerConvertedLoopState = convertedLoopState; convertedLoopState = currentState; var initializerFunction = shouldConvertInitializerOfForStatement(node) ? createFunctionForInitializerOfForStatement(node, currentState) : undefined; var bodyFunction = shouldConvertBodyOfIterationStatement(node) ? createFunctionForBodyOfIterationStatement(node, currentState, outerConvertedLoopState) : undefined; convertedLoopState = outerConvertedLoopState; if (initializerFunction) statements.push(initializerFunction.functionDeclaration); if (bodyFunction) statements.push(bodyFunction.functionDeclaration); addExtraDeclarationsForConvertedLoop(statements, currentState, outerConvertedLoopState); if (initializerFunction) { statements.push(generateCallToConvertedLoopInitializer(initializerFunction.functionName, initializerFunction.containsYield)); } var loop; if (bodyFunction) { if (convert) { loop = convert(node, outermostLabeledStatement, bodyFunction.part, ancestorFacts); } else { var clone_4 = convertIterationStatementCore(node, initializerFunction, ts.createBlock(bodyFunction.part, /*multiLine*/ true)); ts.aggregateTransformFlags(clone_4); loop = ts.restoreEnclosingLabel(clone_4, outermostLabeledStatement, convertedLoopState && resetLabel); } } else { var clone_5 = convertIterationStatementCore(node, initializerFunction, ts.visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); ts.aggregateTransformFlags(clone_5); loop = ts.restoreEnclosingLabel(clone_5, outermostLabeledStatement, convertedLoopState && resetLabel); } statements.push(loop); return statements; } function convertIterationStatementCore(node, initializerFunction, convertedLoopBody) { switch (node.kind) { case 230 /* ForStatement */: return convertForStatement(node, initializerFunction, convertedLoopBody); case 231 /* ForInStatement */: return convertForInStatement(node, convertedLoopBody); case 232 /* ForOfStatement */: return convertForOfStatement(node, convertedLoopBody); case 228 /* DoStatement */: return convertDoStatement(node, convertedLoopBody); case 229 /* WhileStatement */: return convertWhileStatement(node, convertedLoopBody); default: return ts.Debug.failBadSyntaxKind(node, "IterationStatement expected"); } } function convertForStatement(node, initializerFunction, convertedLoopBody) { var shouldConvertCondition = node.condition && shouldConvertPartOfIterationStatement(node.condition); var shouldConvertIncrementor = shouldConvertCondition || node.incrementor && shouldConvertPartOfIterationStatement(node.incrementor); return ts.updateFor(node, ts.visitNode(initializerFunction ? initializerFunction.part : node.initializer, visitor, ts.isForInitializer), ts.visitNode(shouldConvertCondition ? undefined : node.condition, visitor, ts.isExpression), ts.visitNode(shouldConvertIncrementor ? undefined : node.incrementor, visitor, ts.isExpression), convertedLoopBody); } function convertForOfStatement(node, convertedLoopBody) { return ts.updateForOf(node, /*awaitModifier*/ undefined, ts.visitNode(node.initializer, visitor, ts.isForInitializer), ts.visitNode(node.expression, visitor, ts.isExpression), convertedLoopBody); } function convertForInStatement(node, convertedLoopBody) { return ts.updateForIn(node, ts.visitNode(node.initializer, visitor, ts.isForInitializer), ts.visitNode(node.expression, visitor, ts.isExpression), convertedLoopBody); } function convertDoStatement(node, convertedLoopBody) { return ts.updateDo(node, convertedLoopBody, ts.visitNode(node.expression, visitor, ts.isExpression)); } function convertWhileStatement(node, convertedLoopBody) { return ts.updateWhile(node, ts.visitNode(node.expression, visitor, ts.isExpression), convertedLoopBody); } function createConvertedLoopState(node) { var loopInitializer; switch (node.kind) { case 230 /* ForStatement */: case 231 /* ForInStatement */: case 232 /* ForOfStatement */: var initializer = node.initializer; if (initializer && initializer.kind === 243 /* VariableDeclarationList */) { loopInitializer = initializer; } break; } // variables that will be passed to the loop as parameters var loopParameters = []; // variables declared in the loop initializer that will be changed inside the loop var loopOutParameters = []; if (loopInitializer && (ts.getCombinedNodeFlags(loopInitializer) & 3 /* BlockScoped */)) { var hasCapturedBindingsInForInitializer = shouldConvertInitializerOfForStatement(node); for (var _i = 0, _a = loopInitializer.declarations; _i < _a.length; _i++) { var decl = _a[_i]; processLoopVariableDeclaration(node, decl, loopParameters, loopOutParameters, hasCapturedBindingsInForInitializer); } } var currentState = { loopParameters: loopParameters, loopOutParameters: loopOutParameters }; if (convertedLoopState) { // convertedOuterLoopState !== undefined means that this converted loop is nested in another converted loop. // if outer converted loop has already accumulated some state - pass it through if (convertedLoopState.argumentsName) { // outer loop has already used 'arguments' so we've already have some name to alias it // use the same name in all nested loops currentState.argumentsName = convertedLoopState.argumentsName; } if (convertedLoopState.thisName) { // outer loop has already used 'this' so we've already have some name to alias it // use the same name in all nested loops currentState.thisName = convertedLoopState.thisName; } if (convertedLoopState.hoistedLocalVariables) { // we've already collected some non-block scoped variable declarations in enclosing loop // use the same storage in nested loop currentState.hoistedLocalVariables = convertedLoopState.hoistedLocalVariables; } } return currentState; } function addExtraDeclarationsForConvertedLoop(statements, state, outerState) { var extraVariableDeclarations; // propagate state from the inner loop to the outer loop if necessary if (state.argumentsName) { // if alias for arguments is set if (outerState) { // pass it to outer converted loop outerState.argumentsName = state.argumentsName; } else { // this is top level converted loop and we need to create an alias for 'arguments' object (extraVariableDeclarations || (extraVariableDeclarations = [])).push(ts.createVariableDeclaration(state.argumentsName, /*type*/ undefined, ts.createIdentifier("arguments"))); } } if (state.thisName) { // if alias for this is set if (outerState) { // pass it to outer converted loop outerState.thisName = state.thisName; } else { // this is top level converted loop so we need to create an alias for 'this' here // NOTE: // if converted loops were all nested in arrow function then we'll always emit '_this' so convertedLoopState.thisName will not be set. // If it is set this means that all nested loops are not nested in arrow function and it is safe to capture 'this'. (extraVariableDeclarations || (extraVariableDeclarations = [])).push(ts.createVariableDeclaration(state.thisName, /*type*/ undefined, ts.createIdentifier("this"))); } } if (state.hoistedLocalVariables) { // if hoistedLocalVariables !== undefined this means that we've possibly collected some variable declarations to be hoisted later if (outerState) { // pass them to outer converted loop outerState.hoistedLocalVariables = state.hoistedLocalVariables; } else { if (!extraVariableDeclarations) { extraVariableDeclarations = []; } // hoist collected variable declarations for (var _i = 0, _a = state.hoistedLocalVariables; _i < _a.length; _i++) { var identifier = _a[_i]; extraVariableDeclarations.push(ts.createVariableDeclaration(identifier)); } } } // add extra variables to hold out parameters if necessary if (state.loopOutParameters.length) { if (!extraVariableDeclarations) { extraVariableDeclarations = []; } for (var _b = 0, _c = state.loopOutParameters; _b < _c.length; _b++) { var outParam = _c[_b]; extraVariableDeclarations.push(ts.createVariableDeclaration(outParam.outParamName)); } } if (state.conditionVariable) { if (!extraVariableDeclarations) { extraVariableDeclarations = []; } extraVariableDeclarations.push(ts.createVariableDeclaration(state.conditionVariable, /*type*/ undefined, ts.createFalse())); } // create variable statement to hold all introduced variable declarations if (extraVariableDeclarations) { statements.push(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList(extraVariableDeclarations))); } } function createOutVariable(p) { return ts.createVariableDeclaration(p.originalName, /*type*/ undefined, p.outParamName); } /** * Creates a `_loop_init` function for a `ForStatement` with a block-scoped initializer * that is captured in a closure inside of the initializer. The `_loop_init` function is * used to preserve the per-iteration environment semantics of * [13.7.4.8 RS: ForBodyEvaluation](https://tc39.github.io/ecma262/#sec-forbodyevaluation). */ function createFunctionForInitializerOfForStatement(node, currentState) { var functionName = ts.createUniqueName("_loop_init"); var containsYield = (node.initializer.transformFlags & 262144 /* ContainsYield */) !== 0; var emitFlags = 0 /* None */; if (currentState.containsLexicalThis) emitFlags |= 8 /* CapturesThis */; if (containsYield && hierarchyFacts & 4 /* AsyncFunctionBody */) emitFlags |= 262144 /* AsyncFunctionBody */; var statements = []; statements.push(ts.createVariableStatement(/*modifiers*/ undefined, node.initializer)); copyOutParameters(currentState.loopOutParameters, 2 /* Initializer */, 1 /* ToOutParameter */, statements); // This transforms the following ES2015 syntax: // // for (let i = (setImmediate(() => console.log(i)), 0); i < 2; i++) { // // loop body // } // // Into the following ES5 syntax: // // var _loop_init_1 = function () { // var i = (setImmediate(() => console.log(i)), 0); // out_i_1 = i; // }; // var out_i_1; // _loop_init_1(); // for (var i = out_i_1; i < 2; i++) { // // loop body // } // // Which prevents mutations to `i` in the per-iteration environment of the body // from affecting the initial value for `i` outside of the per-iteration environment. var functionDeclaration = ts.createVariableStatement( /*modifiers*/ undefined, ts.setEmitFlags(ts.createVariableDeclarationList([ ts.createVariableDeclaration(functionName, /*type*/ undefined, ts.setEmitFlags(ts.createFunctionExpression( /*modifiers*/ undefined, containsYield ? ts.createToken(41 /* AsteriskToken */) : undefined, /*name*/ undefined, /*typeParameters*/ undefined, /*parameters*/ undefined, /*type*/ undefined, ts.visitNode(ts.createBlock(statements, /*multiLine*/ true), visitor, ts.isBlock)), emitFlags)) ]), 2097152 /* NoHoisting */)); var part = ts.createVariableDeclarationList(ts.map(currentState.loopOutParameters, createOutVariable)); return { functionName: functionName, containsYield: containsYield, functionDeclaration: functionDeclaration, part: part }; } /** * Creates a `_loop` function for an `IterationStatement` with a block-scoped initializer * that is captured in a closure inside of the loop body. The `_loop` function is used to * preserve the per-iteration environment semantics of * [13.7.4.8 RS: ForBodyEvaluation](https://tc39.github.io/ecma262/#sec-forbodyevaluation). */ function createFunctionForBodyOfIterationStatement(node, currentState, outerState) { var functionName = ts.createUniqueName("_loop"); startLexicalEnvironment(); var statement = ts.visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock); var lexicalEnvironment = endLexicalEnvironment(); var statements = []; if (shouldConvertConditionOfForStatement(node) || shouldConvertIncrementorOfForStatement(node)) { // If a block-scoped variable declared in the initializer of `node` is captured in // the condition or incrementor, we must move the condition and incrementor into // the body of the for loop. // // This transforms the following ES2015 syntax: // // for (let i = 0; setImmediate(() => console.log(i)), i < 2; setImmediate(() => console.log(i)), i++) { // // loop body // } // // Into the following ES5 syntax: // // var _loop_1 = function (i) { // if (inc_1) // setImmediate(() => console.log(i)), i++; // else // inc_1 = true; // if (!(setImmediate(() => console.log(i)), i < 2)) // return out_i_1 = i, "break"; // // loop body // out_i_1 = i; // } // var out_i_1, inc_1 = false; // for (var i = 0;;) { // var state_1 = _loop_1(i); // i = out_i_1; // if (state_1 === "break") // break; // } // // Which prevents mutations to `i` in the per-iteration environment of the body // from affecting the value of `i` in the previous per-iteration environment. // // Note that the incrementor of a `for` loop is evaluated in a *new* per-iteration // environment that is carried over to the next iteration of the loop. As a result, // we must indicate whether this is the first evaluation of the loop body so that // we only evaluate the incrementor on subsequent evaluations. currentState.conditionVariable = ts.createUniqueName("inc"); statements.push(ts.createIf(currentState.conditionVariable, ts.createStatement(ts.visitNode(node.incrementor, visitor, ts.isExpression)), ts.createStatement(ts.createAssignment(currentState.conditionVariable, ts.createTrue())))); if (shouldConvertConditionOfForStatement(node)) { statements.push(ts.createIf(ts.createPrefix(53 /* ExclamationToken */, ts.visitNode(node.condition, visitor, ts.isExpression)), ts.visitNode(ts.createBreak(), visitor, ts.isStatement))); } } if (ts.isBlock(statement)) { ts.addRange(statements, statement.statements); } else { statements.push(statement); } copyOutParameters(currentState.loopOutParameters, 1 /* Body */, 1 /* ToOutParameter */, statements); ts.insertStatementsAfterStandardPrologue(statements, lexicalEnvironment); var loopBody = ts.createBlock(statements, /*multiLine*/ true); if (ts.isBlock(statement)) ts.setOriginalNode(loopBody, statement); var containsYield = (node.statement.transformFlags & 262144 /* ContainsYield */) !== 0; var emitFlags = 0; if (currentState.containsLexicalThis) emitFlags |= 8 /* CapturesThis */; if (containsYield && (hierarchyFacts & 4 /* AsyncFunctionBody */) !== 0) emitFlags |= 262144 /* AsyncFunctionBody */; // This transforms the following ES2015 syntax (in addition to other variations): // // for (let i = 0; i < 2; i++) { // setImmediate(() => console.log(i)); // } // // Into the following ES5 syntax: // // var _loop_1 = function (i) { // setImmediate(() => console.log(i)); // }; // for (var i = 0; i < 2; i++) { // _loop_1(i); // } var functionDeclaration = ts.createVariableStatement( /*modifiers*/ undefined, ts.setEmitFlags(ts.createVariableDeclarationList([ ts.createVariableDeclaration(functionName, /*type*/ undefined, ts.setEmitFlags(ts.createFunctionExpression( /*modifiers*/ undefined, containsYield ? ts.createToken(41 /* AsteriskToken */) : undefined, /*name*/ undefined, /*typeParameters*/ undefined, currentState.loopParameters, /*type*/ undefined, loopBody), emitFlags)) ]), 2097152 /* NoHoisting */)); var part = generateCallToConvertedLoop(functionName, currentState, outerState, containsYield); return { functionName: functionName, containsYield: containsYield, functionDeclaration: functionDeclaration, part: part }; } function copyOutParameter(outParam, copyDirection) { var source = copyDirection === 0 /* ToOriginal */ ? outParam.outParamName : outParam.originalName; var target = copyDirection === 0 /* ToOriginal */ ? outParam.originalName : outParam.outParamName; return ts.createBinary(target, 62 /* EqualsToken */, source); } function copyOutParameters(outParams, partFlags, copyDirection, statements) { for (var _i = 0, outParams_1 = outParams; _i < outParams_1.length; _i++) { var outParam = outParams_1[_i]; if (outParam.flags & partFlags) { statements.push(ts.createExpressionStatement(copyOutParameter(outParam, copyDirection))); } } } function generateCallToConvertedLoopInitializer(initFunctionExpressionName, containsYield) { var call = ts.createCall(initFunctionExpressionName, /*typeArguments*/ undefined, []); var callResult = containsYield ? ts.createYield(ts.createToken(41 /* AsteriskToken */), ts.setEmitFlags(call, 8388608 /* Iterator */)) : call; return ts.createStatement(callResult); } function generateCallToConvertedLoop(loopFunctionExpressionName, state, outerState, containsYield) { var statements = []; // loop is considered simple if it does not have any return statements or break\continue that transfer control outside of the loop // simple loops are emitted as just 'loop()'; // NOTE: if loop uses only 'continue' it still will be emitted as simple loop var isSimpleLoop = !(state.nonLocalJumps & ~4 /* Continue */) && !state.labeledNonLocalBreaks && !state.labeledNonLocalContinues; var call = ts.createCall(loopFunctionExpressionName, /*typeArguments*/ undefined, ts.map(state.loopParameters, function (p) { return p.name; })); var callResult = containsYield ? ts.createYield(ts.createToken(41 /* AsteriskToken */), ts.setEmitFlags(call, 8388608 /* Iterator */)) : call; if (isSimpleLoop) { statements.push(ts.createExpressionStatement(callResult)); copyOutParameters(state.loopOutParameters, 1 /* Body */, 0 /* ToOriginal */, statements); } else { var loopResultName = ts.createUniqueName("state"); var stateVariable = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ts.createVariableDeclaration(loopResultName, /*type*/ undefined, callResult)])); statements.push(stateVariable); copyOutParameters(state.loopOutParameters, 1 /* Body */, 0 /* ToOriginal */, statements); if (state.nonLocalJumps & 8 /* Return */) { var returnStatement = void 0; if (outerState) { outerState.nonLocalJumps |= 8 /* Return */; returnStatement = ts.createReturn(loopResultName); } else { returnStatement = ts.createReturn(ts.createPropertyAccess(loopResultName, "value")); } statements.push(ts.createIf(ts.createBinary(ts.createTypeOf(loopResultName), 36 /* EqualsEqualsEqualsToken */, ts.createLiteral("object")), returnStatement)); } if (state.nonLocalJumps & 2 /* Break */) { statements.push(ts.createIf(ts.createBinary(loopResultName, 36 /* EqualsEqualsEqualsToken */, ts.createLiteral("break")), ts.createBreak())); } if (state.labeledNonLocalBreaks || state.labeledNonLocalContinues) { var caseClauses = []; processLabeledJumps(state.labeledNonLocalBreaks, /*isBreak*/ true, loopResultName, outerState, caseClauses); processLabeledJumps(state.labeledNonLocalContinues, /*isBreak*/ false, loopResultName, outerState, caseClauses); statements.push(ts.createSwitch(loopResultName, ts.createCaseBlock(caseClauses))); } } return statements; } function setLabeledJump(state, isBreak, labelText, labelMarker) { if (isBreak) { if (!state.labeledNonLocalBreaks) { state.labeledNonLocalBreaks = ts.createMap(); } state.labeledNonLocalBreaks.set(labelText, labelMarker); } else { if (!state.labeledNonLocalContinues) { state.labeledNonLocalContinues = ts.createMap(); } state.labeledNonLocalContinues.set(labelText, labelMarker); } } function processLabeledJumps(table, isBreak, loopResultName, outerLoop, caseClauses) { if (!table) { return; } table.forEach(function (labelMarker, labelText) { var statements = []; // if there are no outer converted loop or outer label in question is located inside outer converted loop // then emit labeled break\continue // otherwise propagate pair 'label -> marker' to outer converted loop and emit 'return labelMarker' so outer loop can later decide what to do if (!outerLoop || (outerLoop.labels && outerLoop.labels.get(labelText))) { var label = ts.createIdentifier(labelText); statements.push(isBreak ? ts.createBreak(label) : ts.createContinue(label)); } else { setLabeledJump(outerLoop, isBreak, labelText, labelMarker); statements.push(ts.createReturn(loopResultName)); } caseClauses.push(ts.createCaseClause(ts.createLiteral(labelMarker), statements)); }); } function processLoopVariableDeclaration(container, decl, loopParameters, loopOutParameters, hasCapturedBindingsInForInitializer) { var name = decl.name; if (ts.isBindingPattern(name)) { for (var _i = 0, _a = name.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { processLoopVariableDeclaration(container, element, loopParameters, loopOutParameters, hasCapturedBindingsInForInitializer); } } } else { loopParameters.push(ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, name)); var checkFlags = resolver.getNodeCheckFlags(decl); if (checkFlags & 4194304 /* NeedsLoopOutParameter */ || hasCapturedBindingsInForInitializer) { var outParamName = ts.createUniqueName("out_" + ts.idText(name)); var flags = 0; if (checkFlags & 4194304 /* NeedsLoopOutParameter */) { flags |= 1 /* Body */; } if (ts.isForStatement(container) && container.initializer && resolver.isBindingCapturedByNode(container.initializer, decl)) { flags |= 2 /* Initializer */; } loopOutParameters.push({ flags: flags, originalName: name, outParamName: outParamName }); } } } /** * Adds the members of an object literal to an array of expressions. * * @param expressions An array of expressions. * @param node An ObjectLiteralExpression node. * @param receiver The receiver for members of the ObjectLiteralExpression. * @param numInitialNonComputedProperties The number of initial properties without * computed property names. */ function addObjectLiteralMembers(expressions, node, receiver, start) { var properties = node.properties; var numProperties = properties.length; for (var i = start; i < numProperties; i++) { var property = properties[i]; switch (property.kind) { case 163 /* GetAccessor */: case 164 /* SetAccessor */: var accessors = ts.getAllAccessorDeclarations(node.properties, property); if (property === accessors.firstAccessor) { expressions.push(transformAccessorsToExpression(receiver, accessors, node, !!node.multiLine)); } break; case 161 /* MethodDeclaration */: expressions.push(transformObjectLiteralMethodDeclarationToExpression(property, receiver, node, node.multiLine)); break; case 281 /* PropertyAssignment */: expressions.push(transformPropertyAssignmentToExpression(property, receiver, node.multiLine)); break; case 282 /* ShorthandPropertyAssignment */: expressions.push(transformShorthandPropertyAssignmentToExpression(property, receiver, node.multiLine)); break; default: ts.Debug.failBadSyntaxKind(node); break; } } } /** * Transforms a PropertyAssignment node into an expression. * * @param node The ObjectLiteralExpression that contains the PropertyAssignment. * @param property The PropertyAssignment node. * @param receiver The receiver for the assignment. */ function transformPropertyAssignmentToExpression(property, receiver, startsOnNewLine) { var expression = ts.createAssignment(ts.createMemberAccessForPropertyName(receiver, ts.visitNode(property.name, visitor, ts.isPropertyName)), ts.visitNode(property.initializer, visitor, ts.isExpression)); ts.setTextRange(expression, property); if (startsOnNewLine) { ts.startOnNewLine(expression); } return expression; } /** * Transforms a ShorthandPropertyAssignment node into an expression. * * @param node The ObjectLiteralExpression that contains the ShorthandPropertyAssignment. * @param property The ShorthandPropertyAssignment node. * @param receiver The receiver for the assignment. */ function transformShorthandPropertyAssignmentToExpression(property, receiver, startsOnNewLine) { var expression = ts.createAssignment(ts.createMemberAccessForPropertyName(receiver, ts.visitNode(property.name, visitor, ts.isPropertyName)), ts.getSynthesizedClone(property.name)); ts.setTextRange(expression, property); if (startsOnNewLine) { ts.startOnNewLine(expression); } return expression; } /** * Transforms a MethodDeclaration of an ObjectLiteralExpression into an expression. * * @param node The ObjectLiteralExpression that contains the MethodDeclaration. * @param method The MethodDeclaration node. * @param receiver The receiver for the assignment. */ function transformObjectLiteralMethodDeclarationToExpression(method, receiver, container, startsOnNewLine) { var expression = ts.createAssignment(ts.createMemberAccessForPropertyName(receiver, ts.visitNode(method.name, visitor, ts.isPropertyName)), transformFunctionLikeToExpression(method, /*location*/ method, /*name*/ undefined, container)); ts.setTextRange(expression, method); if (startsOnNewLine) { ts.startOnNewLine(expression); } return expression; } function visitCatchClause(node) { var ancestorFacts = enterSubtree(7104 /* BlockScopeExcludes */, 0 /* BlockScopeIncludes */); var updated; ts.Debug.assert(!!node.variableDeclaration, "Catch clause variable should always be present when downleveling ES2015."); if (ts.isBindingPattern(node.variableDeclaration.name)) { var temp = ts.createTempVariable(/*recordTempVariable*/ undefined); var newVariableDeclaration = ts.createVariableDeclaration(temp); ts.setTextRange(newVariableDeclaration, node.variableDeclaration); var vars = ts.flattenDestructuringBinding(node.variableDeclaration, visitor, context, 0 /* All */, temp); var list = ts.createVariableDeclarationList(vars); ts.setTextRange(list, node.variableDeclaration); var destructure = ts.createVariableStatement(/*modifiers*/ undefined, list); updated = ts.updateCatchClause(node, newVariableDeclaration, addStatementToStartOfBlock(node.block, destructure)); } else { updated = ts.visitEachChild(node, visitor, context); } exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return updated; } function addStatementToStartOfBlock(block, statement) { var transformedStatements = ts.visitNodes(block.statements, visitor, ts.isStatement); return ts.updateBlock(block, __spreadArrays([statement], transformedStatements)); } /** * Visits a MethodDeclaration of an ObjectLiteralExpression and transforms it into a * PropertyAssignment. * * @param node A MethodDeclaration node. */ function visitMethodDeclaration(node) { // We should only get here for methods on an object literal with regular identifier names. // Methods on classes are handled in visitClassDeclaration/visitClassExpression. // Methods with computed property names are handled in visitObjectLiteralExpression. ts.Debug.assert(!ts.isComputedPropertyName(node.name)); var functionExpression = transformFunctionLikeToExpression(node, /*location*/ ts.moveRangePos(node, -1), /*name*/ undefined, /*container*/ undefined); ts.setEmitFlags(functionExpression, 512 /* NoLeadingComments */ | ts.getEmitFlags(functionExpression)); return ts.setTextRange(ts.createPropertyAssignment(node.name, functionExpression), /*location*/ node); } /** * Visits an AccessorDeclaration of an ObjectLiteralExpression. * * @param node An AccessorDeclaration node. */ function visitAccessorDeclaration(node) { ts.Debug.assert(!ts.isComputedPropertyName(node.name)); var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var ancestorFacts = enterSubtree(16286 /* FunctionExcludes */, 65 /* FunctionIncludes */); var updated; var parameters = ts.visitParameterList(node.parameters, visitor, context); var body = transformFunctionBody(node); if (node.kind === 163 /* GetAccessor */) { updated = ts.updateGetAccessor(node, node.decorators, node.modifiers, node.name, parameters, node.type, body); } else { updated = ts.updateSetAccessor(node, node.decorators, node.modifiers, node.name, parameters, body); } exitSubtree(ancestorFacts, 49152 /* FunctionSubtreeExcludes */, 0 /* None */); convertedLoopState = savedConvertedLoopState; return updated; } /** * Visits a ShorthandPropertyAssignment and transforms it into a PropertyAssignment. * * @param node A ShorthandPropertyAssignment node. */ function visitShorthandPropertyAssignment(node) { return ts.setTextRange(ts.createPropertyAssignment(node.name, ts.getSynthesizedClone(node.name)), /*location*/ node); } function visitComputedPropertyName(node) { return ts.visitEachChild(node, visitor, context); } /** * Visits a YieldExpression node. * * @param node A YieldExpression node. */ function visitYieldExpression(node) { // `yield` expressions are transformed using the generators transformer. return ts.visitEachChild(node, visitor, context); } /** * Visits an ArrayLiteralExpression that contains a spread element. * * @param node An ArrayLiteralExpression node. */ function visitArrayLiteralExpression(node) { if (ts.some(node.elements, ts.isSpreadElement)) { // We are here because we contain a SpreadElementExpression. return transformAndSpreadElements(node.elements, /*needsUniqueCopy*/ true, !!node.multiLine, /*hasTrailingComma*/ !!node.elements.hasTrailingComma); } return ts.visitEachChild(node, visitor, context); } /** * Visits a CallExpression that contains either a spread element or `super`. * * @param node a CallExpression. */ function visitCallExpression(node) { if (ts.getEmitFlags(node) & 33554432 /* TypeScriptClassWrapper */) { return visitTypeScriptClassWrapper(node); } var expression = ts.skipOuterExpressions(node.expression); if (expression.kind === 102 /* SuperKeyword */ || ts.isSuperProperty(expression) || ts.some(node.arguments, ts.isSpreadElement)) { return visitCallExpressionWithPotentialCapturedThisAssignment(node, /*assignToCapturedThis*/ true); } return ts.updateCall(node, ts.visitNode(node.expression, callExpressionVisitor, ts.isExpression), /*typeArguments*/ undefined, ts.visitNodes(node.arguments, visitor, ts.isExpression)); } function visitTypeScriptClassWrapper(node) { // This is a call to a class wrapper function (an IIFE) created by the 'ts' transformer. // The wrapper has a form similar to: // // (function() { // class C { // 1 // } // C.x = 1; // 2 // return C; // }()) // // When we transform the class, we end up with something like this: // // (function () { // var C = (function () { // 3 // function C() { // } // return C; // 4 // }()); // C.x = 1; // return C; // }()) // // We want to simplify the two nested IIFEs to end up with something like this: // // (function () { // function C() { // } // C.x = 1; // return C; // }()) // We skip any outer expressions in a number of places to get to the innermost // expression, but we will restore them later to preserve comments and source maps. var body = ts.cast(ts.cast(ts.skipOuterExpressions(node.expression), ts.isArrowFunction).body, ts.isBlock); // The class statements are the statements generated by visiting the first statement with initializer of the // body (1), while all other statements are added to remainingStatements (2) var isVariableStatementWithInitializer = function (stmt) { return ts.isVariableStatement(stmt) && !!ts.first(stmt.declarationList.declarations).initializer; }; // visit the class body statements outside of any converted loop body. var savedConvertedLoopState = convertedLoopState; convertedLoopState = undefined; var bodyStatements = ts.visitNodes(body.statements, visitor, ts.isStatement); convertedLoopState = savedConvertedLoopState; var classStatements = ts.filter(bodyStatements, isVariableStatementWithInitializer); var remainingStatements = ts.filter(bodyStatements, function (stmt) { return !isVariableStatementWithInitializer(stmt); }); var varStatement = ts.cast(ts.first(classStatements), ts.isVariableStatement); // We know there is only one variable declaration here as we verified this in an // earlier call to isTypeScriptClassWrapper var variable = varStatement.declarationList.declarations[0]; var initializer = ts.skipOuterExpressions(variable.initializer); // Under certain conditions, the 'ts' transformer may introduce a class alias, which // we see as an assignment, for example: // // (function () { // var C_1; // var C = C_1 = (function () { // function C() { // } // C.x = function () { return C_1; } // return C; // }()); // C = C_1 = __decorate([dec], C); // return C; // }()) // var aliasAssignment = ts.tryCast(initializer, ts.isAssignmentExpression); // The underlying call (3) is another IIFE that may contain a '_super' argument. var call = ts.cast(aliasAssignment ? ts.skipOuterExpressions(aliasAssignment.right) : initializer, ts.isCallExpression); var func = ts.cast(ts.skipOuterExpressions(call.expression), ts.isFunctionExpression); var funcStatements = func.body.statements; var classBodyStart = 0; var classBodyEnd = -1; var statements = []; if (aliasAssignment) { // If we have a class alias assignment, we need to move it to the down-level constructor // function we generated for the class. var extendsCall = ts.tryCast(funcStatements[classBodyStart], ts.isExpressionStatement); if (extendsCall) { statements.push(extendsCall); classBodyStart++; } // The next statement is the function declaration. statements.push(funcStatements[classBodyStart]); classBodyStart++; // Add the class alias following the declaration. statements.push(ts.createExpressionStatement(ts.createAssignment(aliasAssignment.left, ts.cast(variable.name, ts.isIdentifier)))); } // Find the trailing 'return' statement (4) while (!ts.isReturnStatement(ts.elementAt(funcStatements, classBodyEnd))) { classBodyEnd--; } // When we extract the statements of the inner IIFE, we exclude the 'return' statement (4) // as we already have one that has been introduced by the 'ts' transformer. ts.addRange(statements, funcStatements, classBodyStart, classBodyEnd); if (classBodyEnd < -1) { // If there were any hoisted declarations following the return statement, we should // append them. ts.addRange(statements, funcStatements, classBodyEnd + 1); } // Add the remaining statements of the outer wrapper. ts.addRange(statements, remainingStatements); // The 'es2015' class transform may add an end-of-declaration marker. If so we will add it // after the remaining statements from the 'ts' transformer. ts.addRange(statements, classStatements, /*start*/ 1); // Recreate any outer parentheses or partially-emitted expressions to preserve source map // and comment locations. return ts.recreateOuterExpressions(node.expression, ts.recreateOuterExpressions(variable.initializer, ts.recreateOuterExpressions(aliasAssignment && aliasAssignment.right, ts.updateCall(call, ts.recreateOuterExpressions(call.expression, ts.updateFunctionExpression(func, /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, func.parameters, /*type*/ undefined, ts.updateBlock(func.body, statements))), /*typeArguments*/ undefined, call.arguments)))); } function visitImmediateSuperCallInBody(node) { return visitCallExpressionWithPotentialCapturedThisAssignment(node, /*assignToCapturedThis*/ false); } function visitCallExpressionWithPotentialCapturedThisAssignment(node, assignToCapturedThis) { // We are here either because SuperKeyword was used somewhere in the expression, or // because we contain a SpreadElementExpression. if (node.transformFlags & 8192 /* ContainsRestOrSpread */ || node.expression.kind === 102 /* SuperKeyword */ || ts.isSuperProperty(ts.skipOuterExpressions(node.expression))) { var _a = ts.createCallBinding(node.expression, hoistVariableDeclaration), target = _a.target, thisArg = _a.thisArg; if (node.expression.kind === 102 /* SuperKeyword */) { ts.setEmitFlags(thisArg, 4 /* NoSubstitution */); } var resultingCall = void 0; if (node.transformFlags & 8192 /* ContainsRestOrSpread */) { // [source] // f(...a, b) // x.m(...a, b) // super(...a, b) // super.m(...a, b) // in static // super.m(...a, b) // in instance // // [output] // f.apply(void 0, a.concat([b])) // (_a = x).m.apply(_a, a.concat([b])) // _super.apply(this, a.concat([b])) // _super.m.apply(this, a.concat([b])) // _super.prototype.m.apply(this, a.concat([b])) resultingCall = ts.createFunctionApply(ts.visitNode(target, callExpressionVisitor, ts.isExpression), node.expression.kind === 102 /* SuperKeyword */ ? thisArg : ts.visitNode(thisArg, visitor, ts.isExpression), transformAndSpreadElements(node.arguments, /*needsUniqueCopy*/ false, /*multiLine*/ false, /*hasTrailingComma*/ false)); } else { // [source] // super(a) // super.m(a) // in static // super.m(a) // in instance // // [output] // _super.call(this, a) // _super.m.call(this, a) // _super.prototype.m.call(this, a) resultingCall = ts.createFunctionCall(ts.visitNode(target, callExpressionVisitor, ts.isExpression), node.expression.kind === 102 /* SuperKeyword */ ? thisArg : ts.visitNode(thisArg, visitor, ts.isExpression), ts.visitNodes(node.arguments, visitor, ts.isExpression), /*location*/ node); } if (node.expression.kind === 102 /* SuperKeyword */) { var initializer = ts.createLogicalOr(resultingCall, createActualThis()); resultingCall = assignToCapturedThis ? ts.createAssignment(ts.createFileLevelUniqueName("_this"), initializer) : initializer; } return ts.setOriginalNode(resultingCall, node); } return ts.visitEachChild(node, visitor, context); } /** * Visits a NewExpression that contains a spread element. * * @param node A NewExpression node. */ function visitNewExpression(node) { if (ts.some(node.arguments, ts.isSpreadElement)) { // We are here because we contain a SpreadElementExpression. // [source] // new C(...a) // // [output] // new ((_a = C).bind.apply(_a, [void 0].concat(a)))() var _a = ts.createCallBinding(ts.createPropertyAccess(node.expression, "bind"), hoistVariableDeclaration), target = _a.target, thisArg = _a.thisArg; return ts.createNew(ts.createFunctionApply(ts.visitNode(target, visitor, ts.isExpression), thisArg, transformAndSpreadElements(ts.createNodeArray(__spreadArrays([ts.createVoidZero()], node.arguments)), /*needsUniqueCopy*/ false, /*multiLine*/ false, /*hasTrailingComma*/ false)), /*typeArguments*/ undefined, []); } return ts.visitEachChild(node, visitor, context); } /** * Transforms an array of Expression nodes that contains a SpreadExpression. * * @param elements The array of Expression nodes. * @param needsUniqueCopy A value indicating whether to ensure that the result is a fresh array. * @param multiLine A value indicating whether the result should be emitted on multiple lines. */ function transformAndSpreadElements(elements, needsUniqueCopy, multiLine, hasTrailingComma) { // [source] // [a, ...b, c] // // [output (downlevelIteration)] // __spread([a], b, [c]) // // [output] // __spreadArrays([a], b, [c]) // Map spans of spread expressions into their expressions and spans of other // expressions into an array literal. var numElements = elements.length; var segments = ts.flatten(ts.spanMap(elements, partitionSpread, function (partition, visitPartition, _start, end) { return visitPartition(partition, multiLine, hasTrailingComma && end === numElements); })); if (compilerOptions.downlevelIteration) { if (segments.length === 1) { var firstSegment = segments[0]; if (isCallToHelper(firstSegment, "___spread")) { return segments[0]; } } return ts.createSpreadHelper(context, segments); } else { if (segments.length === 1) { var firstSegment = segments[0]; if (!needsUniqueCopy || isPackedArrayLiteral(firstSegment) || isCallToHelper(firstSegment, "___spreadArrays")) { return segments[0]; } } return ts.createSpreadArraysHelper(context, segments); } } function isPackedElement(node) { return !ts.isOmittedExpression(node); } function isPackedArrayLiteral(node) { return ts.isArrayLiteralExpression(node) && ts.every(node.elements, isPackedElement); } function isCallToHelper(firstSegment, helperName) { return ts.isCallExpression(firstSegment) && ts.isIdentifier(firstSegment.expression) && (ts.getEmitFlags(firstSegment.expression) & 4096 /* HelperName */) && firstSegment.expression.escapedText === helperName; } function partitionSpread(node) { return ts.isSpreadElement(node) ? visitSpanOfSpreads : visitSpanOfNonSpreads; } function visitSpanOfSpreads(chunk) { return ts.map(chunk, visitExpressionOfSpread); } function visitSpanOfNonSpreads(chunk, multiLine, hasTrailingComma) { return ts.createArrayLiteral(ts.visitNodes(ts.createNodeArray(chunk, hasTrailingComma), visitor, ts.isExpression), multiLine); } function visitSpreadElement(node) { return ts.visitNode(node.expression, visitor, ts.isExpression); } /** * Transforms the expression of a SpreadExpression node. * * @param node A SpreadExpression node. */ function visitExpressionOfSpread(node) { return ts.visitNode(node.expression, visitor, ts.isExpression); } /** * Visits a template literal. * * @param node A template literal. */ function visitTemplateLiteral(node) { return ts.setTextRange(ts.createLiteral(node.text), node); } /** * Visits a string literal with an extended unicode escape. * * @param node A string literal. */ function visitStringLiteral(node) { if (node.hasExtendedUnicodeEscape) { return ts.setTextRange(ts.createLiteral(node.text), node); } return node; } /** * Visits a binary or octal (ES6) numeric literal. * * @param node A string literal. */ function visitNumericLiteral(node) { if (node.numericLiteralFlags & 384 /* BinaryOrOctalSpecifier */) { return ts.setTextRange(ts.createNumericLiteral(node.text), node); } return node; } /** * Visits a TaggedTemplateExpression node. * * @param node A TaggedTemplateExpression node. */ function visitTaggedTemplateExpression(node) { return ts.processTaggedTemplateExpression(context, node, visitor, currentSourceFile, recordTaggedTemplateString, ts.ProcessLevel.All); } /** * Visits a TemplateExpression node. * * @param node A TemplateExpression node. */ function visitTemplateExpression(node) { var expressions = []; addTemplateHead(expressions, node); addTemplateSpans(expressions, node); // createAdd will check if each expression binds less closely than binary '+'. // If it does, it wraps the expression in parentheses. Otherwise, something like // `abc${ 1 << 2 }` // becomes // "abc" + 1 << 2 + "" // which is really // ("abc" + 1) << (2 + "") // rather than // "abc" + (1 << 2) + "" var expression = ts.reduceLeft(expressions, ts.createAdd); if (ts.nodeIsSynthesized(expression)) { expression.pos = node.pos; expression.end = node.end; } return expression; } /** * Gets a value indicating whether we need to include the head of a TemplateExpression. * * @param node A TemplateExpression node. */ function shouldAddTemplateHead(node) { // If this expression has an empty head literal and the first template span has a non-empty // literal, then emitting the empty head literal is not necessary. // `${ foo } and ${ bar }` // can be emitted as // foo + " and " + bar // This is because it is only required that one of the first two operands in the emit // output must be a string literal, so that the other operand and all following operands // are forced into strings. // // If the first template span has an empty literal, then the head must still be emitted. // `${ foo }${ bar }` // must still be emitted as // "" + foo + bar // There is always atleast one templateSpan in this code path, since // NoSubstitutionTemplateLiterals are directly emitted via emitLiteral() ts.Debug.assert(node.templateSpans.length !== 0); return node.head.text.length !== 0 || node.templateSpans[0].literal.text.length === 0; } /** * Adds the head of a TemplateExpression to an array of expressions. * * @param expressions An array of expressions. * @param node A TemplateExpression node. */ function addTemplateHead(expressions, node) { if (!shouldAddTemplateHead(node)) { return; } expressions.push(ts.createLiteral(node.head.text)); } /** * Visits and adds the template spans of a TemplateExpression to an array of expressions. * * @param expressions An array of expressions. * @param node A TemplateExpression node. */ function addTemplateSpans(expressions, node) { for (var _i = 0, _a = node.templateSpans; _i < _a.length; _i++) { var span = _a[_i]; expressions.push(ts.visitNode(span.expression, visitor, ts.isExpression)); // Only emit if the literal is non-empty. // The binary '+' operator is left-associative, so the first string concatenation // with the head will force the result up to this point to be a string. // Emitting a '+ ""' has no semantic effect for middles and tails. if (span.literal.text.length !== 0) { expressions.push(ts.createLiteral(span.literal.text)); } } } /** * Visits the `super` keyword */ function visitSuperKeyword(isExpressionOfCall) { return hierarchyFacts & 8 /* NonStaticClassElement */ && !isExpressionOfCall ? ts.createPropertyAccess(ts.createFileLevelUniqueName("_super"), "prototype") : ts.createFileLevelUniqueName("_super"); } function visitMetaProperty(node) { if (node.keywordToken === 99 /* NewKeyword */ && node.name.escapedText === "target") { hierarchyFacts |= 16384 /* NewTarget */; return ts.createFileLevelUniqueName("_newTarget"); } return node; } /** * Called by the printer just before a node is printed. * * @param hint A hint as to the intended usage of the node. * @param node The node to be printed. * @param emitCallback The callback used to emit the node. */ function onEmitNode(hint, node, emitCallback) { if (enabledSubstitutions & 1 /* CapturedThis */ && ts.isFunctionLike(node)) { // If we are tracking a captured `this`, keep track of the enclosing function. var ancestorFacts = enterSubtree(16286 /* FunctionExcludes */, ts.getEmitFlags(node) & 8 /* CapturesThis */ ? 65 /* FunctionIncludes */ | 16 /* CapturesThis */ : 65 /* FunctionIncludes */); previousOnEmitNode(hint, node, emitCallback); exitSubtree(ancestorFacts, 0 /* None */, 0 /* None */); return; } previousOnEmitNode(hint, node, emitCallback); } /** * Enables a more costly code path for substitutions when we determine a source file * contains block-scoped bindings (e.g. `let` or `const`). */ function enableSubstitutionsForBlockScopedBindings() { if ((enabledSubstitutions & 2 /* BlockScopedBindings */) === 0) { enabledSubstitutions |= 2 /* BlockScopedBindings */; context.enableSubstitution(75 /* Identifier */); } } /** * Enables a more costly code path for substitutions when we determine a source file * contains a captured `this`. */ function enableSubstitutionsForCapturedThis() { if ((enabledSubstitutions & 1 /* CapturedThis */) === 0) { enabledSubstitutions |= 1 /* CapturedThis */; context.enableSubstitution(104 /* ThisKeyword */); context.enableEmitNotification(162 /* Constructor */); context.enableEmitNotification(161 /* MethodDeclaration */); context.enableEmitNotification(163 /* GetAccessor */); context.enableEmitNotification(164 /* SetAccessor */); context.enableEmitNotification(202 /* ArrowFunction */); context.enableEmitNotification(201 /* FunctionExpression */); context.enableEmitNotification(244 /* FunctionDeclaration */); } } /** * Hooks node substitutions. * * @param hint The context for the emitter. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (hint === 1 /* Expression */) { return substituteExpression(node); } if (ts.isIdentifier(node)) { return substituteIdentifier(node); } return node; } /** * Hooks substitutions for non-expression identifiers. */ function substituteIdentifier(node) { // Only substitute the identifier if we have enabled substitutions for block-scoped // bindings. if (enabledSubstitutions & 2 /* BlockScopedBindings */ && !ts.isInternalName(node)) { var original = ts.getParseTreeNode(node, ts.isIdentifier); if (original && isNameOfDeclarationWithCollidingName(original)) { return ts.setTextRange(ts.getGeneratedNameForNode(original), node); } } return node; } /** * Determines whether a name is the name of a declaration with a colliding name. * NOTE: This function expects to be called with an original source tree node. * * @param node An original source tree node. */ function isNameOfDeclarationWithCollidingName(node) { switch (node.parent.kind) { case 191 /* BindingElement */: case 245 /* ClassDeclaration */: case 248 /* EnumDeclaration */: case 242 /* VariableDeclaration */: return node.parent.name === node && resolver.isDeclarationWithCollidingName(node.parent); } return false; } /** * Substitutes an expression. * * @param node An Expression node. */ function substituteExpression(node) { switch (node.kind) { case 75 /* Identifier */: return substituteExpressionIdentifier(node); case 104 /* ThisKeyword */: return substituteThisKeyword(node); } return node; } /** * Substitutes an expression identifier. * * @param node An Identifier node. */ function substituteExpressionIdentifier(node) { if (enabledSubstitutions & 2 /* BlockScopedBindings */ && !ts.isInternalName(node)) { var declaration = resolver.getReferencedDeclarationWithCollidingName(node); if (declaration && !(ts.isClassLike(declaration) && isPartOfClassBody(declaration, node))) { return ts.setTextRange(ts.getGeneratedNameForNode(ts.getNameOfDeclaration(declaration)), node); } } return node; } function isPartOfClassBody(declaration, node) { var currentNode = ts.getParseTreeNode(node); if (!currentNode || currentNode === declaration || currentNode.end <= declaration.pos || currentNode.pos >= declaration.end) { // if the node has no correlation to a parse tree node, its definitely not // part of the body. // if the node is outside of the document range of the declaration, its // definitely not part of the body. return false; } var blockScope = ts.getEnclosingBlockScopeContainer(declaration); while (currentNode) { if (currentNode === blockScope || currentNode === declaration) { // if we are in the enclosing block scope of the declaration, we are definitely // not inside the class body. return false; } if (ts.isClassElement(currentNode) && currentNode.parent === declaration) { return true; } currentNode = currentNode.parent; } return false; } /** * Substitutes `this` when contained within an arrow function. * * @param node The ThisKeyword node. */ function substituteThisKeyword(node) { if (enabledSubstitutions & 1 /* CapturedThis */ && hierarchyFacts & 16 /* CapturesThis */) { return ts.setTextRange(ts.createFileLevelUniqueName("_this"), node); } return node; } function getClassMemberPrefix(node, member) { return ts.hasModifier(member, 32 /* Static */) ? ts.getInternalName(node) : ts.createPropertyAccess(ts.getInternalName(node), "prototype"); } function hasSynthesizedDefaultSuperCall(constructor, hasExtendsClause) { if (!constructor || !hasExtendsClause) { return false; } if (ts.some(constructor.parameters)) { return false; } var statement = ts.firstOrUndefined(constructor.body.statements); if (!statement || !ts.nodeIsSynthesized(statement) || statement.kind !== 226 /* ExpressionStatement */) { return false; } var statementExpression = statement.expression; if (!ts.nodeIsSynthesized(statementExpression) || statementExpression.kind !== 196 /* CallExpression */) { return false; } var callTarget = statementExpression.expression; if (!ts.nodeIsSynthesized(callTarget) || callTarget.kind !== 102 /* SuperKeyword */) { return false; } var callArgument = ts.singleOrUndefined(statementExpression.arguments); if (!callArgument || !ts.nodeIsSynthesized(callArgument) || callArgument.kind !== 213 /* SpreadElement */) { return false; } var expression = callArgument.expression; return ts.isIdentifier(expression) && expression.escapedText === "arguments"; } } ts.transformES2015 = transformES2015; function createExtendsHelper(context, name) { context.requestEmitHelper(ts.extendsHelper); return ts.createCall(ts.getUnscopedHelperName("__extends"), /*typeArguments*/ undefined, [ name, ts.createFileLevelUniqueName("_super") ]); } ts.extendsHelper = { name: "typescript:extends", importName: "__extends", scoped: false, priority: 0, text: "\n var __extends = (this && this.__extends) || (function () {\n var extendStatics = function (d, b) {\n extendStatics = Object.setPrototypeOf ||\n ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) ||\n function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; };\n return extendStatics(d, b);\n };\n\n return function (d, b) {\n extendStatics(d, b);\n function __() { this.constructor = d; }\n d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __());\n };\n })();" }; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { /** * Transforms ES5 syntax into ES3 syntax. * * @param context Context and state information for the transformation. */ function transformES5(context) { var compilerOptions = context.getCompilerOptions(); // enable emit notification only if using --jsx preserve or react-native var previousOnEmitNode; var noSubstitution; if (compilerOptions.jsx === 1 /* Preserve */ || compilerOptions.jsx === 3 /* ReactNative */) { previousOnEmitNode = context.onEmitNode; context.onEmitNode = onEmitNode; context.enableEmitNotification(268 /* JsxOpeningElement */); context.enableEmitNotification(269 /* JsxClosingElement */); context.enableEmitNotification(267 /* JsxSelfClosingElement */); noSubstitution = []; } var previousOnSubstituteNode = context.onSubstituteNode; context.onSubstituteNode = onSubstituteNode; context.enableSubstitution(194 /* PropertyAccessExpression */); context.enableSubstitution(281 /* PropertyAssignment */); return ts.chainBundle(transformSourceFile); /** * Transforms an ES5 source file to ES3. * * @param node A SourceFile */ function transformSourceFile(node) { return node; } /** * Called by the printer just before a node is printed. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emitCallback A callback used to emit the node. */ function onEmitNode(hint, node, emitCallback) { switch (node.kind) { case 268 /* JsxOpeningElement */: case 269 /* JsxClosingElement */: case 267 /* JsxSelfClosingElement */: var tagName = node.tagName; noSubstitution[ts.getOriginalNodeId(tagName)] = true; break; } previousOnEmitNode(hint, node, emitCallback); } /** * Hooks node substitutions. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { if (node.id && noSubstitution && noSubstitution[node.id]) { return previousOnSubstituteNode(hint, node); } node = previousOnSubstituteNode(hint, node); if (ts.isPropertyAccessExpression(node)) { return substitutePropertyAccessExpression(node); } else if (ts.isPropertyAssignment(node)) { return substitutePropertyAssignment(node); } return node; } /** * Substitutes a PropertyAccessExpression whose name is a reserved word. * * @param node A PropertyAccessExpression */ function substitutePropertyAccessExpression(node) { if (ts.isPrivateIdentifier(node.name)) { return node; } var literalName = trySubstituteReservedName(node.name); if (literalName) { return ts.setTextRange(ts.createElementAccess(node.expression, literalName), node); } return node; } /** * Substitutes a PropertyAssignment whose name is a reserved word. * * @param node A PropertyAssignment */ function substitutePropertyAssignment(node) { var literalName = ts.isIdentifier(node.name) && trySubstituteReservedName(node.name); if (literalName) { return ts.updatePropertyAssignment(node, literalName, node.initializer); } return node; } /** * If an identifier name is a reserved word, returns a string literal for the name. * * @param name An Identifier */ function trySubstituteReservedName(name) { var token = name.originalKeywordKind || (ts.nodeIsSynthesized(name) ? ts.stringToToken(ts.idText(name)) : undefined); if (token !== undefined && token >= 77 /* FirstReservedWord */ && token <= 112 /* LastReservedWord */) { return ts.setTextRange(ts.createLiteral(name), name); } return undefined; } } ts.transformES5 = transformES5; })(ts || (ts = {})); // Transforms generator functions into a compatible ES5 representation with similar runtime // semantics. This is accomplished by first transforming the body of each generator // function into an intermediate representation that is the compiled into a JavaScript // switch statement. // // Many functions in this transformer will contain comments indicating the expected // intermediate representation. For illustrative purposes, the following intermediate // language is used to define this intermediate representation: // // .nop - Performs no operation. // .local NAME, ... - Define local variable declarations. // .mark LABEL - Mark the location of a label. // .br LABEL - Jump to a label. If jumping out of a protected // region, all .finally blocks are executed. // .brtrue LABEL, (x) - Jump to a label IIF the expression `x` is truthy. // If jumping out of a protected region, all .finally // blocks are executed. // .brfalse LABEL, (x) - Jump to a label IIF the expression `x` is falsey. // If jumping out of a protected region, all .finally // blocks are executed. // .yield (x) - Yield the value of the optional expression `x`. // Resume at the next label. // .yieldstar (x) - Delegate yield to the value of the optional // expression `x`. Resume at the next label. // NOTE: `x` must be an Iterator, not an Iterable. // .loop CONTINUE, BREAK - Marks the beginning of a loop. Any "continue" or // "break" abrupt completions jump to the CONTINUE or // BREAK labels, respectively. // .endloop - Marks the end of a loop. // .with (x) - Marks the beginning of a WithStatement block, using // the supplied expression. // .endwith - Marks the end of a WithStatement. // .switch - Marks the beginning of a SwitchStatement. // .endswitch - Marks the end of a SwitchStatement. // .labeled NAME - Marks the beginning of a LabeledStatement with the // supplied name. // .endlabeled - Marks the end of a LabeledStatement. // .try TRY, CATCH, FINALLY, END - Marks the beginning of a protected region, and the // labels for each block. // .catch (x) - Marks the beginning of a catch block. // .finally - Marks the beginning of a finally block. // .endfinally - Marks the end of a finally block. // .endtry - Marks the end of a protected region. // .throw (x) - Throws the value of the expression `x`. // .return (x) - Returns the value of the expression `x`. // // In addition, the illustrative intermediate representation introduces some special // variables: // // %sent% - Either returns the next value sent to the generator, // returns the result of a delegated yield, or throws // the exception sent to the generator. // %error% - Returns the value of the current exception in a // catch block. // // This intermediate representation is then compiled into JavaScript syntax. The resulting // compilation output looks something like the following: // // function f() { // var /*locals*/; // /*functions*/ // return __generator(function (state) { // switch (state.label) { // /*cases per label*/ // } // }); // } // // Each of the above instructions corresponds to JavaScript emit similar to the following: // // .local NAME | var NAME; // -------------------------------|---------------------------------------------- // .mark LABEL | case LABEL: // -------------------------------|---------------------------------------------- // .br LABEL | return [3 /*break*/, LABEL]; // -------------------------------|---------------------------------------------- // .brtrue LABEL, (x) | if (x) return [3 /*break*/, LABEL]; // -------------------------------|---------------------------------------------- // .brfalse LABEL, (x) | if (!(x)) return [3, /*break*/, LABEL]; // -------------------------------|---------------------------------------------- // .yield (x) | return [4 /*yield*/, x]; // .mark RESUME | case RESUME: // a = %sent%; | a = state.sent(); // -------------------------------|---------------------------------------------- // .yieldstar (x) | return [5 /*yield**/, x]; // .mark RESUME | case RESUME: // a = %sent%; | a = state.sent(); // -------------------------------|---------------------------------------------- // .with (_a) | with (_a) { // a(); | a(); // | } // | state.label = LABEL; // .mark LABEL | case LABEL: // | with (_a) { // b(); | b(); // | } // .endwith | // -------------------------------|---------------------------------------------- // | case 0: // | state.trys = []; // | ... // .try TRY, CATCH, FINALLY, END | // .mark TRY | case TRY: // | state.trys.push([TRY, CATCH, FINALLY, END]); // .nop | // a(); | a(); // .br END | return [3 /*break*/, END]; // .catch (e) | // .mark CATCH | case CATCH: // | e = state.sent(); // b(); | b(); // .br END | return [3 /*break*/, END]; // .finally | // .mark FINALLY | case FINALLY: // c(); | c(); // .endfinally | return [7 /*endfinally*/]; // .endtry | // .mark END | case END: /*@internal*/ var ts; (function (ts) { var OpCode; (function (OpCode) { OpCode[OpCode["Nop"] = 0] = "Nop"; OpCode[OpCode["Statement"] = 1] = "Statement"; OpCode[OpCode["Assign"] = 2] = "Assign"; OpCode[OpCode["Break"] = 3] = "Break"; OpCode[OpCode["BreakWhenTrue"] = 4] = "BreakWhenTrue"; OpCode[OpCode["BreakWhenFalse"] = 5] = "BreakWhenFalse"; OpCode[OpCode["Yield"] = 6] = "Yield"; OpCode[OpCode["YieldStar"] = 7] = "YieldStar"; OpCode[OpCode["Return"] = 8] = "Return"; OpCode[OpCode["Throw"] = 9] = "Throw"; OpCode[OpCode["Endfinally"] = 10] = "Endfinally"; // Marks the end of a `finally` block })(OpCode || (OpCode = {})); // whether a generated code block is opening or closing at the current operation for a FunctionBuilder var BlockAction; (function (BlockAction) { BlockAction[BlockAction["Open"] = 0] = "Open"; BlockAction[BlockAction["Close"] = 1] = "Close"; })(BlockAction || (BlockAction = {})); // the kind for a generated code block in a FunctionBuilder var CodeBlockKind; (function (CodeBlockKind) { CodeBlockKind[CodeBlockKind["Exception"] = 0] = "Exception"; CodeBlockKind[CodeBlockKind["With"] = 1] = "With"; CodeBlockKind[CodeBlockKind["Switch"] = 2] = "Switch"; CodeBlockKind[CodeBlockKind["Loop"] = 3] = "Loop"; CodeBlockKind[CodeBlockKind["Labeled"] = 4] = "Labeled"; })(CodeBlockKind || (CodeBlockKind = {})); // the state for a generated code exception block var ExceptionBlockState; (function (ExceptionBlockState) { ExceptionBlockState[ExceptionBlockState["Try"] = 0] = "Try"; ExceptionBlockState[ExceptionBlockState["Catch"] = 1] = "Catch"; ExceptionBlockState[ExceptionBlockState["Finally"] = 2] = "Finally"; ExceptionBlockState[ExceptionBlockState["Done"] = 3] = "Done"; })(ExceptionBlockState || (ExceptionBlockState = {})); // NOTE: changes to this enum should be reflected in the __generator helper. var Instruction; (function (Instruction) { Instruction[Instruction["Next"] = 0] = "Next"; Instruction[Instruction["Throw"] = 1] = "Throw"; Instruction[Instruction["Return"] = 2] = "Return"; Instruction[Instruction["Break"] = 3] = "Break"; Instruction[Instruction["Yield"] = 4] = "Yield"; Instruction[Instruction["YieldStar"] = 5] = "YieldStar"; Instruction[Instruction["Catch"] = 6] = "Catch"; Instruction[Instruction["Endfinally"] = 7] = "Endfinally"; })(Instruction || (Instruction = {})); function getInstructionName(instruction) { switch (instruction) { case 2 /* Return */: return "return"; case 3 /* Break */: return "break"; case 4 /* Yield */: return "yield"; case 5 /* YieldStar */: return "yield*"; case 7 /* Endfinally */: return "endfinally"; default: return undefined; // TODO: GH#18217 } } function transformGenerators(context) { var resumeLexicalEnvironment = context.resumeLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistFunctionDeclaration = context.hoistFunctionDeclaration, hoistVariableDeclaration = context.hoistVariableDeclaration; var compilerOptions = context.getCompilerOptions(); var languageVersion = ts.getEmitScriptTarget(compilerOptions); var resolver = context.getEmitResolver(); var previousOnSubstituteNode = context.onSubstituteNode; context.onSubstituteNode = onSubstituteNode; var renamedCatchVariables; var renamedCatchVariableDeclarations; var inGeneratorFunctionBody; var inStatementContainingYield; // The following three arrays store information about generated code blocks. // All three arrays are correlated by their index. This approach is used over allocating // objects to store the same information to avoid GC overhead. // var blocks; // Information about the code block var blockOffsets; // The operation offset at which a code block begins or ends var blockActions; // Whether the code block is opened or closed var blockStack; // A stack of currently open code blocks // Labels are used to mark locations in the code that can be the target of a Break (jump) // operation. These are translated into case clauses in a switch statement. // The following two arrays are correlated by their index. This approach is used over // allocating objects to store the same information to avoid GC overhead. // var labelOffsets; // The operation offset at which the label is defined. var labelExpressions; // The NumericLiteral nodes bound to each label. var nextLabelId = 1; // The next label id to use. // Operations store information about generated code for the function body. This // Includes things like statements, assignments, breaks (jumps), and yields. // The following three arrays are correlated by their index. This approach is used over // allocating objects to store the same information to avoid GC overhead. // var operations; // The operation to perform. var operationArguments; // The arguments to the operation. var operationLocations; // The source map location for the operation. var state; // The name of the state object used by the generator at runtime. // The following variables store information used by the `build` function: // var blockIndex = 0; // The index of the current block. var labelNumber = 0; // The current label number. var labelNumbers; var lastOperationWasAbrupt; // Indicates whether the last operation was abrupt (break/continue). var lastOperationWasCompletion; // Indicates whether the last operation was a completion (return/throw). var clauses; // The case clauses generated for labels. var statements; // The statements for the current label. var exceptionBlockStack; // A stack of containing exception blocks. var currentExceptionBlock; // The current exception block. var withBlockStack; // A stack containing `with` blocks. return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile || (node.transformFlags & 512 /* ContainsGenerator */) === 0) { return node; } var visited = ts.visitEachChild(node, visitor, context); ts.addEmitHelpers(visited, context.readEmitHelpers()); return visited; } /** * Visits a node. * * @param node The node to visit. */ function visitor(node) { var transformFlags = node.transformFlags; if (inStatementContainingYield) { return visitJavaScriptInStatementContainingYield(node); } else if (inGeneratorFunctionBody) { return visitJavaScriptInGeneratorFunctionBody(node); } else if (ts.isFunctionLikeDeclaration(node) && node.asteriskToken) { return visitGenerator(node); } else if (transformFlags & 512 /* ContainsGenerator */) { return ts.visitEachChild(node, visitor, context); } else { return node; } } /** * Visits a node that is contained within a statement that contains yield. * * @param node The node to visit. */ function visitJavaScriptInStatementContainingYield(node) { switch (node.kind) { case 228 /* DoStatement */: return visitDoStatement(node); case 229 /* WhileStatement */: return visitWhileStatement(node); case 237 /* SwitchStatement */: return visitSwitchStatement(node); case 238 /* LabeledStatement */: return visitLabeledStatement(node); default: return visitJavaScriptInGeneratorFunctionBody(node); } } /** * Visits a node that is contained within a generator function. * * @param node The node to visit. */ function visitJavaScriptInGeneratorFunctionBody(node) { switch (node.kind) { case 244 /* FunctionDeclaration */: return visitFunctionDeclaration(node); case 201 /* FunctionExpression */: return visitFunctionExpression(node); case 163 /* GetAccessor */: case 164 /* SetAccessor */: return visitAccessorDeclaration(node); case 225 /* VariableStatement */: return visitVariableStatement(node); case 230 /* ForStatement */: return visitForStatement(node); case 231 /* ForInStatement */: return visitForInStatement(node); case 234 /* BreakStatement */: return visitBreakStatement(node); case 233 /* ContinueStatement */: return visitContinueStatement(node); case 235 /* ReturnStatement */: return visitReturnStatement(node); default: if (node.transformFlags & 262144 /* ContainsYield */) { return visitJavaScriptContainingYield(node); } else if (node.transformFlags & (512 /* ContainsGenerator */ | 1048576 /* ContainsHoistedDeclarationOrCompletion */)) { return ts.visitEachChild(node, visitor, context); } else { return node; } } } /** * Visits a node that contains a YieldExpression. * * @param node The node to visit. */ function visitJavaScriptContainingYield(node) { switch (node.kind) { case 209 /* BinaryExpression */: return visitBinaryExpression(node); case 210 /* ConditionalExpression */: return visitConditionalExpression(node); case 212 /* YieldExpression */: return visitYieldExpression(node); case 192 /* ArrayLiteralExpression */: return visitArrayLiteralExpression(node); case 193 /* ObjectLiteralExpression */: return visitObjectLiteralExpression(node); case 195 /* ElementAccessExpression */: return visitElementAccessExpression(node); case 196 /* CallExpression */: return visitCallExpression(node); case 197 /* NewExpression */: return visitNewExpression(node); default: return ts.visitEachChild(node, visitor, context); } } /** * Visits a generator function. * * @param node The node to visit. */ function visitGenerator(node) { switch (node.kind) { case 244 /* FunctionDeclaration */: return visitFunctionDeclaration(node); case 201 /* FunctionExpression */: return visitFunctionExpression(node); default: return ts.Debug.failBadSyntaxKind(node); } } /** * Visits a function declaration. * * This will be called when one of the following conditions are met: * - The function declaration is a generator function. * - The function declaration is contained within the body of a generator function. * * @param node The node to visit. */ function visitFunctionDeclaration(node) { // Currently, we only support generators that were originally async functions. if (node.asteriskToken) { node = ts.setOriginalNode(ts.setTextRange(ts.createFunctionDeclaration( /*decorators*/ undefined, node.modifiers, /*asteriskToken*/ undefined, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, transformGeneratorFunctionBody(node.body)), /*location*/ node), node); } else { var savedInGeneratorFunctionBody = inGeneratorFunctionBody; var savedInStatementContainingYield = inStatementContainingYield; inGeneratorFunctionBody = false; inStatementContainingYield = false; node = ts.visitEachChild(node, visitor, context); inGeneratorFunctionBody = savedInGeneratorFunctionBody; inStatementContainingYield = savedInStatementContainingYield; } if (inGeneratorFunctionBody) { // Function declarations in a generator function body are hoisted // to the top of the lexical scope and elided from the current statement. hoistFunctionDeclaration(node); return undefined; } else { return node; } } /** * Visits a function expression. * * This will be called when one of the following conditions are met: * - The function expression is a generator function. * - The function expression is contained within the body of a generator function. * * @param node The node to visit. */ function visitFunctionExpression(node) { // Currently, we only support generators that were originally async functions. if (node.asteriskToken) { node = ts.setOriginalNode(ts.setTextRange(ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, node.name, /*typeParameters*/ undefined, ts.visitParameterList(node.parameters, visitor, context), /*type*/ undefined, transformGeneratorFunctionBody(node.body)), /*location*/ node), node); } else { var savedInGeneratorFunctionBody = inGeneratorFunctionBody; var savedInStatementContainingYield = inStatementContainingYield; inGeneratorFunctionBody = false; inStatementContainingYield = false; node = ts.visitEachChild(node, visitor, context); inGeneratorFunctionBody = savedInGeneratorFunctionBody; inStatementContainingYield = savedInStatementContainingYield; } return node; } /** * Visits a get or set accessor declaration. * * This will be called when one of the following conditions are met: * - The accessor is contained within the body of a generator function. * * @param node The node to visit. */ function visitAccessorDeclaration(node) { var savedInGeneratorFunctionBody = inGeneratorFunctionBody; var savedInStatementContainingYield = inStatementContainingYield; inGeneratorFunctionBody = false; inStatementContainingYield = false; node = ts.visitEachChild(node, visitor, context); inGeneratorFunctionBody = savedInGeneratorFunctionBody; inStatementContainingYield = savedInStatementContainingYield; return node; } /** * Transforms the body of a generator function declaration. * * @param node The function body to transform. */ function transformGeneratorFunctionBody(body) { // Save existing generator state var statements = []; var savedInGeneratorFunctionBody = inGeneratorFunctionBody; var savedInStatementContainingYield = inStatementContainingYield; var savedBlocks = blocks; var savedBlockOffsets = blockOffsets; var savedBlockActions = blockActions; var savedBlockStack = blockStack; var savedLabelOffsets = labelOffsets; var savedLabelExpressions = labelExpressions; var savedNextLabelId = nextLabelId; var savedOperations = operations; var savedOperationArguments = operationArguments; var savedOperationLocations = operationLocations; var savedState = state; // Initialize generator state inGeneratorFunctionBody = true; inStatementContainingYield = false; blocks = undefined; blockOffsets = undefined; blockActions = undefined; blockStack = undefined; labelOffsets = undefined; labelExpressions = undefined; nextLabelId = 1; operations = undefined; operationArguments = undefined; operationLocations = undefined; state = ts.createTempVariable(/*recordTempVariable*/ undefined); // Build the generator resumeLexicalEnvironment(); var statementOffset = ts.addPrologue(statements, body.statements, /*ensureUseStrict*/ false, visitor); transformAndEmitStatements(body.statements, statementOffset); var buildResult = build(); ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); statements.push(ts.createReturn(buildResult)); // Restore previous generator state inGeneratorFunctionBody = savedInGeneratorFunctionBody; inStatementContainingYield = savedInStatementContainingYield; blocks = savedBlocks; blockOffsets = savedBlockOffsets; blockActions = savedBlockActions; blockStack = savedBlockStack; labelOffsets = savedLabelOffsets; labelExpressions = savedLabelExpressions; nextLabelId = savedNextLabelId; operations = savedOperations; operationArguments = savedOperationArguments; operationLocations = savedOperationLocations; state = savedState; return ts.setTextRange(ts.createBlock(statements, body.multiLine), body); } /** * Visits a variable statement. * * This will be called when one of the following conditions are met: * - The variable statement is contained within the body of a generator function. * * @param node The node to visit. */ function visitVariableStatement(node) { if (node.transformFlags & 262144 /* ContainsYield */) { transformAndEmitVariableDeclarationList(node.declarationList); return undefined; } else { // Do not hoist custom prologues. if (ts.getEmitFlags(node) & 1048576 /* CustomPrologue */) { return node; } for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var variable = _a[_i]; hoistVariableDeclaration(variable.name); } var variables = ts.getInitializedVariables(node.declarationList); if (variables.length === 0) { return undefined; } return ts.setSourceMapRange(ts.createExpressionStatement(ts.inlineExpressions(ts.map(variables, transformInitializedVariable))), node); } } /** * Visits a binary expression. * * This will be called when one of the following conditions are met: * - The node contains a YieldExpression. * * @param node The node to visit. */ function visitBinaryExpression(node) { var assoc = ts.getExpressionAssociativity(node); switch (assoc) { case 0 /* Left */: return visitLeftAssociativeBinaryExpression(node); case 1 /* Right */: return visitRightAssociativeBinaryExpression(node); default: return ts.Debug.assertNever(assoc); } } /** * Visits a right-associative binary expression containing `yield`. * * @param node The node to visit. */ function visitRightAssociativeBinaryExpression(node) { var left = node.left, right = node.right; if (containsYield(right)) { var target = void 0; switch (left.kind) { case 194 /* PropertyAccessExpression */: // [source] // a.b = yield; // // [intermediate] // .local _a // _a = a; // .yield resumeLabel // .mark resumeLabel // _a.b = %sent%; target = ts.updatePropertyAccess(left, cacheExpression(ts.visitNode(left.expression, visitor, ts.isLeftHandSideExpression)), left.name); break; case 195 /* ElementAccessExpression */: // [source] // a[b] = yield; // // [intermediate] // .local _a, _b // _a = a; // _b = b; // .yield resumeLabel // .mark resumeLabel // _a[_b] = %sent%; target = ts.updateElementAccess(left, cacheExpression(ts.visitNode(left.expression, visitor, ts.isLeftHandSideExpression)), cacheExpression(ts.visitNode(left.argumentExpression, visitor, ts.isExpression))); break; default: target = ts.visitNode(left, visitor, ts.isExpression); break; } var operator = node.operatorToken.kind; if (ts.isCompoundAssignment(operator)) { return ts.setTextRange(ts.createAssignment(target, ts.setTextRange(ts.createBinary(cacheExpression(target), ts.getNonAssignmentOperatorForCompoundAssignment(operator), ts.visitNode(right, visitor, ts.isExpression)), node)), node); } else { return ts.updateBinary(node, target, ts.visitNode(right, visitor, ts.isExpression)); } } return ts.visitEachChild(node, visitor, context); } function visitLeftAssociativeBinaryExpression(node) { if (containsYield(node.right)) { if (ts.isLogicalOperator(node.operatorToken.kind)) { return visitLogicalBinaryExpression(node); } else if (node.operatorToken.kind === 27 /* CommaToken */) { return visitCommaExpression(node); } // [source] // a() + (yield) + c() // // [intermediate] // .local _a // _a = a(); // .yield resumeLabel // _a + %sent% + c() var clone_6 = ts.getMutableClone(node); clone_6.left = cacheExpression(ts.visitNode(node.left, visitor, ts.isExpression)); clone_6.right = ts.visitNode(node.right, visitor, ts.isExpression); return clone_6; } return ts.visitEachChild(node, visitor, context); } /** * Visits a logical binary expression containing `yield`. * * @param node A node to visit. */ function visitLogicalBinaryExpression(node) { // Logical binary expressions (`&&` and `||`) are shortcutting expressions and need // to be transformed as such: // // [source] // x = a() && yield; // // [intermediate] // .local _a // _a = a(); // .brfalse resultLabel, (_a) // .yield resumeLabel // .mark resumeLabel // _a = %sent%; // .mark resultLabel // x = _a; // // [source] // x = a() || yield; // // [intermediate] // .local _a // _a = a(); // .brtrue resultLabel, (_a) // .yield resumeLabel // .mark resumeLabel // _a = %sent%; // .mark resultLabel // x = _a; var resultLabel = defineLabel(); var resultLocal = declareLocal(); emitAssignment(resultLocal, ts.visitNode(node.left, visitor, ts.isExpression), /*location*/ node.left); if (node.operatorToken.kind === 55 /* AmpersandAmpersandToken */) { // Logical `&&` shortcuts when the left-hand operand is falsey. emitBreakWhenFalse(resultLabel, resultLocal, /*location*/ node.left); } else { // Logical `||` shortcuts when the left-hand operand is truthy. emitBreakWhenTrue(resultLabel, resultLocal, /*location*/ node.left); } emitAssignment(resultLocal, ts.visitNode(node.right, visitor, ts.isExpression), /*location*/ node.right); markLabel(resultLabel); return resultLocal; } /** * Visits a comma expression containing `yield`. * * @param node The node to visit. */ function visitCommaExpression(node) { // [source] // x = a(), yield, b(); // // [intermediate] // a(); // .yield resumeLabel // .mark resumeLabel // x = %sent%, b(); var pendingExpressions = []; visit(node.left); visit(node.right); return ts.inlineExpressions(pendingExpressions); function visit(node) { if (ts.isBinaryExpression(node) && node.operatorToken.kind === 27 /* CommaToken */) { visit(node.left); visit(node.right); } else { if (containsYield(node) && pendingExpressions.length > 0) { emitWorker(1 /* Statement */, [ts.createExpressionStatement(ts.inlineExpressions(pendingExpressions))]); pendingExpressions = []; } pendingExpressions.push(ts.visitNode(node, visitor, ts.isExpression)); } } } /** * Visits a conditional expression containing `yield`. * * @param node The node to visit. */ function visitConditionalExpression(node) { // [source] // x = a() ? yield : b(); // // [intermediate] // .local _a // .brfalse whenFalseLabel, (a()) // .yield resumeLabel // .mark resumeLabel // _a = %sent%; // .br resultLabel // .mark whenFalseLabel // _a = b(); // .mark resultLabel // x = _a; // We only need to perform a specific transformation if a `yield` expression exists // in either the `whenTrue` or `whenFalse` branches. // A `yield` in the condition will be handled by the normal visitor. if (containsYield(node.whenTrue) || containsYield(node.whenFalse)) { var whenFalseLabel = defineLabel(); var resultLabel = defineLabel(); var resultLocal = declareLocal(); emitBreakWhenFalse(whenFalseLabel, ts.visitNode(node.condition, visitor, ts.isExpression), /*location*/ node.condition); emitAssignment(resultLocal, ts.visitNode(node.whenTrue, visitor, ts.isExpression), /*location*/ node.whenTrue); emitBreak(resultLabel); markLabel(whenFalseLabel); emitAssignment(resultLocal, ts.visitNode(node.whenFalse, visitor, ts.isExpression), /*location*/ node.whenFalse); markLabel(resultLabel); return resultLocal; } return ts.visitEachChild(node, visitor, context); } /** * Visits a `yield` expression. * * @param node The node to visit. */ function visitYieldExpression(node) { // [source] // x = yield a(); // // [intermediate] // .yield resumeLabel, (a()) // .mark resumeLabel // x = %sent%; var resumeLabel = defineLabel(); var expression = ts.visitNode(node.expression, visitor, ts.isExpression); if (node.asteriskToken) { var iterator = (ts.getEmitFlags(node.expression) & 8388608 /* Iterator */) === 0 ? ts.createValuesHelper(context, expression, /*location*/ node) : expression; emitYieldStar(iterator, /*location*/ node); } else { emitYield(expression, /*location*/ node); } markLabel(resumeLabel); return createGeneratorResume(/*location*/ node); } /** * Visits an ArrayLiteralExpression that contains a YieldExpression. * * @param node The node to visit. */ function visitArrayLiteralExpression(node) { return visitElements(node.elements, /*leadingElement*/ undefined, /*location*/ undefined, node.multiLine); } /** * Visits an array of expressions containing one or more YieldExpression nodes * and returns an expression for the resulting value. * * @param elements The elements to visit. * @param multiLine Whether array literals created should be emitted on multiple lines. */ function visitElements(elements, leadingElement, location, multiLine) { // [source] // ar = [1, yield, 2]; // // [intermediate] // .local _a // _a = [1]; // .yield resumeLabel // .mark resumeLabel // ar = _a.concat([%sent%, 2]); var numInitialElements = countInitialNodesWithoutYield(elements); var temp; if (numInitialElements > 0) { temp = declareLocal(); var initialElements = ts.visitNodes(elements, visitor, ts.isExpression, 0, numInitialElements); emitAssignment(temp, ts.createArrayLiteral(leadingElement ? __spreadArrays([leadingElement], initialElements) : initialElements)); leadingElement = undefined; } var expressions = ts.reduceLeft(elements, reduceElement, [], numInitialElements); return temp ? ts.createArrayConcat(temp, [ts.createArrayLiteral(expressions, multiLine)]) : ts.setTextRange(ts.createArrayLiteral(leadingElement ? __spreadArrays([leadingElement], expressions) : expressions, multiLine), location); function reduceElement(expressions, element) { if (containsYield(element) && expressions.length > 0) { var hasAssignedTemp = temp !== undefined; if (!temp) { temp = declareLocal(); } emitAssignment(temp, hasAssignedTemp ? ts.createArrayConcat(temp, [ts.createArrayLiteral(expressions, multiLine)]) : ts.createArrayLiteral(leadingElement ? __spreadArrays([leadingElement], expressions) : expressions, multiLine)); leadingElement = undefined; expressions = []; } expressions.push(ts.visitNode(element, visitor, ts.isExpression)); return expressions; } } function visitObjectLiteralExpression(node) { // [source] // o = { // a: 1, // b: yield, // c: 2 // }; // // [intermediate] // .local _a // _a = { // a: 1 // }; // .yield resumeLabel // .mark resumeLabel // o = (_a.b = %sent%, // _a.c = 2, // _a); var properties = node.properties; var multiLine = node.multiLine; var numInitialProperties = countInitialNodesWithoutYield(properties); var temp = declareLocal(); emitAssignment(temp, ts.createObjectLiteral(ts.visitNodes(properties, visitor, ts.isObjectLiteralElementLike, 0, numInitialProperties), multiLine)); var expressions = ts.reduceLeft(properties, reduceProperty, [], numInitialProperties); expressions.push(multiLine ? ts.startOnNewLine(ts.getMutableClone(temp)) : temp); return ts.inlineExpressions(expressions); function reduceProperty(expressions, property) { if (containsYield(property) && expressions.length > 0) { emitStatement(ts.createExpressionStatement(ts.inlineExpressions(expressions))); expressions = []; } var expression = ts.createExpressionForObjectLiteralElementLike(node, property, temp); var visited = ts.visitNode(expression, visitor, ts.isExpression); if (visited) { if (multiLine) { ts.startOnNewLine(visited); } expressions.push(visited); } return expressions; } } /** * Visits an ElementAccessExpression that contains a YieldExpression. * * @param node The node to visit. */ function visitElementAccessExpression(node) { if (containsYield(node.argumentExpression)) { // [source] // a = x[yield]; // // [intermediate] // .local _a // _a = x; // .yield resumeLabel // .mark resumeLabel // a = _a[%sent%] var clone_7 = ts.getMutableClone(node); clone_7.expression = cacheExpression(ts.visitNode(node.expression, visitor, ts.isLeftHandSideExpression)); clone_7.argumentExpression = ts.visitNode(node.argumentExpression, visitor, ts.isExpression); return clone_7; } return ts.visitEachChild(node, visitor, context); } function visitCallExpression(node) { if (!ts.isImportCall(node) && ts.forEach(node.arguments, containsYield)) { // [source] // a.b(1, yield, 2); // // [intermediate] // .local _a, _b, _c // _b = (_a = a).b; // _c = [1]; // .yield resumeLabel // .mark resumeLabel // _b.apply(_a, _c.concat([%sent%, 2])); var _a = ts.createCallBinding(node.expression, hoistVariableDeclaration, languageVersion, /*cacheIdentifiers*/ true), target = _a.target, thisArg = _a.thisArg; return ts.setOriginalNode(ts.createFunctionApply(cacheExpression(ts.visitNode(target, visitor, ts.isLeftHandSideExpression)), thisArg, visitElements(node.arguments), /*location*/ node), node); } return ts.visitEachChild(node, visitor, context); } function visitNewExpression(node) { if (ts.forEach(node.arguments, containsYield)) { // [source] // new a.b(1, yield, 2); // // [intermediate] // .local _a, _b, _c // _b = (_a = a.b).bind; // _c = [1]; // .yield resumeLabel // .mark resumeLabel // new (_b.apply(_a, _c.concat([%sent%, 2]))); var _a = ts.createCallBinding(ts.createPropertyAccess(node.expression, "bind"), hoistVariableDeclaration), target = _a.target, thisArg = _a.thisArg; return ts.setOriginalNode(ts.setTextRange(ts.createNew(ts.createFunctionApply(cacheExpression(ts.visitNode(target, visitor, ts.isExpression)), thisArg, visitElements(node.arguments, /*leadingElement*/ ts.createVoidZero())), /*typeArguments*/ undefined, []), node), node); } return ts.visitEachChild(node, visitor, context); } function transformAndEmitStatements(statements, start) { if (start === void 0) { start = 0; } var numStatements = statements.length; for (var i = start; i < numStatements; i++) { transformAndEmitStatement(statements[i]); } } function transformAndEmitEmbeddedStatement(node) { if (ts.isBlock(node)) { transformAndEmitStatements(node.statements); } else { transformAndEmitStatement(node); } } function transformAndEmitStatement(node) { var savedInStatementContainingYield = inStatementContainingYield; if (!inStatementContainingYield) { inStatementContainingYield = containsYield(node); } transformAndEmitStatementWorker(node); inStatementContainingYield = savedInStatementContainingYield; } function transformAndEmitStatementWorker(node) { switch (node.kind) { case 223 /* Block */: return transformAndEmitBlock(node); case 226 /* ExpressionStatement */: return transformAndEmitExpressionStatement(node); case 227 /* IfStatement */: return transformAndEmitIfStatement(node); case 228 /* DoStatement */: return transformAndEmitDoStatement(node); case 229 /* WhileStatement */: return transformAndEmitWhileStatement(node); case 230 /* ForStatement */: return transformAndEmitForStatement(node); case 231 /* ForInStatement */: return transformAndEmitForInStatement(node); case 233 /* ContinueStatement */: return transformAndEmitContinueStatement(node); case 234 /* BreakStatement */: return transformAndEmitBreakStatement(node); case 235 /* ReturnStatement */: return transformAndEmitReturnStatement(node); case 236 /* WithStatement */: return transformAndEmitWithStatement(node); case 237 /* SwitchStatement */: return transformAndEmitSwitchStatement(node); case 238 /* LabeledStatement */: return transformAndEmitLabeledStatement(node); case 239 /* ThrowStatement */: return transformAndEmitThrowStatement(node); case 240 /* TryStatement */: return transformAndEmitTryStatement(node); default: return emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function transformAndEmitBlock(node) { if (containsYield(node)) { transformAndEmitStatements(node.statements); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function transformAndEmitExpressionStatement(node) { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } function transformAndEmitVariableDeclarationList(node) { for (var _i = 0, _a = node.declarations; _i < _a.length; _i++) { var variable = _a[_i]; var name = ts.getSynthesizedClone(variable.name); ts.setCommentRange(name, variable.name); hoistVariableDeclaration(name); } var variables = ts.getInitializedVariables(node); var numVariables = variables.length; var variablesWritten = 0; var pendingExpressions = []; while (variablesWritten < numVariables) { for (var i = variablesWritten; i < numVariables; i++) { var variable = variables[i]; if (containsYield(variable.initializer) && pendingExpressions.length > 0) { break; } pendingExpressions.push(transformInitializedVariable(variable)); } if (pendingExpressions.length) { emitStatement(ts.createExpressionStatement(ts.inlineExpressions(pendingExpressions))); variablesWritten += pendingExpressions.length; pendingExpressions = []; } } return undefined; } function transformInitializedVariable(node) { return ts.setSourceMapRange(ts.createAssignment(ts.setSourceMapRange(ts.getSynthesizedClone(node.name), node.name), ts.visitNode(node.initializer, visitor, ts.isExpression)), node); } function transformAndEmitIfStatement(node) { if (containsYield(node)) { // [source] // if (x) // /*thenStatement*/ // else // /*elseStatement*/ // // [intermediate] // .brfalse elseLabel, (x) // /*thenStatement*/ // .br endLabel // .mark elseLabel // /*elseStatement*/ // .mark endLabel if (containsYield(node.thenStatement) || containsYield(node.elseStatement)) { var endLabel = defineLabel(); var elseLabel = node.elseStatement ? defineLabel() : undefined; emitBreakWhenFalse(node.elseStatement ? elseLabel : endLabel, ts.visitNode(node.expression, visitor, ts.isExpression), /*location*/ node.expression); transformAndEmitEmbeddedStatement(node.thenStatement); if (node.elseStatement) { emitBreak(endLabel); markLabel(elseLabel); transformAndEmitEmbeddedStatement(node.elseStatement); } markLabel(endLabel); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function transformAndEmitDoStatement(node) { if (containsYield(node)) { // [source] // do { // /*body*/ // } // while (i < 10); // // [intermediate] // .loop conditionLabel, endLabel // .mark loopLabel // /*body*/ // .mark conditionLabel // .brtrue loopLabel, (i < 10) // .endloop // .mark endLabel var conditionLabel = defineLabel(); var loopLabel = defineLabel(); beginLoopBlock(/*continueLabel*/ conditionLabel); markLabel(loopLabel); transformAndEmitEmbeddedStatement(node.statement); markLabel(conditionLabel); emitBreakWhenTrue(loopLabel, ts.visitNode(node.expression, visitor, ts.isExpression)); endLoopBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function visitDoStatement(node) { if (inStatementContainingYield) { beginScriptLoopBlock(); node = ts.visitEachChild(node, visitor, context); endLoopBlock(); return node; } else { return ts.visitEachChild(node, visitor, context); } } function transformAndEmitWhileStatement(node) { if (containsYield(node)) { // [source] // while (i < 10) { // /*body*/ // } // // [intermediate] // .loop loopLabel, endLabel // .mark loopLabel // .brfalse endLabel, (i < 10) // /*body*/ // .br loopLabel // .endloop // .mark endLabel var loopLabel = defineLabel(); var endLabel = beginLoopBlock(loopLabel); markLabel(loopLabel); emitBreakWhenFalse(endLabel, ts.visitNode(node.expression, visitor, ts.isExpression)); transformAndEmitEmbeddedStatement(node.statement); emitBreak(loopLabel); endLoopBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function visitWhileStatement(node) { if (inStatementContainingYield) { beginScriptLoopBlock(); node = ts.visitEachChild(node, visitor, context); endLoopBlock(); return node; } else { return ts.visitEachChild(node, visitor, context); } } function transformAndEmitForStatement(node) { if (containsYield(node)) { // [source] // for (var i = 0; i < 10; i++) { // /*body*/ // } // // [intermediate] // .local i // i = 0; // .loop incrementLabel, endLoopLabel // .mark conditionLabel // .brfalse endLoopLabel, (i < 10) // /*body*/ // .mark incrementLabel // i++; // .br conditionLabel // .endloop // .mark endLoopLabel var conditionLabel = defineLabel(); var incrementLabel = defineLabel(); var endLabel = beginLoopBlock(incrementLabel); if (node.initializer) { var initializer = node.initializer; if (ts.isVariableDeclarationList(initializer)) { transformAndEmitVariableDeclarationList(initializer); } else { emitStatement(ts.setTextRange(ts.createExpressionStatement(ts.visitNode(initializer, visitor, ts.isExpression)), initializer)); } } markLabel(conditionLabel); if (node.condition) { emitBreakWhenFalse(endLabel, ts.visitNode(node.condition, visitor, ts.isExpression)); } transformAndEmitEmbeddedStatement(node.statement); markLabel(incrementLabel); if (node.incrementor) { emitStatement(ts.setTextRange(ts.createExpressionStatement(ts.visitNode(node.incrementor, visitor, ts.isExpression)), node.incrementor)); } emitBreak(conditionLabel); endLoopBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function visitForStatement(node) { if (inStatementContainingYield) { beginScriptLoopBlock(); } var initializer = node.initializer; if (initializer && ts.isVariableDeclarationList(initializer)) { for (var _i = 0, _a = initializer.declarations; _i < _a.length; _i++) { var variable = _a[_i]; hoistVariableDeclaration(variable.name); } var variables = ts.getInitializedVariables(initializer); node = ts.updateFor(node, variables.length > 0 ? ts.inlineExpressions(ts.map(variables, transformInitializedVariable)) : undefined, ts.visitNode(node.condition, visitor, ts.isExpression), ts.visitNode(node.incrementor, visitor, ts.isExpression), ts.visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); } else { node = ts.visitEachChild(node, visitor, context); } if (inStatementContainingYield) { endLoopBlock(); } return node; } function transformAndEmitForInStatement(node) { // TODO(rbuckton): Source map locations if (containsYield(node)) { // [source] // for (var p in o) { // /*body*/ // } // // [intermediate] // .local _a, _b, _i // _a = []; // for (_b in o) _a.push(_b); // _i = 0; // .loop incrementLabel, endLoopLabel // .mark conditionLabel // .brfalse endLoopLabel, (_i < _a.length) // p = _a[_i]; // /*body*/ // .mark incrementLabel // _b++; // .br conditionLabel // .endloop // .mark endLoopLabel var keysArray = declareLocal(); // _a var key = declareLocal(); // _b var keysIndex = ts.createLoopVariable(); // _i var initializer = node.initializer; hoistVariableDeclaration(keysIndex); emitAssignment(keysArray, ts.createArrayLiteral()); emitStatement(ts.createForIn(key, ts.visitNode(node.expression, visitor, ts.isExpression), ts.createExpressionStatement(ts.createCall(ts.createPropertyAccess(keysArray, "push"), /*typeArguments*/ undefined, [key])))); emitAssignment(keysIndex, ts.createLiteral(0)); var conditionLabel = defineLabel(); var incrementLabel = defineLabel(); var endLabel = beginLoopBlock(incrementLabel); markLabel(conditionLabel); emitBreakWhenFalse(endLabel, ts.createLessThan(keysIndex, ts.createPropertyAccess(keysArray, "length"))); var variable = void 0; if (ts.isVariableDeclarationList(initializer)) { for (var _i = 0, _a = initializer.declarations; _i < _a.length; _i++) { var variable_1 = _a[_i]; hoistVariableDeclaration(variable_1.name); } variable = ts.getSynthesizedClone(initializer.declarations[0].name); } else { variable = ts.visitNode(initializer, visitor, ts.isExpression); ts.Debug.assert(ts.isLeftHandSideExpression(variable)); } emitAssignment(variable, ts.createElementAccess(keysArray, keysIndex)); transformAndEmitEmbeddedStatement(node.statement); markLabel(incrementLabel); emitStatement(ts.createExpressionStatement(ts.createPostfixIncrement(keysIndex))); emitBreak(conditionLabel); endLoopBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function visitForInStatement(node) { // [source] // for (var x in a) { // /*body*/ // } // // [intermediate] // .local x // .loop // for (x in a) { // /*body*/ // } // .endloop if (inStatementContainingYield) { beginScriptLoopBlock(); } var initializer = node.initializer; if (ts.isVariableDeclarationList(initializer)) { for (var _i = 0, _a = initializer.declarations; _i < _a.length; _i++) { var variable = _a[_i]; hoistVariableDeclaration(variable.name); } node = ts.updateForIn(node, initializer.declarations[0].name, ts.visitNode(node.expression, visitor, ts.isExpression), ts.visitNode(node.statement, visitor, ts.isStatement, ts.liftToBlock)); } else { node = ts.visitEachChild(node, visitor, context); } if (inStatementContainingYield) { endLoopBlock(); } return node; } function transformAndEmitContinueStatement(node) { var label = findContinueTarget(node.label ? ts.idText(node.label) : undefined); if (label > 0) { emitBreak(label, /*location*/ node); } else { // invalid continue without a containing loop. Leave the node as is, per #17875. emitStatement(node); } } function visitContinueStatement(node) { if (inStatementContainingYield) { var label = findContinueTarget(node.label && ts.idText(node.label)); if (label > 0) { return createInlineBreak(label, /*location*/ node); } } return ts.visitEachChild(node, visitor, context); } function transformAndEmitBreakStatement(node) { var label = findBreakTarget(node.label ? ts.idText(node.label) : undefined); if (label > 0) { emitBreak(label, /*location*/ node); } else { // invalid break without a containing loop, switch, or labeled statement. Leave the node as is, per #17875. emitStatement(node); } } function visitBreakStatement(node) { if (inStatementContainingYield) { var label = findBreakTarget(node.label && ts.idText(node.label)); if (label > 0) { return createInlineBreak(label, /*location*/ node); } } return ts.visitEachChild(node, visitor, context); } function transformAndEmitReturnStatement(node) { emitReturn(ts.visitNode(node.expression, visitor, ts.isExpression), /*location*/ node); } function visitReturnStatement(node) { return createInlineReturn(ts.visitNode(node.expression, visitor, ts.isExpression), /*location*/ node); } function transformAndEmitWithStatement(node) { if (containsYield(node)) { // [source] // with (x) { // /*body*/ // } // // [intermediate] // .with (x) // /*body*/ // .endwith beginWithBlock(cacheExpression(ts.visitNode(node.expression, visitor, ts.isExpression))); transformAndEmitEmbeddedStatement(node.statement); endWithBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function transformAndEmitSwitchStatement(node) { if (containsYield(node.caseBlock)) { // [source] // switch (x) { // case a: // /*caseStatements*/ // case b: // /*caseStatements*/ // default: // /*defaultStatements*/ // } // // [intermediate] // .local _a // .switch endLabel // _a = x; // switch (_a) { // case a: // .br clauseLabels[0] // } // switch (_a) { // case b: // .br clauseLabels[1] // } // .br clauseLabels[2] // .mark clauseLabels[0] // /*caseStatements*/ // .mark clauseLabels[1] // /*caseStatements*/ // .mark clauseLabels[2] // /*caseStatements*/ // .endswitch // .mark endLabel var caseBlock = node.caseBlock; var numClauses = caseBlock.clauses.length; var endLabel = beginSwitchBlock(); var expression = cacheExpression(ts.visitNode(node.expression, visitor, ts.isExpression)); // Create labels for each clause and find the index of the first default clause. var clauseLabels = []; var defaultClauseIndex = -1; for (var i = 0; i < numClauses; i++) { var clause = caseBlock.clauses[i]; clauseLabels.push(defineLabel()); if (clause.kind === 278 /* DefaultClause */ && defaultClauseIndex === -1) { defaultClauseIndex = i; } } // Emit switch statements for each run of case clauses either from the first case // clause or the next case clause with a `yield` in its expression, up to the next // case clause with a `yield` in its expression. var clausesWritten = 0; var pendingClauses = []; while (clausesWritten < numClauses) { var defaultClausesSkipped = 0; for (var i = clausesWritten; i < numClauses; i++) { var clause = caseBlock.clauses[i]; if (clause.kind === 277 /* CaseClause */) { if (containsYield(clause.expression) && pendingClauses.length > 0) { break; } pendingClauses.push(ts.createCaseClause(ts.visitNode(clause.expression, visitor, ts.isExpression), [ createInlineBreak(clauseLabels[i], /*location*/ clause.expression) ])); } else { defaultClausesSkipped++; } } if (pendingClauses.length) { emitStatement(ts.createSwitch(expression, ts.createCaseBlock(pendingClauses))); clausesWritten += pendingClauses.length; pendingClauses = []; } if (defaultClausesSkipped > 0) { clausesWritten += defaultClausesSkipped; defaultClausesSkipped = 0; } } if (defaultClauseIndex >= 0) { emitBreak(clauseLabels[defaultClauseIndex]); } else { emitBreak(endLabel); } for (var i = 0; i < numClauses; i++) { markLabel(clauseLabels[i]); transformAndEmitStatements(caseBlock.clauses[i].statements); } endSwitchBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function visitSwitchStatement(node) { if (inStatementContainingYield) { beginScriptSwitchBlock(); } node = ts.visitEachChild(node, visitor, context); if (inStatementContainingYield) { endSwitchBlock(); } return node; } function transformAndEmitLabeledStatement(node) { if (containsYield(node)) { // [source] // x: { // /*body*/ // } // // [intermediate] // .labeled "x", endLabel // /*body*/ // .endlabeled // .mark endLabel beginLabeledBlock(ts.idText(node.label)); transformAndEmitEmbeddedStatement(node.statement); endLabeledBlock(); } else { emitStatement(ts.visitNode(node, visitor, ts.isStatement)); } } function visitLabeledStatement(node) { if (inStatementContainingYield) { beginScriptLabeledBlock(ts.idText(node.label)); } node = ts.visitEachChild(node, visitor, context); if (inStatementContainingYield) { endLabeledBlock(); } return node; } function transformAndEmitThrowStatement(node) { emitThrow(ts.visitNode(node.expression, visitor, ts.isExpression), /*location*/ node); } function transformAndEmitTryStatement(node) { if (containsYield(node)) { // [source] // try { // /*tryBlock*/ // } // catch (e) { // /*catchBlock*/ // } // finally { // /*finallyBlock*/ // } // // [intermediate] // .local _a // .try tryLabel, catchLabel, finallyLabel, endLabel // .mark tryLabel // .nop // /*tryBlock*/ // .br endLabel // .catch // .mark catchLabel // _a = %error%; // /*catchBlock*/ // .br endLabel // .finally // .mark finallyLabel // /*finallyBlock*/ // .endfinally // .endtry // .mark endLabel beginExceptionBlock(); transformAndEmitEmbeddedStatement(node.tryBlock); if (node.catchClause) { beginCatchBlock(node.catchClause.variableDeclaration); // TODO: GH#18217 transformAndEmitEmbeddedStatement(node.catchClause.block); } if (node.finallyBlock) { beginFinallyBlock(); transformAndEmitEmbeddedStatement(node.finallyBlock); } endExceptionBlock(); } else { emitStatement(ts.visitEachChild(node, visitor, context)); } } function containsYield(node) { return !!node && (node.transformFlags & 262144 /* ContainsYield */) !== 0; } function countInitialNodesWithoutYield(nodes) { var numNodes = nodes.length; for (var i = 0; i < numNodes; i++) { if (containsYield(nodes[i])) { return i; } } return -1; } function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (hint === 1 /* Expression */) { return substituteExpression(node); } return node; } function substituteExpression(node) { if (ts.isIdentifier(node)) { return substituteExpressionIdentifier(node); } return node; } function substituteExpressionIdentifier(node) { if (!ts.isGeneratedIdentifier(node) && renamedCatchVariables && renamedCatchVariables.has(ts.idText(node))) { var original = ts.getOriginalNode(node); if (ts.isIdentifier(original) && original.parent) { var declaration = resolver.getReferencedValueDeclaration(original); if (declaration) { var name = renamedCatchVariableDeclarations[ts.getOriginalNodeId(declaration)]; if (name) { var clone_8 = ts.getMutableClone(name); ts.setSourceMapRange(clone_8, node); ts.setCommentRange(clone_8, node); return clone_8; } } } } return node; } function cacheExpression(node) { if (ts.isGeneratedIdentifier(node) || ts.getEmitFlags(node) & 4096 /* HelperName */) { return node; } var temp = ts.createTempVariable(hoistVariableDeclaration); emitAssignment(temp, node, /*location*/ node); return temp; } function declareLocal(name) { var temp = name ? ts.createUniqueName(name) : ts.createTempVariable(/*recordTempVariable*/ undefined); hoistVariableDeclaration(temp); return temp; } /** * Defines a label, uses as the target of a Break operation. */ function defineLabel() { if (!labelOffsets) { labelOffsets = []; } var label = nextLabelId; nextLabelId++; labelOffsets[label] = -1; return label; } /** * Marks the current operation with the specified label. */ function markLabel(label) { ts.Debug.assert(labelOffsets !== undefined, "No labels were defined."); labelOffsets[label] = operations ? operations.length : 0; } /** * Begins a block operation (With, Break/Continue, Try/Catch/Finally) * * @param block Information about the block. */ function beginBlock(block) { if (!blocks) { blocks = []; blockActions = []; blockOffsets = []; blockStack = []; } var index = blockActions.length; blockActions[index] = 0 /* Open */; blockOffsets[index] = operations ? operations.length : 0; blocks[index] = block; blockStack.push(block); return index; } /** * Ends the current block operation. */ function endBlock() { var block = peekBlock(); if (block === undefined) return ts.Debug.fail("beginBlock was never called."); var index = blockActions.length; blockActions[index] = 1 /* Close */; blockOffsets[index] = operations ? operations.length : 0; blocks[index] = block; blockStack.pop(); return block; } /** * Gets the current open block. */ function peekBlock() { return ts.lastOrUndefined(blockStack); } /** * Gets the kind of the current open block. */ function peekBlockKind() { var block = peekBlock(); return block && block.kind; } /** * Begins a code block for a generated `with` statement. * * @param expression An identifier representing expression for the `with` block. */ function beginWithBlock(expression) { var startLabel = defineLabel(); var endLabel = defineLabel(); markLabel(startLabel); beginBlock({ kind: 1 /* With */, expression: expression, startLabel: startLabel, endLabel: endLabel }); } /** * Ends a code block for a generated `with` statement. */ function endWithBlock() { ts.Debug.assert(peekBlockKind() === 1 /* With */); var block = endBlock(); markLabel(block.endLabel); } /** * Begins a code block for a generated `try` statement. */ function beginExceptionBlock() { var startLabel = defineLabel(); var endLabel = defineLabel(); markLabel(startLabel); beginBlock({ kind: 0 /* Exception */, state: 0 /* Try */, startLabel: startLabel, endLabel: endLabel }); emitNop(); return endLabel; } /** * Enters the `catch` clause of a generated `try` statement. * * @param variable The catch variable. */ function beginCatchBlock(variable) { ts.Debug.assert(peekBlockKind() === 0 /* Exception */); // generated identifiers should already be unique within a file var name; if (ts.isGeneratedIdentifier(variable.name)) { name = variable.name; hoistVariableDeclaration(variable.name); } else { var text = ts.idText(variable.name); name = declareLocal(text); if (!renamedCatchVariables) { renamedCatchVariables = ts.createMap(); renamedCatchVariableDeclarations = []; context.enableSubstitution(75 /* Identifier */); } renamedCatchVariables.set(text, true); renamedCatchVariableDeclarations[ts.getOriginalNodeId(variable)] = name; } var exception = peekBlock(); ts.Debug.assert(exception.state < 1 /* Catch */); var endLabel = exception.endLabel; emitBreak(endLabel); var catchLabel = defineLabel(); markLabel(catchLabel); exception.state = 1 /* Catch */; exception.catchVariable = name; exception.catchLabel = catchLabel; emitAssignment(name, ts.createCall(ts.createPropertyAccess(state, "sent"), /*typeArguments*/ undefined, [])); emitNop(); } /** * Enters the `finally` block of a generated `try` statement. */ function beginFinallyBlock() { ts.Debug.assert(peekBlockKind() === 0 /* Exception */); var exception = peekBlock(); ts.Debug.assert(exception.state < 2 /* Finally */); var endLabel = exception.endLabel; emitBreak(endLabel); var finallyLabel = defineLabel(); markLabel(finallyLabel); exception.state = 2 /* Finally */; exception.finallyLabel = finallyLabel; } /** * Ends the code block for a generated `try` statement. */ function endExceptionBlock() { ts.Debug.assert(peekBlockKind() === 0 /* Exception */); var exception = endBlock(); var state = exception.state; if (state < 2 /* Finally */) { emitBreak(exception.endLabel); } else { emitEndfinally(); } markLabel(exception.endLabel); emitNop(); exception.state = 3 /* Done */; } /** * Begins a code block that supports `break` or `continue` statements that are defined in * the source tree and not from generated code. * * @param labelText Names from containing labeled statements. */ function beginScriptLoopBlock() { beginBlock({ kind: 3 /* Loop */, isScript: true, breakLabel: -1, continueLabel: -1 }); } /** * Begins a code block that supports `break` or `continue` statements that are defined in * generated code. Returns a label used to mark the operation to which to jump when a * `break` statement targets this block. * * @param continueLabel A Label used to mark the operation to which to jump when a * `continue` statement targets this block. */ function beginLoopBlock(continueLabel) { var breakLabel = defineLabel(); beginBlock({ kind: 3 /* Loop */, isScript: false, breakLabel: breakLabel, continueLabel: continueLabel, }); return breakLabel; } /** * Ends a code block that supports `break` or `continue` statements that are defined in * generated code or in the source tree. */ function endLoopBlock() { ts.Debug.assert(peekBlockKind() === 3 /* Loop */); var block = endBlock(); var breakLabel = block.breakLabel; if (!block.isScript) { markLabel(breakLabel); } } /** * Begins a code block that supports `break` statements that are defined in the source * tree and not from generated code. * */ function beginScriptSwitchBlock() { beginBlock({ kind: 2 /* Switch */, isScript: true, breakLabel: -1 }); } /** * Begins a code block that supports `break` statements that are defined in generated code. * Returns a label used to mark the operation to which to jump when a `break` statement * targets this block. */ function beginSwitchBlock() { var breakLabel = defineLabel(); beginBlock({ kind: 2 /* Switch */, isScript: false, breakLabel: breakLabel, }); return breakLabel; } /** * Ends a code block that supports `break` statements that are defined in generated code. */ function endSwitchBlock() { ts.Debug.assert(peekBlockKind() === 2 /* Switch */); var block = endBlock(); var breakLabel = block.breakLabel; if (!block.isScript) { markLabel(breakLabel); } } function beginScriptLabeledBlock(labelText) { beginBlock({ kind: 4 /* Labeled */, isScript: true, labelText: labelText, breakLabel: -1 }); } function beginLabeledBlock(labelText) { var breakLabel = defineLabel(); beginBlock({ kind: 4 /* Labeled */, isScript: false, labelText: labelText, breakLabel: breakLabel }); } function endLabeledBlock() { ts.Debug.assert(peekBlockKind() === 4 /* Labeled */); var block = endBlock(); if (!block.isScript) { markLabel(block.breakLabel); } } /** * Indicates whether the provided block supports `break` statements. * * @param block A code block. */ function supportsUnlabeledBreak(block) { return block.kind === 2 /* Switch */ || block.kind === 3 /* Loop */; } /** * Indicates whether the provided block supports `break` statements with labels. * * @param block A code block. */ function supportsLabeledBreakOrContinue(block) { return block.kind === 4 /* Labeled */; } /** * Indicates whether the provided block supports `continue` statements. * * @param block A code block. */ function supportsUnlabeledContinue(block) { return block.kind === 3 /* Loop */; } function hasImmediateContainingLabeledBlock(labelText, start) { for (var j = start; j >= 0; j--) { var containingBlock = blockStack[j]; if (supportsLabeledBreakOrContinue(containingBlock)) { if (containingBlock.labelText === labelText) { return true; } } else { break; } } return false; } /** * Finds the label that is the target for a `break` statement. * * @param labelText An optional name of a containing labeled statement. */ function findBreakTarget(labelText) { if (blockStack) { if (labelText) { for (var i = blockStack.length - 1; i >= 0; i--) { var block = blockStack[i]; if (supportsLabeledBreakOrContinue(block) && block.labelText === labelText) { return block.breakLabel; } else if (supportsUnlabeledBreak(block) && hasImmediateContainingLabeledBlock(labelText, i - 1)) { return block.breakLabel; } } } else { for (var i = blockStack.length - 1; i >= 0; i--) { var block = blockStack[i]; if (supportsUnlabeledBreak(block)) { return block.breakLabel; } } } } return 0; } /** * Finds the label that is the target for a `continue` statement. * * @param labelText An optional name of a containing labeled statement. */ function findContinueTarget(labelText) { if (blockStack) { if (labelText) { for (var i = blockStack.length - 1; i >= 0; i--) { var block = blockStack[i]; if (supportsUnlabeledContinue(block) && hasImmediateContainingLabeledBlock(labelText, i - 1)) { return block.continueLabel; } } } else { for (var i = blockStack.length - 1; i >= 0; i--) { var block = blockStack[i]; if (supportsUnlabeledContinue(block)) { return block.continueLabel; } } } } return 0; } /** * Creates an expression that can be used to indicate the value for a label. * * @param label A label. */ function createLabel(label) { if (label !== undefined && label > 0) { if (labelExpressions === undefined) { labelExpressions = []; } var expression = ts.createLiteral(-1); if (labelExpressions[label] === undefined) { labelExpressions[label] = [expression]; } else { labelExpressions[label].push(expression); } return expression; } return ts.createOmittedExpression(); } /** * Creates a numeric literal for the provided instruction. */ function createInstruction(instruction) { var literal = ts.createLiteral(instruction); ts.addSyntheticTrailingComment(literal, 3 /* MultiLineCommentTrivia */, getInstructionName(instruction)); return literal; } /** * Creates a statement that can be used indicate a Break operation to the provided label. * * @param label A label. * @param location An optional source map location for the statement. */ function createInlineBreak(label, location) { ts.Debug.assertLessThan(0, label, "Invalid label"); return ts.setTextRange(ts.createReturn(ts.createArrayLiteral([ createInstruction(3 /* Break */), createLabel(label) ])), location); } /** * Creates a statement that can be used indicate a Return operation. * * @param expression The expression for the return statement. * @param location An optional source map location for the statement. */ function createInlineReturn(expression, location) { return ts.setTextRange(ts.createReturn(ts.createArrayLiteral(expression ? [createInstruction(2 /* Return */), expression] : [createInstruction(2 /* Return */)])), location); } /** * Creates an expression that can be used to resume from a Yield operation. */ function createGeneratorResume(location) { return ts.setTextRange(ts.createCall(ts.createPropertyAccess(state, "sent"), /*typeArguments*/ undefined, []), location); } /** * Emits an empty instruction. */ function emitNop() { emitWorker(0 /* Nop */); } /** * Emits a Statement. * * @param node A statement. */ function emitStatement(node) { if (node) { emitWorker(1 /* Statement */, [node]); } else { emitNop(); } } /** * Emits an Assignment operation. * * @param left The left-hand side of the assignment. * @param right The right-hand side of the assignment. * @param location An optional source map location for the assignment. */ function emitAssignment(left, right, location) { emitWorker(2 /* Assign */, [left, right], location); } /** * Emits a Break operation to the specified label. * * @param label A label. * @param location An optional source map location for the assignment. */ function emitBreak(label, location) { emitWorker(3 /* Break */, [label], location); } /** * Emits a Break operation to the specified label when a condition evaluates to a truthy * value at runtime. * * @param label A label. * @param condition The condition. * @param location An optional source map location for the assignment. */ function emitBreakWhenTrue(label, condition, location) { emitWorker(4 /* BreakWhenTrue */, [label, condition], location); } /** * Emits a Break to the specified label when a condition evaluates to a falsey value at * runtime. * * @param label A label. * @param condition The condition. * @param location An optional source map location for the assignment. */ function emitBreakWhenFalse(label, condition, location) { emitWorker(5 /* BreakWhenFalse */, [label, condition], location); } /** * Emits a YieldStar operation for the provided expression. * * @param expression An optional value for the yield operation. * @param location An optional source map location for the assignment. */ function emitYieldStar(expression, location) { emitWorker(7 /* YieldStar */, [expression], location); } /** * Emits a Yield operation for the provided expression. * * @param expression An optional value for the yield operation. * @param location An optional source map location for the assignment. */ function emitYield(expression, location) { emitWorker(6 /* Yield */, [expression], location); } /** * Emits a Return operation for the provided expression. * * @param expression An optional value for the operation. * @param location An optional source map location for the assignment. */ function emitReturn(expression, location) { emitWorker(8 /* Return */, [expression], location); } /** * Emits a Throw operation for the provided expression. * * @param expression A value for the operation. * @param location An optional source map location for the assignment. */ function emitThrow(expression, location) { emitWorker(9 /* Throw */, [expression], location); } /** * Emits an Endfinally operation. This is used to handle `finally` block semantics. */ function emitEndfinally() { emitWorker(10 /* Endfinally */); } /** * Emits an operation. * * @param code The OpCode for the operation. * @param args The optional arguments for the operation. */ function emitWorker(code, args, location) { if (operations === undefined) { operations = []; operationArguments = []; operationLocations = []; } if (labelOffsets === undefined) { // mark entry point markLabel(defineLabel()); } var operationIndex = operations.length; operations[operationIndex] = code; operationArguments[operationIndex] = args; operationLocations[operationIndex] = location; } /** * Builds the generator function body. */ function build() { blockIndex = 0; labelNumber = 0; labelNumbers = undefined; lastOperationWasAbrupt = false; lastOperationWasCompletion = false; clauses = undefined; statements = undefined; exceptionBlockStack = undefined; currentExceptionBlock = undefined; withBlockStack = undefined; var buildResult = buildStatements(); return createGeneratorHelper(context, ts.setEmitFlags(ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, state)], /*type*/ undefined, ts.createBlock(buildResult, /*multiLine*/ buildResult.length > 0)), 524288 /* ReuseTempVariableScope */)); } /** * Builds the statements for the generator function body. */ function buildStatements() { if (operations) { for (var operationIndex = 0; operationIndex < operations.length; operationIndex++) { writeOperation(operationIndex); } flushFinalLabel(operations.length); } else { flushFinalLabel(0); } if (clauses) { var labelExpression = ts.createPropertyAccess(state, "label"); var switchStatement = ts.createSwitch(labelExpression, ts.createCaseBlock(clauses)); return [ts.startOnNewLine(switchStatement)]; } if (statements) { return statements; } return []; } /** * Flush the current label and advance to a new label. */ function flushLabel() { if (!statements) { return; } appendLabel(/*markLabelEnd*/ !lastOperationWasAbrupt); lastOperationWasAbrupt = false; lastOperationWasCompletion = false; labelNumber++; } /** * Flush the final label of the generator function body. */ function flushFinalLabel(operationIndex) { if (isFinalLabelReachable(operationIndex)) { tryEnterLabel(operationIndex); withBlockStack = undefined; writeReturn(/*expression*/ undefined, /*operationLocation*/ undefined); } if (statements && clauses) { appendLabel(/*markLabelEnd*/ false); } updateLabelExpressions(); } /** * Tests whether the final label of the generator function body * is reachable by user code. */ function isFinalLabelReachable(operationIndex) { // if the last operation was *not* a completion (return/throw) then // the final label is reachable. if (!lastOperationWasCompletion) { return true; } // if there are no labels defined or referenced, then the final label is // not reachable. if (!labelOffsets || !labelExpressions) { return false; } // if the label for this offset is referenced, then the final label // is reachable. for (var label = 0; label < labelOffsets.length; label++) { if (labelOffsets[label] === operationIndex && labelExpressions[label]) { return true; } } return false; } /** * Appends a case clause for the last label and sets the new label. * * @param markLabelEnd Indicates that the transition between labels was a fall-through * from a previous case clause and the change in labels should be * reflected on the `state` object. */ function appendLabel(markLabelEnd) { if (!clauses) { clauses = []; } if (statements) { if (withBlockStack) { // The previous label was nested inside one or more `with` blocks, so we // surround the statements in generated `with` blocks to create the same environment. for (var i = withBlockStack.length - 1; i >= 0; i--) { var withBlock = withBlockStack[i]; statements = [ts.createWith(withBlock.expression, ts.createBlock(statements))]; } } if (currentExceptionBlock) { // The previous label was nested inside of an exception block, so we must // indicate entry into a protected region by pushing the label numbers // for each block in the protected region. var startLabel = currentExceptionBlock.startLabel, catchLabel = currentExceptionBlock.catchLabel, finallyLabel = currentExceptionBlock.finallyLabel, endLabel = currentExceptionBlock.endLabel; statements.unshift(ts.createExpressionStatement(ts.createCall(ts.createPropertyAccess(ts.createPropertyAccess(state, "trys"), "push"), /*typeArguments*/ undefined, [ ts.createArrayLiteral([ createLabel(startLabel), createLabel(catchLabel), createLabel(finallyLabel), createLabel(endLabel) ]) ]))); currentExceptionBlock = undefined; } if (markLabelEnd) { // The case clause for the last label falls through to this label, so we // add an assignment statement to reflect the change in labels. statements.push(ts.createExpressionStatement(ts.createAssignment(ts.createPropertyAccess(state, "label"), ts.createLiteral(labelNumber + 1)))); } } clauses.push(ts.createCaseClause(ts.createLiteral(labelNumber), statements || [])); statements = undefined; } /** * Tries to enter into a new label at the current operation index. */ function tryEnterLabel(operationIndex) { if (!labelOffsets) { return; } for (var label = 0; label < labelOffsets.length; label++) { if (labelOffsets[label] === operationIndex) { flushLabel(); if (labelNumbers === undefined) { labelNumbers = []; } if (labelNumbers[labelNumber] === undefined) { labelNumbers[labelNumber] = [label]; } else { labelNumbers[labelNumber].push(label); } } } } /** * Updates literal expressions for labels with actual label numbers. */ function updateLabelExpressions() { if (labelExpressions !== undefined && labelNumbers !== undefined) { for (var labelNumber_1 = 0; labelNumber_1 < labelNumbers.length; labelNumber_1++) { var labels = labelNumbers[labelNumber_1]; if (labels !== undefined) { for (var _i = 0, labels_1 = labels; _i < labels_1.length; _i++) { var label = labels_1[_i]; var expressions = labelExpressions[label]; if (expressions !== undefined) { for (var _a = 0, expressions_1 = expressions; _a < expressions_1.length; _a++) { var expression = expressions_1[_a]; expression.text = String(labelNumber_1); } } } } } } } /** * Tries to enter or leave a code block. */ function tryEnterOrLeaveBlock(operationIndex) { if (blocks) { for (; blockIndex < blockActions.length && blockOffsets[blockIndex] <= operationIndex; blockIndex++) { var block = blocks[blockIndex]; var blockAction = blockActions[blockIndex]; switch (block.kind) { case 0 /* Exception */: if (blockAction === 0 /* Open */) { if (!exceptionBlockStack) { exceptionBlockStack = []; } if (!statements) { statements = []; } exceptionBlockStack.push(currentExceptionBlock); currentExceptionBlock = block; } else if (blockAction === 1 /* Close */) { currentExceptionBlock = exceptionBlockStack.pop(); } break; case 1 /* With */: if (blockAction === 0 /* Open */) { if (!withBlockStack) { withBlockStack = []; } withBlockStack.push(block); } else if (blockAction === 1 /* Close */) { withBlockStack.pop(); } break; // default: do nothing } } } } /** * Writes an operation as a statement to the current label's statement list. * * @param operation The OpCode of the operation */ function writeOperation(operationIndex) { tryEnterLabel(operationIndex); tryEnterOrLeaveBlock(operationIndex); // early termination, nothing else to process in this label if (lastOperationWasAbrupt) { return; } lastOperationWasAbrupt = false; lastOperationWasCompletion = false; var opcode = operations[operationIndex]; if (opcode === 0 /* Nop */) { return; } else if (opcode === 10 /* Endfinally */) { return writeEndfinally(); } var args = operationArguments[operationIndex]; if (opcode === 1 /* Statement */) { return writeStatement(args[0]); } var location = operationLocations[operationIndex]; switch (opcode) { case 2 /* Assign */: return writeAssign(args[0], args[1], location); case 3 /* Break */: return writeBreak(args[0], location); case 4 /* BreakWhenTrue */: return writeBreakWhenTrue(args[0], args[1], location); case 5 /* BreakWhenFalse */: return writeBreakWhenFalse(args[0], args[1], location); case 6 /* Yield */: return writeYield(args[0], location); case 7 /* YieldStar */: return writeYieldStar(args[0], location); case 8 /* Return */: return writeReturn(args[0], location); case 9 /* Throw */: return writeThrow(args[0], location); } } /** * Writes a statement to the current label's statement list. * * @param statement A statement to write. */ function writeStatement(statement) { if (statement) { if (!statements) { statements = [statement]; } else { statements.push(statement); } } } /** * Writes an Assign operation to the current label's statement list. * * @param left The left-hand side of the assignment. * @param right The right-hand side of the assignment. * @param operationLocation The source map location for the operation. */ function writeAssign(left, right, operationLocation) { writeStatement(ts.setTextRange(ts.createExpressionStatement(ts.createAssignment(left, right)), operationLocation)); } /** * Writes a Throw operation to the current label's statement list. * * @param expression The value to throw. * @param operationLocation The source map location for the operation. */ function writeThrow(expression, operationLocation) { lastOperationWasAbrupt = true; lastOperationWasCompletion = true; writeStatement(ts.setTextRange(ts.createThrow(expression), operationLocation)); } /** * Writes a Return operation to the current label's statement list. * * @param expression The value to return. * @param operationLocation The source map location for the operation. */ function writeReturn(expression, operationLocation) { lastOperationWasAbrupt = true; lastOperationWasCompletion = true; writeStatement(ts.setEmitFlags(ts.setTextRange(ts.createReturn(ts.createArrayLiteral(expression ? [createInstruction(2 /* Return */), expression] : [createInstruction(2 /* Return */)])), operationLocation), 384 /* NoTokenSourceMaps */)); } /** * Writes a Break operation to the current label's statement list. * * @param label The label for the Break. * @param operationLocation The source map location for the operation. */ function writeBreak(label, operationLocation) { lastOperationWasAbrupt = true; writeStatement(ts.setEmitFlags(ts.setTextRange(ts.createReturn(ts.createArrayLiteral([ createInstruction(3 /* Break */), createLabel(label) ])), operationLocation), 384 /* NoTokenSourceMaps */)); } /** * Writes a BreakWhenTrue operation to the current label's statement list. * * @param label The label for the Break. * @param condition The condition for the Break. * @param operationLocation The source map location for the operation. */ function writeBreakWhenTrue(label, condition, operationLocation) { writeStatement(ts.setEmitFlags(ts.createIf(condition, ts.setEmitFlags(ts.setTextRange(ts.createReturn(ts.createArrayLiteral([ createInstruction(3 /* Break */), createLabel(label) ])), operationLocation), 384 /* NoTokenSourceMaps */)), 1 /* SingleLine */)); } /** * Writes a BreakWhenFalse operation to the current label's statement list. * * @param label The label for the Break. * @param condition The condition for the Break. * @param operationLocation The source map location for the operation. */ function writeBreakWhenFalse(label, condition, operationLocation) { writeStatement(ts.setEmitFlags(ts.createIf(ts.createLogicalNot(condition), ts.setEmitFlags(ts.setTextRange(ts.createReturn(ts.createArrayLiteral([ createInstruction(3 /* Break */), createLabel(label) ])), operationLocation), 384 /* NoTokenSourceMaps */)), 1 /* SingleLine */)); } /** * Writes a Yield operation to the current label's statement list. * * @param expression The expression to yield. * @param operationLocation The source map location for the operation. */ function writeYield(expression, operationLocation) { lastOperationWasAbrupt = true; writeStatement(ts.setEmitFlags(ts.setTextRange(ts.createReturn(ts.createArrayLiteral(expression ? [createInstruction(4 /* Yield */), expression] : [createInstruction(4 /* Yield */)])), operationLocation), 384 /* NoTokenSourceMaps */)); } /** * Writes a YieldStar instruction to the current label's statement list. * * @param expression The expression to yield. * @param operationLocation The source map location for the operation. */ function writeYieldStar(expression, operationLocation) { lastOperationWasAbrupt = true; writeStatement(ts.setEmitFlags(ts.setTextRange(ts.createReturn(ts.createArrayLiteral([ createInstruction(5 /* YieldStar */), expression ])), operationLocation), 384 /* NoTokenSourceMaps */)); } /** * Writes an Endfinally instruction to the current label's statement list. */ function writeEndfinally() { lastOperationWasAbrupt = true; writeStatement(ts.createReturn(ts.createArrayLiteral([ createInstruction(7 /* Endfinally */) ]))); } } ts.transformGenerators = transformGenerators; function createGeneratorHelper(context, body) { context.requestEmitHelper(ts.generatorHelper); return ts.createCall(ts.getUnscopedHelperName("__generator"), /*typeArguments*/ undefined, [ts.createThis(), body]); } // The __generator helper is used by down-level transformations to emulate the runtime // semantics of an ES2015 generator function. When called, this helper returns an // object that implements the Iterator protocol, in that it has `next`, `return`, and // `throw` methods that step through the generator when invoked. // // parameters: // @param thisArg The value to use as the `this` binding for the transformed generator body. // @param body A function that acts as the transformed generator body. // // variables: // _ Persistent state for the generator that is shared between the helper and the // generator body. The state object has the following members: // sent() - A method that returns or throws the current completion value. // label - The next point at which to resume evaluation of the generator body. // trys - A stack of protected regions (try/catch/finally blocks). // ops - A stack of pending instructions when inside of a finally block. // f A value indicating whether the generator is executing. // y An iterator to delegate for a yield*. // t A temporary variable that holds one of the following values (note that these // cases do not overlap): // - The completion value when resuming from a `yield` or `yield*`. // - The error value for a catch block. // - The current protected region (array of try/catch/finally/end labels). // - The verb (`next`, `throw`, or `return` method) to delegate to the expression // of a `yield*`. // - The result of evaluating the verb delegated to the expression of a `yield*`. // // functions: // verb(n) Creates a bound callback to the `step` function for opcode `n`. // step(op) Evaluates opcodes in a generator body until execution is suspended or // completed. // // The __generator helper understands a limited set of instructions: // 0: next(value?) - Start or resume the generator with the specified value. // 1: throw(error) - Resume the generator with an exception. If the generator is // suspended inside of one or more protected regions, evaluates // any intervening finally blocks between the current label and // the nearest catch block or function boundary. If uncaught, the // exception is thrown to the caller. // 2: return(value?) - Resume the generator as if with a return. If the generator is // suspended inside of one or more protected regions, evaluates any // intervening finally blocks. // 3: break(label) - Jump to the specified label. If the label is outside of the // current protected region, evaluates any intervening finally // blocks. // 4: yield(value?) - Yield execution to the caller with an optional value. When // resumed, the generator will continue at the next label. // 5: yield*(value) - Delegates evaluation to the supplied iterator. When // delegation completes, the generator will continue at the next // label. // 6: catch(error) - Handles an exception thrown from within the generator body. If // the current label is inside of one or more protected regions, // evaluates any intervening finally blocks between the current // label and the nearest catch block or function boundary. If // uncaught, the exception is thrown to the caller. // 7: endfinally - Ends a finally block, resuming the last instruction prior to // entering a finally block. // // For examples of how these are used, see the comments in ./transformers/generators.ts ts.generatorHelper = { name: "typescript:generator", importName: "__generator", scoped: false, priority: 6, text: "\n var __generator = (this && this.__generator) || function (thisArg, body) {\n var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g;\n return g = { next: verb(0), \"throw\": verb(1), \"return\": verb(2) }, typeof Symbol === \"function\" && (g[Symbol.iterator] = function() { return this; }), g;\n function verb(n) { return function (v) { return step([n, v]); }; }\n function step(op) {\n if (f) throw new TypeError(\"Generator is already executing.\");\n while (_) try {\n if (f = 1, y && (t = op[0] & 2 ? y[\"return\"] : op[0] ? y[\"throw\"] || ((t = y[\"return\"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t;\n if (y = 0, t) op = [op[0] & 2, t.value];\n switch (op[0]) {\n case 0: case 1: t = op; break;\n case 4: _.label++; return { value: op[1], done: false };\n case 5: _.label++; y = op[1]; op = [0]; continue;\n case 7: op = _.ops.pop(); _.trys.pop(); continue;\n default:\n if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; }\n if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; }\n if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; }\n if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; }\n if (t[2]) _.ops.pop();\n _.trys.pop(); continue;\n }\n op = body.call(thisArg, _);\n } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; }\n if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true };\n }\n };" }; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformModule(context) { function getTransformModuleDelegate(moduleKind) { switch (moduleKind) { case ts.ModuleKind.AMD: return transformAMDModule; case ts.ModuleKind.UMD: return transformUMDModule; default: return transformCommonJSModule; } } var startLexicalEnvironment = context.startLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistVariableDeclaration = context.hoistVariableDeclaration; var compilerOptions = context.getCompilerOptions(); var resolver = context.getEmitResolver(); var host = context.getEmitHost(); var languageVersion = ts.getEmitScriptTarget(compilerOptions); var moduleKind = ts.getEmitModuleKind(compilerOptions); var previousOnSubstituteNode = context.onSubstituteNode; var previousOnEmitNode = context.onEmitNode; context.onSubstituteNode = onSubstituteNode; context.onEmitNode = onEmitNode; context.enableSubstitution(75 /* Identifier */); // Substitutes expression identifiers with imported/exported symbols. context.enableSubstitution(209 /* BinaryExpression */); // Substitutes assignments to exported symbols. context.enableSubstitution(207 /* PrefixUnaryExpression */); // Substitutes updates to exported symbols. context.enableSubstitution(208 /* PostfixUnaryExpression */); // Substitutes updates to exported symbols. context.enableSubstitution(282 /* ShorthandPropertyAssignment */); // Substitutes shorthand property assignments for imported/exported symbols. context.enableEmitNotification(290 /* SourceFile */); // Restore state when substituting nodes in a file. var moduleInfoMap = []; // The ExternalModuleInfo for each file. var deferredExports = []; // Exports to defer until an EndOfDeclarationMarker is found. var currentSourceFile; // The current file. var currentModuleInfo; // The ExternalModuleInfo for the current file. var noSubstitution; // Set of nodes for which substitution rules should be ignored. var needUMDDynamicImportHelper; return ts.chainBundle(transformSourceFile); /** * Transforms the module aspects of a SourceFile. * * @param node The SourceFile node. */ function transformSourceFile(node) { if (node.isDeclarationFile || !(ts.isEffectiveExternalModule(node, compilerOptions) || node.transformFlags & 2097152 /* ContainsDynamicImport */ || (ts.isJsonSourceFile(node) && ts.hasJsonModuleEmitEnabled(compilerOptions) && (compilerOptions.out || compilerOptions.outFile)))) { return node; } currentSourceFile = node; currentModuleInfo = ts.collectExternalModuleInfo(node, resolver, compilerOptions); moduleInfoMap[ts.getOriginalNodeId(node)] = currentModuleInfo; // Perform the transformation. var transformModule = getTransformModuleDelegate(moduleKind); var updated = transformModule(node); currentSourceFile = undefined; currentModuleInfo = undefined; needUMDDynamicImportHelper = false; return ts.aggregateTransformFlags(updated); } function shouldEmitUnderscoreUnderscoreESModule() { if (!currentModuleInfo.exportEquals && ts.isExternalModule(currentSourceFile)) { return true; } return false; } /** * Transforms a SourceFile into a CommonJS module. * * @param node The SourceFile node. */ function transformCommonJSModule(node) { startLexicalEnvironment(); var statements = []; var ensureUseStrict = ts.getStrictOptionValue(compilerOptions, "alwaysStrict") || (!compilerOptions.noImplicitUseStrict && ts.isExternalModule(currentSourceFile)); var statementOffset = ts.addPrologue(statements, node.statements, ensureUseStrict && !ts.isJsonSourceFile(node), sourceElementVisitor); if (shouldEmitUnderscoreUnderscoreESModule()) { ts.append(statements, createUnderscoreUnderscoreESModule()); } if (ts.length(currentModuleInfo.exportedNames)) { ts.append(statements, ts.createExpressionStatement(ts.reduceLeft(currentModuleInfo.exportedNames, function (prev, nextId) { return ts.createAssignment(ts.createPropertyAccess(ts.createIdentifier("exports"), ts.createIdentifier(ts.idText(nextId))), prev); }, ts.createVoidZero()))); } ts.append(statements, ts.visitNode(currentModuleInfo.externalHelpersImportDeclaration, sourceElementVisitor, ts.isStatement)); ts.addRange(statements, ts.visitNodes(node.statements, sourceElementVisitor, ts.isStatement, statementOffset)); addExportEqualsIfNeeded(statements, /*emitAsReturn*/ false); ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); var updated = ts.updateSourceFileNode(node, ts.setTextRange(ts.createNodeArray(statements), node.statements)); ts.addEmitHelpers(updated, context.readEmitHelpers()); return updated; } /** * Transforms a SourceFile into an AMD module. * * @param node The SourceFile node. */ function transformAMDModule(node) { var define = ts.createIdentifier("define"); var moduleName = ts.tryGetModuleNameFromFile(node, host, compilerOptions); var jsonSourceFile = ts.isJsonSourceFile(node) && node; // An AMD define function has the following shape: // // define(id?, dependencies?, factory); // // This has the shape of the following: // // define(name, ["module1", "module2"], function (module1Alias) { ... } // // The location of the alias in the parameter list in the factory function needs to // match the position of the module name in the dependency list. // // To ensure this is true in cases of modules with no aliases, e.g.: // // import "module" // // or // // /// // // we need to add modules without alias names to the end of the dependencies list var _a = collectAsynchronousDependencies(node, /*includeNonAmdDependencies*/ true), aliasedModuleNames = _a.aliasedModuleNames, unaliasedModuleNames = _a.unaliasedModuleNames, importAliasNames = _a.importAliasNames; // Create an updated SourceFile: // // define(moduleName?, ["module1", "module2"], function ... var updated = ts.updateSourceFileNode(node, ts.setTextRange(ts.createNodeArray([ ts.createExpressionStatement(ts.createCall(define, /*typeArguments*/ undefined, __spreadArrays((moduleName ? [moduleName] : []), [ // Add the dependency array argument: // // ["require", "exports", module1", "module2", ...] ts.createArrayLiteral(jsonSourceFile ? ts.emptyArray : __spreadArrays([ ts.createLiteral("require"), ts.createLiteral("exports") ], aliasedModuleNames, unaliasedModuleNames)), // Add the module body function argument: // // function (require, exports, module1, module2) ... jsonSourceFile ? jsonSourceFile.statements.length ? jsonSourceFile.statements[0].expression : ts.createObjectLiteral() : ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, __spreadArrays([ ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "require"), ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "exports") ], importAliasNames), /*type*/ undefined, transformAsynchronousModuleBody(node)) ]))) ]), /*location*/ node.statements)); ts.addEmitHelpers(updated, context.readEmitHelpers()); return updated; } /** * Transforms a SourceFile into a UMD module. * * @param node The SourceFile node. */ function transformUMDModule(node) { var _a = collectAsynchronousDependencies(node, /*includeNonAmdDependencies*/ false), aliasedModuleNames = _a.aliasedModuleNames, unaliasedModuleNames = _a.unaliasedModuleNames, importAliasNames = _a.importAliasNames; var moduleName = ts.tryGetModuleNameFromFile(node, host, compilerOptions); var umdHeader = ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "factory")], /*type*/ undefined, ts.setTextRange(ts.createBlock([ ts.createIf(ts.createLogicalAnd(ts.createTypeCheck(ts.createIdentifier("module"), "object"), ts.createTypeCheck(ts.createPropertyAccess(ts.createIdentifier("module"), "exports"), "object")), ts.createBlock([ ts.createVariableStatement( /*modifiers*/ undefined, [ ts.createVariableDeclaration("v", /*type*/ undefined, ts.createCall(ts.createIdentifier("factory"), /*typeArguments*/ undefined, [ ts.createIdentifier("require"), ts.createIdentifier("exports") ])) ]), ts.setEmitFlags(ts.createIf(ts.createStrictInequality(ts.createIdentifier("v"), ts.createIdentifier("undefined")), ts.createExpressionStatement(ts.createAssignment(ts.createPropertyAccess(ts.createIdentifier("module"), "exports"), ts.createIdentifier("v")))), 1 /* SingleLine */) ]), ts.createIf(ts.createLogicalAnd(ts.createTypeCheck(ts.createIdentifier("define"), "function"), ts.createPropertyAccess(ts.createIdentifier("define"), "amd")), ts.createBlock([ ts.createExpressionStatement(ts.createCall(ts.createIdentifier("define"), /*typeArguments*/ undefined, __spreadArrays((moduleName ? [moduleName] : []), [ ts.createArrayLiteral(__spreadArrays([ ts.createLiteral("require"), ts.createLiteral("exports") ], aliasedModuleNames, unaliasedModuleNames)), ts.createIdentifier("factory") ]))) ]))) ], /*multiLine*/ true), /*location*/ undefined)); // Create an updated SourceFile: // // (function (factory) { // if (typeof module === "object" && typeof module.exports === "object") { // var v = factory(require, exports); // if (v !== undefined) module.exports = v; // } // else if (typeof define === 'function' && define.amd) { // define(["require", "exports"], factory); // } // })(function ...) var updated = ts.updateSourceFileNode(node, ts.setTextRange(ts.createNodeArray([ ts.createExpressionStatement(ts.createCall(umdHeader, /*typeArguments*/ undefined, [ // Add the module body function argument: // // function (require, exports) ... ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, __spreadArrays([ ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "require"), ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "exports") ], importAliasNames), /*type*/ undefined, transformAsynchronousModuleBody(node)) ])) ]), /*location*/ node.statements)); ts.addEmitHelpers(updated, context.readEmitHelpers()); return updated; } /** * Collect the additional asynchronous dependencies for the module. * * @param node The source file. * @param includeNonAmdDependencies A value indicating whether to include non-AMD dependencies. */ function collectAsynchronousDependencies(node, includeNonAmdDependencies) { // names of modules with corresponding parameter in the factory function var aliasedModuleNames = []; // names of modules with no corresponding parameters in factory function var unaliasedModuleNames = []; // names of the parameters in the factory function; these // parameters need to match the indexes of the corresponding // module names in aliasedModuleNames. var importAliasNames = []; // Fill in amd-dependency tags for (var _i = 0, _a = node.amdDependencies; _i < _a.length; _i++) { var amdDependency = _a[_i]; if (amdDependency.name) { aliasedModuleNames.push(ts.createLiteral(amdDependency.path)); importAliasNames.push(ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, amdDependency.name)); } else { unaliasedModuleNames.push(ts.createLiteral(amdDependency.path)); } } for (var _b = 0, _c = currentModuleInfo.externalImports; _b < _c.length; _b++) { var importNode = _c[_b]; // Find the name of the external module var externalModuleName = ts.getExternalModuleNameLiteral(importNode, currentSourceFile, host, resolver, compilerOptions); // Find the name of the module alias, if there is one var importAliasName = ts.getLocalNameForExternalImport(importNode, currentSourceFile); // It is possible that externalModuleName is undefined if it is not string literal. // This can happen in the invalid import syntax. // E.g : "import * from alias from 'someLib';" if (externalModuleName) { if (includeNonAmdDependencies && importAliasName) { // Set emitFlags on the name of the classDeclaration // This is so that when printer will not substitute the identifier ts.setEmitFlags(importAliasName, 4 /* NoSubstitution */); aliasedModuleNames.push(externalModuleName); importAliasNames.push(ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, importAliasName)); } else { unaliasedModuleNames.push(externalModuleName); } } } return { aliasedModuleNames: aliasedModuleNames, unaliasedModuleNames: unaliasedModuleNames, importAliasNames: importAliasNames }; } function getAMDImportExpressionForImport(node) { if (ts.isImportEqualsDeclaration(node) || ts.isExportDeclaration(node) || !ts.getExternalModuleNameLiteral(node, currentSourceFile, host, resolver, compilerOptions)) { return undefined; } var name = ts.getLocalNameForExternalImport(node, currentSourceFile); // TODO: GH#18217 var expr = getHelperExpressionForImport(node, name); if (expr === name) { return undefined; } return ts.createExpressionStatement(ts.createAssignment(name, expr)); } /** * Transforms a SourceFile into an AMD or UMD module body. * * @param node The SourceFile node. */ function transformAsynchronousModuleBody(node) { startLexicalEnvironment(); var statements = []; var statementOffset = ts.addPrologue(statements, node.statements, /*ensureUseStrict*/ !compilerOptions.noImplicitUseStrict, sourceElementVisitor); if (shouldEmitUnderscoreUnderscoreESModule()) { ts.append(statements, createUnderscoreUnderscoreESModule()); } if (ts.length(currentModuleInfo.exportedNames)) { ts.append(statements, ts.createExpressionStatement(ts.reduceLeft(currentModuleInfo.exportedNames, function (prev, nextId) { return ts.createAssignment(ts.createPropertyAccess(ts.createIdentifier("exports"), ts.createIdentifier(ts.idText(nextId))), prev); }, ts.createVoidZero()))); } // Visit each statement of the module body. ts.append(statements, ts.visitNode(currentModuleInfo.externalHelpersImportDeclaration, sourceElementVisitor, ts.isStatement)); if (moduleKind === ts.ModuleKind.AMD) { ts.addRange(statements, ts.mapDefined(currentModuleInfo.externalImports, getAMDImportExpressionForImport)); } ts.addRange(statements, ts.visitNodes(node.statements, sourceElementVisitor, ts.isStatement, statementOffset)); // Append the 'export =' statement if provided. addExportEqualsIfNeeded(statements, /*emitAsReturn*/ true); // End the lexical environment for the module body // and merge any new lexical declarations. ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); var body = ts.createBlock(statements, /*multiLine*/ true); if (needUMDDynamicImportHelper) { ts.addEmitHelper(body, dynamicImportUMDHelper); } return body; } /** * Adds the down-level representation of `export=` to the statement list if one exists * in the source file. * * @param statements The Statement list to modify. * @param emitAsReturn A value indicating whether to emit the `export=` statement as a * return statement. */ function addExportEqualsIfNeeded(statements, emitAsReturn) { if (currentModuleInfo.exportEquals) { var expressionResult = ts.visitNode(currentModuleInfo.exportEquals.expression, moduleExpressionElementVisitor); if (expressionResult) { if (emitAsReturn) { var statement = ts.createReturn(expressionResult); ts.setTextRange(statement, currentModuleInfo.exportEquals); ts.setEmitFlags(statement, 384 /* NoTokenSourceMaps */ | 1536 /* NoComments */); statements.push(statement); } else { var statement = ts.createExpressionStatement(ts.createAssignment(ts.createPropertyAccess(ts.createIdentifier("module"), "exports"), expressionResult)); ts.setTextRange(statement, currentModuleInfo.exportEquals); ts.setEmitFlags(statement, 1536 /* NoComments */); statements.push(statement); } } } } // // Top-Level Source Element Visitors // /** * Visits a node at the top level of the source file. * * @param node The node to visit. */ function sourceElementVisitor(node) { switch (node.kind) { case 254 /* ImportDeclaration */: return visitImportDeclaration(node); case 253 /* ImportEqualsDeclaration */: return visitImportEqualsDeclaration(node); case 260 /* ExportDeclaration */: return visitExportDeclaration(node); case 259 /* ExportAssignment */: return visitExportAssignment(node); case 225 /* VariableStatement */: return visitVariableStatement(node); case 244 /* FunctionDeclaration */: return visitFunctionDeclaration(node); case 245 /* ClassDeclaration */: return visitClassDeclaration(node); case 328 /* MergeDeclarationMarker */: return visitMergeDeclarationMarker(node); case 329 /* EndOfDeclarationMarker */: return visitEndOfDeclarationMarker(node); default: return ts.visitEachChild(node, moduleExpressionElementVisitor, context); } } function moduleExpressionElementVisitor(node) { // This visitor does not need to descend into the tree if there is no dynamic import or destructuring assignment, // as export/import statements are only transformed at the top level of a file. if (!(node.transformFlags & 2097152 /* ContainsDynamicImport */) && !(node.transformFlags & 1024 /* ContainsDestructuringAssignment */)) { return node; } if (ts.isImportCall(node)) { return visitImportCallExpression(node); } else if (ts.isDestructuringAssignment(node)) { return visitDestructuringAssignment(node); } else { return ts.visitEachChild(node, moduleExpressionElementVisitor, context); } } function destructuringNeedsFlattening(node) { if (ts.isObjectLiteralExpression(node)) { for (var _i = 0, _a = node.properties; _i < _a.length; _i++) { var elem = _a[_i]; switch (elem.kind) { case 281 /* PropertyAssignment */: if (destructuringNeedsFlattening(elem.initializer)) { return true; } break; case 282 /* ShorthandPropertyAssignment */: if (destructuringNeedsFlattening(elem.name)) { return true; } break; case 283 /* SpreadAssignment */: if (destructuringNeedsFlattening(elem.expression)) { return true; } break; case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return false; default: ts.Debug.assertNever(elem, "Unhandled object member kind"); } } } else if (ts.isArrayLiteralExpression(node)) { for (var _b = 0, _c = node.elements; _b < _c.length; _b++) { var elem = _c[_b]; if (ts.isSpreadElement(elem)) { if (destructuringNeedsFlattening(elem.expression)) { return true; } } else if (destructuringNeedsFlattening(elem)) { return true; } } } else if (ts.isIdentifier(node)) { return ts.length(getExports(node)) > (ts.isExportName(node) ? 1 : 0); } return false; } function visitDestructuringAssignment(node) { if (destructuringNeedsFlattening(node.left)) { return ts.flattenDestructuringAssignment(node, moduleExpressionElementVisitor, context, 0 /* All */, /*needsValue*/ false, createAllExportExpressions); } return ts.visitEachChild(node, moduleExpressionElementVisitor, context); } function visitImportCallExpression(node) { var argument = ts.visitNode(ts.firstOrUndefined(node.arguments), moduleExpressionElementVisitor); var containsLexicalThis = !!(node.transformFlags & 4096 /* ContainsLexicalThis */); switch (compilerOptions.module) { case ts.ModuleKind.AMD: return createImportCallExpressionAMD(argument, containsLexicalThis); case ts.ModuleKind.UMD: return createImportCallExpressionUMD(argument, containsLexicalThis); case ts.ModuleKind.CommonJS: default: return createImportCallExpressionCommonJS(argument, containsLexicalThis); } } function createImportCallExpressionUMD(arg, containsLexicalThis) { // (function (factory) { // ... (regular UMD) // } // })(function (require, exports, useSyncRequire) { // "use strict"; // Object.defineProperty(exports, "__esModule", { value: true }); // var __syncRequire = typeof module === "object" && typeof module.exports === "object"; // var __resolved = new Promise(function (resolve) { resolve(); }); // ..... // __syncRequire // ? __resolved.then(function () { return require(x); }) /*CommonJs Require*/ // : new Promise(function (_a, _b) { require([x], _a, _b); }); /*Amd Require*/ // }); needUMDDynamicImportHelper = true; if (ts.isSimpleCopiableExpression(arg)) { var argClone = ts.isGeneratedIdentifier(arg) ? arg : ts.isStringLiteral(arg) ? ts.createLiteral(arg) : ts.setEmitFlags(ts.setTextRange(ts.getSynthesizedClone(arg), arg), 1536 /* NoComments */); return ts.createConditional( /*condition*/ ts.createIdentifier("__syncRequire"), /*whenTrue*/ createImportCallExpressionCommonJS(arg, containsLexicalThis), /*whenFalse*/ createImportCallExpressionAMD(argClone, containsLexicalThis)); } else { var temp = ts.createTempVariable(hoistVariableDeclaration); return ts.createComma(ts.createAssignment(temp, arg), ts.createConditional( /*condition*/ ts.createIdentifier("__syncRequire"), /*whenTrue*/ createImportCallExpressionCommonJS(temp, containsLexicalThis), /*whenFalse*/ createImportCallExpressionAMD(temp, containsLexicalThis))); } } function createImportCallExpressionAMD(arg, containsLexicalThis) { // improt("./blah") // emit as // define(["require", "exports", "blah"], function (require, exports) { // ... // new Promise(function (_a, _b) { require([x], _a, _b); }); /*Amd Require*/ // }); var resolve = ts.createUniqueName("resolve"); var reject = ts.createUniqueName("reject"); var parameters = [ ts.createParameter(/*decorator*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, /*name*/ resolve), ts.createParameter(/*decorator*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, /*name*/ reject) ]; var body = ts.createBlock([ ts.createExpressionStatement(ts.createCall(ts.createIdentifier("require"), /*typeArguments*/ undefined, [ts.createArrayLiteral([arg || ts.createOmittedExpression()]), resolve, reject])) ]); var func; if (languageVersion >= 2 /* ES2015 */) { func = ts.createArrowFunction( /*modifiers*/ undefined, /*typeParameters*/ undefined, parameters, /*type*/ undefined, /*equalsGreaterThanToken*/ undefined, body); } else { func = ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, parameters, /*type*/ undefined, body); // if there is a lexical 'this' in the import call arguments, ensure we indicate // that this new function expression indicates it captures 'this' so that the // es2015 transformer will properly substitute 'this' with '_this'. if (containsLexicalThis) { ts.setEmitFlags(func, 8 /* CapturesThis */); } } var promise = ts.createNew(ts.createIdentifier("Promise"), /*typeArguments*/ undefined, [func]); if (compilerOptions.esModuleInterop) { context.requestEmitHelper(ts.importStarHelper); return ts.createCall(ts.createPropertyAccess(promise, ts.createIdentifier("then")), /*typeArguments*/ undefined, [ts.getUnscopedHelperName("__importStar")]); } return promise; } function createImportCallExpressionCommonJS(arg, containsLexicalThis) { // import("./blah") // emit as // Promise.resolve().then(function () { return require(x); }) /*CommonJs Require*/ // We have to wrap require in then callback so that require is done in asynchronously // if we simply do require in resolve callback in Promise constructor. We will execute the loading immediately var promiseResolveCall = ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Promise"), "resolve"), /*typeArguments*/ undefined, /*argumentsArray*/ []); var requireCall = ts.createCall(ts.createIdentifier("require"), /*typeArguments*/ undefined, arg ? [arg] : []); if (compilerOptions.esModuleInterop) { context.requestEmitHelper(ts.importStarHelper); requireCall = ts.createCall(ts.getUnscopedHelperName("__importStar"), /*typeArguments*/ undefined, [requireCall]); } var func; if (languageVersion >= 2 /* ES2015 */) { func = ts.createArrowFunction( /*modifiers*/ undefined, /*typeParameters*/ undefined, /*parameters*/ [], /*type*/ undefined, /*equalsGreaterThanToken*/ undefined, requireCall); } else { func = ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, /*parameters*/ [], /*type*/ undefined, ts.createBlock([ts.createReturn(requireCall)])); // if there is a lexical 'this' in the import call arguments, ensure we indicate // that this new function expression indicates it captures 'this' so that the // es2015 transformer will properly substitute 'this' with '_this'. if (containsLexicalThis) { ts.setEmitFlags(func, 8 /* CapturesThis */); } } return ts.createCall(ts.createPropertyAccess(promiseResolveCall, "then"), /*typeArguments*/ undefined, [func]); } function getHelperExpressionForExport(node, innerExpr) { if (!compilerOptions.esModuleInterop || ts.getEmitFlags(node) & 67108864 /* NeverApplyImportHelper */) { return innerExpr; } if (ts.getExportNeedsImportStarHelper(node)) { context.requestEmitHelper(ts.importStarHelper); return ts.createCall(ts.getUnscopedHelperName("__importStar"), /*typeArguments*/ undefined, [innerExpr]); } return innerExpr; } function getHelperExpressionForImport(node, innerExpr) { if (!compilerOptions.esModuleInterop || ts.getEmitFlags(node) & 67108864 /* NeverApplyImportHelper */) { return innerExpr; } if (ts.getImportNeedsImportStarHelper(node)) { context.requestEmitHelper(ts.importStarHelper); return ts.createCall(ts.getUnscopedHelperName("__importStar"), /*typeArguments*/ undefined, [innerExpr]); } if (ts.getImportNeedsImportDefaultHelper(node)) { context.requestEmitHelper(ts.importDefaultHelper); return ts.createCall(ts.getUnscopedHelperName("__importDefault"), /*typeArguments*/ undefined, [innerExpr]); } return innerExpr; } /** * Visits an ImportDeclaration node. * * @param node The node to visit. */ function visitImportDeclaration(node) { var statements; var namespaceDeclaration = ts.getNamespaceDeclarationNode(node); if (moduleKind !== ts.ModuleKind.AMD) { if (!node.importClause) { // import "mod"; return ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createRequireCall(node)), node), node); } else { var variables = []; if (namespaceDeclaration && !ts.isDefaultImport(node)) { // import * as n from "mod"; variables.push(ts.createVariableDeclaration(ts.getSynthesizedClone(namespaceDeclaration.name), /*type*/ undefined, getHelperExpressionForImport(node, createRequireCall(node)))); } else { // import d from "mod"; // import { x, y } from "mod"; // import d, { x, y } from "mod"; // import d, * as n from "mod"; variables.push(ts.createVariableDeclaration(ts.getGeneratedNameForNode(node), /*type*/ undefined, getHelperExpressionForImport(node, createRequireCall(node)))); if (namespaceDeclaration && ts.isDefaultImport(node)) { variables.push(ts.createVariableDeclaration(ts.getSynthesizedClone(namespaceDeclaration.name), /*type*/ undefined, ts.getGeneratedNameForNode(node))); } } statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList(variables, languageVersion >= 2 /* ES2015 */ ? 2 /* Const */ : 0 /* None */)), /*location*/ node), /*original*/ node)); } } else if (namespaceDeclaration && ts.isDefaultImport(node)) { // import d, * as n from "mod"; statements = ts.append(statements, ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.setOriginalNode(ts.setTextRange(ts.createVariableDeclaration(ts.getSynthesizedClone(namespaceDeclaration.name), /*type*/ undefined, ts.getGeneratedNameForNode(node)), /*location*/ node), /*original*/ node) ], languageVersion >= 2 /* ES2015 */ ? 2 /* Const */ : 0 /* None */))); } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfImportDeclaration(deferredExports[id], node); } else { statements = appendExportsOfImportDeclaration(statements, node); } return ts.singleOrMany(statements); } /** * Creates a `require()` call to import an external module. * * @param importNode The declararation to import. */ function createRequireCall(importNode) { var moduleName = ts.getExternalModuleNameLiteral(importNode, currentSourceFile, host, resolver, compilerOptions); var args = []; if (moduleName) { args.push(moduleName); } return ts.createCall(ts.createIdentifier("require"), /*typeArguments*/ undefined, args); } /** * Visits an ImportEqualsDeclaration node. * * @param node The node to visit. */ function visitImportEqualsDeclaration(node) { ts.Debug.assert(ts.isExternalModuleImportEqualsDeclaration(node), "import= for internal module references should be handled in an earlier transformer."); var statements; if (moduleKind !== ts.ModuleKind.AMD) { if (ts.hasModifier(node, 1 /* Export */)) { statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createExportExpression(node.name, createRequireCall(node))), node), node)); } else { statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(ts.getSynthesizedClone(node.name), /*type*/ undefined, createRequireCall(node)) ], /*flags*/ languageVersion >= 2 /* ES2015 */ ? 2 /* Const */ : 0 /* None */)), node), node)); } } else { if (ts.hasModifier(node, 1 /* Export */)) { statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createExportExpression(ts.getExportName(node), ts.getLocalName(node))), node), node)); } } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfImportEqualsDeclaration(deferredExports[id], node); } else { statements = appendExportsOfImportEqualsDeclaration(statements, node); } return ts.singleOrMany(statements); } /** * Visits an ExportDeclaration node. * * @param The node to visit. */ function visitExportDeclaration(node) { if (!node.moduleSpecifier) { // Elide export declarations with no module specifier as they are handled // elsewhere. return undefined; } var generatedName = ts.getGeneratedNameForNode(node); if (node.exportClause && ts.isNamedExports(node.exportClause)) { var statements = []; // export { x, y } from "mod"; if (moduleKind !== ts.ModuleKind.AMD) { statements.push(ts.setOriginalNode(ts.setTextRange(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(generatedName, /*type*/ undefined, createRequireCall(node)) ])), /*location*/ node), /* original */ node)); } for (var _i = 0, _a = node.exportClause.elements; _i < _a.length; _i++) { var specifier = _a[_i]; if (languageVersion === 0 /* ES3 */) { statements.push(ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createCreateBindingHelper(context, generatedName, ts.createLiteral(specifier.propertyName || specifier.name), specifier.propertyName ? ts.createLiteral(specifier.name) : undefined)), specifier), specifier)); } else { var exportedValue = ts.createPropertyAccess(generatedName, specifier.propertyName || specifier.name); statements.push(ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createExportExpression(ts.getExportName(specifier), exportedValue, /* location */ undefined, /* liveBinding */ true)), specifier), specifier)); } } return ts.singleOrMany(statements); } else if (node.exportClause) { var statements = []; // export * as ns from "mod"; statements.push(ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createExportExpression(ts.getSynthesizedClone(node.exportClause.name), moduleKind !== ts.ModuleKind.AMD ? getHelperExpressionForExport(node, createRequireCall(node)) : ts.createIdentifier(ts.idText(node.exportClause.name)))), node), node)); return ts.singleOrMany(statements); } else { // export * from "mod"; return ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(createExportStarHelper(context, moduleKind !== ts.ModuleKind.AMD ? createRequireCall(node) : generatedName)), node), node); } } /** * Visits an ExportAssignment node. * * @param node The node to visit. */ function visitExportAssignment(node) { if (node.isExportEquals) { return undefined; } var statements; var original = node.original; if (original && hasAssociatedEndOfDeclarationMarker(original)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportStatement(deferredExports[id], ts.createIdentifier("default"), ts.visitNode(node.expression, moduleExpressionElementVisitor), /*location*/ node, /*allowComments*/ true); } else { statements = appendExportStatement(statements, ts.createIdentifier("default"), ts.visitNode(node.expression, moduleExpressionElementVisitor), /*location*/ node, /*allowComments*/ true); } return ts.singleOrMany(statements); } /** * Visits a FunctionDeclaration node. * * @param node The node to visit. */ function visitFunctionDeclaration(node) { var statements; if (ts.hasModifier(node, 1 /* Export */)) { statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createFunctionDeclaration( /*decorators*/ undefined, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), node.asteriskToken, ts.getDeclarationName(node, /*allowComments*/ true, /*allowSourceMaps*/ true), /*typeParameters*/ undefined, ts.visitNodes(node.parameters, moduleExpressionElementVisitor), /*type*/ undefined, ts.visitEachChild(node.body, moduleExpressionElementVisitor, context)), /*location*/ node), /*original*/ node)); } else { statements = ts.append(statements, ts.visitEachChild(node, moduleExpressionElementVisitor, context)); } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfHoistedDeclaration(deferredExports[id], node); } else { statements = appendExportsOfHoistedDeclaration(statements, node); } return ts.singleOrMany(statements); } /** * Visits a ClassDeclaration node. * * @param node The node to visit. */ function visitClassDeclaration(node) { var statements; if (ts.hasModifier(node, 1 /* Export */)) { statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createClassDeclaration( /*decorators*/ undefined, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), ts.getDeclarationName(node, /*allowComments*/ true, /*allowSourceMaps*/ true), /*typeParameters*/ undefined, ts.visitNodes(node.heritageClauses, moduleExpressionElementVisitor), ts.visitNodes(node.members, moduleExpressionElementVisitor)), node), node)); } else { statements = ts.append(statements, ts.visitEachChild(node, moduleExpressionElementVisitor, context)); } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfHoistedDeclaration(deferredExports[id], node); } else { statements = appendExportsOfHoistedDeclaration(statements, node); } return ts.singleOrMany(statements); } /** * Visits a VariableStatement node. * * @param node The node to visit. */ function visitVariableStatement(node) { var statements; var variables; var expressions; if (ts.hasModifier(node, 1 /* Export */)) { var modifiers = void 0; // If we're exporting these variables, then these just become assignments to 'exports.x'. for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var variable = _a[_i]; if (ts.isIdentifier(variable.name) && ts.isLocalName(variable.name)) { if (!modifiers) { modifiers = ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier); } variables = ts.append(variables, variable); } else if (variable.initializer) { expressions = ts.append(expressions, transformInitializedVariable(variable)); } } if (variables) { statements = ts.append(statements, ts.updateVariableStatement(node, modifiers, ts.updateVariableDeclarationList(node.declarationList, variables))); } if (expressions) { statements = ts.append(statements, ts.setOriginalNode(ts.setTextRange(ts.createExpressionStatement(ts.inlineExpressions(expressions)), node), node)); } } else { statements = ts.append(statements, ts.visitEachChild(node, moduleExpressionElementVisitor, context)); } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfVariableStatement(deferredExports[id], node); } else { statements = appendExportsOfVariableStatement(statements, node); } return ts.singleOrMany(statements); } function createAllExportExpressions(name, value, location) { var exportedNames = getExports(name); if (exportedNames) { // For each additional export of the declaration, apply an export assignment. var expression = ts.isExportName(name) ? value : ts.createAssignment(name, value); for (var _i = 0, exportedNames_1 = exportedNames; _i < exportedNames_1.length; _i++) { var exportName = exportedNames_1[_i]; // Mark the node to prevent triggering substitution. ts.setEmitFlags(expression, 4 /* NoSubstitution */); expression = createExportExpression(exportName, expression, /*location*/ location); } return expression; } return ts.createAssignment(name, value); } /** * Transforms an exported variable with an initializer into an expression. * * @param node The node to transform. */ function transformInitializedVariable(node) { if (ts.isBindingPattern(node.name)) { return ts.flattenDestructuringAssignment(ts.visitNode(node, moduleExpressionElementVisitor), /*visitor*/ undefined, context, 0 /* All */, /*needsValue*/ false, createAllExportExpressions); } else { return ts.createAssignment(ts.setTextRange(ts.createPropertyAccess(ts.createIdentifier("exports"), node.name), /*location*/ node.name), node.initializer ? ts.visitNode(node.initializer, moduleExpressionElementVisitor) : ts.createVoidZero()); } } /** * Visits a MergeDeclarationMarker used as a placeholder for the beginning of a merged * and transformed declaration. * * @param node The node to visit. */ function visitMergeDeclarationMarker(node) { // For an EnumDeclaration or ModuleDeclaration that merges with a preceeding // declaration we do not emit a leading variable declaration. To preserve the // begin/end semantics of the declararation and to properly handle exports // we wrapped the leading variable declaration in a `MergeDeclarationMarker`. // // To balance the declaration, add the exports of the elided variable // statement. if (hasAssociatedEndOfDeclarationMarker(node) && node.original.kind === 225 /* VariableStatement */) { var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfVariableStatement(deferredExports[id], node.original); } return node; } /** * Determines whether a node has an associated EndOfDeclarationMarker. * * @param node The node to test. */ function hasAssociatedEndOfDeclarationMarker(node) { return (ts.getEmitFlags(node) & 4194304 /* HasEndOfDeclarationMarker */) !== 0; } /** * Visits a DeclarationMarker used as a placeholder for the end of a transformed * declaration. * * @param node The node to visit. */ function visitEndOfDeclarationMarker(node) { // For some transformations we emit an `EndOfDeclarationMarker` to mark the actual // end of the transformed declaration. We use this marker to emit any deferred exports // of the declaration. var id = ts.getOriginalNodeId(node); var statements = deferredExports[id]; if (statements) { delete deferredExports[id]; return ts.append(statements, node); } return node; } /** * Appends the exports of an ImportDeclaration to a statement list, returning the * statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfImportDeclaration(statements, decl) { if (currentModuleInfo.exportEquals) { return statements; } var importClause = decl.importClause; if (!importClause) { return statements; } if (importClause.name) { statements = appendExportsOfDeclaration(statements, importClause); } var namedBindings = importClause.namedBindings; if (namedBindings) { switch (namedBindings.kind) { case 256 /* NamespaceImport */: statements = appendExportsOfDeclaration(statements, namedBindings); break; case 257 /* NamedImports */: for (var _i = 0, _a = namedBindings.elements; _i < _a.length; _i++) { var importBinding = _a[_i]; statements = appendExportsOfDeclaration(statements, importBinding, /* liveBinding */ true); } break; } } return statements; } /** * Appends the exports of an ImportEqualsDeclaration to a statement list, returning the * statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfImportEqualsDeclaration(statements, decl) { if (currentModuleInfo.exportEquals) { return statements; } return appendExportsOfDeclaration(statements, decl); } /** * Appends the exports of a VariableStatement to a statement list, returning the statement * list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param node The VariableStatement whose exports are to be recorded. */ function appendExportsOfVariableStatement(statements, node) { if (currentModuleInfo.exportEquals) { return statements; } for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var decl = _a[_i]; statements = appendExportsOfBindingElement(statements, decl); } return statements; } /** * Appends the exports of a VariableDeclaration or BindingElement to a statement list, * returning the statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfBindingElement(statements, decl) { if (currentModuleInfo.exportEquals) { return statements; } if (ts.isBindingPattern(decl.name)) { for (var _i = 0, _a = decl.name.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { statements = appendExportsOfBindingElement(statements, element); } } } else if (!ts.isGeneratedIdentifier(decl.name)) { statements = appendExportsOfDeclaration(statements, decl); } return statements; } /** * Appends the exports of a ClassDeclaration or FunctionDeclaration to a statement list, * returning the statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfHoistedDeclaration(statements, decl) { if (currentModuleInfo.exportEquals) { return statements; } if (ts.hasModifier(decl, 1 /* Export */)) { var exportName = ts.hasModifier(decl, 512 /* Default */) ? ts.createIdentifier("default") : ts.getDeclarationName(decl); statements = appendExportStatement(statements, exportName, ts.getLocalName(decl), /*location*/ decl); } if (decl.name) { statements = appendExportsOfDeclaration(statements, decl); } return statements; } /** * Appends the exports of a declaration to a statement list, returning the statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration to export. */ function appendExportsOfDeclaration(statements, decl, liveBinding) { var name = ts.getDeclarationName(decl); var exportSpecifiers = currentModuleInfo.exportSpecifiers.get(ts.idText(name)); if (exportSpecifiers) { for (var _i = 0, exportSpecifiers_1 = exportSpecifiers; _i < exportSpecifiers_1.length; _i++) { var exportSpecifier = exportSpecifiers_1[_i]; statements = appendExportStatement(statements, exportSpecifier.name, name, /*location*/ exportSpecifier.name, /* allowComments */ undefined, liveBinding); } } return statements; } /** * Appends the down-level representation of an export to a statement list, returning the * statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param exportName The name of the export. * @param expression The expression to export. * @param location The location to use for source maps and comments for the export. * @param allowComments Whether to allow comments on the export. */ function appendExportStatement(statements, exportName, expression, location, allowComments, liveBinding) { statements = ts.append(statements, createExportStatement(exportName, expression, location, allowComments, liveBinding)); return statements; } function createUnderscoreUnderscoreESModule() { var statement; if (languageVersion === 0 /* ES3 */) { statement = ts.createExpressionStatement(createExportExpression(ts.createIdentifier("__esModule"), ts.createLiteral(/*value*/ true))); } else { statement = ts.createExpressionStatement(ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Object"), "defineProperty"), /*typeArguments*/ undefined, [ ts.createIdentifier("exports"), ts.createLiteral("__esModule"), ts.createObjectLiteral([ ts.createPropertyAssignment("value", ts.createLiteral(/*value*/ true)) ]) ])); } ts.setEmitFlags(statement, 1048576 /* CustomPrologue */); return statement; } /** * Creates a call to the current file's export function to export a value. * * @param name The bound name of the export. * @param value The exported value. * @param location The location to use for source maps and comments for the export. * @param allowComments An optional value indicating whether to emit comments for the statement. */ function createExportStatement(name, value, location, allowComments, liveBinding) { var statement = ts.setTextRange(ts.createExpressionStatement(createExportExpression(name, value, /* location */ undefined, liveBinding)), location); ts.startOnNewLine(statement); if (!allowComments) { ts.setEmitFlags(statement, 1536 /* NoComments */); } return statement; } /** * Creates a call to the current file's export function to export a value. * * @param name The bound name of the export. * @param value The exported value. * @param location The location to use for source maps and comments for the export. */ function createExportExpression(name, value, location, liveBinding) { return ts.setTextRange(liveBinding && languageVersion !== 0 /* ES3 */ ? ts.createCall(ts.createPropertyAccess(ts.createIdentifier("Object"), "defineProperty"), /*typeArguments*/ undefined, [ ts.createIdentifier("exports"), ts.createLiteral(name), ts.createObjectLiteral([ ts.createPropertyAssignment("enumerable", ts.createLiteral(/*value*/ true)), ts.createPropertyAssignment("get", ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, /*parameters*/ [], /*type*/ undefined, ts.createBlock([ts.createReturn(value)]))) ]) ]) : ts.createAssignment(ts.createPropertyAccess(ts.createIdentifier("exports"), ts.getSynthesizedClone(name)), value), location); } // // Modifier Visitors // /** * Visit nodes to elide module-specific modifiers. * * @param node The node to visit. */ function modifierVisitor(node) { // Elide module-specific modifiers. switch (node.kind) { case 89 /* ExportKeyword */: case 84 /* DefaultKeyword */: return undefined; } return node; } // // Emit Notification // /** * Hook for node emit notifications. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emit A callback used to emit the node in the printer. */ function onEmitNode(hint, node, emitCallback) { if (node.kind === 290 /* SourceFile */) { currentSourceFile = node; currentModuleInfo = moduleInfoMap[ts.getOriginalNodeId(currentSourceFile)]; noSubstitution = []; previousOnEmitNode(hint, node, emitCallback); currentSourceFile = undefined; currentModuleInfo = undefined; noSubstitution = undefined; } else { previousOnEmitNode(hint, node, emitCallback); } } // // Substitutions // /** * Hooks node substitutions. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (node.id && noSubstitution[node.id]) { return node; } if (hint === 1 /* Expression */) { return substituteExpression(node); } else if (ts.isShorthandPropertyAssignment(node)) { return substituteShorthandPropertyAssignment(node); } return node; } /** * Substitution for a ShorthandPropertyAssignment whose declaration name is an imported * or exported symbol. * * @param node The node to substitute. */ function substituteShorthandPropertyAssignment(node) { var name = node.name; var exportedOrImportedName = substituteExpressionIdentifier(name); if (exportedOrImportedName !== name) { // A shorthand property with an assignment initializer is probably part of a // destructuring assignment if (node.objectAssignmentInitializer) { var initializer = ts.createAssignment(exportedOrImportedName, node.objectAssignmentInitializer); return ts.setTextRange(ts.createPropertyAssignment(name, initializer), node); } return ts.setTextRange(ts.createPropertyAssignment(name, exportedOrImportedName), node); } return node; } /** * Substitution for an Expression that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteExpression(node) { switch (node.kind) { case 75 /* Identifier */: return substituteExpressionIdentifier(node); case 209 /* BinaryExpression */: return substituteBinaryExpression(node); case 208 /* PostfixUnaryExpression */: case 207 /* PrefixUnaryExpression */: return substituteUnaryExpression(node); } return node; } /** * Substitution for an Identifier expression that may contain an imported or exported * symbol. * * @param node The node to substitute. */ function substituteExpressionIdentifier(node) { if (ts.getEmitFlags(node) & 4096 /* HelperName */) { var externalHelpersModuleName = ts.getExternalHelpersModuleName(currentSourceFile); if (externalHelpersModuleName) { return ts.createPropertyAccess(externalHelpersModuleName, node); } return node; } if (!ts.isGeneratedIdentifier(node) && !ts.isLocalName(node)) { var exportContainer = resolver.getReferencedExportContainer(node, ts.isExportName(node)); if (exportContainer && exportContainer.kind === 290 /* SourceFile */) { return ts.setTextRange(ts.createPropertyAccess(ts.createIdentifier("exports"), ts.getSynthesizedClone(node)), /*location*/ node); } var importDeclaration = resolver.getReferencedImportDeclaration(node); if (importDeclaration) { if (ts.isImportClause(importDeclaration)) { return ts.setTextRange(ts.createPropertyAccess(ts.getGeneratedNameForNode(importDeclaration.parent), ts.createIdentifier("default")), /*location*/ node); } else if (ts.isImportSpecifier(importDeclaration)) { var name = importDeclaration.propertyName || importDeclaration.name; return ts.setTextRange(ts.createPropertyAccess(ts.getGeneratedNameForNode(importDeclaration.parent.parent.parent), ts.getSynthesizedClone(name)), /*location*/ node); } } } return node; } /** * Substitution for a BinaryExpression that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteBinaryExpression(node) { // When we see an assignment expression whose left-hand side is an exported symbol, // we should ensure all exports of that symbol are updated with the correct value. // // - We do not substitute generated identifiers for any reason. // - We do not substitute identifiers tagged with the LocalName flag. // - We do not substitute identifiers that were originally the name of an enum or // namespace due to how they are transformed in TypeScript. // - We only substitute identifiers that are exported at the top level. if (ts.isAssignmentOperator(node.operatorToken.kind) && ts.isIdentifier(node.left) && !ts.isGeneratedIdentifier(node.left) && !ts.isLocalName(node.left) && !ts.isDeclarationNameOfEnumOrNamespace(node.left)) { var exportedNames = getExports(node.left); if (exportedNames) { // For each additional export of the declaration, apply an export assignment. var expression = node; for (var _i = 0, exportedNames_2 = exportedNames; _i < exportedNames_2.length; _i++) { var exportName = exportedNames_2[_i]; // Mark the node to prevent triggering this rule again. noSubstitution[ts.getNodeId(expression)] = true; expression = createExportExpression(exportName, expression, /*location*/ node); } return expression; } } return node; } /** * Substitution for a UnaryExpression that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteUnaryExpression(node) { // When we see a prefix or postfix increment expression whose operand is an exported // symbol, we should ensure all exports of that symbol are updated with the correct // value. // // - We do not substitute generated identifiers for any reason. // - We do not substitute identifiers tagged with the LocalName flag. // - We do not substitute identifiers that were originally the name of an enum or // namespace due to how they are transformed in TypeScript. // - We only substitute identifiers that are exported at the top level. if ((node.operator === 45 /* PlusPlusToken */ || node.operator === 46 /* MinusMinusToken */) && ts.isIdentifier(node.operand) && !ts.isGeneratedIdentifier(node.operand) && !ts.isLocalName(node.operand) && !ts.isDeclarationNameOfEnumOrNamespace(node.operand)) { var exportedNames = getExports(node.operand); if (exportedNames) { var expression = node.kind === 208 /* PostfixUnaryExpression */ ? ts.setTextRange(ts.createBinary(node.operand, ts.createToken(node.operator === 45 /* PlusPlusToken */ ? 63 /* PlusEqualsToken */ : 64 /* MinusEqualsToken */), ts.createLiteral(1)), /*location*/ node) : node; for (var _i = 0, exportedNames_3 = exportedNames; _i < exportedNames_3.length; _i++) { var exportName = exportedNames_3[_i]; // Mark the node to prevent triggering this rule again. noSubstitution[ts.getNodeId(expression)] = true; expression = createExportExpression(exportName, expression); } return expression; } } return node; } /** * Gets the additional exports of a name. * * @param name The name. */ function getExports(name) { if (!ts.isGeneratedIdentifier(name)) { var valueDeclaration = resolver.getReferencedImportDeclaration(name) || resolver.getReferencedValueDeclaration(name); if (valueDeclaration) { return currentModuleInfo && currentModuleInfo.exportedBindings[ts.getOriginalNodeId(valueDeclaration)]; } } } } ts.transformModule = transformModule; ts.createBindingHelper = { name: "typescript:commonjscreatebinding", importName: "__createBinding", scoped: false, priority: 1, text: "\nvar __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) {\n if (k2 === undefined) k2 = k;\n Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } });\n}) : (function(o, m, k, k2) {\n if (k2 === undefined) k2 = k;\n o[k2] = m[k];\n}));" }; function createCreateBindingHelper(context, module, inputName, outputName) { context.requestEmitHelper(ts.createBindingHelper); return ts.createCall(ts.getUnscopedHelperName("__createBinding"), /*typeArguments*/ undefined, __spreadArrays([ts.createIdentifier("exports"), module, inputName], (outputName ? [outputName] : []))); } ts.setModuleDefaultHelper = { name: "typescript:commonjscreatevalue", importName: "__setModuleDefault", scoped: false, priority: 1, text: "\nvar __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) {\n Object.defineProperty(o, \"default\", { enumerable: true, value: v });\n}) : function(o, v) {\n o[\"default\"] = v;\n});" }; // emit output for the __export helper function var exportStarHelper = { name: "typescript:export-star", importName: "__exportStar", scoped: false, dependencies: [ts.createBindingHelper], priority: 2, text: "\n var __exportStar = (this && this.__exportStar) || function(m, exports) {\n for (var p in m) if (p !== \"default\" && !exports.hasOwnProperty(p)) __createBinding(exports, m, p);\n }" }; function createExportStarHelper(context, module) { context.requestEmitHelper(exportStarHelper); return ts.createCall(ts.getUnscopedHelperName("__exportStar"), /*typeArguments*/ undefined, [module, ts.createIdentifier("exports")]); } // emit helper for dynamic import var dynamicImportUMDHelper = { name: "typescript:dynamicimport-sync-require", scoped: true, text: "\n var __syncRequire = typeof module === \"object\" && typeof module.exports === \"object\";" }; // emit helper for `import * as Name from "foo"` ts.importStarHelper = { name: "typescript:commonjsimportstar", importName: "__importStar", scoped: false, dependencies: [ts.createBindingHelper, ts.setModuleDefaultHelper], priority: 2, text: "\nvar __importStar = (this && this.__importStar) || function (mod) {\n if (mod && mod.__esModule) return mod;\n var result = {};\n if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);\n __setModuleDefault(result, mod);\n return result;\n};" }; // emit helper for `import Name from "foo"` ts.importDefaultHelper = { name: "typescript:commonjsimportdefault", importName: "__importDefault", scoped: false, text: "\nvar __importDefault = (this && this.__importDefault) || function (mod) {\n return (mod && mod.__esModule) ? mod : { \"default\": mod };\n};" }; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformSystemModule(context) { var startLexicalEnvironment = context.startLexicalEnvironment, endLexicalEnvironment = context.endLexicalEnvironment, hoistVariableDeclaration = context.hoistVariableDeclaration; var compilerOptions = context.getCompilerOptions(); var resolver = context.getEmitResolver(); var host = context.getEmitHost(); var previousOnSubstituteNode = context.onSubstituteNode; var previousOnEmitNode = context.onEmitNode; context.onSubstituteNode = onSubstituteNode; context.onEmitNode = onEmitNode; context.enableSubstitution(75 /* Identifier */); // Substitutes expression identifiers for imported symbols. context.enableSubstitution(282 /* ShorthandPropertyAssignment */); // Substitutes expression identifiers for imported symbols context.enableSubstitution(209 /* BinaryExpression */); // Substitutes assignments to exported symbols. context.enableSubstitution(207 /* PrefixUnaryExpression */); // Substitutes updates to exported symbols. context.enableSubstitution(208 /* PostfixUnaryExpression */); // Substitutes updates to exported symbols. context.enableSubstitution(219 /* MetaProperty */); // Substitutes 'import.meta' context.enableEmitNotification(290 /* SourceFile */); // Restore state when substituting nodes in a file. var moduleInfoMap = []; // The ExternalModuleInfo for each file. var deferredExports = []; // Exports to defer until an EndOfDeclarationMarker is found. var exportFunctionsMap = []; // The export function associated with a source file. var noSubstitutionMap = []; // Set of nodes for which substitution rules should be ignored for each file. var contextObjectMap = []; // The context object associated with a source file. var currentSourceFile; // The current file. var moduleInfo; // ExternalModuleInfo for the current file. var exportFunction; // The export function for the current file. var contextObject; // The context object for the current file. var hoistedStatements; var enclosingBlockScopedContainer; var noSubstitution; // Set of nodes for which substitution rules should be ignored. return ts.chainBundle(transformSourceFile); /** * Transforms the module aspects of a SourceFile. * * @param node The SourceFile node. */ function transformSourceFile(node) { if (node.isDeclarationFile || !(ts.isEffectiveExternalModule(node, compilerOptions) || node.transformFlags & 2097152 /* ContainsDynamicImport */)) { return node; } var id = ts.getOriginalNodeId(node); currentSourceFile = node; enclosingBlockScopedContainer = node; // System modules have the following shape: // // System.register(['dep-1', ... 'dep-n'], function(exports) {/* module body function */}) // // The parameter 'exports' here is a callback '(name: string, value: T) => T' that // is used to publish exported values. 'exports' returns its 'value' argument so in // most cases expressions that mutate exported values can be rewritten as: // // expr -> exports('name', expr) // // The only exception in this rule is postfix unary operators, // see comment to 'substitutePostfixUnaryExpression' for more details // Collect information about the external module and dependency groups. moduleInfo = moduleInfoMap[id] = ts.collectExternalModuleInfo(node, resolver, compilerOptions); // Make sure that the name of the 'exports' function does not conflict with // existing identifiers. exportFunction = ts.createUniqueName("exports"); exportFunctionsMap[id] = exportFunction; contextObject = contextObjectMap[id] = ts.createUniqueName("context"); // Add the body of the module. var dependencyGroups = collectDependencyGroups(moduleInfo.externalImports); var moduleBodyBlock = createSystemModuleBody(node, dependencyGroups); var moduleBodyFunction = ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, [ ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, exportFunction), ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, contextObject) ], /*type*/ undefined, moduleBodyBlock); // Write the call to `System.register` // Clear the emit-helpers flag for later passes since we'll have already used it in the module body // So the helper will be emit at the correct position instead of at the top of the source-file var moduleName = ts.tryGetModuleNameFromFile(node, host, compilerOptions); var dependencies = ts.createArrayLiteral(ts.map(dependencyGroups, function (dependencyGroup) { return dependencyGroup.name; })); var updated = ts.setEmitFlags(ts.updateSourceFileNode(node, ts.setTextRange(ts.createNodeArray([ ts.createExpressionStatement(ts.createCall(ts.createPropertyAccess(ts.createIdentifier("System"), "register"), /*typeArguments*/ undefined, moduleName ? [moduleName, dependencies, moduleBodyFunction] : [dependencies, moduleBodyFunction])) ]), node.statements)), 1024 /* NoTrailingComments */); if (!(compilerOptions.outFile || compilerOptions.out)) { ts.moveEmitHelpers(updated, moduleBodyBlock, function (helper) { return !helper.scoped; }); } if (noSubstitution) { noSubstitutionMap[id] = noSubstitution; noSubstitution = undefined; } currentSourceFile = undefined; moduleInfo = undefined; exportFunction = undefined; contextObject = undefined; hoistedStatements = undefined; enclosingBlockScopedContainer = undefined; return ts.aggregateTransformFlags(updated); } /** * Collects the dependency groups for this files imports. * * @param externalImports The imports for the file. */ function collectDependencyGroups(externalImports) { var groupIndices = ts.createMap(); var dependencyGroups = []; for (var _i = 0, externalImports_1 = externalImports; _i < externalImports_1.length; _i++) { var externalImport = externalImports_1[_i]; var externalModuleName = ts.getExternalModuleNameLiteral(externalImport, currentSourceFile, host, resolver, compilerOptions); if (externalModuleName) { var text = externalModuleName.text; var groupIndex = groupIndices.get(text); if (groupIndex !== undefined) { // deduplicate/group entries in dependency list by the dependency name dependencyGroups[groupIndex].externalImports.push(externalImport); } else { groupIndices.set(text, dependencyGroups.length); dependencyGroups.push({ name: externalModuleName, externalImports: [externalImport] }); } } } return dependencyGroups; } /** * Adds the statements for the module body function for the source file. * * @param node The source file for the module. * @param dependencyGroups The grouped dependencies of the module. */ function createSystemModuleBody(node, dependencyGroups) { // Shape of the body in system modules: // // function (exports) { // // // // return { // setters: [ // // ], // execute: function() { // // } // } // // } // // i.e: // // import {x} from 'file1' // var y = 1; // export function foo() { return y + x(); } // console.log(y); // // Will be transformed to: // // function(exports) { // function foo() { return y + file_1.x(); } // exports("foo", foo); // var file_1, y; // return { // setters: [ // function(v) { file_1 = v } // ], // execute(): function() { // y = 1; // console.log(y); // } // }; // } var statements = []; // We start a new lexical environment in this function body, but *not* in the // body of the execute function. This allows us to emit temporary declarations // only in the outer module body and not in the inner one. startLexicalEnvironment(); // Add any prologue directives. var ensureUseStrict = ts.getStrictOptionValue(compilerOptions, "alwaysStrict") || (!compilerOptions.noImplicitUseStrict && ts.isExternalModule(currentSourceFile)); var statementOffset = ts.addPrologue(statements, node.statements, ensureUseStrict, sourceElementVisitor); // var __moduleName = context_1 && context_1.id; statements.push(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration("__moduleName", /*type*/ undefined, ts.createLogicalAnd(contextObject, ts.createPropertyAccess(contextObject, "id"))) ]))); // Visit the synthetic external helpers import declaration if present ts.visitNode(moduleInfo.externalHelpersImportDeclaration, sourceElementVisitor, ts.isStatement); // Visit the statements of the source file, emitting any transformations into // the `executeStatements` array. We do this *before* we fill the `setters` array // as we both emit transformations as well as aggregate some data used when creating // setters. This allows us to reduce the number of times we need to loop through the // statements of the source file. var executeStatements = ts.visitNodes(node.statements, sourceElementVisitor, ts.isStatement, statementOffset); // Emit early exports for function declarations. ts.addRange(statements, hoistedStatements); // We emit hoisted variables early to align roughly with our previous emit output. // Two key differences in this approach are: // - Temporary variables will appear at the top rather than at the bottom of the file ts.insertStatementsAfterStandardPrologue(statements, endLexicalEnvironment()); var exportStarFunction = addExportStarIfNeeded(statements); // TODO: GH#18217 var modifiers = node.transformFlags & 524288 /* ContainsAwait */ ? ts.createModifiersFromModifierFlags(256 /* Async */) : undefined; var moduleObject = ts.createObjectLiteral([ ts.createPropertyAssignment("setters", createSettersArray(exportStarFunction, dependencyGroups)), ts.createPropertyAssignment("execute", ts.createFunctionExpression(modifiers, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, /*parameters*/ [], /*type*/ undefined, ts.createBlock(executeStatements, /*multiLine*/ true))) ]); moduleObject.multiLine = true; statements.push(ts.createReturn(moduleObject)); return ts.createBlock(statements, /*multiLine*/ true); } /** * Adds an exportStar function to a statement list if it is needed for the file. * * @param statements A statement list. */ function addExportStarIfNeeded(statements) { if (!moduleInfo.hasExportStarsToExportValues) { return; } // when resolving exports local exported entries/indirect exported entries in the module // should always win over entries with similar names that were added via star exports // to support this we store names of local/indirect exported entries in a set. // this set is used to filter names brought by star expors. // local names set should only be added if we have anything exported if (!moduleInfo.exportedNames && moduleInfo.exportSpecifiers.size === 0) { // no exported declarations (export var ...) or export specifiers (export {x}) // check if we have any non star export declarations. var hasExportDeclarationWithExportClause = false; for (var _i = 0, _a = moduleInfo.externalImports; _i < _a.length; _i++) { var externalImport = _a[_i]; if (externalImport.kind === 260 /* ExportDeclaration */ && externalImport.exportClause) { hasExportDeclarationWithExportClause = true; break; } } if (!hasExportDeclarationWithExportClause) { // we still need to emit exportStar helper var exportStarFunction_1 = createExportStarFunction(/*localNames*/ undefined); statements.push(exportStarFunction_1); return exportStarFunction_1.name; } } var exportedNames = []; if (moduleInfo.exportedNames) { for (var _b = 0, _c = moduleInfo.exportedNames; _b < _c.length; _b++) { var exportedLocalName = _c[_b]; if (exportedLocalName.escapedText === "default") { continue; } // write name of exported declaration, i.e 'export var x...' exportedNames.push(ts.createPropertyAssignment(ts.createLiteral(exportedLocalName), ts.createTrue())); } } for (var _d = 0, _e = moduleInfo.externalImports; _d < _e.length; _d++) { var externalImport = _e[_d]; if (externalImport.kind !== 260 /* ExportDeclaration */) { continue; } if (!externalImport.exportClause) { // export * from ... continue; } if (ts.isNamedExports(externalImport.exportClause)) { for (var _f = 0, _g = externalImport.exportClause.elements; _f < _g.length; _f++) { var element = _g[_f]; // write name of indirectly exported entry, i.e. 'export {x} from ...' exportedNames.push(ts.createPropertyAssignment(ts.createLiteral(ts.idText(element.name || element.propertyName)), ts.createTrue())); } } else { exportedNames.push(ts.createPropertyAssignment(ts.createLiteral(ts.idText(externalImport.exportClause.name)), ts.createTrue())); } } var exportedNamesStorageRef = ts.createUniqueName("exportedNames"); statements.push(ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(exportedNamesStorageRef, /*type*/ undefined, ts.createObjectLiteral(exportedNames, /*multiline*/ true)) ]))); var exportStarFunction = createExportStarFunction(exportedNamesStorageRef); statements.push(exportStarFunction); return exportStarFunction.name; } /** * Creates an exportStar function for the file, with an optional set of excluded local * names. * * @param localNames An optional reference to an object containing a set of excluded local * names. */ function createExportStarFunction(localNames) { var exportStarFunction = ts.createUniqueName("exportStar"); var m = ts.createIdentifier("m"); var n = ts.createIdentifier("n"); var exports = ts.createIdentifier("exports"); var condition = ts.createStrictInequality(n, ts.createLiteral("default")); if (localNames) { condition = ts.createLogicalAnd(condition, ts.createLogicalNot(ts.createCall(ts.createPropertyAccess(localNames, "hasOwnProperty"), /*typeArguments*/ undefined, [n]))); } return ts.createFunctionDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, /*asteriskToken*/ undefined, exportStarFunction, /*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, m)], /*type*/ undefined, ts.createBlock([ ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList([ ts.createVariableDeclaration(exports, /*type*/ undefined, ts.createObjectLiteral([])) ])), ts.createForIn(ts.createVariableDeclarationList([ ts.createVariableDeclaration(n, /*type*/ undefined) ]), m, ts.createBlock([ ts.setEmitFlags(ts.createIf(condition, ts.createExpressionStatement(ts.createAssignment(ts.createElementAccess(exports, n), ts.createElementAccess(m, n)))), 1 /* SingleLine */) ])), ts.createExpressionStatement(ts.createCall(exportFunction, /*typeArguments*/ undefined, [exports])) ], /*multiline*/ true)); } /** * Creates an array setter callbacks for each dependency group. * * @param exportStarFunction A reference to an exportStarFunction for the file. * @param dependencyGroups An array of grouped dependencies. */ function createSettersArray(exportStarFunction, dependencyGroups) { var setters = []; for (var _i = 0, dependencyGroups_1 = dependencyGroups; _i < dependencyGroups_1.length; _i++) { var group_2 = dependencyGroups_1[_i]; // derive a unique name for parameter from the first named entry in the group var localName = ts.forEach(group_2.externalImports, function (i) { return ts.getLocalNameForExternalImport(i, currentSourceFile); }); var parameterName = localName ? ts.getGeneratedNameForNode(localName) : ts.createUniqueName(""); var statements = []; for (var _a = 0, _b = group_2.externalImports; _a < _b.length; _a++) { var entry = _b[_a]; var importVariableName = ts.getLocalNameForExternalImport(entry, currentSourceFile); // TODO: GH#18217 switch (entry.kind) { case 254 /* ImportDeclaration */: if (!entry.importClause) { // 'import "..."' case // module is imported only for side-effects, no emit required break; } // falls through case 253 /* ImportEqualsDeclaration */: ts.Debug.assert(importVariableName !== undefined); // save import into the local statements.push(ts.createExpressionStatement(ts.createAssignment(importVariableName, parameterName))); break; case 260 /* ExportDeclaration */: ts.Debug.assert(importVariableName !== undefined); if (entry.exportClause) { if (ts.isNamedExports(entry.exportClause)) { // export {a, b as c} from 'foo' // // emit as: // // exports_({ // "a": _["a"], // "c": _["b"] // }); var properties = []; for (var _c = 0, _d = entry.exportClause.elements; _c < _d.length; _c++) { var e = _d[_c]; properties.push(ts.createPropertyAssignment(ts.createLiteral(ts.idText(e.name)), ts.createElementAccess(parameterName, ts.createLiteral(ts.idText(e.propertyName || e.name))))); } statements.push(ts.createExpressionStatement(ts.createCall(exportFunction, /*typeArguments*/ undefined, [ts.createObjectLiteral(properties, /*multiline*/ true)]))); } else { statements.push(ts.createExpressionStatement(ts.createCall(exportFunction, /*typeArguments*/ undefined, [ ts.createLiteral(ts.idText(entry.exportClause.name)), parameterName ]))); } } else { // export * from 'foo' // // emit as: // // exportStar(foo_1_1); statements.push(ts.createExpressionStatement(ts.createCall(exportStarFunction, /*typeArguments*/ undefined, [parameterName]))); } break; } } setters.push(ts.createFunctionExpression( /*modifiers*/ undefined, /*asteriskToken*/ undefined, /*name*/ undefined, /*typeParameters*/ undefined, [ts.createParameter(/*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, parameterName)], /*type*/ undefined, ts.createBlock(statements, /*multiLine*/ true))); } return ts.createArrayLiteral(setters, /*multiLine*/ true); } // // Top-level Source Element Visitors // /** * Visit source elements at the top-level of a module. * * @param node The node to visit. */ function sourceElementVisitor(node) { switch (node.kind) { case 254 /* ImportDeclaration */: return visitImportDeclaration(node); case 253 /* ImportEqualsDeclaration */: return visitImportEqualsDeclaration(node); case 260 /* ExportDeclaration */: return visitExportDeclaration(node); case 259 /* ExportAssignment */: return visitExportAssignment(node); default: return nestedElementVisitor(node); } } /** * Visits an ImportDeclaration node. * * @param node The node to visit. */ function visitImportDeclaration(node) { var statements; if (node.importClause) { hoistVariableDeclaration(ts.getLocalNameForExternalImport(node, currentSourceFile)); // TODO: GH#18217 } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfImportDeclaration(deferredExports[id], node); } else { statements = appendExportsOfImportDeclaration(statements, node); } return ts.singleOrMany(statements); } function visitExportDeclaration(node) { ts.Debug.assertIsDefined(node); return undefined; } /** * Visits an ImportEqualsDeclaration node. * * @param node The node to visit. */ function visitImportEqualsDeclaration(node) { ts.Debug.assert(ts.isExternalModuleImportEqualsDeclaration(node), "import= for internal module references should be handled in an earlier transformer."); var statements; hoistVariableDeclaration(ts.getLocalNameForExternalImport(node, currentSourceFile)); // TODO: GH#18217 if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfImportEqualsDeclaration(deferredExports[id], node); } else { statements = appendExportsOfImportEqualsDeclaration(statements, node); } return ts.singleOrMany(statements); } /** * Visits an ExportAssignment node. * * @param node The node to visit. */ function visitExportAssignment(node) { if (node.isExportEquals) { // Elide `export=` as it is illegal in a SystemJS module. return undefined; } var expression = ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression); var original = node.original; if (original && hasAssociatedEndOfDeclarationMarker(original)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportStatement(deferredExports[id], ts.createIdentifier("default"), expression, /*allowComments*/ true); } else { return createExportStatement(ts.createIdentifier("default"), expression, /*allowComments*/ true); } } /** * Visits a FunctionDeclaration, hoisting it to the outer module body function. * * @param node The node to visit. */ function visitFunctionDeclaration(node) { if (ts.hasModifier(node, 1 /* Export */)) { hoistedStatements = ts.append(hoistedStatements, ts.updateFunctionDeclaration(node, node.decorators, ts.visitNodes(node.modifiers, modifierVisitor, ts.isModifier), node.asteriskToken, ts.getDeclarationName(node, /*allowComments*/ true, /*allowSourceMaps*/ true), /*typeParameters*/ undefined, ts.visitNodes(node.parameters, destructuringAndImportCallVisitor, ts.isParameterDeclaration), /*type*/ undefined, ts.visitNode(node.body, destructuringAndImportCallVisitor, ts.isBlock))); } else { hoistedStatements = ts.append(hoistedStatements, ts.visitEachChild(node, destructuringAndImportCallVisitor, context)); } if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfHoistedDeclaration(deferredExports[id], node); } else { hoistedStatements = appendExportsOfHoistedDeclaration(hoistedStatements, node); } return undefined; } /** * Visits a ClassDeclaration, hoisting its name to the outer module body function. * * @param node The node to visit. */ function visitClassDeclaration(node) { var statements; // Hoist the name of the class declaration to the outer module body function. var name = ts.getLocalName(node); hoistVariableDeclaration(name); // Rewrite the class declaration into an assignment of a class expression. statements = ts.append(statements, ts.setTextRange(ts.createExpressionStatement(ts.createAssignment(name, ts.setTextRange(ts.createClassExpression( /*modifiers*/ undefined, node.name, /*typeParameters*/ undefined, ts.visitNodes(node.heritageClauses, destructuringAndImportCallVisitor, ts.isHeritageClause), ts.visitNodes(node.members, destructuringAndImportCallVisitor, ts.isClassElement)), node))), node)); if (hasAssociatedEndOfDeclarationMarker(node)) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfHoistedDeclaration(deferredExports[id], node); } else { statements = appendExportsOfHoistedDeclaration(statements, node); } return ts.singleOrMany(statements); } /** * Visits a variable statement, hoisting declared names to the top-level module body. * Each declaration is rewritten into an assignment expression. * * @param node The node to visit. */ function visitVariableStatement(node) { if (!shouldHoistVariableDeclarationList(node.declarationList)) { return ts.visitNode(node, destructuringAndImportCallVisitor, ts.isStatement); } var expressions; var isExportedDeclaration = ts.hasModifier(node, 1 /* Export */); var isMarkedDeclaration = hasAssociatedEndOfDeclarationMarker(node); for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var variable = _a[_i]; if (variable.initializer) { expressions = ts.append(expressions, transformInitializedVariable(variable, isExportedDeclaration && !isMarkedDeclaration)); } else { hoistBindingElement(variable); } } var statements; if (expressions) { statements = ts.append(statements, ts.setTextRange(ts.createExpressionStatement(ts.inlineExpressions(expressions)), node)); } if (isMarkedDeclaration) { // Defer exports until we encounter an EndOfDeclarationMarker node var id = ts.getOriginalNodeId(node); deferredExports[id] = appendExportsOfVariableStatement(deferredExports[id], node, isExportedDeclaration); } else { statements = appendExportsOfVariableStatement(statements, node, /*exportSelf*/ false); } return ts.singleOrMany(statements); } /** * Hoists the declared names of a VariableDeclaration or BindingElement. * * @param node The declaration to hoist. */ function hoistBindingElement(node) { if (ts.isBindingPattern(node.name)) { for (var _i = 0, _a = node.name.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { hoistBindingElement(element); } } } else { hoistVariableDeclaration(ts.getSynthesizedClone(node.name)); } } /** * Determines whether a VariableDeclarationList should be hoisted. * * @param node The node to test. */ function shouldHoistVariableDeclarationList(node) { // hoist only non-block scoped declarations or block scoped declarations parented by source file return (ts.getEmitFlags(node) & 2097152 /* NoHoisting */) === 0 && (enclosingBlockScopedContainer.kind === 290 /* SourceFile */ || (ts.getOriginalNode(node).flags & 3 /* BlockScoped */) === 0); } /** * Transform an initialized variable declaration into an expression. * * @param node The node to transform. * @param isExportedDeclaration A value indicating whether the variable is exported. */ function transformInitializedVariable(node, isExportedDeclaration) { var createAssignment = isExportedDeclaration ? createExportedVariableAssignment : createNonExportedVariableAssignment; return ts.isBindingPattern(node.name) ? ts.flattenDestructuringAssignment(node, destructuringAndImportCallVisitor, context, 0 /* All */, /*needsValue*/ false, createAssignment) : node.initializer ? createAssignment(node.name, ts.visitNode(node.initializer, destructuringAndImportCallVisitor, ts.isExpression)) : node.name; } /** * Creates an assignment expression for an exported variable declaration. * * @param name The name of the variable. * @param value The value of the variable's initializer. * @param location The source map location for the assignment. */ function createExportedVariableAssignment(name, value, location) { return createVariableAssignment(name, value, location, /*isExportedDeclaration*/ true); } /** * Creates an assignment expression for a non-exported variable declaration. * * @param name The name of the variable. * @param value The value of the variable's initializer. * @param location The source map location for the assignment. */ function createNonExportedVariableAssignment(name, value, location) { return createVariableAssignment(name, value, location, /*isExportedDeclaration*/ false); } /** * Creates an assignment expression for a variable declaration. * * @param name The name of the variable. * @param value The value of the variable's initializer. * @param location The source map location for the assignment. * @param isExportedDeclaration A value indicating whether the variable is exported. */ function createVariableAssignment(name, value, location, isExportedDeclaration) { hoistVariableDeclaration(ts.getSynthesizedClone(name)); return isExportedDeclaration ? createExportExpression(name, preventSubstitution(ts.setTextRange(ts.createAssignment(name, value), location))) : preventSubstitution(ts.setTextRange(ts.createAssignment(name, value), location)); } /** * Visits a MergeDeclarationMarker used as a placeholder for the beginning of a merged * and transformed declaration. * * @param node The node to visit. */ function visitMergeDeclarationMarker(node) { // For an EnumDeclaration or ModuleDeclaration that merges with a preceeding // declaration we do not emit a leading variable declaration. To preserve the // begin/end semantics of the declararation and to properly handle exports // we wrapped the leading variable declaration in a `MergeDeclarationMarker`. // // To balance the declaration, we defer the exports of the elided variable // statement until we visit this declaration's `EndOfDeclarationMarker`. if (hasAssociatedEndOfDeclarationMarker(node) && node.original.kind === 225 /* VariableStatement */) { var id = ts.getOriginalNodeId(node); var isExportedDeclaration = ts.hasModifier(node.original, 1 /* Export */); deferredExports[id] = appendExportsOfVariableStatement(deferredExports[id], node.original, isExportedDeclaration); } return node; } /** * Determines whether a node has an associated EndOfDeclarationMarker. * * @param node The node to test. */ function hasAssociatedEndOfDeclarationMarker(node) { return (ts.getEmitFlags(node) & 4194304 /* HasEndOfDeclarationMarker */) !== 0; } /** * Visits a DeclarationMarker used as a placeholder for the end of a transformed * declaration. * * @param node The node to visit. */ function visitEndOfDeclarationMarker(node) { // For some transformations we emit an `EndOfDeclarationMarker` to mark the actual // end of the transformed declaration. We use this marker to emit any deferred exports // of the declaration. var id = ts.getOriginalNodeId(node); var statements = deferredExports[id]; if (statements) { delete deferredExports[id]; return ts.append(statements, node); } else { var original = ts.getOriginalNode(node); if (ts.isModuleOrEnumDeclaration(original)) { return ts.append(appendExportsOfDeclaration(statements, original), node); } } return node; } /** * Appends the exports of an ImportDeclaration to a statement list, returning the * statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfImportDeclaration(statements, decl) { if (moduleInfo.exportEquals) { return statements; } var importClause = decl.importClause; if (!importClause) { return statements; } if (importClause.name) { statements = appendExportsOfDeclaration(statements, importClause); } var namedBindings = importClause.namedBindings; if (namedBindings) { switch (namedBindings.kind) { case 256 /* NamespaceImport */: statements = appendExportsOfDeclaration(statements, namedBindings); break; case 257 /* NamedImports */: for (var _i = 0, _a = namedBindings.elements; _i < _a.length; _i++) { var importBinding = _a[_i]; statements = appendExportsOfDeclaration(statements, importBinding); } break; } } return statements; } /** * Appends the export of an ImportEqualsDeclaration to a statement list, returning the * statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfImportEqualsDeclaration(statements, decl) { if (moduleInfo.exportEquals) { return statements; } return appendExportsOfDeclaration(statements, decl); } /** * Appends the exports of a VariableStatement to a statement list, returning the statement * list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param node The VariableStatement whose exports are to be recorded. * @param exportSelf A value indicating whether to also export each VariableDeclaration of * `nodes` declaration list. */ function appendExportsOfVariableStatement(statements, node, exportSelf) { if (moduleInfo.exportEquals) { return statements; } for (var _i = 0, _a = node.declarationList.declarations; _i < _a.length; _i++) { var decl = _a[_i]; if (decl.initializer || exportSelf) { statements = appendExportsOfBindingElement(statements, decl, exportSelf); } } return statements; } /** * Appends the exports of a VariableDeclaration or BindingElement to a statement list, * returning the statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. * @param exportSelf A value indicating whether to also export the declaration itself. */ function appendExportsOfBindingElement(statements, decl, exportSelf) { if (moduleInfo.exportEquals) { return statements; } if (ts.isBindingPattern(decl.name)) { for (var _i = 0, _a = decl.name.elements; _i < _a.length; _i++) { var element = _a[_i]; if (!ts.isOmittedExpression(element)) { statements = appendExportsOfBindingElement(statements, element, exportSelf); } } } else if (!ts.isGeneratedIdentifier(decl.name)) { var excludeName = void 0; if (exportSelf) { statements = appendExportStatement(statements, decl.name, ts.getLocalName(decl)); excludeName = ts.idText(decl.name); } statements = appendExportsOfDeclaration(statements, decl, excludeName); } return statements; } /** * Appends the exports of a ClassDeclaration or FunctionDeclaration to a statement list, * returning the statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration whose exports are to be recorded. */ function appendExportsOfHoistedDeclaration(statements, decl) { if (moduleInfo.exportEquals) { return statements; } var excludeName; if (ts.hasModifier(decl, 1 /* Export */)) { var exportName = ts.hasModifier(decl, 512 /* Default */) ? ts.createLiteral("default") : decl.name; statements = appendExportStatement(statements, exportName, ts.getLocalName(decl)); excludeName = ts.getTextOfIdentifierOrLiteral(exportName); } if (decl.name) { statements = appendExportsOfDeclaration(statements, decl, excludeName); } return statements; } /** * Appends the exports of a declaration to a statement list, returning the statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param decl The declaration to export. * @param excludeName An optional name to exclude from exports. */ function appendExportsOfDeclaration(statements, decl, excludeName) { if (moduleInfo.exportEquals) { return statements; } var name = ts.getDeclarationName(decl); var exportSpecifiers = moduleInfo.exportSpecifiers.get(ts.idText(name)); if (exportSpecifiers) { for (var _i = 0, exportSpecifiers_2 = exportSpecifiers; _i < exportSpecifiers_2.length; _i++) { var exportSpecifier = exportSpecifiers_2[_i]; if (exportSpecifier.name.escapedText !== excludeName) { statements = appendExportStatement(statements, exportSpecifier.name, name); } } } return statements; } /** * Appends the down-level representation of an export to a statement list, returning the * statement list. * * @param statements A statement list to which the down-level export statements are to be * appended. If `statements` is `undefined`, a new array is allocated if statements are * appended. * @param exportName The name of the export. * @param expression The expression to export. * @param allowComments Whether to allow comments on the export. */ function appendExportStatement(statements, exportName, expression, allowComments) { statements = ts.append(statements, createExportStatement(exportName, expression, allowComments)); return statements; } /** * Creates a call to the current file's export function to export a value. * * @param name The bound name of the export. * @param value The exported value. * @param allowComments An optional value indicating whether to emit comments for the statement. */ function createExportStatement(name, value, allowComments) { var statement = ts.createExpressionStatement(createExportExpression(name, value)); ts.startOnNewLine(statement); if (!allowComments) { ts.setEmitFlags(statement, 1536 /* NoComments */); } return statement; } /** * Creates a call to the current file's export function to export a value. * * @param name The bound name of the export. * @param value The exported value. */ function createExportExpression(name, value) { var exportName = ts.isIdentifier(name) ? ts.createLiteral(name) : name; ts.setEmitFlags(value, ts.getEmitFlags(value) | 1536 /* NoComments */); return ts.setCommentRange(ts.createCall(exportFunction, /*typeArguments*/ undefined, [exportName, value]), value); } // // Top-Level or Nested Source Element Visitors // /** * Visit nested elements at the top-level of a module. * * @param node The node to visit. */ function nestedElementVisitor(node) { switch (node.kind) { case 225 /* VariableStatement */: return visitVariableStatement(node); case 244 /* FunctionDeclaration */: return visitFunctionDeclaration(node); case 245 /* ClassDeclaration */: return visitClassDeclaration(node); case 230 /* ForStatement */: return visitForStatement(node); case 231 /* ForInStatement */: return visitForInStatement(node); case 232 /* ForOfStatement */: return visitForOfStatement(node); case 228 /* DoStatement */: return visitDoStatement(node); case 229 /* WhileStatement */: return visitWhileStatement(node); case 238 /* LabeledStatement */: return visitLabeledStatement(node); case 236 /* WithStatement */: return visitWithStatement(node); case 237 /* SwitchStatement */: return visitSwitchStatement(node); case 251 /* CaseBlock */: return visitCaseBlock(node); case 277 /* CaseClause */: return visitCaseClause(node); case 278 /* DefaultClause */: return visitDefaultClause(node); case 240 /* TryStatement */: return visitTryStatement(node); case 280 /* CatchClause */: return visitCatchClause(node); case 223 /* Block */: return visitBlock(node); case 328 /* MergeDeclarationMarker */: return visitMergeDeclarationMarker(node); case 329 /* EndOfDeclarationMarker */: return visitEndOfDeclarationMarker(node); default: return destructuringAndImportCallVisitor(node); } } /** * Visits the body of a ForStatement to hoist declarations. * * @param node The node to visit. */ function visitForStatement(node) { var savedEnclosingBlockScopedContainer = enclosingBlockScopedContainer; enclosingBlockScopedContainer = node; node = ts.updateFor(node, node.initializer && visitForInitializer(node.initializer), ts.visitNode(node.condition, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.incrementor, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement)); enclosingBlockScopedContainer = savedEnclosingBlockScopedContainer; return node; } /** * Visits the body of a ForInStatement to hoist declarations. * * @param node The node to visit. */ function visitForInStatement(node) { var savedEnclosingBlockScopedContainer = enclosingBlockScopedContainer; enclosingBlockScopedContainer = node; node = ts.updateForIn(node, visitForInitializer(node.initializer), ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement, ts.liftToBlock)); enclosingBlockScopedContainer = savedEnclosingBlockScopedContainer; return node; } /** * Visits the body of a ForOfStatement to hoist declarations. * * @param node The node to visit. */ function visitForOfStatement(node) { var savedEnclosingBlockScopedContainer = enclosingBlockScopedContainer; enclosingBlockScopedContainer = node; node = ts.updateForOf(node, node.awaitModifier, visitForInitializer(node.initializer), ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement, ts.liftToBlock)); enclosingBlockScopedContainer = savedEnclosingBlockScopedContainer; return node; } /** * Determines whether to hoist the initializer of a ForStatement, ForInStatement, or * ForOfStatement. * * @param node The node to test. */ function shouldHoistForInitializer(node) { return ts.isVariableDeclarationList(node) && shouldHoistVariableDeclarationList(node); } /** * Visits the initializer of a ForStatement, ForInStatement, or ForOfStatement * * @param node The node to visit. */ function visitForInitializer(node) { if (shouldHoistForInitializer(node)) { var expressions = void 0; for (var _i = 0, _a = node.declarations; _i < _a.length; _i++) { var variable = _a[_i]; expressions = ts.append(expressions, transformInitializedVariable(variable, /*isExportedDeclaration*/ false)); if (!variable.initializer) { hoistBindingElement(variable); } } return expressions ? ts.inlineExpressions(expressions) : ts.createOmittedExpression(); } else { return ts.visitEachChild(node, nestedElementVisitor, context); } } /** * Visits the body of a DoStatement to hoist declarations. * * @param node The node to visit. */ function visitDoStatement(node) { return ts.updateDo(node, ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement, ts.liftToBlock), ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression)); } /** * Visits the body of a WhileStatement to hoist declarations. * * @param node The node to visit. */ function visitWhileStatement(node) { return ts.updateWhile(node, ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement, ts.liftToBlock)); } /** * Visits the body of a LabeledStatement to hoist declarations. * * @param node The node to visit. */ function visitLabeledStatement(node) { return ts.updateLabel(node, node.label, ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement, ts.liftToBlock)); } /** * Visits the body of a WithStatement to hoist declarations. * * @param node The node to visit. */ function visitWithStatement(node) { return ts.updateWith(node, ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.statement, nestedElementVisitor, ts.isStatement, ts.liftToBlock)); } /** * Visits the body of a SwitchStatement to hoist declarations. * * @param node The node to visit. */ function visitSwitchStatement(node) { return ts.updateSwitch(node, ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNode(node.caseBlock, nestedElementVisitor, ts.isCaseBlock)); } /** * Visits the body of a CaseBlock to hoist declarations. * * @param node The node to visit. */ function visitCaseBlock(node) { var savedEnclosingBlockScopedContainer = enclosingBlockScopedContainer; enclosingBlockScopedContainer = node; node = ts.updateCaseBlock(node, ts.visitNodes(node.clauses, nestedElementVisitor, ts.isCaseOrDefaultClause)); enclosingBlockScopedContainer = savedEnclosingBlockScopedContainer; return node; } /** * Visits the body of a CaseClause to hoist declarations. * * @param node The node to visit. */ function visitCaseClause(node) { return ts.updateCaseClause(node, ts.visitNode(node.expression, destructuringAndImportCallVisitor, ts.isExpression), ts.visitNodes(node.statements, nestedElementVisitor, ts.isStatement)); } /** * Visits the body of a DefaultClause to hoist declarations. * * @param node The node to visit. */ function visitDefaultClause(node) { return ts.visitEachChild(node, nestedElementVisitor, context); } /** * Visits the body of a TryStatement to hoist declarations. * * @param node The node to visit. */ function visitTryStatement(node) { return ts.visitEachChild(node, nestedElementVisitor, context); } /** * Visits the body of a CatchClause to hoist declarations. * * @param node The node to visit. */ function visitCatchClause(node) { var savedEnclosingBlockScopedContainer = enclosingBlockScopedContainer; enclosingBlockScopedContainer = node; node = ts.updateCatchClause(node, node.variableDeclaration, ts.visitNode(node.block, nestedElementVisitor, ts.isBlock)); enclosingBlockScopedContainer = savedEnclosingBlockScopedContainer; return node; } /** * Visits the body of a Block to hoist declarations. * * @param node The node to visit. */ function visitBlock(node) { var savedEnclosingBlockScopedContainer = enclosingBlockScopedContainer; enclosingBlockScopedContainer = node; node = ts.visitEachChild(node, nestedElementVisitor, context); enclosingBlockScopedContainer = savedEnclosingBlockScopedContainer; return node; } // // Destructuring Assignment Visitors // /** * Visit nodes to flatten destructuring assignments to exported symbols. * * @param node The node to visit. */ function destructuringAndImportCallVisitor(node) { if (ts.isDestructuringAssignment(node)) { return visitDestructuringAssignment(node); } else if (ts.isImportCall(node)) { return visitImportCallExpression(node); } else if ((node.transformFlags & 1024 /* ContainsDestructuringAssignment */) || (node.transformFlags & 2097152 /* ContainsDynamicImport */)) { return ts.visitEachChild(node, destructuringAndImportCallVisitor, context); } else { return node; } } function visitImportCallExpression(node) { // import("./blah") // emit as // System.register([], function (_export, _context) { // return { // setters: [], // execute: () => { // _context.import('./blah'); // } // }; // }); return ts.createCall(ts.createPropertyAccess(contextObject, ts.createIdentifier("import")), /*typeArguments*/ undefined, ts.some(node.arguments) ? [ts.visitNode(node.arguments[0], destructuringAndImportCallVisitor)] : []); } /** * Visits a DestructuringAssignment to flatten destructuring to exported symbols. * * @param node The node to visit. */ function visitDestructuringAssignment(node) { if (hasExportedReferenceInDestructuringTarget(node.left)) { return ts.flattenDestructuringAssignment(node, destructuringAndImportCallVisitor, context, 0 /* All */, /*needsValue*/ true); } return ts.visitEachChild(node, destructuringAndImportCallVisitor, context); } /** * Determines whether the target of a destructuring assigment refers to an exported symbol. * * @param node The destructuring target. */ function hasExportedReferenceInDestructuringTarget(node) { if (ts.isAssignmentExpression(node, /*excludeCompoundAssignment*/ true)) { return hasExportedReferenceInDestructuringTarget(node.left); } else if (ts.isSpreadElement(node)) { return hasExportedReferenceInDestructuringTarget(node.expression); } else if (ts.isObjectLiteralExpression(node)) { return ts.some(node.properties, hasExportedReferenceInDestructuringTarget); } else if (ts.isArrayLiteralExpression(node)) { return ts.some(node.elements, hasExportedReferenceInDestructuringTarget); } else if (ts.isShorthandPropertyAssignment(node)) { return hasExportedReferenceInDestructuringTarget(node.name); } else if (ts.isPropertyAssignment(node)) { return hasExportedReferenceInDestructuringTarget(node.initializer); } else if (ts.isIdentifier(node)) { var container = resolver.getReferencedExportContainer(node); return container !== undefined && container.kind === 290 /* SourceFile */; } else { return false; } } // // Modifier Visitors // /** * Visit nodes to elide module-specific modifiers. * * @param node The node to visit. */ function modifierVisitor(node) { switch (node.kind) { case 89 /* ExportKeyword */: case 84 /* DefaultKeyword */: return undefined; } return node; } // // Emit Notification // /** * Hook for node emit notifications. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emitCallback A callback used to emit the node in the printer. */ function onEmitNode(hint, node, emitCallback) { if (node.kind === 290 /* SourceFile */) { var id = ts.getOriginalNodeId(node); currentSourceFile = node; moduleInfo = moduleInfoMap[id]; exportFunction = exportFunctionsMap[id]; noSubstitution = noSubstitutionMap[id]; contextObject = contextObjectMap[id]; if (noSubstitution) { delete noSubstitutionMap[id]; } previousOnEmitNode(hint, node, emitCallback); currentSourceFile = undefined; moduleInfo = undefined; exportFunction = undefined; contextObject = undefined; noSubstitution = undefined; } else { previousOnEmitNode(hint, node, emitCallback); } } // // Substitutions // /** * Hooks node substitutions. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (isSubstitutionPrevented(node)) { return node; } if (hint === 1 /* Expression */) { return substituteExpression(node); } else if (hint === 4 /* Unspecified */) { return substituteUnspecified(node); } return node; } /** * Substitute the node, if necessary. * * @param node The node to substitute. */ function substituteUnspecified(node) { switch (node.kind) { case 282 /* ShorthandPropertyAssignment */: return substituteShorthandPropertyAssignment(node); } return node; } /** * Substitution for a ShorthandPropertyAssignment whose name that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteShorthandPropertyAssignment(node) { var name = node.name; if (!ts.isGeneratedIdentifier(name) && !ts.isLocalName(name)) { var importDeclaration = resolver.getReferencedImportDeclaration(name); if (importDeclaration) { if (ts.isImportClause(importDeclaration)) { return ts.setTextRange(ts.createPropertyAssignment(ts.getSynthesizedClone(name), ts.createPropertyAccess(ts.getGeneratedNameForNode(importDeclaration.parent), ts.createIdentifier("default"))), /*location*/ node); } else if (ts.isImportSpecifier(importDeclaration)) { return ts.setTextRange(ts.createPropertyAssignment(ts.getSynthesizedClone(name), ts.createPropertyAccess(ts.getGeneratedNameForNode(importDeclaration.parent.parent.parent), ts.getSynthesizedClone(importDeclaration.propertyName || importDeclaration.name))), /*location*/ node); } } } return node; } /** * Substitute the expression, if necessary. * * @param node The node to substitute. */ function substituteExpression(node) { switch (node.kind) { case 75 /* Identifier */: return substituteExpressionIdentifier(node); case 209 /* BinaryExpression */: return substituteBinaryExpression(node); case 207 /* PrefixUnaryExpression */: case 208 /* PostfixUnaryExpression */: return substituteUnaryExpression(node); case 219 /* MetaProperty */: return substituteMetaProperty(node); } return node; } /** * Substitution for an Identifier expression that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteExpressionIdentifier(node) { if (ts.getEmitFlags(node) & 4096 /* HelperName */) { var externalHelpersModuleName = ts.getExternalHelpersModuleName(currentSourceFile); if (externalHelpersModuleName) { return ts.createPropertyAccess(externalHelpersModuleName, node); } return node; } // When we see an identifier in an expression position that // points to an imported symbol, we should substitute a qualified // reference to the imported symbol if one is needed. // // - We do not substitute generated identifiers for any reason. // - We do not substitute identifiers tagged with the LocalName flag. if (!ts.isGeneratedIdentifier(node) && !ts.isLocalName(node)) { var importDeclaration = resolver.getReferencedImportDeclaration(node); if (importDeclaration) { if (ts.isImportClause(importDeclaration)) { return ts.setTextRange(ts.createPropertyAccess(ts.getGeneratedNameForNode(importDeclaration.parent), ts.createIdentifier("default")), /*location*/ node); } else if (ts.isImportSpecifier(importDeclaration)) { return ts.setTextRange(ts.createPropertyAccess(ts.getGeneratedNameForNode(importDeclaration.parent.parent.parent), ts.getSynthesizedClone(importDeclaration.propertyName || importDeclaration.name)), /*location*/ node); } } } return node; } /** * Substitution for a BinaryExpression that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteBinaryExpression(node) { // When we see an assignment expression whose left-hand side is an exported symbol, // we should ensure all exports of that symbol are updated with the correct value. // // - We do not substitute generated identifiers for any reason. // - We do not substitute identifiers tagged with the LocalName flag. // - We do not substitute identifiers that were originally the name of an enum or // namespace due to how they are transformed in TypeScript. // - We only substitute identifiers that are exported at the top level. if (ts.isAssignmentOperator(node.operatorToken.kind) && ts.isIdentifier(node.left) && !ts.isGeneratedIdentifier(node.left) && !ts.isLocalName(node.left) && !ts.isDeclarationNameOfEnumOrNamespace(node.left)) { var exportedNames = getExports(node.left); if (exportedNames) { // For each additional export of the declaration, apply an export assignment. var expression = node; for (var _i = 0, exportedNames_4 = exportedNames; _i < exportedNames_4.length; _i++) { var exportName = exportedNames_4[_i]; expression = createExportExpression(exportName, preventSubstitution(expression)); } return expression; } } return node; } /** * Substitution for a UnaryExpression that may contain an imported or exported symbol. * * @param node The node to substitute. */ function substituteUnaryExpression(node) { // When we see a prefix or postfix increment expression whose operand is an exported // symbol, we should ensure all exports of that symbol are updated with the correct // value. // // - We do not substitute generated identifiers for any reason. // - We do not substitute identifiers tagged with the LocalName flag. // - We do not substitute identifiers that were originally the name of an enum or // namespace due to how they are transformed in TypeScript. // - We only substitute identifiers that are exported at the top level. if ((node.operator === 45 /* PlusPlusToken */ || node.operator === 46 /* MinusMinusToken */) && ts.isIdentifier(node.operand) && !ts.isGeneratedIdentifier(node.operand) && !ts.isLocalName(node.operand) && !ts.isDeclarationNameOfEnumOrNamespace(node.operand)) { var exportedNames = getExports(node.operand); if (exportedNames) { var expression = node.kind === 208 /* PostfixUnaryExpression */ ? ts.setTextRange(ts.createPrefix(node.operator, node.operand), node) : node; for (var _i = 0, exportedNames_5 = exportedNames; _i < exportedNames_5.length; _i++) { var exportName = exportedNames_5[_i]; expression = createExportExpression(exportName, preventSubstitution(expression)); } if (node.kind === 208 /* PostfixUnaryExpression */) { expression = node.operator === 45 /* PlusPlusToken */ ? ts.createSubtract(preventSubstitution(expression), ts.createLiteral(1)) : ts.createAdd(preventSubstitution(expression), ts.createLiteral(1)); } return expression; } } return node; } function substituteMetaProperty(node) { if (ts.isImportMeta(node)) { return ts.createPropertyAccess(contextObject, ts.createIdentifier("meta")); } return node; } /** * Gets the exports of a name. * * @param name The name. */ function getExports(name) { var exportedNames; if (!ts.isGeneratedIdentifier(name)) { var valueDeclaration = resolver.getReferencedImportDeclaration(name) || resolver.getReferencedValueDeclaration(name); if (valueDeclaration) { var exportContainer = resolver.getReferencedExportContainer(name, /*prefixLocals*/ false); if (exportContainer && exportContainer.kind === 290 /* SourceFile */) { exportedNames = ts.append(exportedNames, ts.getDeclarationName(valueDeclaration)); } exportedNames = ts.addRange(exportedNames, moduleInfo && moduleInfo.exportedBindings[ts.getOriginalNodeId(valueDeclaration)]); } } return exportedNames; } /** * Prevent substitution of a node for this transformer. * * @param node The node which should not be substituted. */ function preventSubstitution(node) { if (noSubstitution === undefined) noSubstitution = []; noSubstitution[ts.getNodeId(node)] = true; return node; } /** * Determines whether a node should not be substituted. * * @param node The node to test. */ function isSubstitutionPrevented(node) { return noSubstitution && node.id && noSubstitution[node.id]; } } ts.transformSystemModule = transformSystemModule; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function transformECMAScriptModule(context) { var compilerOptions = context.getCompilerOptions(); var previousOnEmitNode = context.onEmitNode; var previousOnSubstituteNode = context.onSubstituteNode; context.onEmitNode = onEmitNode; context.onSubstituteNode = onSubstituteNode; context.enableEmitNotification(290 /* SourceFile */); context.enableSubstitution(75 /* Identifier */); var helperNameSubstitutions; return ts.chainBundle(transformSourceFile); function transformSourceFile(node) { if (node.isDeclarationFile) { return node; } if (ts.isExternalModule(node) || compilerOptions.isolatedModules) { var externalHelpersImportDeclaration = ts.createExternalHelpersImportDeclarationIfNeeded(node, compilerOptions); if (externalHelpersImportDeclaration) { var statements = []; var statementOffset = ts.addPrologue(statements, node.statements); ts.append(statements, externalHelpersImportDeclaration); ts.addRange(statements, ts.visitNodes(node.statements, visitor, ts.isStatement, statementOffset)); return ts.updateSourceFileNode(node, ts.setTextRange(ts.createNodeArray(statements), node.statements)); } else { return ts.visitEachChild(node, visitor, context); } } return node; } function visitor(node) { switch (node.kind) { case 253 /* ImportEqualsDeclaration */: // Elide `import=` as it is not legal with --module ES6 return undefined; case 259 /* ExportAssignment */: return visitExportAssignment(node); case 260 /* ExportDeclaration */: var exportDecl = node; return visitExportDeclaration(exportDecl); } return node; } function visitExportAssignment(node) { // Elide `export=` as it is not legal with --module ES6 return node.isExportEquals ? undefined : node; } function visitExportDeclaration(node) { // `export * as ns` only needs to be transformed in ES2015 if (compilerOptions.module !== undefined && compilerOptions.module > ts.ModuleKind.ES2015) { return node; } // Either ill-formed or don't need to be tranformed. if (!node.exportClause || !ts.isNamespaceExport(node.exportClause) || !node.moduleSpecifier) { return node; } var oldIdentifier = node.exportClause.name; var synthName = ts.getGeneratedNameForNode(oldIdentifier); var importDecl = ts.createImportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createImportClause(/*name*/ undefined, ts.createNamespaceImport(synthName)), node.moduleSpecifier); ts.setOriginalNode(importDecl, node.exportClause); var exportDecl = ts.createExportDeclaration( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createNamedExports([ts.createExportSpecifier(synthName, oldIdentifier)])); ts.setOriginalNode(exportDecl, node); return [importDecl, exportDecl]; } // // Emit Notification // /** * Hook for node emit. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emit A callback used to emit the node in the printer. */ function onEmitNode(hint, node, emitCallback) { if (ts.isSourceFile(node)) { if ((ts.isExternalModule(node) || compilerOptions.isolatedModules) && compilerOptions.importHelpers) { helperNameSubstitutions = ts.createMap(); } previousOnEmitNode(hint, node, emitCallback); helperNameSubstitutions = undefined; } else { previousOnEmitNode(hint, node, emitCallback); } } // // Substitutions // /** * Hooks node substitutions. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ function onSubstituteNode(hint, node) { node = previousOnSubstituteNode(hint, node); if (helperNameSubstitutions && ts.isIdentifier(node) && ts.getEmitFlags(node) & 4096 /* HelperName */) { return substituteHelperName(node); } return node; } function substituteHelperName(node) { var name = ts.idText(node); var substitution = helperNameSubstitutions.get(name); if (!substitution) { helperNameSubstitutions.set(name, substitution = ts.createFileLevelUniqueName(name)); } return substitution; } } ts.transformECMAScriptModule = transformECMAScriptModule; })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { function canProduceDiagnostics(node) { return ts.isVariableDeclaration(node) || ts.isPropertyDeclaration(node) || ts.isPropertySignature(node) || ts.isBindingElement(node) || ts.isSetAccessor(node) || ts.isGetAccessor(node) || ts.isConstructSignatureDeclaration(node) || ts.isCallSignatureDeclaration(node) || ts.isMethodDeclaration(node) || ts.isMethodSignature(node) || ts.isFunctionDeclaration(node) || ts.isParameter(node) || ts.isTypeParameterDeclaration(node) || ts.isExpressionWithTypeArguments(node) || ts.isImportEqualsDeclaration(node) || ts.isTypeAliasDeclaration(node) || ts.isConstructorDeclaration(node) || ts.isIndexSignatureDeclaration(node) || ts.isPropertyAccessExpression(node); } ts.canProduceDiagnostics = canProduceDiagnostics; function createGetSymbolAccessibilityDiagnosticForNodeName(node) { if (ts.isSetAccessor(node) || ts.isGetAccessor(node)) { return getAccessorNameVisibilityError; } else if (ts.isMethodSignature(node) || ts.isMethodDeclaration(node)) { return getMethodNameVisibilityError; } else { return createGetSymbolAccessibilityDiagnosticForNode(node); } function getAccessorNameVisibilityError(symbolAccessibilityResult) { var diagnosticMessage = getAccessorNameVisibilityDiagnosticMessage(symbolAccessibilityResult); return diagnosticMessage !== undefined ? { diagnosticMessage: diagnosticMessage, errorNode: node, typeName: node.name } : undefined; } function getAccessorNameVisibilityDiagnosticMessage(symbolAccessibilityResult) { if (ts.hasModifier(node, 32 /* Static */)) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Public_static_property_0_of_exported_class_has_or_is_using_private_name_1; } else if (node.parent.kind === 245 /* ClassDeclaration */) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Public_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Public_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Public_property_0_of_exported_class_has_or_is_using_private_name_1; } else { return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Property_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Property_0_of_exported_interface_has_or_is_using_private_name_1; } } function getMethodNameVisibilityError(symbolAccessibilityResult) { var diagnosticMessage = getMethodNameVisibilityDiagnosticMessage(symbolAccessibilityResult); return diagnosticMessage !== undefined ? { diagnosticMessage: diagnosticMessage, errorNode: node, typeName: node.name } : undefined; } function getMethodNameVisibilityDiagnosticMessage(symbolAccessibilityResult) { if (ts.hasModifier(node, 32 /* Static */)) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Public_static_method_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Public_static_method_0_of_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Public_static_method_0_of_exported_class_has_or_is_using_private_name_1; } else if (node.parent.kind === 245 /* ClassDeclaration */) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Public_method_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Public_method_0_of_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Public_method_0_of_exported_class_has_or_is_using_private_name_1; } else { return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Method_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Method_0_of_exported_interface_has_or_is_using_private_name_1; } } } ts.createGetSymbolAccessibilityDiagnosticForNodeName = createGetSymbolAccessibilityDiagnosticForNodeName; function createGetSymbolAccessibilityDiagnosticForNode(node) { if (ts.isVariableDeclaration(node) || ts.isPropertyDeclaration(node) || ts.isPropertySignature(node) || ts.isPropertyAccessExpression(node) || ts.isBindingElement(node) || ts.isConstructorDeclaration(node)) { return getVariableDeclarationTypeVisibilityError; } else if (ts.isSetAccessor(node) || ts.isGetAccessor(node)) { return getAccessorDeclarationTypeVisibilityError; } else if (ts.isConstructSignatureDeclaration(node) || ts.isCallSignatureDeclaration(node) || ts.isMethodDeclaration(node) || ts.isMethodSignature(node) || ts.isFunctionDeclaration(node) || ts.isIndexSignatureDeclaration(node)) { return getReturnTypeVisibilityError; } else if (ts.isParameter(node)) { if (ts.isParameterPropertyDeclaration(node, node.parent) && ts.hasModifier(node.parent, 8 /* Private */)) { return getVariableDeclarationTypeVisibilityError; } return getParameterDeclarationTypeVisibilityError; } else if (ts.isTypeParameterDeclaration(node)) { return getTypeParameterConstraintVisibilityError; } else if (ts.isExpressionWithTypeArguments(node)) { return getHeritageClauseVisibilityError; } else if (ts.isImportEqualsDeclaration(node)) { return getImportEntityNameVisibilityError; } else if (ts.isTypeAliasDeclaration(node)) { return getTypeAliasDeclarationVisibilityError; } else { return ts.Debug.assertNever(node, "Attempted to set a declaration diagnostic context for unhandled node kind: " + ts.SyntaxKind[node.kind]); } function getVariableDeclarationTypeVisibilityDiagnosticMessage(symbolAccessibilityResult) { if (node.kind === 242 /* VariableDeclaration */ || node.kind === 191 /* BindingElement */) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Exported_variable_0_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Exported_variable_0_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Exported_variable_0_has_or_is_using_private_name_1; } // This check is to ensure we don't report error on constructor parameter property as that error would be reported during parameter emit // The only exception here is if the constructor was marked as private. we are not emitting the constructor parameters at all. else if (node.kind === 159 /* PropertyDeclaration */ || node.kind === 194 /* PropertyAccessExpression */ || node.kind === 158 /* PropertySignature */ || (node.kind === 156 /* Parameter */ && ts.hasModifier(node.parent, 8 /* Private */))) { // TODO(jfreeman): Deal with computed properties in error reporting. if (ts.hasModifier(node, 32 /* Static */)) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Public_static_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Public_static_property_0_of_exported_class_has_or_is_using_private_name_1; } else if (node.parent.kind === 245 /* ClassDeclaration */ || node.kind === 156 /* Parameter */) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Public_property_0_of_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Public_property_0_of_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Public_property_0_of_exported_class_has_or_is_using_private_name_1; } else { // Interfaces cannot have types that cannot be named return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Property_0_of_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Property_0_of_exported_interface_has_or_is_using_private_name_1; } } } function getVariableDeclarationTypeVisibilityError(symbolAccessibilityResult) { var diagnosticMessage = getVariableDeclarationTypeVisibilityDiagnosticMessage(symbolAccessibilityResult); return diagnosticMessage !== undefined ? { diagnosticMessage: diagnosticMessage, errorNode: node, typeName: node.name } : undefined; } function getAccessorDeclarationTypeVisibilityError(symbolAccessibilityResult) { var diagnosticMessage; if (node.kind === 164 /* SetAccessor */) { // Getters can infer the return type from the returned expression, but setters cannot, so the // "_from_external_module_1_but_cannot_be_named" case cannot occur. if (ts.hasModifier(node, 32 /* Static */)) { diagnosticMessage = symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Parameter_type_of_public_static_setter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_type_of_public_static_setter_0_from_exported_class_has_or_is_using_private_name_1; } else { diagnosticMessage = symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Parameter_type_of_public_setter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_type_of_public_setter_0_from_exported_class_has_or_is_using_private_name_1; } } else { if (ts.hasModifier(node, 32 /* Static */)) { diagnosticMessage = symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Return_type_of_public_static_getter_0_from_exported_class_has_or_is_using_private_name_1; } else { diagnosticMessage = symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Return_type_of_public_getter_0_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Return_type_of_public_getter_0_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Return_type_of_public_getter_0_from_exported_class_has_or_is_using_private_name_1; } } return { diagnosticMessage: diagnosticMessage, errorNode: node.name, typeName: node.name }; } function getReturnTypeVisibilityError(symbolAccessibilityResult) { var diagnosticMessage; switch (node.kind) { case 166 /* ConstructSignature */: // Interfaces cannot have return types that cannot be named diagnosticMessage = symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Return_type_of_constructor_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_0; break; case 165 /* CallSignature */: // Interfaces cannot have return types that cannot be named diagnosticMessage = symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Return_type_of_call_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_call_signature_from_exported_interface_has_or_is_using_private_name_0; break; case 167 /* IndexSignature */: // Interfaces cannot have return types that cannot be named diagnosticMessage = symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Return_type_of_index_signature_from_exported_interface_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_index_signature_from_exported_interface_has_or_is_using_private_name_0; break; case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: if (ts.hasModifier(node, 32 /* Static */)) { diagnosticMessage = symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Return_type_of_public_static_method_from_exported_class_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named : ts.Diagnostics.Return_type_of_public_static_method_from_exported_class_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_public_static_method_from_exported_class_has_or_is_using_private_name_0; } else if (node.parent.kind === 245 /* ClassDeclaration */) { diagnosticMessage = symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Return_type_of_public_method_from_exported_class_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named : ts.Diagnostics.Return_type_of_public_method_from_exported_class_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_public_method_from_exported_class_has_or_is_using_private_name_0; } else { // Interfaces cannot have return types that cannot be named diagnosticMessage = symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Return_type_of_method_from_exported_interface_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_method_from_exported_interface_has_or_is_using_private_name_0; } break; case 244 /* FunctionDeclaration */: diagnosticMessage = symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Return_type_of_exported_function_has_or_is_using_name_0_from_external_module_1_but_cannot_be_named : ts.Diagnostics.Return_type_of_exported_function_has_or_is_using_name_0_from_private_module_1 : ts.Diagnostics.Return_type_of_exported_function_has_or_is_using_private_name_0; break; default: return ts.Debug.fail("This is unknown kind for signature: " + node.kind); } return { diagnosticMessage: diagnosticMessage, errorNode: node.name || node }; } function getParameterDeclarationTypeVisibilityError(symbolAccessibilityResult) { var diagnosticMessage = getParameterDeclarationTypeVisibilityDiagnosticMessage(symbolAccessibilityResult); return diagnosticMessage !== undefined ? { diagnosticMessage: diagnosticMessage, errorNode: node, typeName: node.name } : undefined; } function getParameterDeclarationTypeVisibilityDiagnosticMessage(symbolAccessibilityResult) { switch (node.parent.kind) { case 162 /* Constructor */: return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Parameter_0_of_constructor_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Parameter_0_of_constructor_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_constructor_from_exported_class_has_or_is_using_private_name_1; case 166 /* ConstructSignature */: case 171 /* ConstructorType */: // Interfaces cannot have parameter types that cannot be named return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_1; case 165 /* CallSignature */: // Interfaces cannot have parameter types that cannot be named return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Parameter_0_of_call_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_call_signature_from_exported_interface_has_or_is_using_private_name_1; case 167 /* IndexSignature */: // Interfaces cannot have parameter types that cannot be named return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Parameter_0_of_index_signature_from_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_index_signature_from_exported_interface_has_or_is_using_private_name_1; case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: if (ts.hasModifier(node.parent, 32 /* Static */)) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_public_static_method_from_exported_class_has_or_is_using_private_name_1; } else if (node.parent.parent.kind === 245 /* ClassDeclaration */) { return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Parameter_0_of_public_method_from_exported_class_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Parameter_0_of_public_method_from_exported_class_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_public_method_from_exported_class_has_or_is_using_private_name_1; } else { // Interfaces cannot have parameter types that cannot be named return symbolAccessibilityResult.errorModuleName ? ts.Diagnostics.Parameter_0_of_method_from_exported_interface_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_method_from_exported_interface_has_or_is_using_private_name_1; } case 244 /* FunctionDeclaration */: case 170 /* FunctionType */: return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Parameter_0_of_exported_function_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Parameter_0_of_exported_function_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_exported_function_has_or_is_using_private_name_1; case 164 /* SetAccessor */: case 163 /* GetAccessor */: return symbolAccessibilityResult.errorModuleName ? symbolAccessibilityResult.accessibility === 2 /* CannotBeNamed */ ? ts.Diagnostics.Parameter_0_of_accessor_has_or_is_using_name_1_from_external_module_2_but_cannot_be_named : ts.Diagnostics.Parameter_0_of_accessor_has_or_is_using_name_1_from_private_module_2 : ts.Diagnostics.Parameter_0_of_accessor_has_or_is_using_private_name_1; default: return ts.Debug.fail("Unknown parent for parameter: " + ts.SyntaxKind[node.parent.kind]); } } function getTypeParameterConstraintVisibilityError() { // Type parameter constraints are named by user so we should always be able to name it var diagnosticMessage; switch (node.parent.kind) { case 245 /* ClassDeclaration */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_exported_class_has_or_is_using_private_name_1; break; case 246 /* InterfaceDeclaration */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_exported_interface_has_or_is_using_private_name_1; break; case 186 /* MappedType */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_exported_mapped_object_type_is_using_private_name_1; break; case 171 /* ConstructorType */: case 166 /* ConstructSignature */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_constructor_signature_from_exported_interface_has_or_is_using_private_name_1; break; case 165 /* CallSignature */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_call_signature_from_exported_interface_has_or_is_using_private_name_1; break; case 161 /* MethodDeclaration */: case 160 /* MethodSignature */: if (ts.hasModifier(node.parent, 32 /* Static */)) { diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_public_static_method_from_exported_class_has_or_is_using_private_name_1; } else if (node.parent.parent.kind === 245 /* ClassDeclaration */) { diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_public_method_from_exported_class_has_or_is_using_private_name_1; } else { diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_method_from_exported_interface_has_or_is_using_private_name_1; } break; case 170 /* FunctionType */: case 244 /* FunctionDeclaration */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_exported_function_has_or_is_using_private_name_1; break; case 247 /* TypeAliasDeclaration */: diagnosticMessage = ts.Diagnostics.Type_parameter_0_of_exported_type_alias_has_or_is_using_private_name_1; break; default: return ts.Debug.fail("This is unknown parent for type parameter: " + node.parent.kind); } return { diagnosticMessage: diagnosticMessage, errorNode: node, typeName: node.name }; } function getHeritageClauseVisibilityError() { var diagnosticMessage; // Heritage clause is written by user so it can always be named if (node.parent.parent.kind === 245 /* ClassDeclaration */) { // Class or Interface implemented/extended is inaccessible diagnosticMessage = ts.isHeritageClause(node.parent) && node.parent.token === 113 /* ImplementsKeyword */ ? ts.Diagnostics.Implements_clause_of_exported_class_0_has_or_is_using_private_name_1 : ts.Diagnostics.extends_clause_of_exported_class_0_has_or_is_using_private_name_1; } else { // interface is inaccessible diagnosticMessage = ts.Diagnostics.extends_clause_of_exported_interface_0_has_or_is_using_private_name_1; } return { diagnosticMessage: diagnosticMessage, errorNode: node, typeName: ts.getNameOfDeclaration(node.parent.parent) }; } function getImportEntityNameVisibilityError() { return { diagnosticMessage: ts.Diagnostics.Import_declaration_0_is_using_private_name_1, errorNode: node, typeName: node.name }; } function getTypeAliasDeclarationVisibilityError() { return { diagnosticMessage: ts.Diagnostics.Exported_type_alias_0_has_or_is_using_private_name_1, errorNode: node.type, typeName: node.name }; } } ts.createGetSymbolAccessibilityDiagnosticForNode = createGetSymbolAccessibilityDiagnosticForNode; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function getDeclarationDiagnostics(host, resolver, file) { if (file && ts.isJsonSourceFile(file)) { return []; // No declaration diagnostics for json for now } var compilerOptions = host.getCompilerOptions(); var result = ts.transformNodes(resolver, host, compilerOptions, file ? [file] : ts.filter(host.getSourceFiles(), ts.isSourceFileNotJson), [transformDeclarations], /*allowDtsFiles*/ false); return result.diagnostics; } ts.getDeclarationDiagnostics = getDeclarationDiagnostics; function hasInternalAnnotation(range, currentSourceFile) { var comment = currentSourceFile.text.substring(range.pos, range.end); return ts.stringContains(comment, "@internal"); } function isInternalDeclaration(node, currentSourceFile) { var parseTreeNode = ts.getParseTreeNode(node); if (parseTreeNode && parseTreeNode.kind === 156 /* Parameter */) { var paramIdx = parseTreeNode.parent.parameters.indexOf(parseTreeNode); var previousSibling = paramIdx > 0 ? parseTreeNode.parent.parameters[paramIdx - 1] : undefined; var text = currentSourceFile.text; var commentRanges = previousSibling ? ts.concatenate( // to handle // ... parameters, /* @internal */ // public param: string ts.getTrailingCommentRanges(text, ts.skipTrivia(text, previousSibling.end + 1, /* stopAfterLineBreak */ false, /* stopAtComments */ true)), ts.getLeadingCommentRanges(text, node.pos)) : ts.getTrailingCommentRanges(text, ts.skipTrivia(text, node.pos, /* stopAfterLineBreak */ false, /* stopAtComments */ true)); return commentRanges && commentRanges.length && hasInternalAnnotation(ts.last(commentRanges), currentSourceFile); } var leadingCommentRanges = parseTreeNode && ts.getLeadingCommentRangesOfNode(parseTreeNode, currentSourceFile); return !!ts.forEach(leadingCommentRanges, function (range) { return hasInternalAnnotation(range, currentSourceFile); }); } ts.isInternalDeclaration = isInternalDeclaration; var declarationEmitNodeBuilderFlags = 1024 /* MultilineObjectLiterals */ | 2048 /* WriteClassExpressionAsTypeLiteral */ | 4096 /* UseTypeOfFunction */ | 8 /* UseStructuralFallback */ | 524288 /* AllowEmptyTuple */ | 4 /* GenerateNamesForShadowedTypeParams */ | 1 /* NoTruncation */; /** * Transforms a ts file into a .d.ts file * This process requires type information, which is retrieved through the emit resolver. Because of this, * in many places this transformer assumes it will be operating on parse tree nodes directly. * This means that _no transforms should be allowed to occur before this one_. */ function transformDeclarations(context) { var throwDiagnostic = function () { return ts.Debug.fail("Diagnostic emitted without context"); }; var getSymbolAccessibilityDiagnostic = throwDiagnostic; var needsDeclare = true; var isBundledEmit = false; var resultHasExternalModuleIndicator = false; var needsScopeFixMarker = false; var resultHasScopeMarker = false; var enclosingDeclaration; var necessaryTypeReferences; var lateMarkedStatements; var lateStatementReplacementMap; var suppressNewDiagnosticContexts; var exportedModulesFromDeclarationEmit; var host = context.getEmitHost(); var symbolTracker = { trackSymbol: trackSymbol, reportInaccessibleThisError: reportInaccessibleThisError, reportInaccessibleUniqueSymbolError: reportInaccessibleUniqueSymbolError, reportPrivateInBaseOfClassExpression: reportPrivateInBaseOfClassExpression, reportLikelyUnsafeImportRequiredError: reportLikelyUnsafeImportRequiredError, moduleResolverHost: host, trackReferencedAmbientModule: trackReferencedAmbientModule, trackExternalModuleSymbolOfImportTypeNode: trackExternalModuleSymbolOfImportTypeNode, reportNonlocalAugmentation: reportNonlocalAugmentation }; var errorNameNode; var currentSourceFile; var refs; var libs; var emittedImports; // must be declared in container so it can be `undefined` while transformer's first pass var resolver = context.getEmitResolver(); var options = context.getCompilerOptions(); var noResolve = options.noResolve, stripInternal = options.stripInternal; return transformRoot; function recordTypeReferenceDirectivesIfNecessary(typeReferenceDirectives) { if (!typeReferenceDirectives) { return; } necessaryTypeReferences = necessaryTypeReferences || ts.createMap(); for (var _i = 0, typeReferenceDirectives_2 = typeReferenceDirectives; _i < typeReferenceDirectives_2.length; _i++) { var ref = typeReferenceDirectives_2[_i]; necessaryTypeReferences.set(ref, true); } } function trackReferencedAmbientModule(node, symbol) { // If it is visible via `// `, then we should just use that var directives = resolver.getTypeReferenceDirectivesForSymbol(symbol, 67108863 /* All */); if (ts.length(directives)) { return recordTypeReferenceDirectivesIfNecessary(directives); } // Otherwise we should emit a path-based reference var container = ts.getSourceFileOfNode(node); refs.set("" + ts.getOriginalNodeId(container), container); } function handleSymbolAccessibilityError(symbolAccessibilityResult) { if (symbolAccessibilityResult.accessibility === 0 /* Accessible */) { // Add aliases back onto the possible imports list if they're not there so we can try them again with updated visibility info if (symbolAccessibilityResult && symbolAccessibilityResult.aliasesToMakeVisible) { if (!lateMarkedStatements) { lateMarkedStatements = symbolAccessibilityResult.aliasesToMakeVisible; } else { for (var _i = 0, _a = symbolAccessibilityResult.aliasesToMakeVisible; _i < _a.length; _i++) { var ref = _a[_i]; ts.pushIfUnique(lateMarkedStatements, ref); } } } // TODO: Do all these accessibility checks inside/after the first pass in the checker when declarations are enabled, if possible } else { // Report error var errorInfo = getSymbolAccessibilityDiagnostic(symbolAccessibilityResult); if (errorInfo) { if (errorInfo.typeName) { context.addDiagnostic(ts.createDiagnosticForNode(symbolAccessibilityResult.errorNode || errorInfo.errorNode, errorInfo.diagnosticMessage, ts.getTextOfNode(errorInfo.typeName), symbolAccessibilityResult.errorSymbolName, symbolAccessibilityResult.errorModuleName)); } else { context.addDiagnostic(ts.createDiagnosticForNode(symbolAccessibilityResult.errorNode || errorInfo.errorNode, errorInfo.diagnosticMessage, symbolAccessibilityResult.errorSymbolName, symbolAccessibilityResult.errorModuleName)); } } } } function trackExternalModuleSymbolOfImportTypeNode(symbol) { if (!isBundledEmit) { (exportedModulesFromDeclarationEmit || (exportedModulesFromDeclarationEmit = [])).push(symbol); } } function trackSymbol(symbol, enclosingDeclaration, meaning) { if (symbol.flags & 262144 /* TypeParameter */) return; handleSymbolAccessibilityError(resolver.isSymbolAccessible(symbol, enclosingDeclaration, meaning, /*shouldComputeAliasesToMakeVisible*/ true)); recordTypeReferenceDirectivesIfNecessary(resolver.getTypeReferenceDirectivesForSymbol(symbol, meaning)); } function reportPrivateInBaseOfClassExpression(propertyName) { if (errorNameNode) { context.addDiagnostic(ts.createDiagnosticForNode(errorNameNode, ts.Diagnostics.Property_0_of_exported_class_expression_may_not_be_private_or_protected, propertyName)); } } function reportInaccessibleUniqueSymbolError() { if (errorNameNode) { context.addDiagnostic(ts.createDiagnosticForNode(errorNameNode, ts.Diagnostics.The_inferred_type_of_0_references_an_inaccessible_1_type_A_type_annotation_is_necessary, ts.declarationNameToString(errorNameNode), "unique symbol")); } } function reportInaccessibleThisError() { if (errorNameNode) { context.addDiagnostic(ts.createDiagnosticForNode(errorNameNode, ts.Diagnostics.The_inferred_type_of_0_references_an_inaccessible_1_type_A_type_annotation_is_necessary, ts.declarationNameToString(errorNameNode), "this")); } } function reportLikelyUnsafeImportRequiredError(specifier) { if (errorNameNode) { context.addDiagnostic(ts.createDiagnosticForNode(errorNameNode, ts.Diagnostics.The_inferred_type_of_0_cannot_be_named_without_a_reference_to_1_This_is_likely_not_portable_A_type_annotation_is_necessary, ts.declarationNameToString(errorNameNode), specifier)); } } function reportNonlocalAugmentation(containingFile, parentSymbol, symbol) { var primaryDeclaration = ts.find(parentSymbol.declarations, function (d) { return ts.getSourceFileOfNode(d) === containingFile; }); var augmentingDeclarations = ts.filter(symbol.declarations, function (d) { return ts.getSourceFileOfNode(d) !== containingFile; }); for (var _i = 0, augmentingDeclarations_1 = augmentingDeclarations; _i < augmentingDeclarations_1.length; _i++) { var augmentations = augmentingDeclarations_1[_i]; context.addDiagnostic(ts.addRelatedInfo(ts.createDiagnosticForNode(augmentations, ts.Diagnostics.Declaration_augments_declaration_in_another_file_This_cannot_be_serialized), ts.createDiagnosticForNode(primaryDeclaration, ts.Diagnostics.This_is_the_declaration_being_augmented_Consider_moving_the_augmenting_declaration_into_the_same_file))); } } function transformDeclarationsForJS(sourceFile, bundled) { var oldDiag = getSymbolAccessibilityDiagnostic; getSymbolAccessibilityDiagnostic = function (s) { return ({ diagnosticMessage: s.errorModuleName ? ts.Diagnostics.Declaration_emit_for_this_file_requires_using_private_name_0_from_module_1_An_explicit_type_annotation_may_unblock_declaration_emit : ts.Diagnostics.Declaration_emit_for_this_file_requires_using_private_name_0_An_explicit_type_annotation_may_unblock_declaration_emit, errorNode: s.errorNode || sourceFile }); }; var result = resolver.getDeclarationStatementsForSourceFile(sourceFile, declarationEmitNodeBuilderFlags, symbolTracker, bundled); getSymbolAccessibilityDiagnostic = oldDiag; return result; } function transformRoot(node) { if (node.kind === 290 /* SourceFile */ && node.isDeclarationFile) { return node; } if (node.kind === 291 /* Bundle */) { isBundledEmit = true; refs = ts.createMap(); libs = ts.createMap(); var hasNoDefaultLib_1 = false; var bundle = ts.createBundle(ts.map(node.sourceFiles, function (sourceFile) { if (sourceFile.isDeclarationFile) return undefined; // Omit declaration files from bundle results, too // TODO: GH#18217 hasNoDefaultLib_1 = hasNoDefaultLib_1 || sourceFile.hasNoDefaultLib; currentSourceFile = sourceFile; enclosingDeclaration = sourceFile; lateMarkedStatements = undefined; suppressNewDiagnosticContexts = false; lateStatementReplacementMap = ts.createMap(); getSymbolAccessibilityDiagnostic = throwDiagnostic; needsScopeFixMarker = false; resultHasScopeMarker = false; collectReferences(sourceFile, refs); collectLibs(sourceFile, libs); if (ts.isExternalOrCommonJsModule(sourceFile) || ts.isJsonSourceFile(sourceFile)) { resultHasExternalModuleIndicator = false; // unused in external module bundle emit (all external modules are within module blocks, therefore are known to be modules) needsDeclare = false; var statements = ts.isSourceFileJS(sourceFile) ? ts.createNodeArray(transformDeclarationsForJS(sourceFile, /*bundled*/ true)) : ts.visitNodes(sourceFile.statements, visitDeclarationStatements); var newFile = ts.updateSourceFileNode(sourceFile, [ts.createModuleDeclaration([], [ts.createModifier(130 /* DeclareKeyword */)], ts.createLiteral(ts.getResolvedExternalModuleName(context.getEmitHost(), sourceFile)), ts.createModuleBlock(ts.setTextRange(ts.createNodeArray(transformAndReplaceLatePaintedStatements(statements)), sourceFile.statements)))], /*isDeclarationFile*/ true, /*referencedFiles*/ [], /*typeReferences*/ [], /*hasNoDefaultLib*/ false, /*libReferences*/ []); return newFile; } needsDeclare = true; var updated = ts.isSourceFileJS(sourceFile) ? ts.createNodeArray(transformDeclarationsForJS(sourceFile)) : ts.visitNodes(sourceFile.statements, visitDeclarationStatements); return ts.updateSourceFileNode(sourceFile, transformAndReplaceLatePaintedStatements(updated), /*isDeclarationFile*/ true, /*referencedFiles*/ [], /*typeReferences*/ [], /*hasNoDefaultLib*/ false, /*libReferences*/ []); }), ts.mapDefined(node.prepends, function (prepend) { if (prepend.kind === 293 /* InputFiles */) { var sourceFile = ts.createUnparsedSourceFile(prepend, "dts", stripInternal); hasNoDefaultLib_1 = hasNoDefaultLib_1 || !!sourceFile.hasNoDefaultLib; collectReferences(sourceFile, refs); recordTypeReferenceDirectivesIfNecessary(sourceFile.typeReferenceDirectives); collectLibs(sourceFile, libs); return sourceFile; } return prepend; })); bundle.syntheticFileReferences = []; bundle.syntheticTypeReferences = getFileReferencesForUsedTypeReferences(); bundle.syntheticLibReferences = getLibReferences(); bundle.hasNoDefaultLib = hasNoDefaultLib_1; var outputFilePath_1 = ts.getDirectoryPath(ts.normalizeSlashes(ts.getOutputPathsFor(node, host, /*forceDtsPaths*/ true).declarationFilePath)); var referenceVisitor_1 = mapReferencesIntoArray(bundle.syntheticFileReferences, outputFilePath_1); refs.forEach(referenceVisitor_1); return bundle; } // Single source file needsDeclare = true; needsScopeFixMarker = false; resultHasScopeMarker = false; enclosingDeclaration = node; currentSourceFile = node; getSymbolAccessibilityDiagnostic = throwDiagnostic; isBundledEmit = false; resultHasExternalModuleIndicator = false; suppressNewDiagnosticContexts = false; lateMarkedStatements = undefined; lateStatementReplacementMap = ts.createMap(); necessaryTypeReferences = undefined; refs = collectReferences(currentSourceFile, ts.createMap()); libs = collectLibs(currentSourceFile, ts.createMap()); var references = []; var outputFilePath = ts.getDirectoryPath(ts.normalizeSlashes(ts.getOutputPathsFor(node, host, /*forceDtsPaths*/ true).declarationFilePath)); var referenceVisitor = mapReferencesIntoArray(references, outputFilePath); var combinedStatements; if (ts.isSourceFileJS(currentSourceFile)) { combinedStatements = ts.createNodeArray(transformDeclarationsForJS(node)); refs.forEach(referenceVisitor); emittedImports = ts.filter(combinedStatements, ts.isAnyImportSyntax); } else { var statements = ts.visitNodes(node.statements, visitDeclarationStatements); combinedStatements = ts.setTextRange(ts.createNodeArray(transformAndReplaceLatePaintedStatements(statements)), node.statements); refs.forEach(referenceVisitor); emittedImports = ts.filter(combinedStatements, ts.isAnyImportSyntax); if (ts.isExternalModule(node) && (!resultHasExternalModuleIndicator || (needsScopeFixMarker && !resultHasScopeMarker))) { combinedStatements = ts.setTextRange(ts.createNodeArray(__spreadArrays(combinedStatements, [ts.createEmptyExports()])), combinedStatements); } } var updated = ts.updateSourceFileNode(node, combinedStatements, /*isDeclarationFile*/ true, references, getFileReferencesForUsedTypeReferences(), node.hasNoDefaultLib, getLibReferences()); updated.exportedModulesFromDeclarationEmit = exportedModulesFromDeclarationEmit; return updated; function getLibReferences() { return ts.map(ts.arrayFrom(libs.keys()), function (lib) { return ({ fileName: lib, pos: -1, end: -1 }); }); } function getFileReferencesForUsedTypeReferences() { return necessaryTypeReferences ? ts.mapDefined(ts.arrayFrom(necessaryTypeReferences.keys()), getFileReferenceForTypeName) : []; } function getFileReferenceForTypeName(typeName) { // Elide type references for which we have imports if (emittedImports) { for (var _i = 0, emittedImports_1 = emittedImports; _i < emittedImports_1.length; _i++) { var importStatement = emittedImports_1[_i]; if (ts.isImportEqualsDeclaration(importStatement) && ts.isExternalModuleReference(importStatement.moduleReference)) { var expr = importStatement.moduleReference.expression; if (ts.isStringLiteralLike(expr) && expr.text === typeName) { return undefined; } } else if (ts.isImportDeclaration(importStatement) && ts.isStringLiteral(importStatement.moduleSpecifier) && importStatement.moduleSpecifier.text === typeName) { return undefined; } } } return { fileName: typeName, pos: -1, end: -1 }; } function mapReferencesIntoArray(references, outputFilePath) { return function (file) { var declFileName; if (file.isDeclarationFile) { // Neither decl files or js should have their refs changed declFileName = file.fileName; } else { if (isBundledEmit && ts.contains(node.sourceFiles, file)) return; // Omit references to files which are being merged var paths = ts.getOutputPathsFor(file, host, /*forceDtsPaths*/ true); declFileName = paths.declarationFilePath || paths.jsFilePath || file.fileName; } if (declFileName) { var specifier = ts.moduleSpecifiers.getModuleSpecifier(__assign(__assign({}, options), { baseUrl: options.baseUrl && ts.toPath(options.baseUrl, host.getCurrentDirectory(), host.getCanonicalFileName) }), currentSourceFile, ts.toPath(outputFilePath, host.getCurrentDirectory(), host.getCanonicalFileName), ts.toPath(declFileName, host.getCurrentDirectory(), host.getCanonicalFileName), host, /*preferences*/ undefined); if (!ts.pathIsRelative(specifier)) { // If some compiler option/symlink/whatever allows access to the file containing the ambient module declaration // via a non-relative name, emit a type reference directive to that non-relative name, rather than // a relative path to the declaration file recordTypeReferenceDirectivesIfNecessary([specifier]); return; } var fileName = ts.getRelativePathToDirectoryOrUrl(outputFilePath, declFileName, host.getCurrentDirectory(), host.getCanonicalFileName, /*isAbsolutePathAnUrl*/ false); if (ts.startsWith(fileName, "./") && ts.hasExtension(fileName)) { fileName = fileName.substring(2); } // omit references to files from node_modules (npm may disambiguate module // references when installing this package, making the path is unreliable). if (ts.startsWith(fileName, "node_modules/") || ts.pathContainsNodeModules(fileName)) { return; } references.push({ pos: -1, end: -1, fileName: fileName }); } }; } } function collectReferences(sourceFile, ret) { if (noResolve || (!ts.isUnparsedSource(sourceFile) && ts.isSourceFileJS(sourceFile))) return ret; ts.forEach(sourceFile.referencedFiles, function (f) { var elem = host.getSourceFileFromReference(sourceFile, f); if (elem) { ret.set("" + ts.getOriginalNodeId(elem), elem); } }); return ret; } function collectLibs(sourceFile, ret) { ts.forEach(sourceFile.libReferenceDirectives, function (ref) { var lib = host.getLibFileFromReference(ref); if (lib) { ret.set(ts.toFileNameLowerCase(ref.fileName), true); } }); return ret; } function filterBindingPatternInitializers(name) { if (name.kind === 75 /* Identifier */) { return name; } else { if (name.kind === 190 /* ArrayBindingPattern */) { return ts.updateArrayBindingPattern(name, ts.visitNodes(name.elements, visitBindingElement)); } else { return ts.updateObjectBindingPattern(name, ts.visitNodes(name.elements, visitBindingElement)); } } function visitBindingElement(elem) { if (elem.kind === 215 /* OmittedExpression */) { return elem; } return ts.updateBindingElement(elem, elem.dotDotDotToken, elem.propertyName, filterBindingPatternInitializers(elem.name), shouldPrintWithInitializer(elem) ? elem.initializer : undefined); } } function ensureParameter(p, modifierMask, type) { var oldDiag; if (!suppressNewDiagnosticContexts) { oldDiag = getSymbolAccessibilityDiagnostic; getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(p); } var newParam = ts.updateParameter(p, /*decorators*/ undefined, maskModifiers(p, modifierMask), p.dotDotDotToken, filterBindingPatternInitializers(p.name), resolver.isOptionalParameter(p) ? (p.questionToken || ts.createToken(57 /* QuestionToken */)) : undefined, ensureType(p, type || p.type, /*ignorePrivate*/ true), // Ignore private param props, since this type is going straight back into a param ensureNoInitializer(p)); if (!suppressNewDiagnosticContexts) { getSymbolAccessibilityDiagnostic = oldDiag; } return newParam; } function shouldPrintWithInitializer(node) { return canHaveLiteralInitializer(node) && resolver.isLiteralConstDeclaration(ts.getParseTreeNode(node)); // TODO: Make safe } function ensureNoInitializer(node) { if (shouldPrintWithInitializer(node)) { return resolver.createLiteralConstValue(ts.getParseTreeNode(node), symbolTracker); // TODO: Make safe } return undefined; } function ensureType(node, type, ignorePrivate) { if (!ignorePrivate && ts.hasModifier(node, 8 /* Private */)) { // Private nodes emit no types (except private parameter properties, whose parameter types are actually visible) return; } if (shouldPrintWithInitializer(node)) { // Literal const declarations will have an initializer ensured rather than a type return; } var shouldUseResolverType = node.kind === 156 /* Parameter */ && (resolver.isRequiredInitializedParameter(node) || resolver.isOptionalUninitializedParameterProperty(node)); if (type && !shouldUseResolverType) { return ts.visitNode(type, visitDeclarationSubtree); } if (!ts.getParseTreeNode(node)) { return type ? ts.visitNode(type, visitDeclarationSubtree) : ts.createKeywordTypeNode(125 /* AnyKeyword */); } if (node.kind === 164 /* SetAccessor */) { // Set accessors with no associated type node (from it's param or get accessor return) are `any` since they are never contextually typed right now // (The inferred type here will be void, but the old declaration emitter printed `any`, so this replicates that) return ts.createKeywordTypeNode(125 /* AnyKeyword */); } errorNameNode = node.name; var oldDiag; if (!suppressNewDiagnosticContexts) { oldDiag = getSymbolAccessibilityDiagnostic; getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(node); } if (node.kind === 242 /* VariableDeclaration */ || node.kind === 191 /* BindingElement */) { return cleanup(resolver.createTypeOfDeclaration(node, enclosingDeclaration, declarationEmitNodeBuilderFlags, symbolTracker)); } if (node.kind === 156 /* Parameter */ || node.kind === 159 /* PropertyDeclaration */ || node.kind === 158 /* PropertySignature */) { if (!node.initializer) return cleanup(resolver.createTypeOfDeclaration(node, enclosingDeclaration, declarationEmitNodeBuilderFlags, symbolTracker, shouldUseResolverType)); return cleanup(resolver.createTypeOfDeclaration(node, enclosingDeclaration, declarationEmitNodeBuilderFlags, symbolTracker, shouldUseResolverType) || resolver.createTypeOfExpression(node.initializer, enclosingDeclaration, declarationEmitNodeBuilderFlags, symbolTracker)); } return cleanup(resolver.createReturnTypeOfSignatureDeclaration(node, enclosingDeclaration, declarationEmitNodeBuilderFlags, symbolTracker)); function cleanup(returnValue) { errorNameNode = undefined; if (!suppressNewDiagnosticContexts) { getSymbolAccessibilityDiagnostic = oldDiag; } return returnValue || ts.createKeywordTypeNode(125 /* AnyKeyword */); } } function isDeclarationAndNotVisible(node) { node = ts.getParseTreeNode(node); switch (node.kind) { case 244 /* FunctionDeclaration */: case 249 /* ModuleDeclaration */: case 246 /* InterfaceDeclaration */: case 245 /* ClassDeclaration */: case 247 /* TypeAliasDeclaration */: case 248 /* EnumDeclaration */: return !resolver.isDeclarationVisible(node); // The following should be doing their own visibility checks based on filtering their members case 242 /* VariableDeclaration */: return !getBindingNameVisible(node); case 253 /* ImportEqualsDeclaration */: case 254 /* ImportDeclaration */: case 260 /* ExportDeclaration */: case 259 /* ExportAssignment */: return false; } return false; } function getBindingNameVisible(elem) { if (ts.isOmittedExpression(elem)) { return false; } if (ts.isBindingPattern(elem.name)) { // If any child binding pattern element has been marked visible (usually by collect linked aliases), then this is visible return ts.some(elem.name.elements, getBindingNameVisible); } else { return resolver.isDeclarationVisible(elem); } } function updateParamsList(node, params, modifierMask) { if (ts.hasModifier(node, 8 /* Private */)) { return undefined; // TODO: GH#18217 } var newParams = ts.map(params, function (p) { return ensureParameter(p, modifierMask); }); if (!newParams) { return undefined; // TODO: GH#18217 } return ts.createNodeArray(newParams, params.hasTrailingComma); } function updateAccessorParamsList(input, isPrivate) { var newParams; if (!isPrivate) { var thisParameter = ts.getThisParameter(input); if (thisParameter) { newParams = [ensureParameter(thisParameter)]; } } if (ts.isSetAccessorDeclaration(input)) { var newValueParameter = void 0; if (!isPrivate) { var valueParameter = ts.getSetAccessorValueParameter(input); if (valueParameter) { var accessorType = getTypeAnnotationFromAllAccessorDeclarations(input, resolver.getAllAccessorDeclarations(input)); newValueParameter = ensureParameter(valueParameter, /*modifierMask*/ undefined, accessorType); } } if (!newValueParameter) { newValueParameter = ts.createParameter( /*decorators*/ undefined, /*modifiers*/ undefined, /*dotDotDotToken*/ undefined, "value"); } newParams = ts.append(newParams, newValueParameter); } return ts.createNodeArray(newParams || ts.emptyArray); } function ensureTypeParams(node, params) { return ts.hasModifier(node, 8 /* Private */) ? undefined : ts.visitNodes(params, visitDeclarationSubtree); } function isEnclosingDeclaration(node) { return ts.isSourceFile(node) || ts.isTypeAliasDeclaration(node) || ts.isModuleDeclaration(node) || ts.isClassDeclaration(node) || ts.isInterfaceDeclaration(node) || ts.isFunctionLike(node) || ts.isIndexSignatureDeclaration(node) || ts.isMappedTypeNode(node); } function checkEntityNameVisibility(entityName, enclosingDeclaration) { var visibilityResult = resolver.isEntityNameVisible(entityName, enclosingDeclaration); handleSymbolAccessibilityError(visibilityResult); recordTypeReferenceDirectivesIfNecessary(resolver.getTypeReferenceDirectivesForEntityName(entityName)); } function preserveJsDoc(updated, original) { if (ts.hasJSDocNodes(updated) && ts.hasJSDocNodes(original)) { updated.jsDoc = original.jsDoc; } return ts.setCommentRange(updated, ts.getCommentRange(original)); } function rewriteModuleSpecifier(parent, input) { if (!input) return undefined; // TODO: GH#18217 resultHasExternalModuleIndicator = resultHasExternalModuleIndicator || (parent.kind !== 249 /* ModuleDeclaration */ && parent.kind !== 188 /* ImportType */); if (ts.isStringLiteralLike(input)) { if (isBundledEmit) { var newName = ts.getExternalModuleNameFromDeclaration(context.getEmitHost(), resolver, parent); if (newName) { return ts.createLiteral(newName); } } else { var symbol = resolver.getSymbolOfExternalModuleSpecifier(input); if (symbol) { (exportedModulesFromDeclarationEmit || (exportedModulesFromDeclarationEmit = [])).push(symbol); } } } return input; } function transformImportEqualsDeclaration(decl) { if (!resolver.isDeclarationVisible(decl)) return; if (decl.moduleReference.kind === 265 /* ExternalModuleReference */) { // Rewrite external module names if necessary var specifier = ts.getExternalModuleImportEqualsDeclarationExpression(decl); return ts.updateImportEqualsDeclaration(decl, /*decorators*/ undefined, decl.modifiers, decl.name, ts.updateExternalModuleReference(decl.moduleReference, rewriteModuleSpecifier(decl, specifier))); } else { var oldDiag = getSymbolAccessibilityDiagnostic; getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(decl); checkEntityNameVisibility(decl.moduleReference, enclosingDeclaration); getSymbolAccessibilityDiagnostic = oldDiag; return decl; } } function transformImportDeclaration(decl) { if (!decl.importClause) { // import "mod" - possibly needed for side effects? (global interface patches, module augmentations, etc) return ts.updateImportDeclaration(decl, /*decorators*/ undefined, decl.modifiers, decl.importClause, rewriteModuleSpecifier(decl, decl.moduleSpecifier)); } // The `importClause` visibility corresponds to the default's visibility. var visibleDefaultBinding = decl.importClause && decl.importClause.name && resolver.isDeclarationVisible(decl.importClause) ? decl.importClause.name : undefined; if (!decl.importClause.namedBindings) { // No named bindings (either namespace or list), meaning the import is just default or should be elided return visibleDefaultBinding && ts.updateImportDeclaration(decl, /*decorators*/ undefined, decl.modifiers, ts.updateImportClause(decl.importClause, visibleDefaultBinding, /*namedBindings*/ undefined, decl.importClause.isTypeOnly), rewriteModuleSpecifier(decl, decl.moduleSpecifier)); } if (decl.importClause.namedBindings.kind === 256 /* NamespaceImport */) { // Namespace import (optionally with visible default) var namedBindings = resolver.isDeclarationVisible(decl.importClause.namedBindings) ? decl.importClause.namedBindings : /*namedBindings*/ undefined; return visibleDefaultBinding || namedBindings ? ts.updateImportDeclaration(decl, /*decorators*/ undefined, decl.modifiers, ts.updateImportClause(decl.importClause, visibleDefaultBinding, namedBindings, decl.importClause.isTypeOnly), rewriteModuleSpecifier(decl, decl.moduleSpecifier)) : undefined; } // Named imports (optionally with visible default) var bindingList = ts.mapDefined(decl.importClause.namedBindings.elements, function (b) { return resolver.isDeclarationVisible(b) ? b : undefined; }); if ((bindingList && bindingList.length) || visibleDefaultBinding) { return ts.updateImportDeclaration(decl, /*decorators*/ undefined, decl.modifiers, ts.updateImportClause(decl.importClause, visibleDefaultBinding, bindingList && bindingList.length ? ts.updateNamedImports(decl.importClause.namedBindings, bindingList) : undefined, decl.importClause.isTypeOnly), rewriteModuleSpecifier(decl, decl.moduleSpecifier)); } // Augmentation of export depends on import if (resolver.isImportRequiredByAugmentation(decl)) { return ts.updateImportDeclaration(decl, /*decorators*/ undefined, decl.modifiers, /*importClause*/ undefined, rewriteModuleSpecifier(decl, decl.moduleSpecifier)); } // Nothing visible } function transformAndReplaceLatePaintedStatements(statements) { // This is a `while` loop because `handleSymbolAccessibilityError` can see additional import aliases marked as visible during // error handling which must now be included in the output and themselves checked for errors. // For example: // ``` // module A { // export module Q {} // import B = Q; // import C = B; // export import D = C; // } // ``` // In such a scenario, only Q and D are initially visible, but we don't consider imports as private names - instead we say they if they are referenced they must // be recorded. So while checking D's visibility we mark C as visible, then we must check C which in turn marks B, completing the chain of // dependent imports and allowing a valid declaration file output. Today, this dependent alias marking only happens for internal import aliases. while (ts.length(lateMarkedStatements)) { var i = lateMarkedStatements.shift(); if (!ts.isLateVisibilityPaintedStatement(i)) { return ts.Debug.fail("Late replaced statement was found which is not handled by the declaration transformer!: " + (ts.SyntaxKind ? ts.SyntaxKind[i.kind] : i.kind)); } var priorNeedsDeclare = needsDeclare; needsDeclare = i.parent && ts.isSourceFile(i.parent) && !(ts.isExternalModule(i.parent) && isBundledEmit); var result = transformTopLevelDeclaration(i); needsDeclare = priorNeedsDeclare; lateStatementReplacementMap.set("" + ts.getOriginalNodeId(i), result); } // And lastly, we need to get the final form of all those indetermine import declarations from before and add them to the output list // (and remove them from the set to examine for outter declarations) return ts.visitNodes(statements, visitLateVisibilityMarkedStatements); function visitLateVisibilityMarkedStatements(statement) { if (ts.isLateVisibilityPaintedStatement(statement)) { var key = "" + ts.getOriginalNodeId(statement); if (lateStatementReplacementMap.has(key)) { var result = lateStatementReplacementMap.get(key); lateStatementReplacementMap.delete(key); if (result) { if (ts.isArray(result) ? ts.some(result, ts.needsScopeMarker) : ts.needsScopeMarker(result)) { // Top-level declarations in .d.ts files are always considered exported even without a modifier unless there's an export assignment or specifier needsScopeFixMarker = true; } if (ts.isSourceFile(statement.parent) && (ts.isArray(result) ? ts.some(result, ts.isExternalModuleIndicator) : ts.isExternalModuleIndicator(result))) { resultHasExternalModuleIndicator = true; } } return result; } } return statement; } } function visitDeclarationSubtree(input) { if (shouldStripInternal(input)) return; if (ts.isDeclaration(input)) { if (isDeclarationAndNotVisible(input)) return; if (ts.hasDynamicName(input) && !resolver.isLateBound(ts.getParseTreeNode(input))) { return; } } // Elide implementation signatures from overload sets if (ts.isFunctionLike(input) && resolver.isImplementationOfOverload(input)) return; // Elide semicolon class statements if (ts.isSemicolonClassElement(input)) return; var previousEnclosingDeclaration; if (isEnclosingDeclaration(input)) { previousEnclosingDeclaration = enclosingDeclaration; enclosingDeclaration = input; } var oldDiag = getSymbolAccessibilityDiagnostic; // Setup diagnostic-related flags before first potential `cleanup` call, otherwise // We'd see a TDZ violation at runtime var canProduceDiagnostic = ts.canProduceDiagnostics(input); var oldWithinObjectLiteralType = suppressNewDiagnosticContexts; var shouldEnterSuppressNewDiagnosticsContextContext = ((input.kind === 173 /* TypeLiteral */ || input.kind === 186 /* MappedType */) && input.parent.kind !== 247 /* TypeAliasDeclaration */); // Emit methods which are private as properties with no type information if (ts.isMethodDeclaration(input) || ts.isMethodSignature(input)) { if (ts.hasModifier(input, 8 /* Private */)) { if (input.symbol && input.symbol.declarations && input.symbol.declarations[0] !== input) return; // Elide all but the first overload return cleanup(ts.createProperty(/*decorators*/ undefined, ensureModifiers(input), input.name, /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined)); } } if (canProduceDiagnostic && !suppressNewDiagnosticContexts) { getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(input); } if (ts.isTypeQueryNode(input)) { checkEntityNameVisibility(input.exprName, enclosingDeclaration); } if (shouldEnterSuppressNewDiagnosticsContextContext) { // We stop making new diagnostic contexts within object literal types. Unless it's an object type on the RHS of a type alias declaration. Then we do. suppressNewDiagnosticContexts = true; } if (isProcessedComponent(input)) { switch (input.kind) { case 216 /* ExpressionWithTypeArguments */: { if ((ts.isEntityName(input.expression) || ts.isEntityNameExpression(input.expression))) { checkEntityNameVisibility(input.expression, enclosingDeclaration); } var node = ts.visitEachChild(input, visitDeclarationSubtree, context); return cleanup(ts.updateExpressionWithTypeArguments(node, ts.parenthesizeTypeParameters(node.typeArguments), node.expression)); } case 169 /* TypeReference */: { checkEntityNameVisibility(input.typeName, enclosingDeclaration); var node = ts.visitEachChild(input, visitDeclarationSubtree, context); return cleanup(ts.updateTypeReferenceNode(node, node.typeName, ts.parenthesizeTypeParameters(node.typeArguments))); } case 166 /* ConstructSignature */: return cleanup(ts.updateConstructSignature(input, ensureTypeParams(input, input.typeParameters), updateParamsList(input, input.parameters), ensureType(input, input.type))); case 162 /* Constructor */: { // A constructor declaration may not have a type annotation var ctor = ts.createSignatureDeclaration(162 /* Constructor */, ensureTypeParams(input, input.typeParameters), updateParamsList(input, input.parameters, 0 /* None */), /*type*/ undefined); ctor.modifiers = ts.createNodeArray(ensureModifiers(input)); return cleanup(ctor); } case 161 /* MethodDeclaration */: { if (ts.isPrivateIdentifier(input.name)) { return cleanup(/*returnValue*/ undefined); } var sig = ts.createSignatureDeclaration(160 /* MethodSignature */, ensureTypeParams(input, input.typeParameters), updateParamsList(input, input.parameters), ensureType(input, input.type)); sig.name = input.name; sig.modifiers = ts.createNodeArray(ensureModifiers(input)); sig.questionToken = input.questionToken; return cleanup(sig); } case 163 /* GetAccessor */: { if (ts.isPrivateIdentifier(input.name)) { return cleanup(/*returnValue*/ undefined); } var accessorType = getTypeAnnotationFromAllAccessorDeclarations(input, resolver.getAllAccessorDeclarations(input)); return cleanup(ts.updateGetAccessor(input, /*decorators*/ undefined, ensureModifiers(input), input.name, updateAccessorParamsList(input, ts.hasModifier(input, 8 /* Private */)), ensureType(input, accessorType), /*body*/ undefined)); } case 164 /* SetAccessor */: { if (ts.isPrivateIdentifier(input.name)) { return cleanup(/*returnValue*/ undefined); } return cleanup(ts.updateSetAccessor(input, /*decorators*/ undefined, ensureModifiers(input), input.name, updateAccessorParamsList(input, ts.hasModifier(input, 8 /* Private */)), /*body*/ undefined)); } case 159 /* PropertyDeclaration */: if (ts.isPrivateIdentifier(input.name)) { return cleanup(/*returnValue*/ undefined); } return cleanup(ts.updateProperty(input, /*decorators*/ undefined, ensureModifiers(input), input.name, input.questionToken, ensureType(input, input.type), ensureNoInitializer(input))); case 158 /* PropertySignature */: if (ts.isPrivateIdentifier(input.name)) { return cleanup(/*returnValue*/ undefined); } return cleanup(ts.updatePropertySignature(input, ensureModifiers(input), input.name, input.questionToken, ensureType(input, input.type), ensureNoInitializer(input))); case 160 /* MethodSignature */: { if (ts.isPrivateIdentifier(input.name)) { return cleanup(/*returnValue*/ undefined); } return cleanup(ts.updateMethodSignature(input, ensureTypeParams(input, input.typeParameters), updateParamsList(input, input.parameters), ensureType(input, input.type), input.name, input.questionToken)); } case 165 /* CallSignature */: { return cleanup(ts.updateCallSignature(input, ensureTypeParams(input, input.typeParameters), updateParamsList(input, input.parameters), ensureType(input, input.type))); } case 167 /* IndexSignature */: { return cleanup(ts.updateIndexSignature(input, /*decorators*/ undefined, ensureModifiers(input), updateParamsList(input, input.parameters), ts.visitNode(input.type, visitDeclarationSubtree) || ts.createKeywordTypeNode(125 /* AnyKeyword */))); } case 242 /* VariableDeclaration */: { if (ts.isBindingPattern(input.name)) { return recreateBindingPattern(input.name); } shouldEnterSuppressNewDiagnosticsContextContext = true; suppressNewDiagnosticContexts = true; // Variable declaration types also suppress new diagnostic contexts, provided the contexts wouldn't be made for binding pattern types return cleanup(ts.updateTypeScriptVariableDeclaration(input, input.name, /*exclaimationToken*/ undefined, ensureType(input, input.type), ensureNoInitializer(input))); } case 155 /* TypeParameter */: { if (isPrivateMethodTypeParameter(input) && (input.default || input.constraint)) { return cleanup(ts.updateTypeParameterDeclaration(input, input.name, /*constraint*/ undefined, /*defaultType*/ undefined)); } return cleanup(ts.visitEachChild(input, visitDeclarationSubtree, context)); } case 180 /* ConditionalType */: { // We have to process conditional types in a special way because for visibility purposes we need to push a new enclosingDeclaration // just for the `infer` types in the true branch. It's an implicit declaration scope that only applies to _part_ of the type. var checkType = ts.visitNode(input.checkType, visitDeclarationSubtree); var extendsType = ts.visitNode(input.extendsType, visitDeclarationSubtree); var oldEnclosingDecl = enclosingDeclaration; enclosingDeclaration = input.trueType; var trueType = ts.visitNode(input.trueType, visitDeclarationSubtree); enclosingDeclaration = oldEnclosingDecl; var falseType = ts.visitNode(input.falseType, visitDeclarationSubtree); return cleanup(ts.updateConditionalTypeNode(input, checkType, extendsType, trueType, falseType)); } case 170 /* FunctionType */: { return cleanup(ts.updateFunctionTypeNode(input, ts.visitNodes(input.typeParameters, visitDeclarationSubtree), updateParamsList(input, input.parameters), ts.visitNode(input.type, visitDeclarationSubtree))); } case 171 /* ConstructorType */: { return cleanup(ts.updateConstructorTypeNode(input, ts.visitNodes(input.typeParameters, visitDeclarationSubtree), updateParamsList(input, input.parameters), ts.visitNode(input.type, visitDeclarationSubtree))); } case 188 /* ImportType */: { if (!ts.isLiteralImportTypeNode(input)) return cleanup(input); return cleanup(ts.updateImportTypeNode(input, ts.updateLiteralTypeNode(input.argument, rewriteModuleSpecifier(input, input.argument.literal)), input.qualifier, ts.visitNodes(input.typeArguments, visitDeclarationSubtree, ts.isTypeNode), input.isTypeOf)); } default: ts.Debug.assertNever(input, "Attempted to process unhandled node kind: " + ts.SyntaxKind[input.kind]); } } return cleanup(ts.visitEachChild(input, visitDeclarationSubtree, context)); function cleanup(returnValue) { if (returnValue && canProduceDiagnostic && ts.hasDynamicName(input)) { checkName(input); } if (isEnclosingDeclaration(input)) { enclosingDeclaration = previousEnclosingDeclaration; } if (canProduceDiagnostic && !suppressNewDiagnosticContexts) { getSymbolAccessibilityDiagnostic = oldDiag; } if (shouldEnterSuppressNewDiagnosticsContextContext) { suppressNewDiagnosticContexts = oldWithinObjectLiteralType; } if (returnValue === input) { return returnValue; } return returnValue && ts.setOriginalNode(preserveJsDoc(returnValue, input), input); } } function isPrivateMethodTypeParameter(node) { return node.parent.kind === 161 /* MethodDeclaration */ && ts.hasModifier(node.parent, 8 /* Private */); } function visitDeclarationStatements(input) { if (!isPreservedDeclarationStatement(input)) { // return undefined for unmatched kinds to omit them from the tree return; } if (shouldStripInternal(input)) return; switch (input.kind) { case 260 /* ExportDeclaration */: { if (ts.isSourceFile(input.parent)) { resultHasExternalModuleIndicator = true; } resultHasScopeMarker = true; // Always visible if the parent node isn't dropped for being not visible // Rewrite external module names if necessary return ts.updateExportDeclaration(input, /*decorators*/ undefined, input.modifiers, input.exportClause, rewriteModuleSpecifier(input, input.moduleSpecifier), input.isTypeOnly); } case 259 /* ExportAssignment */: { // Always visible if the parent node isn't dropped for being not visible if (ts.isSourceFile(input.parent)) { resultHasExternalModuleIndicator = true; } resultHasScopeMarker = true; if (input.expression.kind === 75 /* Identifier */) { return input; } else { var newId = ts.createOptimisticUniqueName("_default"); getSymbolAccessibilityDiagnostic = function () { return ({ diagnosticMessage: ts.Diagnostics.Default_export_of_the_module_has_or_is_using_private_name_0, errorNode: input }); }; var varDecl = ts.createVariableDeclaration(newId, resolver.createTypeOfExpression(input.expression, input, declarationEmitNodeBuilderFlags, symbolTracker), /*initializer*/ undefined); var statement = ts.createVariableStatement(needsDeclare ? [ts.createModifier(130 /* DeclareKeyword */)] : [], ts.createVariableDeclarationList([varDecl], 2 /* Const */)); return [statement, ts.updateExportAssignment(input, input.decorators, input.modifiers, newId)]; } } } var result = transformTopLevelDeclaration(input); // Don't actually transform yet; just leave as original node - will be elided/swapped by late pass lateStatementReplacementMap.set("" + ts.getOriginalNodeId(input), result); return input; } function stripExportModifiers(statement) { if (ts.isImportEqualsDeclaration(statement) || ts.hasModifier(statement, 512 /* Default */)) { // `export import` statements should remain as-is, as imports are _not_ implicitly exported in an ambient namespace // Likewise, `export default` classes and the like and just be `default`, so we preserve their `export` modifiers, too return statement; } var clone = ts.getMutableClone(statement); var modifiers = ts.createModifiersFromModifierFlags(ts.getModifierFlags(statement) & (3071 /* All */ ^ 1 /* Export */)); clone.modifiers = modifiers.length ? ts.createNodeArray(modifiers) : undefined; return clone; } function transformTopLevelDeclaration(input) { if (shouldStripInternal(input)) return; switch (input.kind) { case 253 /* ImportEqualsDeclaration */: { return transformImportEqualsDeclaration(input); } case 254 /* ImportDeclaration */: { return transformImportDeclaration(input); } } if (ts.isDeclaration(input) && isDeclarationAndNotVisible(input)) return; // Elide implementation signatures from overload sets if (ts.isFunctionLike(input) && resolver.isImplementationOfOverload(input)) return; var previousEnclosingDeclaration; if (isEnclosingDeclaration(input)) { previousEnclosingDeclaration = enclosingDeclaration; enclosingDeclaration = input; } var canProdiceDiagnostic = ts.canProduceDiagnostics(input); var oldDiag = getSymbolAccessibilityDiagnostic; if (canProdiceDiagnostic) { getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(input); } var previousNeedsDeclare = needsDeclare; switch (input.kind) { case 247 /* TypeAliasDeclaration */: // Type aliases get `declare`d if need be (for legacy support), but that's all return cleanup(ts.updateTypeAliasDeclaration(input, /*decorators*/ undefined, ensureModifiers(input), input.name, ts.visitNodes(input.typeParameters, visitDeclarationSubtree, ts.isTypeParameterDeclaration), ts.visitNode(input.type, visitDeclarationSubtree, ts.isTypeNode))); case 246 /* InterfaceDeclaration */: { return cleanup(ts.updateInterfaceDeclaration(input, /*decorators*/ undefined, ensureModifiers(input), input.name, ensureTypeParams(input, input.typeParameters), transformHeritageClauses(input.heritageClauses), ts.visitNodes(input.members, visitDeclarationSubtree))); } case 244 /* FunctionDeclaration */: { // Generators lose their generator-ness, excepting their return type var clean = cleanup(ts.updateFunctionDeclaration(input, /*decorators*/ undefined, ensureModifiers(input), /*asteriskToken*/ undefined, input.name, ensureTypeParams(input, input.typeParameters), updateParamsList(input, input.parameters), ensureType(input, input.type), /*body*/ undefined)); if (clean && resolver.isExpandoFunctionDeclaration(input)) { var props = resolver.getPropertiesOfContainerFunction(input); var fakespace_1 = ts.createModuleDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, clean.name || ts.createIdentifier("_default"), ts.createModuleBlock([]), 16 /* Namespace */); fakespace_1.flags ^= 8 /* Synthesized */; // unset synthesized so it is usable as an enclosing declaration fakespace_1.parent = enclosingDeclaration; fakespace_1.locals = ts.createSymbolTable(props); fakespace_1.symbol = props[0].parent; var declarations = ts.mapDefined(props, function (p) { if (!ts.isPropertyAccessExpression(p.valueDeclaration)) { return undefined; // TODO GH#33569: Handle element access expressions that created late bound names (rather than silently omitting them) } getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(p.valueDeclaration); var type = resolver.createTypeOfDeclaration(p.valueDeclaration, fakespace_1, declarationEmitNodeBuilderFlags, symbolTracker); getSymbolAccessibilityDiagnostic = oldDiag; var varDecl = ts.createVariableDeclaration(ts.unescapeLeadingUnderscores(p.escapedName), type, /*initializer*/ undefined); return ts.createVariableStatement(/*modifiers*/ undefined, ts.createVariableDeclarationList([varDecl])); }); var namespaceDecl = ts.createModuleDeclaration(/*decorators*/ undefined, ensureModifiers(input), input.name, ts.createModuleBlock(declarations), 16 /* Namespace */); if (!ts.hasModifier(clean, 512 /* Default */)) { return [clean, namespaceDecl]; } var modifiers = ts.createModifiersFromModifierFlags((ts.getModifierFlags(clean) & ~513 /* ExportDefault */) | 2 /* Ambient */); var cleanDeclaration = ts.updateFunctionDeclaration(clean, /*decorators*/ undefined, modifiers, /*asteriskToken*/ undefined, clean.name, clean.typeParameters, clean.parameters, clean.type, /*body*/ undefined); var namespaceDeclaration = ts.updateModuleDeclaration(namespaceDecl, /*decorators*/ undefined, modifiers, namespaceDecl.name, namespaceDecl.body); var exportDefaultDeclaration = ts.createExportAssignment( /*decorators*/ undefined, /*modifiers*/ undefined, /*isExportEquals*/ false, namespaceDecl.name); if (ts.isSourceFile(input.parent)) { resultHasExternalModuleIndicator = true; } resultHasScopeMarker = true; return [cleanDeclaration, namespaceDeclaration, exportDefaultDeclaration]; } else { return clean; } } case 249 /* ModuleDeclaration */: { needsDeclare = false; var inner = input.body; if (inner && inner.kind === 250 /* ModuleBlock */) { var oldNeedsScopeFix = needsScopeFixMarker; var oldHasScopeFix = resultHasScopeMarker; resultHasScopeMarker = false; needsScopeFixMarker = false; var statements = ts.visitNodes(inner.statements, visitDeclarationStatements); var lateStatements = transformAndReplaceLatePaintedStatements(statements); if (input.flags & 8388608 /* Ambient */) { needsScopeFixMarker = false; // If it was `declare`'d everything is implicitly exported already, ignore late printed "privates" } // With the final list of statements, there are 3 possibilities: // 1. There's an export assignment or export declaration in the namespace - do nothing // 2. Everything is exported and there are no export assignments or export declarations - strip all export modifiers // 3. Some things are exported, some are not, and there's no marker - add an empty marker if (!ts.isGlobalScopeAugmentation(input) && !hasScopeMarker(lateStatements) && !resultHasScopeMarker) { if (needsScopeFixMarker) { lateStatements = ts.createNodeArray(__spreadArrays(lateStatements, [ts.createEmptyExports()])); } else { lateStatements = ts.visitNodes(lateStatements, stripExportModifiers); } } var body = ts.updateModuleBlock(inner, lateStatements); needsDeclare = previousNeedsDeclare; needsScopeFixMarker = oldNeedsScopeFix; resultHasScopeMarker = oldHasScopeFix; var mods = ensureModifiers(input); return cleanup(ts.updateModuleDeclaration(input, /*decorators*/ undefined, mods, ts.isExternalModuleAugmentation(input) ? rewriteModuleSpecifier(input, input.name) : input.name, body)); } else { needsDeclare = previousNeedsDeclare; var mods = ensureModifiers(input); needsDeclare = false; ts.visitNode(inner, visitDeclarationStatements); // eagerly transform nested namespaces (the nesting doesn't need any elision or painting done) var id = "" + ts.getOriginalNodeId(inner); // TODO: GH#18217 var body = lateStatementReplacementMap.get(id); lateStatementReplacementMap.delete(id); return cleanup(ts.updateModuleDeclaration(input, /*decorators*/ undefined, mods, input.name, body)); } } case 245 /* ClassDeclaration */: { var modifiers = ts.createNodeArray(ensureModifiers(input)); var typeParameters = ensureTypeParams(input, input.typeParameters); var ctor = ts.getFirstConstructorWithBody(input); var parameterProperties = void 0; if (ctor) { var oldDiag_1 = getSymbolAccessibilityDiagnostic; parameterProperties = ts.compact(ts.flatMap(ctor.parameters, function (param) { if (!ts.hasModifier(param, 92 /* ParameterPropertyModifier */) || shouldStripInternal(param)) return; getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(param); if (param.name.kind === 75 /* Identifier */) { return preserveJsDoc(ts.createProperty( /*decorators*/ undefined, ensureModifiers(param), param.name, param.questionToken, ensureType(param, param.type), ensureNoInitializer(param)), param); } else { // Pattern - this is currently an error, but we emit declarations for it somewhat correctly return walkBindingPattern(param.name); } function walkBindingPattern(pattern) { var elems; for (var _i = 0, _a = pattern.elements; _i < _a.length; _i++) { var elem = _a[_i]; if (ts.isOmittedExpression(elem)) continue; if (ts.isBindingPattern(elem.name)) { elems = ts.concatenate(elems, walkBindingPattern(elem.name)); } elems = elems || []; elems.push(ts.createProperty( /*decorators*/ undefined, ensureModifiers(param), elem.name, /*questionToken*/ undefined, ensureType(elem, /*type*/ undefined), /*initializer*/ undefined)); } return elems; } })); getSymbolAccessibilityDiagnostic = oldDiag_1; } var hasPrivateIdentifier = ts.some(input.members, function (member) { return !!member.name && ts.isPrivateIdentifier(member.name); }); var privateIdentifier = hasPrivateIdentifier ? [ ts.createProperty( /*decorators*/ undefined, /*modifiers*/ undefined, ts.createPrivateIdentifier("#private"), /*questionToken*/ undefined, /*type*/ undefined, /*initializer*/ undefined) ] : undefined; var memberNodes = ts.concatenate(ts.concatenate(privateIdentifier, parameterProperties), ts.visitNodes(input.members, visitDeclarationSubtree)); var members = ts.createNodeArray(memberNodes); var extendsClause_1 = ts.getEffectiveBaseTypeNode(input); if (extendsClause_1 && !ts.isEntityNameExpression(extendsClause_1.expression) && extendsClause_1.expression.kind !== 100 /* NullKeyword */) { // We must add a temporary declaration for the extends clause expression var oldId = input.name ? ts.unescapeLeadingUnderscores(input.name.escapedText) : "default"; var newId_1 = ts.createOptimisticUniqueName(oldId + "_base"); getSymbolAccessibilityDiagnostic = function () { return ({ diagnosticMessage: ts.Diagnostics.extends_clause_of_exported_class_0_has_or_is_using_private_name_1, errorNode: extendsClause_1, typeName: input.name }); }; var varDecl = ts.createVariableDeclaration(newId_1, resolver.createTypeOfExpression(extendsClause_1.expression, input, declarationEmitNodeBuilderFlags, symbolTracker), /*initializer*/ undefined); var statement = ts.createVariableStatement(needsDeclare ? [ts.createModifier(130 /* DeclareKeyword */)] : [], ts.createVariableDeclarationList([varDecl], 2 /* Const */)); var heritageClauses = ts.createNodeArray(ts.map(input.heritageClauses, function (clause) { if (clause.token === 90 /* ExtendsKeyword */) { var oldDiag_2 = getSymbolAccessibilityDiagnostic; getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(clause.types[0]); var newClause = ts.updateHeritageClause(clause, ts.map(clause.types, function (t) { return ts.updateExpressionWithTypeArguments(t, ts.visitNodes(t.typeArguments, visitDeclarationSubtree), newId_1); })); getSymbolAccessibilityDiagnostic = oldDiag_2; return newClause; } return ts.updateHeritageClause(clause, ts.visitNodes(ts.createNodeArray(ts.filter(clause.types, function (t) { return ts.isEntityNameExpression(t.expression) || t.expression.kind === 100 /* NullKeyword */; })), visitDeclarationSubtree)); })); return [statement, cleanup(ts.updateClassDeclaration(input, /*decorators*/ undefined, modifiers, input.name, typeParameters, heritageClauses, members))]; // TODO: GH#18217 } else { var heritageClauses = transformHeritageClauses(input.heritageClauses); return cleanup(ts.updateClassDeclaration(input, /*decorators*/ undefined, modifiers, input.name, typeParameters, heritageClauses, members)); } } case 225 /* VariableStatement */: { return cleanup(transformVariableStatement(input)); } case 248 /* EnumDeclaration */: { return cleanup(ts.updateEnumDeclaration(input, /*decorators*/ undefined, ts.createNodeArray(ensureModifiers(input)), input.name, ts.createNodeArray(ts.mapDefined(input.members, function (m) { if (shouldStripInternal(m)) return; // Rewrite enum values to their constants, if available var constValue = resolver.getConstantValue(m); return preserveJsDoc(ts.updateEnumMember(m, m.name, constValue !== undefined ? ts.createLiteral(constValue) : undefined), m); })))); } } // Anything left unhandled is an error, so this should be unreachable return ts.Debug.assertNever(input, "Unhandled top-level node in declaration emit: " + ts.SyntaxKind[input.kind]); function cleanup(node) { if (isEnclosingDeclaration(input)) { enclosingDeclaration = previousEnclosingDeclaration; } if (canProdiceDiagnostic) { getSymbolAccessibilityDiagnostic = oldDiag; } if (input.kind === 249 /* ModuleDeclaration */) { needsDeclare = previousNeedsDeclare; } if (node === input) { return node; } return node && ts.setOriginalNode(preserveJsDoc(node, input), input); } } function transformVariableStatement(input) { if (!ts.forEach(input.declarationList.declarations, getBindingNameVisible)) return; var nodes = ts.visitNodes(input.declarationList.declarations, visitDeclarationSubtree); if (!ts.length(nodes)) return; return ts.updateVariableStatement(input, ts.createNodeArray(ensureModifiers(input)), ts.updateVariableDeclarationList(input.declarationList, nodes)); } function recreateBindingPattern(d) { return ts.flatten(ts.mapDefined(d.elements, function (e) { return recreateBindingElement(e); })); } function recreateBindingElement(e) { if (e.kind === 215 /* OmittedExpression */) { return; } if (e.name) { if (!getBindingNameVisible(e)) return; if (ts.isBindingPattern(e.name)) { return recreateBindingPattern(e.name); } else { return ts.createVariableDeclaration(e.name, ensureType(e, /*type*/ undefined), /*initializer*/ undefined); } } } function checkName(node) { var oldDiag; if (!suppressNewDiagnosticContexts) { oldDiag = getSymbolAccessibilityDiagnostic; getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNodeName(node); } errorNameNode = node.name; ts.Debug.assert(resolver.isLateBound(ts.getParseTreeNode(node))); // Should only be called with dynamic names var decl = node; var entityName = decl.name.expression; checkEntityNameVisibility(entityName, enclosingDeclaration); if (!suppressNewDiagnosticContexts) { getSymbolAccessibilityDiagnostic = oldDiag; } errorNameNode = undefined; } function shouldStripInternal(node) { return !!stripInternal && !!node && isInternalDeclaration(node, currentSourceFile); } function isScopeMarker(node) { return ts.isExportAssignment(node) || ts.isExportDeclaration(node); } function hasScopeMarker(statements) { return ts.some(statements, isScopeMarker); } function ensureModifiers(node) { var currentFlags = ts.getModifierFlags(node); var newFlags = ensureModifierFlags(node); if (currentFlags === newFlags) { return node.modifiers; } return ts.createModifiersFromModifierFlags(newFlags); } function ensureModifierFlags(node) { var mask = 3071 /* All */ ^ (4 /* Public */ | 256 /* Async */); // No async modifiers in declaration files var additions = (needsDeclare && !isAlwaysType(node)) ? 2 /* Ambient */ : 0 /* None */; var parentIsFile = node.parent.kind === 290 /* SourceFile */; if (!parentIsFile || (isBundledEmit && parentIsFile && ts.isExternalModule(node.parent))) { mask ^= 2 /* Ambient */; additions = 0 /* None */; } return maskModifierFlags(node, mask, additions); } function getTypeAnnotationFromAllAccessorDeclarations(node, accessors) { var accessorType = getTypeAnnotationFromAccessor(node); if (!accessorType && node !== accessors.firstAccessor) { accessorType = getTypeAnnotationFromAccessor(accessors.firstAccessor); // If we end up pulling the type from the second accessor, we also need to change the diagnostic context to get the expected error message getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(accessors.firstAccessor); } if (!accessorType && accessors.secondAccessor && node !== accessors.secondAccessor) { accessorType = getTypeAnnotationFromAccessor(accessors.secondAccessor); // If we end up pulling the type from the second accessor, we also need to change the diagnostic context to get the expected error message getSymbolAccessibilityDiagnostic = ts.createGetSymbolAccessibilityDiagnosticForNode(accessors.secondAccessor); } return accessorType; } function transformHeritageClauses(nodes) { return ts.createNodeArray(ts.filter(ts.map(nodes, function (clause) { return ts.updateHeritageClause(clause, ts.visitNodes(ts.createNodeArray(ts.filter(clause.types, function (t) { return ts.isEntityNameExpression(t.expression) || (clause.token === 90 /* ExtendsKeyword */ && t.expression.kind === 100 /* NullKeyword */); })), visitDeclarationSubtree)); }), function (clause) { return clause.types && !!clause.types.length; })); } } ts.transformDeclarations = transformDeclarations; function isAlwaysType(node) { if (node.kind === 246 /* InterfaceDeclaration */) { return true; } return false; } // Elide "public" modifier, as it is the default function maskModifiers(node, modifierMask, modifierAdditions) { return ts.createModifiersFromModifierFlags(maskModifierFlags(node, modifierMask, modifierAdditions)); } function maskModifierFlags(node, modifierMask, modifierAdditions) { if (modifierMask === void 0) { modifierMask = 3071 /* All */ ^ 4 /* Public */; } if (modifierAdditions === void 0) { modifierAdditions = 0 /* None */; } var flags = (ts.getModifierFlags(node) & modifierMask) | modifierAdditions; if (flags & 512 /* Default */ && !(flags & 1 /* Export */)) { // A non-exported default is a nonsequitor - we usually try to remove all export modifiers // from statements in ambient declarations; but a default export must retain its export modifier to be syntactically valid flags ^= 1 /* Export */; } if (flags & 512 /* Default */ && flags & 2 /* Ambient */) { flags ^= 2 /* Ambient */; // `declare` is never required alongside `default` (and would be an error if printed) } return flags; } function getTypeAnnotationFromAccessor(accessor) { if (accessor) { return accessor.kind === 163 /* GetAccessor */ ? accessor.type // Getter - return type : accessor.parameters.length > 0 ? accessor.parameters[0].type // Setter parameter type : undefined; } } function canHaveLiteralInitializer(node) { switch (node.kind) { case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: return !ts.hasModifier(node, 8 /* Private */); case 156 /* Parameter */: case 242 /* VariableDeclaration */: return true; } return false; } function isPreservedDeclarationStatement(node) { switch (node.kind) { case 244 /* FunctionDeclaration */: case 249 /* ModuleDeclaration */: case 253 /* ImportEqualsDeclaration */: case 246 /* InterfaceDeclaration */: case 245 /* ClassDeclaration */: case 247 /* TypeAliasDeclaration */: case 248 /* EnumDeclaration */: case 225 /* VariableStatement */: case 254 /* ImportDeclaration */: case 260 /* ExportDeclaration */: case 259 /* ExportAssignment */: return true; } return false; } function isProcessedComponent(node) { switch (node.kind) { case 166 /* ConstructSignature */: case 162 /* Constructor */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 159 /* PropertyDeclaration */: case 158 /* PropertySignature */: case 160 /* MethodSignature */: case 165 /* CallSignature */: case 167 /* IndexSignature */: case 242 /* VariableDeclaration */: case 155 /* TypeParameter */: case 216 /* ExpressionWithTypeArguments */: case 169 /* TypeReference */: case 180 /* ConditionalType */: case 170 /* FunctionType */: case 171 /* ConstructorType */: case 188 /* ImportType */: return true; } return false; } })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { function getModuleTransformer(moduleKind) { switch (moduleKind) { case ts.ModuleKind.ESNext: case ts.ModuleKind.ES2020: case ts.ModuleKind.ES2015: return ts.transformECMAScriptModule; case ts.ModuleKind.System: return ts.transformSystemModule; default: return ts.transformModule; } } var TransformationState; (function (TransformationState) { TransformationState[TransformationState["Uninitialized"] = 0] = "Uninitialized"; TransformationState[TransformationState["Initialized"] = 1] = "Initialized"; TransformationState[TransformationState["Completed"] = 2] = "Completed"; TransformationState[TransformationState["Disposed"] = 3] = "Disposed"; })(TransformationState || (TransformationState = {})); var SyntaxKindFeatureFlags; (function (SyntaxKindFeatureFlags) { SyntaxKindFeatureFlags[SyntaxKindFeatureFlags["Substitution"] = 1] = "Substitution"; SyntaxKindFeatureFlags[SyntaxKindFeatureFlags["EmitNotifications"] = 2] = "EmitNotifications"; })(SyntaxKindFeatureFlags || (SyntaxKindFeatureFlags = {})); ts.noTransformers = { scriptTransformers: ts.emptyArray, declarationTransformers: ts.emptyArray }; function getTransformers(compilerOptions, customTransformers, emitOnlyDtsFiles) { return { scriptTransformers: getScriptTransformers(compilerOptions, customTransformers, emitOnlyDtsFiles), declarationTransformers: getDeclarationTransformers(customTransformers), }; } ts.getTransformers = getTransformers; function getScriptTransformers(compilerOptions, customTransformers, emitOnlyDtsFiles) { if (emitOnlyDtsFiles) return ts.emptyArray; var jsx = compilerOptions.jsx; var languageVersion = ts.getEmitScriptTarget(compilerOptions); var moduleKind = ts.getEmitModuleKind(compilerOptions); var transformers = []; ts.addRange(transformers, customTransformers && ts.map(customTransformers.before, wrapScriptTransformerFactory)); transformers.push(ts.transformTypeScript); transformers.push(ts.transformClassFields); if (jsx === 2 /* React */) { transformers.push(ts.transformJsx); } if (languageVersion < 99 /* ESNext */) { transformers.push(ts.transformESNext); } if (languageVersion < 7 /* ES2020 */) { transformers.push(ts.transformES2020); } if (languageVersion < 6 /* ES2019 */) { transformers.push(ts.transformES2019); } if (languageVersion < 5 /* ES2018 */) { transformers.push(ts.transformES2018); } if (languageVersion < 4 /* ES2017 */) { transformers.push(ts.transformES2017); } if (languageVersion < 3 /* ES2016 */) { transformers.push(ts.transformES2016); } if (languageVersion < 2 /* ES2015 */) { transformers.push(ts.transformES2015); transformers.push(ts.transformGenerators); } transformers.push(getModuleTransformer(moduleKind)); // The ES5 transformer is last so that it can substitute expressions like `exports.default` // for ES3. if (languageVersion < 1 /* ES5 */) { transformers.push(ts.transformES5); } ts.addRange(transformers, customTransformers && ts.map(customTransformers.after, wrapScriptTransformerFactory)); return transformers; } function getDeclarationTransformers(customTransformers) { var transformers = []; transformers.push(ts.transformDeclarations); ts.addRange(transformers, customTransformers && ts.map(customTransformers.afterDeclarations, wrapDeclarationTransformerFactory)); return transformers; } /** * Wrap a custom script or declaration transformer object in a `Transformer` callback with fallback support for transforming bundles. */ function wrapCustomTransformer(transformer) { return function (node) { return ts.isBundle(node) ? transformer.transformBundle(node) : transformer.transformSourceFile(node); }; } /** * Wrap a transformer factory that may return a custom script or declaration transformer object. */ function wrapCustomTransformerFactory(transformer, handleDefault) { return function (context) { var customTransformer = transformer(context); return typeof customTransformer === "function" ? handleDefault(customTransformer) : wrapCustomTransformer(customTransformer); }; } function wrapScriptTransformerFactory(transformer) { return wrapCustomTransformerFactory(transformer, ts.chainBundle); } function wrapDeclarationTransformerFactory(transformer) { return wrapCustomTransformerFactory(transformer, ts.identity); } function noEmitSubstitution(_hint, node) { return node; } ts.noEmitSubstitution = noEmitSubstitution; function noEmitNotification(hint, node, callback) { callback(hint, node); } ts.noEmitNotification = noEmitNotification; /** * Transforms an array of SourceFiles by passing them through each transformer. * * @param resolver The emit resolver provided by the checker. * @param host The emit host object used to interact with the file system. * @param options Compiler options to surface in the `TransformationContext`. * @param nodes An array of nodes to transform. * @param transforms An array of `TransformerFactory` callbacks. * @param allowDtsFiles A value indicating whether to allow the transformation of .d.ts files. */ function transformNodes(resolver, host, options, nodes, transformers, allowDtsFiles) { var enabledSyntaxKindFeatures = new Array(331 /* Count */); var lexicalEnvironmentVariableDeclarations; var lexicalEnvironmentFunctionDeclarations; var lexicalEnvironmentStatements; var lexicalEnvironmentFlags = 0 /* None */; var lexicalEnvironmentVariableDeclarationsStack = []; var lexicalEnvironmentFunctionDeclarationsStack = []; var lexicalEnvironmentStatementsStack = []; var lexicalEnvironmentFlagsStack = []; var lexicalEnvironmentStackOffset = 0; var lexicalEnvironmentSuspended = false; var emitHelpers; var onSubstituteNode = noEmitSubstitution; var onEmitNode = noEmitNotification; var state = 0 /* Uninitialized */; var diagnostics = []; // The transformation context is provided to each transformer as part of transformer // initialization. var context = { getCompilerOptions: function () { return options; }, getEmitResolver: function () { return resolver; }, getEmitHost: function () { return host; }, startLexicalEnvironment: startLexicalEnvironment, suspendLexicalEnvironment: suspendLexicalEnvironment, resumeLexicalEnvironment: resumeLexicalEnvironment, endLexicalEnvironment: endLexicalEnvironment, setLexicalEnvironmentFlags: setLexicalEnvironmentFlags, getLexicalEnvironmentFlags: getLexicalEnvironmentFlags, hoistVariableDeclaration: hoistVariableDeclaration, hoistFunctionDeclaration: hoistFunctionDeclaration, addInitializationStatement: addInitializationStatement, requestEmitHelper: requestEmitHelper, readEmitHelpers: readEmitHelpers, enableSubstitution: enableSubstitution, enableEmitNotification: enableEmitNotification, isSubstitutionEnabled: isSubstitutionEnabled, isEmitNotificationEnabled: isEmitNotificationEnabled, get onSubstituteNode() { return onSubstituteNode; }, set onSubstituteNode(value) { ts.Debug.assert(state < 1 /* Initialized */, "Cannot modify transformation hooks after initialization has completed."); ts.Debug.assert(value !== undefined, "Value must not be 'undefined'"); onSubstituteNode = value; }, get onEmitNode() { return onEmitNode; }, set onEmitNode(value) { ts.Debug.assert(state < 1 /* Initialized */, "Cannot modify transformation hooks after initialization has completed."); ts.Debug.assert(value !== undefined, "Value must not be 'undefined'"); onEmitNode = value; }, addDiagnostic: function (diag) { diagnostics.push(diag); } }; // Ensure the parse tree is clean before applying transformations for (var _i = 0, nodes_4 = nodes; _i < nodes_4.length; _i++) { var node = nodes_4[_i]; ts.disposeEmitNodes(ts.getSourceFileOfNode(ts.getParseTreeNode(node))); } ts.performance.mark("beforeTransform"); // Chain together and initialize each transformer. var transformersWithContext = transformers.map(function (t) { return t(context); }); var transformation = function (node) { for (var _i = 0, transformersWithContext_1 = transformersWithContext; _i < transformersWithContext_1.length; _i++) { var transform = transformersWithContext_1[_i]; node = transform(node); } return node; }; // prevent modification of transformation hooks. state = 1 /* Initialized */; // Transform each node. var transformed = ts.map(nodes, allowDtsFiles ? transformation : transformRoot); // prevent modification of the lexical environment. state = 2 /* Completed */; ts.performance.mark("afterTransform"); ts.performance.measure("transformTime", "beforeTransform", "afterTransform"); return { transformed: transformed, substituteNode: substituteNode, emitNodeWithNotification: emitNodeWithNotification, isEmitNotificationEnabled: isEmitNotificationEnabled, dispose: dispose, diagnostics: diagnostics }; function transformRoot(node) { return node && (!ts.isSourceFile(node) || !node.isDeclarationFile) ? transformation(node) : node; } /** * Enables expression substitutions in the pretty printer for the provided SyntaxKind. */ function enableSubstitution(kind) { ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the transformation context after transformation has completed."); enabledSyntaxKindFeatures[kind] |= 1 /* Substitution */; } /** * Determines whether expression substitutions are enabled for the provided node. */ function isSubstitutionEnabled(node) { return (enabledSyntaxKindFeatures[node.kind] & 1 /* Substitution */) !== 0 && (ts.getEmitFlags(node) & 4 /* NoSubstitution */) === 0; } /** * Emits a node with possible substitution. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emitCallback The callback used to emit the node or its substitute. */ function substituteNode(hint, node) { ts.Debug.assert(state < 3 /* Disposed */, "Cannot substitute a node after the result is disposed."); return node && isSubstitutionEnabled(node) && onSubstituteNode(hint, node) || node; } /** * Enables before/after emit notifications in the pretty printer for the provided SyntaxKind. */ function enableEmitNotification(kind) { ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the transformation context after transformation has completed."); enabledSyntaxKindFeatures[kind] |= 2 /* EmitNotifications */; } /** * Determines whether before/after emit notifications should be raised in the pretty * printer when it emits a node. */ function isEmitNotificationEnabled(node) { return (enabledSyntaxKindFeatures[node.kind] & 2 /* EmitNotifications */) !== 0 || (ts.getEmitFlags(node) & 2 /* AdviseOnEmitNode */) !== 0; } /** * Emits a node with possible emit notification. * * @param hint A hint as to the intended usage of the node. * @param node The node to emit. * @param emitCallback The callback used to emit the node. */ function emitNodeWithNotification(hint, node, emitCallback) { ts.Debug.assert(state < 3 /* Disposed */, "Cannot invoke TransformationResult callbacks after the result is disposed."); if (node) { // TODO: Remove check and unconditionally use onEmitNode when API is breakingly changed // (see https://github.com/microsoft/TypeScript/pull/36248/files/5062623f39120171b98870c71344b3242eb03d23#r369766739) if (isEmitNotificationEnabled(node)) { onEmitNode(hint, node, emitCallback); } else { emitCallback(hint, node); } } } /** * Records a hoisted variable declaration for the provided name within a lexical environment. */ function hoistVariableDeclaration(name) { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); var decl = ts.setEmitFlags(ts.createVariableDeclaration(name), 64 /* NoNestedSourceMaps */); if (!lexicalEnvironmentVariableDeclarations) { lexicalEnvironmentVariableDeclarations = [decl]; } else { lexicalEnvironmentVariableDeclarations.push(decl); } if (lexicalEnvironmentFlags & 1 /* InParameters */) { lexicalEnvironmentFlags |= 2 /* VariablesHoistedInParameters */; } } /** * Records a hoisted function declaration within a lexical environment. */ function hoistFunctionDeclaration(func) { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); ts.setEmitFlags(func, 1048576 /* CustomPrologue */); if (!lexicalEnvironmentFunctionDeclarations) { lexicalEnvironmentFunctionDeclarations = [func]; } else { lexicalEnvironmentFunctionDeclarations.push(func); } } /** * Adds an initialization statement to the top of the lexical environment. */ function addInitializationStatement(node) { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); ts.setEmitFlags(node, 1048576 /* CustomPrologue */); if (!lexicalEnvironmentStatements) { lexicalEnvironmentStatements = [node]; } else { lexicalEnvironmentStatements.push(node); } } /** * Starts a new lexical environment. Any existing hoisted variable or function declarations * are pushed onto a stack, and the related storage variables are reset. */ function startLexicalEnvironment() { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); ts.Debug.assert(!lexicalEnvironmentSuspended, "Lexical environment is suspended."); // Save the current lexical environment. Rather than resizing the array we adjust the // stack size variable. This allows us to reuse existing array slots we've // already allocated between transformations to avoid allocation and GC overhead during // transformation. lexicalEnvironmentVariableDeclarationsStack[lexicalEnvironmentStackOffset] = lexicalEnvironmentVariableDeclarations; lexicalEnvironmentFunctionDeclarationsStack[lexicalEnvironmentStackOffset] = lexicalEnvironmentFunctionDeclarations; lexicalEnvironmentStatementsStack[lexicalEnvironmentStackOffset] = lexicalEnvironmentStatements; lexicalEnvironmentFlagsStack[lexicalEnvironmentStackOffset] = lexicalEnvironmentFlags; lexicalEnvironmentStackOffset++; lexicalEnvironmentVariableDeclarations = undefined; lexicalEnvironmentFunctionDeclarations = undefined; lexicalEnvironmentStatements = undefined; lexicalEnvironmentFlags = 0 /* None */; } /** Suspends the current lexical environment, usually after visiting a parameter list. */ function suspendLexicalEnvironment() { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); ts.Debug.assert(!lexicalEnvironmentSuspended, "Lexical environment is already suspended."); lexicalEnvironmentSuspended = true; } /** Resumes a suspended lexical environment, usually before visiting a function body. */ function resumeLexicalEnvironment() { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); ts.Debug.assert(lexicalEnvironmentSuspended, "Lexical environment is not suspended."); lexicalEnvironmentSuspended = false; } /** * Ends a lexical environment. The previous set of hoisted declarations are restored and * any hoisted declarations added in this environment are returned. */ function endLexicalEnvironment() { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the lexical environment during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the lexical environment after transformation has completed."); ts.Debug.assert(!lexicalEnvironmentSuspended, "Lexical environment is suspended."); var statements; if (lexicalEnvironmentVariableDeclarations || lexicalEnvironmentFunctionDeclarations || lexicalEnvironmentStatements) { if (lexicalEnvironmentFunctionDeclarations) { statements = __spreadArrays(lexicalEnvironmentFunctionDeclarations); } if (lexicalEnvironmentVariableDeclarations) { var statement = ts.createVariableStatement( /*modifiers*/ undefined, ts.createVariableDeclarationList(lexicalEnvironmentVariableDeclarations)); ts.setEmitFlags(statement, 1048576 /* CustomPrologue */); if (!statements) { statements = [statement]; } else { statements.push(statement); } } if (lexicalEnvironmentStatements) { if (!statements) { statements = __spreadArrays(lexicalEnvironmentStatements); } else { statements = __spreadArrays(statements, lexicalEnvironmentStatements); } } } // Restore the previous lexical environment. lexicalEnvironmentStackOffset--; lexicalEnvironmentVariableDeclarations = lexicalEnvironmentVariableDeclarationsStack[lexicalEnvironmentStackOffset]; lexicalEnvironmentFunctionDeclarations = lexicalEnvironmentFunctionDeclarationsStack[lexicalEnvironmentStackOffset]; lexicalEnvironmentStatements = lexicalEnvironmentStatementsStack[lexicalEnvironmentStackOffset]; lexicalEnvironmentFlags = lexicalEnvironmentFlagsStack[lexicalEnvironmentStackOffset]; if (lexicalEnvironmentStackOffset === 0) { lexicalEnvironmentVariableDeclarationsStack = []; lexicalEnvironmentFunctionDeclarationsStack = []; lexicalEnvironmentStatementsStack = []; lexicalEnvironmentFlagsStack = []; } return statements; } function setLexicalEnvironmentFlags(flags, value) { lexicalEnvironmentFlags = value ? lexicalEnvironmentFlags | flags : lexicalEnvironmentFlags & ~flags; } function getLexicalEnvironmentFlags() { return lexicalEnvironmentFlags; } function requestEmitHelper(helper) { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the transformation context during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the transformation context after transformation has completed."); ts.Debug.assert(!helper.scoped, "Cannot request a scoped emit helper."); if (helper.dependencies) { for (var _i = 0, _a = helper.dependencies; _i < _a.length; _i++) { var h = _a[_i]; requestEmitHelper(h); } } emitHelpers = ts.append(emitHelpers, helper); } function readEmitHelpers() { ts.Debug.assert(state > 0 /* Uninitialized */, "Cannot modify the transformation context during initialization."); ts.Debug.assert(state < 2 /* Completed */, "Cannot modify the transformation context after transformation has completed."); var helpers = emitHelpers; emitHelpers = undefined; return helpers; } function dispose() { if (state < 3 /* Disposed */) { // Clean up emit nodes on parse tree for (var _i = 0, nodes_5 = nodes; _i < nodes_5.length; _i++) { var node = nodes_5[_i]; ts.disposeEmitNodes(ts.getSourceFileOfNode(ts.getParseTreeNode(node))); } // Release references to external entries for GC purposes. lexicalEnvironmentVariableDeclarations = undefined; lexicalEnvironmentVariableDeclarationsStack = undefined; lexicalEnvironmentFunctionDeclarations = undefined; lexicalEnvironmentFunctionDeclarationsStack = undefined; onSubstituteNode = undefined; onEmitNode = undefined; emitHelpers = undefined; // Prevent further use of the transformation result. state = 3 /* Disposed */; } } } ts.transformNodes = transformNodes; })(ts || (ts = {})); var ts; (function (ts) { var brackets = createBracketsMap(); var syntheticParent = { pos: -1, end: -1 }; /*@internal*/ function isBuildInfoFile(file) { return ts.fileExtensionIs(file, ".tsbuildinfo" /* TsBuildInfo */); } ts.isBuildInfoFile = isBuildInfoFile; /*@internal*/ /** * Iterates over the source files that are expected to have an emit output. * * @param host An EmitHost. * @param action The action to execute. * @param sourceFilesOrTargetSourceFile * If an array, the full list of source files to emit. * Else, calls `getSourceFilesToEmit` with the (optional) target source file to determine the list of source files to emit. */ function forEachEmittedFile(host, action, sourceFilesOrTargetSourceFile, forceDtsEmit, onlyBuildInfo, includeBuildInfo) { if (forceDtsEmit === void 0) { forceDtsEmit = false; } var sourceFiles = ts.isArray(sourceFilesOrTargetSourceFile) ? sourceFilesOrTargetSourceFile : ts.getSourceFilesToEmit(host, sourceFilesOrTargetSourceFile, forceDtsEmit); var options = host.getCompilerOptions(); if (options.outFile || options.out) { var prepends = host.getPrependNodes(); if (sourceFiles.length || prepends.length) { var bundle = ts.createBundle(sourceFiles, prepends); var result = action(getOutputPathsFor(bundle, host, forceDtsEmit), bundle); if (result) { return result; } } } else { if (!onlyBuildInfo) { for (var _a = 0, sourceFiles_1 = sourceFiles; _a < sourceFiles_1.length; _a++) { var sourceFile = sourceFiles_1[_a]; var result = action(getOutputPathsFor(sourceFile, host, forceDtsEmit), sourceFile); if (result) { return result; } } } if (includeBuildInfo) { var buildInfoPath = getTsBuildInfoEmitOutputFilePath(host.getCompilerOptions()); if (buildInfoPath) return action({ buildInfoPath: buildInfoPath }, /*sourceFileOrBundle*/ undefined); } } } ts.forEachEmittedFile = forEachEmittedFile; function getTsBuildInfoEmitOutputFilePath(options) { var configFile = options.configFilePath; if (!ts.isIncrementalCompilation(options)) return undefined; if (options.tsBuildInfoFile) return options.tsBuildInfoFile; var outPath = options.outFile || options.out; var buildInfoExtensionLess; if (outPath) { buildInfoExtensionLess = ts.removeFileExtension(outPath); } else { if (!configFile) return undefined; var configFileExtensionLess = ts.removeFileExtension(configFile); buildInfoExtensionLess = options.outDir ? options.rootDir ? ts.resolvePath(options.outDir, ts.getRelativePathFromDirectory(options.rootDir, configFileExtensionLess, /*ignoreCase*/ true)) : ts.combinePaths(options.outDir, ts.getBaseFileName(configFileExtensionLess)) : configFileExtensionLess; } return buildInfoExtensionLess + ".tsbuildinfo" /* TsBuildInfo */; } ts.getTsBuildInfoEmitOutputFilePath = getTsBuildInfoEmitOutputFilePath; /*@internal*/ function getOutputPathsForBundle(options, forceDtsPaths) { var outPath = options.outFile || options.out; var jsFilePath = options.emitDeclarationOnly ? undefined : outPath; var sourceMapFilePath = jsFilePath && getSourceMapFilePath(jsFilePath, options); var declarationFilePath = (forceDtsPaths || ts.getEmitDeclarations(options)) ? ts.removeFileExtension(outPath) + ".d.ts" /* Dts */ : undefined; var declarationMapPath = declarationFilePath && ts.getAreDeclarationMapsEnabled(options) ? declarationFilePath + ".map" : undefined; var buildInfoPath = getTsBuildInfoEmitOutputFilePath(options); return { jsFilePath: jsFilePath, sourceMapFilePath: sourceMapFilePath, declarationFilePath: declarationFilePath, declarationMapPath: declarationMapPath, buildInfoPath: buildInfoPath }; } ts.getOutputPathsForBundle = getOutputPathsForBundle; /*@internal*/ function getOutputPathsFor(sourceFile, host, forceDtsPaths) { var options = host.getCompilerOptions(); if (sourceFile.kind === 291 /* Bundle */) { return getOutputPathsForBundle(options, forceDtsPaths); } else { var ownOutputFilePath = ts.getOwnEmitOutputFilePath(sourceFile.fileName, host, getOutputExtension(sourceFile, options)); var isJsonFile = ts.isJsonSourceFile(sourceFile); // If json file emits to the same location skip writing it, if emitDeclarationOnly skip writing it var isJsonEmittedToSameLocation = isJsonFile && ts.comparePaths(sourceFile.fileName, ownOutputFilePath, host.getCurrentDirectory(), !host.useCaseSensitiveFileNames()) === 0 /* EqualTo */; var jsFilePath = options.emitDeclarationOnly || isJsonEmittedToSameLocation ? undefined : ownOutputFilePath; var sourceMapFilePath = !jsFilePath || ts.isJsonSourceFile(sourceFile) ? undefined : getSourceMapFilePath(jsFilePath, options); var declarationFilePath = (forceDtsPaths || (ts.getEmitDeclarations(options) && !isJsonFile)) ? ts.getDeclarationEmitOutputFilePath(sourceFile.fileName, host) : undefined; var declarationMapPath = declarationFilePath && ts.getAreDeclarationMapsEnabled(options) ? declarationFilePath + ".map" : undefined; return { jsFilePath: jsFilePath, sourceMapFilePath: sourceMapFilePath, declarationFilePath: declarationFilePath, declarationMapPath: declarationMapPath, buildInfoPath: undefined }; } } ts.getOutputPathsFor = getOutputPathsFor; function getSourceMapFilePath(jsFilePath, options) { return (options.sourceMap && !options.inlineSourceMap) ? jsFilePath + ".map" : undefined; } // JavaScript files are always LanguageVariant.JSX, as JSX syntax is allowed in .js files also. // So for JavaScript files, '.jsx' is only emitted if the input was '.jsx', and JsxEmit.Preserve. // For TypeScript, the only time to emit with a '.jsx' extension, is on JSX input, and JsxEmit.Preserve /* @internal */ function getOutputExtension(sourceFile, options) { if (ts.isJsonSourceFile(sourceFile)) { return ".json" /* Json */; } if (options.jsx === 1 /* Preserve */) { if (ts.isSourceFileJS(sourceFile)) { if (ts.fileExtensionIs(sourceFile.fileName, ".jsx" /* Jsx */)) { return ".jsx" /* Jsx */; } } else if (sourceFile.languageVariant === 1 /* JSX */) { // TypeScript source file preserving JSX syntax return ".jsx" /* Jsx */; } } return ".js" /* Js */; } ts.getOutputExtension = getOutputExtension; function rootDirOfOptions(configFile) { return configFile.options.rootDir || ts.getDirectoryPath(ts.Debug.checkDefined(configFile.options.configFilePath)); } function getOutputPathWithoutChangingExt(inputFileName, configFile, ignoreCase, outputDir) { return outputDir ? ts.resolvePath(outputDir, ts.getRelativePathFromDirectory(rootDirOfOptions(configFile), inputFileName, ignoreCase)) : inputFileName; } /* @internal */ function getOutputDeclarationFileName(inputFileName, configFile, ignoreCase) { ts.Debug.assert(!ts.fileExtensionIs(inputFileName, ".d.ts" /* Dts */) && !ts.fileExtensionIs(inputFileName, ".json" /* Json */)); return ts.changeExtension(getOutputPathWithoutChangingExt(inputFileName, configFile, ignoreCase, configFile.options.declarationDir || configFile.options.outDir), ".d.ts" /* Dts */); } ts.getOutputDeclarationFileName = getOutputDeclarationFileName; function getOutputJSFileName(inputFileName, configFile, ignoreCase) { if (configFile.options.emitDeclarationOnly) return undefined; var isJsonFile = ts.fileExtensionIs(inputFileName, ".json" /* Json */); var outputFileName = ts.changeExtension(getOutputPathWithoutChangingExt(inputFileName, configFile, ignoreCase, configFile.options.outDir), isJsonFile ? ".json" /* Json */ : ts.fileExtensionIs(inputFileName, ".tsx" /* Tsx */) && configFile.options.jsx === 1 /* Preserve */ ? ".jsx" /* Jsx */ : ".js" /* Js */); return !isJsonFile || ts.comparePaths(inputFileName, outputFileName, ts.Debug.checkDefined(configFile.options.configFilePath), ignoreCase) !== 0 /* EqualTo */ ? outputFileName : undefined; } function createAddOutput() { var outputs; return { addOutput: addOutput, getOutputs: getOutputs }; function addOutput(path) { if (path) { (outputs || (outputs = [])).push(path); } } function getOutputs() { return outputs || ts.emptyArray; } } function getSingleOutputFileNames(configFile, addOutput) { var _a = getOutputPathsForBundle(configFile.options, /*forceDtsPaths*/ false), jsFilePath = _a.jsFilePath, sourceMapFilePath = _a.sourceMapFilePath, declarationFilePath = _a.declarationFilePath, declarationMapPath = _a.declarationMapPath, buildInfoPath = _a.buildInfoPath; addOutput(jsFilePath); addOutput(sourceMapFilePath); addOutput(declarationFilePath); addOutput(declarationMapPath); addOutput(buildInfoPath); } function getOwnOutputFileNames(configFile, inputFileName, ignoreCase, addOutput) { if (ts.fileExtensionIs(inputFileName, ".d.ts" /* Dts */)) return; var js = getOutputJSFileName(inputFileName, configFile, ignoreCase); addOutput(js); if (ts.fileExtensionIs(inputFileName, ".json" /* Json */)) return; if (js && configFile.options.sourceMap) { addOutput(js + ".map"); } if (ts.getEmitDeclarations(configFile.options)) { var dts = getOutputDeclarationFileName(inputFileName, configFile, ignoreCase); addOutput(dts); if (configFile.options.declarationMap) { addOutput(dts + ".map"); } } } /*@internal*/ function getAllProjectOutputs(configFile, ignoreCase) { var _a = createAddOutput(), addOutput = _a.addOutput, getOutputs = _a.getOutputs; if (configFile.options.outFile || configFile.options.out) { getSingleOutputFileNames(configFile, addOutput); } else { for (var _b = 0, _c = configFile.fileNames; _b < _c.length; _b++) { var inputFileName = _c[_b]; getOwnOutputFileNames(configFile, inputFileName, ignoreCase, addOutput); } addOutput(getTsBuildInfoEmitOutputFilePath(configFile.options)); } return getOutputs(); } ts.getAllProjectOutputs = getAllProjectOutputs; function getOutputFileNames(commandLine, inputFileName, ignoreCase) { inputFileName = ts.normalizePath(inputFileName); ts.Debug.assert(ts.contains(commandLine.fileNames, inputFileName), "Expected fileName to be present in command line"); var _a = createAddOutput(), addOutput = _a.addOutput, getOutputs = _a.getOutputs; if (commandLine.options.outFile || commandLine.options.out) { getSingleOutputFileNames(commandLine, addOutput); } else { getOwnOutputFileNames(commandLine, inputFileName, ignoreCase, addOutput); } return getOutputs(); } ts.getOutputFileNames = getOutputFileNames; /*@internal*/ function getFirstProjectOutput(configFile, ignoreCase) { if (configFile.options.outFile || configFile.options.out) { var jsFilePath = getOutputPathsForBundle(configFile.options, /*forceDtsPaths*/ false).jsFilePath; return ts.Debug.checkDefined(jsFilePath, "project " + configFile.options.configFilePath + " expected to have at least one output"); } for (var _a = 0, _b = configFile.fileNames; _a < _b.length; _a++) { var inputFileName = _b[_a]; if (ts.fileExtensionIs(inputFileName, ".d.ts" /* Dts */)) continue; var jsFilePath = getOutputJSFileName(inputFileName, configFile, ignoreCase); if (jsFilePath) return jsFilePath; if (ts.fileExtensionIs(inputFileName, ".json" /* Json */)) continue; if (ts.getEmitDeclarations(configFile.options)) { return getOutputDeclarationFileName(inputFileName, configFile, ignoreCase); } } var buildInfoPath = getTsBuildInfoEmitOutputFilePath(configFile.options); if (buildInfoPath) return buildInfoPath; return ts.Debug.fail("project " + configFile.options.configFilePath + " expected to have at least one output"); } ts.getFirstProjectOutput = getFirstProjectOutput; /*@internal*/ // targetSourceFile is when users only want one file in entire project to be emitted. This is used in compileOnSave feature function emitFiles(resolver, host, targetSourceFile, _a, emitOnlyDtsFiles, onlyBuildInfo, forceDtsEmit) { var scriptTransformers = _a.scriptTransformers, declarationTransformers = _a.declarationTransformers; var compilerOptions = host.getCompilerOptions(); var sourceMapDataList = (compilerOptions.sourceMap || compilerOptions.inlineSourceMap || ts.getAreDeclarationMapsEnabled(compilerOptions)) ? [] : undefined; var emittedFilesList = compilerOptions.listEmittedFiles ? [] : undefined; var emitterDiagnostics = ts.createDiagnosticCollection(); var newLine = ts.getNewLineCharacter(compilerOptions, function () { return host.getNewLine(); }); var writer = ts.createTextWriter(newLine); var _b = ts.performance.createTimer("printTime", "beforePrint", "afterPrint"), enter = _b.enter, exit = _b.exit; var bundleBuildInfo; var emitSkipped = false; var exportedModulesFromDeclarationEmit; // Emit each output file enter(); forEachEmittedFile(host, emitSourceFileOrBundle, ts.getSourceFilesToEmit(host, targetSourceFile, forceDtsEmit), forceDtsEmit, onlyBuildInfo, !targetSourceFile); exit(); return { emitSkipped: emitSkipped, diagnostics: emitterDiagnostics.getDiagnostics(), emittedFiles: emittedFilesList, sourceMaps: sourceMapDataList, exportedModulesFromDeclarationEmit: exportedModulesFromDeclarationEmit }; function emitSourceFileOrBundle(_a, sourceFileOrBundle) { var jsFilePath = _a.jsFilePath, sourceMapFilePath = _a.sourceMapFilePath, declarationFilePath = _a.declarationFilePath, declarationMapPath = _a.declarationMapPath, buildInfoPath = _a.buildInfoPath; var buildInfoDirectory; if (buildInfoPath && sourceFileOrBundle && ts.isBundle(sourceFileOrBundle)) { buildInfoDirectory = ts.getDirectoryPath(ts.getNormalizedAbsolutePath(buildInfoPath, host.getCurrentDirectory())); bundleBuildInfo = { commonSourceDirectory: relativeToBuildInfo(host.getCommonSourceDirectory()), sourceFiles: sourceFileOrBundle.sourceFiles.map(function (file) { return relativeToBuildInfo(ts.getNormalizedAbsolutePath(file.fileName, host.getCurrentDirectory())); }) }; } emitJsFileOrBundle(sourceFileOrBundle, jsFilePath, sourceMapFilePath, relativeToBuildInfo); emitDeclarationFileOrBundle(sourceFileOrBundle, declarationFilePath, declarationMapPath, relativeToBuildInfo); emitBuildInfo(bundleBuildInfo, buildInfoPath); if (!emitSkipped && emittedFilesList) { if (!emitOnlyDtsFiles) { if (jsFilePath) { emittedFilesList.push(jsFilePath); } if (sourceMapFilePath) { emittedFilesList.push(sourceMapFilePath); } if (buildInfoPath) { emittedFilesList.push(buildInfoPath); } } if (declarationFilePath) { emittedFilesList.push(declarationFilePath); } if (declarationMapPath) { emittedFilesList.push(declarationMapPath); } } function relativeToBuildInfo(path) { return ts.ensurePathIsNonModuleName(ts.getRelativePathFromDirectory(buildInfoDirectory, path, host.getCanonicalFileName)); } } function emitBuildInfo(bundle, buildInfoPath) { // Write build information if applicable if (!buildInfoPath || targetSourceFile || emitSkipped) return; var program = host.getProgramBuildInfo(); if (host.isEmitBlocked(buildInfoPath) || compilerOptions.noEmit) { emitSkipped = true; return; } var version = ts.version; // Extracted into a const so the form is stable between namespace and module ts.writeFile(host, emitterDiagnostics, buildInfoPath, getBuildInfoText({ bundle: bundle, program: program, version: version }), /*writeByteOrderMark*/ false); } function emitJsFileOrBundle(sourceFileOrBundle, jsFilePath, sourceMapFilePath, relativeToBuildInfo) { if (!sourceFileOrBundle || emitOnlyDtsFiles || !jsFilePath) { return; } // Make sure not to write js file and source map file if any of them cannot be written if ((jsFilePath && host.isEmitBlocked(jsFilePath)) || compilerOptions.noEmit) { emitSkipped = true; return; } // Transform the source files var transform = ts.transformNodes(resolver, host, compilerOptions, [sourceFileOrBundle], scriptTransformers, /*allowDtsFiles*/ false); var printerOptions = { removeComments: compilerOptions.removeComments, newLine: compilerOptions.newLine, noEmitHelpers: compilerOptions.noEmitHelpers, module: compilerOptions.module, target: compilerOptions.target, sourceMap: compilerOptions.sourceMap, inlineSourceMap: compilerOptions.inlineSourceMap, inlineSources: compilerOptions.inlineSources, extendedDiagnostics: compilerOptions.extendedDiagnostics, writeBundleFileInfo: !!bundleBuildInfo, relativeToBuildInfo: relativeToBuildInfo }; // Create a printer to print the nodes var printer = createPrinter(printerOptions, { // resolver hooks hasGlobalName: resolver.hasGlobalName, // transform hooks onEmitNode: transform.emitNodeWithNotification, isEmitNotificationEnabled: transform.isEmitNotificationEnabled, substituteNode: transform.substituteNode, }); ts.Debug.assert(transform.transformed.length === 1, "Should only see one output from the transform"); printSourceFileOrBundle(jsFilePath, sourceMapFilePath, transform.transformed[0], printer, compilerOptions); // Clean up emit nodes on parse tree transform.dispose(); if (bundleBuildInfo) bundleBuildInfo.js = printer.bundleFileInfo; } function emitDeclarationFileOrBundle(sourceFileOrBundle, declarationFilePath, declarationMapPath, relativeToBuildInfo) { if (!sourceFileOrBundle) return; if (!declarationFilePath) { if (emitOnlyDtsFiles || compilerOptions.emitDeclarationOnly) emitSkipped = true; return; } var sourceFiles = ts.isSourceFile(sourceFileOrBundle) ? [sourceFileOrBundle] : sourceFileOrBundle.sourceFiles; var filesForEmit = forceDtsEmit ? sourceFiles : ts.filter(sourceFiles, ts.isSourceFileNotJson); // Setup and perform the transformation to retrieve declarations from the input files var inputListOrBundle = (compilerOptions.outFile || compilerOptions.out) ? [ts.createBundle(filesForEmit, !ts.isSourceFile(sourceFileOrBundle) ? sourceFileOrBundle.prepends : undefined)] : filesForEmit; if (emitOnlyDtsFiles && !ts.getEmitDeclarations(compilerOptions)) { // Checker wont collect the linked aliases since thats only done when declaration is enabled. // Do that here when emitting only dts files filesForEmit.forEach(collectLinkedAliases); } var declarationTransform = ts.transformNodes(resolver, host, compilerOptions, inputListOrBundle, declarationTransformers, /*allowDtsFiles*/ false); if (ts.length(declarationTransform.diagnostics)) { for (var _a = 0, _b = declarationTransform.diagnostics; _a < _b.length; _a++) { var diagnostic = _b[_a]; emitterDiagnostics.add(diagnostic); } } var printerOptions = { removeComments: compilerOptions.removeComments, newLine: compilerOptions.newLine, noEmitHelpers: true, module: compilerOptions.module, target: compilerOptions.target, sourceMap: compilerOptions.sourceMap, inlineSourceMap: compilerOptions.inlineSourceMap, extendedDiagnostics: compilerOptions.extendedDiagnostics, onlyPrintJsDocStyle: true, writeBundleFileInfo: !!bundleBuildInfo, recordInternalSection: !!bundleBuildInfo, relativeToBuildInfo: relativeToBuildInfo }; var declarationPrinter = createPrinter(printerOptions, { // resolver hooks hasGlobalName: resolver.hasGlobalName, // transform hooks onEmitNode: declarationTransform.emitNodeWithNotification, isEmitNotificationEnabled: declarationTransform.isEmitNotificationEnabled, substituteNode: declarationTransform.substituteNode, }); var declBlocked = (!!declarationTransform.diagnostics && !!declarationTransform.diagnostics.length) || !!host.isEmitBlocked(declarationFilePath) || !!compilerOptions.noEmit; emitSkipped = emitSkipped || declBlocked; if (!declBlocked || forceDtsEmit) { ts.Debug.assert(declarationTransform.transformed.length === 1, "Should only see one output from the decl transform"); printSourceFileOrBundle(declarationFilePath, declarationMapPath, declarationTransform.transformed[0], declarationPrinter, { sourceMap: compilerOptions.declarationMap, sourceRoot: compilerOptions.sourceRoot, mapRoot: compilerOptions.mapRoot, extendedDiagnostics: compilerOptions.extendedDiagnostics, }); if (forceDtsEmit && declarationTransform.transformed[0].kind === 290 /* SourceFile */) { var sourceFile = declarationTransform.transformed[0]; exportedModulesFromDeclarationEmit = sourceFile.exportedModulesFromDeclarationEmit; } } declarationTransform.dispose(); if (bundleBuildInfo) bundleBuildInfo.dts = declarationPrinter.bundleFileInfo; } function collectLinkedAliases(node) { if (ts.isExportAssignment(node)) { if (node.expression.kind === 75 /* Identifier */) { resolver.collectLinkedAliases(node.expression, /*setVisibility*/ true); } return; } else if (ts.isExportSpecifier(node)) { resolver.collectLinkedAliases(node.propertyName || node.name, /*setVisibility*/ true); return; } ts.forEachChild(node, collectLinkedAliases); } function printSourceFileOrBundle(jsFilePath, sourceMapFilePath, sourceFileOrBundle, printer, mapOptions) { var bundle = sourceFileOrBundle.kind === 291 /* Bundle */ ? sourceFileOrBundle : undefined; var sourceFile = sourceFileOrBundle.kind === 290 /* SourceFile */ ? sourceFileOrBundle : undefined; var sourceFiles = bundle ? bundle.sourceFiles : [sourceFile]; var sourceMapGenerator; if (shouldEmitSourceMaps(mapOptions, sourceFileOrBundle)) { sourceMapGenerator = ts.createSourceMapGenerator(host, ts.getBaseFileName(ts.normalizeSlashes(jsFilePath)), getSourceRoot(mapOptions), getSourceMapDirectory(mapOptions, jsFilePath, sourceFile), mapOptions); } if (bundle) { printer.writeBundle(bundle, writer, sourceMapGenerator); } else { printer.writeFile(sourceFile, writer, sourceMapGenerator); } if (sourceMapGenerator) { if (sourceMapDataList) { sourceMapDataList.push({ inputSourceFileNames: sourceMapGenerator.getSources(), sourceMap: sourceMapGenerator.toJSON() }); } var sourceMappingURL = getSourceMappingURL(mapOptions, sourceMapGenerator, jsFilePath, sourceMapFilePath, sourceFile); if (sourceMappingURL) { if (!writer.isAtStartOfLine()) writer.rawWrite(newLine); writer.writeComment("//# " + "sourceMappingURL" + "=" + sourceMappingURL); // Tools can sometimes see this line as a source mapping url comment } // Write the source map if (sourceMapFilePath) { var sourceMap = sourceMapGenerator.toString(); ts.writeFile(host, emitterDiagnostics, sourceMapFilePath, sourceMap, /*writeByteOrderMark*/ false, sourceFiles); } } else { writer.writeLine(); } // Write the output file ts.writeFile(host, emitterDiagnostics, jsFilePath, writer.getText(), !!compilerOptions.emitBOM, sourceFiles); // Reset state writer.clear(); } function shouldEmitSourceMaps(mapOptions, sourceFileOrBundle) { return (mapOptions.sourceMap || mapOptions.inlineSourceMap) && (sourceFileOrBundle.kind !== 290 /* SourceFile */ || !ts.fileExtensionIs(sourceFileOrBundle.fileName, ".json" /* Json */)); } function getSourceRoot(mapOptions) { // Normalize source root and make sure it has trailing "/" so that it can be used to combine paths with the // relative paths of the sources list in the sourcemap var sourceRoot = ts.normalizeSlashes(mapOptions.sourceRoot || ""); return sourceRoot ? ts.ensureTrailingDirectorySeparator(sourceRoot) : sourceRoot; } function getSourceMapDirectory(mapOptions, filePath, sourceFile) { if (mapOptions.sourceRoot) return host.getCommonSourceDirectory(); if (mapOptions.mapRoot) { var sourceMapDir = ts.normalizeSlashes(mapOptions.mapRoot); if (sourceFile) { // For modules or multiple emit files the mapRoot will have directory structure like the sources // So if src\a.ts and src\lib\b.ts are compiled together user would be moving the maps into mapRoot\a.js.map and mapRoot\lib\b.js.map sourceMapDir = ts.getDirectoryPath(ts.getSourceFilePathInNewDir(sourceFile.fileName, host, sourceMapDir)); } if (ts.getRootLength(sourceMapDir) === 0) { // The relative paths are relative to the common directory sourceMapDir = ts.combinePaths(host.getCommonSourceDirectory(), sourceMapDir); } return sourceMapDir; } return ts.getDirectoryPath(ts.normalizePath(filePath)); } function getSourceMappingURL(mapOptions, sourceMapGenerator, filePath, sourceMapFilePath, sourceFile) { if (mapOptions.inlineSourceMap) { // Encode the sourceMap into the sourceMap url var sourceMapText = sourceMapGenerator.toString(); var base64SourceMapText = ts.base64encode(ts.sys, sourceMapText); return "data:application/json;base64," + base64SourceMapText; } var sourceMapFile = ts.getBaseFileName(ts.normalizeSlashes(ts.Debug.checkDefined(sourceMapFilePath))); if (mapOptions.mapRoot) { var sourceMapDir = ts.normalizeSlashes(mapOptions.mapRoot); if (sourceFile) { // For modules or multiple emit files the mapRoot will have directory structure like the sources // So if src\a.ts and src\lib\b.ts are compiled together user would be moving the maps into mapRoot\a.js.map and mapRoot\lib\b.js.map sourceMapDir = ts.getDirectoryPath(ts.getSourceFilePathInNewDir(sourceFile.fileName, host, sourceMapDir)); } if (ts.getRootLength(sourceMapDir) === 0) { // The relative paths are relative to the common directory sourceMapDir = ts.combinePaths(host.getCommonSourceDirectory(), sourceMapDir); return ts.getRelativePathToDirectoryOrUrl(ts.getDirectoryPath(ts.normalizePath(filePath)), // get the relative sourceMapDir path based on jsFilePath ts.combinePaths(sourceMapDir, sourceMapFile), // this is where user expects to see sourceMap host.getCurrentDirectory(), host.getCanonicalFileName, /*isAbsolutePathAnUrl*/ true); } else { return ts.combinePaths(sourceMapDir, sourceMapFile); } } return sourceMapFile; } } ts.emitFiles = emitFiles; /*@internal*/ function getBuildInfoText(buildInfo) { return JSON.stringify(buildInfo, undefined, 2); } ts.getBuildInfoText = getBuildInfoText; /*@internal*/ function getBuildInfo(buildInfoText) { return JSON.parse(buildInfoText); } ts.getBuildInfo = getBuildInfo; /*@internal*/ ts.notImplementedResolver = { hasGlobalName: ts.notImplemented, getReferencedExportContainer: ts.notImplemented, getReferencedImportDeclaration: ts.notImplemented, getReferencedDeclarationWithCollidingName: ts.notImplemented, isDeclarationWithCollidingName: ts.notImplemented, isValueAliasDeclaration: ts.notImplemented, isReferencedAliasDeclaration: ts.notImplemented, isTopLevelValueImportEqualsWithEntityName: ts.notImplemented, getNodeCheckFlags: ts.notImplemented, isDeclarationVisible: ts.notImplemented, isLateBound: function (_node) { return false; }, collectLinkedAliases: ts.notImplemented, isImplementationOfOverload: ts.notImplemented, isRequiredInitializedParameter: ts.notImplemented, isOptionalUninitializedParameterProperty: ts.notImplemented, isExpandoFunctionDeclaration: ts.notImplemented, getPropertiesOfContainerFunction: ts.notImplemented, createTypeOfDeclaration: ts.notImplemented, createReturnTypeOfSignatureDeclaration: ts.notImplemented, createTypeOfExpression: ts.notImplemented, createLiteralConstValue: ts.notImplemented, isSymbolAccessible: ts.notImplemented, isEntityNameVisible: ts.notImplemented, // Returns the constant value this property access resolves to: notImplemented, or 'undefined' for a non-constant getConstantValue: ts.notImplemented, getReferencedValueDeclaration: ts.notImplemented, getTypeReferenceSerializationKind: ts.notImplemented, isOptionalParameter: ts.notImplemented, moduleExportsSomeValue: ts.notImplemented, isArgumentsLocalBinding: ts.notImplemented, getExternalModuleFileFromDeclaration: ts.notImplemented, getTypeReferenceDirectivesForEntityName: ts.notImplemented, getTypeReferenceDirectivesForSymbol: ts.notImplemented, isLiteralConstDeclaration: ts.notImplemented, getJsxFactoryEntity: ts.notImplemented, getAllAccessorDeclarations: ts.notImplemented, getSymbolOfExternalModuleSpecifier: ts.notImplemented, isBindingCapturedByNode: ts.notImplemented, getDeclarationStatementsForSourceFile: ts.notImplemented, isImportRequiredByAugmentation: ts.notImplemented, }; function createSourceFilesFromBundleBuildInfo(bundle, buildInfoDirectory, host) { var sourceFiles = bundle.sourceFiles.map(function (fileName) { var sourceFile = ts.createNode(290 /* SourceFile */, 0, 0); sourceFile.fileName = ts.getRelativePathFromDirectory(host.getCurrentDirectory(), ts.getNormalizedAbsolutePath(fileName, buildInfoDirectory), !host.useCaseSensitiveFileNames()); sourceFile.text = ""; sourceFile.statements = ts.createNodeArray(); return sourceFile; }); var jsBundle = ts.Debug.checkDefined(bundle.js); ts.forEach(jsBundle.sources && jsBundle.sources.prologues, function (prologueInfo) { var sourceFile = sourceFiles[prologueInfo.file]; sourceFile.text = prologueInfo.text; sourceFile.end = prologueInfo.text.length; sourceFile.statements = ts.createNodeArray(prologueInfo.directives.map(function (directive) { var statement = ts.createNode(226 /* ExpressionStatement */, directive.pos, directive.end); statement.expression = ts.createNode(10 /* StringLiteral */, directive.expression.pos, directive.expression.end); statement.expression.text = directive.expression.text; return statement; })); }); return sourceFiles; } /*@internal*/ function emitUsingBuildInfo(config, host, getCommandLine, customTransformers) { var _a = getOutputPathsForBundle(config.options, /*forceDtsPaths*/ false), buildInfoPath = _a.buildInfoPath, jsFilePath = _a.jsFilePath, sourceMapFilePath = _a.sourceMapFilePath, declarationFilePath = _a.declarationFilePath, declarationMapPath = _a.declarationMapPath; var buildInfoText = host.readFile(ts.Debug.checkDefined(buildInfoPath)); if (!buildInfoText) return buildInfoPath; var jsFileText = host.readFile(ts.Debug.checkDefined(jsFilePath)); if (!jsFileText) return jsFilePath; var sourceMapText = sourceMapFilePath && host.readFile(sourceMapFilePath); // error if no source map or for now if inline sourcemap if ((sourceMapFilePath && !sourceMapText) || config.options.inlineSourceMap) return sourceMapFilePath || "inline sourcemap decoding"; // read declaration text var declarationText = declarationFilePath && host.readFile(declarationFilePath); if (declarationFilePath && !declarationText) return declarationFilePath; var declarationMapText = declarationMapPath && host.readFile(declarationMapPath); // error if no source map or for now if inline sourcemap if ((declarationMapPath && !declarationMapText) || config.options.inlineSourceMap) return declarationMapPath || "inline sourcemap decoding"; var buildInfo = getBuildInfo(buildInfoText); if (!buildInfo.bundle || !buildInfo.bundle.js || (declarationText && !buildInfo.bundle.dts)) return buildInfoPath; var buildInfoDirectory = ts.getDirectoryPath(ts.getNormalizedAbsolutePath(buildInfoPath, host.getCurrentDirectory())); var ownPrependInput = ts.createInputFiles(jsFileText, declarationText, sourceMapFilePath, sourceMapText, declarationMapPath, declarationMapText, jsFilePath, declarationFilePath, buildInfoPath, buildInfo, /*onlyOwnText*/ true); var outputFiles = []; var prependNodes = ts.createPrependNodes(config.projectReferences, getCommandLine, function (f) { return host.readFile(f); }); var sourceFilesForJsEmit = createSourceFilesFromBundleBuildInfo(buildInfo.bundle, buildInfoDirectory, host); var emitHost = { getPrependNodes: ts.memoize(function () { return __spreadArrays(prependNodes, [ownPrependInput]); }), getCanonicalFileName: host.getCanonicalFileName, getCommonSourceDirectory: function () { return ts.getNormalizedAbsolutePath(buildInfo.bundle.commonSourceDirectory, buildInfoDirectory); }, getCompilerOptions: function () { return config.options; }, getCurrentDirectory: function () { return host.getCurrentDirectory(); }, getNewLine: function () { return host.getNewLine(); }, getSourceFile: ts.returnUndefined, getSourceFileByPath: ts.returnUndefined, getSourceFiles: function () { return sourceFilesForJsEmit; }, getLibFileFromReference: ts.notImplemented, isSourceFileFromExternalLibrary: ts.returnFalse, getResolvedProjectReferenceToRedirect: ts.returnUndefined, getProjectReferenceRedirect: ts.returnUndefined, isSourceOfProjectReferenceRedirect: ts.returnFalse, writeFile: function (name, text, writeByteOrderMark) { switch (name) { case jsFilePath: if (jsFileText === text) return; break; case sourceMapFilePath: if (sourceMapText === text) return; break; case buildInfoPath: var newBuildInfo = getBuildInfo(text); newBuildInfo.program = buildInfo.program; // Update sourceFileInfo var _a = buildInfo.bundle, js = _a.js, dts = _a.dts, sourceFiles = _a.sourceFiles; newBuildInfo.bundle.js.sources = js.sources; if (dts) { newBuildInfo.bundle.dts.sources = dts.sources; } newBuildInfo.bundle.sourceFiles = sourceFiles; outputFiles.push({ name: name, text: getBuildInfoText(newBuildInfo), writeByteOrderMark: writeByteOrderMark }); return; case declarationFilePath: if (declarationText === text) return; break; case declarationMapPath: if (declarationMapText === text) return; break; default: ts.Debug.fail("Unexpected path: " + name); } outputFiles.push({ name: name, text: text, writeByteOrderMark: writeByteOrderMark }); }, isEmitBlocked: ts.returnFalse, readFile: function (f) { return host.readFile(f); }, fileExists: function (f) { return host.fileExists(f); }, useCaseSensitiveFileNames: function () { return host.useCaseSensitiveFileNames(); }, getProgramBuildInfo: ts.returnUndefined, getSourceFileFromReference: ts.returnUndefined, redirectTargetsMap: ts.createMultiMap() }; emitFiles(ts.notImplementedResolver, emitHost, /*targetSourceFile*/ undefined, ts.getTransformers(config.options, customTransformers)); return outputFiles; } ts.emitUsingBuildInfo = emitUsingBuildInfo; var PipelinePhase; (function (PipelinePhase) { PipelinePhase[PipelinePhase["Notification"] = 0] = "Notification"; PipelinePhase[PipelinePhase["Substitution"] = 1] = "Substitution"; PipelinePhase[PipelinePhase["Comments"] = 2] = "Comments"; PipelinePhase[PipelinePhase["SourceMaps"] = 3] = "SourceMaps"; PipelinePhase[PipelinePhase["Emit"] = 4] = "Emit"; })(PipelinePhase || (PipelinePhase = {})); function createPrinter(printerOptions, handlers) { if (printerOptions === void 0) { printerOptions = {}; } if (handlers === void 0) { handlers = {}; } var hasGlobalName = handlers.hasGlobalName, _a = handlers.onEmitNode, onEmitNode = _a === void 0 ? ts.noEmitNotification : _a, isEmitNotificationEnabled = handlers.isEmitNotificationEnabled, _b = handlers.substituteNode, substituteNode = _b === void 0 ? ts.noEmitSubstitution : _b, onBeforeEmitNodeArray = handlers.onBeforeEmitNodeArray, onAfterEmitNodeArray = handlers.onAfterEmitNodeArray, onBeforeEmitToken = handlers.onBeforeEmitToken, onAfterEmitToken = handlers.onAfterEmitToken; var extendedDiagnostics = !!printerOptions.extendedDiagnostics; var newLine = ts.getNewLineCharacter(printerOptions); var moduleKind = ts.getEmitModuleKind(printerOptions); var bundledHelpers = ts.createMap(); var currentSourceFile; var nodeIdToGeneratedName; // Map of generated names for specific nodes. var autoGeneratedIdToGeneratedName; // Map of generated names for temp and loop variables. var generatedNames; // Set of names generated by the NameGenerator. var tempFlagsStack; // Stack of enclosing name generation scopes. var tempFlags; // TempFlags for the current name generation scope. var reservedNamesStack; // Stack of TempFlags reserved in enclosing name generation scopes. var reservedNames; // TempFlags to reserve in nested name generation scopes. var preserveSourceNewlines = printerOptions.preserveSourceNewlines; // Can be overridden inside nodes with the `IgnoreSourceNewlines` emit flag. var writer; var ownWriter; // Reusable `EmitTextWriter` for basic printing. var write = writeBase; var isOwnFileEmit; var bundleFileInfo = printerOptions.writeBundleFileInfo ? { sections: [] } : undefined; var relativeToBuildInfo = bundleFileInfo ? ts.Debug.checkDefined(printerOptions.relativeToBuildInfo) : undefined; var recordInternalSection = printerOptions.recordInternalSection; var sourceFileTextPos = 0; var sourceFileTextKind = "text" /* Text */; // Source Maps var sourceMapsDisabled = true; var sourceMapGenerator; var sourceMapSource; var sourceMapSourceIndex = -1; // Comments var containerPos = -1; var containerEnd = -1; var declarationListContainerEnd = -1; var currentLineMap; var detachedCommentsInfo; var hasWrittenComment = false; var commentsDisabled = !!printerOptions.removeComments; var lastNode; var lastSubstitution; var _c = ts.performance.createTimerIf(extendedDiagnostics, "commentTime", "beforeComment", "afterComment"), enterComment = _c.enter, exitComment = _c.exit; reset(); return { // public API printNode: printNode, printList: printList, printFile: printFile, printBundle: printBundle, // internal API writeNode: writeNode, writeList: writeList, writeFile: writeFile, writeBundle: writeBundle, bundleFileInfo: bundleFileInfo }; function printNode(hint, node, sourceFile) { switch (hint) { case 0 /* SourceFile */: ts.Debug.assert(ts.isSourceFile(node), "Expected a SourceFile node."); break; case 2 /* IdentifierName */: ts.Debug.assert(ts.isIdentifier(node), "Expected an Identifier node."); break; case 1 /* Expression */: ts.Debug.assert(ts.isExpression(node), "Expected an Expression node."); break; } switch (node.kind) { case 290 /* SourceFile */: return printFile(node); case 291 /* Bundle */: return printBundle(node); case 292 /* UnparsedSource */: return printUnparsedSource(node); } writeNode(hint, node, sourceFile, beginPrint()); return endPrint(); } function printList(format, nodes, sourceFile) { writeList(format, nodes, sourceFile, beginPrint()); return endPrint(); } function printBundle(bundle) { writeBundle(bundle, beginPrint(), /*sourceMapEmitter*/ undefined); return endPrint(); } function printFile(sourceFile) { writeFile(sourceFile, beginPrint(), /*sourceMapEmitter*/ undefined); return endPrint(); } function printUnparsedSource(unparsed) { writeUnparsedSource(unparsed, beginPrint()); return endPrint(); } function writeNode(hint, node, sourceFile, output) { var previousWriter = writer; setWriter(output, /*_sourceMapGenerator*/ undefined); print(hint, node, sourceFile); reset(); writer = previousWriter; } function writeList(format, nodes, sourceFile, output) { var previousWriter = writer; setWriter(output, /*_sourceMapGenerator*/ undefined); if (sourceFile) { setSourceFile(sourceFile); } emitList(syntheticParent, nodes, format); reset(); writer = previousWriter; } function getTextPosWithWriteLine() { return writer.getTextPosWithWriteLine ? writer.getTextPosWithWriteLine() : writer.getTextPos(); } function updateOrPushBundleFileTextLike(pos, end, kind) { var last = ts.lastOrUndefined(bundleFileInfo.sections); if (last && last.kind === kind) { last.end = end; } else { bundleFileInfo.sections.push({ pos: pos, end: end, kind: kind }); } } function recordBundleFileInternalSectionStart(node) { if (recordInternalSection && bundleFileInfo && currentSourceFile && (ts.isDeclaration(node) || ts.isVariableStatement(node)) && ts.isInternalDeclaration(node, currentSourceFile) && sourceFileTextKind !== "internal" /* Internal */) { var prevSourceFileTextKind = sourceFileTextKind; recordBundleFileTextLikeSection(writer.getTextPos()); sourceFileTextPos = getTextPosWithWriteLine(); sourceFileTextKind = "internal" /* Internal */; return prevSourceFileTextKind; } return undefined; } function recordBundleFileInternalSectionEnd(prevSourceFileTextKind) { if (prevSourceFileTextKind) { recordBundleFileTextLikeSection(writer.getTextPos()); sourceFileTextPos = getTextPosWithWriteLine(); sourceFileTextKind = prevSourceFileTextKind; } } function recordBundleFileTextLikeSection(end) { if (sourceFileTextPos < end) { updateOrPushBundleFileTextLike(sourceFileTextPos, end, sourceFileTextKind); return true; } return false; } function writeBundle(bundle, output, sourceMapGenerator) { var _a; isOwnFileEmit = false; var previousWriter = writer; setWriter(output, sourceMapGenerator); emitShebangIfNeeded(bundle); emitPrologueDirectivesIfNeeded(bundle); emitHelpers(bundle); emitSyntheticTripleSlashReferencesIfNeeded(bundle); for (var _b = 0, _c = bundle.prepends; _b < _c.length; _b++) { var prepend = _c[_b]; writeLine(); var pos = writer.getTextPos(); var savedSections = bundleFileInfo && bundleFileInfo.sections; if (savedSections) bundleFileInfo.sections = []; print(4 /* Unspecified */, prepend, /*sourceFile*/ undefined); if (bundleFileInfo) { var newSections = bundleFileInfo.sections; bundleFileInfo.sections = savedSections; if (prepend.oldFileOfCurrentEmit) (_a = bundleFileInfo.sections).push.apply(_a, newSections); else { newSections.forEach(function (section) { return ts.Debug.assert(ts.isBundleFileTextLike(section)); }); bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "prepend" /* Prepend */, data: relativeToBuildInfo(prepend.fileName), texts: newSections }); } } } sourceFileTextPos = getTextPosWithWriteLine(); for (var _d = 0, _e = bundle.sourceFiles; _d < _e.length; _d++) { var sourceFile = _e[_d]; print(0 /* SourceFile */, sourceFile, sourceFile); } if (bundleFileInfo && bundle.sourceFiles.length) { var end = writer.getTextPos(); if (recordBundleFileTextLikeSection(end)) { // Store prologues var prologues = getPrologueDirectivesFromBundledSourceFiles(bundle); if (prologues) { if (!bundleFileInfo.sources) bundleFileInfo.sources = {}; bundleFileInfo.sources.prologues = prologues; } // Store helpes var helpers = getHelpersFromBundledSourceFiles(bundle); if (helpers) { if (!bundleFileInfo.sources) bundleFileInfo.sources = {}; bundleFileInfo.sources.helpers = helpers; } } } reset(); writer = previousWriter; } function writeUnparsedSource(unparsed, output) { var previousWriter = writer; setWriter(output, /*_sourceMapGenerator*/ undefined); print(4 /* Unspecified */, unparsed, /*sourceFile*/ undefined); reset(); writer = previousWriter; } function writeFile(sourceFile, output, sourceMapGenerator) { isOwnFileEmit = true; var previousWriter = writer; setWriter(output, sourceMapGenerator); emitShebangIfNeeded(sourceFile); emitPrologueDirectivesIfNeeded(sourceFile); print(0 /* SourceFile */, sourceFile, sourceFile); reset(); writer = previousWriter; } function beginPrint() { return ownWriter || (ownWriter = ts.createTextWriter(newLine)); } function endPrint() { var text = ownWriter.getText(); ownWriter.clear(); return text; } function print(hint, node, sourceFile) { if (sourceFile) { setSourceFile(sourceFile); } pipelineEmit(hint, node); } function setSourceFile(sourceFile) { currentSourceFile = sourceFile; currentLineMap = undefined; detachedCommentsInfo = undefined; if (sourceFile) { setSourceMapSource(sourceFile); } } function setWriter(_writer, _sourceMapGenerator) { if (_writer && printerOptions.omitTrailingSemicolon) { _writer = ts.getTrailingSemicolonDeferringWriter(_writer); } writer = _writer; // TODO: GH#18217 sourceMapGenerator = _sourceMapGenerator; sourceMapsDisabled = !writer || !sourceMapGenerator; } function reset() { nodeIdToGeneratedName = []; autoGeneratedIdToGeneratedName = []; generatedNames = ts.createMap(); tempFlagsStack = []; tempFlags = 0 /* Auto */; reservedNamesStack = []; currentSourceFile = undefined; currentLineMap = undefined; detachedCommentsInfo = undefined; lastNode = undefined; lastSubstitution = undefined; setWriter(/*output*/ undefined, /*_sourceMapGenerator*/ undefined); } function getCurrentLineMap() { return currentLineMap || (currentLineMap = ts.getLineStarts(currentSourceFile)); } function emit(node) { if (node === undefined) return; var prevSourceFileTextKind = recordBundleFileInternalSectionStart(node); var substitute = pipelineEmit(4 /* Unspecified */, node); recordBundleFileInternalSectionEnd(prevSourceFileTextKind); return substitute; } function emitIdentifierName(node) { if (node === undefined) return; return pipelineEmit(2 /* IdentifierName */, node); } function emitExpression(node) { if (node === undefined) return; return pipelineEmit(1 /* Expression */, node); } function emitJsxAttributeValue(node) { return pipelineEmit(ts.isStringLiteral(node) ? 6 /* JsxAttributeValue */ : 4 /* Unspecified */, node); } function pipelineEmit(emitHint, node) { var savedLastNode = lastNode; var savedLastSubstitution = lastSubstitution; var savedPreserveSourceNewlines = preserveSourceNewlines; lastNode = node; lastSubstitution = undefined; if (preserveSourceNewlines && !!(ts.getEmitFlags(node) & 134217728 /* IgnoreSourceNewlines */)) { preserveSourceNewlines = false; } var pipelinePhase = getPipelinePhase(0 /* Notification */, emitHint, node); pipelinePhase(emitHint, node); ts.Debug.assert(lastNode === node); var substitute = lastSubstitution; lastNode = savedLastNode; lastSubstitution = savedLastSubstitution; preserveSourceNewlines = savedPreserveSourceNewlines; return substitute || node; } function getPipelinePhase(phase, emitHint, node) { switch (phase) { case 0 /* Notification */: if (onEmitNode !== ts.noEmitNotification && (!isEmitNotificationEnabled || isEmitNotificationEnabled(node))) { return pipelineEmitWithNotification; } // falls through case 1 /* Substitution */: if (substituteNode !== ts.noEmitSubstitution && (lastSubstitution = substituteNode(emitHint, node)) !== node) { return pipelineEmitWithSubstitution; } // falls through case 2 /* Comments */: if (!commentsDisabled && node.kind !== 290 /* SourceFile */) { return pipelineEmitWithComments; } // falls through case 3 /* SourceMaps */: if (!sourceMapsDisabled && node.kind !== 290 /* SourceFile */ && !ts.isInJsonFile(node)) { return pipelineEmitWithSourceMap; } // falls through case 4 /* Emit */: return pipelineEmitWithHint; default: return ts.Debug.assertNever(phase); } } function getNextPipelinePhase(currentPhase, emitHint, node) { return getPipelinePhase(currentPhase + 1, emitHint, node); } function pipelineEmitWithNotification(hint, node) { ts.Debug.assert(lastNode === node); var pipelinePhase = getNextPipelinePhase(0 /* Notification */, hint, node); onEmitNode(hint, node, pipelinePhase); ts.Debug.assert(lastNode === node); } function pipelineEmitWithHint(hint, node) { ts.Debug.assert(lastNode === node || lastSubstitution === node); if (hint === 0 /* SourceFile */) return emitSourceFile(ts.cast(node, ts.isSourceFile)); if (hint === 2 /* IdentifierName */) return emitIdentifier(ts.cast(node, ts.isIdentifier)); if (hint === 6 /* JsxAttributeValue */) return emitLiteral(ts.cast(node, ts.isStringLiteral), /*jsxAttributeEscape*/ true); if (hint === 3 /* MappedTypeParameter */) return emitMappedTypeParameter(ts.cast(node, ts.isTypeParameterDeclaration)); if (hint === 5 /* EmbeddedStatement */) { ts.Debug.assertNode(node, ts.isEmptyStatement); return emitEmptyStatement(/*isEmbeddedStatement*/ true); } if (hint === 4 /* Unspecified */) { if (ts.isKeyword(node.kind)) return writeTokenNode(node, writeKeyword); switch (node.kind) { // Pseudo-literals case 15 /* TemplateHead */: case 16 /* TemplateMiddle */: case 17 /* TemplateTail */: return emitLiteral(node, /*jsxAttributeEscape*/ false); case 292 /* UnparsedSource */: case 286 /* UnparsedPrepend */: return emitUnparsedSourceOrPrepend(node); case 285 /* UnparsedPrologue */: return writeUnparsedNode(node); case 287 /* UnparsedText */: case 288 /* UnparsedInternalText */: return emitUnparsedTextLike(node); case 289 /* UnparsedSyntheticReference */: return emitUnparsedSyntheticReference(node); // Identifiers case 75 /* Identifier */: return emitIdentifier(node); // PrivateIdentifiers case 76 /* PrivateIdentifier */: return emitPrivateIdentifier(node); // Parse tree nodes // Names case 153 /* QualifiedName */: return emitQualifiedName(node); case 154 /* ComputedPropertyName */: return emitComputedPropertyName(node); // Signature elements case 155 /* TypeParameter */: return emitTypeParameter(node); case 156 /* Parameter */: return emitParameter(node); case 157 /* Decorator */: return emitDecorator(node); // Type members case 158 /* PropertySignature */: return emitPropertySignature(node); case 159 /* PropertyDeclaration */: return emitPropertyDeclaration(node); case 160 /* MethodSignature */: return emitMethodSignature(node); case 161 /* MethodDeclaration */: return emitMethodDeclaration(node); case 162 /* Constructor */: return emitConstructor(node); case 163 /* GetAccessor */: case 164 /* SetAccessor */: return emitAccessorDeclaration(node); case 165 /* CallSignature */: return emitCallSignature(node); case 166 /* ConstructSignature */: return emitConstructSignature(node); case 167 /* IndexSignature */: return emitIndexSignature(node); // Types case 168 /* TypePredicate */: return emitTypePredicate(node); case 169 /* TypeReference */: return emitTypeReference(node); case 170 /* FunctionType */: return emitFunctionType(node); case 300 /* JSDocFunctionType */: return emitJSDocFunctionType(node); case 171 /* ConstructorType */: return emitConstructorType(node); case 172 /* TypeQuery */: return emitTypeQuery(node); case 173 /* TypeLiteral */: return emitTypeLiteral(node); case 174 /* ArrayType */: return emitArrayType(node); case 175 /* TupleType */: return emitTupleType(node); case 176 /* OptionalType */: return emitOptionalType(node); case 178 /* UnionType */: return emitUnionType(node); case 179 /* IntersectionType */: return emitIntersectionType(node); case 180 /* ConditionalType */: return emitConditionalType(node); case 181 /* InferType */: return emitInferType(node); case 182 /* ParenthesizedType */: return emitParenthesizedType(node); case 216 /* ExpressionWithTypeArguments */: return emitExpressionWithTypeArguments(node); case 183 /* ThisType */: return emitThisType(); case 184 /* TypeOperator */: return emitTypeOperator(node); case 185 /* IndexedAccessType */: return emitIndexedAccessType(node); case 186 /* MappedType */: return emitMappedType(node); case 187 /* LiteralType */: return emitLiteralType(node); case 188 /* ImportType */: return emitImportTypeNode(node); case 295 /* JSDocAllType */: writePunctuation("*"); return; case 296 /* JSDocUnknownType */: writePunctuation("?"); return; case 297 /* JSDocNullableType */: return emitJSDocNullableType(node); case 298 /* JSDocNonNullableType */: return emitJSDocNonNullableType(node); case 299 /* JSDocOptionalType */: return emitJSDocOptionalType(node); case 177 /* RestType */: case 301 /* JSDocVariadicType */: return emitRestOrJSDocVariadicType(node); // Binding patterns case 189 /* ObjectBindingPattern */: return emitObjectBindingPattern(node); case 190 /* ArrayBindingPattern */: return emitArrayBindingPattern(node); case 191 /* BindingElement */: return emitBindingElement(node); // Misc case 221 /* TemplateSpan */: return emitTemplateSpan(node); case 222 /* SemicolonClassElement */: return emitSemicolonClassElement(); // Statements case 223 /* Block */: return emitBlock(node); case 225 /* VariableStatement */: return emitVariableStatement(node); case 224 /* EmptyStatement */: return emitEmptyStatement(/*isEmbeddedStatement*/ false); case 226 /* ExpressionStatement */: return emitExpressionStatement(node); case 227 /* IfStatement */: return emitIfStatement(node); case 228 /* DoStatement */: return emitDoStatement(node); case 229 /* WhileStatement */: return emitWhileStatement(node); case 230 /* ForStatement */: return emitForStatement(node); case 231 /* ForInStatement */: return emitForInStatement(node); case 232 /* ForOfStatement */: return emitForOfStatement(node); case 233 /* ContinueStatement */: return emitContinueStatement(node); case 234 /* BreakStatement */: return emitBreakStatement(node); case 235 /* ReturnStatement */: return emitReturnStatement(node); case 236 /* WithStatement */: return emitWithStatement(node); case 237 /* SwitchStatement */: return emitSwitchStatement(node); case 238 /* LabeledStatement */: return emitLabeledStatement(node); case 239 /* ThrowStatement */: return emitThrowStatement(node); case 240 /* TryStatement */: return emitTryStatement(node); case 241 /* DebuggerStatement */: return emitDebuggerStatement(node); // Declarations case 242 /* VariableDeclaration */: return emitVariableDeclaration(node); case 243 /* VariableDeclarationList */: return emitVariableDeclarationList(node); case 244 /* FunctionDeclaration */: return emitFunctionDeclaration(node); case 245 /* ClassDeclaration */: return emitClassDeclaration(node); case 246 /* InterfaceDeclaration */: return emitInterfaceDeclaration(node); case 247 /* TypeAliasDeclaration */: return emitTypeAliasDeclaration(node); case 248 /* EnumDeclaration */: return emitEnumDeclaration(node); case 249 /* ModuleDeclaration */: return emitModuleDeclaration(node); case 250 /* ModuleBlock */: return emitModuleBlock(node); case 251 /* CaseBlock */: return emitCaseBlock(node); case 252 /* NamespaceExportDeclaration */: return emitNamespaceExportDeclaration(node); case 253 /* ImportEqualsDeclaration */: return emitImportEqualsDeclaration(node); case 254 /* ImportDeclaration */: return emitImportDeclaration(node); case 255 /* ImportClause */: return emitImportClause(node); case 256 /* NamespaceImport */: return emitNamespaceImport(node); case 262 /* NamespaceExport */: return emitNamespaceExport(node); case 257 /* NamedImports */: return emitNamedImports(node); case 258 /* ImportSpecifier */: return emitImportSpecifier(node); case 259 /* ExportAssignment */: return emitExportAssignment(node); case 260 /* ExportDeclaration */: return emitExportDeclaration(node); case 261 /* NamedExports */: return emitNamedExports(node); case 263 /* ExportSpecifier */: return emitExportSpecifier(node); case 264 /* MissingDeclaration */: return; // Module references case 265 /* ExternalModuleReference */: return emitExternalModuleReference(node); // JSX (non-expression) case 11 /* JsxText */: return emitJsxText(node); case 268 /* JsxOpeningElement */: case 271 /* JsxOpeningFragment */: return emitJsxOpeningElementOrFragment(node); case 269 /* JsxClosingElement */: case 272 /* JsxClosingFragment */: return emitJsxClosingElementOrFragment(node); case 273 /* JsxAttribute */: return emitJsxAttribute(node); case 274 /* JsxAttributes */: return emitJsxAttributes(node); case 275 /* JsxSpreadAttribute */: return emitJsxSpreadAttribute(node); case 276 /* JsxExpression */: return emitJsxExpression(node); // Clauses case 277 /* CaseClause */: return emitCaseClause(node); case 278 /* DefaultClause */: return emitDefaultClause(node); case 279 /* HeritageClause */: return emitHeritageClause(node); case 280 /* CatchClause */: return emitCatchClause(node); // Property assignments case 281 /* PropertyAssignment */: return emitPropertyAssignment(node); case 282 /* ShorthandPropertyAssignment */: return emitShorthandPropertyAssignment(node); case 283 /* SpreadAssignment */: return emitSpreadAssignment(node); // Enum case 284 /* EnumMember */: return emitEnumMember(node); // JSDoc nodes (only used in codefixes currently) case 317 /* JSDocParameterTag */: case 323 /* JSDocPropertyTag */: return emitJSDocPropertyLikeTag(node); case 318 /* JSDocReturnTag */: case 320 /* JSDocTypeTag */: case 319 /* JSDocThisTag */: case 316 /* JSDocEnumTag */: return emitJSDocSimpleTypedTag(node); case 308 /* JSDocImplementsTag */: case 307 /* JSDocAugmentsTag */: return emitJSDocHeritageTag(node); case 321 /* JSDocTemplateTag */: return emitJSDocTemplateTag(node); case 322 /* JSDocTypedefTag */: return emitJSDocTypedefTag(node); case 315 /* JSDocCallbackTag */: return emitJSDocCallbackTag(node); case 305 /* JSDocSignature */: return emitJSDocSignature(node); case 304 /* JSDocTypeLiteral */: return emitJSDocTypeLiteral(node); case 310 /* JSDocClassTag */: case 306 /* JSDocTag */: return emitJSDocSimpleTag(node); case 303 /* JSDocComment */: return emitJSDoc(node); // Transformation nodes (ignored) } if (ts.isExpression(node)) { hint = 1 /* Expression */; if (substituteNode !== ts.noEmitSubstitution) { lastSubstitution = node = substituteNode(hint, node); } } else if (ts.isToken(node)) { return writeTokenNode(node, writePunctuation); } } if (hint === 1 /* Expression */) { switch (node.kind) { // Literals case 8 /* NumericLiteral */: case 9 /* BigIntLiteral */: return emitNumericOrBigIntLiteral(node); case 10 /* StringLiteral */: case 13 /* RegularExpressionLiteral */: case 14 /* NoSubstitutionTemplateLiteral */: return emitLiteral(node, /*jsxAttributeEscape*/ false); // Identifiers case 75 /* Identifier */: return emitIdentifier(node); // Reserved words case 91 /* FalseKeyword */: case 100 /* NullKeyword */: case 102 /* SuperKeyword */: case 106 /* TrueKeyword */: case 104 /* ThisKeyword */: case 96 /* ImportKeyword */: writeTokenNode(node, writeKeyword); return; // Expressions case 192 /* ArrayLiteralExpression */: return emitArrayLiteralExpression(node); case 193 /* ObjectLiteralExpression */: return emitObjectLiteralExpression(node); case 194 /* PropertyAccessExpression */: return emitPropertyAccessExpression(node); case 195 /* ElementAccessExpression */: return emitElementAccessExpression(node); case 196 /* CallExpression */: return emitCallExpression(node); case 197 /* NewExpression */: return emitNewExpression(node); case 198 /* TaggedTemplateExpression */: return emitTaggedTemplateExpression(node); case 199 /* TypeAssertionExpression */: return emitTypeAssertionExpression(node); case 200 /* ParenthesizedExpression */: return emitParenthesizedExpression(node); case 201 /* FunctionExpression */: return emitFunctionExpression(node); case 202 /* ArrowFunction */: return emitArrowFunction(node); case 203 /* DeleteExpression */: return emitDeleteExpression(node); case 204 /* TypeOfExpression */: return emitTypeOfExpression(node); case 205 /* VoidExpression */: return emitVoidExpression(node); case 206 /* AwaitExpression */: return emitAwaitExpression(node); case 207 /* PrefixUnaryExpression */: return emitPrefixUnaryExpression(node); case 208 /* PostfixUnaryExpression */: return emitPostfixUnaryExpression(node); case 209 /* BinaryExpression */: return emitBinaryExpression(node); case 210 /* ConditionalExpression */: return emitConditionalExpression(node); case 211 /* TemplateExpression */: return emitTemplateExpression(node); case 212 /* YieldExpression */: return emitYieldExpression(node); case 213 /* SpreadElement */: return emitSpreadExpression(node); case 214 /* ClassExpression */: return emitClassExpression(node); case 215 /* OmittedExpression */: return; case 217 /* AsExpression */: return emitAsExpression(node); case 218 /* NonNullExpression */: return emitNonNullExpression(node); case 219 /* MetaProperty */: return emitMetaProperty(node); // JSX case 266 /* JsxElement */: return emitJsxElement(node); case 267 /* JsxSelfClosingElement */: return emitJsxSelfClosingElement(node); case 270 /* JsxFragment */: return emitJsxFragment(node); // Transformation nodes case 326 /* PartiallyEmittedExpression */: return emitPartiallyEmittedExpression(node); case 327 /* CommaListExpression */: return emitCommaList(node); } } } function emitMappedTypeParameter(node) { emit(node.name); writeSpace(); writeKeyword("in"); writeSpace(); emit(node.constraint); } function pipelineEmitWithSubstitution(hint, node) { ts.Debug.assert(lastNode === node || lastSubstitution === node); var pipelinePhase = getNextPipelinePhase(1 /* Substitution */, hint, node); pipelinePhase(hint, lastSubstitution); ts.Debug.assert(lastNode === node || lastSubstitution === node); } function getHelpersFromBundledSourceFiles(bundle) { var result; if (moduleKind === ts.ModuleKind.None || printerOptions.noEmitHelpers) { return undefined; } var bundledHelpers = ts.createMap(); for (var _a = 0, _b = bundle.sourceFiles; _a < _b.length; _a++) { var sourceFile = _b[_a]; var shouldSkip = ts.getExternalHelpersModuleName(sourceFile) !== undefined; var helpers = getSortedEmitHelpers(sourceFile); if (!helpers) continue; for (var _c = 0, helpers_4 = helpers; _c < helpers_4.length; _c++) { var helper = helpers_4[_c]; if (!helper.scoped && !shouldSkip && !bundledHelpers.get(helper.name)) { bundledHelpers.set(helper.name, true); (result || (result = [])).push(helper.name); } } } return result; } function emitHelpers(node) { var helpersEmitted = false; var bundle = node.kind === 291 /* Bundle */ ? node : undefined; if (bundle && moduleKind === ts.ModuleKind.None) { return; } var numPrepends = bundle ? bundle.prepends.length : 0; var numNodes = bundle ? bundle.sourceFiles.length + numPrepends : 1; for (var i = 0; i < numNodes; i++) { var currentNode = bundle ? i < numPrepends ? bundle.prepends[i] : bundle.sourceFiles[i - numPrepends] : node; var sourceFile = ts.isSourceFile(currentNode) ? currentNode : ts.isUnparsedSource(currentNode) ? undefined : currentSourceFile; var shouldSkip = printerOptions.noEmitHelpers || (!!sourceFile && ts.hasRecordedExternalHelpers(sourceFile)); var shouldBundle = (ts.isSourceFile(currentNode) || ts.isUnparsedSource(currentNode)) && !isOwnFileEmit; var helpers = ts.isUnparsedSource(currentNode) ? currentNode.helpers : getSortedEmitHelpers(currentNode); if (helpers) { for (var _a = 0, helpers_5 = helpers; _a < helpers_5.length; _a++) { var helper = helpers_5[_a]; if (!helper.scoped) { // Skip the helper if it can be skipped and the noEmitHelpers compiler // option is set, or if it can be imported and the importHelpers compiler // option is set. if (shouldSkip) continue; // Skip the helper if it can be bundled but hasn't already been emitted and we // are emitting a bundled module. if (shouldBundle) { if (bundledHelpers.get(helper.name)) { continue; } bundledHelpers.set(helper.name, true); } } else if (bundle) { // Skip the helper if it is scoped and we are emitting bundled helpers continue; } var pos = getTextPosWithWriteLine(); if (typeof helper.text === "string") { writeLines(helper.text); } else { writeLines(helper.text(makeFileLevelOptimisticUniqueName)); } if (bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "emitHelpers" /* EmitHelpers */, data: helper.name }); helpersEmitted = true; } } } return helpersEmitted; } function getSortedEmitHelpers(node) { var helpers = ts.getEmitHelpers(node); return helpers && ts.stableSort(helpers, ts.compareEmitHelpers); } // // Literals/Pseudo-literals // // SyntaxKind.NumericLiteral // SyntaxKind.BigIntLiteral function emitNumericOrBigIntLiteral(node) { emitLiteral(node, /*jsxAttributeEscape*/ false); } // SyntaxKind.StringLiteral // SyntaxKind.RegularExpressionLiteral // SyntaxKind.NoSubstitutionTemplateLiteral // SyntaxKind.TemplateHead // SyntaxKind.TemplateMiddle // SyntaxKind.TemplateTail function emitLiteral(node, jsxAttributeEscape) { var text = getLiteralTextOfNode(node, printerOptions.neverAsciiEscape, jsxAttributeEscape); if ((printerOptions.sourceMap || printerOptions.inlineSourceMap) && (node.kind === 10 /* StringLiteral */ || ts.isTemplateLiteralKind(node.kind))) { writeLiteral(text); } else { // Quick info expects all literals to be called with writeStringLiteral, as there's no specific type for numberLiterals writeStringLiteral(text); } } // SyntaxKind.UnparsedSource // SyntaxKind.UnparsedPrepend function emitUnparsedSourceOrPrepend(unparsed) { for (var _a = 0, _b = unparsed.texts; _a < _b.length; _a++) { var text = _b[_a]; writeLine(); emit(text); } } // SyntaxKind.UnparsedPrologue // SyntaxKind.UnparsedText // SyntaxKind.UnparsedInternal // SyntaxKind.UnparsedSyntheticReference function writeUnparsedNode(unparsed) { writer.rawWrite(unparsed.parent.text.substring(unparsed.pos, unparsed.end)); } // SyntaxKind.UnparsedText // SyntaxKind.UnparsedInternal function emitUnparsedTextLike(unparsed) { var pos = getTextPosWithWriteLine(); writeUnparsedNode(unparsed); if (bundleFileInfo) { updateOrPushBundleFileTextLike(pos, writer.getTextPos(), unparsed.kind === 287 /* UnparsedText */ ? "text" /* Text */ : "internal" /* Internal */); } } // SyntaxKind.UnparsedSyntheticReference function emitUnparsedSyntheticReference(unparsed) { var pos = getTextPosWithWriteLine(); writeUnparsedNode(unparsed); if (bundleFileInfo) { var section = ts.clone(unparsed.section); section.pos = pos; section.end = writer.getTextPos(); bundleFileInfo.sections.push(section); } } // // Identifiers // function emitIdentifier(node) { var writeText = node.symbol ? writeSymbol : write; writeText(getTextOfNode(node, /*includeTrivia*/ false), node.symbol); emitList(node, node.typeArguments, 53776 /* TypeParameters */); // Call emitList directly since it could be an array of TypeParameterDeclarations _or_ type arguments } // // Names // function emitPrivateIdentifier(node) { var writeText = node.symbol ? writeSymbol : write; writeText(getTextOfNode(node, /*includeTrivia*/ false), node.symbol); } function emitQualifiedName(node) { emitEntityName(node.left); writePunctuation("."); emit(node.right); } function emitEntityName(node) { if (node.kind === 75 /* Identifier */) { emitExpression(node); } else { emit(node); } } function emitComputedPropertyName(node) { writePunctuation("["); emitExpression(node.expression); writePunctuation("]"); } // // Signature elements // function emitTypeParameter(node) { emit(node.name); if (node.constraint) { writeSpace(); writeKeyword("extends"); writeSpace(); emit(node.constraint); } if (node.default) { writeSpace(); writeOperator("="); writeSpace(); emit(node.default); } } function emitParameter(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emit(node.dotDotDotToken); emitNodeWithWriter(node.name, writeParameter); emit(node.questionToken); if (node.parent && node.parent.kind === 300 /* JSDocFunctionType */ && !node.name) { emit(node.type); } else { emitTypeAnnotation(node.type); } // The comment position has to fallback to any present node within the parameterdeclaration because as it turns out, the parser can make parameter declarations with _just_ an initializer. emitInitializer(node.initializer, node.type ? node.type.end : node.questionToken ? node.questionToken.end : node.name ? node.name.end : node.modifiers ? node.modifiers.end : node.decorators ? node.decorators.end : node.pos, node); } function emitDecorator(decorator) { writePunctuation("@"); emitExpression(decorator.expression); } // // Type members // function emitPropertySignature(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emitNodeWithWriter(node.name, writeProperty); emit(node.questionToken); emitTypeAnnotation(node.type); writeTrailingSemicolon(); } function emitPropertyDeclaration(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emit(node.name); emit(node.questionToken); emit(node.exclamationToken); emitTypeAnnotation(node.type); emitInitializer(node.initializer, node.type ? node.type.end : node.questionToken ? node.questionToken.end : node.name.end, node); writeTrailingSemicolon(); } function emitMethodSignature(node) { pushNameGenerationScope(node); emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emit(node.name); emit(node.questionToken); emitTypeParameters(node, node.typeParameters); emitParameters(node, node.parameters); emitTypeAnnotation(node.type); writeTrailingSemicolon(); popNameGenerationScope(node); } function emitMethodDeclaration(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emit(node.asteriskToken); emit(node.name); emit(node.questionToken); emitSignatureAndBody(node, emitSignatureHead); } function emitConstructor(node) { emitModifiers(node, node.modifiers); writeKeyword("constructor"); emitSignatureAndBody(node, emitSignatureHead); } function emitAccessorDeclaration(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); writeKeyword(node.kind === 163 /* GetAccessor */ ? "get" : "set"); writeSpace(); emit(node.name); emitSignatureAndBody(node, emitSignatureHead); } function emitCallSignature(node) { pushNameGenerationScope(node); emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emitTypeParameters(node, node.typeParameters); emitParameters(node, node.parameters); emitTypeAnnotation(node.type); writeTrailingSemicolon(); popNameGenerationScope(node); } function emitConstructSignature(node) { pushNameGenerationScope(node); emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); writeKeyword("new"); writeSpace(); emitTypeParameters(node, node.typeParameters); emitParameters(node, node.parameters); emitTypeAnnotation(node.type); writeTrailingSemicolon(); popNameGenerationScope(node); } function emitIndexSignature(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emitParametersForIndexSignature(node, node.parameters); emitTypeAnnotation(node.type); writeTrailingSemicolon(); } function emitSemicolonClassElement() { writeTrailingSemicolon(); } // // Types // function emitTypePredicate(node) { if (node.assertsModifier) { emit(node.assertsModifier); writeSpace(); } emit(node.parameterName); if (node.type) { writeSpace(); writeKeyword("is"); writeSpace(); emit(node.type); } } function emitTypeReference(node) { emit(node.typeName); emitTypeArguments(node, node.typeArguments); } function emitFunctionType(node) { pushNameGenerationScope(node); emitTypeParameters(node, node.typeParameters); emitParametersForArrow(node, node.parameters); writeSpace(); writePunctuation("=>"); writeSpace(); emit(node.type); popNameGenerationScope(node); } function emitJSDocFunctionType(node) { writeKeyword("function"); emitParameters(node, node.parameters); writePunctuation(":"); emit(node.type); } function emitJSDocNullableType(node) { writePunctuation("?"); emit(node.type); } function emitJSDocNonNullableType(node) { writePunctuation("!"); emit(node.type); } function emitJSDocOptionalType(node) { emit(node.type); writePunctuation("="); } function emitConstructorType(node) { pushNameGenerationScope(node); writeKeyword("new"); writeSpace(); emitTypeParameters(node, node.typeParameters); emitParameters(node, node.parameters); writeSpace(); writePunctuation("=>"); writeSpace(); emit(node.type); popNameGenerationScope(node); } function emitTypeQuery(node) { writeKeyword("typeof"); writeSpace(); emit(node.exprName); } function emitTypeLiteral(node) { writePunctuation("{"); var flags = ts.getEmitFlags(node) & 1 /* SingleLine */ ? 768 /* SingleLineTypeLiteralMembers */ : 32897 /* MultiLineTypeLiteralMembers */; emitList(node, node.members, flags | 524288 /* NoSpaceIfEmpty */); writePunctuation("}"); } function emitArrayType(node) { emit(node.elementType); writePunctuation("["); writePunctuation("]"); } function emitRestOrJSDocVariadicType(node) { writePunctuation("..."); emit(node.type); } function emitTupleType(node) { writePunctuation("["); emitList(node, node.elementTypes, 528 /* TupleTypeElements */); writePunctuation("]"); } function emitOptionalType(node) { emit(node.type); writePunctuation("?"); } function emitUnionType(node) { emitList(node, node.types, 516 /* UnionTypeConstituents */); } function emitIntersectionType(node) { emitList(node, node.types, 520 /* IntersectionTypeConstituents */); } function emitConditionalType(node) { emit(node.checkType); writeSpace(); writeKeyword("extends"); writeSpace(); emit(node.extendsType); writeSpace(); writePunctuation("?"); writeSpace(); emit(node.trueType); writeSpace(); writePunctuation(":"); writeSpace(); emit(node.falseType); } function emitInferType(node) { writeKeyword("infer"); writeSpace(); emit(node.typeParameter); } function emitParenthesizedType(node) { writePunctuation("("); emit(node.type); writePunctuation(")"); } function emitThisType() { writeKeyword("this"); } function emitTypeOperator(node) { writeTokenText(node.operator, writeKeyword); writeSpace(); emit(node.type); } function emitIndexedAccessType(node) { emit(node.objectType); writePunctuation("["); emit(node.indexType); writePunctuation("]"); } function emitMappedType(node) { var emitFlags = ts.getEmitFlags(node); writePunctuation("{"); if (emitFlags & 1 /* SingleLine */) { writeSpace(); } else { writeLine(); increaseIndent(); } if (node.readonlyToken) { emit(node.readonlyToken); if (node.readonlyToken.kind !== 138 /* ReadonlyKeyword */) { writeKeyword("readonly"); } writeSpace(); } writePunctuation("["); pipelineEmit(3 /* MappedTypeParameter */, node.typeParameter); writePunctuation("]"); if (node.questionToken) { emit(node.questionToken); if (node.questionToken.kind !== 57 /* QuestionToken */) { writePunctuation("?"); } } writePunctuation(":"); writeSpace(); emit(node.type); writeTrailingSemicolon(); if (emitFlags & 1 /* SingleLine */) { writeSpace(); } else { writeLine(); decreaseIndent(); } writePunctuation("}"); } function emitLiteralType(node) { emitExpression(node.literal); } function emitImportTypeNode(node) { if (node.isTypeOf) { writeKeyword("typeof"); writeSpace(); } writeKeyword("import"); writePunctuation("("); emit(node.argument); writePunctuation(")"); if (node.qualifier) { writePunctuation("."); emit(node.qualifier); } emitTypeArguments(node, node.typeArguments); } // // Binding patterns // function emitObjectBindingPattern(node) { writePunctuation("{"); emitList(node, node.elements, 525136 /* ObjectBindingPatternElements */); writePunctuation("}"); } function emitArrayBindingPattern(node) { writePunctuation("["); emitList(node, node.elements, 524880 /* ArrayBindingPatternElements */); writePunctuation("]"); } function emitBindingElement(node) { emit(node.dotDotDotToken); if (node.propertyName) { emit(node.propertyName); writePunctuation(":"); writeSpace(); } emit(node.name); emitInitializer(node.initializer, node.name.end, node); } // // Expressions // function emitArrayLiteralExpression(node) { var elements = node.elements; var preferNewLine = node.multiLine ? 65536 /* PreferNewLine */ : 0 /* None */; emitExpressionList(node, elements, 8914 /* ArrayLiteralExpressionElements */ | preferNewLine); } function emitObjectLiteralExpression(node) { ts.forEach(node.properties, generateMemberNames); var indentedFlag = ts.getEmitFlags(node) & 65536 /* Indented */; if (indentedFlag) { increaseIndent(); } var preferNewLine = node.multiLine ? 65536 /* PreferNewLine */ : 0 /* None */; var allowTrailingComma = currentSourceFile.languageVersion >= 1 /* ES5 */ && !ts.isJsonSourceFile(currentSourceFile) ? 64 /* AllowTrailingComma */ : 0 /* None */; emitList(node, node.properties, 526226 /* ObjectLiteralExpressionProperties */ | allowTrailingComma | preferNewLine); if (indentedFlag) { decreaseIndent(); } } function emitPropertyAccessExpression(node) { var expression = ts.cast(emitExpression(node.expression), ts.isExpression); var token = node.questionDotToken || ts.createNode(24 /* DotToken */, node.expression.end, node.name.pos); var linesBeforeDot = getLinesBetweenNodes(node, node.expression, token); var linesAfterDot = getLinesBetweenNodes(node, token, node.name); writeLinesAndIndent(linesBeforeDot, /*writeSpaceIfNotIndenting*/ false); var shouldEmitDotDot = token.kind !== 28 /* QuestionDotToken */ && mayNeedDotDotForPropertyAccess(expression) && !writer.hasTrailingComment() && !writer.hasTrailingWhitespace(); if (shouldEmitDotDot) { writePunctuation("."); } if (node.questionDotToken) { emit(token); } else { emitTokenWithComment(token.kind, node.expression.end, writePunctuation, node); } writeLinesAndIndent(linesAfterDot, /*writeSpaceIfNotIndenting*/ false); emit(node.name); decreaseIndentIf(linesBeforeDot, linesAfterDot); } // 1..toString is a valid property access, emit a dot after the literal // Also emit a dot if expression is a integer const enum value - it will appear in generated code as numeric literal function mayNeedDotDotForPropertyAccess(expression) { expression = ts.skipPartiallyEmittedExpressions(expression); if (ts.isNumericLiteral(expression)) { // check if numeric literal is a decimal literal that was originally written with a dot var text = getLiteralTextOfNode(expression, /*neverAsciiEscape*/ true, /*jsxAttributeEscape*/ false); // If he number will be printed verbatim and it doesn't already contain a dot, add one // if the expression doesn't have any comments that will be emitted. return !expression.numericLiteralFlags && !ts.stringContains(text, ts.tokenToString(24 /* DotToken */)); } else if (ts.isAccessExpression(expression)) { // check if constant enum value is integer var constantValue = ts.getConstantValue(expression); // isFinite handles cases when constantValue is undefined return typeof constantValue === "number" && isFinite(constantValue) && Math.floor(constantValue) === constantValue; } } function emitElementAccessExpression(node) { emitExpression(node.expression); emit(node.questionDotToken); emitTokenWithComment(22 /* OpenBracketToken */, node.expression.end, writePunctuation, node); emitExpression(node.argumentExpression); emitTokenWithComment(23 /* CloseBracketToken */, node.argumentExpression.end, writePunctuation, node); } function emitCallExpression(node) { emitExpression(node.expression); emit(node.questionDotToken); emitTypeArguments(node, node.typeArguments); emitExpressionList(node, node.arguments, 2576 /* CallExpressionArguments */); } function emitNewExpression(node) { emitTokenWithComment(99 /* NewKeyword */, node.pos, writeKeyword, node); writeSpace(); emitExpression(node.expression); emitTypeArguments(node, node.typeArguments); emitExpressionList(node, node.arguments, 18960 /* NewExpressionArguments */); } function emitTaggedTemplateExpression(node) { emitExpression(node.tag); emitTypeArguments(node, node.typeArguments); writeSpace(); emitExpression(node.template); } function emitTypeAssertionExpression(node) { writePunctuation("<"); emit(node.type); writePunctuation(">"); emitExpression(node.expression); } function emitParenthesizedExpression(node) { var openParenPos = emitTokenWithComment(20 /* OpenParenToken */, node.pos, writePunctuation, node); var indented = writeLineSeparatorsAndIndentBefore(node.expression, node); emitExpression(node.expression); writeLineSeparatorsAfter(node.expression, node); decreaseIndentIf(indented); emitTokenWithComment(21 /* CloseParenToken */, node.expression ? node.expression.end : openParenPos, writePunctuation, node); } function emitFunctionExpression(node) { generateNameIfNeeded(node.name); emitFunctionDeclarationOrExpression(node); } function emitArrowFunction(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); emitSignatureAndBody(node, emitArrowFunctionHead); } function emitArrowFunctionHead(node) { emitTypeParameters(node, node.typeParameters); emitParametersForArrow(node, node.parameters); emitTypeAnnotation(node.type); writeSpace(); emit(node.equalsGreaterThanToken); } function emitDeleteExpression(node) { emitTokenWithComment(85 /* DeleteKeyword */, node.pos, writeKeyword, node); writeSpace(); emitExpression(node.expression); } function emitTypeOfExpression(node) { emitTokenWithComment(108 /* TypeOfKeyword */, node.pos, writeKeyword, node); writeSpace(); emitExpression(node.expression); } function emitVoidExpression(node) { emitTokenWithComment(110 /* VoidKeyword */, node.pos, writeKeyword, node); writeSpace(); emitExpression(node.expression); } function emitAwaitExpression(node) { emitTokenWithComment(127 /* AwaitKeyword */, node.pos, writeKeyword, node); writeSpace(); emitExpression(node.expression); } function emitPrefixUnaryExpression(node) { writeTokenText(node.operator, writeOperator); if (shouldEmitWhitespaceBeforeOperand(node)) { writeSpace(); } emitExpression(node.operand); } function shouldEmitWhitespaceBeforeOperand(node) { // In some cases, we need to emit a space between the operator and the operand. One obvious case // is when the operator is an identifier, like delete or typeof. We also need to do this for plus // and minus expressions in certain cases. Specifically, consider the following two cases (parens // are just for clarity of exposition, and not part of the source code): // // (+(+1)) // (+(++1)) // // We need to emit a space in both cases. In the first case, the absence of a space will make // the resulting expression a prefix increment operation. And in the second, it will make the resulting // expression a prefix increment whose operand is a plus expression - (++(+x)) // The same is true of minus of course. var operand = node.operand; return operand.kind === 207 /* PrefixUnaryExpression */ && ((node.operator === 39 /* PlusToken */ && (operand.operator === 39 /* PlusToken */ || operand.operator === 45 /* PlusPlusToken */)) || (node.operator === 40 /* MinusToken */ && (operand.operator === 40 /* MinusToken */ || operand.operator === 46 /* MinusMinusToken */))); } function emitPostfixUnaryExpression(node) { emitExpression(node.operand); writeTokenText(node.operator, writeOperator); } var EmitBinaryExpressionState; (function (EmitBinaryExpressionState) { EmitBinaryExpressionState[EmitBinaryExpressionState["EmitLeft"] = 0] = "EmitLeft"; EmitBinaryExpressionState[EmitBinaryExpressionState["EmitRight"] = 1] = "EmitRight"; EmitBinaryExpressionState[EmitBinaryExpressionState["FinishEmit"] = 2] = "FinishEmit"; })(EmitBinaryExpressionState || (EmitBinaryExpressionState = {})); /** * emitBinaryExpression includes an embedded work stack to attempt to handle as many nested binary expressions * as possible without creating any additional stack frames. This can only be done when the emit pipeline does * not require notification/substitution/comment/sourcemap decorations. */ function emitBinaryExpression(node) { var nodeStack = [node]; var stateStack = [0 /* EmitLeft */]; var stackIndex = 0; while (stackIndex >= 0) { node = nodeStack[stackIndex]; switch (stateStack[stackIndex]) { case 0 /* EmitLeft */: { maybePipelineEmitExpression(node.left); break; } case 1 /* EmitRight */: { var isCommaOperator = node.operatorToken.kind !== 27 /* CommaToken */; var linesBeforeOperator = getLinesBetweenNodes(node, node.left, node.operatorToken); var linesAfterOperator = getLinesBetweenNodes(node, node.operatorToken, node.right); writeLinesAndIndent(linesBeforeOperator, isCommaOperator); emitLeadingCommentsOfPosition(node.operatorToken.pos); writeTokenNode(node.operatorToken, node.operatorToken.kind === 97 /* InKeyword */ ? writeKeyword : writeOperator); emitTrailingCommentsOfPosition(node.operatorToken.end, /*prefixSpace*/ true); // Binary operators should have a space before the comment starts writeLinesAndIndent(linesAfterOperator, /*writeSpaceIfNotIndenting*/ true); maybePipelineEmitExpression(node.right); break; } case 2 /* FinishEmit */: { var linesBeforeOperator = getLinesBetweenNodes(node, node.left, node.operatorToken); var linesAfterOperator = getLinesBetweenNodes(node, node.operatorToken, node.right); decreaseIndentIf(linesBeforeOperator, linesAfterOperator); stackIndex--; break; } default: return ts.Debug.fail("Invalid state " + stateStack[stackIndex] + " for emitBinaryExpressionWorker"); } } function maybePipelineEmitExpression(next) { // Advance the state of this unit of work, stateStack[stackIndex]++; // Then actually do the work of emitting the node `next` returned by the prior state // The following section should be identical to `pipelineEmit` save it assumes EmitHint.Expression and offloads // binary expression handling, where possible, to the contained work queue // #region trampolinePipelineEmit var savedLastNode = lastNode; var savedLastSubstitution = lastSubstitution; lastNode = next; lastSubstitution = undefined; var pipelinePhase = getPipelinePhase(0 /* Notification */, 1 /* Expression */, next); if (pipelinePhase === pipelineEmitWithHint && ts.isBinaryExpression(next)) { // If the target pipeline phase is emit directly, and the next node's also a binary expression, // skip all the intermediate indirection and push the expression directly onto the work stack stackIndex++; stateStack[stackIndex] = 0 /* EmitLeft */; nodeStack[stackIndex] = next; } else { pipelinePhase(1 /* Expression */, next); } ts.Debug.assert(lastNode === next); lastNode = savedLastNode; lastSubstitution = savedLastSubstitution; // #endregion trampolinePipelineEmit } } function emitConditionalExpression(node) { var linesBeforeQuestion = getLinesBetweenNodes(node, node.condition, node.questionToken); var linesAfterQuestion = getLinesBetweenNodes(node, node.questionToken, node.whenTrue); var linesBeforeColon = getLinesBetweenNodes(node, node.whenTrue, node.colonToken); var linesAfterColon = getLinesBetweenNodes(node, node.colonToken, node.whenFalse); emitExpression(node.condition); writeLinesAndIndent(linesBeforeQuestion, /*writeSpaceIfNotIndenting*/ true); emit(node.questionToken); writeLinesAndIndent(linesAfterQuestion, /*writeSpaceIfNotIndenting*/ true); emitExpression(node.whenTrue); decreaseIndentIf(linesBeforeQuestion, linesAfterQuestion); writeLinesAndIndent(linesBeforeColon, /*writeSpaceIfNotIndenting*/ true); emit(node.colonToken); writeLinesAndIndent(linesAfterColon, /*writeSpaceIfNotIndenting*/ true); emitExpression(node.whenFalse); decreaseIndentIf(linesBeforeColon, linesAfterColon); } function emitTemplateExpression(node) { emit(node.head); emitList(node, node.templateSpans, 262144 /* TemplateExpressionSpans */); } function emitYieldExpression(node) { emitTokenWithComment(121 /* YieldKeyword */, node.pos, writeKeyword, node); emit(node.asteriskToken); emitExpressionWithLeadingSpace(node.expression); } function emitSpreadExpression(node) { emitTokenWithComment(25 /* DotDotDotToken */, node.pos, writePunctuation, node); emitExpression(node.expression); } function emitClassExpression(node) { generateNameIfNeeded(node.name); emitClassDeclarationOrExpression(node); } function emitExpressionWithTypeArguments(node) { emitExpression(node.expression); emitTypeArguments(node, node.typeArguments); } function emitAsExpression(node) { emitExpression(node.expression); if (node.type) { writeSpace(); writeKeyword("as"); writeSpace(); emit(node.type); } } function emitNonNullExpression(node) { emitExpression(node.expression); writeOperator("!"); } function emitMetaProperty(node) { writeToken(node.keywordToken, node.pos, writePunctuation); writePunctuation("."); emit(node.name); } // // Misc // function emitTemplateSpan(node) { emitExpression(node.expression); emit(node.literal); } // // Statements // function emitBlock(node) { emitBlockStatements(node, /*forceSingleLine*/ !node.multiLine && isEmptyBlock(node)); } function emitBlockStatements(node, forceSingleLine) { emitTokenWithComment(18 /* OpenBraceToken */, node.pos, writePunctuation, /*contextNode*/ node); var format = forceSingleLine || ts.getEmitFlags(node) & 1 /* SingleLine */ ? 768 /* SingleLineBlockStatements */ : 129 /* MultiLineBlockStatements */; emitList(node, node.statements, format); emitTokenWithComment(19 /* CloseBraceToken */, node.statements.end, writePunctuation, /*contextNode*/ node, /*indentLeading*/ !!(format & 1 /* MultiLine */)); } function emitVariableStatement(node) { emitModifiers(node, node.modifiers); emit(node.declarationList); writeTrailingSemicolon(); } function emitEmptyStatement(isEmbeddedStatement) { // While most trailing semicolons are possibly insignificant, an embedded "empty" // statement is significant and cannot be elided by a trailing-semicolon-omitting writer. if (isEmbeddedStatement) { writePunctuation(";"); } else { writeTrailingSemicolon(); } } function emitExpressionStatement(node) { emitExpression(node.expression); // Emit semicolon in non json files // or if json file that created synthesized expression(eg.define expression statement when --out and amd code generation) if (!ts.isJsonSourceFile(currentSourceFile) || ts.nodeIsSynthesized(node.expression)) { writeTrailingSemicolon(); } } function emitIfStatement(node) { var openParenPos = emitTokenWithComment(95 /* IfKeyword */, node.pos, writeKeyword, node); writeSpace(); emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emitExpression(node.expression); emitTokenWithComment(21 /* CloseParenToken */, node.expression.end, writePunctuation, node); emitEmbeddedStatement(node, node.thenStatement); if (node.elseStatement) { writeLineOrSpace(node); emitTokenWithComment(87 /* ElseKeyword */, node.thenStatement.end, writeKeyword, node); if (node.elseStatement.kind === 227 /* IfStatement */) { writeSpace(); emit(node.elseStatement); } else { emitEmbeddedStatement(node, node.elseStatement); } } } function emitWhileClause(node, startPos) { var openParenPos = emitTokenWithComment(111 /* WhileKeyword */, startPos, writeKeyword, node); writeSpace(); emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emitExpression(node.expression); emitTokenWithComment(21 /* CloseParenToken */, node.expression.end, writePunctuation, node); } function emitDoStatement(node) { emitTokenWithComment(86 /* DoKeyword */, node.pos, writeKeyword, node); emitEmbeddedStatement(node, node.statement); if (ts.isBlock(node.statement)) { writeSpace(); } else { writeLineOrSpace(node); } emitWhileClause(node, node.statement.end); writeTrailingSemicolon(); } function emitWhileStatement(node) { emitWhileClause(node, node.pos); emitEmbeddedStatement(node, node.statement); } function emitForStatement(node) { var openParenPos = emitTokenWithComment(93 /* ForKeyword */, node.pos, writeKeyword, node); writeSpace(); var pos = emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, /*contextNode*/ node); emitForBinding(node.initializer); pos = emitTokenWithComment(26 /* SemicolonToken */, node.initializer ? node.initializer.end : pos, writePunctuation, node); emitExpressionWithLeadingSpace(node.condition); pos = emitTokenWithComment(26 /* SemicolonToken */, node.condition ? node.condition.end : pos, writePunctuation, node); emitExpressionWithLeadingSpace(node.incrementor); emitTokenWithComment(21 /* CloseParenToken */, node.incrementor ? node.incrementor.end : pos, writePunctuation, node); emitEmbeddedStatement(node, node.statement); } function emitForInStatement(node) { var openParenPos = emitTokenWithComment(93 /* ForKeyword */, node.pos, writeKeyword, node); writeSpace(); emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emitForBinding(node.initializer); writeSpace(); emitTokenWithComment(97 /* InKeyword */, node.initializer.end, writeKeyword, node); writeSpace(); emitExpression(node.expression); emitTokenWithComment(21 /* CloseParenToken */, node.expression.end, writePunctuation, node); emitEmbeddedStatement(node, node.statement); } function emitForOfStatement(node) { var openParenPos = emitTokenWithComment(93 /* ForKeyword */, node.pos, writeKeyword, node); writeSpace(); emitWithTrailingSpace(node.awaitModifier); emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emitForBinding(node.initializer); writeSpace(); emitTokenWithComment(152 /* OfKeyword */, node.initializer.end, writeKeyword, node); writeSpace(); emitExpression(node.expression); emitTokenWithComment(21 /* CloseParenToken */, node.expression.end, writePunctuation, node); emitEmbeddedStatement(node, node.statement); } function emitForBinding(node) { if (node !== undefined) { if (node.kind === 243 /* VariableDeclarationList */) { emit(node); } else { emitExpression(node); } } } function emitContinueStatement(node) { emitTokenWithComment(82 /* ContinueKeyword */, node.pos, writeKeyword, node); emitWithLeadingSpace(node.label); writeTrailingSemicolon(); } function emitBreakStatement(node) { emitTokenWithComment(77 /* BreakKeyword */, node.pos, writeKeyword, node); emitWithLeadingSpace(node.label); writeTrailingSemicolon(); } function emitTokenWithComment(token, pos, writer, contextNode, indentLeading) { var node = ts.getParseTreeNode(contextNode); var isSimilarNode = node && node.kind === contextNode.kind; var startPos = pos; if (isSimilarNode && currentSourceFile) { pos = ts.skipTrivia(currentSourceFile.text, pos); } if (emitLeadingCommentsOfPosition && isSimilarNode && contextNode.pos !== startPos) { var needsIndent = indentLeading && currentSourceFile && !ts.positionsAreOnSameLine(startPos, pos, currentSourceFile); if (needsIndent) { increaseIndent(); } emitLeadingCommentsOfPosition(startPos); if (needsIndent) { decreaseIndent(); } } pos = writeTokenText(token, writer, pos); if (emitTrailingCommentsOfPosition && isSimilarNode && contextNode.end !== pos) { emitTrailingCommentsOfPosition(pos, /*prefixSpace*/ true); } return pos; } function emitReturnStatement(node) { emitTokenWithComment(101 /* ReturnKeyword */, node.pos, writeKeyword, /*contextNode*/ node); emitExpressionWithLeadingSpace(node.expression); writeTrailingSemicolon(); } function emitWithStatement(node) { var openParenPos = emitTokenWithComment(112 /* WithKeyword */, node.pos, writeKeyword, node); writeSpace(); emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emitExpression(node.expression); emitTokenWithComment(21 /* CloseParenToken */, node.expression.end, writePunctuation, node); emitEmbeddedStatement(node, node.statement); } function emitSwitchStatement(node) { var openParenPos = emitTokenWithComment(103 /* SwitchKeyword */, node.pos, writeKeyword, node); writeSpace(); emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emitExpression(node.expression); emitTokenWithComment(21 /* CloseParenToken */, node.expression.end, writePunctuation, node); writeSpace(); emit(node.caseBlock); } function emitLabeledStatement(node) { emit(node.label); emitTokenWithComment(58 /* ColonToken */, node.label.end, writePunctuation, node); writeSpace(); emit(node.statement); } function emitThrowStatement(node) { emitTokenWithComment(105 /* ThrowKeyword */, node.pos, writeKeyword, node); emitExpressionWithLeadingSpace(node.expression); writeTrailingSemicolon(); } function emitTryStatement(node) { emitTokenWithComment(107 /* TryKeyword */, node.pos, writeKeyword, node); writeSpace(); emit(node.tryBlock); if (node.catchClause) { writeLineOrSpace(node); emit(node.catchClause); } if (node.finallyBlock) { writeLineOrSpace(node); emitTokenWithComment(92 /* FinallyKeyword */, (node.catchClause || node.tryBlock).end, writeKeyword, node); writeSpace(); emit(node.finallyBlock); } } function emitDebuggerStatement(node) { writeToken(83 /* DebuggerKeyword */, node.pos, writeKeyword); writeTrailingSemicolon(); } // // Declarations // function emitVariableDeclaration(node) { emit(node.name); emit(node.exclamationToken); emitTypeAnnotation(node.type); emitInitializer(node.initializer, node.type ? node.type.end : node.name.end, node); } function emitVariableDeclarationList(node) { writeKeyword(ts.isLet(node) ? "let" : ts.isVarConst(node) ? "const" : "var"); writeSpace(); emitList(node, node.declarations, 528 /* VariableDeclarationList */); } function emitFunctionDeclaration(node) { emitFunctionDeclarationOrExpression(node); } function emitFunctionDeclarationOrExpression(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); writeKeyword("function"); emit(node.asteriskToken); writeSpace(); emitIdentifierName(node.name); emitSignatureAndBody(node, emitSignatureHead); } function emitBlockCallback(_hint, body) { emitBlockFunctionBody(body); } function emitSignatureAndBody(node, emitSignatureHead) { var body = node.body; if (body) { if (ts.isBlock(body)) { var indentedFlag = ts.getEmitFlags(node) & 65536 /* Indented */; if (indentedFlag) { increaseIndent(); } pushNameGenerationScope(node); ts.forEach(node.parameters, generateNames); generateNames(node.body); emitSignatureHead(node); if (onEmitNode) { onEmitNode(4 /* Unspecified */, body, emitBlockCallback); } else { emitBlockFunctionBody(body); } popNameGenerationScope(node); if (indentedFlag) { decreaseIndent(); } } else { emitSignatureHead(node); writeSpace(); emitExpression(body); } } else { emitSignatureHead(node); writeTrailingSemicolon(); } } function emitSignatureHead(node) { emitTypeParameters(node, node.typeParameters); emitParameters(node, node.parameters); emitTypeAnnotation(node.type); } function shouldEmitBlockFunctionBodyOnSingleLine(body) { // We must emit a function body as a single-line body in the following case: // * The body has NodeEmitFlags.SingleLine specified. // We must emit a function body as a multi-line body in the following cases: // * The body is explicitly marked as multi-line. // * A non-synthesized body's start and end position are on different lines. // * Any statement in the body starts on a new line. if (ts.getEmitFlags(body) & 1 /* SingleLine */) { return true; } if (body.multiLine) { return false; } if (!ts.nodeIsSynthesized(body) && !ts.rangeIsOnSingleLine(body, currentSourceFile)) { return false; } if (getLeadingLineTerminatorCount(body, body.statements, 2 /* PreserveLines */) || getClosingLineTerminatorCount(body, body.statements, 2 /* PreserveLines */)) { return false; } var previousStatement; for (var _a = 0, _b = body.statements; _a < _b.length; _a++) { var statement = _b[_a]; if (getSeparatingLineTerminatorCount(previousStatement, statement, 2 /* PreserveLines */) > 0) { return false; } previousStatement = statement; } return true; } function emitBlockFunctionBody(body) { writeSpace(); writePunctuation("{"); increaseIndent(); var emitBlockFunctionBody = shouldEmitBlockFunctionBodyOnSingleLine(body) ? emitBlockFunctionBodyOnSingleLine : emitBlockFunctionBodyWorker; if (emitBodyWithDetachedComments) { emitBodyWithDetachedComments(body, body.statements, emitBlockFunctionBody); } else { emitBlockFunctionBody(body); } decreaseIndent(); writeToken(19 /* CloseBraceToken */, body.statements.end, writePunctuation, body); } function emitBlockFunctionBodyOnSingleLine(body) { emitBlockFunctionBodyWorker(body, /*emitBlockFunctionBodyOnSingleLine*/ true); } function emitBlockFunctionBodyWorker(body, emitBlockFunctionBodyOnSingleLine) { // Emit all the prologue directives (like "use strict"). var statementOffset = emitPrologueDirectives(body.statements); var pos = writer.getTextPos(); emitHelpers(body); if (statementOffset === 0 && pos === writer.getTextPos() && emitBlockFunctionBodyOnSingleLine) { decreaseIndent(); emitList(body, body.statements, 768 /* SingleLineFunctionBodyStatements */); increaseIndent(); } else { emitList(body, body.statements, 1 /* MultiLineFunctionBodyStatements */, statementOffset); } } function emitClassDeclaration(node) { emitClassDeclarationOrExpression(node); } function emitClassDeclarationOrExpression(node) { ts.forEach(node.members, generateMemberNames); emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); writeKeyword("class"); if (node.name) { writeSpace(); emitIdentifierName(node.name); } var indentedFlag = ts.getEmitFlags(node) & 65536 /* Indented */; if (indentedFlag) { increaseIndent(); } emitTypeParameters(node, node.typeParameters); emitList(node, node.heritageClauses, 0 /* ClassHeritageClauses */); writeSpace(); writePunctuation("{"); emitList(node, node.members, 129 /* ClassMembers */); writePunctuation("}"); if (indentedFlag) { decreaseIndent(); } } function emitInterfaceDeclaration(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); writeKeyword("interface"); writeSpace(); emit(node.name); emitTypeParameters(node, node.typeParameters); emitList(node, node.heritageClauses, 512 /* HeritageClauses */); writeSpace(); writePunctuation("{"); emitList(node, node.members, 129 /* InterfaceMembers */); writePunctuation("}"); } function emitTypeAliasDeclaration(node) { emitDecorators(node, node.decorators); emitModifiers(node, node.modifiers); writeKeyword("type"); writeSpace(); emit(node.name); emitTypeParameters(node, node.typeParameters); writeSpace(); writePunctuation("="); writeSpace(); emit(node.type); writeTrailingSemicolon(); } function emitEnumDeclaration(node) { emitModifiers(node, node.modifiers); writeKeyword("enum"); writeSpace(); emit(node.name); writeSpace(); writePunctuation("{"); emitList(node, node.members, 145 /* EnumMembers */); writePunctuation("}"); } function emitModuleDeclaration(node) { emitModifiers(node, node.modifiers); if (~node.flags & 1024 /* GlobalAugmentation */) { writeKeyword(node.flags & 16 /* Namespace */ ? "namespace" : "module"); writeSpace(); } emit(node.name); var body = node.body; if (!body) return writeTrailingSemicolon(); while (body.kind === 249 /* ModuleDeclaration */) { writePunctuation("."); emit(body.name); body = body.body; } writeSpace(); emit(body); } function emitModuleBlock(node) { pushNameGenerationScope(node); ts.forEach(node.statements, generateNames); emitBlockStatements(node, /*forceSingleLine*/ isEmptyBlock(node)); popNameGenerationScope(node); } function emitCaseBlock(node) { emitTokenWithComment(18 /* OpenBraceToken */, node.pos, writePunctuation, node); emitList(node, node.clauses, 129 /* CaseBlockClauses */); emitTokenWithComment(19 /* CloseBraceToken */, node.clauses.end, writePunctuation, node, /*indentLeading*/ true); } function emitImportEqualsDeclaration(node) { emitModifiers(node, node.modifiers); emitTokenWithComment(96 /* ImportKeyword */, node.modifiers ? node.modifiers.end : node.pos, writeKeyword, node); writeSpace(); emit(node.name); writeSpace(); emitTokenWithComment(62 /* EqualsToken */, node.name.end, writePunctuation, node); writeSpace(); emitModuleReference(node.moduleReference); writeTrailingSemicolon(); } function emitModuleReference(node) { if (node.kind === 75 /* Identifier */) { emitExpression(node); } else { emit(node); } } function emitImportDeclaration(node) { emitModifiers(node, node.modifiers); emitTokenWithComment(96 /* ImportKeyword */, node.modifiers ? node.modifiers.end : node.pos, writeKeyword, node); writeSpace(); if (node.importClause) { emit(node.importClause); writeSpace(); emitTokenWithComment(149 /* FromKeyword */, node.importClause.end, writeKeyword, node); writeSpace(); } emitExpression(node.moduleSpecifier); writeTrailingSemicolon(); } function emitImportClause(node) { if (node.isTypeOnly) { emitTokenWithComment(145 /* TypeKeyword */, node.pos, writeKeyword, node); writeSpace(); } emit(node.name); if (node.name && node.namedBindings) { emitTokenWithComment(27 /* CommaToken */, node.name.end, writePunctuation, node); writeSpace(); } emit(node.namedBindings); } function emitNamespaceImport(node) { var asPos = emitTokenWithComment(41 /* AsteriskToken */, node.pos, writePunctuation, node); writeSpace(); emitTokenWithComment(123 /* AsKeyword */, asPos, writeKeyword, node); writeSpace(); emit(node.name); } function emitNamedImports(node) { emitNamedImportsOrExports(node); } function emitImportSpecifier(node) { emitImportOrExportSpecifier(node); } function emitExportAssignment(node) { var nextPos = emitTokenWithComment(89 /* ExportKeyword */, node.pos, writeKeyword, node); writeSpace(); if (node.isExportEquals) { emitTokenWithComment(62 /* EqualsToken */, nextPos, writeOperator, node); } else { emitTokenWithComment(84 /* DefaultKeyword */, nextPos, writeKeyword, node); } writeSpace(); emitExpression(node.expression); writeTrailingSemicolon(); } function emitExportDeclaration(node) { var nextPos = emitTokenWithComment(89 /* ExportKeyword */, node.pos, writeKeyword, node); writeSpace(); if (node.isTypeOnly) { nextPos = emitTokenWithComment(145 /* TypeKeyword */, nextPos, writeKeyword, node); writeSpace(); } if (node.exportClause) { emit(node.exportClause); } else { nextPos = emitTokenWithComment(41 /* AsteriskToken */, nextPos, writePunctuation, node); } if (node.moduleSpecifier) { writeSpace(); var fromPos = node.exportClause ? node.exportClause.end : nextPos; emitTokenWithComment(149 /* FromKeyword */, fromPos, writeKeyword, node); writeSpace(); emitExpression(node.moduleSpecifier); } writeTrailingSemicolon(); } function emitNamespaceExportDeclaration(node) { var nextPos = emitTokenWithComment(89 /* ExportKeyword */, node.pos, writeKeyword, node); writeSpace(); nextPos = emitTokenWithComment(123 /* AsKeyword */, nextPos, writeKeyword, node); writeSpace(); nextPos = emitTokenWithComment(136 /* NamespaceKeyword */, nextPos, writeKeyword, node); writeSpace(); emit(node.name); writeTrailingSemicolon(); } function emitNamespaceExport(node) { var asPos = emitTokenWithComment(41 /* AsteriskToken */, node.pos, writePunctuation, node); writeSpace(); emitTokenWithComment(123 /* AsKeyword */, asPos, writeKeyword, node); writeSpace(); emit(node.name); } function emitNamedExports(node) { emitNamedImportsOrExports(node); } function emitExportSpecifier(node) { emitImportOrExportSpecifier(node); } function emitNamedImportsOrExports(node) { writePunctuation("{"); emitList(node, node.elements, 525136 /* NamedImportsOrExportsElements */); writePunctuation("}"); } function emitImportOrExportSpecifier(node) { if (node.propertyName) { emit(node.propertyName); writeSpace(); emitTokenWithComment(123 /* AsKeyword */, node.propertyName.end, writeKeyword, node); writeSpace(); } emit(node.name); } // // Module references // function emitExternalModuleReference(node) { writeKeyword("require"); writePunctuation("("); emitExpression(node.expression); writePunctuation(")"); } // // JSX // function emitJsxElement(node) { emit(node.openingElement); emitList(node, node.children, 262144 /* JsxElementOrFragmentChildren */); emit(node.closingElement); } function emitJsxSelfClosingElement(node) { writePunctuation("<"); emitJsxTagName(node.tagName); emitTypeArguments(node, node.typeArguments); writeSpace(); emit(node.attributes); writePunctuation("/>"); } function emitJsxFragment(node) { emit(node.openingFragment); emitList(node, node.children, 262144 /* JsxElementOrFragmentChildren */); emit(node.closingFragment); } function emitJsxOpeningElementOrFragment(node) { writePunctuation("<"); if (ts.isJsxOpeningElement(node)) { var indented = writeLineSeparatorsAndIndentBefore(node.tagName, node); emitJsxTagName(node.tagName); emitTypeArguments(node, node.typeArguments); if (node.attributes.properties && node.attributes.properties.length > 0) { writeSpace(); } emit(node.attributes); writeLineSeparatorsAfter(node.attributes, node); decreaseIndentIf(indented); } writePunctuation(">"); } function emitJsxText(node) { writer.writeLiteral(node.text); } function emitJsxClosingElementOrFragment(node) { writePunctuation(""); } function emitJsxAttributes(node) { emitList(node, node.properties, 262656 /* JsxElementAttributes */); } function emitJsxAttribute(node) { emit(node.name); emitNodeWithPrefix("=", writePunctuation, node.initializer, emitJsxAttributeValue); } function emitJsxSpreadAttribute(node) { writePunctuation("{..."); emitExpression(node.expression); writePunctuation("}"); } function emitJsxExpression(node) { if (node.expression) { writePunctuation("{"); emit(node.dotDotDotToken); emitExpression(node.expression); writePunctuation("}"); } } function emitJsxTagName(node) { if (node.kind === 75 /* Identifier */) { emitExpression(node); } else { emit(node); } } // // Clauses // function emitCaseClause(node) { emitTokenWithComment(78 /* CaseKeyword */, node.pos, writeKeyword, node); writeSpace(); emitExpression(node.expression); emitCaseOrDefaultClauseRest(node, node.statements, node.expression.end); } function emitDefaultClause(node) { var pos = emitTokenWithComment(84 /* DefaultKeyword */, node.pos, writeKeyword, node); emitCaseOrDefaultClauseRest(node, node.statements, pos); } function emitCaseOrDefaultClauseRest(parentNode, statements, colonPos) { var emitAsSingleStatement = statements.length === 1 && ( // treat synthesized nodes as located on the same line for emit purposes ts.nodeIsSynthesized(parentNode) || ts.nodeIsSynthesized(statements[0]) || ts.rangeStartPositionsAreOnSameLine(parentNode, statements[0], currentSourceFile)); var format = 163969 /* CaseOrDefaultClauseStatements */; if (emitAsSingleStatement) { writeToken(58 /* ColonToken */, colonPos, writePunctuation, parentNode); writeSpace(); format &= ~(1 /* MultiLine */ | 128 /* Indented */); } else { emitTokenWithComment(58 /* ColonToken */, colonPos, writePunctuation, parentNode); } emitList(parentNode, statements, format); } function emitHeritageClause(node) { writeSpace(); writeTokenText(node.token, writeKeyword); writeSpace(); emitList(node, node.types, 528 /* HeritageClauseTypes */); } function emitCatchClause(node) { var openParenPos = emitTokenWithComment(79 /* CatchKeyword */, node.pos, writeKeyword, node); writeSpace(); if (node.variableDeclaration) { emitTokenWithComment(20 /* OpenParenToken */, openParenPos, writePunctuation, node); emit(node.variableDeclaration); emitTokenWithComment(21 /* CloseParenToken */, node.variableDeclaration.end, writePunctuation, node); writeSpace(); } emit(node.block); } // // Property assignments // function emitPropertyAssignment(node) { emit(node.name); writePunctuation(":"); writeSpace(); // This is to ensure that we emit comment in the following case: // For example: // obj = { // id: /*comment1*/ ()=>void // } // "comment1" is not considered to be leading comment for node.initializer // but rather a trailing comment on the previous node. var initializer = node.initializer; if (emitTrailingCommentsOfPosition && (ts.getEmitFlags(initializer) & 512 /* NoLeadingComments */) === 0) { var commentRange = ts.getCommentRange(initializer); emitTrailingCommentsOfPosition(commentRange.pos); } emitExpression(initializer); } function emitShorthandPropertyAssignment(node) { emit(node.name); if (node.objectAssignmentInitializer) { writeSpace(); writePunctuation("="); writeSpace(); emitExpression(node.objectAssignmentInitializer); } } function emitSpreadAssignment(node) { if (node.expression) { emitTokenWithComment(25 /* DotDotDotToken */, node.pos, writePunctuation, node); emitExpression(node.expression); } } // // Enum // function emitEnumMember(node) { emit(node.name); emitInitializer(node.initializer, node.name.end, node); } // // JSDoc // function emitJSDoc(node) { write("/**"); if (node.comment) { var lines = node.comment.split(/\r\n?|\n/g); for (var _a = 0, lines_2 = lines; _a < lines_2.length; _a++) { var line = lines_2[_a]; writeLine(); writeSpace(); writePunctuation("*"); writeSpace(); write(line); } } if (node.tags) { if (node.tags.length === 1 && node.tags[0].kind === 320 /* JSDocTypeTag */ && !node.comment) { writeSpace(); emit(node.tags[0]); } else { emitList(node, node.tags, 33 /* JSDocComment */); } } writeSpace(); write("*/"); } function emitJSDocSimpleTypedTag(tag) { emitJSDocTagName(tag.tagName); emitJSDocTypeExpression(tag.typeExpression); emitJSDocComment(tag.comment); } function emitJSDocHeritageTag(tag) { emitJSDocTagName(tag.tagName); writeSpace(); writePunctuation("{"); emit(tag.class); writePunctuation("}"); emitJSDocComment(tag.comment); } function emitJSDocTemplateTag(tag) { emitJSDocTagName(tag.tagName); emitJSDocTypeExpression(tag.constraint); writeSpace(); emitList(tag, tag.typeParameters, 528 /* CommaListElements */); emitJSDocComment(tag.comment); } function emitJSDocTypedefTag(tag) { emitJSDocTagName(tag.tagName); if (tag.typeExpression) { if (tag.typeExpression.kind === 294 /* JSDocTypeExpression */) { emitJSDocTypeExpression(tag.typeExpression); } else { writeSpace(); writePunctuation("{"); write("Object"); if (tag.typeExpression.isArrayType) { writePunctuation("["); writePunctuation("]"); } writePunctuation("}"); } } if (tag.fullName) { writeSpace(); emit(tag.fullName); } emitJSDocComment(tag.comment); if (tag.typeExpression && tag.typeExpression.kind === 304 /* JSDocTypeLiteral */) { emitJSDocTypeLiteral(tag.typeExpression); } } function emitJSDocCallbackTag(tag) { emitJSDocTagName(tag.tagName); if (tag.name) { writeSpace(); emit(tag.name); } emitJSDocComment(tag.comment); emitJSDocSignature(tag.typeExpression); } function emitJSDocSimpleTag(tag) { emitJSDocTagName(tag.tagName); emitJSDocComment(tag.comment); } function emitJSDocTypeLiteral(lit) { emitList(lit, ts.createNodeArray(lit.jsDocPropertyTags), 33 /* JSDocComment */); } function emitJSDocSignature(sig) { if (sig.typeParameters) { emitList(sig, ts.createNodeArray(sig.typeParameters), 33 /* JSDocComment */); } if (sig.parameters) { emitList(sig, ts.createNodeArray(sig.parameters), 33 /* JSDocComment */); } if (sig.type) { writeLine(); writeSpace(); writePunctuation("*"); writeSpace(); emit(sig.type); } } function emitJSDocPropertyLikeTag(param) { emitJSDocTagName(param.tagName); emitJSDocTypeExpression(param.typeExpression); writeSpace(); if (param.isBracketed) { writePunctuation("["); } emit(param.name); if (param.isBracketed) { writePunctuation("]"); } emitJSDocComment(param.comment); } function emitJSDocTagName(tagName) { writePunctuation("@"); emit(tagName); } function emitJSDocComment(comment) { if (comment) { writeSpace(); write(comment); } } function emitJSDocTypeExpression(typeExpression) { if (typeExpression) { writeSpace(); writePunctuation("{"); emit(typeExpression.type); writePunctuation("}"); } } // // Top-level nodes // function emitSourceFile(node) { writeLine(); var statements = node.statements; if (emitBodyWithDetachedComments) { // Emit detached comment if there are no prologue directives or if the first node is synthesized. // The synthesized node will have no leading comment so some comments may be missed. var shouldEmitDetachedComment = statements.length === 0 || !ts.isPrologueDirective(statements[0]) || ts.nodeIsSynthesized(statements[0]); if (shouldEmitDetachedComment) { emitBodyWithDetachedComments(node, statements, emitSourceFileWorker); return; } } emitSourceFileWorker(node); } function emitSyntheticTripleSlashReferencesIfNeeded(node) { emitTripleSlashDirectives(!!node.hasNoDefaultLib, node.syntheticFileReferences || [], node.syntheticTypeReferences || [], node.syntheticLibReferences || []); for (var _a = 0, _b = node.prepends; _a < _b.length; _a++) { var prepend = _b[_a]; if (ts.isUnparsedSource(prepend) && prepend.syntheticReferences) { for (var _c = 0, _d = prepend.syntheticReferences; _c < _d.length; _c++) { var ref = _d[_c]; emit(ref); writeLine(); } } } } function emitTripleSlashDirectivesIfNeeded(node) { if (node.isDeclarationFile) emitTripleSlashDirectives(node.hasNoDefaultLib, node.referencedFiles, node.typeReferenceDirectives, node.libReferenceDirectives); } function emitTripleSlashDirectives(hasNoDefaultLib, files, types, libs) { if (hasNoDefaultLib) { var pos = writer.getTextPos(); writeComment("/// "); if (bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "no-default-lib" /* NoDefaultLib */ }); writeLine(); } if (currentSourceFile && currentSourceFile.moduleName) { writeComment("/// "); writeLine(); } if (currentSourceFile && currentSourceFile.amdDependencies) { for (var _a = 0, _b = currentSourceFile.amdDependencies; _a < _b.length; _a++) { var dep = _b[_a]; if (dep.name) { writeComment("/// "); } else { writeComment("/// "); } writeLine(); } } for (var _c = 0, files_1 = files; _c < files_1.length; _c++) { var directive = files_1[_c]; var pos = writer.getTextPos(); writeComment("/// "); if (bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "reference" /* Reference */, data: directive.fileName }); writeLine(); } for (var _d = 0, types_22 = types; _d < types_22.length; _d++) { var directive = types_22[_d]; var pos = writer.getTextPos(); writeComment("/// "); if (bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "type" /* Type */, data: directive.fileName }); writeLine(); } for (var _e = 0, libs_1 = libs; _e < libs_1.length; _e++) { var directive = libs_1[_e]; var pos = writer.getTextPos(); writeComment("/// "); if (bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "lib" /* Lib */, data: directive.fileName }); writeLine(); } } function emitSourceFileWorker(node) { var statements = node.statements; pushNameGenerationScope(node); ts.forEach(node.statements, generateNames); emitHelpers(node); var index = ts.findIndex(statements, function (statement) { return !ts.isPrologueDirective(statement); }); emitTripleSlashDirectivesIfNeeded(node); emitList(node, statements, 1 /* MultiLine */, index === -1 ? statements.length : index); popNameGenerationScope(node); } // Transformation nodes function emitPartiallyEmittedExpression(node) { emitExpression(node.expression); } function emitCommaList(node) { emitExpressionList(node, node.elements, 528 /* CommaListElements */); } /** * Emits any prologue directives at the start of a Statement list, returning the * number of prologue directives written to the output. */ function emitPrologueDirectives(statements, sourceFile, seenPrologueDirectives, recordBundleFileSection) { var needsToSetSourceFile = !!sourceFile; for (var i = 0; i < statements.length; i++) { var statement = statements[i]; if (ts.isPrologueDirective(statement)) { var shouldEmitPrologueDirective = seenPrologueDirectives ? !seenPrologueDirectives.has(statement.expression.text) : true; if (shouldEmitPrologueDirective) { if (needsToSetSourceFile) { needsToSetSourceFile = false; setSourceFile(sourceFile); } writeLine(); var pos = writer.getTextPos(); emit(statement); if (recordBundleFileSection && bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "prologue" /* Prologue */, data: statement.expression.text }); if (seenPrologueDirectives) { seenPrologueDirectives.set(statement.expression.text, true); } } } else { // return index of the first non prologue directive return i; } } return statements.length; } function emitUnparsedPrologues(prologues, seenPrologueDirectives) { for (var _a = 0, prologues_1 = prologues; _a < prologues_1.length; _a++) { var prologue = prologues_1[_a]; if (!seenPrologueDirectives.has(prologue.data)) { writeLine(); var pos = writer.getTextPos(); emit(prologue); if (bundleFileInfo) bundleFileInfo.sections.push({ pos: pos, end: writer.getTextPos(), kind: "prologue" /* Prologue */, data: prologue.data }); if (seenPrologueDirectives) { seenPrologueDirectives.set(prologue.data, true); } } } } function emitPrologueDirectivesIfNeeded(sourceFileOrBundle) { if (ts.isSourceFile(sourceFileOrBundle)) { emitPrologueDirectives(sourceFileOrBundle.statements, sourceFileOrBundle); } else { var seenPrologueDirectives = ts.createMap(); for (var _a = 0, _b = sourceFileOrBundle.prepends; _a < _b.length; _a++) { var prepend = _b[_a]; emitUnparsedPrologues(prepend.prologues, seenPrologueDirectives); } for (var _c = 0, _d = sourceFileOrBundle.sourceFiles; _c < _d.length; _c++) { var sourceFile = _d[_c]; emitPrologueDirectives(sourceFile.statements, sourceFile, seenPrologueDirectives, /*recordBundleFileSection*/ true); } setSourceFile(undefined); } } function getPrologueDirectivesFromBundledSourceFiles(bundle) { var seenPrologueDirectives = ts.createMap(); var prologues; for (var index = 0; index < bundle.sourceFiles.length; index++) { var sourceFile = bundle.sourceFiles[index]; var directives = void 0; var end = 0; for (var _a = 0, _b = sourceFile.statements; _a < _b.length; _a++) { var statement = _b[_a]; if (!ts.isPrologueDirective(statement)) break; if (seenPrologueDirectives.has(statement.expression.text)) continue; seenPrologueDirectives.set(statement.expression.text, true); (directives || (directives = [])).push({ pos: statement.pos, end: statement.end, expression: { pos: statement.expression.pos, end: statement.expression.end, text: statement.expression.text } }); end = end < statement.end ? statement.end : end; } if (directives) (prologues || (prologues = [])).push({ file: index, text: sourceFile.text.substring(0, end), directives: directives }); } return prologues; } function emitShebangIfNeeded(sourceFileOrBundle) { if (ts.isSourceFile(sourceFileOrBundle) || ts.isUnparsedSource(sourceFileOrBundle)) { var shebang = ts.getShebang(sourceFileOrBundle.text); if (shebang) { writeComment(shebang); writeLine(); return true; } } else { for (var _a = 0, _b = sourceFileOrBundle.prepends; _a < _b.length; _a++) { var prepend = _b[_a]; ts.Debug.assertNode(prepend, ts.isUnparsedSource); if (emitShebangIfNeeded(prepend)) { return true; } } for (var _c = 0, _d = sourceFileOrBundle.sourceFiles; _c < _d.length; _c++) { var sourceFile = _d[_c]; // Emit only the first encountered shebang if (emitShebangIfNeeded(sourceFile)) { return true; } } } } // // Helpers // function emitNodeWithWriter(node, writer) { if (!node) return; var savedWrite = write; write = writer; emit(node); write = savedWrite; } function emitModifiers(node, modifiers) { if (modifiers && modifiers.length) { emitList(node, modifiers, 262656 /* Modifiers */); writeSpace(); } } function emitTypeAnnotation(node) { if (node) { writePunctuation(":"); writeSpace(); emit(node); } } function emitInitializer(node, equalCommentStartPos, container) { if (node) { writeSpace(); emitTokenWithComment(62 /* EqualsToken */, equalCommentStartPos, writeOperator, container); writeSpace(); emitExpression(node); } } function emitNodeWithPrefix(prefix, prefixWriter, node, emit) { if (node) { prefixWriter(prefix); emit(node); } } function emitWithLeadingSpace(node) { if (node) { writeSpace(); emit(node); } } function emitExpressionWithLeadingSpace(node) { if (node) { writeSpace(); emitExpression(node); } } function emitWithTrailingSpace(node) { if (node) { emit(node); writeSpace(); } } function emitEmbeddedStatement(parent, node) { if (ts.isBlock(node) || ts.getEmitFlags(parent) & 1 /* SingleLine */) { writeSpace(); emit(node); } else { writeLine(); increaseIndent(); if (ts.isEmptyStatement(node)) { pipelineEmit(5 /* EmbeddedStatement */, node); } else { emit(node); } decreaseIndent(); } } function emitDecorators(parentNode, decorators) { emitList(parentNode, decorators, 2146305 /* Decorators */); } function emitTypeArguments(parentNode, typeArguments) { emitList(parentNode, typeArguments, 53776 /* TypeArguments */); } function emitTypeParameters(parentNode, typeParameters) { if (ts.isFunctionLike(parentNode) && parentNode.typeArguments) { // Quick info uses type arguments in place of type parameters on instantiated signatures return emitTypeArguments(parentNode, parentNode.typeArguments); } emitList(parentNode, typeParameters, 53776 /* TypeParameters */); } function emitParameters(parentNode, parameters) { emitList(parentNode, parameters, 2576 /* Parameters */); } function canEmitSimpleArrowHead(parentNode, parameters) { var parameter = ts.singleOrUndefined(parameters); return parameter && parameter.pos === parentNode.pos // may not have parsed tokens between parent and parameter && ts.isArrowFunction(parentNode) // only arrow functions may have simple arrow head && !parentNode.type // arrow function may not have return type annotation && !ts.some(parentNode.decorators) // parent may not have decorators && !ts.some(parentNode.modifiers) // parent may not have modifiers && !ts.some(parentNode.typeParameters) // parent may not have type parameters && !ts.some(parameter.decorators) // parameter may not have decorators && !ts.some(parameter.modifiers) // parameter may not have modifiers && !parameter.dotDotDotToken // parameter may not be rest && !parameter.questionToken // parameter may not be optional && !parameter.type // parameter may not have a type annotation && !parameter.initializer // parameter may not have an initializer && ts.isIdentifier(parameter.name); // parameter name must be identifier } function emitParametersForArrow(parentNode, parameters) { if (canEmitSimpleArrowHead(parentNode, parameters)) { emitList(parentNode, parameters, 2576 /* Parameters */ & ~2048 /* Parenthesis */); } else { emitParameters(parentNode, parameters); } } function emitParametersForIndexSignature(parentNode, parameters) { emitList(parentNode, parameters, 8848 /* IndexSignatureParameters */); } function emitList(parentNode, children, format, start, count) { emitNodeList(emit, parentNode, children, format, start, count); } function emitExpressionList(parentNode, children, format, start, count) { emitNodeList(emitExpression, parentNode, children, format, start, count); // TODO: GH#18217 } function writeDelimiter(format) { switch (format & 60 /* DelimitersMask */) { case 0 /* None */: break; case 16 /* CommaDelimited */: writePunctuation(","); break; case 4 /* BarDelimited */: writeSpace(); writePunctuation("|"); break; case 32 /* AsteriskDelimited */: writeSpace(); writePunctuation("*"); writeSpace(); break; case 8 /* AmpersandDelimited */: writeSpace(); writePunctuation("&"); break; } } function emitNodeList(emit, parentNode, children, format, start, count) { if (start === void 0) { start = 0; } if (count === void 0) { count = children ? children.length - start : 0; } var isUndefined = children === undefined; if (isUndefined && format & 16384 /* OptionalIfUndefined */) { return; } var isEmpty = children === undefined || start >= children.length || count === 0; if (isEmpty && format & 32768 /* OptionalIfEmpty */) { if (onBeforeEmitNodeArray) { onBeforeEmitNodeArray(children); } if (onAfterEmitNodeArray) { onAfterEmitNodeArray(children); } return; } if (format & 15360 /* BracketsMask */) { writePunctuation(getOpeningBracket(format)); if (isEmpty && !isUndefined) { // TODO: GH#18217 emitTrailingCommentsOfPosition(children.pos, /*prefixSpace*/ true); // Emit comments within empty bracketed lists } } if (onBeforeEmitNodeArray) { onBeforeEmitNodeArray(children); } if (isEmpty) { // Write a line terminator if the parent node was multi-line if (format & 1 /* MultiLine */ && !(preserveSourceNewlines && ts.rangeIsOnSingleLine(parentNode, currentSourceFile))) { writeLine(); } else if (format & 256 /* SpaceBetweenBraces */ && !(format & 524288 /* NoSpaceIfEmpty */)) { writeSpace(); } } else { // Write the opening line terminator or leading whitespace. var mayEmitInterveningComments = (format & 262144 /* NoInterveningComments */) === 0; var shouldEmitInterveningComments = mayEmitInterveningComments; var leadingLineTerminatorCount = getLeadingLineTerminatorCount(parentNode, children, format); // TODO: GH#18217 if (leadingLineTerminatorCount) { writeLine(leadingLineTerminatorCount); shouldEmitInterveningComments = false; } else if (format & 256 /* SpaceBetweenBraces */) { writeSpace(); } // Increase the indent, if requested. if (format & 128 /* Indented */) { increaseIndent(); } // Emit each child. var previousSibling = void 0; var previousSourceFileTextKind = void 0; var shouldDecreaseIndentAfterEmit = false; for (var i = 0; i < count; i++) { var child = children[start + i]; // Write the delimiter if this is not the first node. if (format & 32 /* AsteriskDelimited */) { // always write JSDoc in the format "\n *" writeLine(); writeDelimiter(format); } else if (previousSibling) { // i.e // function commentedParameters( // /* Parameter a */ // a // /* End of parameter a */ -> this comment isn't considered to be trailing comment of parameter "a" due to newline // , if (format & 60 /* DelimitersMask */ && previousSibling.end !== parentNode.end) { emitLeadingCommentsOfPosition(previousSibling.end); } writeDelimiter(format); recordBundleFileInternalSectionEnd(previousSourceFileTextKind); // Write either a line terminator or whitespace to separate the elements. var separatingLineTerminatorCount = getSeparatingLineTerminatorCount(previousSibling, child, format); if (separatingLineTerminatorCount > 0) { // If a synthesized node in a single-line list starts on a new // line, we should increase the indent. if ((format & (3 /* LinesMask */ | 128 /* Indented */)) === 0 /* SingleLine */) { increaseIndent(); shouldDecreaseIndentAfterEmit = true; } writeLine(separatingLineTerminatorCount); shouldEmitInterveningComments = false; } else if (previousSibling && format & 512 /* SpaceBetweenSiblings */) { writeSpace(); } } // Emit this child. previousSourceFileTextKind = recordBundleFileInternalSectionStart(child); if (shouldEmitInterveningComments) { if (emitTrailingCommentsOfPosition) { var commentRange = ts.getCommentRange(child); emitTrailingCommentsOfPosition(commentRange.pos); } } else { shouldEmitInterveningComments = mayEmitInterveningComments; } emit(child); if (shouldDecreaseIndentAfterEmit) { decreaseIndent(); shouldDecreaseIndentAfterEmit = false; } previousSibling = child; } // Write a trailing comma, if requested. var hasTrailingComma = (format & 64 /* AllowTrailingComma */) && children.hasTrailingComma; if (format & 16 /* CommaDelimited */ && hasTrailingComma) { writePunctuation(","); } // Emit any trailing comment of the last element in the list // i.e // var array = [... // 2 // /* end of element 2 */ // ]; if (previousSibling && format & 60 /* DelimitersMask */ && previousSibling.end !== parentNode.end && !(ts.getEmitFlags(previousSibling) & 1024 /* NoTrailingComments */)) { emitLeadingCommentsOfPosition(previousSibling.end); } // Decrease the indent, if requested. if (format & 128 /* Indented */) { decreaseIndent(); } recordBundleFileInternalSectionEnd(previousSourceFileTextKind); // Write the closing line terminator or closing whitespace. var closingLineTerminatorCount = getClosingLineTerminatorCount(parentNode, children, format); if (closingLineTerminatorCount) { writeLine(closingLineTerminatorCount); } else if (format & (2097152 /* SpaceAfterList */ | 256 /* SpaceBetweenBraces */)) { writeSpace(); } } if (onAfterEmitNodeArray) { onAfterEmitNodeArray(children); } if (format & 15360 /* BracketsMask */) { if (isEmpty && !isUndefined) { // TODO: GH#18217 emitLeadingCommentsOfPosition(children.end); // Emit leading comments within empty lists } writePunctuation(getClosingBracket(format)); } } // Writers function writeLiteral(s) { writer.writeLiteral(s); } function writeStringLiteral(s) { writer.writeStringLiteral(s); } function writeBase(s) { writer.write(s); } function writeSymbol(s, sym) { writer.writeSymbol(s, sym); } function writePunctuation(s) { writer.writePunctuation(s); } function writeTrailingSemicolon() { writer.writeTrailingSemicolon(";"); } function writeKeyword(s) { writer.writeKeyword(s); } function writeOperator(s) { writer.writeOperator(s); } function writeParameter(s) { writer.writeParameter(s); } function writeComment(s) { writer.writeComment(s); } function writeSpace() { writer.writeSpace(" "); } function writeProperty(s) { writer.writeProperty(s); } function writeLine(count) { if (count === void 0) { count = 1; } for (var i = 0; i < count; i++) { writer.writeLine(i > 0); } } function increaseIndent() { writer.increaseIndent(); } function decreaseIndent() { writer.decreaseIndent(); } function writeToken(token, pos, writer, contextNode) { return !sourceMapsDisabled ? emitTokenWithSourceMap(contextNode, token, writer, pos, writeTokenText) : writeTokenText(token, writer, pos); } function writeTokenNode(node, writer) { if (onBeforeEmitToken) { onBeforeEmitToken(node); } writer(ts.tokenToString(node.kind)); if (onAfterEmitToken) { onAfterEmitToken(node); } } function writeTokenText(token, writer, pos) { var tokenString = ts.tokenToString(token); writer(tokenString); return pos < 0 ? pos : pos + tokenString.length; } function writeLineOrSpace(node) { if (ts.getEmitFlags(node) & 1 /* SingleLine */) { writeSpace(); } else { writeLine(); } } function writeLines(text) { var lines = text.split(/\r\n?|\n/g); var indentation = ts.guessIndentation(lines); for (var _a = 0, lines_3 = lines; _a < lines_3.length; _a++) { var lineText = lines_3[_a]; var line = indentation ? lineText.slice(indentation) : lineText; if (line.length) { writeLine(); write(line); } } } function writeLinesAndIndent(lineCount, writeSpaceIfNotIndenting) { if (lineCount) { increaseIndent(); writeLine(lineCount); } else if (writeSpaceIfNotIndenting) { writeSpace(); } } // Helper function to decrease the indent if we previously indented. Allows multiple // previous indent values to be considered at a time. This also allows caller to just // call this once, passing in all their appropriate indent values, instead of needing // to call this helper function multiple times. function decreaseIndentIf(value1, value2) { if (value1) { decreaseIndent(); } if (value2) { decreaseIndent(); } } function getLeadingLineTerminatorCount(parentNode, children, format) { if (format & 2 /* PreserveLines */ || preserveSourceNewlines) { if (format & 65536 /* PreferNewLine */) { return 1; } var firstChild_1 = children[0]; if (firstChild_1 === undefined) { return ts.rangeIsOnSingleLine(parentNode, currentSourceFile) ? 0 : 1; } if (firstChild_1.kind === 11 /* JsxText */) { // JsxText will be written with its leading whitespace, so don't add more manually. return 0; } if (!ts.positionIsSynthesized(parentNode.pos) && !ts.nodeIsSynthesized(firstChild_1) && (!firstChild_1.parent || firstChild_1.parent === parentNode)) { if (preserveSourceNewlines) { return getEffectiveLines(function (includeComments) { return ts.getLinesBetweenPositionAndPrecedingNonWhitespaceCharacter(firstChild_1.pos, parentNode.pos, currentSourceFile, includeComments); }); } return ts.rangeStartPositionsAreOnSameLine(parentNode, firstChild_1, currentSourceFile) ? 0 : 1; } if (synthesizedNodeStartsOnNewLine(firstChild_1, format)) { return 1; } } return format & 1 /* MultiLine */ ? 1 : 0; } function getSeparatingLineTerminatorCount(previousNode, nextNode, format) { if (format & 2 /* PreserveLines */ || preserveSourceNewlines) { if (previousNode === undefined || nextNode === undefined) { return 0; } if (nextNode.kind === 11 /* JsxText */) { // JsxText will be written with its leading whitespace, so don't add more manually. return 0; } else if (!ts.nodeIsSynthesized(previousNode) && !ts.nodeIsSynthesized(nextNode) && previousNode.parent === nextNode.parent) { if (preserveSourceNewlines) { return getEffectiveLines(function (includeComments) { return ts.getLinesBetweenRangeEndAndRangeStart(previousNode, nextNode, currentSourceFile, includeComments); }); } return ts.rangeEndIsOnSameLineAsRangeStart(previousNode, nextNode, currentSourceFile) ? 0 : 1; } else if (synthesizedNodeStartsOnNewLine(previousNode, format) || synthesizedNodeStartsOnNewLine(nextNode, format)) { return 1; } } else if (ts.getStartsOnNewLine(nextNode)) { return 1; } return format & 1 /* MultiLine */ ? 1 : 0; } function getClosingLineTerminatorCount(parentNode, children, format) { if (format & 2 /* PreserveLines */ || preserveSourceNewlines) { if (format & 65536 /* PreferNewLine */) { return 1; } var lastChild_1 = ts.lastOrUndefined(children); if (lastChild_1 === undefined) { return ts.rangeIsOnSingleLine(parentNode, currentSourceFile) ? 0 : 1; } if (!ts.positionIsSynthesized(parentNode.pos) && !ts.nodeIsSynthesized(lastChild_1) && (!lastChild_1.parent || lastChild_1.parent === parentNode)) { if (preserveSourceNewlines) { return getEffectiveLines(function (includeComments) { return ts.getLinesBetweenPositionAndNextNonWhitespaceCharacter(lastChild_1.end, parentNode.end, currentSourceFile, includeComments); }); } return ts.rangeEndPositionsAreOnSameLine(parentNode, lastChild_1, currentSourceFile) ? 0 : 1; } if (synthesizedNodeStartsOnNewLine(lastChild_1, format)) { return 1; } } if (format & 1 /* MultiLine */ && !(format & 131072 /* NoTrailingNewLine */)) { return 1; } return 0; } function getEffectiveLines(getLineDifference) { // If 'preserveSourceNewlines' is disabled, we should never call this function // because it could be more expensive than alternative approximations. ts.Debug.assert(!!preserveSourceNewlines); // We start by measuring the line difference from a position to its adjacent comments, // so that this is counted as a one-line difference, not two: // // node1; // // NODE2 COMMENT // node2; var lines = getLineDifference(/*includeComments*/ true); if (lines === 0) { // However, if the line difference considering comments was 0, we might have this: // // node1; // NODE2 COMMENT // node2; // // in which case we should be ignoring node2's comment, so this too is counted as // a one-line difference, not zero. return getLineDifference(/*includeComments*/ false); } return lines; } function writeLineSeparatorsAndIndentBefore(node, parent) { var leadingNewlines = preserveSourceNewlines && getLeadingLineTerminatorCount(parent, [node], 0 /* None */); if (leadingNewlines) { writeLinesAndIndent(leadingNewlines, /*writeLinesIfNotIndenting*/ false); } return !!leadingNewlines; } function writeLineSeparatorsAfter(node, parent) { var trailingNewlines = preserveSourceNewlines && getClosingLineTerminatorCount(parent, [node], 0 /* None */); if (trailingNewlines) { writeLine(trailingNewlines); } } function synthesizedNodeStartsOnNewLine(node, format) { if (ts.nodeIsSynthesized(node)) { var startsOnNewLine = ts.getStartsOnNewLine(node); if (startsOnNewLine === undefined) { return (format & 65536 /* PreferNewLine */) !== 0; } return startsOnNewLine; } return (format & 65536 /* PreferNewLine */) !== 0; } function getLinesBetweenNodes(parent, node1, node2) { if (ts.getEmitFlags(parent) & 131072 /* NoIndentation */) { return 0; } parent = skipSynthesizedParentheses(parent); node1 = skipSynthesizedParentheses(node1); node2 = skipSynthesizedParentheses(node2); // Always use a newline for synthesized code if the synthesizer desires it. if (ts.getStartsOnNewLine(node2)) { return 1; } if (!ts.nodeIsSynthesized(parent) && !ts.nodeIsSynthesized(node1) && !ts.nodeIsSynthesized(node2)) { if (preserveSourceNewlines) { return getEffectiveLines(function (includeComments) { return ts.getLinesBetweenRangeEndAndRangeStart(node1, node2, currentSourceFile, includeComments); }); } return ts.rangeEndIsOnSameLineAsRangeStart(node1, node2, currentSourceFile) ? 0 : 1; } return 0; } function isEmptyBlock(block) { return block.statements.length === 0 && ts.rangeEndIsOnSameLineAsRangeStart(block, block, currentSourceFile); } function skipSynthesizedParentheses(node) { while (node.kind === 200 /* ParenthesizedExpression */ && ts.nodeIsSynthesized(node)) { node = node.expression; } return node; } function getTextOfNode(node, includeTrivia) { if (ts.isGeneratedIdentifier(node)) { return generateName(node); } else if ((ts.isIdentifier(node) || ts.isPrivateIdentifier(node)) && (ts.nodeIsSynthesized(node) || !node.parent || !currentSourceFile || (node.parent && currentSourceFile && ts.getSourceFileOfNode(node) !== ts.getOriginalNode(currentSourceFile)))) { return ts.idText(node); } else if (node.kind === 10 /* StringLiteral */ && node.textSourceNode) { return getTextOfNode(node.textSourceNode, includeTrivia); } else if (ts.isLiteralExpression(node) && (ts.nodeIsSynthesized(node) || !node.parent)) { return node.text; } return ts.getSourceTextOfNodeFromSourceFile(currentSourceFile, node, includeTrivia); } function getLiteralTextOfNode(node, neverAsciiEscape, jsxAttributeEscape) { if (node.kind === 10 /* StringLiteral */ && node.textSourceNode) { var textSourceNode = node.textSourceNode; if (ts.isIdentifier(textSourceNode)) { return jsxAttributeEscape ? "\"" + ts.escapeJsxAttributeString(getTextOfNode(textSourceNode)) + "\"" : neverAsciiEscape || (ts.getEmitFlags(node) & 16777216 /* NoAsciiEscaping */) ? "\"" + ts.escapeString(getTextOfNode(textSourceNode)) + "\"" : "\"" + ts.escapeNonAsciiString(getTextOfNode(textSourceNode)) + "\""; } else { return getLiteralTextOfNode(textSourceNode, neverAsciiEscape, jsxAttributeEscape); } } return ts.getLiteralText(node, currentSourceFile, neverAsciiEscape, jsxAttributeEscape); } /** * Push a new name generation scope. */ function pushNameGenerationScope(node) { if (node && ts.getEmitFlags(node) & 524288 /* ReuseTempVariableScope */) { return; } tempFlagsStack.push(tempFlags); tempFlags = 0; reservedNamesStack.push(reservedNames); } /** * Pop the current name generation scope. */ function popNameGenerationScope(node) { if (node && ts.getEmitFlags(node) & 524288 /* ReuseTempVariableScope */) { return; } tempFlags = tempFlagsStack.pop(); reservedNames = reservedNamesStack.pop(); } function reserveNameInNestedScopes(name) { if (!reservedNames || reservedNames === ts.lastOrUndefined(reservedNamesStack)) { reservedNames = ts.createMap(); } reservedNames.set(name, true); } function generateNames(node) { if (!node) return; switch (node.kind) { case 223 /* Block */: ts.forEach(node.statements, generateNames); break; case 238 /* LabeledStatement */: case 236 /* WithStatement */: case 228 /* DoStatement */: case 229 /* WhileStatement */: generateNames(node.statement); break; case 227 /* IfStatement */: generateNames(node.thenStatement); generateNames(node.elseStatement); break; case 230 /* ForStatement */: case 232 /* ForOfStatement */: case 231 /* ForInStatement */: generateNames(node.initializer); generateNames(node.statement); break; case 237 /* SwitchStatement */: generateNames(node.caseBlock); break; case 251 /* CaseBlock */: ts.forEach(node.clauses, generateNames); break; case 277 /* CaseClause */: case 278 /* DefaultClause */: ts.forEach(node.statements, generateNames); break; case 240 /* TryStatement */: generateNames(node.tryBlock); generateNames(node.catchClause); generateNames(node.finallyBlock); break; case 280 /* CatchClause */: generateNames(node.variableDeclaration); generateNames(node.block); break; case 225 /* VariableStatement */: generateNames(node.declarationList); break; case 243 /* VariableDeclarationList */: ts.forEach(node.declarations, generateNames); break; case 242 /* VariableDeclaration */: case 156 /* Parameter */: case 191 /* BindingElement */: case 245 /* ClassDeclaration */: generateNameIfNeeded(node.name); break; case 244 /* FunctionDeclaration */: generateNameIfNeeded(node.name); if (ts.getEmitFlags(node) & 524288 /* ReuseTempVariableScope */) { ts.forEach(node.parameters, generateNames); generateNames(node.body); } break; case 189 /* ObjectBindingPattern */: case 190 /* ArrayBindingPattern */: ts.forEach(node.elements, generateNames); break; case 254 /* ImportDeclaration */: generateNames(node.importClause); break; case 255 /* ImportClause */: generateNameIfNeeded(node.name); generateNames(node.namedBindings); break; case 256 /* NamespaceImport */: generateNameIfNeeded(node.name); break; case 262 /* NamespaceExport */: generateNameIfNeeded(node.name); break; case 257 /* NamedImports */: ts.forEach(node.elements, generateNames); break; case 258 /* ImportSpecifier */: generateNameIfNeeded(node.propertyName || node.name); break; } } function generateMemberNames(node) { if (!node) return; switch (node.kind) { case 281 /* PropertyAssignment */: case 282 /* ShorthandPropertyAssignment */: case 159 /* PropertyDeclaration */: case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: generateNameIfNeeded(node.name); break; } } function generateNameIfNeeded(name) { if (name) { if (ts.isGeneratedIdentifier(name)) { generateName(name); } else if (ts.isBindingPattern(name)) { generateNames(name); } } } /** * Generate the text for a generated identifier. */ function generateName(name) { if ((name.autoGenerateFlags & 7 /* KindMask */) === 4 /* Node */) { // Node names generate unique names based on their original node // and are cached based on that node's id. return generateNameCached(getNodeForGeneratedName(name), name.autoGenerateFlags); } else { // Auto, Loop, and Unique names are cached based on their unique // autoGenerateId. var autoGenerateId = name.autoGenerateId; return autoGeneratedIdToGeneratedName[autoGenerateId] || (autoGeneratedIdToGeneratedName[autoGenerateId] = makeName(name)); } } function generateNameCached(node, flags) { var nodeId = ts.getNodeId(node); return nodeIdToGeneratedName[nodeId] || (nodeIdToGeneratedName[nodeId] = generateNameForNode(node, flags)); } /** * Returns a value indicating whether a name is unique globally, within the current file, * or within the NameGenerator. */ function isUniqueName(name) { return isFileLevelUniqueName(name) && !generatedNames.has(name) && !(reservedNames && reservedNames.has(name)); } /** * Returns a value indicating whether a name is unique globally or within the current file. */ function isFileLevelUniqueName(name) { return currentSourceFile ? ts.isFileLevelUniqueName(currentSourceFile, name, hasGlobalName) : true; } /** * Returns a value indicating whether a name is unique within a container. */ function isUniqueLocalName(name, container) { for (var node = container; ts.isNodeDescendantOf(node, container); node = node.nextContainer) { if (node.locals) { var local = node.locals.get(ts.escapeLeadingUnderscores(name)); // We conservatively include alias symbols to cover cases where they're emitted as locals if (local && local.flags & (111551 /* Value */ | 1048576 /* ExportValue */ | 2097152 /* Alias */)) { return false; } } } return true; } /** * Return the next available name in the pattern _a ... _z, _0, _1, ... * TempFlags._i or TempFlags._n may be used to express a preference for that dedicated name. * Note that names generated by makeTempVariableName and makeUniqueName will never conflict. */ function makeTempVariableName(flags, reservedInNestedScopes) { if (flags && !(tempFlags & flags)) { var name = flags === 268435456 /* _i */ ? "_i" : "_n"; if (isUniqueName(name)) { tempFlags |= flags; if (reservedInNestedScopes) { reserveNameInNestedScopes(name); } return name; } } while (true) { var count = tempFlags & 268435455 /* CountMask */; tempFlags++; // Skip over 'i' and 'n' if (count !== 8 && count !== 13) { var name = count < 26 ? "_" + String.fromCharCode(97 /* a */ + count) : "_" + (count - 26); if (isUniqueName(name)) { if (reservedInNestedScopes) { reserveNameInNestedScopes(name); } return name; } } } } /** * Generate a name that is unique within the current file and doesn't conflict with any names * in global scope. The name is formed by adding an '_n' suffix to the specified base name, * where n is a positive integer. Note that names generated by makeTempVariableName and * makeUniqueName are guaranteed to never conflict. * If `optimistic` is set, the first instance will use 'baseName' verbatim instead of 'baseName_1' */ function makeUniqueName(baseName, checkFn, optimistic, scoped) { if (checkFn === void 0) { checkFn = isUniqueName; } if (optimistic) { if (checkFn(baseName)) { if (scoped) { reserveNameInNestedScopes(baseName); } else { generatedNames.set(baseName, true); } return baseName; } } // Find the first unique 'name_n', where n is a positive number if (baseName.charCodeAt(baseName.length - 1) !== 95 /* _ */) { baseName += "_"; } var i = 1; while (true) { var generatedName = baseName + i; if (checkFn(generatedName)) { if (scoped) { reserveNameInNestedScopes(generatedName); } else { generatedNames.set(generatedName, true); } return generatedName; } i++; } } function makeFileLevelOptimisticUniqueName(name) { return makeUniqueName(name, isFileLevelUniqueName, /*optimistic*/ true); } /** * Generates a unique name for a ModuleDeclaration or EnumDeclaration. */ function generateNameForModuleOrEnum(node) { var name = getTextOfNode(node.name); // Use module/enum name itself if it is unique, otherwise make a unique variation return isUniqueLocalName(name, node) ? name : makeUniqueName(name); } /** * Generates a unique name for an ImportDeclaration or ExportDeclaration. */ function generateNameForImportOrExportDeclaration(node) { var expr = ts.getExternalModuleName(node); // TODO: GH#18217 var baseName = ts.isStringLiteral(expr) ? ts.makeIdentifierFromModuleName(expr.text) : "module"; return makeUniqueName(baseName); } /** * Generates a unique name for a default export. */ function generateNameForExportDefault() { return makeUniqueName("default"); } /** * Generates a unique name for a class expression. */ function generateNameForClassExpression() { return makeUniqueName("class"); } function generateNameForMethodOrAccessor(node) { if (ts.isIdentifier(node.name)) { return generateNameCached(node.name); } return makeTempVariableName(0 /* Auto */); } /** * Generates a unique name from a node. */ function generateNameForNode(node, flags) { switch (node.kind) { case 75 /* Identifier */: return makeUniqueName(getTextOfNode(node), isUniqueName, !!(flags & 16 /* Optimistic */), !!(flags & 8 /* ReservedInNestedScopes */)); case 249 /* ModuleDeclaration */: case 248 /* EnumDeclaration */: return generateNameForModuleOrEnum(node); case 254 /* ImportDeclaration */: case 260 /* ExportDeclaration */: return generateNameForImportOrExportDeclaration(node); case 244 /* FunctionDeclaration */: case 245 /* ClassDeclaration */: case 259 /* ExportAssignment */: return generateNameForExportDefault(); case 214 /* ClassExpression */: return generateNameForClassExpression(); case 161 /* MethodDeclaration */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: return generateNameForMethodOrAccessor(node); case 154 /* ComputedPropertyName */: return makeTempVariableName(0 /* Auto */, /*reserveInNestedScopes*/ true); default: return makeTempVariableName(0 /* Auto */); } } /** * Generates a unique identifier for a node. */ function makeName(name) { switch (name.autoGenerateFlags & 7 /* KindMask */) { case 1 /* Auto */: return makeTempVariableName(0 /* Auto */, !!(name.autoGenerateFlags & 8 /* ReservedInNestedScopes */)); case 2 /* Loop */: return makeTempVariableName(268435456 /* _i */, !!(name.autoGenerateFlags & 8 /* ReservedInNestedScopes */)); case 3 /* Unique */: return makeUniqueName(ts.idText(name), (name.autoGenerateFlags & 32 /* FileLevel */) ? isFileLevelUniqueName : isUniqueName, !!(name.autoGenerateFlags & 16 /* Optimistic */), !!(name.autoGenerateFlags & 8 /* ReservedInNestedScopes */)); } return ts.Debug.fail("Unsupported GeneratedIdentifierKind."); } /** * Gets the node from which a name should be generated. */ function getNodeForGeneratedName(name) { var autoGenerateId = name.autoGenerateId; var node = name; var original = node.original; while (original) { node = original; // if "node" is a different generated name (having a different // "autoGenerateId"), use it and stop traversing. if (ts.isIdentifier(node) && !!(node.autoGenerateFlags & 4 /* Node */) && node.autoGenerateId !== autoGenerateId) { break; } original = node.original; } // otherwise, return the original node for the source; return node; } // Comments function pipelineEmitWithComments(hint, node) { ts.Debug.assert(lastNode === node || lastSubstitution === node); enterComment(); hasWrittenComment = false; var emitFlags = ts.getEmitFlags(node); var _a = ts.getCommentRange(node), pos = _a.pos, end = _a.end; var isEmittedNode = node.kind !== 325 /* NotEmittedStatement */; // We have to explicitly check that the node is JsxText because if the compilerOptions.jsx is "preserve" we will not do any transformation. // It is expensive to walk entire tree just to set one kind of node to have no comments. var skipLeadingComments = pos < 0 || (emitFlags & 512 /* NoLeadingComments */) !== 0 || node.kind === 11 /* JsxText */; var skipTrailingComments = end < 0 || (emitFlags & 1024 /* NoTrailingComments */) !== 0 || node.kind === 11 /* JsxText */; // Save current container state on the stack. var savedContainerPos = containerPos; var savedContainerEnd = containerEnd; var savedDeclarationListContainerEnd = declarationListContainerEnd; if ((pos > 0 || end > 0) && pos !== end) { // Emit leading comments if the position is not synthesized and the node // has not opted out from emitting leading comments. if (!skipLeadingComments) { emitLeadingComments(pos, isEmittedNode); } if (!skipLeadingComments || (pos >= 0 && (emitFlags & 512 /* NoLeadingComments */) !== 0)) { // Advance the container position if comments get emitted or if they've been disabled explicitly using NoLeadingComments. containerPos = pos; } if (!skipTrailingComments || (end >= 0 && (emitFlags & 1024 /* NoTrailingComments */) !== 0)) { // As above. containerEnd = end; // To avoid invalid comment emit in a down-level binding pattern, we // keep track of the last declaration list container's end if (node.kind === 243 /* VariableDeclarationList */) { declarationListContainerEnd = end; } } } ts.forEach(ts.getSyntheticLeadingComments(node), emitLeadingSynthesizedComment); exitComment(); var pipelinePhase = getNextPipelinePhase(2 /* Comments */, hint, node); if (emitFlags & 2048 /* NoNestedComments */) { commentsDisabled = true; pipelinePhase(hint, node); commentsDisabled = false; } else { pipelinePhase(hint, node); } enterComment(); ts.forEach(ts.getSyntheticTrailingComments(node), emitTrailingSynthesizedComment); if ((pos > 0 || end > 0) && pos !== end) { // Restore previous container state. containerPos = savedContainerPos; containerEnd = savedContainerEnd; declarationListContainerEnd = savedDeclarationListContainerEnd; // Emit trailing comments if the position is not synthesized and the node // has not opted out from emitting leading comments and is an emitted node. if (!skipTrailingComments && isEmittedNode) { emitTrailingComments(end); } } exitComment(); ts.Debug.assert(lastNode === node || lastSubstitution === node); } function emitLeadingSynthesizedComment(comment) { if (comment.kind === 2 /* SingleLineCommentTrivia */) { writer.writeLine(); } writeSynthesizedComment(comment); if (comment.hasTrailingNewLine || comment.kind === 2 /* SingleLineCommentTrivia */) { writer.writeLine(); } else { writer.writeSpace(" "); } } function emitTrailingSynthesizedComment(comment) { if (!writer.isAtStartOfLine()) { writer.writeSpace(" "); } writeSynthesizedComment(comment); if (comment.hasTrailingNewLine) { writer.writeLine(); } } function writeSynthesizedComment(comment) { var text = formatSynthesizedComment(comment); var lineMap = comment.kind === 3 /* MultiLineCommentTrivia */ ? ts.computeLineStarts(text) : undefined; ts.writeCommentRange(text, lineMap, writer, 0, text.length, newLine); } function formatSynthesizedComment(comment) { return comment.kind === 3 /* MultiLineCommentTrivia */ ? "/*" + comment.text + "*/" : "//" + comment.text; } function emitBodyWithDetachedComments(node, detachedRange, emitCallback) { enterComment(); var pos = detachedRange.pos, end = detachedRange.end; var emitFlags = ts.getEmitFlags(node); var skipLeadingComments = pos < 0 || (emitFlags & 512 /* NoLeadingComments */) !== 0; var skipTrailingComments = commentsDisabled || end < 0 || (emitFlags & 1024 /* NoTrailingComments */) !== 0; if (!skipLeadingComments) { emitDetachedCommentsAndUpdateCommentsInfo(detachedRange); } exitComment(); if (emitFlags & 2048 /* NoNestedComments */ && !commentsDisabled) { commentsDisabled = true; emitCallback(node); commentsDisabled = false; } else { emitCallback(node); } enterComment(); if (!skipTrailingComments) { emitLeadingComments(detachedRange.end, /*isEmittedNode*/ true); if (hasWrittenComment && !writer.isAtStartOfLine()) { writer.writeLine(); } } exitComment(); } function emitLeadingComments(pos, isEmittedNode) { hasWrittenComment = false; if (isEmittedNode) { forEachLeadingCommentToEmit(pos, emitLeadingComment); } else if (pos === 0) { // If the node will not be emitted in JS, remove all the comments(normal, pinned and ///) associated with the node, // unless it is a triple slash comment at the top of the file. // For Example: // /// // declare var x; // /// // interface F {} // The first /// will NOT be removed while the second one will be removed even though both node will not be emitted forEachLeadingCommentToEmit(pos, emitTripleSlashLeadingComment); } } function emitTripleSlashLeadingComment(commentPos, commentEnd, kind, hasTrailingNewLine, rangePos) { if (isTripleSlashComment(commentPos, commentEnd)) { emitLeadingComment(commentPos, commentEnd, kind, hasTrailingNewLine, rangePos); } } function shouldWriteComment(text, pos) { if (printerOptions.onlyPrintJsDocStyle) { return (ts.isJSDocLikeText(text, pos) || ts.isPinnedComment(text, pos)); } return true; } function emitLeadingComment(commentPos, commentEnd, kind, hasTrailingNewLine, rangePos) { if (!shouldWriteComment(currentSourceFile.text, commentPos)) return; if (!hasWrittenComment) { ts.emitNewLineBeforeLeadingCommentOfPosition(getCurrentLineMap(), writer, rangePos, commentPos); hasWrittenComment = true; } // Leading comments are emitted at /*leading comment1 */space/*leading comment*/space emitPos(commentPos); ts.writeCommentRange(currentSourceFile.text, getCurrentLineMap(), writer, commentPos, commentEnd, newLine); emitPos(commentEnd); if (hasTrailingNewLine) { writer.writeLine(); } else if (kind === 3 /* MultiLineCommentTrivia */) { writer.writeSpace(" "); } } function emitLeadingCommentsOfPosition(pos) { if (commentsDisabled || pos === -1) { return; } emitLeadingComments(pos, /*isEmittedNode*/ true); } function emitTrailingComments(pos) { forEachTrailingCommentToEmit(pos, emitTrailingComment); } function emitTrailingComment(commentPos, commentEnd, _kind, hasTrailingNewLine) { if (!shouldWriteComment(currentSourceFile.text, commentPos)) return; // trailing comments are emitted at space/*trailing comment1 */space/*trailing comment2*/ if (!writer.isAtStartOfLine()) { writer.writeSpace(" "); } emitPos(commentPos); ts.writeCommentRange(currentSourceFile.text, getCurrentLineMap(), writer, commentPos, commentEnd, newLine); emitPos(commentEnd); if (hasTrailingNewLine) { writer.writeLine(); } } function emitTrailingCommentsOfPosition(pos, prefixSpace) { if (commentsDisabled) { return; } enterComment(); forEachTrailingCommentToEmit(pos, prefixSpace ? emitTrailingComment : emitTrailingCommentOfPosition); exitComment(); } function emitTrailingCommentOfPosition(commentPos, commentEnd, _kind, hasTrailingNewLine) { // trailing comments of a position are emitted at /*trailing comment1 */space/*trailing comment*/space emitPos(commentPos); ts.writeCommentRange(currentSourceFile.text, getCurrentLineMap(), writer, commentPos, commentEnd, newLine); emitPos(commentEnd); if (hasTrailingNewLine) { writer.writeLine(); } else { writer.writeSpace(" "); } } function forEachLeadingCommentToEmit(pos, cb) { // Emit the leading comments only if the container's pos doesn't match because the container should take care of emitting these comments if (currentSourceFile && (containerPos === -1 || pos !== containerPos)) { if (hasDetachedComments(pos)) { forEachLeadingCommentWithoutDetachedComments(cb); } else { ts.forEachLeadingCommentRange(currentSourceFile.text, pos, cb, /*state*/ pos); } } } function forEachTrailingCommentToEmit(end, cb) { // Emit the trailing comments only if the container's end doesn't match because the container should take care of emitting these comments if (currentSourceFile && (containerEnd === -1 || (end !== containerEnd && end !== declarationListContainerEnd))) { ts.forEachTrailingCommentRange(currentSourceFile.text, end, cb); } } function hasDetachedComments(pos) { return detachedCommentsInfo !== undefined && ts.last(detachedCommentsInfo).nodePos === pos; } function forEachLeadingCommentWithoutDetachedComments(cb) { // get the leading comments from detachedPos var pos = ts.last(detachedCommentsInfo).detachedCommentEndPos; if (detachedCommentsInfo.length - 1) { detachedCommentsInfo.pop(); } else { detachedCommentsInfo = undefined; } ts.forEachLeadingCommentRange(currentSourceFile.text, pos, cb, /*state*/ pos); } function emitDetachedCommentsAndUpdateCommentsInfo(range) { var currentDetachedCommentInfo = ts.emitDetachedComments(currentSourceFile.text, getCurrentLineMap(), writer, emitComment, range, newLine, commentsDisabled); if (currentDetachedCommentInfo) { if (detachedCommentsInfo) { detachedCommentsInfo.push(currentDetachedCommentInfo); } else { detachedCommentsInfo = [currentDetachedCommentInfo]; } } } function emitComment(text, lineMap, writer, commentPos, commentEnd, newLine) { if (!shouldWriteComment(currentSourceFile.text, commentPos)) return; emitPos(commentPos); ts.writeCommentRange(text, lineMap, writer, commentPos, commentEnd, newLine); emitPos(commentEnd); } /** * Determine if the given comment is a triple-slash * * @return true if the comment is a triple-slash comment else false */ function isTripleSlashComment(commentPos, commentEnd) { return ts.isRecognizedTripleSlashComment(currentSourceFile.text, commentPos, commentEnd); } // Source Maps function getParsedSourceMap(node) { if (node.parsedSourceMap === undefined && node.sourceMapText !== undefined) { node.parsedSourceMap = ts.tryParseRawSourceMap(node.sourceMapText) || false; } return node.parsedSourceMap || undefined; } function pipelineEmitWithSourceMap(hint, node) { ts.Debug.assert(lastNode === node || lastSubstitution === node); var pipelinePhase = getNextPipelinePhase(3 /* SourceMaps */, hint, node); if (ts.isUnparsedSource(node) || ts.isUnparsedPrepend(node)) { pipelinePhase(hint, node); } else if (ts.isUnparsedNode(node)) { var parsed = getParsedSourceMap(node.parent); if (parsed && sourceMapGenerator) { sourceMapGenerator.appendSourceMap(writer.getLine(), writer.getColumn(), parsed, node.parent.sourceMapPath, node.parent.getLineAndCharacterOfPosition(node.pos), node.parent.getLineAndCharacterOfPosition(node.end)); } pipelinePhase(hint, node); } else { var _a = ts.getSourceMapRange(node), pos = _a.pos, end = _a.end, _b = _a.source, source = _b === void 0 ? sourceMapSource : _b; var emitFlags = ts.getEmitFlags(node); if (node.kind !== 325 /* NotEmittedStatement */ && (emitFlags & 16 /* NoLeadingSourceMap */) === 0 && pos >= 0) { emitSourcePos(source, skipSourceTrivia(source, pos)); } if (emitFlags & 64 /* NoNestedSourceMaps */) { sourceMapsDisabled = true; pipelinePhase(hint, node); sourceMapsDisabled = false; } else { pipelinePhase(hint, node); } if (node.kind !== 325 /* NotEmittedStatement */ && (emitFlags & 32 /* NoTrailingSourceMap */) === 0 && end >= 0) { emitSourcePos(source, end); } } ts.Debug.assert(lastNode === node || lastSubstitution === node); } /** * Skips trivia such as comments and white-space that can be optionally overridden by the source-map source */ function skipSourceTrivia(source, pos) { return source.skipTrivia ? source.skipTrivia(pos) : ts.skipTrivia(source.text, pos); } /** * Emits a mapping. * * If the position is synthetic (undefined or a negative value), no mapping will be * created. * * @param pos The position. */ function emitPos(pos) { if (sourceMapsDisabled || ts.positionIsSynthesized(pos) || isJsonSourceMapSource(sourceMapSource)) { return; } var _a = ts.getLineAndCharacterOfPosition(sourceMapSource, pos), sourceLine = _a.line, sourceCharacter = _a.character; sourceMapGenerator.addMapping(writer.getLine(), writer.getColumn(), sourceMapSourceIndex, sourceLine, sourceCharacter, /*nameIndex*/ undefined); } function emitSourcePos(source, pos) { if (source !== sourceMapSource) { var savedSourceMapSource = sourceMapSource; setSourceMapSource(source); emitPos(pos); setSourceMapSource(savedSourceMapSource); } else { emitPos(pos); } } /** * Emits a token of a node with possible leading and trailing source maps. * * @param node The node containing the token. * @param token The token to emit. * @param tokenStartPos The start pos of the token. * @param emitCallback The callback used to emit the token. */ function emitTokenWithSourceMap(node, token, writer, tokenPos, emitCallback) { if (sourceMapsDisabled || node && ts.isInJsonFile(node)) { return emitCallback(token, writer, tokenPos); } var emitNode = node && node.emitNode; var emitFlags = emitNode && emitNode.flags || 0 /* None */; var range = emitNode && emitNode.tokenSourceMapRanges && emitNode.tokenSourceMapRanges[token]; var source = range && range.source || sourceMapSource; tokenPos = skipSourceTrivia(source, range ? range.pos : tokenPos); if ((emitFlags & 128 /* NoTokenLeadingSourceMaps */) === 0 && tokenPos >= 0) { emitSourcePos(source, tokenPos); } tokenPos = emitCallback(token, writer, tokenPos); if (range) tokenPos = range.end; if ((emitFlags & 256 /* NoTokenTrailingSourceMaps */) === 0 && tokenPos >= 0) { emitSourcePos(source, tokenPos); } return tokenPos; } function setSourceMapSource(source) { if (sourceMapsDisabled) { return; } sourceMapSource = source; if (isJsonSourceMapSource(source)) { return; } sourceMapSourceIndex = sourceMapGenerator.addSource(source.fileName); if (printerOptions.inlineSources) { sourceMapGenerator.setSourceContent(sourceMapSourceIndex, source.text); } } function isJsonSourceMapSource(sourceFile) { return ts.fileExtensionIs(sourceFile.fileName, ".json" /* Json */); } } ts.createPrinter = createPrinter; function createBracketsMap() { var brackets = []; brackets[1024 /* Braces */] = ["{", "}"]; brackets[2048 /* Parenthesis */] = ["(", ")"]; brackets[4096 /* AngleBrackets */] = ["<", ">"]; brackets[8192 /* SquareBrackets */] = ["[", "]"]; return brackets; } function getOpeningBracket(format) { return brackets[format & 15360 /* BracketsMask */][0]; } function getClosingBracket(format) { return brackets[format & 15360 /* BracketsMask */][1]; } // Flags enum to track count of temp variables and a few dedicated names var TempFlags; (function (TempFlags) { TempFlags[TempFlags["Auto"] = 0] = "Auto"; TempFlags[TempFlags["CountMask"] = 268435455] = "CountMask"; TempFlags[TempFlags["_i"] = 268435456] = "_i"; })(TempFlags || (TempFlags = {})); })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { function createCachedDirectoryStructureHost(host, currentDirectory, useCaseSensitiveFileNames) { if (!host.getDirectories || !host.readDirectory) { return undefined; } var cachedReadDirectoryResult = ts.createMap(); var getCanonicalFileName = ts.createGetCanonicalFileName(useCaseSensitiveFileNames); return { useCaseSensitiveFileNames: useCaseSensitiveFileNames, fileExists: fileExists, readFile: function (path, encoding) { return host.readFile(path, encoding); }, directoryExists: host.directoryExists && directoryExists, getDirectories: getDirectories, readDirectory: readDirectory, createDirectory: host.createDirectory && createDirectory, writeFile: host.writeFile && writeFile, addOrDeleteFileOrDirectory: addOrDeleteFileOrDirectory, addOrDeleteFile: addOrDeleteFile, clearCache: clearCache, realpath: host.realpath && realpath }; function toPath(fileName) { return ts.toPath(fileName, currentDirectory, getCanonicalFileName); } function getCachedFileSystemEntries(rootDirPath) { return cachedReadDirectoryResult.get(ts.ensureTrailingDirectorySeparator(rootDirPath)); } function getCachedFileSystemEntriesForBaseDir(path) { return getCachedFileSystemEntries(ts.getDirectoryPath(path)); } function getBaseNameOfFileName(fileName) { return ts.getBaseFileName(ts.normalizePath(fileName)); } function createCachedFileSystemEntries(rootDir, rootDirPath) { var resultFromHost = { files: ts.map(host.readDirectory(rootDir, /*extensions*/ undefined, /*exclude*/ undefined, /*include*/ ["*.*"]), getBaseNameOfFileName) || [], directories: host.getDirectories(rootDir) || [] }; cachedReadDirectoryResult.set(ts.ensureTrailingDirectorySeparator(rootDirPath), resultFromHost); return resultFromHost; } /** * If the readDirectory result was already cached, it returns that * Otherwise gets result from host and caches it. * The host request is done under try catch block to avoid caching incorrect result */ function tryReadDirectory(rootDir, rootDirPath) { rootDirPath = ts.ensureTrailingDirectorySeparator(rootDirPath); var cachedResult = getCachedFileSystemEntries(rootDirPath); if (cachedResult) { return cachedResult; } try { return createCachedFileSystemEntries(rootDir, rootDirPath); } catch (_e) { // If there is exception to read directories, dont cache the result and direct the calls to host ts.Debug.assert(!cachedReadDirectoryResult.has(ts.ensureTrailingDirectorySeparator(rootDirPath))); return undefined; } } function fileNameEqual(name1, name2) { return getCanonicalFileName(name1) === getCanonicalFileName(name2); } function hasEntry(entries, name) { return ts.some(entries, function (file) { return fileNameEqual(file, name); }); } function updateFileSystemEntry(entries, baseName, isValid) { if (hasEntry(entries, baseName)) { if (!isValid) { return ts.filterMutate(entries, function (entry) { return !fileNameEqual(entry, baseName); }); } } else if (isValid) { return entries.push(baseName); } } function writeFile(fileName, data, writeByteOrderMark) { var path = toPath(fileName); var result = getCachedFileSystemEntriesForBaseDir(path); if (result) { updateFilesOfFileSystemEntry(result, getBaseNameOfFileName(fileName), /*fileExists*/ true); } return host.writeFile(fileName, data, writeByteOrderMark); } function fileExists(fileName) { var path = toPath(fileName); var result = getCachedFileSystemEntriesForBaseDir(path); return result && hasEntry(result.files, getBaseNameOfFileName(fileName)) || host.fileExists(fileName); } function directoryExists(dirPath) { var path = toPath(dirPath); return cachedReadDirectoryResult.has(ts.ensureTrailingDirectorySeparator(path)) || host.directoryExists(dirPath); } function createDirectory(dirPath) { var path = toPath(dirPath); var result = getCachedFileSystemEntriesForBaseDir(path); var baseFileName = getBaseNameOfFileName(dirPath); if (result) { updateFileSystemEntry(result.directories, baseFileName, /*isValid*/ true); } host.createDirectory(dirPath); } function getDirectories(rootDir) { var rootDirPath = toPath(rootDir); var result = tryReadDirectory(rootDir, rootDirPath); if (result) { return result.directories.slice(); } return host.getDirectories(rootDir); } function readDirectory(rootDir, extensions, excludes, includes, depth) { var rootDirPath = toPath(rootDir); var result = tryReadDirectory(rootDir, rootDirPath); if (result) { return ts.matchFiles(rootDir, extensions, excludes, includes, useCaseSensitiveFileNames, currentDirectory, depth, getFileSystemEntries, realpath); } return host.readDirectory(rootDir, extensions, excludes, includes, depth); function getFileSystemEntries(dir) { var path = toPath(dir); if (path === rootDirPath) { return result; } return tryReadDirectory(dir, path) || ts.emptyFileSystemEntries; } } function realpath(s) { return host.realpath ? host.realpath(s) : s; } function addOrDeleteFileOrDirectory(fileOrDirectory, fileOrDirectoryPath) { var existingResult = getCachedFileSystemEntries(fileOrDirectoryPath); if (existingResult) { // Just clear the cache for now // For now just clear the cache, since this could mean that multiple level entries might need to be re-evaluated clearCache(); return undefined; } var parentResult = getCachedFileSystemEntriesForBaseDir(fileOrDirectoryPath); if (!parentResult) { return undefined; } // This was earlier a file (hence not in cached directory contents) // or we never cached the directory containing it if (!host.directoryExists) { // Since host doesnt support directory exists, clear the cache as otherwise it might not be same clearCache(); return undefined; } var baseName = getBaseNameOfFileName(fileOrDirectory); var fsQueryResult = { fileExists: host.fileExists(fileOrDirectoryPath), directoryExists: host.directoryExists(fileOrDirectoryPath) }; if (fsQueryResult.directoryExists || hasEntry(parentResult.directories, baseName)) { // Folder added or removed, clear the cache instead of updating the folder and its structure clearCache(); } else { // No need to update the directory structure, just files updateFilesOfFileSystemEntry(parentResult, baseName, fsQueryResult.fileExists); } return fsQueryResult; } function addOrDeleteFile(fileName, filePath, eventKind) { if (eventKind === ts.FileWatcherEventKind.Changed) { return; } var parentResult = getCachedFileSystemEntriesForBaseDir(filePath); if (parentResult) { updateFilesOfFileSystemEntry(parentResult, getBaseNameOfFileName(fileName), eventKind === ts.FileWatcherEventKind.Created); } } function updateFilesOfFileSystemEntry(parentResult, baseName, fileExists) { updateFileSystemEntry(parentResult.files, baseName, fileExists); } function clearCache() { cachedReadDirectoryResult.clear(); } } ts.createCachedDirectoryStructureHost = createCachedDirectoryStructureHost; var ConfigFileProgramReloadLevel; (function (ConfigFileProgramReloadLevel) { ConfigFileProgramReloadLevel[ConfigFileProgramReloadLevel["None"] = 0] = "None"; /** Update the file name list from the disk */ ConfigFileProgramReloadLevel[ConfigFileProgramReloadLevel["Partial"] = 1] = "Partial"; /** Reload completely by re-reading contents of config file from disk and updating program */ ConfigFileProgramReloadLevel[ConfigFileProgramReloadLevel["Full"] = 2] = "Full"; })(ConfigFileProgramReloadLevel = ts.ConfigFileProgramReloadLevel || (ts.ConfigFileProgramReloadLevel = {})); /** * Updates the existing missing file watches with the new set of missing files after new program is created */ function updateMissingFilePathsWatch(program, missingFileWatches, createMissingFileWatch) { var missingFilePaths = program.getMissingFilePaths(); var newMissingFilePathMap = ts.arrayToSet(missingFilePaths); // Update the missing file paths watcher ts.mutateMap(missingFileWatches, newMissingFilePathMap, { // Watch the missing files createNewValue: createMissingFileWatch, // Files that are no longer missing (e.g. because they are no longer required) // should no longer be watched. onDeleteValue: ts.closeFileWatcher }); } ts.updateMissingFilePathsWatch = updateMissingFilePathsWatch; /** * Updates the existing wild card directory watches with the new set of wild card directories from the config file * after new program is created because the config file was reloaded or program was created first time from the config file * Note that there is no need to call this function when the program is updated with additional files without reloading config files, * as wildcard directories wont change unless reloading config file */ function updateWatchingWildcardDirectories(existingWatchedForWildcards, wildcardDirectories, watchDirectory) { ts.mutateMap(existingWatchedForWildcards, wildcardDirectories, { // Create new watch and recursive info createNewValue: createWildcardDirectoryWatcher, // Close existing watch thats not needed any more onDeleteValue: closeFileWatcherOf, // Close existing watch that doesnt match in the flags onExistingValue: updateWildcardDirectoryWatcher }); function createWildcardDirectoryWatcher(directory, flags) { // Create new watch and recursive info return { watcher: watchDirectory(directory, flags), flags: flags }; } function updateWildcardDirectoryWatcher(existingWatcher, flags, directory) { // Watcher needs to be updated if the recursive flags dont match if (existingWatcher.flags === flags) { return; } existingWatcher.watcher.close(); existingWatchedForWildcards.set(directory, createWildcardDirectoryWatcher(directory, flags)); } } ts.updateWatchingWildcardDirectories = updateWatchingWildcardDirectories; function isEmittedFileOfProgram(program, file) { if (!program) { return false; } return program.isEmittedFile(file); } ts.isEmittedFileOfProgram = isEmittedFileOfProgram; var WatchLogLevel; (function (WatchLogLevel) { WatchLogLevel[WatchLogLevel["None"] = 0] = "None"; WatchLogLevel[WatchLogLevel["TriggerOnly"] = 1] = "TriggerOnly"; WatchLogLevel[WatchLogLevel["Verbose"] = 2] = "Verbose"; })(WatchLogLevel = ts.WatchLogLevel || (ts.WatchLogLevel = {})); function getWatchFactory(watchLogLevel, log, getDetailWatchInfo) { return getWatchFactoryWith(watchLogLevel, log, getDetailWatchInfo, watchFile, watchDirectory); } ts.getWatchFactory = getWatchFactory; function getWatchFactoryWith(watchLogLevel, log, getDetailWatchInfo, watchFile, watchDirectory) { var createFileWatcher = getCreateFileWatcher(watchLogLevel, watchFile); var createFilePathWatcher = watchLogLevel === WatchLogLevel.None ? watchFilePath : createFileWatcher; var createDirectoryWatcher = getCreateFileWatcher(watchLogLevel, watchDirectory); if (watchLogLevel === WatchLogLevel.Verbose && ts.sysLog === ts.noop) { ts.setSysLog(function (s) { return log(s); }); } return { watchFile: function (host, file, callback, pollingInterval, options, detailInfo1, detailInfo2) { return createFileWatcher(host, file, callback, pollingInterval, options, /*passThrough*/ undefined, detailInfo1, detailInfo2, watchFile, log, "FileWatcher", getDetailWatchInfo); }, watchFilePath: function (host, file, callback, pollingInterval, options, path, detailInfo1, detailInfo2) { return createFilePathWatcher(host, file, callback, pollingInterval, options, path, detailInfo1, detailInfo2, watchFile, log, "FileWatcher", getDetailWatchInfo); }, watchDirectory: function (host, directory, callback, flags, options, detailInfo1, detailInfo2) { return createDirectoryWatcher(host, directory, callback, flags, options, /*passThrough*/ undefined, detailInfo1, detailInfo2, watchDirectory, log, "DirectoryWatcher", getDetailWatchInfo); } }; } function watchFile(host, file, callback, pollingInterval, options) { return host.watchFile(file, callback, pollingInterval, options); } function watchFilePath(host, file, callback, pollingInterval, options, path) { return watchFile(host, file, function (fileName, eventKind) { return callback(fileName, eventKind, path); }, pollingInterval, options); } function watchDirectory(host, directory, callback, flags, options) { return host.watchDirectory(directory, callback, (flags & 1 /* Recursive */) !== 0, options); } function getCreateFileWatcher(watchLogLevel, addWatch) { switch (watchLogLevel) { case WatchLogLevel.None: return addWatch; case WatchLogLevel.TriggerOnly: return createFileWatcherWithTriggerLogging; case WatchLogLevel.Verbose: return addWatch === watchDirectory ? createDirectoryWatcherWithLogging : createFileWatcherWithLogging; } } function createFileWatcherWithLogging(host, file, cb, flags, options, passThrough, detailInfo1, detailInfo2, addWatch, log, watchCaption, getDetailWatchInfo) { log(watchCaption + ":: Added:: " + getWatchInfo(file, flags, options, detailInfo1, detailInfo2, getDetailWatchInfo)); var watcher = createFileWatcherWithTriggerLogging(host, file, cb, flags, options, passThrough, detailInfo1, detailInfo2, addWatch, log, watchCaption, getDetailWatchInfo); return { close: function () { log(watchCaption + ":: Close:: " + getWatchInfo(file, flags, options, detailInfo1, detailInfo2, getDetailWatchInfo)); watcher.close(); } }; } function createDirectoryWatcherWithLogging(host, file, cb, flags, options, passThrough, detailInfo1, detailInfo2, addWatch, log, watchCaption, getDetailWatchInfo) { var watchInfo = watchCaption + ":: Added:: " + getWatchInfo(file, flags, options, detailInfo1, detailInfo2, getDetailWatchInfo); log(watchInfo); var start = ts.timestamp(); var watcher = createFileWatcherWithTriggerLogging(host, file, cb, flags, options, passThrough, detailInfo1, detailInfo2, addWatch, log, watchCaption, getDetailWatchInfo); var elapsed = ts.timestamp() - start; log("Elapsed:: " + elapsed + "ms " + watchInfo); return { close: function () { var watchInfo = watchCaption + ":: Close:: " + getWatchInfo(file, flags, options, detailInfo1, detailInfo2, getDetailWatchInfo); log(watchInfo); var start = ts.timestamp(); watcher.close(); var elapsed = ts.timestamp() - start; log("Elapsed:: " + elapsed + "ms " + watchInfo); } }; } function createFileWatcherWithTriggerLogging(host, file, cb, flags, options, passThrough, detailInfo1, detailInfo2, addWatch, log, watchCaption, getDetailWatchInfo) { return addWatch(host, file, function (fileName, cbOptional) { var triggerredInfo = watchCaption + ":: Triggered with " + fileName + " " + (cbOptional !== undefined ? cbOptional : "") + ":: " + getWatchInfo(file, flags, options, detailInfo1, detailInfo2, getDetailWatchInfo); log(triggerredInfo); var start = ts.timestamp(); cb(fileName, cbOptional, passThrough); var elapsed = ts.timestamp() - start; log("Elapsed:: " + elapsed + "ms " + triggerredInfo); }, flags, options); } function getFallbackOptions(options) { var fallbackPolling = options === null || options === void 0 ? void 0 : options.fallbackPolling; return { watchFile: fallbackPolling !== undefined ? fallbackPolling : ts.WatchFileKind.PriorityPollingInterval }; } ts.getFallbackOptions = getFallbackOptions; function getWatchInfo(file, flags, options, detailInfo1, detailInfo2, getDetailWatchInfo) { return "WatchInfo: " + file + " " + flags + " " + JSON.stringify(options) + " " + (getDetailWatchInfo ? getDetailWatchInfo(detailInfo1, detailInfo2) : detailInfo2 === undefined ? detailInfo1 : detailInfo1 + " " + detailInfo2); } function closeFileWatcherOf(objWithWatcher) { objWithWatcher.watcher.close(); } ts.closeFileWatcherOf = closeFileWatcherOf; })(ts || (ts = {})); var ts; (function (ts) { function findConfigFile(searchPath, fileExists, configName) { if (configName === void 0) { configName = "tsconfig.json"; } return ts.forEachAncestorDirectory(searchPath, function (ancestor) { var fileName = ts.combinePaths(ancestor, configName); return fileExists(fileName) ? fileName : undefined; }); } ts.findConfigFile = findConfigFile; function resolveTripleslashReference(moduleName, containingFile) { var basePath = ts.getDirectoryPath(containingFile); var referencedFileName = ts.isRootedDiskPath(moduleName) ? moduleName : ts.combinePaths(basePath, moduleName); return ts.normalizePath(referencedFileName); } ts.resolveTripleslashReference = resolveTripleslashReference; /* @internal */ function computeCommonSourceDirectoryOfFilenames(fileNames, currentDirectory, getCanonicalFileName) { var commonPathComponents; var failed = ts.forEach(fileNames, function (sourceFile) { // Each file contributes into common source file path var sourcePathComponents = ts.getNormalizedPathComponents(sourceFile, currentDirectory); sourcePathComponents.pop(); // The base file name is not part of the common directory path if (!commonPathComponents) { // first file commonPathComponents = sourcePathComponents; return; } var n = Math.min(commonPathComponents.length, sourcePathComponents.length); for (var i = 0; i < n; i++) { if (getCanonicalFileName(commonPathComponents[i]) !== getCanonicalFileName(sourcePathComponents[i])) { if (i === 0) { // Failed to find any common path component return true; } // New common path found that is 0 -> i-1 commonPathComponents.length = i; break; } } // If the sourcePathComponents was shorter than the commonPathComponents, truncate to the sourcePathComponents if (sourcePathComponents.length < commonPathComponents.length) { commonPathComponents.length = sourcePathComponents.length; } }); // A common path can not be found when paths span multiple drives on windows, for example if (failed) { return ""; } if (!commonPathComponents) { // Can happen when all input files are .d.ts files return currentDirectory; } return ts.getPathFromPathComponents(commonPathComponents); } ts.computeCommonSourceDirectoryOfFilenames = computeCommonSourceDirectoryOfFilenames; function createCompilerHost(options, setParentNodes) { return createCompilerHostWorker(options, setParentNodes); } ts.createCompilerHost = createCompilerHost; /*@internal*/ // TODO(shkamat): update this after reworking ts build API function createCompilerHostWorker(options, setParentNodes, system) { if (system === void 0) { system = ts.sys; } var existingDirectories = ts.createMap(); var getCanonicalFileName = ts.createGetCanonicalFileName(system.useCaseSensitiveFileNames); function getSourceFile(fileName, languageVersion, onError) { var text; try { ts.performance.mark("beforeIORead"); text = compilerHost.readFile(fileName); ts.performance.mark("afterIORead"); ts.performance.measure("I/O Read", "beforeIORead", "afterIORead"); } catch (e) { if (onError) { onError(e.message); } text = ""; } return text !== undefined ? ts.createSourceFile(fileName, text, languageVersion, setParentNodes) : undefined; } function directoryExists(directoryPath) { if (existingDirectories.has(directoryPath)) { return true; } if ((compilerHost.directoryExists || system.directoryExists)(directoryPath)) { existingDirectories.set(directoryPath, true); return true; } return false; } function writeFile(fileName, data, writeByteOrderMark, onError) { try { ts.performance.mark("beforeIOWrite"); // NOTE: If patchWriteFileEnsuringDirectory has been called, // the system.writeFile will do its own directory creation and // the ensureDirectoriesExist call will always be redundant. ts.writeFileEnsuringDirectories(fileName, data, writeByteOrderMark, function (path, data, writeByteOrderMark) { return writeFileWorker(path, data, writeByteOrderMark); }, function (path) { return (compilerHost.createDirectory || system.createDirectory)(path); }, function (path) { return directoryExists(path); }); ts.performance.mark("afterIOWrite"); ts.performance.measure("I/O Write", "beforeIOWrite", "afterIOWrite"); } catch (e) { if (onError) { onError(e.message); } } } var outputFingerprints; function writeFileWorker(fileName, data, writeByteOrderMark) { if (!ts.isWatchSet(options) || !system.createHash || !system.getModifiedTime) { system.writeFile(fileName, data, writeByteOrderMark); return; } if (!outputFingerprints) { outputFingerprints = ts.createMap(); } var hash = system.createHash(data); var mtimeBefore = system.getModifiedTime(fileName); if (mtimeBefore) { var fingerprint = outputFingerprints.get(fileName); // If output has not been changed, and the file has no external modification if (fingerprint && fingerprint.byteOrderMark === writeByteOrderMark && fingerprint.hash === hash && fingerprint.mtime.getTime() === mtimeBefore.getTime()) { return; } } system.writeFile(fileName, data, writeByteOrderMark); var mtimeAfter = system.getModifiedTime(fileName) || ts.missingFileModifiedTime; outputFingerprints.set(fileName, { hash: hash, byteOrderMark: writeByteOrderMark, mtime: mtimeAfter }); } function getDefaultLibLocation() { return ts.getDirectoryPath(ts.normalizePath(system.getExecutingFilePath())); } var newLine = ts.getNewLineCharacter(options, function () { return system.newLine; }); var realpath = system.realpath && (function (path) { return system.realpath(path); }); var compilerHost = { getSourceFile: getSourceFile, getDefaultLibLocation: getDefaultLibLocation, getDefaultLibFileName: function (options) { return ts.combinePaths(getDefaultLibLocation(), ts.getDefaultLibFileName(options)); }, writeFile: writeFile, getCurrentDirectory: ts.memoize(function () { return system.getCurrentDirectory(); }), useCaseSensitiveFileNames: function () { return system.useCaseSensitiveFileNames; }, getCanonicalFileName: getCanonicalFileName, getNewLine: function () { return newLine; }, fileExists: function (fileName) { return system.fileExists(fileName); }, readFile: function (fileName) { return system.readFile(fileName); }, trace: function (s) { return system.write(s + newLine); }, directoryExists: function (directoryName) { return system.directoryExists(directoryName); }, getEnvironmentVariable: function (name) { return system.getEnvironmentVariable ? system.getEnvironmentVariable(name) : ""; }, getDirectories: function (path) { return system.getDirectories(path); }, realpath: realpath, readDirectory: function (path, extensions, include, exclude, depth) { return system.readDirectory(path, extensions, include, exclude, depth); }, createDirectory: function (d) { return system.createDirectory(d); }, createHash: ts.maybeBind(system, system.createHash) }; return compilerHost; } ts.createCompilerHostWorker = createCompilerHostWorker; /*@internal*/ function changeCompilerHostLikeToUseCache(host, toPath, getSourceFile) { var originalReadFile = host.readFile; var originalFileExists = host.fileExists; var originalDirectoryExists = host.directoryExists; var originalCreateDirectory = host.createDirectory; var originalWriteFile = host.writeFile; var readFileCache = ts.createMap(); var fileExistsCache = ts.createMap(); var directoryExistsCache = ts.createMap(); var sourceFileCache = ts.createMap(); var readFileWithCache = function (fileName) { var key = toPath(fileName); var value = readFileCache.get(key); if (value !== undefined) return value !== false ? value : undefined; return setReadFileCache(key, fileName); }; var setReadFileCache = function (key, fileName) { var newValue = originalReadFile.call(host, fileName); readFileCache.set(key, newValue !== undefined ? newValue : false); return newValue; }; host.readFile = function (fileName) { var key = toPath(fileName); var value = readFileCache.get(key); if (value !== undefined) return value !== false ? value : undefined; // could be .d.ts from output // Cache json or buildInfo if (!ts.fileExtensionIs(fileName, ".json" /* Json */) && !ts.isBuildInfoFile(fileName)) { return originalReadFile.call(host, fileName); } return setReadFileCache(key, fileName); }; var getSourceFileWithCache = getSourceFile ? function (fileName, languageVersion, onError, shouldCreateNewSourceFile) { var key = toPath(fileName); var value = sourceFileCache.get(key); if (value) return value; var sourceFile = getSourceFile(fileName, languageVersion, onError, shouldCreateNewSourceFile); if (sourceFile && (ts.isDeclarationFileName(fileName) || ts.fileExtensionIs(fileName, ".json" /* Json */))) { sourceFileCache.set(key, sourceFile); } return sourceFile; } : undefined; // fileExists for any kind of extension host.fileExists = function (fileName) { var key = toPath(fileName); var value = fileExistsCache.get(key); if (value !== undefined) return value; var newValue = originalFileExists.call(host, fileName); fileExistsCache.set(key, !!newValue); return newValue; }; if (originalWriteFile) { host.writeFile = function (fileName, data, writeByteOrderMark, onError, sourceFiles) { var key = toPath(fileName); fileExistsCache.delete(key); var value = readFileCache.get(key); if (value !== undefined && value !== data) { readFileCache.delete(key); sourceFileCache.delete(key); } else if (getSourceFileWithCache) { var sourceFile = sourceFileCache.get(key); if (sourceFile && sourceFile.text !== data) { sourceFileCache.delete(key); } } originalWriteFile.call(host, fileName, data, writeByteOrderMark, onError, sourceFiles); }; } // directoryExists if (originalDirectoryExists && originalCreateDirectory) { host.directoryExists = function (directory) { var key = toPath(directory); var value = directoryExistsCache.get(key); if (value !== undefined) return value; var newValue = originalDirectoryExists.call(host, directory); directoryExistsCache.set(key, !!newValue); return newValue; }; host.createDirectory = function (directory) { var key = toPath(directory); directoryExistsCache.delete(key); originalCreateDirectory.call(host, directory); }; } return { originalReadFile: originalReadFile, originalFileExists: originalFileExists, originalDirectoryExists: originalDirectoryExists, originalCreateDirectory: originalCreateDirectory, originalWriteFile: originalWriteFile, getSourceFileWithCache: getSourceFileWithCache, readFileWithCache: readFileWithCache }; } ts.changeCompilerHostLikeToUseCache = changeCompilerHostLikeToUseCache; function getPreEmitDiagnostics(program, sourceFile, cancellationToken) { var diagnostics; diagnostics = ts.addRange(diagnostics, program.getConfigFileParsingDiagnostics()); diagnostics = ts.addRange(diagnostics, program.getOptionsDiagnostics(cancellationToken)); diagnostics = ts.addRange(diagnostics, program.getSyntacticDiagnostics(sourceFile, cancellationToken)); diagnostics = ts.addRange(diagnostics, program.getGlobalDiagnostics(cancellationToken)); diagnostics = ts.addRange(diagnostics, program.getSemanticDiagnostics(sourceFile, cancellationToken)); if (ts.getEmitDeclarations(program.getCompilerOptions())) { diagnostics = ts.addRange(diagnostics, program.getDeclarationDiagnostics(sourceFile, cancellationToken)); } return ts.sortAndDeduplicateDiagnostics(diagnostics || ts.emptyArray); } ts.getPreEmitDiagnostics = getPreEmitDiagnostics; function formatDiagnostics(diagnostics, host) { var output = ""; for (var _i = 0, diagnostics_2 = diagnostics; _i < diagnostics_2.length; _i++) { var diagnostic = diagnostics_2[_i]; output += formatDiagnostic(diagnostic, host); } return output; } ts.formatDiagnostics = formatDiagnostics; function formatDiagnostic(diagnostic, host) { var errorMessage = ts.diagnosticCategoryName(diagnostic) + " TS" + diagnostic.code + ": " + flattenDiagnosticMessageText(diagnostic.messageText, host.getNewLine()) + host.getNewLine(); if (diagnostic.file) { var _a = ts.getLineAndCharacterOfPosition(diagnostic.file, diagnostic.start), line = _a.line, character = _a.character; // TODO: GH#18217 var fileName = diagnostic.file.fileName; var relativeFileName = ts.convertToRelativePath(fileName, host.getCurrentDirectory(), function (fileName) { return host.getCanonicalFileName(fileName); }); return relativeFileName + "(" + (line + 1) + "," + (character + 1) + "): " + errorMessage; } return errorMessage; } ts.formatDiagnostic = formatDiagnostic; /** @internal */ var ForegroundColorEscapeSequences; (function (ForegroundColorEscapeSequences) { ForegroundColorEscapeSequences["Grey"] = "\u001B[90m"; ForegroundColorEscapeSequences["Red"] = "\u001B[91m"; ForegroundColorEscapeSequences["Yellow"] = "\u001B[93m"; ForegroundColorEscapeSequences["Blue"] = "\u001B[94m"; ForegroundColorEscapeSequences["Cyan"] = "\u001B[96m"; })(ForegroundColorEscapeSequences = ts.ForegroundColorEscapeSequences || (ts.ForegroundColorEscapeSequences = {})); var gutterStyleSequence = "\u001b[7m"; var gutterSeparator = " "; var resetEscapeSequence = "\u001b[0m"; var ellipsis = "..."; var halfIndent = " "; var indent = " "; function getCategoryFormat(category) { switch (category) { case ts.DiagnosticCategory.Error: return ForegroundColorEscapeSequences.Red; case ts.DiagnosticCategory.Warning: return ForegroundColorEscapeSequences.Yellow; case ts.DiagnosticCategory.Suggestion: return ts.Debug.fail("Should never get an Info diagnostic on the command line."); case ts.DiagnosticCategory.Message: return ForegroundColorEscapeSequences.Blue; } } /** @internal */ function formatColorAndReset(text, formatStyle) { return formatStyle + text + resetEscapeSequence; } ts.formatColorAndReset = formatColorAndReset; function formatCodeSpan(file, start, length, indent, squiggleColor, host) { var _a = ts.getLineAndCharacterOfPosition(file, start), firstLine = _a.line, firstLineChar = _a.character; var _b = ts.getLineAndCharacterOfPosition(file, start + length), lastLine = _b.line, lastLineChar = _b.character; var lastLineInFile = ts.getLineAndCharacterOfPosition(file, file.text.length).line; var hasMoreThanFiveLines = (lastLine - firstLine) >= 4; var gutterWidth = (lastLine + 1 + "").length; if (hasMoreThanFiveLines) { gutterWidth = Math.max(ellipsis.length, gutterWidth); } var context = ""; for (var i = firstLine; i <= lastLine; i++) { context += host.getNewLine(); // If the error spans over 5 lines, we'll only show the first 2 and last 2 lines, // so we'll skip ahead to the second-to-last line. if (hasMoreThanFiveLines && firstLine + 1 < i && i < lastLine - 1) { context += indent + formatColorAndReset(ts.padLeft(ellipsis, gutterWidth), gutterStyleSequence) + gutterSeparator + host.getNewLine(); i = lastLine - 1; } var lineStart = ts.getPositionOfLineAndCharacter(file, i, 0); var lineEnd = i < lastLineInFile ? ts.getPositionOfLineAndCharacter(file, i + 1, 0) : file.text.length; var lineContent = file.text.slice(lineStart, lineEnd); lineContent = lineContent.replace(/\s+$/g, ""); // trim from end lineContent = lineContent.replace("\t", " "); // convert tabs to single spaces // Output the gutter and the actual contents of the line. context += indent + formatColorAndReset(ts.padLeft(i + 1 + "", gutterWidth), gutterStyleSequence) + gutterSeparator; context += lineContent + host.getNewLine(); // Output the gutter and the error span for the line using tildes. context += indent + formatColorAndReset(ts.padLeft("", gutterWidth), gutterStyleSequence) + gutterSeparator; context += squiggleColor; if (i === firstLine) { // If we're on the last line, then limit it to the last character of the last line. // Otherwise, we'll just squiggle the rest of the line, giving 'slice' no end position. var lastCharForLine = i === lastLine ? lastLineChar : undefined; context += lineContent.slice(0, firstLineChar).replace(/\S/g, " "); context += lineContent.slice(firstLineChar, lastCharForLine).replace(/./g, "~"); } else if (i === lastLine) { context += lineContent.slice(0, lastLineChar).replace(/./g, "~"); } else { // Squiggle the entire line. context += lineContent.replace(/./g, "~"); } context += resetEscapeSequence; } return context; } /* @internal */ function formatLocation(file, start, host, color) { if (color === void 0) { color = formatColorAndReset; } var _a = ts.getLineAndCharacterOfPosition(file, start), firstLine = _a.line, firstLineChar = _a.character; // TODO: GH#18217 var relativeFileName = host ? ts.convertToRelativePath(file.fileName, host.getCurrentDirectory(), function (fileName) { return host.getCanonicalFileName(fileName); }) : file.fileName; var output = ""; output += color(relativeFileName, ForegroundColorEscapeSequences.Cyan); output += ":"; output += color("" + (firstLine + 1), ForegroundColorEscapeSequences.Yellow); output += ":"; output += color("" + (firstLineChar + 1), ForegroundColorEscapeSequences.Yellow); return output; } ts.formatLocation = formatLocation; function formatDiagnosticsWithColorAndContext(diagnostics, host) { var output = ""; for (var _i = 0, diagnostics_3 = diagnostics; _i < diagnostics_3.length; _i++) { var diagnostic = diagnostics_3[_i]; if (diagnostic.file) { var file = diagnostic.file, start = diagnostic.start; output += formatLocation(file, start, host); // TODO: GH#18217 output += " - "; } output += formatColorAndReset(ts.diagnosticCategoryName(diagnostic), getCategoryFormat(diagnostic.category)); output += formatColorAndReset(" TS" + diagnostic.code + ": ", ForegroundColorEscapeSequences.Grey); output += flattenDiagnosticMessageText(diagnostic.messageText, host.getNewLine()); if (diagnostic.file) { output += host.getNewLine(); output += formatCodeSpan(diagnostic.file, diagnostic.start, diagnostic.length, "", getCategoryFormat(diagnostic.category), host); // TODO: GH#18217 if (diagnostic.relatedInformation) { output += host.getNewLine(); for (var _a = 0, _b = diagnostic.relatedInformation; _a < _b.length; _a++) { var _c = _b[_a], file = _c.file, start = _c.start, length_8 = _c.length, messageText = _c.messageText; if (file) { output += host.getNewLine(); output += halfIndent + formatLocation(file, start, host); // TODO: GH#18217 output += formatCodeSpan(file, start, length_8, indent, ForegroundColorEscapeSequences.Cyan, host); // TODO: GH#18217 } output += host.getNewLine(); output += indent + flattenDiagnosticMessageText(messageText, host.getNewLine()); } } } output += host.getNewLine(); } return output; } ts.formatDiagnosticsWithColorAndContext = formatDiagnosticsWithColorAndContext; function flattenDiagnosticMessageText(diag, newLine, indent) { if (indent === void 0) { indent = 0; } if (ts.isString(diag)) { return diag; } else if (diag === undefined) { return ""; } var result = ""; if (indent) { result += newLine; for (var i = 0; i < indent; i++) { result += " "; } } result += diag.messageText; indent++; if (diag.next) { for (var _i = 0, _a = diag.next; _i < _a.length; _i++) { var kid = _a[_i]; result += flattenDiagnosticMessageText(kid, newLine, indent); } } return result; } ts.flattenDiagnosticMessageText = flattenDiagnosticMessageText; /* @internal */ function loadWithLocalCache(names, containingFile, redirectedReference, loader) { if (names.length === 0) { return []; } var resolutions = []; var cache = ts.createMap(); for (var _i = 0, names_2 = names; _i < names_2.length; _i++) { var name = names_2[_i]; var result = void 0; if (cache.has(name)) { result = cache.get(name); } else { cache.set(name, result = loader(name, containingFile, redirectedReference)); } resolutions.push(result); } return resolutions; } ts.loadWithLocalCache = loadWithLocalCache; /* @internal */ ts.inferredTypesContainingFile = "__inferred type names__.ts"; /** * Determines if program structure is upto date or needs to be recreated */ /* @internal */ function isProgramUptoDate(program, rootFileNames, newOptions, getSourceVersion, fileExists, hasInvalidatedResolution, hasChangedAutomaticTypeDirectiveNames, projectReferences) { // If we haven't created a program yet or have changed automatic type directives, then it is not up-to-date if (!program || hasChangedAutomaticTypeDirectiveNames) { return false; } // If root file names don't match if (!ts.arrayIsEqualTo(program.getRootFileNames(), rootFileNames)) { return false; } var seenResolvedRefs; // If project references don't match if (!ts.arrayIsEqualTo(program.getProjectReferences(), projectReferences, projectReferenceUptoDate)) { return false; } // If any file is not up-to-date, then the whole program is not up-to-date if (program.getSourceFiles().some(sourceFileNotUptoDate)) { return false; } // If any of the missing file paths are now created if (program.getMissingFilePaths().some(fileExists)) { return false; } var currentOptions = program.getCompilerOptions(); // If the compilation settings do no match, then the program is not up-to-date if (!ts.compareDataObjects(currentOptions, newOptions)) { return false; } // If everything matches but the text of config file is changed, // error locations can change for program options, so update the program if (currentOptions.configFile && newOptions.configFile) { return currentOptions.configFile.text === newOptions.configFile.text; } return true; function sourceFileNotUptoDate(sourceFile) { return !sourceFileVersionUptoDate(sourceFile) || hasInvalidatedResolution(sourceFile.path); } function sourceFileVersionUptoDate(sourceFile) { return sourceFile.version === getSourceVersion(sourceFile.resolvedPath, sourceFile.fileName); } function projectReferenceUptoDate(oldRef, newRef, index) { if (!ts.projectReferenceIsEqualTo(oldRef, newRef)) { return false; } return resolvedProjectReferenceUptoDate(program.getResolvedProjectReferences()[index], oldRef); } function resolvedProjectReferenceUptoDate(oldResolvedRef, oldRef) { if (oldResolvedRef) { if (ts.contains(seenResolvedRefs, oldResolvedRef)) { // Assume true return true; } // If sourceFile for the oldResolvedRef existed, check the version for uptodate if (!sourceFileVersionUptoDate(oldResolvedRef.sourceFile)) { return false; } // Add to seen before checking the referenced paths of this config file (seenResolvedRefs || (seenResolvedRefs = [])).push(oldResolvedRef); // If child project references are upto date, this project reference is uptodate return !ts.forEach(oldResolvedRef.references, function (childResolvedRef, index) { return !resolvedProjectReferenceUptoDate(childResolvedRef, oldResolvedRef.commandLine.projectReferences[index]); }); } // In old program, not able to resolve project reference path, // so if config file doesnt exist, it is uptodate. return !fileExists(resolveProjectReferencePath(oldRef)); } } ts.isProgramUptoDate = isProgramUptoDate; function getConfigFileParsingDiagnostics(configFileParseResult) { return configFileParseResult.options.configFile ? __spreadArrays(configFileParseResult.options.configFile.parseDiagnostics, configFileParseResult.errors) : configFileParseResult.errors; } ts.getConfigFileParsingDiagnostics = getConfigFileParsingDiagnostics; /** * Determine if source file needs to be re-created even if its text hasn't changed */ function shouldProgramCreateNewSourceFiles(program, newOptions) { if (!program) return false; // If any compiler options change, we can't reuse old source file even if version match // The change in options like these could result in change in syntax tree or `sourceFile.bindDiagnostics`. var oldOptions = program.getCompilerOptions(); return !!ts.sourceFileAffectingCompilerOptions.some(function (option) { return !ts.isJsonEqual(ts.getCompilerOptionValue(oldOptions, option), ts.getCompilerOptionValue(newOptions, option)); }); } function createCreateProgramOptions(rootNames, options, host, oldProgram, configFileParsingDiagnostics) { return { rootNames: rootNames, options: options, host: host, oldProgram: oldProgram, configFileParsingDiagnostics: configFileParsingDiagnostics }; } function createProgram(rootNamesOrOptions, _options, _host, _oldProgram, _configFileParsingDiagnostics) { var _a; var createProgramOptions = ts.isArray(rootNamesOrOptions) ? createCreateProgramOptions(rootNamesOrOptions, _options, _host, _oldProgram, _configFileParsingDiagnostics) : rootNamesOrOptions; // TODO: GH#18217 var rootNames = createProgramOptions.rootNames, options = createProgramOptions.options, configFileParsingDiagnostics = createProgramOptions.configFileParsingDiagnostics, projectReferences = createProgramOptions.projectReferences; var oldProgram = createProgramOptions.oldProgram; var processingDefaultLibFiles; var processingOtherFiles; var files; var symlinks; var commonSourceDirectory; var diagnosticsProducingTypeChecker; var noDiagnosticsTypeChecker; var classifiableNames; var ambientModuleNameToUnmodifiedFileName = ts.createMap(); // Todo:: Use this to report why file was included in --extendedDiagnostics var refFileMap; var cachedBindAndCheckDiagnosticsForFile = {}; var cachedDeclarationDiagnosticsForFile = {}; var resolvedTypeReferenceDirectives = ts.createMap(); var fileProcessingDiagnostics = ts.createDiagnosticCollection(); // The below settings are to track if a .js file should be add to the program if loaded via searching under node_modules. // This works as imported modules are discovered recursively in a depth first manner, specifically: // - For each root file, findSourceFile is called. // - This calls processImportedModules for each module imported in the source file. // - This calls resolveModuleNames, and then calls findSourceFile for each resolved module. // As all these operations happen - and are nested - within the createProgram call, they close over the below variables. // The current resolution depth is tracked by incrementing/decrementing as the depth first search progresses. var maxNodeModuleJsDepth = typeof options.maxNodeModuleJsDepth === "number" ? options.maxNodeModuleJsDepth : 0; var currentNodeModulesDepth = 0; // If a module has some of its imports skipped due to being at the depth limit under node_modules, then track // this, as it may be imported at a shallower depth later, and then it will need its skipped imports processed. var modulesWithElidedImports = ts.createMap(); // Track source files that are source files found by searching under node_modules, as these shouldn't be compiled. var sourceFilesFoundSearchingNodeModules = ts.createMap(); ts.performance.mark("beforeProgram"); var host = createProgramOptions.host || createCompilerHost(options); var configParsingHost = parseConfigHostFromCompilerHostLike(host); var skipDefaultLib = options.noLib; var getDefaultLibraryFileName = ts.memoize(function () { return host.getDefaultLibFileName(options); }); var defaultLibraryPath = host.getDefaultLibLocation ? host.getDefaultLibLocation() : ts.getDirectoryPath(getDefaultLibraryFileName()); var programDiagnostics = ts.createDiagnosticCollection(); var currentDirectory = host.getCurrentDirectory(); var supportedExtensions = ts.getSupportedExtensions(options); var supportedExtensionsWithJsonIfResolveJsonModule = ts.getSuppoertedExtensionsWithJsonIfResolveJsonModule(options, supportedExtensions); // Map storing if there is emit blocking diagnostics for given input var hasEmitBlockingDiagnostics = ts.createMap(); var _compilerOptionsObjectLiteralSyntax; var moduleResolutionCache; var actualResolveModuleNamesWorker; var hasInvalidatedResolution = host.hasInvalidatedResolution || ts.returnFalse; if (host.resolveModuleNames) { actualResolveModuleNamesWorker = function (moduleNames, containingFile, reusedNames, redirectedReference) { return host.resolveModuleNames(ts.Debug.checkEachDefined(moduleNames), containingFile, reusedNames, redirectedReference, options).map(function (resolved) { // An older host may have omitted extension, in which case we should infer it from the file extension of resolvedFileName. if (!resolved || resolved.extension !== undefined) { return resolved; } var withExtension = ts.clone(resolved); withExtension.extension = ts.extensionFromPath(resolved.resolvedFileName); return withExtension; }); }; } else { moduleResolutionCache = ts.createModuleResolutionCache(currentDirectory, function (x) { return host.getCanonicalFileName(x); }, options); var loader_1 = function (moduleName, containingFile, redirectedReference) { return ts.resolveModuleName(moduleName, containingFile, options, host, moduleResolutionCache, redirectedReference).resolvedModule; }; // TODO: GH#18217 actualResolveModuleNamesWorker = function (moduleNames, containingFile, _reusedNames, redirectedReference) { return loadWithLocalCache(ts.Debug.checkEachDefined(moduleNames), containingFile, redirectedReference, loader_1); }; } var actualResolveTypeReferenceDirectiveNamesWorker; if (host.resolveTypeReferenceDirectives) { actualResolveTypeReferenceDirectiveNamesWorker = function (typeDirectiveNames, containingFile, redirectedReference) { return host.resolveTypeReferenceDirectives(ts.Debug.checkEachDefined(typeDirectiveNames), containingFile, redirectedReference, options); }; } else { var loader_2 = function (typesRef, containingFile, redirectedReference) { return ts.resolveTypeReferenceDirective(typesRef, containingFile, options, host, redirectedReference).resolvedTypeReferenceDirective; }; // TODO: GH#18217 actualResolveTypeReferenceDirectiveNamesWorker = function (typeReferenceDirectiveNames, containingFile, redirectedReference) { return loadWithLocalCache(ts.Debug.checkEachDefined(typeReferenceDirectiveNames), containingFile, redirectedReference, loader_2); }; } // Map from a stringified PackageId to the source file with that id. // Only one source file may have a given packageId. Others become redirects (see createRedirectSourceFile). // `packageIdToSourceFile` is only used while building the program, while `sourceFileToPackageName` and `isSourceFileTargetOfRedirect` are kept around. var packageIdToSourceFile = ts.createMap(); // Maps from a SourceFile's `.path` to the name of the package it was imported with. var sourceFileToPackageName = ts.createMap(); // Key is a file name. Value is the (non-empty, or undefined) list of files that redirect to it. var redirectTargetsMap = ts.createMultiMap(); /** * map with * - SourceFile if present * - false if sourceFile missing for source of project reference redirect * - undefined otherwise */ var filesByName = ts.createMap(); var missingFilePaths; // stores 'filename -> file association' ignoring case // used to track cases when two file names differ only in casing var filesByNameIgnoreCase = host.useCaseSensitiveFileNames() ? ts.createMap() : undefined; // A parallel array to projectReferences storing the results of reading in the referenced tsconfig files var resolvedProjectReferences; var projectReferenceRedirects; var mapFromFileToProjectReferenceRedirects; var mapFromToProjectReferenceRedirectSource; var useSourceOfProjectReferenceRedirect = !!((_a = host.useSourceOfProjectReferenceRedirect) === null || _a === void 0 ? void 0 : _a.call(host)) && !options.disableSourceOfProjectReferenceRedirect; var _b = updateHostForUseSourceOfProjectReferenceRedirect({ compilerHost: host, useSourceOfProjectReferenceRedirect: useSourceOfProjectReferenceRedirect, toPath: toPath, getResolvedProjectReferences: getResolvedProjectReferences, getSourceOfProjectReferenceRedirect: getSourceOfProjectReferenceRedirect, forEachResolvedProjectReference: forEachResolvedProjectReference }), onProgramCreateComplete = _b.onProgramCreateComplete, fileExists = _b.fileExists; var shouldCreateNewSourceFile = shouldProgramCreateNewSourceFiles(oldProgram, options); // We set `structuralIsReused` to `undefined` because `tryReuseStructureFromOldProgram` calls `tryReuseStructureFromOldProgram` which checks // `structuralIsReused`, which would be a TDZ violation if it was not set in advance to `undefined`. var structuralIsReused; structuralIsReused = tryReuseStructureFromOldProgram(); // eslint-disable-line prefer-const if (structuralIsReused !== 2 /* Completely */) { processingDefaultLibFiles = []; processingOtherFiles = []; if (projectReferences) { if (!resolvedProjectReferences) { resolvedProjectReferences = projectReferences.map(parseProjectReferenceConfigFile); } if (rootNames.length) { for (var _i = 0, resolvedProjectReferences_1 = resolvedProjectReferences; _i < resolvedProjectReferences_1.length; _i++) { var parsedRef = resolvedProjectReferences_1[_i]; if (!parsedRef) continue; var out = parsedRef.commandLine.options.outFile || parsedRef.commandLine.options.out; if (useSourceOfProjectReferenceRedirect) { if (out || ts.getEmitModuleKind(parsedRef.commandLine.options) === ts.ModuleKind.None) { for (var _c = 0, _d = parsedRef.commandLine.fileNames; _c < _d.length; _c++) { var fileName = _d[_c]; processSourceFile(fileName, /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false, /*packageId*/ undefined); } } } else { if (out) { processSourceFile(ts.changeExtension(out, ".d.ts"), /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false, /*packageId*/ undefined); } else if (ts.getEmitModuleKind(parsedRef.commandLine.options) === ts.ModuleKind.None) { for (var _e = 0, _f = parsedRef.commandLine.fileNames; _e < _f.length; _e++) { var fileName = _f[_e]; if (!ts.fileExtensionIs(fileName, ".d.ts" /* Dts */) && !ts.fileExtensionIs(fileName, ".json" /* Json */)) { processSourceFile(ts.getOutputDeclarationFileName(fileName, parsedRef.commandLine, !host.useCaseSensitiveFileNames()), /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false, /*packageId*/ undefined); } } } } } } } ts.forEach(rootNames, function (name) { return processRootFile(name, /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false); }); // load type declarations specified via 'types' argument or implicitly from types/ and node_modules/@types folders var typeReferences = rootNames.length ? ts.getAutomaticTypeDirectiveNames(options, host) : ts.emptyArray; if (typeReferences.length) { // This containingFilename needs to match with the one used in managed-side var containingDirectory = options.configFilePath ? ts.getDirectoryPath(options.configFilePath) : host.getCurrentDirectory(); var containingFilename = ts.combinePaths(containingDirectory, ts.inferredTypesContainingFile); var resolutions = resolveTypeReferenceDirectiveNamesWorker(typeReferences, containingFilename); for (var i = 0; i < typeReferences.length; i++) { processTypeReferenceDirective(typeReferences[i], resolutions[i]); } } // Do not process the default library if: // - The '--noLib' flag is used. // - A 'no-default-lib' reference comment is encountered in // processing the root files. if (rootNames.length && !skipDefaultLib) { // If '--lib' is not specified, include default library file according to '--target' // otherwise, using options specified in '--lib' instead of '--target' default library file var defaultLibraryFileName = getDefaultLibraryFileName(); if (!options.lib && defaultLibraryFileName) { processRootFile(defaultLibraryFileName, /*isDefaultLib*/ true, /*ignoreNoDefaultLib*/ false); } else { ts.forEach(options.lib, function (libFileName) { processRootFile(ts.combinePaths(defaultLibraryPath, libFileName), /*isDefaultLib*/ true, /*ignoreNoDefaultLib*/ false); }); } } missingFilePaths = ts.arrayFrom(ts.mapDefinedIterator(filesByName.entries(), function (_a) { var path = _a[0], file = _a[1]; return file === undefined ? path : undefined; })); files = ts.stableSort(processingDefaultLibFiles, compareDefaultLibFiles).concat(processingOtherFiles); processingDefaultLibFiles = undefined; processingOtherFiles = undefined; } ts.Debug.assert(!!missingFilePaths); // Release any files we have acquired in the old program but are // not part of the new program. if (oldProgram && host.onReleaseOldSourceFile) { var oldSourceFiles = oldProgram.getSourceFiles(); for (var _g = 0, oldSourceFiles_1 = oldSourceFiles; _g < oldSourceFiles_1.length; _g++) { var oldSourceFile = oldSourceFiles_1[_g]; var newFile = getSourceFileByPath(oldSourceFile.resolvedPath); if (shouldCreateNewSourceFile || !newFile || // old file wasnt redirect but new file is (oldSourceFile.resolvedPath === oldSourceFile.path && newFile.resolvedPath !== oldSourceFile.path)) { host.onReleaseOldSourceFile(oldSourceFile, oldProgram.getCompilerOptions(), !!getSourceFileByPath(oldSourceFile.path)); } } oldProgram.forEachResolvedProjectReference(function (resolvedProjectReference, resolvedProjectReferencePath) { if (resolvedProjectReference && !getResolvedProjectReferenceByPath(resolvedProjectReferencePath)) { host.onReleaseOldSourceFile(resolvedProjectReference.sourceFile, oldProgram.getCompilerOptions(), /*hasSourceFileByPath*/ false); } }); } // unconditionally set oldProgram to undefined to prevent it from being captured in closure oldProgram = undefined; var program = { getRootFileNames: function () { return rootNames; }, getSourceFile: getSourceFile, getSourceFileByPath: getSourceFileByPath, getSourceFiles: function () { return files; }, getMissingFilePaths: function () { return missingFilePaths; }, getRefFileMap: function () { return refFileMap; }, getFilesByNameMap: function () { return filesByName; }, getCompilerOptions: function () { return options; }, getSyntacticDiagnostics: getSyntacticDiagnostics, getOptionsDiagnostics: getOptionsDiagnostics, getGlobalDiagnostics: getGlobalDiagnostics, getSemanticDiagnostics: getSemanticDiagnostics, getSuggestionDiagnostics: getSuggestionDiagnostics, getDeclarationDiagnostics: getDeclarationDiagnostics, getBindAndCheckDiagnostics: getBindAndCheckDiagnostics, getProgramDiagnostics: getProgramDiagnostics, getTypeChecker: getTypeChecker, getClassifiableNames: getClassifiableNames, getDiagnosticsProducingTypeChecker: getDiagnosticsProducingTypeChecker, getCommonSourceDirectory: getCommonSourceDirectory, emit: emit, getCurrentDirectory: function () { return currentDirectory; }, getNodeCount: function () { return getDiagnosticsProducingTypeChecker().getNodeCount(); }, getIdentifierCount: function () { return getDiagnosticsProducingTypeChecker().getIdentifierCount(); }, getSymbolCount: function () { return getDiagnosticsProducingTypeChecker().getSymbolCount(); }, getTypeCount: function () { return getDiagnosticsProducingTypeChecker().getTypeCount(); }, getInstantiationCount: function () { return getDiagnosticsProducingTypeChecker().getInstantiationCount(); }, getRelationCacheSizes: function () { return getDiagnosticsProducingTypeChecker().getRelationCacheSizes(); }, getFileProcessingDiagnostics: function () { return fileProcessingDiagnostics; }, getResolvedTypeReferenceDirectives: function () { return resolvedTypeReferenceDirectives; }, isSourceFileFromExternalLibrary: isSourceFileFromExternalLibrary, isSourceFileDefaultLibrary: isSourceFileDefaultLibrary, dropDiagnosticsProducingTypeChecker: dropDiagnosticsProducingTypeChecker, getSourceFileFromReference: getSourceFileFromReference, getLibFileFromReference: getLibFileFromReference, sourceFileToPackageName: sourceFileToPackageName, redirectTargetsMap: redirectTargetsMap, isEmittedFile: isEmittedFile, getConfigFileParsingDiagnostics: getConfigFileParsingDiagnostics, getResolvedModuleWithFailedLookupLocationsFromCache: getResolvedModuleWithFailedLookupLocationsFromCache, getProjectReferences: getProjectReferences, getResolvedProjectReferences: getResolvedProjectReferences, getProjectReferenceRedirect: getProjectReferenceRedirect, getResolvedProjectReferenceToRedirect: getResolvedProjectReferenceToRedirect, getResolvedProjectReferenceByPath: getResolvedProjectReferenceByPath, forEachResolvedProjectReference: forEachResolvedProjectReference, isSourceOfProjectReferenceRedirect: isSourceOfProjectReferenceRedirect, emitBuildInfo: emitBuildInfo, fileExists: fileExists, getProbableSymlinks: getProbableSymlinks, useCaseSensitiveFileNames: function () { return host.useCaseSensitiveFileNames(); }, }; onProgramCreateComplete(); verifyCompilerOptions(); ts.performance.mark("afterProgram"); ts.performance.measure("Program", "beforeProgram", "afterProgram"); return program; function resolveModuleNamesWorker(moduleNames, containingFile, reusedNames, redirectedReference) { ts.performance.mark("beforeResolveModule"); var result = actualResolveModuleNamesWorker(moduleNames, containingFile, reusedNames, redirectedReference); ts.performance.mark("afterResolveModule"); ts.performance.measure("ResolveModule", "beforeResolveModule", "afterResolveModule"); return result; } function resolveTypeReferenceDirectiveNamesWorker(typeDirectiveNames, containingFile, redirectedReference) { ts.performance.mark("beforeResolveTypeReference"); var result = actualResolveTypeReferenceDirectiveNamesWorker(typeDirectiveNames, containingFile, redirectedReference); ts.performance.mark("afterResolveTypeReference"); ts.performance.measure("ResolveTypeReference", "beforeResolveTypeReference", "afterResolveTypeReference"); return result; } function compareDefaultLibFiles(a, b) { return ts.compareValues(getDefaultLibFilePriority(a), getDefaultLibFilePriority(b)); } function getDefaultLibFilePriority(a) { if (ts.containsPath(defaultLibraryPath, a.fileName, /*ignoreCase*/ false)) { var basename = ts.getBaseFileName(a.fileName); if (basename === "lib.d.ts" || basename === "lib.es6.d.ts") return 0; var name = ts.removeSuffix(ts.removePrefix(basename, "lib."), ".d.ts"); var index = ts.libs.indexOf(name); if (index !== -1) return index + 1; } return ts.libs.length + 2; } function getResolvedModuleWithFailedLookupLocationsFromCache(moduleName, containingFile) { return moduleResolutionCache && ts.resolveModuleNameFromCache(moduleName, containingFile, moduleResolutionCache); } function toPath(fileName) { return ts.toPath(fileName, currentDirectory, getCanonicalFileName); } function getCommonSourceDirectory() { if (commonSourceDirectory === undefined) { var emittedFiles = ts.filter(files, function (file) { return ts.sourceFileMayBeEmitted(file, program); }); if (options.rootDir && checkSourceFilesBelongToPath(emittedFiles, options.rootDir)) { // If a rootDir is specified use it as the commonSourceDirectory commonSourceDirectory = ts.getNormalizedAbsolutePath(options.rootDir, currentDirectory); } else if (options.composite && options.configFilePath) { // Project compilations never infer their root from the input source paths commonSourceDirectory = ts.getDirectoryPath(ts.normalizeSlashes(options.configFilePath)); checkSourceFilesBelongToPath(emittedFiles, commonSourceDirectory); } else { commonSourceDirectory = computeCommonSourceDirectory(emittedFiles); } if (commonSourceDirectory && commonSourceDirectory[commonSourceDirectory.length - 1] !== ts.directorySeparator) { // Make sure directory path ends with directory separator so this string can directly // used to replace with "" to get the relative path of the source file and the relative path doesn't // start with / making it rooted path commonSourceDirectory += ts.directorySeparator; } } return commonSourceDirectory; } function getClassifiableNames() { if (!classifiableNames) { // Initialize a checker so that all our files are bound. getTypeChecker(); classifiableNames = ts.createUnderscoreEscapedMap(); for (var _i = 0, files_2 = files; _i < files_2.length; _i++) { var sourceFile = files_2[_i]; ts.copyEntries(sourceFile.classifiableNames, classifiableNames); } } return classifiableNames; } function resolveModuleNamesReusingOldState(moduleNames, containingFile, file) { if (structuralIsReused === 0 /* Not */ && !file.ambientModuleNames.length) { // If the old program state does not permit reusing resolutions and `file` does not contain locally defined ambient modules, // the best we can do is fallback to the default logic. return resolveModuleNamesWorker(moduleNames, containingFile, /*reusedNames*/ undefined, getResolvedProjectReferenceToRedirect(file.originalFileName)); } var oldSourceFile = oldProgram && oldProgram.getSourceFile(containingFile); if (oldSourceFile !== file && file.resolvedModules) { // `file` was created for the new program. // // We only set `file.resolvedModules` via work from the current function, // so it is defined iff we already called the current function on `file`. // That call happened no later than the creation of the `file` object, // which per above occurred during the current program creation. // Since we assume the filesystem does not change during program creation, // it is safe to reuse resolutions from the earlier call. var result_11 = []; for (var _i = 0, moduleNames_1 = moduleNames; _i < moduleNames_1.length; _i++) { var moduleName = moduleNames_1[_i]; var resolvedModule = file.resolvedModules.get(moduleName); result_11.push(resolvedModule); } return result_11; } // At this point, we know at least one of the following hold: // - file has local declarations for ambient modules // - old program state is available // With this information, we can infer some module resolutions without performing resolution. /** An ordered list of module names for which we cannot recover the resolution. */ var unknownModuleNames; /** * The indexing of elements in this list matches that of `moduleNames`. * * Before combining results, result[i] is in one of the following states: * * undefined: needs to be recomputed, * * predictedToResolveToAmbientModuleMarker: known to be an ambient module. * Needs to be reset to undefined before returning, * * ResolvedModuleFull instance: can be reused. */ var result; var reusedNames; /** A transient placeholder used to mark predicted resolution in the result list. */ var predictedToResolveToAmbientModuleMarker = {}; for (var i = 0; i < moduleNames.length; i++) { var moduleName = moduleNames[i]; // If the source file is unchanged and doesnt have invalidated resolution, reuse the module resolutions if (file === oldSourceFile && !hasInvalidatedResolution(oldSourceFile.path)) { var oldResolvedModule = oldSourceFile && oldSourceFile.resolvedModules.get(moduleName); if (oldResolvedModule) { if (ts.isTraceEnabled(options, host)) { ts.trace(host, ts.Diagnostics.Reusing_resolution_of_module_0_to_file_1_from_old_program, moduleName, containingFile); } (result || (result = new Array(moduleNames.length)))[i] = oldResolvedModule; (reusedNames || (reusedNames = [])).push(moduleName); continue; } } // We know moduleName resolves to an ambient module provided that moduleName: // - is in the list of ambient modules locally declared in the current source file. // - resolved to an ambient module in the old program whose declaration is in an unmodified file // (so the same module declaration will land in the new program) var resolvesToAmbientModuleInNonModifiedFile = false; if (ts.contains(file.ambientModuleNames, moduleName)) { resolvesToAmbientModuleInNonModifiedFile = true; if (ts.isTraceEnabled(options, host)) { ts.trace(host, ts.Diagnostics.Module_0_was_resolved_as_locally_declared_ambient_module_in_file_1, moduleName, containingFile); } } else { resolvesToAmbientModuleInNonModifiedFile = moduleNameResolvesToAmbientModuleInNonModifiedFile(moduleName); } if (resolvesToAmbientModuleInNonModifiedFile) { (result || (result = new Array(moduleNames.length)))[i] = predictedToResolveToAmbientModuleMarker; } else { // Resolution failed in the old program, or resolved to an ambient module for which we can't reuse the result. (unknownModuleNames || (unknownModuleNames = [])).push(moduleName); } } var resolutions = unknownModuleNames && unknownModuleNames.length ? resolveModuleNamesWorker(unknownModuleNames, containingFile, reusedNames, getResolvedProjectReferenceToRedirect(file.originalFileName)) : ts.emptyArray; // Combine results of resolutions and predicted results if (!result) { // There were no unresolved/ambient resolutions. ts.Debug.assert(resolutions.length === moduleNames.length); return resolutions; } var j = 0; for (var i = 0; i < result.length; i++) { if (result[i]) { // `result[i]` is either a `ResolvedModuleFull` or a marker. // If it is the former, we can leave it as is. if (result[i] === predictedToResolveToAmbientModuleMarker) { result[i] = undefined; // TODO: GH#18217 } } else { result[i] = resolutions[j]; j++; } } ts.Debug.assert(j === resolutions.length); return result; // If we change our policy of rechecking failed lookups on each program create, // we should adjust the value returned here. function moduleNameResolvesToAmbientModuleInNonModifiedFile(moduleName) { var resolutionToFile = ts.getResolvedModule(oldSourceFile, moduleName); var resolvedFile = resolutionToFile && oldProgram.getSourceFile(resolutionToFile.resolvedFileName); if (resolutionToFile && resolvedFile) { // In the old program, we resolved to an ambient module that was in the same // place as we expected to find an actual module file. // We actually need to return 'false' here even though this seems like a 'true' case // because the normal module resolution algorithm will find this anyway. return false; } // at least one of declarations should come from non-modified source file var unmodifiedFile = ambientModuleNameToUnmodifiedFileName.get(moduleName); if (!unmodifiedFile) { return false; } if (ts.isTraceEnabled(options, host)) { ts.trace(host, ts.Diagnostics.Module_0_was_resolved_as_ambient_module_declared_in_1_since_this_file_was_not_modified, moduleName, unmodifiedFile); } return true; } } function canReuseProjectReferences() { return !forEachProjectReference(oldProgram.getProjectReferences(), oldProgram.getResolvedProjectReferences(), function (oldResolvedRef, index, parent) { var newRef = (parent ? parent.commandLine.projectReferences : projectReferences)[index]; var newResolvedRef = parseProjectReferenceConfigFile(newRef); if (oldResolvedRef) { // Resolved project reference has gone missing or changed return !newResolvedRef || newResolvedRef.sourceFile !== oldResolvedRef.sourceFile; } else { // A previously-unresolved reference may be resolved now return newResolvedRef !== undefined; } }, function (oldProjectReferences, parent) { // If array of references is changed, we cant resue old program var newReferences = parent ? getResolvedProjectReferenceByPath(parent.sourceFile.path).commandLine.projectReferences : projectReferences; return !ts.arrayIsEqualTo(oldProjectReferences, newReferences, ts.projectReferenceIsEqualTo); }); } function tryReuseStructureFromOldProgram() { if (!oldProgram) { return 0 /* Not */; } // check properties that can affect structure of the program or module resolution strategy // if any of these properties has changed - structure cannot be reused var oldOptions = oldProgram.getCompilerOptions(); if (ts.changesAffectModuleResolution(oldOptions, options)) { return oldProgram.structureIsReused = 0 /* Not */; } ts.Debug.assert(!(oldProgram.structureIsReused & (2 /* Completely */ | 1 /* SafeModules */))); // there is an old program, check if we can reuse its structure var oldRootNames = oldProgram.getRootFileNames(); if (!ts.arrayIsEqualTo(oldRootNames, rootNames)) { return oldProgram.structureIsReused = 0 /* Not */; } if (!ts.arrayIsEqualTo(options.types, oldOptions.types)) { return oldProgram.structureIsReused = 0 /* Not */; } // Check if any referenced project tsconfig files are different if (!canReuseProjectReferences()) { return oldProgram.structureIsReused = 0 /* Not */; } if (projectReferences) { resolvedProjectReferences = projectReferences.map(parseProjectReferenceConfigFile); } // check if program source files has changed in the way that can affect structure of the program var newSourceFiles = []; var modifiedSourceFiles = []; oldProgram.structureIsReused = 2 /* Completely */; // If the missing file paths are now present, it can change the progam structure, // and hence cant reuse the structure. // This is same as how we dont reuse the structure if one of the file from old program is now missing if (oldProgram.getMissingFilePaths().some(function (missingFilePath) { return host.fileExists(missingFilePath); })) { return oldProgram.structureIsReused = 0 /* Not */; } var oldSourceFiles = oldProgram.getSourceFiles(); var SeenPackageName; (function (SeenPackageName) { SeenPackageName[SeenPackageName["Exists"] = 0] = "Exists"; SeenPackageName[SeenPackageName["Modified"] = 1] = "Modified"; })(SeenPackageName || (SeenPackageName = {})); var seenPackageNames = ts.createMap(); for (var _i = 0, oldSourceFiles_2 = oldSourceFiles; _i < oldSourceFiles_2.length; _i++) { var oldSourceFile = oldSourceFiles_2[_i]; var newSourceFile = host.getSourceFileByPath ? host.getSourceFileByPath(oldSourceFile.fileName, oldSourceFile.resolvedPath, options.target, /*onError*/ undefined, shouldCreateNewSourceFile) : host.getSourceFile(oldSourceFile.fileName, options.target, /*onError*/ undefined, shouldCreateNewSourceFile); // TODO: GH#18217 if (!newSourceFile) { return oldProgram.structureIsReused = 0 /* Not */; } ts.Debug.assert(!newSourceFile.redirectInfo, "Host should not return a redirect source file from `getSourceFile`"); var fileChanged = void 0; if (oldSourceFile.redirectInfo) { // We got `newSourceFile` by path, so it is actually for the unredirected file. // This lets us know if the unredirected file has changed. If it has we should break the redirect. if (newSourceFile !== oldSourceFile.redirectInfo.unredirected) { // Underlying file has changed. Might not redirect anymore. Must rebuild program. return oldProgram.structureIsReused = 0 /* Not */; } fileChanged = false; newSourceFile = oldSourceFile; // Use the redirect. } else if (oldProgram.redirectTargetsMap.has(oldSourceFile.path)) { // If a redirected-to source file changes, the redirect may be broken. if (newSourceFile !== oldSourceFile) { return oldProgram.structureIsReused = 0 /* Not */; } fileChanged = false; } else { fileChanged = newSourceFile !== oldSourceFile; } // Since the project references havent changed, its right to set originalFileName and resolvedPath here newSourceFile.path = oldSourceFile.path; newSourceFile.originalFileName = oldSourceFile.originalFileName; newSourceFile.resolvedPath = oldSourceFile.resolvedPath; newSourceFile.fileName = oldSourceFile.fileName; var packageName = oldProgram.sourceFileToPackageName.get(oldSourceFile.path); if (packageName !== undefined) { // If there are 2 different source files for the same package name and at least one of them changes, // they might become redirects. So we must rebuild the program. var prevKind = seenPackageNames.get(packageName); var newKind = fileChanged ? 1 /* Modified */ : 0 /* Exists */; if ((prevKind !== undefined && newKind === 1 /* Modified */) || prevKind === 1 /* Modified */) { return oldProgram.structureIsReused = 0 /* Not */; } seenPackageNames.set(packageName, newKind); } if (fileChanged) { // The `newSourceFile` object was created for the new program. if (!ts.arrayIsEqualTo(oldSourceFile.libReferenceDirectives, newSourceFile.libReferenceDirectives, fileReferenceIsEqualTo)) { // 'lib' references has changed. Matches behavior in changesAffectModuleResolution return oldProgram.structureIsReused = 0 /* Not */; } if (oldSourceFile.hasNoDefaultLib !== newSourceFile.hasNoDefaultLib) { // value of no-default-lib has changed // this will affect if default library is injected into the list of files oldProgram.structureIsReused = 1 /* SafeModules */; } // check tripleslash references if (!ts.arrayIsEqualTo(oldSourceFile.referencedFiles, newSourceFile.referencedFiles, fileReferenceIsEqualTo)) { // tripleslash references has changed oldProgram.structureIsReused = 1 /* SafeModules */; } // check imports and module augmentations collectExternalModuleReferences(newSourceFile); if (!ts.arrayIsEqualTo(oldSourceFile.imports, newSourceFile.imports, moduleNameIsEqualTo)) { // imports has changed oldProgram.structureIsReused = 1 /* SafeModules */; } if (!ts.arrayIsEqualTo(oldSourceFile.moduleAugmentations, newSourceFile.moduleAugmentations, moduleNameIsEqualTo)) { // moduleAugmentations has changed oldProgram.structureIsReused = 1 /* SafeModules */; } if ((oldSourceFile.flags & 3145728 /* PermanentlySetIncrementalFlags */) !== (newSourceFile.flags & 3145728 /* PermanentlySetIncrementalFlags */)) { // dynamicImport has changed oldProgram.structureIsReused = 1 /* SafeModules */; } if (!ts.arrayIsEqualTo(oldSourceFile.typeReferenceDirectives, newSourceFile.typeReferenceDirectives, fileReferenceIsEqualTo)) { // 'types' references has changed oldProgram.structureIsReused = 1 /* SafeModules */; } // tentatively approve the file modifiedSourceFiles.push({ oldFile: oldSourceFile, newFile: newSourceFile }); } else if (hasInvalidatedResolution(oldSourceFile.path)) { // 'module/types' references could have changed oldProgram.structureIsReused = 1 /* SafeModules */; // add file to the modified list so that we will resolve it later modifiedSourceFiles.push({ oldFile: oldSourceFile, newFile: newSourceFile }); } // if file has passed all checks it should be safe to reuse it newSourceFiles.push(newSourceFile); } if (oldProgram.structureIsReused !== 2 /* Completely */) { return oldProgram.structureIsReused; } var modifiedFiles = modifiedSourceFiles.map(function (f) { return f.oldFile; }); for (var _a = 0, oldSourceFiles_3 = oldSourceFiles; _a < oldSourceFiles_3.length; _a++) { var oldFile = oldSourceFiles_3[_a]; if (!ts.contains(modifiedFiles, oldFile)) { for (var _b = 0, _c = oldFile.ambientModuleNames; _b < _c.length; _b++) { var moduleName = _c[_b]; ambientModuleNameToUnmodifiedFileName.set(moduleName, oldFile.fileName); } } } // try to verify results of module resolution for (var _d = 0, modifiedSourceFiles_1 = modifiedSourceFiles; _d < modifiedSourceFiles_1.length; _d++) { var _e = modifiedSourceFiles_1[_d], oldSourceFile = _e.oldFile, newSourceFile = _e.newFile; var newSourceFilePath = ts.getNormalizedAbsolutePath(newSourceFile.originalFileName, currentDirectory); var moduleNames = getModuleNames(newSourceFile); var resolutions = resolveModuleNamesReusingOldState(moduleNames, newSourceFilePath, newSourceFile); // ensure that module resolution results are still correct var resolutionsChanged = ts.hasChangesInResolutions(moduleNames, resolutions, oldSourceFile.resolvedModules, ts.moduleResolutionIsEqualTo); if (resolutionsChanged) { oldProgram.structureIsReused = 1 /* SafeModules */; newSourceFile.resolvedModules = ts.zipToMap(moduleNames, resolutions); } else { newSourceFile.resolvedModules = oldSourceFile.resolvedModules; } if (resolveTypeReferenceDirectiveNamesWorker) { // We lower-case all type references because npm automatically lowercases all packages. See GH#9824. var typesReferenceDirectives = ts.map(newSourceFile.typeReferenceDirectives, function (ref) { return ts.toFileNameLowerCase(ref.fileName); }); var resolutions_1 = resolveTypeReferenceDirectiveNamesWorker(typesReferenceDirectives, newSourceFilePath, getResolvedProjectReferenceToRedirect(newSourceFile.originalFileName)); // ensure that types resolutions are still correct var resolutionsChanged_1 = ts.hasChangesInResolutions(typesReferenceDirectives, resolutions_1, oldSourceFile.resolvedTypeReferenceDirectiveNames, ts.typeDirectiveIsEqualTo); if (resolutionsChanged_1) { oldProgram.structureIsReused = 1 /* SafeModules */; newSourceFile.resolvedTypeReferenceDirectiveNames = ts.zipToMap(typesReferenceDirectives, resolutions_1); } else { newSourceFile.resolvedTypeReferenceDirectiveNames = oldSourceFile.resolvedTypeReferenceDirectiveNames; } } } if (oldProgram.structureIsReused !== 2 /* Completely */) { return oldProgram.structureIsReused; } if (host.hasChangedAutomaticTypeDirectiveNames) { return oldProgram.structureIsReused = 1 /* SafeModules */; } missingFilePaths = oldProgram.getMissingFilePaths(); refFileMap = oldProgram.getRefFileMap(); // update fileName -> file mapping ts.Debug.assert(newSourceFiles.length === oldProgram.getSourceFiles().length); for (var _f = 0, newSourceFiles_1 = newSourceFiles; _f < newSourceFiles_1.length; _f++) { var newSourceFile = newSourceFiles_1[_f]; filesByName.set(newSourceFile.path, newSourceFile); } var oldFilesByNameMap = oldProgram.getFilesByNameMap(); oldFilesByNameMap.forEach(function (oldFile, path) { if (!oldFile) { filesByName.set(path, oldFile); return; } if (oldFile.path === path) { // Set the file as found during node modules search if it was found that way in old progra, if (oldProgram.isSourceFileFromExternalLibrary(oldFile)) { sourceFilesFoundSearchingNodeModules.set(oldFile.path, true); } return; } filesByName.set(path, filesByName.get(oldFile.path)); }); files = newSourceFiles; fileProcessingDiagnostics = oldProgram.getFileProcessingDiagnostics(); for (var _g = 0, modifiedSourceFiles_2 = modifiedSourceFiles; _g < modifiedSourceFiles_2.length; _g++) { var modifiedFile = modifiedSourceFiles_2[_g]; fileProcessingDiagnostics.reattachFileDiagnostics(modifiedFile.newFile); } resolvedTypeReferenceDirectives = oldProgram.getResolvedTypeReferenceDirectives(); sourceFileToPackageName = oldProgram.sourceFileToPackageName; redirectTargetsMap = oldProgram.redirectTargetsMap; return oldProgram.structureIsReused = 2 /* Completely */; } function getEmitHost(writeFileCallback) { return { getPrependNodes: getPrependNodes, getCanonicalFileName: getCanonicalFileName, getCommonSourceDirectory: program.getCommonSourceDirectory, getCompilerOptions: program.getCompilerOptions, getCurrentDirectory: function () { return currentDirectory; }, getNewLine: function () { return host.getNewLine(); }, getSourceFile: program.getSourceFile, getSourceFileByPath: program.getSourceFileByPath, getSourceFiles: program.getSourceFiles, getLibFileFromReference: program.getLibFileFromReference, isSourceFileFromExternalLibrary: isSourceFileFromExternalLibrary, getResolvedProjectReferenceToRedirect: getResolvedProjectReferenceToRedirect, getProjectReferenceRedirect: getProjectReferenceRedirect, isSourceOfProjectReferenceRedirect: isSourceOfProjectReferenceRedirect, getProbableSymlinks: getProbableSymlinks, writeFile: writeFileCallback || (function (fileName, data, writeByteOrderMark, onError, sourceFiles) { return host.writeFile(fileName, data, writeByteOrderMark, onError, sourceFiles); }), isEmitBlocked: isEmitBlocked, readFile: function (f) { return host.readFile(f); }, fileExists: function (f) { // Use local caches var path = toPath(f); if (getSourceFileByPath(path)) return true; if (ts.contains(missingFilePaths, path)) return false; // Before falling back to the host return host.fileExists(f); }, useCaseSensitiveFileNames: function () { return host.useCaseSensitiveFileNames(); }, getProgramBuildInfo: function () { return program.getProgramBuildInfo && program.getProgramBuildInfo(); }, getSourceFileFromReference: function (file, ref) { return program.getSourceFileFromReference(file, ref); }, redirectTargetsMap: redirectTargetsMap, }; } function emitBuildInfo(writeFileCallback) { ts.Debug.assert(!options.out && !options.outFile); ts.performance.mark("beforeEmit"); var emitResult = ts.emitFiles(ts.notImplementedResolver, getEmitHost(writeFileCallback), /*targetSourceFile*/ undefined, /*transformers*/ ts.noTransformers, /*emitOnlyDtsFiles*/ false, /*onlyBuildInfo*/ true); ts.performance.mark("afterEmit"); ts.performance.measure("Emit", "beforeEmit", "afterEmit"); return emitResult; } function getResolvedProjectReferences() { return resolvedProjectReferences; } function getProjectReferences() { return projectReferences; } function getPrependNodes() { return createPrependNodes(projectReferences, function (_ref, index) { return resolvedProjectReferences[index].commandLine; }, function (fileName) { var path = toPath(fileName); var sourceFile = getSourceFileByPath(path); return sourceFile ? sourceFile.text : filesByName.has(path) ? undefined : host.readFile(path); }); } function isSourceFileFromExternalLibrary(file) { return !!sourceFilesFoundSearchingNodeModules.get(file.path); } function isSourceFileDefaultLibrary(file) { if (file.hasNoDefaultLib) { return true; } if (!options.noLib) { return false; } // If '--lib' is not specified, include default library file according to '--target' // otherwise, using options specified in '--lib' instead of '--target' default library file var equalityComparer = host.useCaseSensitiveFileNames() ? ts.equateStringsCaseSensitive : ts.equateStringsCaseInsensitive; if (!options.lib) { return equalityComparer(file.fileName, getDefaultLibraryFileName()); } else { return ts.some(options.lib, function (libFileName) { return equalityComparer(file.fileName, ts.combinePaths(defaultLibraryPath, libFileName)); }); } } function getDiagnosticsProducingTypeChecker() { return diagnosticsProducingTypeChecker || (diagnosticsProducingTypeChecker = ts.createTypeChecker(program, /*produceDiagnostics:*/ true)); } function dropDiagnosticsProducingTypeChecker() { diagnosticsProducingTypeChecker = undefined; } function getTypeChecker() { return noDiagnosticsTypeChecker || (noDiagnosticsTypeChecker = ts.createTypeChecker(program, /*produceDiagnostics:*/ false)); } function emit(sourceFile, writeFileCallback, cancellationToken, emitOnlyDtsFiles, transformers, forceDtsEmit) { return runWithCancellationToken(function () { return emitWorker(program, sourceFile, writeFileCallback, cancellationToken, emitOnlyDtsFiles, transformers, forceDtsEmit); }); } function isEmitBlocked(emitFileName) { return hasEmitBlockingDiagnostics.has(toPath(emitFileName)); } function emitWorker(program, sourceFile, writeFileCallback, cancellationToken, emitOnlyDtsFiles, customTransformers, forceDtsEmit) { if (!forceDtsEmit) { var result = handleNoEmitOptions(program, sourceFile, cancellationToken); if (result) return result; } // Create the emit resolver outside of the "emitTime" tracking code below. That way // any cost associated with it (like type checking) are appropriate associated with // the type-checking counter. // // If the -out option is specified, we should not pass the source file to getEmitResolver. // This is because in the -out scenario all files need to be emitted, and therefore all // files need to be type checked. And the way to specify that all files need to be type // checked is to not pass the file to getEmitResolver. var emitResolver = getDiagnosticsProducingTypeChecker().getEmitResolver((options.outFile || options.out) ? undefined : sourceFile, cancellationToken); ts.performance.mark("beforeEmit"); var emitResult = ts.emitFiles(emitResolver, getEmitHost(writeFileCallback), sourceFile, ts.getTransformers(options, customTransformers, emitOnlyDtsFiles), emitOnlyDtsFiles, /*onlyBuildInfo*/ false, forceDtsEmit); ts.performance.mark("afterEmit"); ts.performance.measure("Emit", "beforeEmit", "afterEmit"); return emitResult; } function getSourceFile(fileName) { return getSourceFileByPath(toPath(fileName)); } function getSourceFileByPath(path) { return filesByName.get(path) || undefined; } function getDiagnosticsHelper(sourceFile, getDiagnostics, cancellationToken) { if (sourceFile) { return getDiagnostics(sourceFile, cancellationToken); } return ts.sortAndDeduplicateDiagnostics(ts.flatMap(program.getSourceFiles(), function (sourceFile) { if (cancellationToken) { cancellationToken.throwIfCancellationRequested(); } return getDiagnostics(sourceFile, cancellationToken); })); } function getSyntacticDiagnostics(sourceFile, cancellationToken) { return getDiagnosticsHelper(sourceFile, getSyntacticDiagnosticsForFile, cancellationToken); } function getSemanticDiagnostics(sourceFile, cancellationToken) { return getDiagnosticsHelper(sourceFile, getSemanticDiagnosticsForFile, cancellationToken); } function getBindAndCheckDiagnostics(sourceFile, cancellationToken) { return getBindAndCheckDiagnosticsForFile(sourceFile, cancellationToken); } function getProgramDiagnostics(sourceFile) { if (ts.skipTypeChecking(sourceFile, options, program)) { return ts.emptyArray; } var fileProcessingDiagnosticsInFile = fileProcessingDiagnostics.getDiagnostics(sourceFile.fileName); var programDiagnosticsInFile = programDiagnostics.getDiagnostics(sourceFile.fileName); return getMergedProgramDiagnostics(sourceFile, fileProcessingDiagnosticsInFile, programDiagnosticsInFile); } function getMergedProgramDiagnostics(sourceFile) { var _a; var allDiagnostics = []; for (var _i = 1; _i < arguments.length; _i++) { allDiagnostics[_i - 1] = arguments[_i]; } var flatDiagnostics = ts.flatten(allDiagnostics); if (!((_a = sourceFile.commentDirectives) === null || _a === void 0 ? void 0 : _a.length)) { return flatDiagnostics; } return getDiagnosticsWithPrecedingDirectives(sourceFile, sourceFile.commentDirectives, flatDiagnostics).diagnostics; } function getDeclarationDiagnostics(sourceFile, cancellationToken) { var options = program.getCompilerOptions(); // collect diagnostics from the program only once if either no source file was specified or out/outFile is set (bundled emit) if (!sourceFile || options.out || options.outFile) { return getDeclarationDiagnosticsWorker(sourceFile, cancellationToken); } else { return getDiagnosticsHelper(sourceFile, getDeclarationDiagnosticsForFile, cancellationToken); } } function getSyntacticDiagnosticsForFile(sourceFile) { // For JavaScript files, we report semantic errors for using TypeScript-only // constructs from within a JavaScript file as syntactic errors. if (ts.isSourceFileJS(sourceFile)) { if (!sourceFile.additionalSyntacticDiagnostics) { sourceFile.additionalSyntacticDiagnostics = getJSSyntacticDiagnosticsForFile(sourceFile); } return ts.concatenate(sourceFile.additionalSyntacticDiagnostics, sourceFile.parseDiagnostics); } return sourceFile.parseDiagnostics; } function runWithCancellationToken(func) { try { return func(); } catch (e) { if (e instanceof ts.OperationCanceledException) { // We were canceled while performing the operation. Because our type checker // might be a bad state, we need to throw it away. // // Note: we are overly aggressive here. We do not actually *have* to throw away // the "noDiagnosticsTypeChecker". However, for simplicity, i'd like to keep // the lifetimes of these two TypeCheckers the same. Also, we generally only // cancel when the user has made a change anyways. And, in that case, we (the // program instance) will get thrown away anyways. So trying to keep one of // these type checkers alive doesn't serve much purpose. noDiagnosticsTypeChecker = undefined; diagnosticsProducingTypeChecker = undefined; } throw e; } } function getSemanticDiagnosticsForFile(sourceFile, cancellationToken) { return ts.concatenate(getBindAndCheckDiagnosticsForFile(sourceFile, cancellationToken), getProgramDiagnostics(sourceFile)); } function getBindAndCheckDiagnosticsForFile(sourceFile, cancellationToken) { return getAndCacheDiagnostics(sourceFile, cancellationToken, cachedBindAndCheckDiagnosticsForFile, getBindAndCheckDiagnosticsForFileNoCache); } function getBindAndCheckDiagnosticsForFileNoCache(sourceFile, cancellationToken) { return runWithCancellationToken(function () { if (ts.skipTypeChecking(sourceFile, options, program)) { return ts.emptyArray; } var typeChecker = getDiagnosticsProducingTypeChecker(); ts.Debug.assert(!!sourceFile.bindDiagnostics); var isCheckJs = ts.isCheckJsEnabledForFile(sourceFile, options); var isTsNoCheck = !!sourceFile.checkJsDirective && sourceFile.checkJsDirective.enabled === false; // By default, only type-check .ts, .tsx, 'Deferred' and 'External' files (external files are added by plugins) var includeBindAndCheckDiagnostics = !isTsNoCheck && (sourceFile.scriptKind === 3 /* TS */ || sourceFile.scriptKind === 4 /* TSX */ || sourceFile.scriptKind === 5 /* External */ || isCheckJs || sourceFile.scriptKind === 7 /* Deferred */); var bindDiagnostics = includeBindAndCheckDiagnostics ? sourceFile.bindDiagnostics : ts.emptyArray; var checkDiagnostics = includeBindAndCheckDiagnostics ? typeChecker.getDiagnostics(sourceFile, cancellationToken) : ts.emptyArray; return getMergedBindAndCheckDiagnostics(sourceFile, bindDiagnostics, checkDiagnostics, isCheckJs ? sourceFile.jsDocDiagnostics : undefined); }); } function getMergedBindAndCheckDiagnostics(sourceFile) { var _a; var allDiagnostics = []; for (var _i = 1; _i < arguments.length; _i++) { allDiagnostics[_i - 1] = arguments[_i]; } var flatDiagnostics = ts.flatten(allDiagnostics); if (!((_a = sourceFile.commentDirectives) === null || _a === void 0 ? void 0 : _a.length)) { return flatDiagnostics; } var _b = getDiagnosticsWithPrecedingDirectives(sourceFile, sourceFile.commentDirectives, flatDiagnostics), diagnostics = _b.diagnostics, directives = _b.directives; for (var _c = 0, _d = directives.getUnusedExpectations(); _c < _d.length; _c++) { var errorExpectation = _d[_c]; diagnostics.push(ts.createDiagnosticForRange(sourceFile, errorExpectation.range, ts.Diagnostics.Unused_ts_expect_error_directive)); } return diagnostics; } /** * Creates a map of comment directives along with the diagnostics immediately preceded by one of them. * Comments that match to any of those diagnostics are marked as used. */ function getDiagnosticsWithPrecedingDirectives(sourceFile, commentDirectives, flatDiagnostics) { // Diagnostics are only reported if there is no comment directive preceding them // This will modify the directives map by marking "used" ones with a corresponding diagnostic var directives = ts.createCommentDirectivesMap(sourceFile, commentDirectives); var diagnostics = flatDiagnostics.filter(function (diagnostic) { return markPrecedingCommentDirectiveLine(diagnostic, directives) === -1; }); return { diagnostics: diagnostics, directives: directives }; } function getSuggestionDiagnostics(sourceFile, cancellationToken) { return runWithCancellationToken(function () { return getDiagnosticsProducingTypeChecker().getSuggestionDiagnostics(sourceFile, cancellationToken); }); } /** * @returns The line index marked as preceding the diagnostic, or -1 if none was. */ function markPrecedingCommentDirectiveLine(diagnostic, directives) { var file = diagnostic.file, start = diagnostic.start; if (!file) { return -1; } // Start out with the line just before the text var lineStarts = ts.getLineStarts(file); var line = ts.computeLineAndCharacterOfPosition(lineStarts, start).line - 1; // TODO: GH#18217 while (line >= 0) { // As soon as that line is known to have a comment directive, use that if (directives.markUsed(line)) { return line; } // Stop searching if the line is not empty and not a comment var lineText = file.text.slice(lineStarts[line], lineStarts[line + 1]).trim(); if (lineText !== "" && !/^(\s*)\/\/(.*)$/.test(lineText)) { return -1; } line--; } return -1; } function getJSSyntacticDiagnosticsForFile(sourceFile) { return runWithCancellationToken(function () { var diagnostics = []; walk(sourceFile, sourceFile); ts.forEachChildRecursively(sourceFile, walk, walkArray); return diagnostics; function walk(node, parent) { // Return directly from the case if the given node doesnt want to visit each child // Otherwise break to visit each child switch (parent.kind) { case 156 /* Parameter */: case 159 /* PropertyDeclaration */: case 161 /* MethodDeclaration */: if (parent.questionToken === node) { diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.The_0_modifier_can_only_be_used_in_TypeScript_files, "?")); return "skip"; } // falls through case 160 /* MethodSignature */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 201 /* FunctionExpression */: case 244 /* FunctionDeclaration */: case 202 /* ArrowFunction */: case 242 /* VariableDeclaration */: // type annotation if (parent.type === node) { diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.Type_annotations_can_only_be_used_in_TypeScript_files)); return "skip"; } } switch (node.kind) { case 255 /* ImportClause */: if (node.isTypeOnly) { diagnostics.push(createDiagnosticForNode(node.parent, ts.Diagnostics._0_declarations_can_only_be_used_in_TypeScript_files, "import type")); return "skip"; } break; case 260 /* ExportDeclaration */: if (node.isTypeOnly) { diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics._0_declarations_can_only_be_used_in_TypeScript_files, "export type")); return "skip"; } break; case 253 /* ImportEqualsDeclaration */: diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.import_can_only_be_used_in_TypeScript_files)); return "skip"; case 259 /* ExportAssignment */: if (node.isExportEquals) { diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.export_can_only_be_used_in_TypeScript_files)); return "skip"; } break; case 279 /* HeritageClause */: var heritageClause = node; if (heritageClause.token === 113 /* ImplementsKeyword */) { diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.implements_clauses_can_only_be_used_in_TypeScript_files)); return "skip"; } break; case 246 /* InterfaceDeclaration */: var interfaceKeyword = ts.tokenToString(114 /* InterfaceKeyword */); ts.Debug.assertIsDefined(interfaceKeyword); diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics._0_declarations_can_only_be_used_in_TypeScript_files, interfaceKeyword)); return "skip"; case 249 /* ModuleDeclaration */: var moduleKeyword = node.flags & 16 /* Namespace */ ? ts.tokenToString(136 /* NamespaceKeyword */) : ts.tokenToString(135 /* ModuleKeyword */); ts.Debug.assertIsDefined(moduleKeyword); diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics._0_declarations_can_only_be_used_in_TypeScript_files, moduleKeyword)); return "skip"; case 247 /* TypeAliasDeclaration */: diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.Type_aliases_can_only_be_used_in_TypeScript_files)); return "skip"; case 248 /* EnumDeclaration */: var enumKeyword = ts.Debug.checkDefined(ts.tokenToString(88 /* EnumKeyword */)); diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics._0_declarations_can_only_be_used_in_TypeScript_files, enumKeyword)); return "skip"; case 218 /* NonNullExpression */: diagnostics.push(createDiagnosticForNode(node, ts.Diagnostics.Non_null_assertions_can_only_be_used_in_TypeScript_files)); return "skip"; case 217 /* AsExpression */: diagnostics.push(createDiagnosticForNode(node.type, ts.Diagnostics.Type_assertion_expressions_can_only_be_used_in_TypeScript_files)); return "skip"; case 199 /* TypeAssertionExpression */: ts.Debug.fail(); // Won't parse these in a JS file anyway, as they are interpreted as JSX. } } function walkArray(nodes, parent) { if (parent.decorators === nodes && !options.experimentalDecorators) { diagnostics.push(createDiagnosticForNode(parent, ts.Diagnostics.Experimental_support_for_decorators_is_a_feature_that_is_subject_to_change_in_a_future_release_Set_the_experimentalDecorators_option_in_your_tsconfig_or_jsconfig_to_remove_this_warning)); } switch (parent.kind) { case 245 /* ClassDeclaration */: case 214 /* ClassExpression */: case 161 /* MethodDeclaration */: case 162 /* Constructor */: case 163 /* GetAccessor */: case 164 /* SetAccessor */: case 201 /* FunctionExpression */: case 244 /* FunctionDeclaration */: case 202 /* ArrowFunction */: // Check type parameters if (nodes === parent.typeParameters) { diagnostics.push(createDiagnosticForNodeArray(nodes, ts.Diagnostics.Type_parameter_declarations_can_only_be_used_in_TypeScript_files)); return "skip"; } // falls through case 225 /* VariableStatement */: // Check modifiers if (nodes === parent.modifiers) { checkModifiers(parent.modifiers, parent.kind === 225 /* VariableStatement */); return "skip"; } break; case 159 /* PropertyDeclaration */: // Check modifiers of property declaration if (nodes === parent.modifiers) { for (var _i = 0, _a = nodes; _i < _a.length; _i++) { var modifier = _a[_i]; if (modifier.kind !== 120 /* StaticKeyword */) { diagnostics.push(createDiagnosticForNode(modifier, ts.Diagnostics.The_0_modifier_can_only_be_used_in_TypeScript_files, ts.tokenToString(modifier.kind))); } } return "skip"; } break; case 156 /* Parameter */: // Check modifiers of parameter declaration if (nodes === parent.modifiers) { diagnostics.push(createDiagnosticForNodeArray(nodes, ts.Diagnostics.Parameter_modifiers_can_only_be_used_in_TypeScript_files)); return "skip"; } break; case 196 /* CallExpression */: case 197 /* NewExpression */: case 216 /* ExpressionWithTypeArguments */: case 267 /* JsxSelfClosingElement */: case 268 /* JsxOpeningElement */: case 198 /* TaggedTemplateExpression */: // Check type arguments if (nodes === parent.typeArguments) { diagnostics.push(createDiagnosticForNodeArray(nodes, ts.Diagnostics.Type_arguments_can_only_be_used_in_TypeScript_files)); return "skip"; } break; } } function checkModifiers(modifiers, isConstValid) { for (var _i = 0, modifiers_1 = modifiers; _i < modifiers_1.length; _i++) { var modifier = modifiers_1[_i]; switch (modifier.kind) { case 81 /* ConstKeyword */: if (isConstValid) { continue; } // to report error, // falls through case 119 /* PublicKeyword */: case 117 /* PrivateKeyword */: case 118 /* ProtectedKeyword */: case 138 /* ReadonlyKeyword */: case 130 /* DeclareKeyword */: case 122 /* AbstractKeyword */: diagnostics.push(createDiagnosticForNode(modifier, ts.Diagnostics.The_0_modifier_can_only_be_used_in_TypeScript_files, ts.tokenToString(modifier.kind))); break; // These are all legal modifiers. case 120 /* StaticKeyword */: case 89 /* ExportKeyword */: case 84 /* DefaultKeyword */: } } } function createDiagnosticForNodeArray(nodes, message, arg0, arg1, arg2) { var start = nodes.pos; return ts.createFileDiagnostic(sourceFile, start, nodes.end - start, message, arg0, arg1, arg2); } // Since these are syntactic diagnostics, parent might not have been set // this means the sourceFile cannot be infered from the node function createDiagnosticForNode(node, message, arg0, arg1, arg2) { return ts.createDiagnosticForNodeInSourceFile(sourceFile, node, message, arg0, arg1, arg2); } }); } function getDeclarationDiagnosticsWorker(sourceFile, cancellationToken) { return getAndCacheDiagnostics(sourceFile, cancellationToken, cachedDeclarationDiagnosticsForFile, getDeclarationDiagnosticsForFileNoCache); } function getDeclarationDiagnosticsForFileNoCache(sourceFile, cancellationToken) { return runWithCancellationToken(function () { var resolver = getDiagnosticsProducingTypeChecker().getEmitResolver(sourceFile, cancellationToken); // Don't actually write any files since we're just getting diagnostics. return ts.getDeclarationDiagnostics(getEmitHost(ts.noop), resolver, sourceFile) || ts.emptyArray; }); } function getAndCacheDiagnostics(sourceFile, cancellationToken, cache, getDiagnostics) { var cachedResult = sourceFile ? cache.perFile && cache.perFile.get(sourceFile.path) : cache.allDiagnostics; if (cachedResult) { return cachedResult; } var result = getDiagnostics(sourceFile, cancellationToken); if (sourceFile) { if (!cache.perFile) { cache.perFile = ts.createMap(); } cache.perFile.set(sourceFile.path, result); } else { cache.allDiagnostics = result; } return result; } function getDeclarationDiagnosticsForFile(sourceFile, cancellationToken) { return sourceFile.isDeclarationFile ? [] : getDeclarationDiagnosticsWorker(sourceFile, cancellationToken); } function getOptionsDiagnostics() { return ts.sortAndDeduplicateDiagnostics(ts.concatenate(fileProcessingDiagnostics.getGlobalDiagnostics(), ts.concatenate(programDiagnostics.getGlobalDiagnostics(), getOptionsDiagnosticsOfConfigFile()))); } function getOptionsDiagnosticsOfConfigFile() { if (!options.configFile) { return ts.emptyArray; } var diagnostics = programDiagnostics.getDiagnostics(options.configFile.fileName); forEachResolvedProjectReference(function (resolvedRef) { if (resolvedRef) { diagnostics = ts.concatenate(diagnostics, programDiagnostics.getDiagnostics(resolvedRef.sourceFile.fileName)); } }); return diagnostics; } function getGlobalDiagnostics() { return rootNames.length ? ts.sortAndDeduplicateDiagnostics(getDiagnosticsProducingTypeChecker().getGlobalDiagnostics().slice()) : ts.emptyArray; } function getConfigFileParsingDiagnostics() { return configFileParsingDiagnostics || ts.emptyArray; } function processRootFile(fileName, isDefaultLib, ignoreNoDefaultLib) { processSourceFile(ts.normalizePath(fileName), isDefaultLib, ignoreNoDefaultLib, /*packageId*/ undefined); } function fileReferenceIsEqualTo(a, b) { return a.fileName === b.fileName; } function moduleNameIsEqualTo(a, b) { return a.kind === 75 /* Identifier */ ? b.kind === 75 /* Identifier */ && a.escapedText === b.escapedText : b.kind === 10 /* StringLiteral */ && a.text === b.text; } function collectExternalModuleReferences(file) { if (file.imports) { return; } var isJavaScriptFile = ts.isSourceFileJS(file); var isExternalModuleFile = ts.isExternalModule(file); // file.imports may not be undefined if there exists dynamic import var imports; var moduleAugmentations; var ambientModules; // If we are importing helpers, we need to add a synthetic reference to resolve the // helpers library. if (options.importHelpers && (options.isolatedModules || isExternalModuleFile) && !file.isDeclarationFile) { // synthesize 'import "tslib"' declaration var externalHelpersModuleReference = ts.createLiteral(ts.externalHelpersModuleNameText); var importDecl = ts.createImportDeclaration(/*decorators*/ undefined, /*modifiers*/ undefined, /*importClause*/ undefined, externalHelpersModuleReference); ts.addEmitFlags(importDecl, 67108864 /* NeverApplyImportHelper */); externalHelpersModuleReference.parent = importDecl; importDecl.parent = file; imports = [externalHelpersModuleReference]; } for (var _i = 0, _a = file.statements; _i < _a.length; _i++) { var node = _a[_i]; collectModuleReferences(node, /*inAmbientModule*/ false); } if ((file.flags & 1048576 /* PossiblyContainsDynamicImport */) || isJavaScriptFile) { collectDynamicImportOrRequireCalls(file); } file.imports = imports || ts.emptyArray; file.moduleAugmentations = moduleAugmentations || ts.emptyArray; file.ambientModuleNames = ambientModules || ts.emptyArray; return; function collectModuleReferences(node, inAmbientModule) { if (ts.isAnyImportOrReExport(node)) { var moduleNameExpr = ts.getExternalModuleName(node); // TypeScript 1.0 spec (April 2014): 12.1.6 // An ExternalImportDeclaration in an AmbientExternalModuleDeclaration may reference other external modules // only through top - level external module names. Relative external module names are not permitted. if (moduleNameExpr && ts.isStringLiteral(moduleNameExpr) && moduleNameExpr.text && (!inAmbientModule || !ts.isExternalModuleNameRelative(moduleNameExpr.text))) { imports = ts.append(imports, moduleNameExpr); } } else if (ts.isModuleDeclaration(node)) { if (ts.isAmbientModule(node) && (inAmbientModule || ts.hasModifier(node, 2 /* Ambient */) || file.isDeclarationFile)) { var nameText = ts.getTextOfIdentifierOrLiteral(node.name); // Ambient module declarations can be interpreted as augmentations for some existing external modules. // This will happen in two cases: // - if current file is external module then module augmentation is a ambient module declaration defined in the top level scope // - if current file is not external module then module augmentation is an ambient module declaration with non-relative module name // immediately nested in top level ambient module declaration . if (isExternalModuleFile || (inAmbientModule && !ts.isExternalModuleNameRelative(nameText))) { (moduleAugmentations || (moduleAugmentations = [])).push(node.name); } else if (!inAmbientModule) { if (file.isDeclarationFile) { // for global .d.ts files record name of ambient module (ambientModules || (ambientModules = [])).push(nameText); } // An AmbientExternalModuleDeclaration declares an external module. // This type of declaration is permitted only in the global module. // The StringLiteral must specify a top - level external module name. // Relative external module names are not permitted // NOTE: body of ambient module is always a module block, if it exists var body = node.body; if (body) { for (var _i = 0, _a = body.statements; _i < _a.length; _i++) { var statement = _a[_i]; collectModuleReferences(statement, /*inAmbientModule*/ true); } } } } } } function collectDynamicImportOrRequireCalls(file) { var r = /import|require/g; while (r.exec(file.text) !== null) { // eslint-disable-line no-null/no-null var node = getNodeAtPosition(file, r.lastIndex); if (ts.isRequireCall(node, /*checkArgumentIsStringLiteralLike*/ true)) { imports = ts.append(imports, node.arguments[0]); } // we have to check the argument list has length of 1. We will still have to process these even though we have parsing error. else if (ts.isImportCall(node) && node.arguments.length === 1 && ts.isStringLiteralLike(node.arguments[0])) { imports = ts.append(imports, node.arguments[0]); } else if (ts.isLiteralImportTypeNode(node)) { imports = ts.append(imports, node.argument.literal); } } } /** Returns a token if position is in [start-of-leading-trivia, end), includes JSDoc only in JS files */ function getNodeAtPosition(sourceFile, position) { var current = sourceFile; var getContainingChild = function (child) { if (child.pos <= position && (position < child.end || (position === child.end && (child.kind === 1 /* EndOfFileToken */)))) { return child; } }; while (true) { var child = isJavaScriptFile && ts.hasJSDocNodes(current) && ts.forEach(current.jsDoc, getContainingChild) || ts.forEachChild(current, getContainingChild); if (!child) { return current; } current = child; } } } function getLibFileFromReference(ref) { var libName = ts.toFileNameLowerCase(ref.fileName); var libFileName = ts.libMap.get(libName); if (libFileName) { return getSourceFile(ts.combinePaths(defaultLibraryPath, libFileName)); } } /** This should have similar behavior to 'processSourceFile' without diagnostics or mutation. */ function getSourceFileFromReference(referencingFile, ref) { return getSourceFileFromReferenceWorker(resolveTripleslashReference(ref.fileName, referencingFile.fileName), function (fileName) { return filesByName.get(toPath(fileName)) || undefined; }); } function getSourceFileFromReferenceWorker(fileName, getSourceFile, fail, refFile) { if (ts.hasExtension(fileName)) { var canonicalFileName_1 = host.getCanonicalFileName(fileName); if (!options.allowNonTsExtensions && !ts.forEach(supportedExtensionsWithJsonIfResolveJsonModule, function (extension) { return ts.fileExtensionIs(canonicalFileName_1, extension); })) { if (fail) { if (ts.hasJSFileExtension(canonicalFileName_1)) { fail(ts.Diagnostics.File_0_is_a_JavaScript_file_Did_you_mean_to_enable_the_allowJs_option, fileName); } else { fail(ts.Diagnostics.File_0_has_an_unsupported_extension_The_only_supported_extensions_are_1, fileName, "'" + supportedExtensions.join("', '") + "'"); } } return undefined; } var sourceFile = getSourceFile(fileName); if (fail) { if (!sourceFile) { var redirect = getProjectReferenceRedirect(fileName); if (redirect) { fail(ts.Diagnostics.Output_file_0_has_not_been_built_from_source_file_1, redirect, fileName); } else { fail(ts.Diagnostics.File_0_not_found, fileName); } } else if (refFile && canonicalFileName_1 === host.getCanonicalFileName(refFile.fileName)) { fail(ts.Diagnostics.A_file_cannot_have_a_reference_to_itself); } } return sourceFile; } else { var sourceFileNoExtension = options.allowNonTsExtensions && getSourceFile(fileName); if (sourceFileNoExtension) return sourceFileNoExtension; if (fail && options.allowNonTsExtensions) { fail(ts.Diagnostics.File_0_not_found, fileName); return undefined; } var sourceFileWithAddedExtension = ts.forEach(supportedExtensions, function (extension) { return getSourceFile(fileName + extension); }); if (fail && !sourceFileWithAddedExtension) fail(ts.Diagnostics.Could_not_resolve_the_path_0_with_the_extensions_Colon_1, fileName, "'" + supportedExtensions.join("', '") + "'"); return sourceFileWithAddedExtension; } } /** This has side effects through `findSourceFile`. */ function processSourceFile(fileName, isDefaultLib, ignoreNoDefaultLib, packageId, refFile) { getSourceFileFromReferenceWorker(fileName, function (fileName) { return findSourceFile(fileName, toPath(fileName), isDefaultLib, ignoreNoDefaultLib, refFile, packageId); }, // TODO: GH#18217 function (diagnostic) { var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } return fileProcessingDiagnostics.add(createRefFileDiagnostic.apply(void 0, __spreadArrays([refFile, diagnostic], args))); }, refFile && refFile.file); } function reportFileNamesDifferOnlyInCasingError(fileName, existingFile, refFile) { var refs = !refFile ? refFileMap && refFileMap.get(existingFile.path) : undefined; var refToReportErrorOn = refs && ts.find(refs, function (ref) { return ref.referencedFileName === existingFile.fileName; }); fileProcessingDiagnostics.add(refToReportErrorOn ? createFileDiagnosticAtReference(refToReportErrorOn, ts.Diagnostics.Already_included_file_name_0_differs_from_file_name_1_only_in_casing, existingFile.fileName, fileName) : createRefFileDiagnostic(refFile, ts.Diagnostics.File_name_0_differs_from_already_included_file_name_1_only_in_casing, fileName, existingFile.fileName)); } function createRedirectSourceFile(redirectTarget, unredirected, fileName, path, resolvedPath, originalFileName) { var redirect = Object.create(redirectTarget); redirect.fileName = fileName; redirect.path = path; redirect.resolvedPath = resolvedPath; redirect.originalFileName = originalFileName; redirect.redirectInfo = { redirectTarget: redirectTarget, unredirected: unredirected }; sourceFilesFoundSearchingNodeModules.set(path, currentNodeModulesDepth > 0); Object.defineProperties(redirect, { id: { get: function () { return this.redirectInfo.redirectTarget.id; }, set: function (value) { this.redirectInfo.redirectTarget.id = value; }, }, symbol: { get: function () { return this.redirectInfo.redirectTarget.symbol; }, set: function (value) { this.redirectInfo.redirectTarget.symbol = value; }, }, }); return redirect; } // Get source file from normalized fileName function findSourceFile(fileName, path, isDefaultLib, ignoreNoDefaultLib, refFile, packageId) { if (useSourceOfProjectReferenceRedirect) { var source = getSourceOfProjectReferenceRedirect(fileName); // If preserveSymlinks is true, module resolution wont jump the symlink // but the resolved real path may be the .d.ts from project reference // Note:: Currently we try the real path only if the // file is from node_modules to avoid having to run real path on all file paths if (!source && host.realpath && options.preserveSymlinks && ts.isDeclarationFileName(fileName) && ts.stringContains(fileName, ts.nodeModulesPathPart)) { var realPath = host.realpath(fileName); if (realPath !== fileName) source = getSourceOfProjectReferenceRedirect(realPath); } if (source) { var file_1 = ts.isString(source) ? findSourceFile(source, toPath(source), isDefaultLib, ignoreNoDefaultLib, refFile, packageId) : undefined; if (file_1) addFileToFilesByName(file_1, path, /*redirectedPath*/ undefined); return file_1; } } var originalFileName = fileName; if (filesByName.has(path)) { var file_2 = filesByName.get(path); addFileToRefFileMap(fileName, file_2 || undefined, refFile); // try to check if we've already seen this file but with a different casing in path // NOTE: this only makes sense for case-insensitive file systems, and only on files which are not redirected if (file_2 && options.forceConsistentCasingInFileNames) { var checkedName = file_2.fileName; var isRedirect = toPath(checkedName) !== toPath(fileName); if (isRedirect) { fileName = getProjectReferenceRedirect(fileName) || fileName; } // Check if it differs only in drive letters its ok to ignore that error: var checkedAbsolutePath = ts.getNormalizedAbsolutePathWithoutRoot(checkedName, currentDirectory); var inputAbsolutePath = ts.getNormalizedAbsolutePathWithoutRoot(fileName, currentDirectory); if (checkedAbsolutePath !== inputAbsolutePath) { reportFileNamesDifferOnlyInCasingError(fileName, file_2, refFile); } } // If the file was previously found via a node_modules search, but is now being processed as a root file, // then everything it sucks in may also be marked incorrectly, and needs to be checked again. if (file_2 && sourceFilesFoundSearchingNodeModules.get(file_2.path) && currentNodeModulesDepth === 0) { sourceFilesFoundSearchingNodeModules.set(file_2.path, false); if (!options.noResolve) { processReferencedFiles(file_2, isDefaultLib); processTypeReferenceDirectives(file_2); } if (!options.noLib) { processLibReferenceDirectives(file_2); } modulesWithElidedImports.set(file_2.path, false); processImportedModules(file_2); } // See if we need to reprocess the imports due to prior skipped imports else if (file_2 && modulesWithElidedImports.get(file_2.path)) { if (currentNodeModulesDepth < maxNodeModuleJsDepth) { modulesWithElidedImports.set(file_2.path, false); processImportedModules(file_2); } } return file_2 || undefined; } var redirectedPath; if (refFile && !useSourceOfProjectReferenceRedirect) { var redirectProject = getProjectReferenceRedirectProject(fileName); if (redirectProject) { if (redirectProject.commandLine.options.outFile || redirectProject.commandLine.options.out) { // Shouldnt create many to 1 mapping file in --out scenario return undefined; } var redirect = getProjectReferenceOutputName(redirectProject, fileName); fileName = redirect; // Once we start redirecting to a file, we can potentially come back to it // via a back-reference from another file in the .d.ts folder. If that happens we'll // end up trying to add it to the program *again* because we were tracking it via its // original (un-redirected) name. So we have to map both the original path and the redirected path // to the source file we're about to find/create redirectedPath = toPath(redirect); } } // We haven't looked for this file, do so now and cache result var file = host.getSourceFile(fileName, options.target, function (hostErrorMessage) { return fileProcessingDiagnostics.add(createRefFileDiagnostic(refFile, ts.Diagnostics.Cannot_read_file_0_Colon_1, fileName, hostErrorMessage)); }, shouldCreateNewSourceFile); if (packageId) { var packageIdKey = ts.packageIdToString(packageId); var fileFromPackageId = packageIdToSourceFile.get(packageIdKey); if (fileFromPackageId) { // Some other SourceFile already exists with this package name and version. // Instead of creating a duplicate, just redirect to the existing one. var dupFile = createRedirectSourceFile(fileFromPackageId, file, fileName, path, toPath(fileName), originalFileName); // TODO: GH#18217 redirectTargetsMap.add(fileFromPackageId.path, fileName); addFileToFilesByName(dupFile, path, redirectedPath); sourceFileToPackageName.set(path, packageId.name); processingOtherFiles.push(dupFile); return dupFile; } else if (file) { // This is the first source file to have this packageId. packageIdToSourceFile.set(packageIdKey, file); sourceFileToPackageName.set(path, packageId.name); } } addFileToFilesByName(file, path, redirectedPath); if (file) { sourceFilesFoundSearchingNodeModules.set(path, currentNodeModulesDepth > 0); file.fileName = fileName; // Ensure that source file has same name as what we were looking for file.path = path; file.resolvedPath = toPath(fileName); file.originalFileName = originalFileName; addFileToRefFileMap(fileName, file, refFile); if (host.useCaseSensitiveFileNames()) { var pathLowerCase = ts.toFileNameLowerCase(path); // for case-sensitive file systems check if we've already seen some file with similar filename ignoring case var existingFile = filesByNameIgnoreCase.get(pathLowerCase); if (existingFile) { reportFileNamesDifferOnlyInCasingError(fileName, existingFile, refFile); } else { filesByNameIgnoreCase.set(pathLowerCase, file); } } skipDefaultLib = skipDefaultLib || (file.hasNoDefaultLib && !ignoreNoDefaultLib); if (!options.noResolve) { processReferencedFiles(file, isDefaultLib); processTypeReferenceDirectives(file); } if (!options.noLib) { processLibReferenceDirectives(file); } // always process imported modules to record module name resolutions processImportedModules(file); if (isDefaultLib) { processingDefaultLibFiles.push(file); } else { processingOtherFiles.push(file); } } return file; } function addFileToRefFileMap(referencedFileName, file, refFile) { if (refFile && file) { (refFileMap || (refFileMap = ts.createMultiMap())).add(file.path, { referencedFileName: referencedFileName, kind: refFile.kind, index: refFile.index, file: refFile.file.path }); } } function addFileToFilesByName(file, path, redirectedPath) { if (redirectedPath) { filesByName.set(redirectedPath, file); filesByName.set(path, file || false); } else { filesByName.set(path, file); } } function getProjectReferenceRedirect(fileName) { var referencedProject = getProjectReferenceRedirectProject(fileName); return referencedProject && getProjectReferenceOutputName(referencedProject, fileName); } function getProjectReferenceRedirectProject(fileName) { // Ignore dts or any json files if (!resolvedProjectReferences || !resolvedProjectReferences.length || ts.fileExtensionIs(fileName, ".d.ts" /* Dts */) || ts.fileExtensionIs(fileName, ".json" /* Json */)) { return undefined; } // If this file is produced by a referenced project, we need to rewrite it to // look in the output folder of the referenced project rather than the input return getResolvedProjectReferenceToRedirect(fileName); } function getProjectReferenceOutputName(referencedProject, fileName) { var out = referencedProject.commandLine.options.outFile || referencedProject.commandLine.options.out; return out ? ts.changeExtension(out, ".d.ts" /* Dts */) : ts.getOutputDeclarationFileName(fileName, referencedProject.commandLine, !host.useCaseSensitiveFileNames()); } /** * Get the referenced project if the file is input file from that reference project */ function getResolvedProjectReferenceToRedirect(fileName) { if (mapFromFileToProjectReferenceRedirects === undefined) { mapFromFileToProjectReferenceRedirects = ts.createMap(); forEachResolvedProjectReference(function (referencedProject, referenceProjectPath) { // not input file from the referenced project, ignore if (referencedProject && toPath(options.configFilePath) !== referenceProjectPath) { referencedProject.commandLine.fileNames.forEach(function (f) { return mapFromFileToProjectReferenceRedirects.set(toPath(f), referenceProjectPath); }); } }); } var referencedProjectPath = mapFromFileToProjectReferenceRedirects.get(toPath(fileName)); return referencedProjectPath && getResolvedProjectReferenceByPath(referencedProjectPath); } function forEachResolvedProjectReference(cb) { return forEachProjectReference(projectReferences, resolvedProjectReferences, function (resolvedRef, index, parent) { var ref = (parent ? parent.commandLine.projectReferences : projectReferences)[index]; var resolvedRefPath = toPath(resolveProjectReferencePath(ref)); return cb(resolvedRef, resolvedRefPath); }); } function getSourceOfProjectReferenceRedirect(file) { if (!ts.isDeclarationFileName(file)) return undefined; if (mapFromToProjectReferenceRedirectSource === undefined) { mapFromToProjectReferenceRedirectSource = ts.createMap(); forEachResolvedProjectReference(function (resolvedRef) { if (resolvedRef) { var out = resolvedRef.commandLine.options.outFile || resolvedRef.commandLine.options.out; if (out) { // Dont know which source file it means so return true? var outputDts = ts.changeExtension(out, ".d.ts" /* Dts */); mapFromToProjectReferenceRedirectSource.set(toPath(outputDts), true); } else { ts.forEach(resolvedRef.commandLine.fileNames, function (fileName) { if (!ts.fileExtensionIs(fileName, ".d.ts" /* Dts */) && !ts.fileExtensionIs(fileName, ".json" /* Json */)) { var outputDts = ts.getOutputDeclarationFileName(fileName, resolvedRef.commandLine, host.useCaseSensitiveFileNames()); mapFromToProjectReferenceRedirectSource.set(toPath(outputDts), fileName); } }); } } }); } return mapFromToProjectReferenceRedirectSource.get(toPath(file)); } function isSourceOfProjectReferenceRedirect(fileName) { return useSourceOfProjectReferenceRedirect && !!getResolvedProjectReferenceToRedirect(fileName); } function forEachProjectReference(projectReferences, resolvedProjectReferences, cbResolvedRef, cbRef) { var seenResolvedRefs; return worker(projectReferences, resolvedProjectReferences, /*parent*/ undefined, cbResolvedRef, cbRef); function worker(projectReferences, resolvedProjectReferences, parent, cbResolvedRef, cbRef) { // Visit project references first if (cbRef) { var result = cbRef(projectReferences, parent); if (result) { return result; } } return ts.forEach(resolvedProjectReferences, function (resolvedRef, index) { if (ts.contains(seenResolvedRefs, resolvedRef)) { // ignore recursives return undefined; } var result = cbResolvedRef(resolvedRef, index, parent); if (result) { return result; } if (!resolvedRef) return undefined; (seenResolvedRefs || (seenResolvedRefs = [])).push(resolvedRef); return worker(resolvedRef.commandLine.projectReferences, resolvedRef.references, resolvedRef, cbResolvedRef, cbRef); }); } } function getResolvedProjectReferenceByPath(projectReferencePath) { if (!projectReferenceRedirects) { return undefined; } return projectReferenceRedirects.get(projectReferencePath) || undefined; } function processReferencedFiles(file, isDefaultLib) { ts.forEach(file.referencedFiles, function (ref, index) { var referencedFileName = resolveTripleslashReference(ref.fileName, file.originalFileName); processSourceFile(referencedFileName, isDefaultLib, /*ignoreNoDefaultLib*/ false, /*packageId*/ undefined, { kind: ts.RefFileKind.ReferenceFile, index: index, file: file, pos: ref.pos, end: ref.end }); }); } function processTypeReferenceDirectives(file) { // We lower-case all type references because npm automatically lowercases all packages. See GH#9824. var typeDirectives = ts.map(file.typeReferenceDirectives, function (ref) { return ts.toFileNameLowerCase(ref.fileName); }); if (!typeDirectives) { return; } var resolutions = resolveTypeReferenceDirectiveNamesWorker(typeDirectives, file.originalFileName, getResolvedProjectReferenceToRedirect(file.originalFileName)); for (var i = 0; i < typeDirectives.length; i++) { var ref = file.typeReferenceDirectives[i]; var resolvedTypeReferenceDirective = resolutions[i]; // store resolved type directive on the file var fileName = ts.toFileNameLowerCase(ref.fileName); ts.setResolvedTypeReferenceDirective(file, fileName, resolvedTypeReferenceDirective); processTypeReferenceDirective(fileName, resolvedTypeReferenceDirective, { kind: ts.RefFileKind.TypeReferenceDirective, index: i, file: file, pos: ref.pos, end: ref.end }); } } function processTypeReferenceDirective(typeReferenceDirective, resolvedTypeReferenceDirective, refFile) { // If we already found this library as a primary reference - nothing to do var previousResolution = resolvedTypeReferenceDirectives.get(typeReferenceDirective); if (previousResolution && previousResolution.primary) { return; } var saveResolution = true; if (resolvedTypeReferenceDirective) { if (resolvedTypeReferenceDirective.isExternalLibraryImport) currentNodeModulesDepth++; if (resolvedTypeReferenceDirective.primary) { // resolved from the primary path processSourceFile(resolvedTypeReferenceDirective.resolvedFileName, /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false, resolvedTypeReferenceDirective.packageId, refFile); // TODO: GH#18217 } else { // If we already resolved to this file, it must have been a secondary reference. Check file contents // for sameness and possibly issue an error if (previousResolution) { // Don't bother reading the file again if it's the same file. if (resolvedTypeReferenceDirective.resolvedFileName !== previousResolution.resolvedFileName) { var otherFileText = host.readFile(resolvedTypeReferenceDirective.resolvedFileName); var existingFile_1 = getSourceFile(previousResolution.resolvedFileName); if (otherFileText !== existingFile_1.text) { // Try looking up ref for original file var refs = !refFile ? refFileMap && refFileMap.get(existingFile_1.path) : undefined; var refToReportErrorOn = refs && ts.find(refs, function (ref) { return ref.referencedFileName === existingFile_1.fileName; }); fileProcessingDiagnostics.add(refToReportErrorOn ? createFileDiagnosticAtReference(refToReportErrorOn, ts.Diagnostics.Conflicting_definitions_for_0_found_at_1_and_2_Consider_installing_a_specific_version_of_this_library_to_resolve_the_conflict, typeReferenceDirective, resolvedTypeReferenceDirective.resolvedFileName, previousResolution.resolvedFileName) : createRefFileDiagnostic(refFile, ts.Diagnostics.Conflicting_definitions_for_0_found_at_1_and_2_Consider_installing_a_specific_version_of_this_library_to_resolve_the_conflict, typeReferenceDirective, resolvedTypeReferenceDirective.resolvedFileName, previousResolution.resolvedFileName)); } } // don't overwrite previous resolution result saveResolution = false; } else { // First resolution of this library processSourceFile(resolvedTypeReferenceDirective.resolvedFileName, /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false, resolvedTypeReferenceDirective.packageId, refFile); } } if (resolvedTypeReferenceDirective.isExternalLibraryImport) currentNodeModulesDepth--; } else { fileProcessingDiagnostics.add(createRefFileDiagnostic(refFile, ts.Diagnostics.Cannot_find_type_definition_file_for_0, typeReferenceDirective)); } if (saveResolution) { resolvedTypeReferenceDirectives.set(typeReferenceDirective, resolvedTypeReferenceDirective); } } function processLibReferenceDirectives(file) { ts.forEach(file.libReferenceDirectives, function (libReference) { var libName = ts.toFileNameLowerCase(libReference.fileName); var libFileName = ts.libMap.get(libName); if (libFileName) { // we ignore any 'no-default-lib' reference set on this file. processRootFile(ts.combinePaths(defaultLibraryPath, libFileName), /*isDefaultLib*/ true, /*ignoreNoDefaultLib*/ true); } else { var unqualifiedLibName = ts.removeSuffix(ts.removePrefix(libName, "lib."), ".d.ts"); var suggestion = ts.getSpellingSuggestion(unqualifiedLibName, ts.libs, ts.identity); var message = suggestion ? ts.Diagnostics.Cannot_find_lib_definition_for_0_Did_you_mean_1 : ts.Diagnostics.Cannot_find_lib_definition_for_0; fileProcessingDiagnostics.add(ts.createFileDiagnostic(file, libReference.pos, libReference.end - libReference.pos, message, libName, suggestion)); } }); } function createRefFileDiagnostic(refFile, message) { var args = []; for (var _i = 2; _i < arguments.length; _i++) { args[_i - 2] = arguments[_i]; } if (!refFile) { return ts.createCompilerDiagnostic.apply(void 0, __spreadArrays([message], args)); } else { return ts.createFileDiagnostic.apply(void 0, __spreadArrays([refFile.file, refFile.pos, refFile.end - refFile.pos, message], args)); } } function getCanonicalFileName(fileName) { return host.getCanonicalFileName(fileName); } function processImportedModules(file) { collectExternalModuleReferences(file); if (file.imports.length || file.moduleAugmentations.length) { // Because global augmentation doesn't have string literal name, we can check for global augmentation as such. var moduleNames = getModuleNames(file); var resolutions = resolveModuleNamesReusingOldState(moduleNames, ts.getNormalizedAbsolutePath(file.originalFileName, currentDirectory), file); ts.Debug.assert(resolutions.length === moduleNames.length); for (var i = 0; i < moduleNames.length; i++) { var resolution = resolutions[i]; ts.setResolvedModule(file, moduleNames[i], resolution); if (!resolution) { continue; } var isFromNodeModulesSearch = resolution.isExternalLibraryImport; var isJsFile = !ts.resolutionExtensionIsTSOrJson(resolution.extension); var isJsFileFromNodeModules = isFromNodeModulesSearch && isJsFile; var resolvedFileName = resolution.resolvedFileName; if (isFromNodeModulesSearch) { currentNodeModulesDepth++; } // add file to program only if: // - resolution was successful // - noResolve is falsy // - module name comes from the list of imports // - it's not a top level JavaScript module that exceeded the search max var elideImport = isJsFileFromNodeModules && currentNodeModulesDepth > maxNodeModuleJsDepth; // Don't add the file if it has a bad extension (e.g. 'tsx' if we don't have '--allowJs') // This may still end up being an untyped module -- the file won't be included but imports will be allowed. var shouldAddFile = resolvedFileName && !getResolutionDiagnostic(options, resolution) && !options.noResolve && i < file.imports.length && !elideImport && !(isJsFile && !options.allowJs) && (ts.isInJSFile(file.imports[i]) || !(file.imports[i].flags & 4194304 /* JSDoc */)); if (elideImport) { modulesWithElidedImports.set(file.path, true); } else if (shouldAddFile) { var path = toPath(resolvedFileName); var pos = ts.skipTrivia(file.text, file.imports[i].pos); findSourceFile(resolvedFileName, path, /*isDefaultLib*/ false, /*ignoreNoDefaultLib*/ false, { kind: ts.RefFileKind.Import, index: i, file: file, pos: pos, end: file.imports[i].end }, resolution.packageId); } if (isFromNodeModulesSearch) { currentNodeModulesDepth--; } } } else { // no imports - drop cached module resolutions file.resolvedModules = undefined; } } function computeCommonSourceDirectory(sourceFiles) { var fileNames = ts.mapDefined(sourceFiles, function (file) { return file.isDeclarationFile ? undefined : file.fileName; }); return computeCommonSourceDirectoryOfFilenames(fileNames, currentDirectory, getCanonicalFileName); } function checkSourceFilesBelongToPath(sourceFiles, rootDirectory) { var allFilesBelongToPath = true; var absoluteRootDirectoryPath = host.getCanonicalFileName(ts.getNormalizedAbsolutePath(rootDirectory, currentDirectory)); var rootPaths; for (var _i = 0, sourceFiles_2 = sourceFiles; _i < sourceFiles_2.length; _i++) { var sourceFile = sourceFiles_2[_i]; if (!sourceFile.isDeclarationFile) { var absoluteSourceFilePath = host.getCanonicalFileName(ts.getNormalizedAbsolutePath(sourceFile.fileName, currentDirectory)); if (absoluteSourceFilePath.indexOf(absoluteRootDirectoryPath) !== 0) { if (!rootPaths) rootPaths = ts.arrayToSet(rootNames, toPath); addProgramDiagnosticAtRefPath(sourceFile, rootPaths, ts.Diagnostics.File_0_is_not_under_rootDir_1_rootDir_is_expected_to_contain_all_source_files, sourceFile.fileName, rootDirectory); allFilesBelongToPath = false; } } } return allFilesBelongToPath; } function parseProjectReferenceConfigFile(ref) { if (!projectReferenceRedirects) { projectReferenceRedirects = ts.createMap(); } // The actual filename (i.e. add "/tsconfig.json" if necessary) var refPath = resolveProjectReferencePath(ref); var sourceFilePath = toPath(refPath); var fromCache = projectReferenceRedirects.get(sourceFilePath); if (fromCache !== undefined) { return fromCache || undefined; } var commandLine; var sourceFile; if (host.getParsedCommandLine) { commandLine = host.getParsedCommandLine(refPath); if (!commandLine) { addFileToFilesByName(/*sourceFile*/ undefined, sourceFilePath, /*redirectedPath*/ undefined); projectReferenceRedirects.set(sourceFilePath, false); return undefined; } sourceFile = ts.Debug.checkDefined(commandLine.options.configFile); ts.Debug.assert(!sourceFile.path || sourceFile.path === sourceFilePath); addFileToFilesByName(sourceFile, sourceFilePath, /*redirectedPath*/ undefined); } else { // An absolute path pointing to the containing directory of the config file var basePath = ts.getNormalizedAbsolutePath(ts.getDirectoryPath(refPath), host.getCurrentDirectory()); sourceFile = host.getSourceFile(refPath, 100 /* JSON */); addFileToFilesByName(sourceFile, sourceFilePath, /*redirectedPath*/ undefined); if (sourceFile === undefined) { projectReferenceRedirects.set(sourceFilePath, false); return undefined; } commandLine = ts.parseJsonSourceFileConfigFileContent(sourceFile, configParsingHost, basePath, /*existingOptions*/ undefined, refPath); } sourceFile.fileName = refPath; sourceFile.path = sourceFilePath; sourceFile.resolvedPath = sourceFilePath; sourceFile.originalFileName = refPath; var resolvedRef = { commandLine: commandLine, sourceFile: sourceFile }; projectReferenceRedirects.set(sourceFilePath, resolvedRef); if (commandLine.projectReferences) { resolvedRef.references = commandLine.projectReferences.map(parseProjectReferenceConfigFile); } return resolvedRef; } function verifyCompilerOptions() { if (options.strictPropertyInitialization && !ts.getStrictOptionValue(options, "strictNullChecks")) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1, "strictPropertyInitialization", "strictNullChecks"); } if (options.isolatedModules) { if (options.out) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "out", "isolatedModules"); } if (options.outFile) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "outFile", "isolatedModules"); } } if (options.inlineSourceMap) { if (options.sourceMap) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "sourceMap", "inlineSourceMap"); } if (options.mapRoot) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "mapRoot", "inlineSourceMap"); } } if (options.paths && options.baseUrl === undefined) { createDiagnosticForOptionName(ts.Diagnostics.Option_paths_cannot_be_used_without_specifying_baseUrl_option, "paths"); } if (options.composite) { if (options.declaration === false) { createDiagnosticForOptionName(ts.Diagnostics.Composite_projects_may_not_disable_declaration_emit, "declaration"); } if (options.incremental === false) { createDiagnosticForOptionName(ts.Diagnostics.Composite_projects_may_not_disable_incremental_compilation, "declaration"); } } if (options.tsBuildInfoFile) { if (!ts.isIncrementalCompilation(options)) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1_or_option_2, "tsBuildInfoFile", "incremental", "composite"); } } else if (options.incremental && !options.outFile && !options.out && !options.configFilePath) { programDiagnostics.add(ts.createCompilerDiagnostic(ts.Diagnostics.Option_incremental_can_only_be_specified_using_tsconfig_emitting_to_single_file_or_when_option_tsBuildInfoFile_is_specified)); } if (!options.listFilesOnly && options.noEmit && ts.isIncrementalCompilation(options)) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "noEmit", options.incremental ? "incremental" : "composite"); } verifyProjectReferences(); // List of collected files is complete; validate exhautiveness if this is a project with a file list if (options.composite) { var rootPaths = ts.arrayToSet(rootNames, toPath); for (var _i = 0, files_3 = files; _i < files_3.length; _i++) { var file = files_3[_i]; // Ignore file that is not emitted if (ts.sourceFileMayBeEmitted(file, program) && !rootPaths.has(file.path)) { addProgramDiagnosticAtRefPath(file, rootPaths, ts.Diagnostics.File_0_is_not_listed_within_the_file_list_of_project_1_Projects_must_list_all_files_or_use_an_include_pattern, file.fileName, options.configFilePath || ""); } } } if (options.paths) { for (var key in options.paths) { if (!ts.hasProperty(options.paths, key)) { continue; } if (!ts.hasZeroOrOneAsteriskCharacter(key)) { createDiagnosticForOptionPaths(/*onKey*/ true, key, ts.Diagnostics.Pattern_0_can_have_at_most_one_Asterisk_character, key); } if (ts.isArray(options.paths[key])) { var len = options.paths[key].length; if (len === 0) { createDiagnosticForOptionPaths(/*onKey*/ false, key, ts.Diagnostics.Substitutions_for_pattern_0_shouldn_t_be_an_empty_array, key); } for (var i = 0; i < len; i++) { var subst = options.paths[key][i]; var typeOfSubst = typeof subst; if (typeOfSubst === "string") { if (!ts.hasZeroOrOneAsteriskCharacter(subst)) { createDiagnosticForOptionPathKeyValue(key, i, ts.Diagnostics.Substitution_0_in_pattern_1_can_have_at_most_one_Asterisk_character, subst, key); } } else { createDiagnosticForOptionPathKeyValue(key, i, ts.Diagnostics.Substitution_0_for_pattern_1_has_incorrect_type_expected_string_got_2, subst, key, typeOfSubst); } } } else { createDiagnosticForOptionPaths(/*onKey*/ false, key, ts.Diagnostics.Substitutions_for_pattern_0_should_be_an_array, key); } } } if (!options.sourceMap && !options.inlineSourceMap) { if (options.inlineSources) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_can_only_be_used_when_either_option_inlineSourceMap_or_option_sourceMap_is_provided, "inlineSources"); } if (options.sourceRoot) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_can_only_be_used_when_either_option_inlineSourceMap_or_option_sourceMap_is_provided, "sourceRoot"); } } if (options.out && options.outFile) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "out", "outFile"); } if (options.mapRoot && !(options.sourceMap || options.declarationMap)) { // Error to specify --mapRoot without --sourcemap createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1_or_option_2, "mapRoot", "sourceMap", "declarationMap"); } if (options.declarationDir) { if (!ts.getEmitDeclarations(options)) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1_or_option_2, "declarationDir", "declaration", "composite"); } if (options.out || options.outFile) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "declarationDir", options.out ? "out" : "outFile"); } } if (options.declarationMap && !ts.getEmitDeclarations(options)) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1_or_option_2, "declarationMap", "declaration", "composite"); } if (options.lib && options.noLib) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "lib", "noLib"); } if (options.noImplicitUseStrict && ts.getStrictOptionValue(options, "alwaysStrict")) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "noImplicitUseStrict", "alwaysStrict"); } var languageVersion = options.target || 0 /* ES3 */; var outFile = options.outFile || options.out; var firstNonAmbientExternalModuleSourceFile = ts.find(files, function (f) { return ts.isExternalModule(f) && !f.isDeclarationFile; }); if (options.isolatedModules) { if (options.module === ts.ModuleKind.None && languageVersion < 2 /* ES2015 */) { createDiagnosticForOptionName(ts.Diagnostics.Option_isolatedModules_can_only_be_used_when_either_option_module_is_provided_or_option_target_is_ES2015_or_higher, "isolatedModules", "target"); } var firstNonExternalModuleSourceFile = ts.find(files, function (f) { return !ts.isExternalModule(f) && !ts.isSourceFileJS(f) && !f.isDeclarationFile && f.scriptKind !== 6 /* JSON */; }); if (firstNonExternalModuleSourceFile) { var span = ts.getErrorSpanForNode(firstNonExternalModuleSourceFile, firstNonExternalModuleSourceFile); programDiagnostics.add(ts.createFileDiagnostic(firstNonExternalModuleSourceFile, span.start, span.length, ts.Diagnostics.All_files_must_be_modules_when_the_isolatedModules_flag_is_provided)); } } else if (firstNonAmbientExternalModuleSourceFile && languageVersion < 2 /* ES2015 */ && options.module === ts.ModuleKind.None) { // We cannot use createDiagnosticFromNode because nodes do not have parents yet var span = ts.getErrorSpanForNode(firstNonAmbientExternalModuleSourceFile, firstNonAmbientExternalModuleSourceFile.externalModuleIndicator); programDiagnostics.add(ts.createFileDiagnostic(firstNonAmbientExternalModuleSourceFile, span.start, span.length, ts.Diagnostics.Cannot_use_imports_exports_or_module_augmentations_when_module_is_none)); } // Cannot specify module gen that isn't amd or system with --out if (outFile && !options.emitDeclarationOnly) { if (options.module && !(options.module === ts.ModuleKind.AMD || options.module === ts.ModuleKind.System)) { createDiagnosticForOptionName(ts.Diagnostics.Only_amd_and_system_modules_are_supported_alongside_0, options.out ? "out" : "outFile", "module"); } else if (options.module === undefined && firstNonAmbientExternalModuleSourceFile) { var span = ts.getErrorSpanForNode(firstNonAmbientExternalModuleSourceFile, firstNonAmbientExternalModuleSourceFile.externalModuleIndicator); programDiagnostics.add(ts.createFileDiagnostic(firstNonAmbientExternalModuleSourceFile, span.start, span.length, ts.Diagnostics.Cannot_compile_modules_using_option_0_unless_the_module_flag_is_amd_or_system, options.out ? "out" : "outFile")); } } if (options.resolveJsonModule) { if (ts.getEmitModuleResolutionKind(options) !== ts.ModuleResolutionKind.NodeJs) { createDiagnosticForOptionName(ts.Diagnostics.Option_resolveJsonModule_cannot_be_specified_without_node_module_resolution_strategy, "resolveJsonModule"); } // Any emit other than common js, amd, es2015 or esnext is error else if (!ts.hasJsonModuleEmitEnabled(options)) { createDiagnosticForOptionName(ts.Diagnostics.Option_resolveJsonModule_can_only_be_specified_when_module_code_generation_is_commonjs_amd_es2015_or_esNext, "resolveJsonModule", "module"); } } // there has to be common source directory if user specified --outdir || --sourceRoot // if user specified --mapRoot, there needs to be common source directory if there would be multiple files being emitted if (options.outDir || // there is --outDir specified options.sourceRoot || // there is --sourceRoot specified options.mapRoot) { // there is --mapRoot specified // Precalculate and cache the common source directory var dir = getCommonSourceDirectory(); // If we failed to find a good common directory, but outDir is specified and at least one of our files is on a windows drive/URL/other resource, add a failure if (options.outDir && dir === "" && files.some(function (file) { return ts.getRootLength(file.fileName) > 1; })) { createDiagnosticForOptionName(ts.Diagnostics.Cannot_find_the_common_subdirectory_path_for_the_input_files, "outDir"); } } if (options.useDefineForClassFields && languageVersion === 0 /* ES3 */) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_when_option_target_is_ES3, "useDefineForClassFields"); } if (options.checkJs && !options.allowJs) { programDiagnostics.add(ts.createCompilerDiagnostic(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1, "checkJs", "allowJs")); } if (options.emitDeclarationOnly) { if (!ts.getEmitDeclarations(options)) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1_or_option_2, "emitDeclarationOnly", "declaration", "composite"); } if (options.noEmit) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "emitDeclarationOnly", "noEmit"); } } if (options.emitDecoratorMetadata && !options.experimentalDecorators) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_without_specifying_option_1, "emitDecoratorMetadata", "experimentalDecorators"); } if (options.jsxFactory) { if (options.reactNamespace) { createDiagnosticForOptionName(ts.Diagnostics.Option_0_cannot_be_specified_with_option_1, "reactNamespace", "jsxFactory"); } if (!ts.parseIsolatedEntityName(options.jsxFactory, languageVersion)) { createOptionValueDiagnostic("jsxFactory", ts.Diagnostics.Invalid_value_for_jsxFactory_0_is_not_a_valid_identifier_or_qualified_name, options.jsxFactory); } } else if (options.reactNamespace && !ts.isIdentifierText(options.reactNamespace, languageVersion)) { createOptionValueDiagnostic("reactNamespace", ts.Diagnostics.Invalid_value_for_reactNamespace_0_is_not_a_valid_identifier, options.reactNamespace); } // If the emit is enabled make sure that every output file is unique and not overwriting any of the input files if (!options.noEmit && !options.suppressOutputPathCheck) { var emitHost = getEmitHost(); var emitFilesSeen_1 = ts.createMap(); ts.forEachEmittedFile(emitHost, function (emitFileNames) { if (!options.emitDeclarationOnly) { verifyEmitFilePath(emitFileNames.jsFilePath, emitFilesSeen_1); } verifyEmitFilePath(emitFileNames.declarationFilePath, emitFilesSeen_1); }); } // Verify that all the emit files are unique and don't overwrite input files function verifyEmitFilePath(emitFileName, emitFilesSeen) { if (emitFileName) { var emitFilePath = toPath(emitFileName); // Report error if the output overwrites input file if (filesByName.has(emitFilePath)) { var chain = void 0; if (!options.configFilePath) { // The program is from either an inferred project or an external project chain = ts.chainDiagnosticMessages(/*details*/ undefined, ts.Diagnostics.Adding_a_tsconfig_json_file_will_help_organize_projects_that_contain_both_TypeScript_and_JavaScript_files_Learn_more_at_https_Colon_Slash_Slashaka_ms_Slashtsconfig); } chain = ts.chainDiagnosticMessages(chain, ts.Diagnostics.Cannot_write_file_0_because_it_would_overwrite_input_file, emitFileName); blockEmittingOfFile(emitFileName, ts.createCompilerDiagnosticFromMessageChain(chain)); } var emitFileKey = !host.useCaseSensitiveFileNames() ? ts.toFileNameLowerCase(emitFilePath) : emitFilePath; // Report error if multiple files write into same file if (emitFilesSeen.has(emitFileKey)) { // Already seen the same emit file - report error blockEmittingOfFile(emitFileName, ts.createCompilerDiagnostic(ts.Diagnostics.Cannot_write_file_0_because_it_would_be_overwritten_by_multiple_input_files, emitFileName)); } else { emitFilesSeen.set(emitFileKey, true); } } } } function createFileDiagnosticAtReference(refPathToReportErrorOn, message) { var _a, _b; var args = []; for (var _i = 2; _i < arguments.length; _i++) { args[_i - 2] = arguments[_i]; } var refFile = ts.Debug.checkDefined(getSourceFileByPath(refPathToReportErrorOn.file)); var kind = refPathToReportErrorOn.kind, index = refPathToReportErrorOn.index; var pos, end; switch (kind) { case ts.RefFileKind.Import: pos = ts.skipTrivia(refFile.text, refFile.imports[index].pos); end = refFile.imports[index].end; break; case ts.RefFileKind.ReferenceFile: (_a = refFile.referencedFiles[index], pos = _a.pos, end = _a.end); break; case ts.RefFileKind.TypeReferenceDirective: (_b = refFile.typeReferenceDirectives[index], pos = _b.pos, end = _b.end); break; default: return ts.Debug.assertNever(kind); } return ts.createFileDiagnostic.apply(void 0, __spreadArrays([refFile, pos, end - pos, message], args)); } function addProgramDiagnosticAtRefPath(file, rootPaths, message) { var args = []; for (var _i = 3; _i < arguments.length; _i++) { args[_i - 3] = arguments[_i]; } var refPaths = refFileMap && refFileMap.get(file.path); var refPathToReportErrorOn = ts.forEach(refPaths, function (refPath) { return rootPaths.has(refPath.file) ? refPath : undefined; }) || ts.elementAt(refPaths, 0); programDiagnostics.add(refPathToReportErrorOn ? createFileDiagnosticAtReference.apply(void 0, __spreadArrays([refPathToReportErrorOn, message], args)) : ts.createCompilerDiagnostic.apply(void 0, __spreadArrays([message], args))); } function verifyProjectReferences() { var buildInfoPath = !options.noEmit && !options.suppressOutputPathCheck ? ts.getTsBuildInfoEmitOutputFilePath(options) : undefined; forEachProjectReference(projectReferences, resolvedProjectReferences, function (resolvedRef, index, parent) { var ref = (parent ? parent.commandLine.projectReferences : projectReferences)[index]; var parentFile = parent && parent.sourceFile; if (!resolvedRef) { createDiagnosticForReference(parentFile, index, ts.Diagnostics.File_0_not_found, ref.path); return; } var options = resolvedRef.commandLine.options; if (!options.composite) { // ok to not have composite if the current program is container only var inputs = parent ? parent.commandLine.fileNames : rootNames; if (inputs.length) { createDiagnosticForReference(parentFile, index, ts.Diagnostics.Referenced_project_0_must_have_setting_composite_Colon_true, ref.path); } } if (ref.prepend) { var out = options.outFile || options.out; if (out) { if (!host.fileExists(out)) { createDiagnosticForReference(parentFile, index, ts.Diagnostics.Output_file_0_from_project_1_does_not_exist, out, ref.path); } } else { createDiagnosticForReference(parentFile, index, ts.Diagnostics.Cannot_prepend_project_0_because_it_does_not_have_outFile_set, ref.path); } } if (!parent && buildInfoPath && buildInfoPath === ts.getTsBuildInfoEmitOutputFilePath(options)) { createDiagnosticForReference(parentFile, index, ts.Diagnostics.Cannot_write_file_0_because_it_will_overwrite_tsbuildinfo_file_generated_by_referenced_project_1, buildInfoPath, ref.path); hasEmitBlockingDiagnostics.set(toPath(buildInfoPath), true); } }); } function createDiagnosticForOptionPathKeyValue(key, valueIndex, message, arg0, arg1, arg2) { var needCompilerDiagnostic = true; var pathsSyntax = getOptionPathsSyntax(); for (var _i = 0, pathsSyntax_1 = pathsSyntax; _i < pathsSyntax_1.length; _i++) { var pathProp = pathsSyntax_1[_i]; if (ts.isObjectLiteralExpression(pathProp.initializer)) { for (var _a = 0, _b = ts.getPropertyAssignment(pathProp.initializer, key); _a < _b.length; _a++) { var keyProps = _b[_a]; var initializer = keyProps.initializer; if (ts.isArrayLiteralExpression(initializer) && initializer.elements.length > valueIndex) { programDiagnostics.add(ts.createDiagnosticForNodeInSourceFile(options.configFile, initializer.elements[valueIndex], message, arg0, arg1, arg2)); needCompilerDiagnostic = false; } } } } if (needCompilerDiagnostic) { programDiagnostics.add(ts.createCompilerDiagnostic(message, arg0, arg1, arg2)); } } function createDiagnosticForOptionPaths(onKey, key, message, arg0) { var needCompilerDiagnostic = true; var pathsSyntax = getOptionPathsSyntax(); for (var _i = 0, pathsSyntax_2 = pathsSyntax; _i < pathsSyntax_2.length; _i++) { var pathProp = pathsSyntax_2[_i]; if (ts.isObjectLiteralExpression(pathProp.initializer) && createOptionDiagnosticInObjectLiteralSyntax(pathProp.initializer, onKey, key, /*key2*/ undefined, message, arg0)) { needCompilerDiagnostic = false; } } if (needCompilerDiagnostic) { programDiagnostics.add(ts.createCompilerDiagnostic(message, arg0)); } } function getOptionsSyntaxByName(name) { var compilerOptionsObjectLiteralSyntax = getCompilerOptionsObjectLiteralSyntax(); if (compilerOptionsObjectLiteralSyntax) { return ts.getPropertyAssignment(compilerOptionsObjectLiteralSyntax, name); } return undefined; } function getOptionPathsSyntax() { return getOptionsSyntaxByName("paths") || ts.emptyArray; } function createDiagnosticForOptionName(message, option1, option2, option3) { createDiagnosticForOption(/*onKey*/ true, option1, option2, message, option1, option2, option3); } function createOptionValueDiagnostic(option1, message, arg0) { createDiagnosticForOption(/*onKey*/ false, option1, /*option2*/ undefined, message, arg0); } function createDiagnosticForReference(sourceFile, index, message, arg0, arg1) { var referencesSyntax = ts.firstDefined(ts.getTsConfigPropArray(sourceFile || options.configFile, "references"), function (property) { return ts.isArrayLiteralExpression(property.initializer) ? property.initializer : undefined; }); if (referencesSyntax && referencesSyntax.elements.length > index) { programDiagnostics.add(ts.createDiagnosticForNodeInSourceFile(sourceFile || options.configFile, referencesSyntax.elements[index], message, arg0, arg1)); } else { programDiagnostics.add(ts.createCompilerDiagnostic(message, arg0, arg1)); } } function createDiagnosticForOption(onKey, option1, option2, message, arg0, arg1, arg2) { var compilerOptionsObjectLiteralSyntax = getCompilerOptionsObjectLiteralSyntax(); var needCompilerDiagnostic = !compilerOptionsObjectLiteralSyntax || !createOptionDiagnosticInObjectLiteralSyntax(compilerOptionsObjectLiteralSyntax, onKey, option1, option2, message, arg0, arg1, arg2); if (needCompilerDiagnostic) { programDiagnostics.add(ts.createCompilerDiagnostic(message, arg0, arg1, arg2)); } } function getCompilerOptionsObjectLiteralSyntax() { if (_compilerOptionsObjectLiteralSyntax === undefined) { _compilerOptionsObjectLiteralSyntax = null; // eslint-disable-line no-null/no-null var jsonObjectLiteral = ts.getTsConfigObjectLiteralExpression(options.configFile); if (jsonObjectLiteral) { for (var _i = 0, _a = ts.getPropertyAssignment(jsonObjectLiteral, "compilerOptions"); _i < _a.length; _i++) { var prop = _a[_i]; if (ts.isObjectLiteralExpression(prop.initializer)) { _compilerOptionsObjectLiteralSyntax = prop.initializer; break; } } } } return _compilerOptionsObjectLiteralSyntax; } function createOptionDiagnosticInObjectLiteralSyntax(objectLiteral, onKey, key1, key2, message, arg0, arg1, arg2) { var props = ts.getPropertyAssignment(objectLiteral, key1, key2); for (var _i = 0, props_3 = props; _i < props_3.length; _i++) { var prop = props_3[_i]; programDiagnostics.add(ts.createDiagnosticForNodeInSourceFile(options.configFile, onKey ? prop.name : prop.initializer, message, arg0, arg1, arg2)); } return !!props.length; } function blockEmittingOfFile(emitFileName, diag) { hasEmitBlockingDiagnostics.set(toPath(emitFileName), true); programDiagnostics.add(diag); } function isEmittedFile(file) { if (options.noEmit) { return false; } // If this is source file, its not emitted file var filePath = toPath(file); if (getSourceFileByPath(filePath)) { return false; } // If options have --outFile or --out just check that var out = options.outFile || options.out; if (out) { return isSameFile(filePath, out) || isSameFile(filePath, ts.removeFileExtension(out) + ".d.ts" /* Dts */); } // If declarationDir is specified, return if its a file in that directory if (options.declarationDir && ts.containsPath(options.declarationDir, filePath, currentDirectory, !host.useCaseSensitiveFileNames())) { return true; } // If --outDir, check if file is in that directory if (options.outDir) { return ts.containsPath(options.outDir, filePath, currentDirectory, !host.useCaseSensitiveFileNames()); } if (ts.fileExtensionIsOneOf(filePath, ts.supportedJSExtensions) || ts.fileExtensionIs(filePath, ".d.ts" /* Dts */)) { // Otherwise just check if sourceFile with the name exists var filePathWithoutExtension = ts.removeFileExtension(filePath); return !!getSourceFileByPath((filePathWithoutExtension + ".ts" /* Ts */)) || !!getSourceFileByPath((filePathWithoutExtension + ".tsx" /* Tsx */)); } return false; } function isSameFile(file1, file2) { return ts.comparePaths(file1, file2, currentDirectory, !host.useCaseSensitiveFileNames()) === 0 /* EqualTo */; } function getProbableSymlinks() { if (host.getSymlinks) { return host.getSymlinks(); } return symlinks || (symlinks = ts.discoverProbableSymlinks(files, getCanonicalFileName, host.getCurrentDirectory())); } } ts.createProgram = createProgram; function updateHostForUseSourceOfProjectReferenceRedirect(host) { var mapOfDeclarationDirectories; var symlinkedDirectories; var symlinkedFiles; var originalFileExists = host.compilerHost.fileExists; var originalDirectoryExists = host.compilerHost.directoryExists; var originalGetDirectories = host.compilerHost.getDirectories; var originalRealpath = host.compilerHost.realpath; if (!host.useSourceOfProjectReferenceRedirect) return { onProgramCreateComplete: ts.noop, fileExists: fileExists }; host.compilerHost.fileExists = fileExists; if (originalDirectoryExists) { // This implementation of directoryExists checks if the directory being requested is // directory of .d.ts file for the referenced Project. // If it is it returns true irrespective of whether that directory exists on host host.compilerHost.directoryExists = function (path) { if (originalDirectoryExists.call(host.compilerHost, path)) { handleDirectoryCouldBeSymlink(path); return true; } if (!host.getResolvedProjectReferences()) return false; if (!mapOfDeclarationDirectories) { mapOfDeclarationDirectories = ts.createMap(); host.forEachResolvedProjectReference(function (ref) { if (!ref) return; var out = ref.commandLine.options.outFile || ref.commandLine.options.out; if (out) { mapOfDeclarationDirectories.set(ts.getDirectoryPath(host.toPath(out)), true); } else { // Set declaration's in different locations only, if they are next to source the directory present doesnt change var declarationDir = ref.commandLine.options.declarationDir || ref.commandLine.options.outDir; if (declarationDir) { mapOfDeclarationDirectories.set(host.toPath(declarationDir), true); } } }); } return fileOrDirectoryExistsUsingSource(path, /*isFile*/ false); }; } if (originalGetDirectories) { // Call getDirectories only if directory actually present on the host // This is needed to ensure that we arent getting directories that we fake about presence for host.compilerHost.getDirectories = function (path) { return !host.getResolvedProjectReferences() || (originalDirectoryExists && originalDirectoryExists.call(host.compilerHost, path)) ? originalGetDirectories.call(host.compilerHost, path) : []; }; } // This is something we keep for life time of the host if (originalRealpath) { host.compilerHost.realpath = function (s) { return (symlinkedFiles === null || symlinkedFiles === void 0 ? void 0 : symlinkedFiles.get(host.toPath(s))) || originalRealpath.call(host.compilerHost, s); }; } return { onProgramCreateComplete: onProgramCreateComplete, fileExists: fileExists }; function onProgramCreateComplete() { host.compilerHost.fileExists = originalFileExists; host.compilerHost.directoryExists = originalDirectoryExists; host.compilerHost.getDirectories = originalGetDirectories; // DO not revert realpath as it could be used later } // This implementation of fileExists checks if the file being requested is // .d.ts file for the referenced Project. // If it is it returns true irrespective of whether that file exists on host function fileExists(file) { if (originalFileExists.call(host.compilerHost, file)) return true; if (!host.getResolvedProjectReferences()) return false; if (!ts.isDeclarationFileName(file)) return false; // Project references go to source file instead of .d.ts file return fileOrDirectoryExistsUsingSource(file, /*isFile*/ true); } function fileExistsIfProjectReferenceDts(file) { var source = host.getSourceOfProjectReferenceRedirect(file); return source !== undefined ? ts.isString(source) ? originalFileExists.call(host.compilerHost, source) : true : undefined; } function directoryExistsIfProjectReferenceDeclDir(dir) { var dirPath = host.toPath(dir); var dirPathWithTrailingDirectorySeparator = "" + dirPath + ts.directorySeparator; return ts.forEachKey(mapOfDeclarationDirectories, function (declDirPath) { return dirPath === declDirPath || // Any parent directory of declaration dir ts.startsWith(declDirPath, dirPathWithTrailingDirectorySeparator) || // Any directory inside declaration dir ts.startsWith(dirPath, declDirPath + "/"); }); } function handleDirectoryCouldBeSymlink(directory) { if (!host.getResolvedProjectReferences()) return; // Because we already watch node_modules, handle symlinks in there if (!originalRealpath || !ts.stringContains(directory, ts.nodeModulesPathPart)) return; if (!symlinkedDirectories) symlinkedDirectories = ts.createMap(); var directoryPath = ts.ensureTrailingDirectorySeparator(host.toPath(directory)); if (symlinkedDirectories.has(directoryPath)) return; var real = ts.normalizePath(originalRealpath.call(host.compilerHost, directory)); var realPath; if (real === directory || (realPath = ts.ensureTrailingDirectorySeparator(host.toPath(real))) === directoryPath) { // not symlinked symlinkedDirectories.set(directoryPath, false); return; } symlinkedDirectories.set(directoryPath, { real: ts.ensureTrailingDirectorySeparator(real), realPath: realPath }); } function fileOrDirectoryExistsUsingSource(fileOrDirectory, isFile) { var fileOrDirectoryExistsUsingSource = isFile ? function (file) { return fileExistsIfProjectReferenceDts(file); } : function (dir) { return directoryExistsIfProjectReferenceDeclDir(dir); }; // Check current directory or file var result = fileOrDirectoryExistsUsingSource(fileOrDirectory); if (result !== undefined) return result; if (!symlinkedDirectories) return false; var fileOrDirectoryPath = host.toPath(fileOrDirectory); if (!ts.stringContains(fileOrDirectoryPath, ts.nodeModulesPathPart)) return false; if (isFile && symlinkedFiles && symlinkedFiles.has(fileOrDirectoryPath)) return true; // If it contains node_modules check if its one of the symlinked path we know of return ts.firstDefinedIterator(symlinkedDirectories.entries(), function (_a) { var directoryPath = _a[0], symlinkedDirectory = _a[1]; if (!symlinkedDirectory || !ts.startsWith(fileOrDirectoryPath, directoryPath)) return undefined; var result = fileOrDirectoryExistsUsingSource(fileOrDirectoryPath.replace(directoryPath, symlinkedDirectory.realPath)); if (isFile && result) { if (!symlinkedFiles) symlinkedFiles = ts.createMap(); // Store the real path for the file' var absolutePath = ts.getNormalizedAbsolutePath(fileOrDirectory, host.compilerHost.getCurrentDirectory()); symlinkedFiles.set(fileOrDirectoryPath, "" + symlinkedDirectory.real + absolutePath.replace(new RegExp(directoryPath, "i"), "")); } return result; }) || false; } } /*@internal*/ function handleNoEmitOptions(program, sourceFile, cancellationToken) { var options = program.getCompilerOptions(); if (options.noEmit) { return { diagnostics: ts.emptyArray, sourceMaps: undefined, emittedFiles: undefined, emitSkipped: true }; } // If the noEmitOnError flag is set, then check if we have any errors so far. If so, // immediately bail out. Note that we pass 'undefined' for 'sourceFile' so that we // get any preEmit diagnostics, not just the ones if (!options.noEmitOnError) return undefined; var diagnostics = __spreadArrays(program.getOptionsDiagnostics(cancellationToken), program.getSyntacticDiagnostics(sourceFile, cancellationToken), program.getGlobalDiagnostics(cancellationToken), program.getSemanticDiagnostics(sourceFile, cancellationToken)); if (diagnostics.length === 0 && ts.getEmitDeclarations(program.getCompilerOptions())) { diagnostics = program.getDeclarationDiagnostics(/*sourceFile*/ undefined, cancellationToken); } return diagnostics.length > 0 ? { diagnostics: diagnostics, sourceMaps: undefined, emittedFiles: undefined, emitSkipped: true } : undefined; } ts.handleNoEmitOptions = handleNoEmitOptions; /* @internal */ function parseConfigHostFromCompilerHostLike(host, directoryStructureHost) { if (directoryStructureHost === void 0) { directoryStructureHost = host; } return { fileExists: function (f) { return directoryStructureHost.fileExists(f); }, readDirectory: function (root, extensions, excludes, includes, depth) { ts.Debug.assertIsDefined(directoryStructureHost.readDirectory, "'CompilerHost.readDirectory' must be implemented to correctly process 'projectReferences'"); return directoryStructureHost.readDirectory(root, extensions, excludes, includes, depth); }, readFile: function (f) { return directoryStructureHost.readFile(f); }, useCaseSensitiveFileNames: host.useCaseSensitiveFileNames(), getCurrentDirectory: function () { return host.getCurrentDirectory(); }, onUnRecoverableConfigFileDiagnostic: host.onUnRecoverableConfigFileDiagnostic || ts.returnUndefined, trace: host.trace ? function (s) { return host.trace(s); } : undefined }; } ts.parseConfigHostFromCompilerHostLike = parseConfigHostFromCompilerHostLike; /* @internal */ function createPrependNodes(projectReferences, getCommandLine, readFile) { if (!projectReferences) return ts.emptyArray; var nodes; for (var i = 0; i < projectReferences.length; i++) { var ref = projectReferences[i]; var resolvedRefOpts = getCommandLine(ref, i); if (ref.prepend && resolvedRefOpts && resolvedRefOpts.options) { var out = resolvedRefOpts.options.outFile || resolvedRefOpts.options.out; // Upstream project didn't have outFile set -- skip (error will have been issued earlier) if (!out) continue; var _a = ts.getOutputPathsForBundle(resolvedRefOpts.options, /*forceDtsPaths*/ true), jsFilePath = _a.jsFilePath, sourceMapFilePath = _a.sourceMapFilePath, declarationFilePath = _a.declarationFilePath, declarationMapPath = _a.declarationMapPath, buildInfoPath = _a.buildInfoPath; var node = ts.createInputFiles(readFile, jsFilePath, sourceMapFilePath, declarationFilePath, declarationMapPath, buildInfoPath); (nodes || (nodes = [])).push(node); } } return nodes || ts.emptyArray; } ts.createPrependNodes = createPrependNodes; function resolveProjectReferencePath(hostOrRef, ref) { var passedInRef = ref ? ref : hostOrRef; return ts.resolveConfigFileProjectName(passedInRef.path); } ts.resolveProjectReferencePath = resolveProjectReferencePath; /* @internal */ /** * Returns a DiagnosticMessage if we won't include a resolved module due to its extension. * The DiagnosticMessage's parameters are the imported module name, and the filename it resolved to. * This returns a diagnostic even if the module will be an untyped module. */ function getResolutionDiagnostic(options, _a) { var extension = _a.extension; switch (extension) { case ".ts" /* Ts */: case ".d.ts" /* Dts */: // These are always allowed. return undefined; case ".tsx" /* Tsx */: return needJsx(); case ".jsx" /* Jsx */: return needJsx() || needAllowJs(); case ".js" /* Js */: return needAllowJs(); case ".json" /* Json */: return needResolveJsonModule(); } function needJsx() { return options.jsx ? undefined : ts.Diagnostics.Module_0_was_resolved_to_1_but_jsx_is_not_set; } function needAllowJs() { return options.allowJs || !ts.getStrictOptionValue(options, "noImplicitAny") ? undefined : ts.Diagnostics.Could_not_find_a_declaration_file_for_module_0_1_implicitly_has_an_any_type; } function needResolveJsonModule() { return options.resolveJsonModule ? undefined : ts.Diagnostics.Module_0_was_resolved_to_1_but_resolveJsonModule_is_not_used; } } ts.getResolutionDiagnostic = getResolutionDiagnostic; function getModuleNames(_a) { var imports = _a.imports, moduleAugmentations = _a.moduleAugmentations; var res = imports.map(function (i) { return i.text; }); for (var _i = 0, moduleAugmentations_1 = moduleAugmentations; _i < moduleAugmentations_1.length; _i++) { var aug = moduleAugmentations_1[_i]; if (aug.kind === 10 /* StringLiteral */) { res.push(aug.text); } // Do nothing if it's an Identifier; we don't need to do module resolution for `declare global`. } return res; } })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function getFileEmitOutput(program, sourceFile, emitOnlyDtsFiles, cancellationToken, customTransformers, forceDtsEmit) { var outputFiles = []; var _a = program.emit(sourceFile, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers, forceDtsEmit), emitSkipped = _a.emitSkipped, diagnostics = _a.diagnostics, exportedModulesFromDeclarationEmit = _a.exportedModulesFromDeclarationEmit; return { outputFiles: outputFiles, emitSkipped: emitSkipped, diagnostics: diagnostics, exportedModulesFromDeclarationEmit: exportedModulesFromDeclarationEmit }; function writeFile(fileName, text, writeByteOrderMark) { outputFiles.push({ name: fileName, writeByteOrderMark: writeByteOrderMark, text: text }); } } ts.getFileEmitOutput = getFileEmitOutput; var BuilderState; (function (BuilderState) { /** * Get the referencedFile from the imported module symbol */ function getReferencedFileFromImportedModuleSymbol(symbol) { if (symbol.declarations && symbol.declarations[0]) { var declarationSourceFile = ts.getSourceFileOfNode(symbol.declarations[0]); return declarationSourceFile && declarationSourceFile.resolvedPath; } } /** * Get the referencedFile from the import name node from file */ function getReferencedFileFromImportLiteral(checker, importName) { var symbol = checker.getSymbolAtLocation(importName); return symbol && getReferencedFileFromImportedModuleSymbol(symbol); } /** * Gets the path to reference file from file name, it could be resolvedPath if present otherwise path */ function getReferencedFileFromFileName(program, fileName, sourceFileDirectory, getCanonicalFileName) { return ts.toPath(program.getProjectReferenceRedirect(fileName) || fileName, sourceFileDirectory, getCanonicalFileName); } /** * Gets the referenced files for a file from the program with values for the keys as referenced file's path to be true */ function getReferencedFiles(program, sourceFile, getCanonicalFileName) { var referencedFiles; // We need to use a set here since the code can contain the same import twice, // but that will only be one dependency. // To avoid invernal conversion, the key of the referencedFiles map must be of type Path if (sourceFile.imports && sourceFile.imports.length > 0) { var checker = program.getTypeChecker(); for (var _i = 0, _a = sourceFile.imports; _i < _a.length; _i++) { var importName = _a[_i]; var declarationSourceFilePath = getReferencedFileFromImportLiteral(checker, importName); if (declarationSourceFilePath) { addReferencedFile(declarationSourceFilePath); } } } var sourceFileDirectory = ts.getDirectoryPath(sourceFile.resolvedPath); // Handle triple slash references if (sourceFile.referencedFiles && sourceFile.referencedFiles.length > 0) { for (var _b = 0, _c = sourceFile.referencedFiles; _b < _c.length; _b++) { var referencedFile = _c[_b]; var referencedPath = getReferencedFileFromFileName(program, referencedFile.fileName, sourceFileDirectory, getCanonicalFileName); addReferencedFile(referencedPath); } } // Handle type reference directives if (sourceFile.resolvedTypeReferenceDirectiveNames) { sourceFile.resolvedTypeReferenceDirectiveNames.forEach(function (resolvedTypeReferenceDirective) { if (!resolvedTypeReferenceDirective) { return; } var fileName = resolvedTypeReferenceDirective.resolvedFileName; // TODO: GH#18217 var typeFilePath = getReferencedFileFromFileName(program, fileName, sourceFileDirectory, getCanonicalFileName); addReferencedFile(typeFilePath); }); } // Add module augmentation as references if (sourceFile.moduleAugmentations.length) { var checker = program.getTypeChecker(); for (var _d = 0, _e = sourceFile.moduleAugmentations; _d < _e.length; _d++) { var moduleName = _e[_d]; if (!ts.isStringLiteral(moduleName)) { continue; } var symbol = checker.getSymbolAtLocation(moduleName); if (!symbol) { continue; } // Add any file other than our own as reference addReferenceFromAmbientModule(symbol); } } // From ambient modules for (var _f = 0, _g = program.getTypeChecker().getAmbientModules(); _f < _g.length; _f++) { var ambientModule = _g[_f]; if (ambientModule.declarations.length > 1) { addReferenceFromAmbientModule(ambientModule); } } return referencedFiles; function addReferenceFromAmbientModule(symbol) { // Add any file other than our own as reference for (var _i = 0, _a = symbol.declarations; _i < _a.length; _i++) { var declaration = _a[_i]; var declarationSourceFile = ts.getSourceFileOfNode(declaration); if (declarationSourceFile && declarationSourceFile !== sourceFile) { addReferencedFile(declarationSourceFile.resolvedPath); } } } function addReferencedFile(referencedPath) { if (!referencedFiles) { referencedFiles = ts.createMap(); } referencedFiles.set(referencedPath, true); } } /** * Returns true if oldState is reusable, that is the emitKind = module/non module has not changed */ function canReuseOldState(newReferencedMap, oldState) { return oldState && !oldState.referencedMap === !newReferencedMap; } BuilderState.canReuseOldState = canReuseOldState; /** * Creates the state of file references and signature for the new program from oldState if it is safe */ function create(newProgram, getCanonicalFileName, oldState) { var fileInfos = ts.createMap(); var referencedMap = newProgram.getCompilerOptions().module !== ts.ModuleKind.None ? ts.createMap() : undefined; var exportedModulesMap = referencedMap ? ts.createMap() : undefined; var hasCalledUpdateShapeSignature = ts.createMap(); var useOldState = canReuseOldState(referencedMap, oldState); // Create the reference map, and set the file infos for (var _i = 0, _a = newProgram.getSourceFiles(); _i < _a.length; _i++) { var sourceFile = _a[_i]; var version_1 = ts.Debug.checkDefined(sourceFile.version, "Program intended to be used with Builder should have source files with versions set"); var oldInfo = useOldState ? oldState.fileInfos.get(sourceFile.resolvedPath) : undefined; if (referencedMap) { var newReferences = getReferencedFiles(newProgram, sourceFile, getCanonicalFileName); if (newReferences) { referencedMap.set(sourceFile.resolvedPath, newReferences); } // Copy old visible to outside files map if (useOldState) { var exportedModules = oldState.exportedModulesMap.get(sourceFile.resolvedPath); if (exportedModules) { exportedModulesMap.set(sourceFile.resolvedPath, exportedModules); } } } fileInfos.set(sourceFile.resolvedPath, { version: version_1, signature: oldInfo && oldInfo.signature, affectsGlobalScope: isFileAffectingGlobalScope(sourceFile) }); } return { fileInfos: fileInfos, referencedMap: referencedMap, exportedModulesMap: exportedModulesMap, hasCalledUpdateShapeSignature: hasCalledUpdateShapeSignature }; } BuilderState.create = create; /** * Releases needed properties */ function releaseCache(state) { state.allFilesExcludingDefaultLibraryFile = undefined; state.allFileNames = undefined; } BuilderState.releaseCache = releaseCache; /** * Creates a clone of the state */ function clone(state) { var fileInfos = ts.createMap(); state.fileInfos.forEach(function (value, key) { fileInfos.set(key, __assign({}, value)); }); // Dont need to backup allFiles info since its cache anyway return { fileInfos: fileInfos, referencedMap: cloneMapOrUndefined(state.referencedMap), exportedModulesMap: cloneMapOrUndefined(state.exportedModulesMap), hasCalledUpdateShapeSignature: ts.cloneMap(state.hasCalledUpdateShapeSignature), }; } BuilderState.clone = clone; /** * Gets the files affected by the path from the program */ function getFilesAffectedBy(state, programOfThisState, path, cancellationToken, computeHash, cacheToUpdateSignature, exportedModulesMapCache) { // Since the operation could be cancelled, the signatures are always stored in the cache // They will be committed once it is safe to use them // eg when calling this api from tsserver, if there is no cancellation of the operation // In the other cases the affected files signatures are committed only after the iteration through the result is complete var signatureCache = cacheToUpdateSignature || ts.createMap(); var sourceFile = programOfThisState.getSourceFileByPath(path); if (!sourceFile) { return ts.emptyArray; } if (!updateShapeSignature(state, programOfThisState, sourceFile, signatureCache, cancellationToken, computeHash, exportedModulesMapCache)) { return [sourceFile]; } var result = (state.referencedMap ? getFilesAffectedByUpdatedShapeWhenModuleEmit : getFilesAffectedByUpdatedShapeWhenNonModuleEmit)(state, programOfThisState, sourceFile, signatureCache, cancellationToken, computeHash, exportedModulesMapCache); if (!cacheToUpdateSignature) { // Commit all the signatures in the signature cache updateSignaturesFromCache(state, signatureCache); } return result; } BuilderState.getFilesAffectedBy = getFilesAffectedBy; /** * Updates the signatures from the cache into state's fileinfo signatures * This should be called whenever it is safe to commit the state of the builder */ function updateSignaturesFromCache(state, signatureCache) { signatureCache.forEach(function (signature, path) { return updateSignatureOfFile(state, signature, path); }); } BuilderState.updateSignaturesFromCache = updateSignaturesFromCache; function updateSignatureOfFile(state, signature, path) { state.fileInfos.get(path).signature = signature; state.hasCalledUpdateShapeSignature.set(path, true); } BuilderState.updateSignatureOfFile = updateSignatureOfFile; /** * Returns if the shape of the signature has changed since last emit */ function updateShapeSignature(state, programOfThisState, sourceFile, cacheToUpdateSignature, cancellationToken, computeHash, exportedModulesMapCache) { ts.Debug.assert(!!sourceFile); ts.Debug.assert(!exportedModulesMapCache || !!state.exportedModulesMap, "Compute visible to outside map only if visibleToOutsideReferencedMap present in the state"); // If we have cached the result for this file, that means hence forth we should assume file shape is uptodate if (state.hasCalledUpdateShapeSignature.has(sourceFile.resolvedPath) || cacheToUpdateSignature.has(sourceFile.resolvedPath)) { return false; } var info = state.fileInfos.get(sourceFile.resolvedPath); if (!info) return ts.Debug.fail(); var prevSignature = info.signature; var latestSignature; if (sourceFile.isDeclarationFile) { latestSignature = sourceFile.version; if (exportedModulesMapCache && latestSignature !== prevSignature) { // All the references in this file are exported var references = state.referencedMap ? state.referencedMap.get(sourceFile.resolvedPath) : undefined; exportedModulesMapCache.set(sourceFile.resolvedPath, references || false); } } else { var emitOutput_1 = getFileEmitOutput(programOfThisState, sourceFile, /*emitOnlyDtsFiles*/ true, cancellationToken, /*customTransformers*/ undefined, /*forceDtsEmit*/ true); var firstDts_1 = emitOutput_1.outputFiles && programOfThisState.getCompilerOptions().declarationMap ? emitOutput_1.outputFiles.length > 1 ? emitOutput_1.outputFiles[1] : undefined : emitOutput_1.outputFiles.length > 0 ? emitOutput_1.outputFiles[0] : undefined; if (firstDts_1) { ts.Debug.assert(ts.fileExtensionIs(firstDts_1.name, ".d.ts" /* Dts */), "File extension for signature expected to be dts", function () { return "Found: " + ts.getAnyExtensionFromPath(firstDts_1.name) + " for " + firstDts_1.name + ":: All output files: " + JSON.stringify(emitOutput_1.outputFiles.map(function (f) { return f.name; })); }); latestSignature = computeHash(firstDts_1.text); if (exportedModulesMapCache && latestSignature !== prevSignature) { updateExportedModules(sourceFile, emitOutput_1.exportedModulesFromDeclarationEmit, exportedModulesMapCache); } } else { latestSignature = prevSignature; // TODO: GH#18217 } } cacheToUpdateSignature.set(sourceFile.resolvedPath, latestSignature); return !prevSignature || latestSignature !== prevSignature; } BuilderState.updateShapeSignature = updateShapeSignature; /** * Coverts the declaration emit result into exported modules map */ function updateExportedModules(sourceFile, exportedModulesFromDeclarationEmit, exportedModulesMapCache) { if (!exportedModulesFromDeclarationEmit) { exportedModulesMapCache.set(sourceFile.resolvedPath, false); return; } var exportedModules; exportedModulesFromDeclarationEmit.forEach(function (symbol) { return addExportedModule(getReferencedFileFromImportedModuleSymbol(symbol)); }); exportedModulesMapCache.set(sourceFile.resolvedPath, exportedModules || false); function addExportedModule(exportedModulePath) { if (exportedModulePath) { if (!exportedModules) { exportedModules = ts.createMap(); } exportedModules.set(exportedModulePath, true); } } } /** * Updates the exported modules from cache into state's exported modules map * This should be called whenever it is safe to commit the state of the builder */ function updateExportedFilesMapFromCache(state, exportedModulesMapCache) { if (exportedModulesMapCache) { ts.Debug.assert(!!state.exportedModulesMap); exportedModulesMapCache.forEach(function (exportedModules, path) { if (exportedModules) { state.exportedModulesMap.set(path, exportedModules); } else { state.exportedModulesMap.delete(path); } }); } } BuilderState.updateExportedFilesMapFromCache = updateExportedFilesMapFromCache; /** * Get all the dependencies of the sourceFile */ function getAllDependencies(state, programOfThisState, sourceFile) { var compilerOptions = programOfThisState.getCompilerOptions(); // With --out or --outFile all outputs go into single file, all files depend on each other if (compilerOptions.outFile || compilerOptions.out) { return getAllFileNames(state, programOfThisState); } // If this is non module emit, or its a global file, it depends on all the source files if (!state.referencedMap || isFileAffectingGlobalScope(sourceFile)) { return getAllFileNames(state, programOfThisState); } // Get the references, traversing deep from the referenceMap var seenMap = ts.createMap(); var queue = [sourceFile.resolvedPath]; while (queue.length) { var path = queue.pop(); if (!seenMap.has(path)) { seenMap.set(path, true); var references = state.referencedMap.get(path); if (references) { var iterator = references.keys(); for (var iterResult = iterator.next(); !iterResult.done; iterResult = iterator.next()) { queue.push(iterResult.value); } } } } return ts.arrayFrom(ts.mapDefinedIterator(seenMap.keys(), function (path) { var file = programOfThisState.getSourceFileByPath(path); return file ? file.fileName : path; })); } BuilderState.getAllDependencies = getAllDependencies; /** * Gets the names of all files from the program */ function getAllFileNames(state, programOfThisState) { if (!state.allFileNames) { var sourceFiles = programOfThisState.getSourceFiles(); state.allFileNames = sourceFiles === ts.emptyArray ? ts.emptyArray : sourceFiles.map(function (file) { return file.fileName; }); } return state.allFileNames; } /** * Gets the files referenced by the the file path */ function getReferencedByPaths(state, referencedFilePath) { return ts.arrayFrom(ts.mapDefinedIterator(state.referencedMap.entries(), function (_a) { var filePath = _a[0], referencesInFile = _a[1]; return referencesInFile.has(referencedFilePath) ? filePath : undefined; })); } BuilderState.getReferencedByPaths = getReferencedByPaths; /** * For script files that contains only ambient external modules, although they are not actually external module files, * they can only be consumed via importing elements from them. Regular script files cannot consume them. Therefore, * there are no point to rebuild all script files if these special files have changed. However, if any statement * in the file is not ambient external module, we treat it as a regular script file. */ function containsOnlyAmbientModules(sourceFile) { for (var _i = 0, _a = sourceFile.statements; _i < _a.length; _i++) { var statement = _a[_i]; if (!ts.isModuleWithStringLiteralName(statement)) { return false; } } return true; } /** * Return true if file contains anything that augments to global scope we need to build them as if * they are global files as well as module */ function containsGlobalScopeAugmentation(sourceFile) { return ts.some(sourceFile.moduleAugmentations, function (augmentation) { return ts.isGlobalScopeAugmentation(augmentation.parent); }); } /** * Return true if the file will invalidate all files because it affectes global scope */ function isFileAffectingGlobalScope(sourceFile) { return containsGlobalScopeAugmentation(sourceFile) || !ts.isExternalModule(sourceFile) && !containsOnlyAmbientModules(sourceFile); } /** * Gets all files of the program excluding the default library file */ function getAllFilesExcludingDefaultLibraryFile(state, programOfThisState, firstSourceFile) { // Use cached result if (state.allFilesExcludingDefaultLibraryFile) { return state.allFilesExcludingDefaultLibraryFile; } var result; if (firstSourceFile) addSourceFile(firstSourceFile); for (var _i = 0, _a = programOfThisState.getSourceFiles(); _i < _a.length; _i++) { var sourceFile = _a[_i]; if (sourceFile !== firstSourceFile) { addSourceFile(sourceFile); } } state.allFilesExcludingDefaultLibraryFile = result || ts.emptyArray; return state.allFilesExcludingDefaultLibraryFile; function addSourceFile(sourceFile) { if (!programOfThisState.isSourceFileDefaultLibrary(sourceFile)) { (result || (result = [])).push(sourceFile); } } } BuilderState.getAllFilesExcludingDefaultLibraryFile = getAllFilesExcludingDefaultLibraryFile; /** * When program emits non modular code, gets the files affected by the sourceFile whose shape has changed */ function getFilesAffectedByUpdatedShapeWhenNonModuleEmit(state, programOfThisState, sourceFileWithUpdatedShape) { var compilerOptions = programOfThisState.getCompilerOptions(); // If `--out` or `--outFile` is specified, any new emit will result in re-emitting the entire project, // so returning the file itself is good enough. if (compilerOptions && (compilerOptions.out || compilerOptions.outFile)) { return [sourceFileWithUpdatedShape]; } return getAllFilesExcludingDefaultLibraryFile(state, programOfThisState, sourceFileWithUpdatedShape); } /** * When program emits modular code, gets the files affected by the sourceFile whose shape has changed */ function getFilesAffectedByUpdatedShapeWhenModuleEmit(state, programOfThisState, sourceFileWithUpdatedShape, cacheToUpdateSignature, cancellationToken, computeHash, exportedModulesMapCache) { if (isFileAffectingGlobalScope(sourceFileWithUpdatedShape)) { return getAllFilesExcludingDefaultLibraryFile(state, programOfThisState, sourceFileWithUpdatedShape); } var compilerOptions = programOfThisState.getCompilerOptions(); if (compilerOptions && (compilerOptions.isolatedModules || compilerOptions.out || compilerOptions.outFile)) { return [sourceFileWithUpdatedShape]; } // Now we need to if each file in the referencedBy list has a shape change as well. // Because if so, its own referencedBy files need to be saved as well to make the // emitting result consistent with files on disk. var seenFileNamesMap = ts.createMap(); // Start with the paths this file was referenced by seenFileNamesMap.set(sourceFileWithUpdatedShape.resolvedPath, sourceFileWithUpdatedShape); var queue = getReferencedByPaths(state, sourceFileWithUpdatedShape.resolvedPath); while (queue.length > 0) { var currentPath = queue.pop(); if (!seenFileNamesMap.has(currentPath)) { var currentSourceFile = programOfThisState.getSourceFileByPath(currentPath); seenFileNamesMap.set(currentPath, currentSourceFile); if (currentSourceFile && updateShapeSignature(state, programOfThisState, currentSourceFile, cacheToUpdateSignature, cancellationToken, computeHash, exportedModulesMapCache)) { // TODO: GH#18217 queue.push.apply(// TODO: GH#18217 queue, getReferencedByPaths(state, currentSourceFile.resolvedPath)); } } } // Return array of values that needs emit // Return array of values that needs emit return ts.arrayFrom(ts.mapDefinedIterator(seenFileNamesMap.values(), function (value) { return value; })); } })(BuilderState = ts.BuilderState || (ts.BuilderState = {})); function cloneMapOrUndefined(map) { return map ? ts.cloneMap(map) : undefined; } ts.cloneMapOrUndefined = cloneMapOrUndefined; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var BuilderFileEmit; (function (BuilderFileEmit) { BuilderFileEmit[BuilderFileEmit["DtsOnly"] = 0] = "DtsOnly"; BuilderFileEmit[BuilderFileEmit["Full"] = 1] = "Full"; })(BuilderFileEmit = ts.BuilderFileEmit || (ts.BuilderFileEmit = {})); function hasSameKeys(map1, map2) { // Has same size and every key is present in both maps return map1 === map2 || map1 !== undefined && map2 !== undefined && map1.size === map2.size && !ts.forEachKey(map1, function (key) { return !map2.has(key); }); } /** * Create the state so that we can iterate on changedFiles/affected files */ function createBuilderProgramState(newProgram, getCanonicalFileName, oldState) { var state = ts.BuilderState.create(newProgram, getCanonicalFileName, oldState); state.program = newProgram; var compilerOptions = newProgram.getCompilerOptions(); state.compilerOptions = compilerOptions; // With --out or --outFile, any change affects all semantic diagnostics so no need to cache them if (!compilerOptions.outFile && !compilerOptions.out) { state.semanticDiagnosticsPerFile = ts.createMap(); } state.changedFilesSet = ts.createMap(); var useOldState = ts.BuilderState.canReuseOldState(state.referencedMap, oldState); var oldCompilerOptions = useOldState ? oldState.compilerOptions : undefined; var canCopySemanticDiagnostics = useOldState && oldState.semanticDiagnosticsPerFile && !!state.semanticDiagnosticsPerFile && !ts.compilerOptionsAffectSemanticDiagnostics(compilerOptions, oldCompilerOptions); if (useOldState) { // Verify the sanity of old state if (!oldState.currentChangedFilePath) { var affectedSignatures = oldState.currentAffectedFilesSignatures; ts.Debug.assert(!oldState.affectedFiles && (!affectedSignatures || !affectedSignatures.size), "Cannot reuse if only few affected files of currentChangedFile were iterated"); } var changedFilesSet = oldState.changedFilesSet; if (canCopySemanticDiagnostics) { ts.Debug.assert(!changedFilesSet || !ts.forEachKey(changedFilesSet, function (path) { return oldState.semanticDiagnosticsPerFile.has(path); }), "Semantic diagnostics shouldnt be available for changed files"); } // Copy old state's changed files set if (changedFilesSet) { ts.copyEntries(changedFilesSet, state.changedFilesSet); } if (!compilerOptions.outFile && !compilerOptions.out && oldState.affectedFilesPendingEmit) { state.affectedFilesPendingEmit = oldState.affectedFilesPendingEmit.slice(); state.affectedFilesPendingEmitKind = ts.cloneMapOrUndefined(oldState.affectedFilesPendingEmitKind); state.affectedFilesPendingEmitIndex = oldState.affectedFilesPendingEmitIndex; state.seenAffectedFiles = ts.createMap(); } } // Update changed files and copy semantic diagnostics if we can var referencedMap = state.referencedMap; var oldReferencedMap = useOldState ? oldState.referencedMap : undefined; var copyDeclarationFileDiagnostics = canCopySemanticDiagnostics && !compilerOptions.skipLibCheck === !oldCompilerOptions.skipLibCheck; var copyLibFileDiagnostics = copyDeclarationFileDiagnostics && !compilerOptions.skipDefaultLibCheck === !oldCompilerOptions.skipDefaultLibCheck; state.fileInfos.forEach(function (info, sourceFilePath) { var oldInfo; var newReferences; // if not using old state, every file is changed if (!useOldState || // File wasnt present in old state !(oldInfo = oldState.fileInfos.get(sourceFilePath)) || // versions dont match oldInfo.version !== info.version || // Referenced files changed !hasSameKeys(newReferences = referencedMap && referencedMap.get(sourceFilePath), oldReferencedMap && oldReferencedMap.get(sourceFilePath)) || // Referenced file was deleted in the new program newReferences && ts.forEachKey(newReferences, function (path) { return !state.fileInfos.has(path) && oldState.fileInfos.has(path); })) { // Register file as changed file and do not copy semantic diagnostics, since all changed files need to be re-evaluated state.changedFilesSet.set(sourceFilePath, true); } else if (canCopySemanticDiagnostics) { var sourceFile = newProgram.getSourceFileByPath(sourceFilePath); if (sourceFile.isDeclarationFile && !copyDeclarationFileDiagnostics) { return; } if (sourceFile.hasNoDefaultLib && !copyLibFileDiagnostics) { return; } // Unchanged file copy diagnostics var diagnostics = oldState.semanticDiagnosticsPerFile.get(sourceFilePath); if (diagnostics) { state.semanticDiagnosticsPerFile.set(sourceFilePath, oldState.hasReusableDiagnostic ? convertToDiagnostics(diagnostics, newProgram, getCanonicalFileName) : diagnostics); if (!state.semanticDiagnosticsFromOldState) { state.semanticDiagnosticsFromOldState = ts.createMap(); } state.semanticDiagnosticsFromOldState.set(sourceFilePath, true); } } }); // If the global file is removed, add all files as changed if (useOldState && ts.forEachEntry(oldState.fileInfos, function (info, sourceFilePath) { return info.affectsGlobalScope && !state.fileInfos.has(sourceFilePath); })) { ts.BuilderState.getAllFilesExcludingDefaultLibraryFile(state, newProgram, /*firstSourceFile*/ undefined) .forEach(function (file) { return state.changedFilesSet.set(file.resolvedPath, true); }); } else if (oldCompilerOptions && ts.compilerOptionsAffectEmit(compilerOptions, oldCompilerOptions)) { // Add all files to affectedFilesPendingEmit since emit changed newProgram.getSourceFiles().forEach(function (f) { return addToAffectedFilesPendingEmit(state, f.resolvedPath, 1 /* Full */); }); ts.Debug.assert(!state.seenAffectedFiles || !state.seenAffectedFiles.size); state.seenAffectedFiles = state.seenAffectedFiles || ts.createMap(); } state.emittedBuildInfo = !state.changedFilesSet.size && !state.affectedFilesPendingEmit; return state; } function convertToDiagnostics(diagnostics, newProgram, getCanonicalFileName) { if (!diagnostics.length) return ts.emptyArray; var buildInfoDirectory = ts.getDirectoryPath(ts.getNormalizedAbsolutePath(ts.getTsBuildInfoEmitOutputFilePath(newProgram.getCompilerOptions()), newProgram.getCurrentDirectory())); return diagnostics.map(function (diagnostic) { var result = convertToDiagnosticRelatedInformation(diagnostic, newProgram, toPath); result.reportsUnnecessary = diagnostic.reportsUnnecessary; result.source = diagnostic.source; var relatedInformation = diagnostic.relatedInformation; result.relatedInformation = relatedInformation ? relatedInformation.length ? relatedInformation.map(function (r) { return convertToDiagnosticRelatedInformation(r, newProgram, toPath); }) : ts.emptyArray : undefined; return result; }); function toPath(path) { return ts.toPath(path, buildInfoDirectory, getCanonicalFileName); } } function convertToDiagnosticRelatedInformation(diagnostic, newProgram, toPath) { var file = diagnostic.file; return __assign(__assign({}, diagnostic), { file: file ? newProgram.getSourceFileByPath(toPath(file)) : undefined }); } /** * Releases program and other related not needed properties */ function releaseCache(state) { ts.BuilderState.releaseCache(state); state.program = undefined; } /** * Creates a clone of the state */ function cloneBuilderProgramState(state) { var newState = ts.BuilderState.clone(state); newState.semanticDiagnosticsPerFile = ts.cloneMapOrUndefined(state.semanticDiagnosticsPerFile); newState.changedFilesSet = ts.cloneMap(state.changedFilesSet); newState.affectedFiles = state.affectedFiles; newState.affectedFilesIndex = state.affectedFilesIndex; newState.currentChangedFilePath = state.currentChangedFilePath; newState.currentAffectedFilesSignatures = ts.cloneMapOrUndefined(state.currentAffectedFilesSignatures); newState.currentAffectedFilesExportedModulesMap = ts.cloneMapOrUndefined(state.currentAffectedFilesExportedModulesMap); newState.seenAffectedFiles = ts.cloneMapOrUndefined(state.seenAffectedFiles); newState.cleanedDiagnosticsOfLibFiles = state.cleanedDiagnosticsOfLibFiles; newState.semanticDiagnosticsFromOldState = ts.cloneMapOrUndefined(state.semanticDiagnosticsFromOldState); newState.program = state.program; newState.compilerOptions = state.compilerOptions; newState.affectedFilesPendingEmit = state.affectedFilesPendingEmit && state.affectedFilesPendingEmit.slice(); newState.affectedFilesPendingEmitKind = ts.cloneMapOrUndefined(state.affectedFilesPendingEmitKind); newState.affectedFilesPendingEmitIndex = state.affectedFilesPendingEmitIndex; newState.seenEmittedFiles = ts.cloneMapOrUndefined(state.seenEmittedFiles); newState.programEmitComplete = state.programEmitComplete; return newState; } /** * Verifies that source file is ok to be used in calls that arent handled by next */ function assertSourceFileOkWithoutNextAffectedCall(state, sourceFile) { ts.Debug.assert(!sourceFile || !state.affectedFiles || state.affectedFiles[state.affectedFilesIndex - 1] !== sourceFile || !state.semanticDiagnosticsPerFile.has(sourceFile.resolvedPath)); } /** * This function returns the next affected file to be processed. * Note that until doneAffected is called it would keep reporting same result * This is to allow the callers to be able to actually remove affected file only when the operation is complete * eg. if during diagnostics check cancellation token ends up cancelling the request, the affected file should be retained */ function getNextAffectedFile(state, cancellationToken, computeHash) { while (true) { var affectedFiles = state.affectedFiles; if (affectedFiles) { var seenAffectedFiles = state.seenAffectedFiles; var affectedFilesIndex = state.affectedFilesIndex; // TODO: GH#18217 while (affectedFilesIndex < affectedFiles.length) { var affectedFile = affectedFiles[affectedFilesIndex]; if (!seenAffectedFiles.has(affectedFile.resolvedPath)) { // Set the next affected file as seen and remove the cached semantic diagnostics state.affectedFilesIndex = affectedFilesIndex; handleDtsMayChangeOfAffectedFile(state, affectedFile, cancellationToken, computeHash); return affectedFile; } affectedFilesIndex++; } // Remove the changed file from the change set state.changedFilesSet.delete(state.currentChangedFilePath); state.currentChangedFilePath = undefined; // Commit the changes in file signature ts.BuilderState.updateSignaturesFromCache(state, state.currentAffectedFilesSignatures); state.currentAffectedFilesSignatures.clear(); ts.BuilderState.updateExportedFilesMapFromCache(state, state.currentAffectedFilesExportedModulesMap); state.affectedFiles = undefined; } // Get next changed file var nextKey = state.changedFilesSet.keys().next(); if (nextKey.done) { // Done return undefined; } // With --out or --outFile all outputs go into single file // so operations are performed directly on program, return program var program = ts.Debug.checkDefined(state.program); var compilerOptions = program.getCompilerOptions(); if (compilerOptions.outFile || compilerOptions.out) { ts.Debug.assert(!state.semanticDiagnosticsPerFile); return program; } // Get next batch of affected files state.currentAffectedFilesSignatures = state.currentAffectedFilesSignatures || ts.createMap(); if (state.exportedModulesMap) { state.currentAffectedFilesExportedModulesMap = state.currentAffectedFilesExportedModulesMap || ts.createMap(); } state.affectedFiles = ts.BuilderState.getFilesAffectedBy(state, program, nextKey.value, cancellationToken, computeHash, state.currentAffectedFilesSignatures, state.currentAffectedFilesExportedModulesMap); state.currentChangedFilePath = nextKey.value; state.affectedFilesIndex = 0; state.seenAffectedFiles = state.seenAffectedFiles || ts.createMap(); } } /** * Returns next file to be emitted from files that retrieved semantic diagnostics but did not emit yet */ function getNextAffectedFilePendingEmit(state) { var affectedFilesPendingEmit = state.affectedFilesPendingEmit; if (affectedFilesPendingEmit) { var seenEmittedFiles = state.seenEmittedFiles || (state.seenEmittedFiles = ts.createMap()); for (var i = state.affectedFilesPendingEmitIndex; i < affectedFilesPendingEmit.length; i++) { var affectedFile = ts.Debug.checkDefined(state.program).getSourceFileByPath(affectedFilesPendingEmit[i]); if (affectedFile) { var seenKind = seenEmittedFiles.get(affectedFile.resolvedPath); var emitKind = ts.Debug.checkDefined(ts.Debug.checkDefined(state.affectedFilesPendingEmitKind).get(affectedFile.resolvedPath)); if (seenKind === undefined || seenKind < emitKind) { // emit this file state.affectedFilesPendingEmitIndex = i; return { affectedFile: affectedFile, emitKind: emitKind }; } } } state.affectedFilesPendingEmit = undefined; state.affectedFilesPendingEmitKind = undefined; state.affectedFilesPendingEmitIndex = undefined; } return undefined; } /** * Handles semantic diagnostics and dts emit for affectedFile and files, that are referencing modules that export entities from affected file * This is because even though js emit doesnt change, dts emit / type used can change resulting in need for dts emit and js change */ function handleDtsMayChangeOfAffectedFile(state, affectedFile, cancellationToken, computeHash) { removeSemanticDiagnosticsOf(state, affectedFile.resolvedPath); // If affected files is everything except default library, then nothing more to do if (state.allFilesExcludingDefaultLibraryFile === state.affectedFiles) { if (!state.cleanedDiagnosticsOfLibFiles) { state.cleanedDiagnosticsOfLibFiles = true; var program_1 = ts.Debug.checkDefined(state.program); var options_2 = program_1.getCompilerOptions(); ts.forEach(program_1.getSourceFiles(), function (f) { return program_1.isSourceFileDefaultLibrary(f) && !ts.skipTypeChecking(f, options_2, program_1) && removeSemanticDiagnosticsOf(state, f.resolvedPath); }); } return; } if (!state.compilerOptions.assumeChangesOnlyAffectDirectDependencies) { forEachReferencingModulesOfExportOfAffectedFile(state, affectedFile, function (state, path) { return handleDtsMayChangeOf(state, path, cancellationToken, computeHash); }); } } /** * Handle the dts may change, so they need to be added to pending emit if dts emit is enabled, * Also we need to make sure signature is updated for these files */ function handleDtsMayChangeOf(state, path, cancellationToken, computeHash) { removeSemanticDiagnosticsOf(state, path); if (!state.changedFilesSet.has(path)) { var program = ts.Debug.checkDefined(state.program); var sourceFile = program.getSourceFileByPath(path); if (sourceFile) { // Even though the js emit doesnt change and we are already handling dts emit and semantic diagnostics // we need to update the signature to reflect correctness of the signature(which is output d.ts emit) of this file // This ensures that we dont later during incremental builds considering wrong signature. // Eg where this also is needed to ensure that .tsbuildinfo generated by incremental build should be same as if it was first fresh build ts.BuilderState.updateShapeSignature(state, program, sourceFile, ts.Debug.checkDefined(state.currentAffectedFilesSignatures), cancellationToken, computeHash, state.currentAffectedFilesExportedModulesMap); // If not dts emit, nothing more to do if (ts.getEmitDeclarations(state.compilerOptions)) { addToAffectedFilesPendingEmit(state, path, 0 /* DtsOnly */); } } } return false; } /** * Removes semantic diagnostics for path and * returns true if there are no more semantic diagnostics from the old state */ function removeSemanticDiagnosticsOf(state, path) { if (!state.semanticDiagnosticsFromOldState) { return true; } state.semanticDiagnosticsFromOldState.delete(path); state.semanticDiagnosticsPerFile.delete(path); return !state.semanticDiagnosticsFromOldState.size; } function isChangedSignagure(state, path) { var newSignature = ts.Debug.checkDefined(state.currentAffectedFilesSignatures).get(path); var oldSignagure = ts.Debug.checkDefined(state.fileInfos.get(path)).signature; return newSignature !== oldSignagure; } /** * Iterate on referencing modules that export entities from affected file */ function forEachReferencingModulesOfExportOfAffectedFile(state, affectedFile, fn) { // If there was change in signature (dts output) for the changed file, // then only we need to handle pending file emit if (!state.exportedModulesMap || !state.changedFilesSet.has(affectedFile.resolvedPath)) { return; } if (!isChangedSignagure(state, affectedFile.resolvedPath)) return; // Since isolated modules dont change js files, files affected by change in signature is itself // But we need to cleanup semantic diagnostics and queue dts emit for affected files if (state.compilerOptions.isolatedModules) { var seenFileNamesMap = ts.createMap(); seenFileNamesMap.set(affectedFile.resolvedPath, true); var queue = ts.BuilderState.getReferencedByPaths(state, affectedFile.resolvedPath); while (queue.length > 0) { var currentPath = queue.pop(); if (!seenFileNamesMap.has(currentPath)) { seenFileNamesMap.set(currentPath, true); var result = fn(state, currentPath); if (result && isChangedSignagure(state, currentPath)) { var currentSourceFile = ts.Debug.checkDefined(state.program).getSourceFileByPath(currentPath); queue.push.apply(queue, ts.BuilderState.getReferencedByPaths(state, currentSourceFile.resolvedPath)); } } } } ts.Debug.assert(!!state.currentAffectedFilesExportedModulesMap); var seenFileAndExportsOfFile = ts.createMap(); // Go through exported modules from cache first // If exported modules has path, all files referencing file exported from are affected if (ts.forEachEntry(state.currentAffectedFilesExportedModulesMap, function (exportedModules, exportedFromPath) { return exportedModules && exportedModules.has(affectedFile.resolvedPath) && forEachFilesReferencingPath(state, exportedFromPath, seenFileAndExportsOfFile, fn); })) { return; } // If exported from path is not from cache and exported modules has path, all files referencing file exported from are affected ts.forEachEntry(state.exportedModulesMap, function (exportedModules, exportedFromPath) { return !state.currentAffectedFilesExportedModulesMap.has(exportedFromPath) && // If we already iterated this through cache, ignore it exportedModules.has(affectedFile.resolvedPath) && forEachFilesReferencingPath(state, exportedFromPath, seenFileAndExportsOfFile, fn); }); } /** * Iterate on files referencing referencedPath */ function forEachFilesReferencingPath(state, referencedPath, seenFileAndExportsOfFile, fn) { return ts.forEachEntry(state.referencedMap, function (referencesInFile, filePath) { return referencesInFile.has(referencedPath) && forEachFileAndExportsOfFile(state, filePath, seenFileAndExportsOfFile, fn); }); } /** * fn on file and iterate on anything that exports this file */ function forEachFileAndExportsOfFile(state, filePath, seenFileAndExportsOfFile, fn) { if (!ts.addToSeen(seenFileAndExportsOfFile, filePath)) { return false; } if (fn(state, filePath)) { // If there are no more diagnostics from old cache, done return true; } ts.Debug.assert(!!state.currentAffectedFilesExportedModulesMap); // Go through exported modules from cache first // If exported modules has path, all files referencing file exported from are affected if (ts.forEachEntry(state.currentAffectedFilesExportedModulesMap, function (exportedModules, exportedFromPath) { return exportedModules && exportedModules.has(filePath) && forEachFileAndExportsOfFile(state, exportedFromPath, seenFileAndExportsOfFile, fn); })) { return true; } // If exported from path is not from cache and exported modules has path, all files referencing file exported from are affected if (ts.forEachEntry(state.exportedModulesMap, function (exportedModules, exportedFromPath) { return !state.currentAffectedFilesExportedModulesMap.has(exportedFromPath) && // If we already iterated this through cache, ignore it exportedModules.has(filePath) && forEachFileAndExportsOfFile(state, exportedFromPath, seenFileAndExportsOfFile, fn); })) { return true; } // Remove diagnostics of files that import this file (without going to exports of referencing files) return !!ts.forEachEntry(state.referencedMap, function (referencesInFile, referencingFilePath) { return referencesInFile.has(filePath) && !seenFileAndExportsOfFile.has(referencingFilePath) && // Not already removed diagnostic file fn(state, referencingFilePath); } // Dont add to seen since this is not yet done with the export removal ); } /** * This is called after completing operation on the next affected file. * The operations here are postponed to ensure that cancellation during the iteration is handled correctly */ function doneWithAffectedFile(state, affected, emitKind, isPendingEmit, isBuildInfoEmit) { if (isBuildInfoEmit) { state.emittedBuildInfo = true; } else if (affected === state.program) { state.changedFilesSet.clear(); state.programEmitComplete = true; } else { state.seenAffectedFiles.set(affected.resolvedPath, true); if (emitKind !== undefined) { (state.seenEmittedFiles || (state.seenEmittedFiles = ts.createMap())).set(affected.resolvedPath, emitKind); } if (isPendingEmit) { state.affectedFilesPendingEmitIndex++; } else { state.affectedFilesIndex++; } } } /** * Returns the result with affected file */ function toAffectedFileResult(state, result, affected) { doneWithAffectedFile(state, affected); return { result: result, affected: affected }; } /** * Returns the result with affected file */ function toAffectedFileEmitResult(state, result, affected, emitKind, isPendingEmit, isBuildInfoEmit) { doneWithAffectedFile(state, affected, emitKind, isPendingEmit, isBuildInfoEmit); return { result: result, affected: affected }; } /** * Gets semantic diagnostics for the file which are * bindAndCheckDiagnostics (from cache) and program diagnostics */ function getSemanticDiagnosticsOfFile(state, sourceFile, cancellationToken) { return ts.concatenate(getBinderAndCheckerDiagnosticsOfFile(state, sourceFile, cancellationToken), ts.Debug.checkDefined(state.program).getProgramDiagnostics(sourceFile)); } /** * Gets the binder and checker diagnostics either from cache if present, or otherwise from program and caches it * Note that it is assumed that when asked about binder and checker diagnostics, the file has been taken out of affected files/changed file set */ function getBinderAndCheckerDiagnosticsOfFile(state, sourceFile, cancellationToken) { var path = sourceFile.resolvedPath; if (state.semanticDiagnosticsPerFile) { var cachedDiagnostics = state.semanticDiagnosticsPerFile.get(path); // Report the bind and check diagnostics from the cache if we already have those diagnostics present if (cachedDiagnostics) { return cachedDiagnostics; } } // Diagnostics werent cached, get them from program, and cache the result var diagnostics = ts.Debug.checkDefined(state.program).getBindAndCheckDiagnostics(sourceFile, cancellationToken); if (state.semanticDiagnosticsPerFile) { state.semanticDiagnosticsPerFile.set(path, diagnostics); } return diagnostics; } /** * Gets the program information to be emitted in buildInfo so that we can use it to create new program */ function getProgramBuildInfo(state, getCanonicalFileName) { if (state.compilerOptions.outFile || state.compilerOptions.out) return undefined; var currentDirectory = ts.Debug.checkDefined(state.program).getCurrentDirectory(); var buildInfoDirectory = ts.getDirectoryPath(ts.getNormalizedAbsolutePath(ts.getTsBuildInfoEmitOutputFilePath(state.compilerOptions), currentDirectory)); var fileInfos = {}; state.fileInfos.forEach(function (value, key) { var signature = state.currentAffectedFilesSignatures && state.currentAffectedFilesSignatures.get(key); fileInfos[relativeToBuildInfo(key)] = signature === undefined ? value : { version: value.version, signature: signature, affectsGlobalScope: value.affectsGlobalScope }; }); var result = { fileInfos: fileInfos, options: convertToReusableCompilerOptions(state.compilerOptions, relativeToBuildInfoEnsuringAbsolutePath) }; if (state.referencedMap) { var referencedMap = {}; for (var _i = 0, _a = ts.arrayFrom(state.referencedMap.keys()).sort(ts.compareStringsCaseSensitive); _i < _a.length; _i++) { var key = _a[_i]; referencedMap[relativeToBuildInfo(key)] = ts.arrayFrom(state.referencedMap.get(key).keys(), relativeToBuildInfo).sort(ts.compareStringsCaseSensitive); } result.referencedMap = referencedMap; } if (state.exportedModulesMap) { var exportedModulesMap = {}; for (var _b = 0, _c = ts.arrayFrom(state.exportedModulesMap.keys()).sort(ts.compareStringsCaseSensitive); _b < _c.length; _b++) { var key = _c[_b]; var newValue = state.currentAffectedFilesExportedModulesMap && state.currentAffectedFilesExportedModulesMap.get(key); // Not in temporary cache, use existing value if (newValue === undefined) exportedModulesMap[relativeToBuildInfo(key)] = ts.arrayFrom(state.exportedModulesMap.get(key).keys(), relativeToBuildInfo).sort(ts.compareStringsCaseSensitive); // Value in cache and has updated value map, use that else if (newValue) exportedModulesMap[relativeToBuildInfo(key)] = ts.arrayFrom(newValue.keys(), relativeToBuildInfo).sort(ts.compareStringsCaseSensitive); } result.exportedModulesMap = exportedModulesMap; } if (state.semanticDiagnosticsPerFile) { var semanticDiagnosticsPerFile = []; for (var _d = 0, _e = ts.arrayFrom(state.semanticDiagnosticsPerFile.keys()).sort(ts.compareStringsCaseSensitive); _d < _e.length; _d++) { var key = _e[_d]; var value = state.semanticDiagnosticsPerFile.get(key); semanticDiagnosticsPerFile.push(value.length ? [ relativeToBuildInfo(key), state.hasReusableDiagnostic ? value : convertToReusableDiagnostics(value, relativeToBuildInfo) ] : relativeToBuildInfo(key)); } result.semanticDiagnosticsPerFile = semanticDiagnosticsPerFile; } return result; function relativeToBuildInfoEnsuringAbsolutePath(path) { return relativeToBuildInfo(ts.getNormalizedAbsolutePath(path, currentDirectory)); } function relativeToBuildInfo(path) { return ts.ensurePathIsNonModuleName(ts.getRelativePathFromDirectory(buildInfoDirectory, path, getCanonicalFileName)); } } function convertToReusableCompilerOptions(options, relativeToBuildInfo) { var result = {}; var optionsNameMap = ts.getOptionsNameMap().optionsNameMap; for (var name in options) { if (ts.hasProperty(options, name)) { result[name] = convertToReusableCompilerOptionValue(optionsNameMap.get(name.toLowerCase()), options[name], relativeToBuildInfo); } } if (result.configFilePath) { result.configFilePath = relativeToBuildInfo(result.configFilePath); } return result; } function convertToReusableCompilerOptionValue(option, value, relativeToBuildInfo) { if (option) { if (option.type === "list") { var values = value; if (option.element.isFilePath && values.length) { return values.map(relativeToBuildInfo); } } else if (option.isFilePath) { return relativeToBuildInfo(value); } } return value; } function convertToReusableDiagnostics(diagnostics, relativeToBuildInfo) { ts.Debug.assert(!!diagnostics.length); return diagnostics.map(function (diagnostic) { var result = convertToReusableDiagnosticRelatedInformation(diagnostic, relativeToBuildInfo); result.reportsUnnecessary = diagnostic.reportsUnnecessary; result.source = diagnostic.source; var relatedInformation = diagnostic.relatedInformation; result.relatedInformation = relatedInformation ? relatedInformation.length ? relatedInformation.map(function (r) { return convertToReusableDiagnosticRelatedInformation(r, relativeToBuildInfo); }) : ts.emptyArray : undefined; return result; }); } function convertToReusableDiagnosticRelatedInformation(diagnostic, relativeToBuildInfo) { var file = diagnostic.file; return __assign(__assign({}, diagnostic), { file: file ? relativeToBuildInfo(file.resolvedPath) : undefined }); } var BuilderProgramKind; (function (BuilderProgramKind) { BuilderProgramKind[BuilderProgramKind["SemanticDiagnosticsBuilderProgram"] = 0] = "SemanticDiagnosticsBuilderProgram"; BuilderProgramKind[BuilderProgramKind["EmitAndSemanticDiagnosticsBuilderProgram"] = 1] = "EmitAndSemanticDiagnosticsBuilderProgram"; })(BuilderProgramKind = ts.BuilderProgramKind || (ts.BuilderProgramKind = {})); function getBuilderCreationParameters(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences) { var host; var newProgram; var oldProgram; if (newProgramOrRootNames === undefined) { ts.Debug.assert(hostOrOptions === undefined); host = oldProgramOrHost; oldProgram = configFileParsingDiagnosticsOrOldProgram; ts.Debug.assert(!!oldProgram); newProgram = oldProgram.getProgram(); } else if (ts.isArray(newProgramOrRootNames)) { oldProgram = configFileParsingDiagnosticsOrOldProgram; newProgram = ts.createProgram({ rootNames: newProgramOrRootNames, options: hostOrOptions, host: oldProgramOrHost, oldProgram: oldProgram && oldProgram.getProgramOrUndefined(), configFileParsingDiagnostics: configFileParsingDiagnostics, projectReferences: projectReferences }); host = oldProgramOrHost; } else { newProgram = newProgramOrRootNames; host = hostOrOptions; oldProgram = oldProgramOrHost; configFileParsingDiagnostics = configFileParsingDiagnosticsOrOldProgram; } return { host: host, newProgram: newProgram, oldProgram: oldProgram, configFileParsingDiagnostics: configFileParsingDiagnostics || ts.emptyArray }; } ts.getBuilderCreationParameters = getBuilderCreationParameters; function createBuilderProgram(kind, _a) { var newProgram = _a.newProgram, host = _a.host, oldProgram = _a.oldProgram, configFileParsingDiagnostics = _a.configFileParsingDiagnostics; // Return same program if underlying program doesnt change var oldState = oldProgram && oldProgram.getState(); if (oldState && newProgram === oldState.program && configFileParsingDiagnostics === newProgram.getConfigFileParsingDiagnostics()) { newProgram = undefined; // TODO: GH#18217 oldState = undefined; return oldProgram; } /** * Create the canonical file name for identity */ var getCanonicalFileName = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames()); /** * Computing hash to for signature verification */ var computeHash = host.createHash || ts.generateDjb2Hash; var state = createBuilderProgramState(newProgram, getCanonicalFileName, oldState); var backupState; newProgram.getProgramBuildInfo = function () { return getProgramBuildInfo(state, getCanonicalFileName); }; // To ensure that we arent storing any references to old program or new program without state newProgram = undefined; // TODO: GH#18217 oldProgram = undefined; oldState = undefined; var builderProgram = createRedirectedBuilderProgram(state, configFileParsingDiagnostics); builderProgram.getState = function () { return state; }; builderProgram.backupState = function () { ts.Debug.assert(backupState === undefined); backupState = cloneBuilderProgramState(state); }; builderProgram.restoreState = function () { state = ts.Debug.checkDefined(backupState); backupState = undefined; }; builderProgram.getAllDependencies = function (sourceFile) { return ts.BuilderState.getAllDependencies(state, ts.Debug.checkDefined(state.program), sourceFile); }; builderProgram.getSemanticDiagnostics = getSemanticDiagnostics; builderProgram.emit = emit; builderProgram.releaseProgram = function () { releaseCache(state); backupState = undefined; }; if (kind === BuilderProgramKind.SemanticDiagnosticsBuilderProgram) { builderProgram.getSemanticDiagnosticsOfNextAffectedFile = getSemanticDiagnosticsOfNextAffectedFile; } else if (kind === BuilderProgramKind.EmitAndSemanticDiagnosticsBuilderProgram) { builderProgram.getSemanticDiagnosticsOfNextAffectedFile = getSemanticDiagnosticsOfNextAffectedFile; builderProgram.emitNextAffectedFile = emitNextAffectedFile; } else { ts.notImplemented(); } return builderProgram; /** * Emits the next affected file's emit result (EmitResult and sourceFiles emitted) or returns undefined if iteration is complete * The first of writeFile if provided, writeFile of BuilderProgramHost if provided, writeFile of compiler host * in that order would be used to write the files */ function emitNextAffectedFile(writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers) { var affected = getNextAffectedFile(state, cancellationToken, computeHash); var emitKind = 1 /* Full */; var isPendingEmitFile = false; if (!affected) { if (!state.compilerOptions.out && !state.compilerOptions.outFile) { var pendingAffectedFile = getNextAffectedFilePendingEmit(state); if (!pendingAffectedFile) { if (state.emittedBuildInfo) { return undefined; } var affected_1 = ts.Debug.checkDefined(state.program); return toAffectedFileEmitResult(state, // When whole program is affected, do emit only once (eg when --out or --outFile is specified) // Otherwise just affected file affected_1.emitBuildInfo(writeFile || ts.maybeBind(host, host.writeFile), cancellationToken), affected_1, 1 /* Full */, /*isPendingEmitFile*/ false, /*isBuildInfoEmit*/ true); } (affected = pendingAffectedFile.affectedFile, emitKind = pendingAffectedFile.emitKind); isPendingEmitFile = true; } else { var program = ts.Debug.checkDefined(state.program); if (state.programEmitComplete) return undefined; affected = program; } } return toAffectedFileEmitResult(state, // When whole program is affected, do emit only once (eg when --out or --outFile is specified) // Otherwise just affected file ts.Debug.checkDefined(state.program).emit(affected === state.program ? undefined : affected, writeFile || ts.maybeBind(host, host.writeFile), cancellationToken, emitOnlyDtsFiles || emitKind === 0 /* DtsOnly */, customTransformers), affected, emitKind, isPendingEmitFile); } /** * Emits the JavaScript and declaration files. * When targetSource file is specified, emits the files corresponding to that source file, * otherwise for the whole program. * In case of EmitAndSemanticDiagnosticsBuilderProgram, when targetSourceFile is specified, * it is assumed that that file is handled from affected file list. If targetSourceFile is not specified, * it will only emit all the affected files instead of whole program * * The first of writeFile if provided, writeFile of BuilderProgramHost if provided, writeFile of compiler host * in that order would be used to write the files */ function emit(targetSourceFile, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers) { if (kind === BuilderProgramKind.EmitAndSemanticDiagnosticsBuilderProgram) { assertSourceFileOkWithoutNextAffectedCall(state, targetSourceFile); var result = ts.handleNoEmitOptions(builderProgram, targetSourceFile, cancellationToken); if (result) return result; if (!targetSourceFile) { // Emit and report any errors we ran into. var sourceMaps = []; var emitSkipped = false; var diagnostics = void 0; var emittedFiles = []; var affectedEmitResult = void 0; while (affectedEmitResult = emitNextAffectedFile(writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers)) { emitSkipped = emitSkipped || affectedEmitResult.result.emitSkipped; diagnostics = ts.addRange(diagnostics, affectedEmitResult.result.diagnostics); emittedFiles = ts.addRange(emittedFiles, affectedEmitResult.result.emittedFiles); sourceMaps = ts.addRange(sourceMaps, affectedEmitResult.result.sourceMaps); } return { emitSkipped: emitSkipped, diagnostics: diagnostics || ts.emptyArray, emittedFiles: emittedFiles, sourceMaps: sourceMaps }; } } return ts.Debug.checkDefined(state.program).emit(targetSourceFile, writeFile || ts.maybeBind(host, host.writeFile), cancellationToken, emitOnlyDtsFiles, customTransformers); } /** * Return the semantic diagnostics for the next affected file or undefined if iteration is complete * If provided ignoreSourceFile would be called before getting the diagnostics and would ignore the sourceFile if the returned value was true */ function getSemanticDiagnosticsOfNextAffectedFile(cancellationToken, ignoreSourceFile) { while (true) { var affected = getNextAffectedFile(state, cancellationToken, computeHash); if (!affected) { // Done return undefined; } else if (affected === state.program) { // When whole program is affected, get all semantic diagnostics (eg when --out or --outFile is specified) return toAffectedFileResult(state, state.program.getSemanticDiagnostics(/*targetSourceFile*/ undefined, cancellationToken), affected); } // Add file to affected file pending emit to handle for later emit time if (kind === BuilderProgramKind.EmitAndSemanticDiagnosticsBuilderProgram) { addToAffectedFilesPendingEmit(state, affected.resolvedPath, 1 /* Full */); } // Get diagnostics for the affected file if its not ignored if (ignoreSourceFile && ignoreSourceFile(affected)) { // Get next affected file doneWithAffectedFile(state, affected); continue; } return toAffectedFileResult(state, getSemanticDiagnosticsOfFile(state, affected, cancellationToken), affected); } } /** * Gets the semantic diagnostics from the program corresponding to this state of file (if provided) or whole program * The semantic diagnostics are cached and managed here * Note that it is assumed that when asked about semantic diagnostics through this API, * the file has been taken out of affected files so it is safe to use cache or get from program and cache the diagnostics * In case of SemanticDiagnosticsBuilderProgram if the source file is not provided, * it will iterate through all the affected files, to ensure that cache stays valid and yet provide a way to get all semantic diagnostics */ function getSemanticDiagnostics(sourceFile, cancellationToken) { assertSourceFileOkWithoutNextAffectedCall(state, sourceFile); var compilerOptions = ts.Debug.checkDefined(state.program).getCompilerOptions(); if (compilerOptions.outFile || compilerOptions.out) { ts.Debug.assert(!state.semanticDiagnosticsPerFile); // We dont need to cache the diagnostics just return them from program return ts.Debug.checkDefined(state.program).getSemanticDiagnostics(sourceFile, cancellationToken); } if (sourceFile) { return getSemanticDiagnosticsOfFile(state, sourceFile, cancellationToken); } // When semantic builder asks for diagnostics of the whole program, // ensure that all the affected files are handled // eslint-disable-next-line no-empty while (getSemanticDiagnosticsOfNextAffectedFile(cancellationToken)) { } var diagnostics; for (var _i = 0, _a = ts.Debug.checkDefined(state.program).getSourceFiles(); _i < _a.length; _i++) { var sourceFile_1 = _a[_i]; diagnostics = ts.addRange(diagnostics, getSemanticDiagnosticsOfFile(state, sourceFile_1, cancellationToken)); } return diagnostics || ts.emptyArray; } } ts.createBuilderProgram = createBuilderProgram; function addToAffectedFilesPendingEmit(state, affectedFilePendingEmit, kind) { if (!state.affectedFilesPendingEmit) state.affectedFilesPendingEmit = []; if (!state.affectedFilesPendingEmitKind) state.affectedFilesPendingEmitKind = ts.createMap(); var existingKind = state.affectedFilesPendingEmitKind.get(affectedFilePendingEmit); state.affectedFilesPendingEmit.push(affectedFilePendingEmit); state.affectedFilesPendingEmitKind.set(affectedFilePendingEmit, existingKind || kind); // affectedFilesPendingEmitIndex === undefined // - means the emit state.affectedFilesPendingEmit was undefined before adding current affected files // so start from 0 as array would be affectedFilesPendingEmit // else, continue to iterate from existing index, the current set is appended to existing files if (state.affectedFilesPendingEmitIndex === undefined) { state.affectedFilesPendingEmitIndex = 0; } } function getMapOfReferencedSet(mapLike, toPath) { if (!mapLike) return undefined; var map = ts.createMap(); // Copies keys/values from template. Note that for..in will not throw if // template is undefined, and instead will just exit the loop. for (var key in mapLike) { if (ts.hasProperty(mapLike, key)) { map.set(toPath(key), ts.arrayToSet(mapLike[key], toPath)); } } return map; } function createBuildProgramUsingProgramBuildInfo(program, buildInfoPath, host) { var buildInfoDirectory = ts.getDirectoryPath(ts.getNormalizedAbsolutePath(buildInfoPath, host.getCurrentDirectory())); var getCanonicalFileName = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames()); var fileInfos = ts.createMap(); for (var key in program.fileInfos) { if (ts.hasProperty(program.fileInfos, key)) { fileInfos.set(toPath(key), program.fileInfos[key]); } } var state = { fileInfos: fileInfos, compilerOptions: ts.convertToOptionsWithAbsolutePaths(program.options, toAbsolutePath), referencedMap: getMapOfReferencedSet(program.referencedMap, toPath), exportedModulesMap: getMapOfReferencedSet(program.exportedModulesMap, toPath), semanticDiagnosticsPerFile: program.semanticDiagnosticsPerFile && ts.arrayToMap(program.semanticDiagnosticsPerFile, function (value) { return toPath(ts.isString(value) ? value : value[0]); }, function (value) { return ts.isString(value) ? ts.emptyArray : value[1]; }), hasReusableDiagnostic: true }; return { getState: function () { return state; }, backupState: ts.noop, restoreState: ts.noop, getProgram: ts.notImplemented, getProgramOrUndefined: ts.returnUndefined, releaseProgram: ts.noop, getCompilerOptions: function () { return state.compilerOptions; }, getSourceFile: ts.notImplemented, getSourceFiles: ts.notImplemented, getOptionsDiagnostics: ts.notImplemented, getGlobalDiagnostics: ts.notImplemented, getConfigFileParsingDiagnostics: ts.notImplemented, getSyntacticDiagnostics: ts.notImplemented, getDeclarationDiagnostics: ts.notImplemented, getSemanticDiagnostics: ts.notImplemented, emit: ts.notImplemented, getAllDependencies: ts.notImplemented, getCurrentDirectory: ts.notImplemented, emitNextAffectedFile: ts.notImplemented, getSemanticDiagnosticsOfNextAffectedFile: ts.notImplemented, close: ts.noop, }; function toPath(path) { return ts.toPath(path, buildInfoDirectory, getCanonicalFileName); } function toAbsolutePath(path) { return ts.getNormalizedAbsolutePath(path, buildInfoDirectory); } } ts.createBuildProgramUsingProgramBuildInfo = createBuildProgramUsingProgramBuildInfo; function createRedirectedBuilderProgram(state, configFileParsingDiagnostics) { return { getState: ts.notImplemented, backupState: ts.noop, restoreState: ts.noop, getProgram: getProgram, getProgramOrUndefined: function () { return state.program; }, releaseProgram: function () { return state.program = undefined; }, getCompilerOptions: function () { return state.compilerOptions; }, getSourceFile: function (fileName) { return getProgram().getSourceFile(fileName); }, getSourceFiles: function () { return getProgram().getSourceFiles(); }, getOptionsDiagnostics: function (cancellationToken) { return getProgram().getOptionsDiagnostics(cancellationToken); }, getGlobalDiagnostics: function (cancellationToken) { return getProgram().getGlobalDiagnostics(cancellationToken); }, getConfigFileParsingDiagnostics: function () { return configFileParsingDiagnostics; }, getSyntacticDiagnostics: function (sourceFile, cancellationToken) { return getProgram().getSyntacticDiagnostics(sourceFile, cancellationToken); }, getDeclarationDiagnostics: function (sourceFile, cancellationToken) { return getProgram().getDeclarationDiagnostics(sourceFile, cancellationToken); }, getSemanticDiagnostics: function (sourceFile, cancellationToken) { return getProgram().getSemanticDiagnostics(sourceFile, cancellationToken); }, emit: function (sourceFile, writeFile, cancellationToken, emitOnlyDts, customTransformers) { return getProgram().emit(sourceFile, writeFile, cancellationToken, emitOnlyDts, customTransformers); }, getAllDependencies: ts.notImplemented, getCurrentDirectory: function () { return getProgram().getCurrentDirectory(); }, close: ts.noop, }; function getProgram() { return ts.Debug.checkDefined(state.program); } } ts.createRedirectedBuilderProgram = createRedirectedBuilderProgram; })(ts || (ts = {})); var ts; (function (ts) { function createSemanticDiagnosticsBuilderProgram(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences) { return ts.createBuilderProgram(ts.BuilderProgramKind.SemanticDiagnosticsBuilderProgram, ts.getBuilderCreationParameters(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences)); } ts.createSemanticDiagnosticsBuilderProgram = createSemanticDiagnosticsBuilderProgram; function createEmitAndSemanticDiagnosticsBuilderProgram(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences) { return ts.createBuilderProgram(ts.BuilderProgramKind.EmitAndSemanticDiagnosticsBuilderProgram, ts.getBuilderCreationParameters(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences)); } ts.createEmitAndSemanticDiagnosticsBuilderProgram = createEmitAndSemanticDiagnosticsBuilderProgram; function createAbstractBuilder(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences) { var _a = ts.getBuilderCreationParameters(newProgramOrRootNames, hostOrOptions, oldProgramOrHost, configFileParsingDiagnosticsOrOldProgram, configFileParsingDiagnostics, projectReferences), newProgram = _a.newProgram, newConfigFileParsingDiagnostics = _a.configFileParsingDiagnostics; return ts.createRedirectedBuilderProgram({ program: newProgram, compilerOptions: newProgram.getCompilerOptions() }, newConfigFileParsingDiagnostics); } ts.createAbstractBuilder = createAbstractBuilder; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { function removeIgnoredPath(path) { // Consider whole staging folder as if node_modules changed. if (ts.endsWith(path, "/node_modules/.staging")) { return ts.removeSuffix(path, "/.staging"); } return ts.some(ts.ignoredPaths, function (searchPath) { return ts.stringContains(path, searchPath); }) ? undefined : path; } ts.removeIgnoredPath = removeIgnoredPath; /** * Filter out paths like * "/", "/user", "/user/username", "/user/username/folderAtRoot", * "c:/", "c:/users", "c:/users/username", "c:/users/username/folderAtRoot", "c:/folderAtRoot" * @param dirPath */ function canWatchDirectory(dirPath) { var rootLength = ts.getRootLength(dirPath); if (dirPath.length === rootLength) { // Ignore "/", "c:/" return false; } var nextDirectorySeparator = dirPath.indexOf(ts.directorySeparator, rootLength); if (nextDirectorySeparator === -1) { // ignore "/user", "c:/users" or "c:/folderAtRoot" return false; } var pathPartForUserCheck = dirPath.substring(rootLength, nextDirectorySeparator + 1); var isNonDirectorySeparatorRoot = rootLength > 1 || dirPath.charCodeAt(0) !== 47 /* slash */; if (isNonDirectorySeparatorRoot && dirPath.search(/[a-zA-Z]:/) !== 0 && // Non dos style paths pathPartForUserCheck.search(/[a-zA-z]\$\//) === 0) { // Dos style nextPart nextDirectorySeparator = dirPath.indexOf(ts.directorySeparator, nextDirectorySeparator + 1); if (nextDirectorySeparator === -1) { // ignore "//vda1cs4850/c$/folderAtRoot" return false; } pathPartForUserCheck = dirPath.substring(rootLength + pathPartForUserCheck.length, nextDirectorySeparator + 1); } if (isNonDirectorySeparatorRoot && pathPartForUserCheck.search(/users\//i) !== 0) { // Paths like c:/folderAtRoot/subFolder are allowed return true; } for (var searchIndex = nextDirectorySeparator + 1, searchLevels = 2; searchLevels > 0; searchLevels--) { searchIndex = dirPath.indexOf(ts.directorySeparator, searchIndex) + 1; if (searchIndex === 0) { // Folder isnt at expected minimum levels return false; } } return true; } ts.canWatchDirectory = canWatchDirectory; function createResolutionCache(resolutionHost, rootDirForResolution, logChangesWhenResolvingModule) { var filesWithChangedSetOfUnresolvedImports; var filesWithInvalidatedResolutions; var filesWithInvalidatedNonRelativeUnresolvedImports; var nonRelativeExternalModuleResolutions = ts.createMultiMap(); var resolutionsWithFailedLookups = []; var resolvedFileToResolution = ts.createMultiMap(); var getCurrentDirectory = ts.memoize(function () { return resolutionHost.getCurrentDirectory(); }); // TODO: GH#18217 var cachedDirectoryStructureHost = resolutionHost.getCachedDirectoryStructureHost(); // The resolvedModuleNames and resolvedTypeReferenceDirectives are the cache of resolutions per file. // The key in the map is source file's path. // The values are Map of resolutions with key being name lookedup. var resolvedModuleNames = ts.createMap(); var perDirectoryResolvedModuleNames = ts.createCacheWithRedirects(); var nonRelativeModuleNameCache = ts.createCacheWithRedirects(); var moduleResolutionCache = ts.createModuleResolutionCacheWithMaps(perDirectoryResolvedModuleNames, nonRelativeModuleNameCache, getCurrentDirectory(), resolutionHost.getCanonicalFileName); var resolvedTypeReferenceDirectives = ts.createMap(); var perDirectoryResolvedTypeReferenceDirectives = ts.createCacheWithRedirects(); /** * These are the extensions that failed lookup files will have by default, * any other extension of failed lookup will be store that path in custom failed lookup path * This helps in not having to comb through all resolutions when files are added/removed * Note that .d.ts file also has .d.ts extension hence will be part of default extensions */ var failedLookupDefaultExtensions = [".ts" /* Ts */, ".tsx" /* Tsx */, ".js" /* Js */, ".jsx" /* Jsx */, ".json" /* Json */]; var customFailedLookupPaths = ts.createMap(); var directoryWatchesOfFailedLookups = ts.createMap(); var rootDir = rootDirForResolution && ts.removeTrailingDirectorySeparator(ts.getNormalizedAbsolutePath(rootDirForResolution, getCurrentDirectory())); var rootPath = (rootDir && resolutionHost.toPath(rootDir)); // TODO: GH#18217 var rootSplitLength = rootPath !== undefined ? rootPath.split(ts.directorySeparator).length : 0; // TypeRoot watches for the types that get added as part of getAutomaticTypeDirectiveNames var typeRootsWatches = ts.createMap(); return { startRecordingFilesWithChangedResolutions: startRecordingFilesWithChangedResolutions, finishRecordingFilesWithChangedResolutions: finishRecordingFilesWithChangedResolutions, // perDirectoryResolvedModuleNames and perDirectoryResolvedTypeReferenceDirectives could be non empty if there was exception during program update // (between startCachingPerDirectoryResolution and finishCachingPerDirectoryResolution) startCachingPerDirectoryResolution: clearPerDirectoryResolutions, finishCachingPerDirectoryResolution: finishCachingPerDirectoryResolution, resolveModuleNames: resolveModuleNames, getResolvedModuleWithFailedLookupLocationsFromCache: getResolvedModuleWithFailedLookupLocationsFromCache, resolveTypeReferenceDirectives: resolveTypeReferenceDirectives, removeResolutionsFromProjectReferenceRedirects: removeResolutionsFromProjectReferenceRedirects, removeResolutionsOfFile: removeResolutionsOfFile, invalidateResolutionOfFile: invalidateResolutionOfFile, setFilesWithInvalidatedNonRelativeUnresolvedImports: setFilesWithInvalidatedNonRelativeUnresolvedImports, createHasInvalidatedResolution: createHasInvalidatedResolution, updateTypeRootsWatch: updateTypeRootsWatch, closeTypeRootsWatch: closeTypeRootsWatch, clear: clear }; function getResolvedModule(resolution) { return resolution.resolvedModule; } function getResolvedTypeReferenceDirective(resolution) { return resolution.resolvedTypeReferenceDirective; } function isInDirectoryPath(dir, file) { if (dir === undefined || file.length <= dir.length) { return false; } return ts.startsWith(file, dir) && file[dir.length] === ts.directorySeparator; } function clear() { ts.clearMap(directoryWatchesOfFailedLookups, ts.closeFileWatcherOf); customFailedLookupPaths.clear(); nonRelativeExternalModuleResolutions.clear(); closeTypeRootsWatch(); resolvedModuleNames.clear(); resolvedTypeReferenceDirectives.clear(); resolvedFileToResolution.clear(); resolutionsWithFailedLookups.length = 0; // perDirectoryResolvedModuleNames and perDirectoryResolvedTypeReferenceDirectives could be non empty if there was exception during program update // (between startCachingPerDirectoryResolution and finishCachingPerDirectoryResolution) clearPerDirectoryResolutions(); } function startRecordingFilesWithChangedResolutions() { filesWithChangedSetOfUnresolvedImports = []; } function finishRecordingFilesWithChangedResolutions() { var collected = filesWithChangedSetOfUnresolvedImports; filesWithChangedSetOfUnresolvedImports = undefined; return collected; } function isFileWithInvalidatedNonRelativeUnresolvedImports(path) { if (!filesWithInvalidatedNonRelativeUnresolvedImports) { return false; } // Invalidated if file has unresolved imports var value = filesWithInvalidatedNonRelativeUnresolvedImports.get(path); return !!value && !!value.length; } function createHasInvalidatedResolution(forceAllFilesAsInvalidated) { if (forceAllFilesAsInvalidated) { // Any file asked would have invalidated resolution filesWithInvalidatedResolutions = undefined; return ts.returnTrue; } var collected = filesWithInvalidatedResolutions; filesWithInvalidatedResolutions = undefined; return function (path) { return (!!collected && collected.has(path)) || isFileWithInvalidatedNonRelativeUnresolvedImports(path); }; } function clearPerDirectoryResolutions() { perDirectoryResolvedModuleNames.clear(); nonRelativeModuleNameCache.clear(); perDirectoryResolvedTypeReferenceDirectives.clear(); nonRelativeExternalModuleResolutions.forEach(watchFailedLookupLocationOfNonRelativeModuleResolutions); nonRelativeExternalModuleResolutions.clear(); } function finishCachingPerDirectoryResolution() { filesWithInvalidatedNonRelativeUnresolvedImports = undefined; clearPerDirectoryResolutions(); directoryWatchesOfFailedLookups.forEach(function (watcher, path) { if (watcher.refCount === 0) { directoryWatchesOfFailedLookups.delete(path); watcher.watcher.close(); } }); } function resolveModuleName(moduleName, containingFile, compilerOptions, host, redirectedReference) { var _a; var primaryResult = ts.resolveModuleName(moduleName, containingFile, compilerOptions, host, moduleResolutionCache, redirectedReference); // return result immediately only if global cache support is not enabled or if it is .ts, .tsx or .d.ts if (!resolutionHost.getGlobalCache) { return primaryResult; } // otherwise try to load typings from @types var globalCache = resolutionHost.getGlobalCache(); if (globalCache !== undefined && !ts.isExternalModuleNameRelative(moduleName) && !(primaryResult.resolvedModule && ts.extensionIsTS(primaryResult.resolvedModule.extension))) { // create different collection of failed lookup locations for second pass // if it will fail and we've already found something during the first pass - we don't want to pollute its results var _b = ts.loadModuleFromGlobalCache(ts.Debug.checkDefined(resolutionHost.globalCacheResolutionModuleName)(moduleName), resolutionHost.projectName, compilerOptions, host, globalCache), resolvedModule = _b.resolvedModule, failedLookupLocations = _b.failedLookupLocations; if (resolvedModule) { // Modify existing resolution so its saved in the directory cache as well primaryResult.resolvedModule = resolvedModule; (_a = primaryResult.failedLookupLocations).push.apply(_a, failedLookupLocations); return primaryResult; } } // Default return the result from the first pass return primaryResult; } function resolveNamesWithLocalCache(_a) { var _b; var names = _a.names, containingFile = _a.containingFile, redirectedReference = _a.redirectedReference, cache = _a.cache, perDirectoryCacheWithRedirects = _a.perDirectoryCacheWithRedirects, loader = _a.loader, getResolutionWithResolvedFileName = _a.getResolutionWithResolvedFileName, shouldRetryResolution = _a.shouldRetryResolution, reusedNames = _a.reusedNames, logChanges = _a.logChanges; var path = resolutionHost.toPath(containingFile); var resolutionsInFile = cache.get(path) || cache.set(path, ts.createMap()).get(path); var dirPath = ts.getDirectoryPath(path); var perDirectoryCache = perDirectoryCacheWithRedirects.getOrCreateMapOfCacheRedirects(redirectedReference); var perDirectoryResolution = perDirectoryCache.get(dirPath); if (!perDirectoryResolution) { perDirectoryResolution = ts.createMap(); perDirectoryCache.set(dirPath, perDirectoryResolution); } var resolvedModules = []; var compilerOptions = resolutionHost.getCompilationSettings(); var hasInvalidatedNonRelativeUnresolvedImport = logChanges && isFileWithInvalidatedNonRelativeUnresolvedImports(path); // All the resolutions in this file are invalidated if this file wasnt resolved using same redirect var program = resolutionHost.getCurrentProgram(); var oldRedirect = program && program.getResolvedProjectReferenceToRedirect(containingFile); var unmatchedRedirects = oldRedirect ? !redirectedReference || redirectedReference.sourceFile.path !== oldRedirect.sourceFile.path : !!redirectedReference; var seenNamesInFile = ts.createMap(); for (var _i = 0, names_3 = names; _i < names_3.length; _i++) { var name = names_3[_i]; var resolution = resolutionsInFile.get(name); // Resolution is valid if it is present and not invalidated if (!seenNamesInFile.has(name) && unmatchedRedirects || !resolution || resolution.isInvalidated || // If the name is unresolved import that was invalidated, recalculate (hasInvalidatedNonRelativeUnresolvedImport && !ts.isExternalModuleNameRelative(name) && shouldRetryResolution(resolution))) { var existingResolution = resolution; var resolutionInDirectory = perDirectoryResolution.get(name); if (resolutionInDirectory) { resolution = resolutionInDirectory; } else { resolution = loader(name, containingFile, compilerOptions, ((_b = resolutionHost.getCompilerHost) === null || _b === void 0 ? void 0 : _b.call(resolutionHost)) || resolutionHost, redirectedReference); perDirectoryResolution.set(name, resolution); } resolutionsInFile.set(name, resolution); watchFailedLookupLocationsOfExternalModuleResolutions(name, resolution, path, getResolutionWithResolvedFileName); if (existingResolution) { stopWatchFailedLookupLocationOfResolution(existingResolution, path, getResolutionWithResolvedFileName); } if (logChanges && filesWithChangedSetOfUnresolvedImports && !resolutionIsEqualTo(existingResolution, resolution)) { filesWithChangedSetOfUnresolvedImports.push(path); // reset log changes to avoid recording the same file multiple times logChanges = false; } } ts.Debug.assert(resolution !== undefined && !resolution.isInvalidated); seenNamesInFile.set(name, true); resolvedModules.push(getResolutionWithResolvedFileName(resolution)); } // Stop watching and remove the unused name resolutionsInFile.forEach(function (resolution, name) { if (!seenNamesInFile.has(name) && !ts.contains(reusedNames, name)) { stopWatchFailedLookupLocationOfResolution(resolution, path, getResolutionWithResolvedFileName); resolutionsInFile.delete(name); } }); return resolvedModules; function resolutionIsEqualTo(oldResolution, newResolution) { if (oldResolution === newResolution) { return true; } if (!oldResolution || !newResolution) { return false; } var oldResult = getResolutionWithResolvedFileName(oldResolution); var newResult = getResolutionWithResolvedFileName(newResolution); if (oldResult === newResult) { return true; } if (!oldResult || !newResult) { return false; } return oldResult.resolvedFileName === newResult.resolvedFileName; } } function resolveTypeReferenceDirectives(typeDirectiveNames, containingFile, redirectedReference) { return resolveNamesWithLocalCache({ names: typeDirectiveNames, containingFile: containingFile, redirectedReference: redirectedReference, cache: resolvedTypeReferenceDirectives, perDirectoryCacheWithRedirects: perDirectoryResolvedTypeReferenceDirectives, loader: ts.resolveTypeReferenceDirective, getResolutionWithResolvedFileName: getResolvedTypeReferenceDirective, shouldRetryResolution: function (resolution) { return resolution.resolvedTypeReferenceDirective === undefined; }, }); } function resolveModuleNames(moduleNames, containingFile, reusedNames, redirectedReference) { return resolveNamesWithLocalCache({ names: moduleNames, containingFile: containingFile, redirectedReference: redirectedReference, cache: resolvedModuleNames, perDirectoryCacheWithRedirects: perDirectoryResolvedModuleNames, loader: resolveModuleName, getResolutionWithResolvedFileName: getResolvedModule, shouldRetryResolution: function (resolution) { return !resolution.resolvedModule || !ts.resolutionExtensionIsTSOrJson(resolution.resolvedModule.extension); }, reusedNames: reusedNames, logChanges: logChangesWhenResolvingModule }); } function getResolvedModuleWithFailedLookupLocationsFromCache(moduleName, containingFile) { var cache = resolvedModuleNames.get(resolutionHost.toPath(containingFile)); return cache && cache.get(moduleName); } function isNodeModulesAtTypesDirectory(dirPath) { return ts.endsWith(dirPath, "/node_modules/@types"); } function getDirectoryToWatchFailedLookupLocation(failedLookupLocation, failedLookupLocationPath) { if (isInDirectoryPath(rootPath, failedLookupLocationPath)) { // Ensure failed look up is normalized path failedLookupLocation = ts.isRootedDiskPath(failedLookupLocation) ? ts.normalizePath(failedLookupLocation) : ts.getNormalizedAbsolutePath(failedLookupLocation, getCurrentDirectory()); var failedLookupPathSplit = failedLookupLocationPath.split(ts.directorySeparator); var failedLookupSplit = failedLookupLocation.split(ts.directorySeparator); ts.Debug.assert(failedLookupSplit.length === failedLookupPathSplit.length, "FailedLookup: " + failedLookupLocation + " failedLookupLocationPath: " + failedLookupLocationPath); if (failedLookupPathSplit.length > rootSplitLength + 1) { // Instead of watching root, watch directory in root to avoid watching excluded directories not needed for module resolution return { dir: failedLookupSplit.slice(0, rootSplitLength + 1).join(ts.directorySeparator), dirPath: failedLookupPathSplit.slice(0, rootSplitLength + 1).join(ts.directorySeparator) }; } else { // Always watch root directory non recursively return { dir: rootDir, dirPath: rootPath, nonRecursive: false }; } } return getDirectoryToWatchFromFailedLookupLocationDirectory(ts.getDirectoryPath(ts.getNormalizedAbsolutePath(failedLookupLocation, getCurrentDirectory())), ts.getDirectoryPath(failedLookupLocationPath)); } function getDirectoryToWatchFromFailedLookupLocationDirectory(dir, dirPath) { // If directory path contains node module, get the most parent node_modules directory for watching while (ts.pathContainsNodeModules(dirPath)) { dir = ts.getDirectoryPath(dir); dirPath = ts.getDirectoryPath(dirPath); } // If the directory is node_modules use it to watch, always watch it recursively if (ts.isNodeModulesDirectory(dirPath)) { return canWatchDirectory(ts.getDirectoryPath(dirPath)) ? { dir: dir, dirPath: dirPath } : undefined; } var nonRecursive = true; // Use some ancestor of the root directory var subDirectoryPath, subDirectory; if (rootPath !== undefined) { while (!isInDirectoryPath(dirPath, rootPath)) { var parentPath = ts.getDirectoryPath(dirPath); if (parentPath === dirPath) { break; } nonRecursive = false; subDirectoryPath = dirPath; subDirectory = dir; dirPath = parentPath; dir = ts.getDirectoryPath(dir); } } return canWatchDirectory(dirPath) ? { dir: subDirectory || dir, dirPath: subDirectoryPath || dirPath, nonRecursive: nonRecursive } : undefined; } function isPathWithDefaultFailedLookupExtension(path) { return ts.fileExtensionIsOneOf(path, failedLookupDefaultExtensions); } function watchFailedLookupLocationsOfExternalModuleResolutions(name, resolution, filePath, getResolutionWithResolvedFileName) { if (resolution.refCount) { resolution.refCount++; ts.Debug.assertDefined(resolution.files); } else { resolution.refCount = 1; ts.Debug.assert(resolution.files === undefined); if (ts.isExternalModuleNameRelative(name)) { watchFailedLookupLocationOfResolution(resolution); } else { nonRelativeExternalModuleResolutions.add(name, resolution); } var resolved = getResolutionWithResolvedFileName(resolution); if (resolved && resolved.resolvedFileName) { resolvedFileToResolution.add(resolutionHost.toPath(resolved.resolvedFileName), resolution); } } (resolution.files || (resolution.files = [])).push(filePath); } function watchFailedLookupLocationOfResolution(resolution) { ts.Debug.assert(!!resolution.refCount); var failedLookupLocations = resolution.failedLookupLocations; if (!failedLookupLocations.length) return; resolutionsWithFailedLookups.push(resolution); var setAtRoot = false; for (var _i = 0, failedLookupLocations_1 = failedLookupLocations; _i < failedLookupLocations_1.length; _i++) { var failedLookupLocation = failedLookupLocations_1[_i]; var failedLookupLocationPath = resolutionHost.toPath(failedLookupLocation); var toWatch = getDirectoryToWatchFailedLookupLocation(failedLookupLocation, failedLookupLocationPath); if (toWatch) { var dir = toWatch.dir, dirPath = toWatch.dirPath, nonRecursive = toWatch.nonRecursive; // If the failed lookup location path is not one of the supported extensions, // store it in the custom path if (!isPathWithDefaultFailedLookupExtension(failedLookupLocationPath)) { var refCount = customFailedLookupPaths.get(failedLookupLocationPath) || 0; customFailedLookupPaths.set(failedLookupLocationPath, refCount + 1); } if (dirPath === rootPath) { ts.Debug.assert(!nonRecursive); setAtRoot = true; } else { setDirectoryWatcher(dir, dirPath, nonRecursive); } } } if (setAtRoot) { // This is always non recursive setDirectoryWatcher(rootDir, rootPath, /*nonRecursive*/ true); // TODO: GH#18217 } } function watchFailedLookupLocationOfNonRelativeModuleResolutions(resolutions, name) { var program = resolutionHost.getCurrentProgram(); if (!program || !program.getTypeChecker().tryFindAmbientModuleWithoutAugmentations(name)) { resolutions.forEach(watchFailedLookupLocationOfResolution); } } function setDirectoryWatcher(dir, dirPath, nonRecursive) { var dirWatcher = directoryWatchesOfFailedLookups.get(dirPath); if (dirWatcher) { ts.Debug.assert(!!nonRecursive === !!dirWatcher.nonRecursive); dirWatcher.refCount++; } else { directoryWatchesOfFailedLookups.set(dirPath, { watcher: createDirectoryWatcher(dir, dirPath, nonRecursive), refCount: 1, nonRecursive: nonRecursive }); } } function stopWatchFailedLookupLocationOfResolution(resolution, filePath, getResolutionWithResolvedFileName) { ts.unorderedRemoveItem(ts.Debug.assertDefined(resolution.files), filePath); resolution.refCount--; if (resolution.refCount) { return; } var resolved = getResolutionWithResolvedFileName(resolution); if (resolved && resolved.resolvedFileName) { resolvedFileToResolution.remove(resolutionHost.toPath(resolved.resolvedFileName), resolution); } if (!ts.unorderedRemoveItem(resolutionsWithFailedLookups, resolution)) { // If not watching failed lookups, it wont be there in resolutionsWithFailedLookups return; } var failedLookupLocations = resolution.failedLookupLocations; var removeAtRoot = false; for (var _i = 0, failedLookupLocations_2 = failedLookupLocations; _i < failedLookupLocations_2.length; _i++) { var failedLookupLocation = failedLookupLocations_2[_i]; var failedLookupLocationPath = resolutionHost.toPath(failedLookupLocation); var toWatch = getDirectoryToWatchFailedLookupLocation(failedLookupLocation, failedLookupLocationPath); if (toWatch) { var dirPath = toWatch.dirPath; var refCount = customFailedLookupPaths.get(failedLookupLocationPath); if (refCount) { if (refCount === 1) { customFailedLookupPaths.delete(failedLookupLocationPath); } else { ts.Debug.assert(refCount > 1); customFailedLookupPaths.set(failedLookupLocationPath, refCount - 1); } } if (dirPath === rootPath) { removeAtRoot = true; } else { removeDirectoryWatcher(dirPath); } } } if (removeAtRoot) { removeDirectoryWatcher(rootPath); } } function removeDirectoryWatcher(dirPath) { var dirWatcher = directoryWatchesOfFailedLookups.get(dirPath); // Do not close the watcher yet since it might be needed by other failed lookup locations. dirWatcher.refCount--; } function createDirectoryWatcher(directory, dirPath, nonRecursive) { return resolutionHost.watchDirectoryOfFailedLookupLocation(directory, function (fileOrDirectory) { var fileOrDirectoryPath = resolutionHost.toPath(fileOrDirectory); if (cachedDirectoryStructureHost) { // Since the file existence changed, update the sourceFiles cache cachedDirectoryStructureHost.addOrDeleteFileOrDirectory(fileOrDirectory, fileOrDirectoryPath); } if (invalidateResolutionOfFailedLookupLocation(fileOrDirectoryPath, dirPath === fileOrDirectoryPath)) { resolutionHost.onInvalidatedResolution(); } }, nonRecursive ? 0 /* None */ : 1 /* Recursive */); } function removeResolutionsOfFileFromCache(cache, filePath, getResolutionWithResolvedFileName) { // Deleted file, stop watching failed lookups for all the resolutions in the file var resolutions = cache.get(filePath); if (resolutions) { resolutions.forEach(function (resolution) { return stopWatchFailedLookupLocationOfResolution(resolution, filePath, getResolutionWithResolvedFileName); }); cache.delete(filePath); } } function removeResolutionsFromProjectReferenceRedirects(filePath) { if (!ts.fileExtensionIs(filePath, ".json" /* Json */)) { return; } var program = resolutionHost.getCurrentProgram(); if (!program) { return; } // If this file is input file for the referenced project, get it var resolvedProjectReference = program.getResolvedProjectReferenceByPath(filePath); if (!resolvedProjectReference) { return; } // filePath is for the projectReference and the containing file is from this project reference, invalidate the resolution resolvedProjectReference.commandLine.fileNames.forEach(function (f) { return removeResolutionsOfFile(resolutionHost.toPath(f)); }); } function removeResolutionsOfFile(filePath) { removeResolutionsOfFileFromCache(resolvedModuleNames, filePath, getResolvedModule); removeResolutionsOfFileFromCache(resolvedTypeReferenceDirectives, filePath, getResolvedTypeReferenceDirective); } function invalidateResolution(resolution) { resolution.isInvalidated = true; var changedInAutoTypeReferenced = false; for (var _i = 0, _a = ts.Debug.assertDefined(resolution.files); _i < _a.length; _i++) { var containingFilePath = _a[_i]; (filesWithInvalidatedResolutions || (filesWithInvalidatedResolutions = ts.createMap())).set(containingFilePath, true); // When its a file with inferred types resolution, invalidate type reference directive resolution changedInAutoTypeReferenced = changedInAutoTypeReferenced || containingFilePath.endsWith(ts.inferredTypesContainingFile); } if (changedInAutoTypeReferenced) { resolutionHost.onChangedAutomaticTypeDirectiveNames(); } } function invalidateResolutionOfFile(filePath) { removeResolutionsOfFile(filePath); // Resolution is invalidated if the resulting file name is same as the deleted file path ts.forEach(resolvedFileToResolution.get(filePath), invalidateResolution); } function setFilesWithInvalidatedNonRelativeUnresolvedImports(filesMap) { ts.Debug.assert(filesWithInvalidatedNonRelativeUnresolvedImports === filesMap || filesWithInvalidatedNonRelativeUnresolvedImports === undefined); filesWithInvalidatedNonRelativeUnresolvedImports = filesMap; } function invalidateResolutionOfFailedLookupLocation(fileOrDirectoryPath, isCreatingWatchedDirectory) { var isChangedFailedLookupLocation; if (isCreatingWatchedDirectory) { // Watching directory is created // Invalidate any resolution has failed lookup in this directory isChangedFailedLookupLocation = function (location) { return isInDirectoryPath(fileOrDirectoryPath, resolutionHost.toPath(location)); }; } else { // If something to do with folder/file starting with "." in node_modules folder, skip it var updatedPath = removeIgnoredPath(fileOrDirectoryPath); if (!updatedPath) return false; fileOrDirectoryPath = updatedPath; // prevent saving an open file from over-eagerly triggering invalidation if (resolutionHost.fileIsOpen(fileOrDirectoryPath)) { return false; } // Some file or directory in the watching directory is created // Return early if it does not have any of the watching extension or not the custom failed lookup path var dirOfFileOrDirectory = ts.getDirectoryPath(fileOrDirectoryPath); if (isNodeModulesAtTypesDirectory(fileOrDirectoryPath) || ts.isNodeModulesDirectory(fileOrDirectoryPath) || isNodeModulesAtTypesDirectory(dirOfFileOrDirectory) || ts.isNodeModulesDirectory(dirOfFileOrDirectory)) { // Invalidate any resolution from this directory isChangedFailedLookupLocation = function (location) { var locationPath = resolutionHost.toPath(location); return locationPath === fileOrDirectoryPath || ts.startsWith(resolutionHost.toPath(location), fileOrDirectoryPath); }; } else { if (!isPathWithDefaultFailedLookupExtension(fileOrDirectoryPath) && !customFailedLookupPaths.has(fileOrDirectoryPath)) { return false; } // Ignore emits from the program if (ts.isEmittedFileOfProgram(resolutionHost.getCurrentProgram(), fileOrDirectoryPath)) { return false; } // Resolution need to be invalidated if failed lookup location is same as the file or directory getting created isChangedFailedLookupLocation = function (location) { return resolutionHost.toPath(location) === fileOrDirectoryPath; }; } } var invalidated = false; // Resolution is invalidated if the resulting file name is same as the deleted file path for (var _i = 0, resolutionsWithFailedLookups_1 = resolutionsWithFailedLookups; _i < resolutionsWithFailedLookups_1.length; _i++) { var resolution = resolutionsWithFailedLookups_1[_i]; if (resolution.failedLookupLocations.some(isChangedFailedLookupLocation)) { invalidateResolution(resolution); invalidated = true; } } return invalidated; } function closeTypeRootsWatch() { ts.clearMap(typeRootsWatches, ts.closeFileWatcher); } function getDirectoryToWatchFailedLookupLocationFromTypeRoot(typeRoot, typeRootPath) { if (isInDirectoryPath(rootPath, typeRootPath)) { return rootPath; } var toWatch = getDirectoryToWatchFromFailedLookupLocationDirectory(typeRoot, typeRootPath); return toWatch && directoryWatchesOfFailedLookups.has(toWatch.dirPath) ? toWatch.dirPath : undefined; } function createTypeRootsWatch(typeRootPath, typeRoot) { // Create new watch and recursive info return resolutionHost.watchTypeRootsDirectory(typeRoot, function (fileOrDirectory) { var fileOrDirectoryPath = resolutionHost.toPath(fileOrDirectory); if (cachedDirectoryStructureHost) { // Since the file existence changed, update the sourceFiles cache cachedDirectoryStructureHost.addOrDeleteFileOrDirectory(fileOrDirectory, fileOrDirectoryPath); } // For now just recompile // We could potentially store more data here about whether it was/would be really be used or not // and with that determine to trigger compilation but for now this is enough resolutionHost.onChangedAutomaticTypeDirectiveNames(); // Since directory watchers invoked are flaky, the failed lookup location events might not be triggered // So handle to failed lookup locations here as well to ensure we are invalidating resolutions var dirPath = getDirectoryToWatchFailedLookupLocationFromTypeRoot(typeRoot, typeRootPath); if (dirPath && invalidateResolutionOfFailedLookupLocation(fileOrDirectoryPath, dirPath === fileOrDirectoryPath)) { resolutionHost.onInvalidatedResolution(); } }, 1 /* Recursive */); } /** * Watches the types that would get added as part of getAutomaticTypeDirectiveNames * To be called when compiler options change */ function updateTypeRootsWatch() { var options = resolutionHost.getCompilationSettings(); if (options.types) { // No need to do any watch since resolution cache is going to handle the failed lookups // for the types added by this closeTypeRootsWatch(); return; } // we need to assume the directories exist to ensure that we can get all the type root directories that get included // But filter directories that are at root level to say directory doesnt exist, so that we arent watching them var typeRoots = ts.getEffectiveTypeRoots(options, { directoryExists: directoryExistsForTypeRootWatch, getCurrentDirectory: getCurrentDirectory }); if (typeRoots) { ts.mutateMap(typeRootsWatches, ts.arrayToMap(typeRoots, function (tr) { return resolutionHost.toPath(tr); }), { createNewValue: createTypeRootsWatch, onDeleteValue: ts.closeFileWatcher }); } else { closeTypeRootsWatch(); } } /** * Use this function to return if directory exists to get type roots to watch * If we return directory exists then only the paths will be added to type roots * Hence return true for all directories except root directories which are filtered from watching */ function directoryExistsForTypeRootWatch(nodeTypesDirectory) { var dir = ts.getDirectoryPath(ts.getDirectoryPath(nodeTypesDirectory)); var dirPath = resolutionHost.toPath(dir); return dirPath === rootPath || canWatchDirectory(dirPath); } } ts.createResolutionCache = createResolutionCache; })(ts || (ts = {})); // Used by importFixes, getEditsForFileRename, and declaration emit to synthesize import module specifiers. /* @internal */ var ts; (function (ts) { var moduleSpecifiers; (function (moduleSpecifiers) { var RelativePreference; (function (RelativePreference) { RelativePreference[RelativePreference["Relative"] = 0] = "Relative"; RelativePreference[RelativePreference["NonRelative"] = 1] = "NonRelative"; RelativePreference[RelativePreference["Auto"] = 2] = "Auto"; })(RelativePreference || (RelativePreference = {})); // See UserPreferences#importPathEnding var Ending; (function (Ending) { Ending[Ending["Minimal"] = 0] = "Minimal"; Ending[Ending["Index"] = 1] = "Index"; Ending[Ending["JsExtension"] = 2] = "JsExtension"; })(Ending || (Ending = {})); function getPreferences(_a, compilerOptions, importingSourceFile) { var importModuleSpecifierPreference = _a.importModuleSpecifierPreference, importModuleSpecifierEnding = _a.importModuleSpecifierEnding; return { relativePreference: importModuleSpecifierPreference === "relative" ? 0 /* Relative */ : importModuleSpecifierPreference === "non-relative" ? 1 /* NonRelative */ : 2 /* Auto */, ending: getEnding(), }; function getEnding() { switch (importModuleSpecifierEnding) { case "minimal": return 0 /* Minimal */; case "index": return 1 /* Index */; case "js": return 2 /* JsExtension */; default: return usesJsExtensionOnImports(importingSourceFile) ? 2 /* JsExtension */ : ts.getEmitModuleResolutionKind(compilerOptions) !== ts.ModuleResolutionKind.NodeJs ? 1 /* Index */ : 0 /* Minimal */; } } } function getPreferencesForUpdate(compilerOptions, oldImportSpecifier) { return { relativePreference: ts.isExternalModuleNameRelative(oldImportSpecifier) ? 0 /* Relative */ : 1 /* NonRelative */, ending: ts.hasJSFileExtension(oldImportSpecifier) ? 2 /* JsExtension */ : ts.getEmitModuleResolutionKind(compilerOptions) !== ts.ModuleResolutionKind.NodeJs || ts.endsWith(oldImportSpecifier, "index") ? 1 /* Index */ : 0 /* Minimal */, }; } function updateModuleSpecifier(compilerOptions, importingSourceFileName, toFileName, host, oldImportSpecifier) { var res = getModuleSpecifierWorker(compilerOptions, importingSourceFileName, toFileName, host, getPreferencesForUpdate(compilerOptions, oldImportSpecifier)); if (res === oldImportSpecifier) return undefined; return res; } moduleSpecifiers.updateModuleSpecifier = updateModuleSpecifier; // Note: importingSourceFile is just for usesJsExtensionOnImports function getModuleSpecifier(compilerOptions, importingSourceFile, importingSourceFileName, toFileName, host, preferences) { if (preferences === void 0) { preferences = {}; } return getModuleSpecifierWorker(compilerOptions, importingSourceFileName, toFileName, host, getPreferences(preferences, compilerOptions, importingSourceFile)); } moduleSpecifiers.getModuleSpecifier = getModuleSpecifier; function getNodeModulesPackageName(compilerOptions, importingSourceFileName, nodeModulesFileName, host) { var info = getInfo(importingSourceFileName, host); var modulePaths = getAllModulePaths(importingSourceFileName, nodeModulesFileName, host); return ts.firstDefined(modulePaths, function (moduleFileName) { return tryGetModuleNameAsNodeModule(moduleFileName, info, host, compilerOptions, /*packageNameOnly*/ true); }); } moduleSpecifiers.getNodeModulesPackageName = getNodeModulesPackageName; function getModuleSpecifierWorker(compilerOptions, importingSourceFileName, toFileName, host, preferences) { var info = getInfo(importingSourceFileName, host); var modulePaths = getAllModulePaths(importingSourceFileName, toFileName, host); return ts.firstDefined(modulePaths, function (moduleFileName) { return tryGetModuleNameAsNodeModule(moduleFileName, info, host, compilerOptions); }) || getLocalModuleSpecifier(toFileName, info, compilerOptions, preferences); } /** Returns an import for each symlink and for the realpath. */ function getModuleSpecifiers(moduleSymbol, compilerOptions, importingSourceFile, host, userPreferences) { var ambient = tryGetModuleNameFromAmbientModule(moduleSymbol); if (ambient) return [ambient]; var info = getInfo(importingSourceFile.path, host); var moduleSourceFile = ts.getSourceFileOfNode(moduleSymbol.valueDeclaration || ts.getNonAugmentationDeclaration(moduleSymbol)); var modulePaths = getAllModulePaths(importingSourceFile.path, moduleSourceFile.originalFileName, host); var preferences = getPreferences(userPreferences, compilerOptions, importingSourceFile); var global = ts.mapDefined(modulePaths, function (moduleFileName) { return tryGetModuleNameAsNodeModule(moduleFileName, info, host, compilerOptions); }); return global.length ? global : modulePaths.map(function (moduleFileName) { return getLocalModuleSpecifier(moduleFileName, info, compilerOptions, preferences); }); } moduleSpecifiers.getModuleSpecifiers = getModuleSpecifiers; // importingSourceFileName is separate because getEditsForFileRename may need to specify an updated path function getInfo(importingSourceFileName, host) { var getCanonicalFileName = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames ? host.useCaseSensitiveFileNames() : true); var sourceDirectory = ts.getDirectoryPath(importingSourceFileName); return { getCanonicalFileName: getCanonicalFileName, sourceDirectory: sourceDirectory }; } function getLocalModuleSpecifier(moduleFileName, _a, compilerOptions, _b) { var getCanonicalFileName = _a.getCanonicalFileName, sourceDirectory = _a.sourceDirectory; var ending = _b.ending, relativePreference = _b.relativePreference; var baseUrl = compilerOptions.baseUrl, paths = compilerOptions.paths, rootDirs = compilerOptions.rootDirs; var relativePath = rootDirs && tryGetModuleNameFromRootDirs(rootDirs, moduleFileName, sourceDirectory, getCanonicalFileName, ending, compilerOptions) || removeExtensionAndIndexPostFix(ts.ensurePathIsNonModuleName(ts.getRelativePathFromDirectory(sourceDirectory, moduleFileName, getCanonicalFileName)), ending, compilerOptions); if (!baseUrl || relativePreference === 0 /* Relative */) { return relativePath; } var relativeToBaseUrl = getRelativePathIfInDirectory(moduleFileName, baseUrl, getCanonicalFileName); if (!relativeToBaseUrl) { return relativePath; } var importRelativeToBaseUrl = removeExtensionAndIndexPostFix(relativeToBaseUrl, ending, compilerOptions); var fromPaths = paths && tryGetModuleNameFromPaths(ts.removeFileExtension(relativeToBaseUrl), importRelativeToBaseUrl, paths); var nonRelative = fromPaths === undefined ? importRelativeToBaseUrl : fromPaths; if (relativePreference === 1 /* NonRelative */) { return nonRelative; } if (relativePreference !== 2 /* Auto */) ts.Debug.assertNever(relativePreference); // Prefer a relative import over a baseUrl import if it has fewer components. return isPathRelativeToParent(nonRelative) || countPathComponents(relativePath) < countPathComponents(nonRelative) ? relativePath : nonRelative; } function countPathComponents(path) { var count = 0; for (var i = ts.startsWith(path, "./") ? 2 : 0; i < path.length; i++) { if (path.charCodeAt(i) === 47 /* slash */) count++; } return count; } moduleSpecifiers.countPathComponents = countPathComponents; function usesJsExtensionOnImports(_a) { var imports = _a.imports; return ts.firstDefined(imports, function (_a) { var text = _a.text; return ts.pathIsRelative(text) ? ts.hasJSFileExtension(text) : undefined; }) || false; } function numberOfDirectorySeparators(str) { var match = str.match(/\//g); return match ? match.length : 0; } function comparePathsByNumberOfDirectorySeparators(a, b) { return ts.compareValues(numberOfDirectorySeparators(a), numberOfDirectorySeparators(b)); } function forEachFileNameOfModule(importingFileName, importedFileName, host, preferSymlinks, cb) { var getCanonicalFileName = ts.hostGetCanonicalFileName(host); var cwd = host.getCurrentDirectory(); var referenceRedirect = host.isSourceOfProjectReferenceRedirect(importedFileName) ? host.getProjectReferenceRedirect(importedFileName) : undefined; var redirects = host.redirectTargetsMap.get(ts.toPath(importedFileName, cwd, getCanonicalFileName)) || ts.emptyArray; var importedFileNames = __spreadArrays((referenceRedirect ? [referenceRedirect] : ts.emptyArray), [importedFileName], redirects); var targets = importedFileNames.map(function (f) { return ts.getNormalizedAbsolutePath(f, cwd); }); if (!preferSymlinks) { var result_12 = ts.forEach(targets, cb); if (result_12) return result_12; } var links = host.getProbableSymlinks ? host.getProbableSymlinks(host.getSourceFiles()) : ts.discoverProbableSymlinks(host.getSourceFiles(), getCanonicalFileName, cwd); var compareStrings = (!host.useCaseSensitiveFileNames || host.useCaseSensitiveFileNames()) ? ts.compareStringsCaseSensitive : ts.compareStringsCaseInsensitive; var result = ts.forEachEntry(links, function (resolved, path) { if (ts.startsWithDirectory(importingFileName, resolved, getCanonicalFileName)) { return undefined; // Don't want to a package to globally import from itself } var target = ts.find(targets, function (t) { return compareStrings(t.slice(0, resolved.length + 1), resolved + "/") === 0 /* EqualTo */; }); if (target === undefined) return undefined; var relative = ts.getRelativePathFromDirectory(resolved, target, getCanonicalFileName); var option = ts.resolvePath(path, relative); if (!host.fileExists || host.fileExists(option)) { var result_13 = cb(option); if (result_13) return result_13; } }); return result || (preferSymlinks ? ts.forEach(targets, cb) : undefined); } moduleSpecifiers.forEachFileNameOfModule = forEachFileNameOfModule; /** * Looks for existing imports that use symlinks to this module. * Symlinks will be returned first so they are preferred over the real path. */ function getAllModulePaths(importingFileName, importedFileName, host) { var cwd = host.getCurrentDirectory(); var getCanonicalFileName = ts.hostGetCanonicalFileName(host); var allFileNames = ts.createMap(); var importedFileFromNodeModules = false; forEachFileNameOfModule(importingFileName, importedFileName, host, /*preferSymlinks*/ true, function (path) { // dont return value, so we collect everything allFileNames.set(path, getCanonicalFileName(path)); importedFileFromNodeModules = importedFileFromNodeModules || ts.pathContainsNodeModules(path); }); // Sort by paths closest to importing file Name directory var sortedPaths = []; var _loop_20 = function (directory) { var directoryStart = ts.ensureTrailingDirectorySeparator(directory); var pathsInDirectory; allFileNames.forEach(function (canonicalFileName, fileName) { if (ts.startsWith(canonicalFileName, directoryStart)) { // If the importedFile is from node modules, use only paths in node_modules folder as option if (!importedFileFromNodeModules || ts.pathContainsNodeModules(fileName)) { (pathsInDirectory || (pathsInDirectory = [])).push(fileName); } allFileNames.delete(fileName); } }); if (pathsInDirectory) { if (pathsInDirectory.length > 1) { pathsInDirectory.sort(comparePathsByNumberOfDirectorySeparators); } sortedPaths.push.apply(sortedPaths, pathsInDirectory); } var newDirectory = ts.getDirectoryPath(directory); if (newDirectory === directory) return out_directory_1 = directory, "break"; directory = newDirectory; out_directory_1 = directory; }; var out_directory_1; for (var directory = ts.getDirectoryPath(ts.toPath(importingFileName, cwd, getCanonicalFileName)); allFileNames.size !== 0;) { var state_8 = _loop_20(directory); directory = out_directory_1; if (state_8 === "break") break; } if (allFileNames.size) { var remainingPaths = ts.arrayFrom(allFileNames.values()); if (remainingPaths.length > 1) remainingPaths.sort(comparePathsByNumberOfDirectorySeparators); sortedPaths.push.apply(sortedPaths, remainingPaths); } return sortedPaths; } function tryGetModuleNameFromAmbientModule(moduleSymbol) { var decl = ts.find(moduleSymbol.declarations, function (d) { return ts.isNonGlobalAmbientModule(d) && (!ts.isExternalModuleAugmentation(d) || !ts.isExternalModuleNameRelative(ts.getTextOfIdentifierOrLiteral(d.name))); }); if (decl) { return decl.name.text; } } function tryGetModuleNameFromPaths(relativeToBaseUrlWithIndex, relativeToBaseUrl, paths) { for (var key in paths) { for (var _i = 0, _a = paths[key]; _i < _a.length; _i++) { var patternText_1 = _a[_i]; var pattern = ts.removeFileExtension(ts.normalizePath(patternText_1)); var indexOfStar = pattern.indexOf("*"); if (indexOfStar !== -1) { var prefix = pattern.substr(0, indexOfStar); var suffix = pattern.substr(indexOfStar + 1); if (relativeToBaseUrl.length >= prefix.length + suffix.length && ts.startsWith(relativeToBaseUrl, prefix) && ts.endsWith(relativeToBaseUrl, suffix) || !suffix && relativeToBaseUrl === ts.removeTrailingDirectorySeparator(prefix)) { var matchedStar = relativeToBaseUrl.substr(prefix.length, relativeToBaseUrl.length - suffix.length); return key.replace("*", matchedStar); } } else if (pattern === relativeToBaseUrl || pattern === relativeToBaseUrlWithIndex) { return key; } } } } function tryGetModuleNameFromRootDirs(rootDirs, moduleFileName, sourceDirectory, getCanonicalFileName, ending, compilerOptions) { var normalizedTargetPath = getPathRelativeToRootDirs(moduleFileName, rootDirs, getCanonicalFileName); if (normalizedTargetPath === undefined) { return undefined; } var normalizedSourcePath = getPathRelativeToRootDirs(sourceDirectory, rootDirs, getCanonicalFileName); var relativePath = normalizedSourcePath !== undefined ? ts.ensurePathIsNonModuleName(ts.getRelativePathFromDirectory(normalizedSourcePath, normalizedTargetPath, getCanonicalFileName)) : normalizedTargetPath; return ts.getEmitModuleResolutionKind(compilerOptions) === ts.ModuleResolutionKind.NodeJs ? removeExtensionAndIndexPostFix(relativePath, ending, compilerOptions) : ts.removeFileExtension(relativePath); } function tryGetModuleNameAsNodeModule(moduleFileName, _a, host, options, packageNameOnly) { var getCanonicalFileName = _a.getCanonicalFileName, sourceDirectory = _a.sourceDirectory; if (!host.fileExists || !host.readFile) { return undefined; } var parts = getNodeModulePathParts(moduleFileName); if (!parts) { return undefined; } // Simplify the full file path to something that can be resolved by Node. var moduleSpecifier = moduleFileName; if (!packageNameOnly) { var packageRootIndex = parts.packageRootIndex; var moduleFileNameForExtensionless = void 0; while (true) { // If the module could be imported by a directory name, use that directory's name var _b = tryDirectoryWithPackageJson(packageRootIndex), moduleFileToTry = _b.moduleFileToTry, packageRootPath = _b.packageRootPath; if (packageRootPath) { moduleSpecifier = packageRootPath; break; } if (!moduleFileNameForExtensionless) moduleFileNameForExtensionless = moduleFileToTry; // try with next level of directory packageRootIndex = moduleFileName.indexOf(ts.directorySeparator, packageRootIndex + 1); if (packageRootIndex === -1) { moduleSpecifier = getExtensionlessFileName(moduleFileNameForExtensionless); break; } } } var globalTypingsCacheLocation = host.getGlobalTypingsCacheLocation && host.getGlobalTypingsCacheLocation(); // Get a path that's relative to node_modules or the importing file's path // if node_modules folder is in this folder or any of its parent folders, no need to keep it. var pathToTopLevelNodeModules = getCanonicalFileName(moduleSpecifier.substring(0, parts.topLevelNodeModulesIndex)); if (!(ts.startsWith(sourceDirectory, pathToTopLevelNodeModules) || globalTypingsCacheLocation && ts.startsWith(getCanonicalFileName(globalTypingsCacheLocation), pathToTopLevelNodeModules))) { return undefined; } // If the module was found in @types, get the actual Node package name var nodeModulesDirectoryName = moduleSpecifier.substring(parts.topLevelPackageNameIndex + 1); var packageName = ts.getPackageNameFromTypesPackageName(nodeModulesDirectoryName); // For classic resolution, only allow importing from node_modules/@types, not other node_modules return ts.getEmitModuleResolutionKind(options) !== ts.ModuleResolutionKind.NodeJs && packageName === nodeModulesDirectoryName ? undefined : packageName; function tryDirectoryWithPackageJson(packageRootIndex) { var packageRootPath = moduleFileName.substring(0, packageRootIndex); var packageJsonPath = ts.combinePaths(packageRootPath, "package.json"); var moduleFileToTry = moduleFileName; if (host.fileExists(packageJsonPath)) { var packageJsonContent = JSON.parse(host.readFile(packageJsonPath)); var versionPaths = packageJsonContent.typesVersions ? ts.getPackageJsonTypesVersionsPaths(packageJsonContent.typesVersions) : undefined; if (versionPaths) { var subModuleName = moduleFileName.slice(packageRootPath.length + 1); var fromPaths = tryGetModuleNameFromPaths(ts.removeFileExtension(subModuleName), removeExtensionAndIndexPostFix(subModuleName, 0 /* Minimal */, options), versionPaths.paths); if (fromPaths !== undefined) { moduleFileToTry = ts.combinePaths(packageRootPath, fromPaths); } } // If the file is the main module, it can be imported by the package name var mainFileRelative = packageJsonContent.typings || packageJsonContent.types || packageJsonContent.main; if (ts.isString(mainFileRelative)) { var mainExportFile = ts.toPath(mainFileRelative, packageRootPath, getCanonicalFileName); if (ts.removeFileExtension(mainExportFile) === ts.removeFileExtension(getCanonicalFileName(moduleFileToTry))) { return { packageRootPath: packageRootPath, moduleFileToTry: moduleFileToTry }; } } } return { moduleFileToTry: moduleFileToTry }; } function getExtensionlessFileName(path) { // We still have a file name - remove the extension var fullModulePathWithoutExtension = ts.removeFileExtension(path); // If the file is /index, it can be imported by its directory name // IFF there is not _also_ a file by the same name if (getCanonicalFileName(fullModulePathWithoutExtension.substring(parts.fileNameIndex)) === "/index" && !tryGetAnyFileFromPath(host, fullModulePathWithoutExtension.substring(0, parts.fileNameIndex))) { return fullModulePathWithoutExtension.substring(0, parts.fileNameIndex); } return fullModulePathWithoutExtension; } } function tryGetAnyFileFromPath(host, path) { if (!host.fileExists) return; // We check all js, `node` and `json` extensions in addition to TS, since node module resolution would also choose those over the directory var extensions = ts.getSupportedExtensions({ allowJs: true }, [{ extension: "node", isMixedContent: false }, { extension: "json", isMixedContent: false, scriptKind: 6 /* JSON */ }]); for (var _i = 0, extensions_3 = extensions; _i < extensions_3.length; _i++) { var e = extensions_3[_i]; var fullPath = path + e; if (host.fileExists(fullPath)) { return fullPath; } } } function getNodeModulePathParts(fullPath) { // If fullPath can't be valid module file within node_modules, returns undefined. // Example of expected pattern: /base/path/node_modules/[@scope/otherpackage/@otherscope/node_modules/]package/[subdirectory/]file.js // Returns indices: ^ ^ ^ ^ var topLevelNodeModulesIndex = 0; var topLevelPackageNameIndex = 0; var packageRootIndex = 0; var fileNameIndex = 0; var States; (function (States) { States[States["BeforeNodeModules"] = 0] = "BeforeNodeModules"; States[States["NodeModules"] = 1] = "NodeModules"; States[States["Scope"] = 2] = "Scope"; States[States["PackageContent"] = 3] = "PackageContent"; })(States || (States = {})); var partStart = 0; var partEnd = 0; var state = 0 /* BeforeNodeModules */; while (partEnd >= 0) { partStart = partEnd; partEnd = fullPath.indexOf("/", partStart + 1); switch (state) { case 0 /* BeforeNodeModules */: if (fullPath.indexOf(ts.nodeModulesPathPart, partStart) === partStart) { topLevelNodeModulesIndex = partStart; topLevelPackageNameIndex = partEnd; state = 1 /* NodeModules */; } break; case 1 /* NodeModules */: case 2 /* Scope */: if (state === 1 /* NodeModules */ && fullPath.charAt(partStart + 1) === "@") { state = 2 /* Scope */; } else { packageRootIndex = partEnd; state = 3 /* PackageContent */; } break; case 3 /* PackageContent */: if (fullPath.indexOf(ts.nodeModulesPathPart, partStart) === partStart) { state = 1 /* NodeModules */; } else { state = 3 /* PackageContent */; } break; } } fileNameIndex = partStart; return state > 1 /* NodeModules */ ? { topLevelNodeModulesIndex: topLevelNodeModulesIndex, topLevelPackageNameIndex: topLevelPackageNameIndex, packageRootIndex: packageRootIndex, fileNameIndex: fileNameIndex } : undefined; } function getPathRelativeToRootDirs(path, rootDirs, getCanonicalFileName) { return ts.firstDefined(rootDirs, function (rootDir) { var relativePath = getRelativePathIfInDirectory(path, rootDir, getCanonicalFileName); // TODO: GH#18217 return isPathRelativeToParent(relativePath) ? undefined : relativePath; }); } function removeExtensionAndIndexPostFix(fileName, ending, options) { if (ts.fileExtensionIs(fileName, ".json" /* Json */)) return fileName; var noExtension = ts.removeFileExtension(fileName); switch (ending) { case 0 /* Minimal */: return ts.removeSuffix(noExtension, "/index"); case 1 /* Index */: return noExtension; case 2 /* JsExtension */: return noExtension + getJSExtensionForFile(fileName, options); default: return ts.Debug.assertNever(ending); } } function getJSExtensionForFile(fileName, options) { var ext = ts.extensionFromPath(fileName); switch (ext) { case ".ts" /* Ts */: case ".d.ts" /* Dts */: return ".js" /* Js */; case ".tsx" /* Tsx */: return options.jsx === 1 /* Preserve */ ? ".jsx" /* Jsx */ : ".js" /* Js */; case ".js" /* Js */: case ".jsx" /* Jsx */: case ".json" /* Json */: return ext; case ".tsbuildinfo" /* TsBuildInfo */: return ts.Debug.fail("Extension " + ".tsbuildinfo" /* TsBuildInfo */ + " is unsupported:: FileName:: " + fileName); default: return ts.Debug.assertNever(ext); } } function getRelativePathIfInDirectory(path, directoryPath, getCanonicalFileName) { var relativePath = ts.getRelativePathToDirectoryOrUrl(directoryPath, path, directoryPath, getCanonicalFileName, /*isAbsolutePathAnUrl*/ false); return ts.isRootedDiskPath(relativePath) ? undefined : relativePath; } function isPathRelativeToParent(path) { return ts.startsWith(path, ".."); } })(moduleSpecifiers = ts.moduleSpecifiers || (ts.moduleSpecifiers = {})); })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var sysFormatDiagnosticsHost = ts.sys ? { getCurrentDirectory: function () { return ts.sys.getCurrentDirectory(); }, getNewLine: function () { return ts.sys.newLine; }, getCanonicalFileName: ts.createGetCanonicalFileName(ts.sys.useCaseSensitiveFileNames) } : undefined; // TODO: GH#18217 /** * Create a function that reports error by writing to the system and handles the formating of the diagnostic */ function createDiagnosticReporter(system, pretty) { var host = system === ts.sys ? sysFormatDiagnosticsHost : { getCurrentDirectory: function () { return system.getCurrentDirectory(); }, getNewLine: function () { return system.newLine; }, getCanonicalFileName: ts.createGetCanonicalFileName(system.useCaseSensitiveFileNames), }; if (!pretty) { return function (diagnostic) { return system.write(ts.formatDiagnostic(diagnostic, host)); }; } var diagnostics = new Array(1); return function (diagnostic) { diagnostics[0] = diagnostic; system.write(ts.formatDiagnosticsWithColorAndContext(diagnostics, host) + host.getNewLine()); diagnostics[0] = undefined; // TODO: GH#18217 }; } ts.createDiagnosticReporter = createDiagnosticReporter; /** * @returns Whether the screen was cleared. */ function clearScreenIfNotWatchingForFileChanges(system, diagnostic, options) { if (system.clearScreen && !options.preserveWatchOutput && !options.extendedDiagnostics && !options.diagnostics && ts.contains(ts.screenStartingMessageCodes, diagnostic.code)) { system.clearScreen(); return true; } return false; } ts.screenStartingMessageCodes = [ ts.Diagnostics.Starting_compilation_in_watch_mode.code, ts.Diagnostics.File_change_detected_Starting_incremental_compilation.code, ]; function getPlainDiagnosticFollowingNewLines(diagnostic, newLine) { return ts.contains(ts.screenStartingMessageCodes, diagnostic.code) ? newLine + newLine : newLine; } /** * Get locale specific time based on whether we are in test mode */ function getLocaleTimeString(system) { return !system.now ? new Date().toLocaleTimeString() : system.now().toLocaleTimeString("en-US", { timeZone: "UTC" }); } ts.getLocaleTimeString = getLocaleTimeString; /** * Create a function that reports watch status by writing to the system and handles the formating of the diagnostic */ function createWatchStatusReporter(system, pretty) { return pretty ? function (diagnostic, newLine, options) { clearScreenIfNotWatchingForFileChanges(system, diagnostic, options); var output = "[" + ts.formatColorAndReset(getLocaleTimeString(system), ts.ForegroundColorEscapeSequences.Grey) + "] "; output += "" + ts.flattenDiagnosticMessageText(diagnostic.messageText, system.newLine) + (newLine + newLine); system.write(output); } : function (diagnostic, newLine, options) { var output = ""; if (!clearScreenIfNotWatchingForFileChanges(system, diagnostic, options)) { output += newLine; } output += getLocaleTimeString(system) + " - "; output += "" + ts.flattenDiagnosticMessageText(diagnostic.messageText, system.newLine) + getPlainDiagnosticFollowingNewLines(diagnostic, newLine); system.write(output); }; } ts.createWatchStatusReporter = createWatchStatusReporter; /** Parses config file using System interface */ function parseConfigFileWithSystem(configFileName, optionsToExtend, watchOptionsToExtend, system, reportDiagnostic) { var host = system; host.onUnRecoverableConfigFileDiagnostic = function (diagnostic) { return reportUnrecoverableDiagnostic(system, reportDiagnostic, diagnostic); }; var result = ts.getParsedCommandLineOfConfigFile(configFileName, optionsToExtend, host, /*extendedConfigCache*/ undefined, watchOptionsToExtend); host.onUnRecoverableConfigFileDiagnostic = undefined; // TODO: GH#18217 return result; } ts.parseConfigFileWithSystem = parseConfigFileWithSystem; function getErrorCountForSummary(diagnostics) { return ts.countWhere(diagnostics, function (diagnostic) { return diagnostic.category === ts.DiagnosticCategory.Error; }); } ts.getErrorCountForSummary = getErrorCountForSummary; function getWatchErrorSummaryDiagnosticMessage(errorCount) { return errorCount === 1 ? ts.Diagnostics.Found_1_error_Watching_for_file_changes : ts.Diagnostics.Found_0_errors_Watching_for_file_changes; } ts.getWatchErrorSummaryDiagnosticMessage = getWatchErrorSummaryDiagnosticMessage; function getErrorSummaryText(errorCount, newLine) { if (errorCount === 0) return ""; var d = ts.createCompilerDiagnostic(errorCount === 1 ? ts.Diagnostics.Found_1_error : ts.Diagnostics.Found_0_errors, errorCount); return "" + newLine + ts.flattenDiagnosticMessageText(d.messageText, newLine) + newLine + newLine; } ts.getErrorSummaryText = getErrorSummaryText; function listFiles(program, writeFileName) { if (program.getCompilerOptions().listFiles || program.getCompilerOptions().listFilesOnly) { ts.forEach(program.getSourceFiles(), function (file) { writeFileName(file.fileName); }); } } ts.listFiles = listFiles; /** * Helper that emit files, report diagnostics and lists emitted and/or source files depending on compiler options */ function emitFilesAndReportErrors(program, reportDiagnostic, writeFileName, reportSummary, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers) { var isListFilesOnly = !!program.getCompilerOptions().listFilesOnly; // First get and report any syntactic errors. var allDiagnostics = program.getConfigFileParsingDiagnostics().slice(); var configFileParsingDiagnosticsLength = allDiagnostics.length; ts.addRange(allDiagnostics, program.getSyntacticDiagnostics(/*sourceFile*/ undefined, cancellationToken)); // If we didn't have any syntactic errors, then also try getting the global and // semantic errors. if (allDiagnostics.length === configFileParsingDiagnosticsLength) { ts.addRange(allDiagnostics, program.getOptionsDiagnostics(cancellationToken)); if (!isListFilesOnly) { ts.addRange(allDiagnostics, program.getGlobalDiagnostics(cancellationToken)); if (allDiagnostics.length === configFileParsingDiagnosticsLength) { ts.addRange(allDiagnostics, program.getSemanticDiagnostics(/*sourceFile*/ undefined, cancellationToken)); } } } // Emit and report any errors we ran into. var emitResult = isListFilesOnly ? { emitSkipped: true, diagnostics: ts.emptyArray } : program.emit(/*targetSourceFile*/ undefined, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers); var emittedFiles = emitResult.emittedFiles, emitDiagnostics = emitResult.diagnostics; ts.addRange(allDiagnostics, emitDiagnostics); var diagnostics = ts.sortAndDeduplicateDiagnostics(allDiagnostics); diagnostics.forEach(reportDiagnostic); if (writeFileName) { var currentDir_1 = program.getCurrentDirectory(); ts.forEach(emittedFiles, function (file) { var filepath = ts.getNormalizedAbsolutePath(file, currentDir_1); writeFileName("TSFILE: " + filepath); }); listFiles(program, writeFileName); } if (reportSummary) { reportSummary(getErrorCountForSummary(diagnostics)); } return { emitResult: emitResult, diagnostics: diagnostics, }; } ts.emitFilesAndReportErrors = emitFilesAndReportErrors; function emitFilesAndReportErrorsAndGetExitStatus(program, reportDiagnostic, writeFileName, reportSummary, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers) { var _a = emitFilesAndReportErrors(program, reportDiagnostic, writeFileName, reportSummary, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers), emitResult = _a.emitResult, diagnostics = _a.diagnostics; if (emitResult.emitSkipped && diagnostics.length > 0) { // If the emitter didn't emit anything, then pass that value along. return ts.ExitStatus.DiagnosticsPresent_OutputsSkipped; } else if (diagnostics.length > 0) { // The emitter emitted something, inform the caller if that happened in the presence // of diagnostics or not. return ts.ExitStatus.DiagnosticsPresent_OutputsGenerated; } return ts.ExitStatus.Success; } ts.emitFilesAndReportErrorsAndGetExitStatus = emitFilesAndReportErrorsAndGetExitStatus; ts.noopFileWatcher = { close: ts.noop }; function createWatchHost(system, reportWatchStatus) { if (system === void 0) { system = ts.sys; } var onWatchStatusChange = reportWatchStatus || createWatchStatusReporter(system); return { onWatchStatusChange: onWatchStatusChange, watchFile: ts.maybeBind(system, system.watchFile) || (function () { return ts.noopFileWatcher; }), watchDirectory: ts.maybeBind(system, system.watchDirectory) || (function () { return ts.noopFileWatcher; }), setTimeout: ts.maybeBind(system, system.setTimeout) || ts.noop, clearTimeout: ts.maybeBind(system, system.clearTimeout) || ts.noop }; } ts.createWatchHost = createWatchHost; ts.WatchType = { ConfigFile: "Config file", SourceFile: "Source file", MissingFile: "Missing file", WildcardDirectory: "Wild card directory", FailedLookupLocations: "Failed Lookup Locations", TypeRoots: "Type roots" }; function createWatchFactory(host, options) { var watchLogLevel = host.trace ? options.extendedDiagnostics ? ts.WatchLogLevel.Verbose : options.diagnostics ? ts.WatchLogLevel.TriggerOnly : ts.WatchLogLevel.None : ts.WatchLogLevel.None; var writeLog = watchLogLevel !== ts.WatchLogLevel.None ? (function (s) { return host.trace(s); }) : ts.noop; var result = ts.getWatchFactory(watchLogLevel, writeLog); result.writeLog = writeLog; return result; } ts.createWatchFactory = createWatchFactory; function createCompilerHostFromProgramHost(host, getCompilerOptions, directoryStructureHost) { if (directoryStructureHost === void 0) { directoryStructureHost = host; } var useCaseSensitiveFileNames = host.useCaseSensitiveFileNames(); var hostGetNewLine = ts.memoize(function () { return host.getNewLine(); }); return { getSourceFile: function (fileName, languageVersion, onError) { var text; try { ts.performance.mark("beforeIORead"); text = host.readFile(fileName, getCompilerOptions().charset); ts.performance.mark("afterIORead"); ts.performance.measure("I/O Read", "beforeIORead", "afterIORead"); } catch (e) { if (onError) { onError(e.message); } text = ""; } return text !== undefined ? ts.createSourceFile(fileName, text, languageVersion) : undefined; }, getDefaultLibLocation: ts.maybeBind(host, host.getDefaultLibLocation), getDefaultLibFileName: function (options) { return host.getDefaultLibFileName(options); }, writeFile: writeFile, getCurrentDirectory: ts.memoize(function () { return host.getCurrentDirectory(); }), useCaseSensitiveFileNames: function () { return useCaseSensitiveFileNames; }, getCanonicalFileName: ts.createGetCanonicalFileName(useCaseSensitiveFileNames), getNewLine: function () { return ts.getNewLineCharacter(getCompilerOptions(), hostGetNewLine); }, fileExists: function (f) { return host.fileExists(f); }, readFile: function (f) { return host.readFile(f); }, trace: ts.maybeBind(host, host.trace), directoryExists: ts.maybeBind(directoryStructureHost, directoryStructureHost.directoryExists), getDirectories: ts.maybeBind(directoryStructureHost, directoryStructureHost.getDirectories), realpath: ts.maybeBind(host, host.realpath), getEnvironmentVariable: ts.maybeBind(host, host.getEnvironmentVariable) || (function () { return ""; }), createHash: ts.maybeBind(host, host.createHash), readDirectory: ts.maybeBind(host, host.readDirectory), }; function writeFile(fileName, text, writeByteOrderMark, onError) { try { ts.performance.mark("beforeIOWrite"); // NOTE: If patchWriteFileEnsuringDirectory has been called, // the host.writeFile will do its own directory creation and // the ensureDirectoriesExist call will always be redundant. ts.writeFileEnsuringDirectories(fileName, text, writeByteOrderMark, function (path, data, writeByteOrderMark) { return host.writeFile(path, data, writeByteOrderMark); }, function (path) { return host.createDirectory(path); }, function (path) { return host.directoryExists(path); }); ts.performance.mark("afterIOWrite"); ts.performance.measure("I/O Write", "beforeIOWrite", "afterIOWrite"); } catch (e) { if (onError) { onError(e.message); } } } } ts.createCompilerHostFromProgramHost = createCompilerHostFromProgramHost; function setGetSourceFileAsHashVersioned(compilerHost, host) { var originalGetSourceFile = compilerHost.getSourceFile; var computeHash = host.createHash || ts.generateDjb2Hash; compilerHost.getSourceFile = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } var result = originalGetSourceFile.call.apply(originalGetSourceFile, __spreadArrays([compilerHost], args)); if (result) { result.version = computeHash.call(host, result.text); } return result; }; } ts.setGetSourceFileAsHashVersioned = setGetSourceFileAsHashVersioned; /** * Creates the watch compiler host that can be extended with config file or root file names and options host */ function createProgramHost(system, createProgram) { var getDefaultLibLocation = ts.memoize(function () { return ts.getDirectoryPath(ts.normalizePath(system.getExecutingFilePath())); }); return { useCaseSensitiveFileNames: function () { return system.useCaseSensitiveFileNames; }, getNewLine: function () { return system.newLine; }, getCurrentDirectory: ts.memoize(function () { return system.getCurrentDirectory(); }), getDefaultLibLocation: getDefaultLibLocation, getDefaultLibFileName: function (options) { return ts.combinePaths(getDefaultLibLocation(), ts.getDefaultLibFileName(options)); }, fileExists: function (path) { return system.fileExists(path); }, readFile: function (path, encoding) { return system.readFile(path, encoding); }, directoryExists: function (path) { return system.directoryExists(path); }, getDirectories: function (path) { return system.getDirectories(path); }, readDirectory: function (path, extensions, exclude, include, depth) { return system.readDirectory(path, extensions, exclude, include, depth); }, realpath: ts.maybeBind(system, system.realpath), getEnvironmentVariable: ts.maybeBind(system, system.getEnvironmentVariable), trace: function (s) { return system.write(s + system.newLine); }, createDirectory: function (path) { return system.createDirectory(path); }, writeFile: function (path, data, writeByteOrderMark) { return system.writeFile(path, data, writeByteOrderMark); }, createHash: ts.maybeBind(system, system.createHash), createProgram: createProgram || ts.createEmitAndSemanticDiagnosticsBuilderProgram }; } ts.createProgramHost = createProgramHost; /** * Creates the watch compiler host that can be extended with config file or root file names and options host */ function createWatchCompilerHost(system, createProgram, reportDiagnostic, reportWatchStatus) { if (system === void 0) { system = ts.sys; } var writeFileName = function (s) { return system.write(s + system.newLine); }; var result = createProgramHost(system, createProgram); ts.copyProperties(result, createWatchHost(system, reportWatchStatus)); result.afterProgramCreate = function (builderProgram) { var compilerOptions = builderProgram.getCompilerOptions(); var newLine = ts.getNewLineCharacter(compilerOptions, function () { return system.newLine; }); emitFilesAndReportErrors(builderProgram, reportDiagnostic, writeFileName, function (errorCount) { return result.onWatchStatusChange(ts.createCompilerDiagnostic(getWatchErrorSummaryDiagnosticMessage(errorCount), errorCount), newLine, compilerOptions, errorCount); }); }; return result; } /** * Report error and exit */ function reportUnrecoverableDiagnostic(system, reportDiagnostic, diagnostic) { reportDiagnostic(diagnostic); system.exit(ts.ExitStatus.DiagnosticsPresent_OutputsSkipped); } /** * Creates the watch compiler host from system for config file in watch mode */ function createWatchCompilerHostOfConfigFile(_a) { var configFileName = _a.configFileName, optionsToExtend = _a.optionsToExtend, watchOptionsToExtend = _a.watchOptionsToExtend, extraFileExtensions = _a.extraFileExtensions, system = _a.system, createProgram = _a.createProgram, reportDiagnostic = _a.reportDiagnostic, reportWatchStatus = _a.reportWatchStatus; var diagnosticReporter = reportDiagnostic || createDiagnosticReporter(system); var host = createWatchCompilerHost(system, createProgram, diagnosticReporter, reportWatchStatus); host.onUnRecoverableConfigFileDiagnostic = function (diagnostic) { return reportUnrecoverableDiagnostic(system, diagnosticReporter, diagnostic); }; host.configFileName = configFileName; host.optionsToExtend = optionsToExtend; host.watchOptionsToExtend = watchOptionsToExtend; host.extraFileExtensions = extraFileExtensions; return host; } ts.createWatchCompilerHostOfConfigFile = createWatchCompilerHostOfConfigFile; /** * Creates the watch compiler host from system for compiling root files and options in watch mode */ function createWatchCompilerHostOfFilesAndCompilerOptions(_a) { var rootFiles = _a.rootFiles, options = _a.options, watchOptions = _a.watchOptions, projectReferences = _a.projectReferences, system = _a.system, createProgram = _a.createProgram, reportDiagnostic = _a.reportDiagnostic, reportWatchStatus = _a.reportWatchStatus; var host = createWatchCompilerHost(system, createProgram, reportDiagnostic || createDiagnosticReporter(system), reportWatchStatus); host.rootFiles = rootFiles; host.options = options; host.watchOptions = watchOptions; host.projectReferences = projectReferences; return host; } ts.createWatchCompilerHostOfFilesAndCompilerOptions = createWatchCompilerHostOfFilesAndCompilerOptions; function performIncrementalCompilation(input) { var system = input.system || ts.sys; var host = input.host || (input.host = ts.createIncrementalCompilerHost(input.options, system)); var builderProgram = ts.createIncrementalProgram(input); var exitStatus = emitFilesAndReportErrorsAndGetExitStatus(builderProgram, input.reportDiagnostic || createDiagnosticReporter(system), function (s) { return host.trace && host.trace(s); }, input.reportErrorSummary || input.options.pretty ? function (errorCount) { return system.write(getErrorSummaryText(errorCount, system.newLine)); } : undefined); if (input.afterProgramEmitAndDiagnostics) input.afterProgramEmitAndDiagnostics(builderProgram); return exitStatus; } ts.performIncrementalCompilation = performIncrementalCompilation; })(ts || (ts = {})); var ts; (function (ts) { function readBuilderProgram(compilerOptions, host) { if (compilerOptions.out || compilerOptions.outFile) return undefined; var buildInfoPath = ts.getTsBuildInfoEmitOutputFilePath(compilerOptions); if (!buildInfoPath) return undefined; var content = host.readFile(buildInfoPath); if (!content) return undefined; var buildInfo = ts.getBuildInfo(content); if (buildInfo.version !== ts.version) return undefined; if (!buildInfo.program) return undefined; return ts.createBuildProgramUsingProgramBuildInfo(buildInfo.program, buildInfoPath, host); } ts.readBuilderProgram = readBuilderProgram; function createIncrementalCompilerHost(options, system) { if (system === void 0) { system = ts.sys; } var host = ts.createCompilerHostWorker(options, /*setParentNodes*/ undefined, system); host.createHash = ts.maybeBind(system, system.createHash); ts.setGetSourceFileAsHashVersioned(host, system); ts.changeCompilerHostLikeToUseCache(host, function (fileName) { return ts.toPath(fileName, host.getCurrentDirectory(), host.getCanonicalFileName); }); return host; } ts.createIncrementalCompilerHost = createIncrementalCompilerHost; function createIncrementalProgram(_a) { var rootNames = _a.rootNames, options = _a.options, configFileParsingDiagnostics = _a.configFileParsingDiagnostics, projectReferences = _a.projectReferences, host = _a.host, createProgram = _a.createProgram; host = host || createIncrementalCompilerHost(options); createProgram = createProgram || ts.createEmitAndSemanticDiagnosticsBuilderProgram; var oldProgram = readBuilderProgram(options, host); return createProgram(rootNames, options, host, oldProgram, configFileParsingDiagnostics, projectReferences); } ts.createIncrementalProgram = createIncrementalProgram; function createWatchCompilerHost(rootFilesOrConfigFileName, options, system, createProgram, reportDiagnostic, reportWatchStatus, projectReferencesOrWatchOptionsToExtend, watchOptionsOrExtraFileExtensions) { if (ts.isArray(rootFilesOrConfigFileName)) { return ts.createWatchCompilerHostOfFilesAndCompilerOptions({ rootFiles: rootFilesOrConfigFileName, options: options, watchOptions: watchOptionsOrExtraFileExtensions, projectReferences: projectReferencesOrWatchOptionsToExtend, system: system, createProgram: createProgram, reportDiagnostic: reportDiagnostic, reportWatchStatus: reportWatchStatus, }); } else { return ts.createWatchCompilerHostOfConfigFile({ configFileName: rootFilesOrConfigFileName, optionsToExtend: options, watchOptionsToExtend: projectReferencesOrWatchOptionsToExtend, extraFileExtensions: watchOptionsOrExtraFileExtensions, system: system, createProgram: createProgram, reportDiagnostic: reportDiagnostic, reportWatchStatus: reportWatchStatus, }); } } ts.createWatchCompilerHost = createWatchCompilerHost; function createWatchProgram(host) { var builderProgram; var reloadLevel; // level to indicate if the program needs to be reloaded from config file/just filenames etc var missingFilesMap; // Map of file watchers for the missing files var watchedWildcardDirectories; // map of watchers for the wild card directories in the config file var timerToUpdateProgram; // timer callback to recompile the program var sourceFilesCache = ts.createMap(); // Cache that stores the source file and version info var missingFilePathsRequestedForRelease; // These paths are held temparirly so that we can remove the entry from source file cache if the file is not tracked by missing files var hasChangedCompilerOptions = false; // True if the compiler options have changed between compilations var hasChangedAutomaticTypeDirectiveNames = false; // True if the automatic type directives have changed var useCaseSensitiveFileNames = host.useCaseSensitiveFileNames(); var currentDirectory = host.getCurrentDirectory(); var configFileName = host.configFileName, _a = host.optionsToExtend, optionsToExtendForConfigFile = _a === void 0 ? {} : _a, watchOptionsToExtend = host.watchOptionsToExtend, extraFileExtensions = host.extraFileExtensions, createProgram = host.createProgram; var rootFileNames = host.rootFiles, compilerOptions = host.options, watchOptions = host.watchOptions, projectReferences = host.projectReferences; var configFileSpecs; var configFileParsingDiagnostics; var canConfigFileJsonReportNoInputFiles = false; var hasChangedConfigFileParsingErrors = false; var cachedDirectoryStructureHost = configFileName === undefined ? undefined : ts.createCachedDirectoryStructureHost(host, currentDirectory, useCaseSensitiveFileNames); var directoryStructureHost = cachedDirectoryStructureHost || host; var parseConfigFileHost = ts.parseConfigHostFromCompilerHostLike(host, directoryStructureHost); // From tsc we want to get already parsed result and hence check for rootFileNames var newLine = updateNewLine(); if (configFileName && host.configFileParsingResult) { setConfigFileParsingResult(host.configFileParsingResult); newLine = updateNewLine(); } reportWatchDiagnostic(ts.Diagnostics.Starting_compilation_in_watch_mode); if (configFileName && !host.configFileParsingResult) { newLine = ts.getNewLineCharacter(optionsToExtendForConfigFile, function () { return host.getNewLine(); }); ts.Debug.assert(!rootFileNames); parseConfigFile(); newLine = updateNewLine(); } var _b = ts.createWatchFactory(host, compilerOptions), watchFile = _b.watchFile, watchFilePath = _b.watchFilePath, watchDirectory = _b.watchDirectory, writeLog = _b.writeLog; var getCanonicalFileName = ts.createGetCanonicalFileName(useCaseSensitiveFileNames); writeLog("Current directory: " + currentDirectory + " CaseSensitiveFileNames: " + useCaseSensitiveFileNames); var configFileWatcher; if (configFileName) { configFileWatcher = watchFile(host, configFileName, scheduleProgramReload, ts.PollingInterval.High, watchOptions, ts.WatchType.ConfigFile); } var compilerHost = ts.createCompilerHostFromProgramHost(host, function () { return compilerOptions; }, directoryStructureHost); ts.setGetSourceFileAsHashVersioned(compilerHost, host); // Members for CompilerHost var getNewSourceFile = compilerHost.getSourceFile; compilerHost.getSourceFile = function (fileName) { var args = []; for (var _i = 1; _i < arguments.length; _i++) { args[_i - 1] = arguments[_i]; } return getVersionedSourceFileByPath.apply(void 0, __spreadArrays([fileName, toPath(fileName)], args)); }; compilerHost.getSourceFileByPath = getVersionedSourceFileByPath; compilerHost.getNewLine = function () { return newLine; }; compilerHost.fileExists = fileExists; compilerHost.onReleaseOldSourceFile = onReleaseOldSourceFile; // Members for ResolutionCacheHost compilerHost.toPath = toPath; compilerHost.getCompilationSettings = function () { return compilerOptions; }; compilerHost.useSourceOfProjectReferenceRedirect = ts.maybeBind(host, host.useSourceOfProjectReferenceRedirect); compilerHost.watchDirectoryOfFailedLookupLocation = function (dir, cb, flags) { return watchDirectory(host, dir, cb, flags, watchOptions, ts.WatchType.FailedLookupLocations); }; compilerHost.watchTypeRootsDirectory = function (dir, cb, flags) { return watchDirectory(host, dir, cb, flags, watchOptions, ts.WatchType.TypeRoots); }; compilerHost.getCachedDirectoryStructureHost = function () { return cachedDirectoryStructureHost; }; compilerHost.onInvalidatedResolution = scheduleProgramUpdate; compilerHost.onChangedAutomaticTypeDirectiveNames = function () { hasChangedAutomaticTypeDirectiveNames = true; scheduleProgramUpdate(); }; compilerHost.fileIsOpen = ts.returnFalse; compilerHost.getCurrentProgram = getCurrentProgram; compilerHost.writeLog = writeLog; // Cache for the module resolution var resolutionCache = ts.createResolutionCache(compilerHost, configFileName ? ts.getDirectoryPath(ts.getNormalizedAbsolutePath(configFileName, currentDirectory)) : currentDirectory, /*logChangesWhenResolvingModule*/ false); // Resolve module using host module resolution strategy if provided otherwise use resolution cache to resolve module names compilerHost.resolveModuleNames = host.resolveModuleNames ? (function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return host.resolveModuleNames.apply(host, args); }) : (function (moduleNames, containingFile, reusedNames, redirectedReference) { return resolutionCache.resolveModuleNames(moduleNames, containingFile, reusedNames, redirectedReference); }); compilerHost.resolveTypeReferenceDirectives = host.resolveTypeReferenceDirectives ? (function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return host.resolveTypeReferenceDirectives.apply(host, args); }) : (function (typeDirectiveNames, containingFile, redirectedReference) { return resolutionCache.resolveTypeReferenceDirectives(typeDirectiveNames, containingFile, redirectedReference); }); var userProvidedResolution = !!host.resolveModuleNames || !!host.resolveTypeReferenceDirectives; builderProgram = readBuilderProgram(compilerOptions, compilerHost); synchronizeProgram(); // Update the wild card directory watch watchConfigFileWildCardDirectories(); return configFileName ? { getCurrentProgram: getCurrentBuilderProgram, getProgram: updateProgram, close: close } : { getCurrentProgram: getCurrentBuilderProgram, getProgram: updateProgram, updateRootFileNames: updateRootFileNames, close: close }; function close() { resolutionCache.clear(); ts.clearMap(sourceFilesCache, function (value) { if (value && value.fileWatcher) { value.fileWatcher.close(); value.fileWatcher = undefined; } }); if (configFileWatcher) { configFileWatcher.close(); configFileWatcher = undefined; } if (watchedWildcardDirectories) { ts.clearMap(watchedWildcardDirectories, ts.closeFileWatcherOf); watchedWildcardDirectories = undefined; } if (missingFilesMap) { ts.clearMap(missingFilesMap, ts.closeFileWatcher); missingFilesMap = undefined; } } function getCurrentBuilderProgram() { return builderProgram; } function getCurrentProgram() { return builderProgram && builderProgram.getProgramOrUndefined(); } function synchronizeProgram() { writeLog("Synchronizing program"); var program = getCurrentBuilderProgram(); if (hasChangedCompilerOptions) { newLine = updateNewLine(); if (program && ts.changesAffectModuleResolution(program.getCompilerOptions(), compilerOptions)) { resolutionCache.clear(); } } // All resolutions are invalid if user provided resolutions var hasInvalidatedResolution = resolutionCache.createHasInvalidatedResolution(userProvidedResolution); if (ts.isProgramUptoDate(getCurrentProgram(), rootFileNames, compilerOptions, getSourceVersion, fileExists, hasInvalidatedResolution, hasChangedAutomaticTypeDirectiveNames, projectReferences)) { if (hasChangedConfigFileParsingErrors) { builderProgram = createProgram(/*rootNames*/ undefined, /*options*/ undefined, compilerHost, builderProgram, configFileParsingDiagnostics, projectReferences); hasChangedConfigFileParsingErrors = false; } } else { createNewProgram(hasInvalidatedResolution); } if (host.afterProgramCreate && program !== builderProgram) { host.afterProgramCreate(builderProgram); } return builderProgram; } function createNewProgram(hasInvalidatedResolution) { // Compile the program writeLog("CreatingProgramWith::"); writeLog(" roots: " + JSON.stringify(rootFileNames)); writeLog(" options: " + JSON.stringify(compilerOptions)); var needsUpdateInTypeRootWatch = hasChangedCompilerOptions || !getCurrentProgram(); hasChangedCompilerOptions = false; hasChangedConfigFileParsingErrors = false; resolutionCache.startCachingPerDirectoryResolution(); compilerHost.hasInvalidatedResolution = hasInvalidatedResolution; compilerHost.hasChangedAutomaticTypeDirectiveNames = hasChangedAutomaticTypeDirectiveNames; hasChangedAutomaticTypeDirectiveNames = false; builderProgram = createProgram(rootFileNames, compilerOptions, compilerHost, builderProgram, configFileParsingDiagnostics, projectReferences); resolutionCache.finishCachingPerDirectoryResolution(); // Update watches ts.updateMissingFilePathsWatch(builderProgram.getProgram(), missingFilesMap || (missingFilesMap = ts.createMap()), watchMissingFilePath); if (needsUpdateInTypeRootWatch) { resolutionCache.updateTypeRootsWatch(); } if (missingFilePathsRequestedForRelease) { // These are the paths that program creater told us as not in use any more but were missing on the disk. // We didnt remove the entry for them from sourceFiles cache so that we dont have to do File IO, // if there is already watcher for it (for missing files) // At this point our watches were updated, hence now we know that these paths are not tracked and need to be removed // so that at later time we have correct result of their presence for (var _i = 0, missingFilePathsRequestedForRelease_1 = missingFilePathsRequestedForRelease; _i < missingFilePathsRequestedForRelease_1.length; _i++) { var missingFilePath = missingFilePathsRequestedForRelease_1[_i]; if (!missingFilesMap.has(missingFilePath)) { sourceFilesCache.delete(missingFilePath); } } missingFilePathsRequestedForRelease = undefined; } } function updateRootFileNames(files) { ts.Debug.assert(!configFileName, "Cannot update root file names with config file watch mode"); rootFileNames = files; scheduleProgramUpdate(); } function updateNewLine() { return ts.getNewLineCharacter(compilerOptions || optionsToExtendForConfigFile, function () { return host.getNewLine(); }); } function toPath(fileName) { return ts.toPath(fileName, currentDirectory, getCanonicalFileName); } function isFileMissingOnHost(hostSourceFile) { return typeof hostSourceFile === "boolean"; } function isFilePresenceUnknownOnHost(hostSourceFile) { return typeof hostSourceFile.version === "boolean"; } function fileExists(fileName) { var path = toPath(fileName); // If file is missing on host from cache, we can definitely say file doesnt exist // otherwise we need to ensure from the disk if (isFileMissingOnHost(sourceFilesCache.get(path))) { return false; } return directoryStructureHost.fileExists(fileName); } function getVersionedSourceFileByPath(fileName, path, languageVersion, onError, shouldCreateNewSourceFile) { var hostSourceFile = sourceFilesCache.get(path); // No source file on the host if (isFileMissingOnHost(hostSourceFile)) { return undefined; } // Create new source file if requested or the versions dont match if (hostSourceFile === undefined || shouldCreateNewSourceFile || isFilePresenceUnknownOnHost(hostSourceFile)) { var sourceFile = getNewSourceFile(fileName, languageVersion, onError); if (hostSourceFile) { if (sourceFile) { // Set the source file and create file watcher now that file was present on the disk hostSourceFile.sourceFile = sourceFile; hostSourceFile.version = sourceFile.version; if (!hostSourceFile.fileWatcher) { hostSourceFile.fileWatcher = watchFilePath(host, fileName, onSourceFileChange, ts.PollingInterval.Low, watchOptions, path, ts.WatchType.SourceFile); } } else { // There is no source file on host any more, close the watch, missing file paths will track it if (hostSourceFile.fileWatcher) { hostSourceFile.fileWatcher.close(); } sourceFilesCache.set(path, false); } } else { if (sourceFile) { var fileWatcher = watchFilePath(host, fileName, onSourceFileChange, ts.PollingInterval.Low, watchOptions, path, ts.WatchType.SourceFile); sourceFilesCache.set(path, { sourceFile: sourceFile, version: sourceFile.version, fileWatcher: fileWatcher }); } else { sourceFilesCache.set(path, false); } } return sourceFile; } return hostSourceFile.sourceFile; } function nextSourceFileVersion(path) { var hostSourceFile = sourceFilesCache.get(path); if (hostSourceFile !== undefined) { if (isFileMissingOnHost(hostSourceFile)) { // The next version, lets set it as presence unknown file sourceFilesCache.set(path, { version: false }); } else { hostSourceFile.version = false; } } } function getSourceVersion(path) { var hostSourceFile = sourceFilesCache.get(path); return !hostSourceFile || !hostSourceFile.version ? undefined : hostSourceFile.version; } function onReleaseOldSourceFile(oldSourceFile, _oldOptions, hasSourceFileByPath) { var hostSourceFileInfo = sourceFilesCache.get(oldSourceFile.resolvedPath); // If this is the source file thats in the cache and new program doesnt need it, // remove the cached entry. // Note we arent deleting entry if file became missing in new program or // there was version update and new source file was created. if (hostSourceFileInfo !== undefined) { // record the missing file paths so they can be removed later if watchers arent tracking them if (isFileMissingOnHost(hostSourceFileInfo)) { (missingFilePathsRequestedForRelease || (missingFilePathsRequestedForRelease = [])).push(oldSourceFile.path); } else if (hostSourceFileInfo.sourceFile === oldSourceFile) { if (hostSourceFileInfo.fileWatcher) { hostSourceFileInfo.fileWatcher.close(); } sourceFilesCache.delete(oldSourceFile.resolvedPath); if (!hasSourceFileByPath) { resolutionCache.removeResolutionsOfFile(oldSourceFile.path); } } } } function reportWatchDiagnostic(message) { if (host.onWatchStatusChange) { host.onWatchStatusChange(ts.createCompilerDiagnostic(message), newLine, compilerOptions || optionsToExtendForConfigFile); } } // Upon detecting a file change, wait for 250ms and then perform a recompilation. This gives batch // operations (such as saving all modified files in an editor) a chance to complete before we kick // off a new compilation. function scheduleProgramUpdate() { if (!host.setTimeout || !host.clearTimeout) { return; } if (timerToUpdateProgram) { host.clearTimeout(timerToUpdateProgram); } writeLog("Scheduling update"); timerToUpdateProgram = host.setTimeout(updateProgramWithWatchStatus, 250); } function scheduleProgramReload() { ts.Debug.assert(!!configFileName); reloadLevel = ts.ConfigFileProgramReloadLevel.Full; scheduleProgramUpdate(); } function updateProgramWithWatchStatus() { timerToUpdateProgram = undefined; reportWatchDiagnostic(ts.Diagnostics.File_change_detected_Starting_incremental_compilation); updateProgram(); } function updateProgram() { switch (reloadLevel) { case ts.ConfigFileProgramReloadLevel.Partial: ts.perfLogger.logStartUpdateProgram("PartialConfigReload"); reloadFileNamesFromConfigFile(); break; case ts.ConfigFileProgramReloadLevel.Full: ts.perfLogger.logStartUpdateProgram("FullConfigReload"); reloadConfigFile(); break; default: ts.perfLogger.logStartUpdateProgram("SynchronizeProgram"); synchronizeProgram(); break; } ts.perfLogger.logStopUpdateProgram("Done"); return getCurrentBuilderProgram(); } function reloadFileNamesFromConfigFile() { writeLog("Reloading new file names and options"); var result = ts.getFileNamesFromConfigSpecs(configFileSpecs, ts.getNormalizedAbsolutePath(ts.getDirectoryPath(configFileName), currentDirectory), compilerOptions, parseConfigFileHost); if (ts.updateErrorForNoInputFiles(result, ts.getNormalizedAbsolutePath(configFileName, currentDirectory), configFileSpecs, configFileParsingDiagnostics, canConfigFileJsonReportNoInputFiles)) { hasChangedConfigFileParsingErrors = true; } rootFileNames = result.fileNames; // Update the program synchronizeProgram(); } function reloadConfigFile() { writeLog("Reloading config file: " + configFileName); reloadLevel = ts.ConfigFileProgramReloadLevel.None; if (cachedDirectoryStructureHost) { cachedDirectoryStructureHost.clearCache(); } parseConfigFile(); hasChangedCompilerOptions = true; synchronizeProgram(); // Update the wild card directory watch watchConfigFileWildCardDirectories(); } function parseConfigFile() { setConfigFileParsingResult(ts.getParsedCommandLineOfConfigFile(configFileName, optionsToExtendForConfigFile, parseConfigFileHost, /*extendedConfigCache*/ undefined, watchOptionsToExtend, extraFileExtensions)); // TODO: GH#18217 } function setConfigFileParsingResult(configFileParseResult) { rootFileNames = configFileParseResult.fileNames; compilerOptions = configFileParseResult.options; watchOptions = configFileParseResult.watchOptions; configFileSpecs = configFileParseResult.configFileSpecs; // TODO: GH#18217 projectReferences = configFileParseResult.projectReferences; configFileParsingDiagnostics = ts.getConfigFileParsingDiagnostics(configFileParseResult).slice(); canConfigFileJsonReportNoInputFiles = ts.canJsonReportNoInutFiles(configFileParseResult.raw); hasChangedConfigFileParsingErrors = true; } function onSourceFileChange(fileName, eventKind, path) { updateCachedSystemWithFile(fileName, path, eventKind); // Update the source file cache if (eventKind === ts.FileWatcherEventKind.Deleted && sourceFilesCache.has(path)) { resolutionCache.invalidateResolutionOfFile(path); } resolutionCache.removeResolutionsFromProjectReferenceRedirects(path); nextSourceFileVersion(path); // Update the program scheduleProgramUpdate(); } function updateCachedSystemWithFile(fileName, path, eventKind) { if (cachedDirectoryStructureHost) { cachedDirectoryStructureHost.addOrDeleteFile(fileName, path, eventKind); } } function watchMissingFilePath(missingFilePath) { return watchFilePath(host, missingFilePath, onMissingFileChange, ts.PollingInterval.Medium, watchOptions, missingFilePath, ts.WatchType.MissingFile); } function onMissingFileChange(fileName, eventKind, missingFilePath) { updateCachedSystemWithFile(fileName, missingFilePath, eventKind); if (eventKind === ts.FileWatcherEventKind.Created && missingFilesMap.has(missingFilePath)) { missingFilesMap.get(missingFilePath).close(); missingFilesMap.delete(missingFilePath); // Delete the entry in the source files cache so that new source file is created nextSourceFileVersion(missingFilePath); // When a missing file is created, we should update the graph. scheduleProgramUpdate(); } } function watchConfigFileWildCardDirectories() { if (configFileSpecs) { ts.updateWatchingWildcardDirectories(watchedWildcardDirectories || (watchedWildcardDirectories = ts.createMap()), ts.createMapFromTemplate(configFileSpecs.wildcardDirectories), watchWildcardDirectory); } else if (watchedWildcardDirectories) { ts.clearMap(watchedWildcardDirectories, ts.closeFileWatcherOf); } } function watchWildcardDirectory(directory, flags) { return watchDirectory(host, directory, function (fileOrDirectory) { ts.Debug.assert(!!configFileName); var fileOrDirectoryPath = toPath(fileOrDirectory); // Since the file existence changed, update the sourceFiles cache if (cachedDirectoryStructureHost) { cachedDirectoryStructureHost.addOrDeleteFileOrDirectory(fileOrDirectory, fileOrDirectoryPath); } nextSourceFileVersion(fileOrDirectoryPath); fileOrDirectoryPath = ts.removeIgnoredPath(fileOrDirectoryPath); if (!fileOrDirectoryPath) return; // If the the added or created file or directory is not supported file name, ignore the file // But when watched directory is added/removed, we need to reload the file list if (fileOrDirectoryPath !== directory && ts.hasExtension(fileOrDirectoryPath) && !ts.isSupportedSourceFileName(fileOrDirectory, compilerOptions)) { writeLog("Project: " + configFileName + " Detected file add/remove of non supported extension: " + fileOrDirectory); return; } // Reload is pending, do the reload if (reloadLevel !== ts.ConfigFileProgramReloadLevel.Full) { reloadLevel = ts.ConfigFileProgramReloadLevel.Partial; // Schedule Update the program scheduleProgramUpdate(); } }, flags, watchOptions, ts.WatchType.WildcardDirectory); } } ts.createWatchProgram = createWatchProgram; })(ts || (ts = {})); /*@internal*/ var ts; (function (ts) { var UpToDateStatusType; (function (UpToDateStatusType) { UpToDateStatusType[UpToDateStatusType["Unbuildable"] = 0] = "Unbuildable"; UpToDateStatusType[UpToDateStatusType["UpToDate"] = 1] = "UpToDate"; /** * The project appears out of date because its upstream inputs are newer than its outputs, * but all of its outputs are actually newer than the previous identical outputs of its (.d.ts) inputs. * This means we can Pseudo-build (just touch timestamps), as if we had actually built this project. */ UpToDateStatusType[UpToDateStatusType["UpToDateWithUpstreamTypes"] = 2] = "UpToDateWithUpstreamTypes"; /** * The project appears out of date because its upstream inputs are newer than its outputs, * but all of its outputs are actually newer than the previous identical outputs of its (.d.ts) inputs. * This means we can Pseudo-build (just manipulate outputs), as if we had actually built this project. */ UpToDateStatusType[UpToDateStatusType["OutOfDateWithPrepend"] = 3] = "OutOfDateWithPrepend"; UpToDateStatusType[UpToDateStatusType["OutputMissing"] = 4] = "OutputMissing"; UpToDateStatusType[UpToDateStatusType["OutOfDateWithSelf"] = 5] = "OutOfDateWithSelf"; UpToDateStatusType[UpToDateStatusType["OutOfDateWithUpstream"] = 6] = "OutOfDateWithUpstream"; UpToDateStatusType[UpToDateStatusType["UpstreamOutOfDate"] = 7] = "UpstreamOutOfDate"; UpToDateStatusType[UpToDateStatusType["UpstreamBlocked"] = 8] = "UpstreamBlocked"; UpToDateStatusType[UpToDateStatusType["ComputingUpstream"] = 9] = "ComputingUpstream"; UpToDateStatusType[UpToDateStatusType["TsVersionOutputOfDate"] = 10] = "TsVersionOutputOfDate"; /** * Projects with no outputs (i.e. "solution" files) */ UpToDateStatusType[UpToDateStatusType["ContainerOnly"] = 11] = "ContainerOnly"; })(UpToDateStatusType = ts.UpToDateStatusType || (ts.UpToDateStatusType = {})); function resolveConfigFileProjectName(project) { if (ts.fileExtensionIs(project, ".json" /* Json */)) { return project; } return ts.combinePaths(project, "tsconfig.json"); } ts.resolveConfigFileProjectName = resolveConfigFileProjectName; })(ts || (ts = {})); var ts; (function (ts) { var minimumDate = new Date(-8640000000000000); var maximumDate = new Date(8640000000000000); var BuildResultFlags; (function (BuildResultFlags) { BuildResultFlags[BuildResultFlags["None"] = 0] = "None"; /** * No errors of any kind occurred during build */ BuildResultFlags[BuildResultFlags["Success"] = 1] = "Success"; /** * None of the .d.ts files emitted by this build were * different from the existing files on disk */ BuildResultFlags[BuildResultFlags["DeclarationOutputUnchanged"] = 2] = "DeclarationOutputUnchanged"; BuildResultFlags[BuildResultFlags["ConfigFileErrors"] = 4] = "ConfigFileErrors"; BuildResultFlags[BuildResultFlags["SyntaxErrors"] = 8] = "SyntaxErrors"; BuildResultFlags[BuildResultFlags["TypeErrors"] = 16] = "TypeErrors"; BuildResultFlags[BuildResultFlags["DeclarationEmitErrors"] = 32] = "DeclarationEmitErrors"; BuildResultFlags[BuildResultFlags["EmitErrors"] = 64] = "EmitErrors"; BuildResultFlags[BuildResultFlags["AnyErrors"] = 124] = "AnyErrors"; })(BuildResultFlags || (BuildResultFlags = {})); function createConfigFileMap() { return ts.createMap(); } function getOrCreateValueFromConfigFileMap(configFileMap, resolved, createT) { var existingValue = configFileMap.get(resolved); var newValue; if (!existingValue) { newValue = createT(); configFileMap.set(resolved, newValue); } return existingValue || newValue; } function getOrCreateValueMapFromConfigFileMap(configFileMap, resolved) { return getOrCreateValueFromConfigFileMap(configFileMap, resolved, ts.createMap); } function newer(date1, date2) { return date2 > date1 ? date2 : date1; } function isDeclarationFile(fileName) { return ts.fileExtensionIs(fileName, ".d.ts" /* Dts */); } /*@internal*/ function isCircularBuildOrder(buildOrder) { return !!buildOrder && !!buildOrder.buildOrder; } ts.isCircularBuildOrder = isCircularBuildOrder; /*@internal*/ function getBuildOrderFromAnyBuildOrder(anyBuildOrder) { return isCircularBuildOrder(anyBuildOrder) ? anyBuildOrder.buildOrder : anyBuildOrder; } ts.getBuildOrderFromAnyBuildOrder = getBuildOrderFromAnyBuildOrder; /** * Create a function that reports watch status by writing to the system and handles the formating of the diagnostic */ function createBuilderStatusReporter(system, pretty) { return function (diagnostic) { var output = pretty ? "[" + ts.formatColorAndReset(ts.getLocaleTimeString(system), ts.ForegroundColorEscapeSequences.Grey) + "] " : ts.getLocaleTimeString(system) + " - "; output += "" + ts.flattenDiagnosticMessageText(diagnostic.messageText, system.newLine) + (system.newLine + system.newLine); system.write(output); }; } ts.createBuilderStatusReporter = createBuilderStatusReporter; function createSolutionBuilderHostBase(system, createProgram, reportDiagnostic, reportSolutionBuilderStatus) { var host = ts.createProgramHost(system, createProgram); host.getModifiedTime = system.getModifiedTime ? function (path) { return system.getModifiedTime(path); } : ts.returnUndefined; host.setModifiedTime = system.setModifiedTime ? function (path, date) { return system.setModifiedTime(path, date); } : ts.noop; host.deleteFile = system.deleteFile ? function (path) { return system.deleteFile(path); } : ts.noop; host.reportDiagnostic = reportDiagnostic || ts.createDiagnosticReporter(system); host.reportSolutionBuilderStatus = reportSolutionBuilderStatus || createBuilderStatusReporter(system); host.now = ts.maybeBind(system, system.now); // For testing return host; } function createSolutionBuilderHost(system, createProgram, reportDiagnostic, reportSolutionBuilderStatus, reportErrorSummary) { if (system === void 0) { system = ts.sys; } var host = createSolutionBuilderHostBase(system, createProgram, reportDiagnostic, reportSolutionBuilderStatus); host.reportErrorSummary = reportErrorSummary; return host; } ts.createSolutionBuilderHost = createSolutionBuilderHost; function createSolutionBuilderWithWatchHost(system, createProgram, reportDiagnostic, reportSolutionBuilderStatus, reportWatchStatus) { if (system === void 0) { system = ts.sys; } var host = createSolutionBuilderHostBase(system, createProgram, reportDiagnostic, reportSolutionBuilderStatus); var watchHost = ts.createWatchHost(system, reportWatchStatus); ts.copyProperties(host, watchHost); return host; } ts.createSolutionBuilderWithWatchHost = createSolutionBuilderWithWatchHost; function getCompilerOptionsOfBuildOptions(buildOptions) { var result = {}; ts.commonOptionsWithBuild.forEach(function (option) { if (ts.hasProperty(buildOptions, option.name)) result[option.name] = buildOptions[option.name]; }); return result; } function createSolutionBuilder(host, rootNames, defaultOptions) { return createSolutionBuilderWorker(/*watch*/ false, host, rootNames, defaultOptions); } ts.createSolutionBuilder = createSolutionBuilder; function createSolutionBuilderWithWatch(host, rootNames, defaultOptions, baseWatchOptions) { return createSolutionBuilderWorker(/*watch*/ true, host, rootNames, defaultOptions, baseWatchOptions); } ts.createSolutionBuilderWithWatch = createSolutionBuilderWithWatch; function createSolutionBuilderState(watch, hostOrHostWithWatch, rootNames, options, baseWatchOptions) { var host = hostOrHostWithWatch; var hostWithWatch = hostOrHostWithWatch; var currentDirectory = host.getCurrentDirectory(); var getCanonicalFileName = ts.createGetCanonicalFileName(host.useCaseSensitiveFileNames()); // State of the solution var baseCompilerOptions = getCompilerOptionsOfBuildOptions(options); var compilerHost = ts.createCompilerHostFromProgramHost(host, function () { return state.projectCompilerOptions; }); ts.setGetSourceFileAsHashVersioned(compilerHost, host); compilerHost.getParsedCommandLine = function (fileName) { return parseConfigFile(state, fileName, toResolvedConfigFilePath(state, fileName)); }; compilerHost.resolveModuleNames = ts.maybeBind(host, host.resolveModuleNames); compilerHost.resolveTypeReferenceDirectives = ts.maybeBind(host, host.resolveTypeReferenceDirectives); var moduleResolutionCache = !compilerHost.resolveModuleNames ? ts.createModuleResolutionCache(currentDirectory, getCanonicalFileName) : undefined; if (!compilerHost.resolveModuleNames) { var loader_3 = function (moduleName, containingFile, redirectedReference) { return ts.resolveModuleName(moduleName, containingFile, state.projectCompilerOptions, compilerHost, moduleResolutionCache, redirectedReference).resolvedModule; }; compilerHost.resolveModuleNames = function (moduleNames, containingFile, _reusedNames, redirectedReference) { return ts.loadWithLocalCache(ts.Debug.checkEachDefined(moduleNames), containingFile, redirectedReference, loader_3); }; } var _a = ts.createWatchFactory(hostWithWatch, options), watchFile = _a.watchFile, watchFilePath = _a.watchFilePath, watchDirectory = _a.watchDirectory, writeLog = _a.writeLog; var state = { host: host, hostWithWatch: hostWithWatch, currentDirectory: currentDirectory, getCanonicalFileName: getCanonicalFileName, parseConfigFileHost: ts.parseConfigHostFromCompilerHostLike(host), writeFileName: host.trace ? function (s) { return host.trace(s); } : undefined, // State of solution options: options, baseCompilerOptions: baseCompilerOptions, rootNames: rootNames, baseWatchOptions: baseWatchOptions, resolvedConfigFilePaths: ts.createMap(), configFileCache: createConfigFileMap(), projectStatus: createConfigFileMap(), buildInfoChecked: createConfigFileMap(), extendedConfigCache: ts.createMap(), builderPrograms: createConfigFileMap(), diagnostics: createConfigFileMap(), projectPendingBuild: createConfigFileMap(), projectErrorsReported: createConfigFileMap(), compilerHost: compilerHost, moduleResolutionCache: moduleResolutionCache, // Mutable state buildOrder: undefined, readFileWithCache: function (f) { return host.readFile(f); }, projectCompilerOptions: baseCompilerOptions, cache: undefined, allProjectBuildPending: true, needsSummary: true, watchAllProjectsPending: watch, currentInvalidatedProject: undefined, // Watch state watch: watch, allWatchedWildcardDirectories: createConfigFileMap(), allWatchedInputFiles: createConfigFileMap(), allWatchedConfigFiles: createConfigFileMap(), timerToBuildInvalidatedProject: undefined, reportFileChangeDetected: false, watchFile: watchFile, watchFilePath: watchFilePath, watchDirectory: watchDirectory, writeLog: writeLog, }; return state; } function toPath(state, fileName) { return ts.toPath(fileName, state.currentDirectory, state.getCanonicalFileName); } function toResolvedConfigFilePath(state, fileName) { var resolvedConfigFilePaths = state.resolvedConfigFilePaths; var path = resolvedConfigFilePaths.get(fileName); if (path !== undefined) return path; var resolvedPath = toPath(state, fileName); resolvedConfigFilePaths.set(fileName, resolvedPath); return resolvedPath; } function isParsedCommandLine(entry) { return !!entry.options; } function parseConfigFile(state, configFileName, configFilePath) { var configFileCache = state.configFileCache; var value = configFileCache.get(configFilePath); if (value) { return isParsedCommandLine(value) ? value : undefined; } var diagnostic; var parseConfigFileHost = state.parseConfigFileHost, baseCompilerOptions = state.baseCompilerOptions, baseWatchOptions = state.baseWatchOptions, extendedConfigCache = state.extendedConfigCache, host = state.host; var parsed; if (host.getParsedCommandLine) { parsed = host.getParsedCommandLine(configFileName); if (!parsed) diagnostic = ts.createCompilerDiagnostic(ts.Diagnostics.File_0_not_found, configFileName); } else { parseConfigFileHost.onUnRecoverableConfigFileDiagnostic = function (d) { return diagnostic = d; }; parsed = ts.getParsedCommandLineOfConfigFile(configFileName, baseCompilerOptions, parseConfigFileHost, extendedConfigCache, baseWatchOptions); parseConfigFileHost.onUnRecoverableConfigFileDiagnostic = ts.noop; } configFileCache.set(configFilePath, parsed || diagnostic); return parsed; } function resolveProjectName(state, name) { return ts.resolveConfigFileProjectName(ts.resolvePath(state.currentDirectory, name)); } function createBuildOrder(state, roots) { var temporaryMarks = ts.createMap(); var permanentMarks = ts.createMap(); var circularityReportStack = []; var buildOrder; var circularDiagnostics; for (var _i = 0, roots_1 = roots; _i < roots_1.length; _i++) { var root = roots_1[_i]; visit(root); } return circularDiagnostics ? { buildOrder: buildOrder || ts.emptyArray, circularDiagnostics: circularDiagnostics } : buildOrder || ts.emptyArray; function visit(configFileName, inCircularContext) { var projPath = toResolvedConfigFilePath(state, configFileName); // Already visited if (permanentMarks.has(projPath)) return; // Circular if (temporaryMarks.has(projPath)) { if (!inCircularContext) { (circularDiagnostics || (circularDiagnostics = [])).push(ts.createCompilerDiagnostic(ts.Diagnostics.Project_references_may_not_form_a_circular_graph_Cycle_detected_Colon_0, circularityReportStack.join("\r\n"))); } return; } temporaryMarks.set(projPath, true); circularityReportStack.push(configFileName); var parsed = parseConfigFile(state, configFileName, projPath); if (parsed && parsed.projectReferences) { for (var _i = 0, _a = parsed.projectReferences; _i < _a.length; _i++) { var ref = _a[_i]; var resolvedRefPath = resolveProjectName(state, ref.path); visit(resolvedRefPath, inCircularContext || ref.circular); } } circularityReportStack.pop(); permanentMarks.set(projPath, true); (buildOrder || (buildOrder = [])).push(configFileName); } } function getBuildOrder(state) { return state.buildOrder || createStateBuildOrder(state); } function createStateBuildOrder(state) { var buildOrder = createBuildOrder(state, state.rootNames.map(function (f) { return resolveProjectName(state, f); })); // Clear all to ResolvedConfigFilePaths cache to start fresh state.resolvedConfigFilePaths.clear(); var currentProjects = ts.arrayToSet(getBuildOrderFromAnyBuildOrder(buildOrder), function (resolved) { return toResolvedConfigFilePath(state, resolved); }); var noopOnDelete = { onDeleteValue: ts.noop }; // Config file cache ts.mutateMapSkippingNewValues(state.configFileCache, currentProjects, noopOnDelete); ts.mutateMapSkippingNewValues(state.projectStatus, currentProjects, noopOnDelete); ts.mutateMapSkippingNewValues(state.buildInfoChecked, currentProjects, noopOnDelete); ts.mutateMapSkippingNewValues(state.builderPrograms, currentProjects, noopOnDelete); ts.mutateMapSkippingNewValues(state.diagnostics, currentProjects, noopOnDelete); ts.mutateMapSkippingNewValues(state.projectPendingBuild, currentProjects, noopOnDelete); ts.mutateMapSkippingNewValues(state.projectErrorsReported, currentProjects, noopOnDelete); // Remove watches for the program no longer in the solution if (state.watch) { ts.mutateMapSkippingNewValues(state.allWatchedConfigFiles, currentProjects, { onDeleteValue: ts.closeFileWatcher }); ts.mutateMapSkippingNewValues(state.allWatchedWildcardDirectories, currentProjects, { onDeleteValue: function (existingMap) { return existingMap.forEach(ts.closeFileWatcherOf); } }); ts.mutateMapSkippingNewValues(state.allWatchedInputFiles, currentProjects, { onDeleteValue: function (existingMap) { return existingMap.forEach(ts.closeFileWatcher); } }); } return state.buildOrder = buildOrder; } function getBuildOrderFor(state, project, onlyReferences) { var resolvedProject = project && resolveProjectName(state, project); var buildOrderFromState = getBuildOrder(state); if (isCircularBuildOrder(buildOrderFromState)) return buildOrderFromState; if (resolvedProject) { var projectPath_1 = toResolvedConfigFilePath(state, resolvedProject); var projectIndex = ts.findIndex(buildOrderFromState, function (configFileName) { return toResolvedConfigFilePath(state, configFileName) === projectPath_1; }); if (projectIndex === -1) return undefined; } var buildOrder = resolvedProject ? createBuildOrder(state, [resolvedProject]) : buildOrderFromState; ts.Debug.assert(!isCircularBuildOrder(buildOrder)); ts.Debug.assert(!onlyReferences || resolvedProject !== undefined); ts.Debug.assert(!onlyReferences || buildOrder[buildOrder.length - 1] === resolvedProject); return onlyReferences ? buildOrder.slice(0, buildOrder.length - 1) : buildOrder; } function enableCache(state) { if (state.cache) { disableCache(state); } var compilerHost = state.compilerHost, host = state.host; var originalReadFileWithCache = state.readFileWithCache; var originalGetSourceFile = compilerHost.getSourceFile; var _a = ts.changeCompilerHostLikeToUseCache(host, function (fileName) { return toPath(state, fileName); }, function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return originalGetSourceFile.call.apply(originalGetSourceFile, __spreadArrays([compilerHost], args)); }), originalReadFile = _a.originalReadFile, originalFileExists = _a.originalFileExists, originalDirectoryExists = _a.originalDirectoryExists, originalCreateDirectory = _a.originalCreateDirectory, originalWriteFile = _a.originalWriteFile, getSourceFileWithCache = _a.getSourceFileWithCache, readFileWithCache = _a.readFileWithCache; state.readFileWithCache = readFileWithCache; compilerHost.getSourceFile = getSourceFileWithCache; state.cache = { originalReadFile: originalReadFile, originalFileExists: originalFileExists, originalDirectoryExists: originalDirectoryExists, originalCreateDirectory: originalCreateDirectory, originalWriteFile: originalWriteFile, originalReadFileWithCache: originalReadFileWithCache, originalGetSourceFile: originalGetSourceFile, }; } function disableCache(state) { if (!state.cache) return; var cache = state.cache, host = state.host, compilerHost = state.compilerHost, extendedConfigCache = state.extendedConfigCache, moduleResolutionCache = state.moduleResolutionCache; host.readFile = cache.originalReadFile; host.fileExists = cache.originalFileExists; host.directoryExists = cache.originalDirectoryExists; host.createDirectory = cache.originalCreateDirectory; host.writeFile = cache.originalWriteFile; compilerHost.getSourceFile = cache.originalGetSourceFile; state.readFileWithCache = cache.originalReadFileWithCache; extendedConfigCache.clear(); if (moduleResolutionCache) { moduleResolutionCache.directoryToModuleNameMap.clear(); moduleResolutionCache.moduleNameToDirectoryMap.clear(); } state.cache = undefined; } function clearProjectStatus(state, resolved) { state.projectStatus.delete(resolved); state.diagnostics.delete(resolved); } function addProjToQueue(_a, proj, reloadLevel) { var projectPendingBuild = _a.projectPendingBuild; var value = projectPendingBuild.get(proj); if (value === undefined) { projectPendingBuild.set(proj, reloadLevel); } else if (value < reloadLevel) { projectPendingBuild.set(proj, reloadLevel); } } function setupInitialBuild(state, cancellationToken) { // Set initial build if not already built if (!state.allProjectBuildPending) return; state.allProjectBuildPending = false; if (state.options.watch) { reportWatchStatus(state, ts.Diagnostics.Starting_compilation_in_watch_mode); } enableCache(state); var buildOrder = getBuildOrderFromAnyBuildOrder(getBuildOrder(state)); buildOrder.forEach(function (configFileName) { return state.projectPendingBuild.set(toResolvedConfigFilePath(state, configFileName), ts.ConfigFileProgramReloadLevel.None); }); if (cancellationToken) { cancellationToken.throwIfCancellationRequested(); } } var InvalidatedProjectKind; (function (InvalidatedProjectKind) { InvalidatedProjectKind[InvalidatedProjectKind["Build"] = 0] = "Build"; InvalidatedProjectKind[InvalidatedProjectKind["UpdateBundle"] = 1] = "UpdateBundle"; InvalidatedProjectKind[InvalidatedProjectKind["UpdateOutputFileStamps"] = 2] = "UpdateOutputFileStamps"; })(InvalidatedProjectKind = ts.InvalidatedProjectKind || (ts.InvalidatedProjectKind = {})); function doneInvalidatedProject(state, projectPath) { state.projectPendingBuild.delete(projectPath); state.currentInvalidatedProject = undefined; return state.diagnostics.has(projectPath) ? ts.ExitStatus.DiagnosticsPresent_OutputsSkipped : ts.ExitStatus.Success; } function createUpdateOutputFileStampsProject(state, project, projectPath, config, buildOrder) { var updateOutputFileStampsPending = true; return { kind: InvalidatedProjectKind.UpdateOutputFileStamps, project: project, projectPath: projectPath, buildOrder: buildOrder, getCompilerOptions: function () { return config.options; }, getCurrentDirectory: function () { return state.currentDirectory; }, updateOutputFileStatmps: function () { updateOutputTimestamps(state, config, projectPath); updateOutputFileStampsPending = false; }, done: function () { if (updateOutputFileStampsPending) { updateOutputTimestamps(state, config, projectPath); } return doneInvalidatedProject(state, projectPath); } }; } function createBuildOrUpdateInvalidedProject(kind, state, project, projectPath, projectIndex, config, buildOrder) { var Step; (function (Step) { Step[Step["CreateProgram"] = 0] = "CreateProgram"; Step[Step["SyntaxDiagnostics"] = 1] = "SyntaxDiagnostics"; Step[Step["SemanticDiagnostics"] = 2] = "SemanticDiagnostics"; Step[Step["Emit"] = 3] = "Emit"; Step[Step["EmitBundle"] = 4] = "EmitBundle"; Step[Step["BuildInvalidatedProjectOfBundle"] = 5] = "BuildInvalidatedProjectOfBundle"; Step[Step["QueueReferencingProjects"] = 6] = "QueueReferencingProjects"; Step[Step["Done"] = 7] = "Done"; })(Step || (Step = {})); var step = kind === InvalidatedProjectKind.Build ? Step.CreateProgram : Step.EmitBundle; var program; var buildResult; var invalidatedProjectOfBundle; return kind === InvalidatedProjectKind.Build ? { kind: kind, project: project, projectPath: projectPath, buildOrder: buildOrder, getCompilerOptions: function () { return config.options; }, getCurrentDirectory: function () { return state.currentDirectory; }, getBuilderProgram: function () { return withProgramOrUndefined(ts.identity); }, getProgram: function () { return withProgramOrUndefined(function (program) { return program.getProgramOrUndefined(); }); }, getSourceFile: function (fileName) { return withProgramOrUndefined(function (program) { return program.getSourceFile(fileName); }); }, getSourceFiles: function () { return withProgramOrEmptyArray(function (program) { return program.getSourceFiles(); }); }, getOptionsDiagnostics: function (cancellationToken) { return withProgramOrEmptyArray(function (program) { return program.getOptionsDiagnostics(cancellationToken); }); }, getGlobalDiagnostics: function (cancellationToken) { return withProgramOrEmptyArray(function (program) { return program.getGlobalDiagnostics(cancellationToken); }); }, getConfigFileParsingDiagnostics: function () { return withProgramOrEmptyArray(function (program) { return program.getConfigFileParsingDiagnostics(); }); }, getSyntacticDiagnostics: function (sourceFile, cancellationToken) { return withProgramOrEmptyArray(function (program) { return program.getSyntacticDiagnostics(sourceFile, cancellationToken); }); }, getAllDependencies: function (sourceFile) { return withProgramOrEmptyArray(function (program) { return program.getAllDependencies(sourceFile); }); }, getSemanticDiagnostics: function (sourceFile, cancellationToken) { return withProgramOrEmptyArray(function (program) { return program.getSemanticDiagnostics(sourceFile, cancellationToken); }); }, getSemanticDiagnosticsOfNextAffectedFile: function (cancellationToken, ignoreSourceFile) { return withProgramOrUndefined(function (program) { return (program.getSemanticDiagnosticsOfNextAffectedFile) && program.getSemanticDiagnosticsOfNextAffectedFile(cancellationToken, ignoreSourceFile); }); }, emit: function (targetSourceFile, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers) { if (targetSourceFile || emitOnlyDtsFiles) { return withProgramOrUndefined(function (program) { return program.emit(targetSourceFile, writeFile, cancellationToken, emitOnlyDtsFiles, customTransformers); }); } executeSteps(Step.SemanticDiagnostics, cancellationToken); if (step !== Step.Emit) return undefined; return emit(writeFile, cancellationToken, customTransformers); }, done: done } : { kind: kind, project: project, projectPath: projectPath, buildOrder: buildOrder, getCompilerOptions: function () { return config.options; }, getCurrentDirectory: function () { return state.currentDirectory; }, emit: function (writeFile, customTransformers) { if (step !== Step.EmitBundle) return invalidatedProjectOfBundle; return emitBundle(writeFile, customTransformers); }, done: done, }; function done(cancellationToken, writeFile, customTransformers) { executeSteps(Step.Done, cancellationToken, writeFile, customTransformers); return doneInvalidatedProject(state, projectPath); } function withProgramOrUndefined(action) { executeSteps(Step.CreateProgram); return program && action(program); } function withProgramOrEmptyArray(action) { return withProgramOrUndefined(action) || ts.emptyArray; } function createProgram() { ts.Debug.assert(program === undefined); if (state.options.dry) { reportStatus(state, ts.Diagnostics.A_non_dry_build_would_build_project_0, project); buildResult = BuildResultFlags.Success; step = Step.QueueReferencingProjects; return; } if (state.options.verbose) reportStatus(state, ts.Diagnostics.Building_project_0, project); if (config.fileNames.length === 0) { reportAndStoreErrors(state, projectPath, ts.getConfigFileParsingDiagnostics(config)); // Nothing to build - must be a solution file, basically buildResult = BuildResultFlags.None; step = Step.QueueReferencingProjects; return; } var host = state.host, compilerHost = state.compilerHost; state.projectCompilerOptions = config.options; // Update module resolution cache if needed updateModuleResolutionCache(state, project, config); // Create program program = host.createProgram(config.fileNames, config.options, compilerHost, getOldProgram(state, projectPath, config), ts.getConfigFileParsingDiagnostics(config), config.projectReferences); step++; } function handleDiagnostics(diagnostics, errorFlags, errorType) { if (diagnostics.length) { buildResult = buildErrors(state, projectPath, program, config, diagnostics, errorFlags, errorType); step = Step.QueueReferencingProjects; } else { step++; } } function getSyntaxDiagnostics(cancellationToken) { ts.Debug.assertIsDefined(program); handleDiagnostics(__spreadArrays(program.getConfigFileParsingDiagnostics(), program.getOptionsDiagnostics(cancellationToken), program.getGlobalDiagnostics(cancellationToken), program.getSyntacticDiagnostics(/*sourceFile*/ undefined, cancellationToken)), BuildResultFlags.SyntaxErrors, "Syntactic"); } function getSemanticDiagnostics(cancellationToken) { handleDiagnostics(ts.Debug.checkDefined(program).getSemanticDiagnostics(/*sourceFile*/ undefined, cancellationToken), BuildResultFlags.TypeErrors, "Semantic"); } function emit(writeFileCallback, cancellationToken, customTransformers) { ts.Debug.assertIsDefined(program); ts.Debug.assert(step === Step.Emit); // Before emitting lets backup state, so we can revert it back if there are declaration errors to handle emit and declaration errors correctly program.backupState(); var declDiagnostics; var reportDeclarationDiagnostics = function (d) { return (declDiagnostics || (declDiagnostics = [])).push(d); }; var outputFiles = []; var emitResult = ts.emitFilesAndReportErrors(program, reportDeclarationDiagnostics, /*writeFileName*/ undefined, /*reportSummary*/ undefined, function (name, text, writeByteOrderMark) { return outputFiles.push({ name: name, text: text, writeByteOrderMark: writeByteOrderMark }); }, cancellationToken, /*emitOnlyDts*/ false, customTransformers).emitResult; // Don't emit .d.ts if there are decl file errors if (declDiagnostics) { program.restoreState(); buildResult = buildErrors(state, projectPath, program, config, declDiagnostics, BuildResultFlags.DeclarationEmitErrors, "Declaration file"); step = Step.QueueReferencingProjects; return { emitSkipped: true, diagnostics: emitResult.diagnostics }; } // Actual Emit var host = state.host, compilerHost = state.compilerHost; var resultFlags = BuildResultFlags.DeclarationOutputUnchanged; var newestDeclarationFileContentChangedTime = minimumDate; var anyDtsChanged = false; var emitterDiagnostics = ts.createDiagnosticCollection(); var emittedOutputs = ts.createMap(); outputFiles.forEach(function (_a) { var name = _a.name, text = _a.text, writeByteOrderMark = _a.writeByteOrderMark; var priorChangeTime; if (!anyDtsChanged && isDeclarationFile(name)) { // Check for unchanged .d.ts files if (host.fileExists(name) && state.readFileWithCache(name) === text) { priorChangeTime = host.getModifiedTime(name); } else { resultFlags &= ~BuildResultFlags.DeclarationOutputUnchanged; anyDtsChanged = true; } } emittedOutputs.set(toPath(state, name), name); ts.writeFile(writeFileCallback ? { writeFile: writeFileCallback } : compilerHost, emitterDiagnostics, name, text, writeByteOrderMark); if (priorChangeTime !== undefined) { newestDeclarationFileContentChangedTime = newer(priorChangeTime, newestDeclarationFileContentChangedTime); } }); finishEmit(emitterDiagnostics, emittedOutputs, newestDeclarationFileContentChangedTime, /*newestDeclarationFileContentChangedTimeIsMaximumDate*/ anyDtsChanged, outputFiles.length ? outputFiles[0].name : ts.getFirstProjectOutput(config, !host.useCaseSensitiveFileNames()), resultFlags); return emitResult; } function finishEmit(emitterDiagnostics, emittedOutputs, priorNewestUpdateTime, newestDeclarationFileContentChangedTimeIsMaximumDate, oldestOutputFileName, resultFlags) { var emitDiagnostics = emitterDiagnostics.getDiagnostics(); if (emitDiagnostics.length) { buildResult = buildErrors(state, projectPath, program, config, emitDiagnostics, BuildResultFlags.EmitErrors, "Emit"); step = Step.QueueReferencingProjects; return emitDiagnostics; } if (state.writeFileName) { emittedOutputs.forEach(function (name) { return listEmittedFile(state, config, name); }); if (program) ts.listFiles(program, state.writeFileName); } // Update time stamps for rest of the outputs var newestDeclarationFileContentChangedTime = updateOutputTimestampsWorker(state, config, priorNewestUpdateTime, ts.Diagnostics.Updating_unchanged_output_timestamps_of_project_0, emittedOutputs); state.diagnostics.delete(projectPath); state.projectStatus.set(projectPath, { type: ts.UpToDateStatusType.UpToDate, newestDeclarationFileContentChangedTime: newestDeclarationFileContentChangedTimeIsMaximumDate ? maximumDate : newestDeclarationFileContentChangedTime, oldestOutputFileName: oldestOutputFileName }); afterProgramDone(state, projectPath, program, config); state.projectCompilerOptions = state.baseCompilerOptions; step = Step.QueueReferencingProjects; buildResult = resultFlags; return emitDiagnostics; } function emitBundle(writeFileCallback, customTransformers) { ts.Debug.assert(kind === InvalidatedProjectKind.UpdateBundle); if (state.options.dry) { reportStatus(state, ts.Diagnostics.A_non_dry_build_would_update_output_of_project_0, project); buildResult = BuildResultFlags.Success; step = Step.QueueReferencingProjects; return undefined; } if (state.options.verbose) reportStatus(state, ts.Diagnostics.Updating_output_of_project_0, project); // Update js, and source map var compilerHost = state.compilerHost; state.projectCompilerOptions = config.options; var outputFiles = ts.emitUsingBuildInfo(config, compilerHost, function (ref) { var refName = resolveProjectName(state, ref.path); return parseConfigFile(state, refName, toResolvedConfigFilePath(state, refName)); }, customTransformers); if (ts.isString(outputFiles)) { reportStatus(state, ts.Diagnostics.Cannot_update_output_of_project_0_because_there_was_error_reading_file_1, project, relName(state, outputFiles)); step = Step.BuildInvalidatedProjectOfBundle; return invalidatedProjectOfBundle = createBuildOrUpdateInvalidedProject(InvalidatedProjectKind.Build, state, project, projectPath, projectIndex, config, buildOrder); } // Actual Emit ts.Debug.assert(!!outputFiles.length); var emitterDiagnostics = ts.createDiagnosticCollection(); var emittedOutputs = ts.createMap(); outputFiles.forEach(function (_a) { var name = _a.name, text = _a.text, writeByteOrderMark = _a.writeByteOrderMark; emittedOutputs.set(toPath(state, name), name); ts.writeFile(writeFileCallback ? { writeFile: writeFileCallback } : compilerHost, emitterDiagnostics, name, text, writeByteOrderMark); }); var emitDiagnostics = finishEmit(emitterDiagnostics, emittedOutputs, minimumDate, /*newestDeclarationFileContentChangedTimeIsMaximumDate*/ false, outputFiles[0].name, BuildResultFlags.DeclarationOutputUnchanged); return { emitSkipped: false, diagnostics: emitDiagnostics }; } function executeSteps(till, cancellationToken, writeFile, customTransformers) { while (step <= till && step < Step.Done) { var currentStep = step; switch (step) { case Step.CreateProgram: createProgram(); break; case Step.SyntaxDiagnostics: getSyntaxDiagnostics(cancellationToken); break; case Step.SemanticDiagnostics: getSemanticDiagnostics(cancellationToken); break; case Step.Emit: emit(writeFile, cancellationToken, customTransformers); break; case Step.EmitBundle: emitBundle(writeFile, customTransformers); break; case Step.BuildInvalidatedProjectOfBundle: ts.Debug.checkDefined(invalidatedProjectOfBundle).done(cancellationToken); step = Step.Done; break; case Step.QueueReferencingProjects: queueReferencingProjects(state, project, projectPath, projectIndex, config, buildOrder, ts.Debug.checkDefined(buildResult)); step++; break; // Should never be done case Step.Done: default: ts.assertType(step); } ts.Debug.assert(step > currentStep); } } } function needsBuild(_a, status, config) { var options = _a.options; if (status.type !== ts.UpToDateStatusType.OutOfDateWithPrepend || options.force) return true; return config.fileNames.length === 0 || !!ts.getConfigFileParsingDiagnostics(config).length || !ts.isIncrementalCompilation(config.options); } function getNextInvalidatedProject(state, buildOrder, reportQueue) { if (!state.projectPendingBuild.size) return undefined; if (isCircularBuildOrder(buildOrder)) return undefined; if (state.currentInvalidatedProject) { // Only if same buildOrder the currentInvalidated project can be sent again return ts.arrayIsEqualTo(state.currentInvalidatedProject.buildOrder, buildOrder) ? state.currentInvalidatedProject : undefined; } var options = state.options, projectPendingBuild = state.projectPendingBuild; for (var projectIndex = 0; projectIndex < buildOrder.length; projectIndex++) { var project = buildOrder[projectIndex]; var projectPath = toResolvedConfigFilePath(state, project); var reloadLevel = state.projectPendingBuild.get(projectPath); if (reloadLevel === undefined) continue; if (reportQueue) { reportQueue = false; reportBuildQueue(state, buildOrder); } var config = parseConfigFile(state, project, projectPath); if (!config) { reportParseConfigFileDiagnostic(state, projectPath); projectPendingBuild.delete(projectPath); continue; } if (reloadLevel === ts.ConfigFileProgramReloadLevel.Full) { watchConfigFile(state, project, projectPath, config); watchWildCardDirectories(state, project, projectPath, config); watchInputFiles(state, project, projectPath, config); } else if (reloadLevel === ts.ConfigFileProgramReloadLevel.Partial) { // Update file names var result = ts.getFileNamesFromConfigSpecs(config.configFileSpecs, ts.getDirectoryPath(project), config.options, state.parseConfigFileHost); ts.updateErrorForNoInputFiles(result, project, config.configFileSpecs, config.errors, ts.canJsonReportNoInutFiles(config.raw)); config.fileNames = result.fileNames; watchInputFiles(state, project, projectPath, config); } var status = getUpToDateStatus(state, config, projectPath); verboseReportProjectStatus(state, project, status); if (!options.force) { if (status.type === ts.UpToDateStatusType.UpToDate) { reportAndStoreErrors(state, projectPath, ts.getConfigFileParsingDiagnostics(config)); projectPendingBuild.delete(projectPath); // Up to date, skip if (options.dry) { // In a dry build, inform the user of this fact reportStatus(state, ts.Diagnostics.Project_0_is_up_to_date, project); } continue; } if (status.type === ts.UpToDateStatusType.UpToDateWithUpstreamTypes) { reportAndStoreErrors(state, projectPath, ts.getConfigFileParsingDiagnostics(config)); return createUpdateOutputFileStampsProject(state, project, projectPath, config, buildOrder); } } if (status.type === ts.UpToDateStatusType.UpstreamBlocked) { reportAndStoreErrors(state, projectPath, ts.getConfigFileParsingDiagnostics(config)); projectPendingBuild.delete(projectPath); if (options.verbose) { reportStatus(state, status.upstreamProjectBlocked ? ts.Diagnostics.Skipping_build_of_project_0_because_its_dependency_1_was_not_built : ts.Diagnostics.Skipping_build_of_project_0_because_its_dependency_1_has_errors, project, status.upstreamProjectName); } continue; } if (status.type === ts.UpToDateStatusType.ContainerOnly) { reportAndStoreErrors(state, projectPath, ts.getConfigFileParsingDiagnostics(config)); projectPendingBuild.delete(projectPath); // Do nothing continue; } return createBuildOrUpdateInvalidedProject(needsBuild(state, status, config) ? InvalidatedProjectKind.Build : InvalidatedProjectKind.UpdateBundle, state, project, projectPath, projectIndex, config, buildOrder); } return undefined; } function listEmittedFile(_a, proj, file) { var writeFileName = _a.writeFileName; if (writeFileName && proj.options.listEmittedFiles) { writeFileName("TSFILE: " + file); } } function getOldProgram(_a, proj, parsed) { var options = _a.options, builderPrograms = _a.builderPrograms, compilerHost = _a.compilerHost; if (options.force) return undefined; var value = builderPrograms.get(proj); if (value) return value; return ts.readBuilderProgram(parsed.options, compilerHost); } function afterProgramDone(_a, proj, program, config) { var host = _a.host, watch = _a.watch, builderPrograms = _a.builderPrograms; if (program) { if (host.afterProgramEmitAndDiagnostics) { host.afterProgramEmitAndDiagnostics(program); } if (watch) { program.releaseProgram(); builderPrograms.set(proj, program); } } else if (host.afterEmitBundle) { host.afterEmitBundle(config); } } function buildErrors(state, resolvedPath, program, config, diagnostics, errorFlags, errorType) { reportAndStoreErrors(state, resolvedPath, diagnostics); // List files if any other build error using program (emit errors already report files) if (program && state.writeFileName) ts.listFiles(program, state.writeFileName); state.projectStatus.set(resolvedPath, { type: ts.UpToDateStatusType.Unbuildable, reason: errorType + " errors" }); afterProgramDone(state, resolvedPath, program, config); state.projectCompilerOptions = state.baseCompilerOptions; return errorFlags; } function updateModuleResolutionCache(state, proj, config) { if (!state.moduleResolutionCache) return; // Update module resolution cache if needed var moduleResolutionCache = state.moduleResolutionCache; var projPath = toPath(state, proj); if (moduleResolutionCache.directoryToModuleNameMap.redirectsMap.size === 0) { // The own map will be for projectCompilerOptions ts.Debug.assert(moduleResolutionCache.moduleNameToDirectoryMap.redirectsMap.size === 0); moduleResolutionCache.directoryToModuleNameMap.redirectsMap.set(projPath, moduleResolutionCache.directoryToModuleNameMap.ownMap); moduleResolutionCache.moduleNameToDirectoryMap.redirectsMap.set(projPath, moduleResolutionCache.moduleNameToDirectoryMap.ownMap); } else { // Set correct own map ts.Debug.assert(moduleResolutionCache.moduleNameToDirectoryMap.redirectsMap.size > 0); var ref = { sourceFile: config.options.configFile, commandLine: config }; moduleResolutionCache.directoryToModuleNameMap.setOwnMap(moduleResolutionCache.directoryToModuleNameMap.getOrCreateMapOfCacheRedirects(ref)); moduleResolutionCache.moduleNameToDirectoryMap.setOwnMap(moduleResolutionCache.moduleNameToDirectoryMap.getOrCreateMapOfCacheRedirects(ref)); } moduleResolutionCache.directoryToModuleNameMap.setOwnOptions(config.options); moduleResolutionCache.moduleNameToDirectoryMap.setOwnOptions(config.options); } function checkConfigFileUpToDateStatus(state, configFile, oldestOutputFileTime, oldestOutputFileName) { // Check tsconfig time var tsconfigTime = state.host.getModifiedTime(configFile) || ts.missingFileModifiedTime; if (oldestOutputFileTime < tsconfigTime) { return { type: ts.UpToDateStatusType.OutOfDateWithSelf, outOfDateOutputFileName: oldestOutputFileName, newerInputFileName: configFile }; } } function getUpToDateStatusWorker(state, project, resolvedPath) { var newestInputFileName = undefined; var newestInputFileTime = minimumDate; var host = state.host; // Get timestamps of input files for (var _i = 0, _a = project.fileNames; _i < _a.length; _i++) { var inputFile = _a[_i]; if (!host.fileExists(inputFile)) { return { type: ts.UpToDateStatusType.Unbuildable, reason: inputFile + " does not exist" }; } var inputTime = host.getModifiedTime(inputFile) || ts.missingFileModifiedTime; if (inputTime > newestInputFileTime) { newestInputFileName = inputFile; newestInputFileTime = inputTime; } } // Container if no files are specified in the project if (!project.fileNames.length && !ts.canJsonReportNoInutFiles(project.raw)) { return { type: ts.UpToDateStatusType.ContainerOnly }; } // Collect the expected outputs of this project var outputs = ts.getAllProjectOutputs(project, !host.useCaseSensitiveFileNames()); // Now see if all outputs are newer than the newest input var oldestOutputFileName = "(none)"; var oldestOutputFileTime = maximumDate; var newestOutputFileName = "(none)"; var newestOutputFileTime = minimumDate; var missingOutputFileName; var newestDeclarationFileContentChangedTime = minimumDate; var isOutOfDateWithInputs = false; for (var _b = 0, outputs_1 = outputs; _b < outputs_1.length; _b++) { var output = outputs_1[_b]; // Output is missing; can stop checking // Don't immediately return because we can still be upstream-blocked, which is a higher-priority status if (!host.fileExists(output)) { missingOutputFileName = output; break; } var outputTime = host.getModifiedTime(output) || ts.missingFileModifiedTime; if (outputTime < oldestOutputFileTime) { oldestOutputFileTime = outputTime; oldestOutputFileName = output; } // If an output is older than the newest input, we can stop checking // Don't immediately return because we can still be upstream-blocked, which is a higher-priority status if (outputTime < newestInputFileTime) { isOutOfDateWithInputs = true; break; } if (outputTime > newestOutputFileTime) { newestOutputFileTime = outputTime; newestOutputFileName = output; } // Keep track of when the most recent time a .d.ts file was changed. // In addition to file timestamps, we also keep track of when a .d.ts file // had its file touched but not had its contents changed - this allows us // to skip a downstream typecheck if (isDeclarationFile(output)) { var outputModifiedTime = host.getModifiedTime(output) || ts.missingFileModifiedTime; newestDeclarationFileContentChangedTime = newer(newestDeclarationFileContentChangedTime, outputModifiedTime); } } var pseudoUpToDate = false; var usesPrepend = false; var upstreamChangedProject; if (project.projectReferences) { state.projectStatus.set(resolvedPath, { type: ts.UpToDateStatusType.ComputingUpstream }); for (var _c = 0, _d = project.projectReferences; _c < _d.length; _c++) { var ref = _d[_c]; usesPrepend = usesPrepend || !!(ref.prepend); var resolvedRef = ts.resolveProjectReferencePath(ref); var resolvedRefPath = toResolvedConfigFilePath(state, resolvedRef); var refStatus = getUpToDateStatus(state, parseConfigFile(state, resolvedRef, resolvedRefPath), resolvedRefPath); // Its a circular reference ignore the status of this project if (refStatus.type === ts.UpToDateStatusType.ComputingUpstream || refStatus.type === ts.UpToDateStatusType.ContainerOnly) { // Container only ignore this project continue; } // An upstream project is blocked if (refStatus.type === ts.UpToDateStatusType.Unbuildable || refStatus.type === ts.UpToDateStatusType.UpstreamBlocked) { return { type: ts.UpToDateStatusType.UpstreamBlocked, upstreamProjectName: ref.path, upstreamProjectBlocked: refStatus.type === ts.UpToDateStatusType.UpstreamBlocked }; } // If the upstream project is out of date, then so are we (someone shouldn't have asked, though?) if (refStatus.type !== ts.UpToDateStatusType.UpToDate) { return { type: ts.UpToDateStatusType.UpstreamOutOfDate, upstreamProjectName: ref.path }; } // Check oldest output file name only if there is no missing output file name if (!missingOutputFileName) { // If the upstream project's newest file is older than our oldest output, we // can't be out of date because of it if (refStatus.newestInputFileTime && refStatus.newestInputFileTime <= oldestOutputFileTime) { continue; } // If the upstream project has only change .d.ts files, and we've built // *after* those files, then we're "psuedo up to date" and eligible for a fast rebuild if (refStatus.newestDeclarationFileContentChangedTime && refStatus.newestDeclarationFileContentChangedTime <= oldestOutputFileTime) { pseudoUpToDate = true; upstreamChangedProject = ref.path; continue; } // We have an output older than an upstream output - we are out of date ts.Debug.assert(oldestOutputFileName !== undefined, "Should have an oldest output filename here"); return { type: ts.UpToDateStatusType.OutOfDateWithUpstream, outOfDateOutputFileName: oldestOutputFileName, newerProjectName: ref.path }; } } } if (missingOutputFileName !== undefined) { return { type: ts.UpToDateStatusType.OutputMissing, missingOutputFileName: missingOutputFileName }; } if (isOutOfDateWithInputs) { return { type: ts.UpToDateStatusType.OutOfDateWithSelf, outOfDateOutputFileName: oldestOutputFileName, newerInputFileName: newestInputFileName }; } else { // Check tsconfig time var configStatus = checkConfigFileUpToDateStatus(state, project.options.configFilePath, oldestOutputFileTime, oldestOutputFileName); if (configStatus) return configStatus; // Check extended config time var extendedConfigStatus = ts.forEach(project.options.configFile.extendedSourceFiles || ts.emptyArray, function (configFile) { return checkConfigFileUpToDateStatus(state, configFile, oldestOutputFileTime, oldestOutputFileName); }); if (extendedConfigStatus) return extendedConfigStatus; } if (!state.buildInfoChecked.has(resolvedPath)) { state.buildInfoChecked.set(resolvedPath, true); var buildInfoPath = ts.getTsBuildInfoEmitOutputFilePath(project.options); if (buildInfoPath) { var value = state.readFileWithCache(buildInfoPath); var buildInfo = value && ts.getBuildInfo(value); if (buildInfo && (buildInfo.bundle || buildInfo.program) && buildInfo.version !== ts.version) { return { type: ts.UpToDateStatusType.TsVersionOutputOfDate, version: buildInfo.version }; } } } if (usesPrepend && pseudoUpToDate) { return { type: ts.UpToDateStatusType.OutOfDateWithPrepend, outOfDateOutputFileName: oldestOutputFileName, newerProjectName: upstreamChangedProject }; } // Up to date return { type: pseudoUpToDate ? ts.UpToDateStatusType.UpToDateWithUpstreamTypes : ts.UpToDateStatusType.UpToDate, newestDeclarationFileContentChangedTime: newestDeclarationFileContentChangedTime, newestInputFileTime: newestInputFileTime, newestOutputFileTime: newestOutputFileTime, newestInputFileName: newestInputFileName, newestOutputFileName: newestOutputFileName, oldestOutputFileName: oldestOutputFileName }; } function getUpToDateStatus(state, project, resolvedPath) { if (project === undefined) { return { type: ts.UpToDateStatusType.Unbuildable, reason: "File deleted mid-build" }; } var prior = state.projectStatus.get(resolvedPath); if (prior !== undefined) { return prior; } var actual = getUpToDateStatusWorker(state, project, resolvedPath); state.projectStatus.set(resolvedPath, actual); return actual; } function updateOutputTimestampsWorker(state, proj, priorNewestUpdateTime, verboseMessage, skipOutputs) { var host = state.host; var outputs = ts.getAllProjectOutputs(proj, !host.useCaseSensitiveFileNames()); if (!skipOutputs || outputs.length !== skipOutputs.size) { var reportVerbose = !!state.options.verbose; var now = host.now ? host.now() : new Date(); for (var _i = 0, outputs_2 = outputs; _i < outputs_2.length; _i++) { var file = outputs_2[_i]; if (skipOutputs && skipOutputs.has(toPath(state, file))) { continue; } if (reportVerbose) { reportVerbose = false; reportStatus(state, verboseMessage, proj.options.configFilePath); } if (isDeclarationFile(file)) { priorNewestUpdateTime = newer(priorNewestUpdateTime, host.getModifiedTime(file) || ts.missingFileModifiedTime); } host.setModifiedTime(file, now); } } return priorNewestUpdateTime; } function updateOutputTimestamps(state, proj, resolvedPath) { if (state.options.dry) { return reportStatus(state, ts.Diagnostics.A_non_dry_build_would_update_timestamps_for_output_of_project_0, proj.options.configFilePath); } var priorNewestUpdateTime = updateOutputTimestampsWorker(state, proj, minimumDate, ts.Diagnostics.Updating_output_timestamps_of_project_0); state.projectStatus.set(resolvedPath, { type: ts.UpToDateStatusType.UpToDate, newestDeclarationFileContentChangedTime: priorNewestUpdateTime, oldestOutputFileName: ts.getFirstProjectOutput(proj, !state.host.useCaseSensitiveFileNames()) }); } function queueReferencingProjects(state, project, projectPath, projectIndex, config, buildOrder, buildResult) { // Queue only if there are no errors if (buildResult & BuildResultFlags.AnyErrors) return; // Only composite projects can be referenced by other projects if (!config.options.composite) return; // Always use build order to queue projects for (var index = projectIndex + 1; index < buildOrder.length; index++) { var nextProject = buildOrder[index]; var nextProjectPath = toResolvedConfigFilePath(state, nextProject); if (state.projectPendingBuild.has(nextProjectPath)) continue; var nextProjectConfig = parseConfigFile(state, nextProject, nextProjectPath); if (!nextProjectConfig || !nextProjectConfig.projectReferences) continue; for (var _i = 0, _a = nextProjectConfig.projectReferences; _i < _a.length; _i++) { var ref = _a[_i]; var resolvedRefPath = resolveProjectName(state, ref.path); if (toResolvedConfigFilePath(state, resolvedRefPath) !== projectPath) continue; // If the project is referenced with prepend, always build downstream projects, // If declaration output is changed, build the project // otherwise mark the project UpToDateWithUpstreamTypes so it updates output time stamps var status = state.projectStatus.get(nextProjectPath); if (status) { switch (status.type) { case ts.UpToDateStatusType.UpToDate: if (buildResult & BuildResultFlags.DeclarationOutputUnchanged) { if (ref.prepend) { state.projectStatus.set(nextProjectPath, { type: ts.UpToDateStatusType.OutOfDateWithPrepend, outOfDateOutputFileName: status.oldestOutputFileName, newerProjectName: project }); } else { status.type = ts.UpToDateStatusType.UpToDateWithUpstreamTypes; } break; } // falls through case ts.UpToDateStatusType.UpToDateWithUpstreamTypes: case ts.UpToDateStatusType.OutOfDateWithPrepend: if (!(buildResult & BuildResultFlags.DeclarationOutputUnchanged)) { state.projectStatus.set(nextProjectPath, { type: ts.UpToDateStatusType.OutOfDateWithUpstream, outOfDateOutputFileName: status.type === ts.UpToDateStatusType.OutOfDateWithPrepend ? status.outOfDateOutputFileName : status.oldestOutputFileName, newerProjectName: project }); } break; case ts.UpToDateStatusType.UpstreamBlocked: if (toResolvedConfigFilePath(state, resolveProjectName(state, status.upstreamProjectName)) === projectPath) { clearProjectStatus(state, nextProjectPath); } break; } } addProjToQueue(state, nextProjectPath, ts.ConfigFileProgramReloadLevel.None); break; } } } function build(state, project, cancellationToken, onlyReferences) { var buildOrder = getBuildOrderFor(state, project, onlyReferences); if (!buildOrder) return ts.ExitStatus.InvalidProject_OutputsSkipped; setupInitialBuild(state, cancellationToken); var reportQueue = true; var successfulProjects = 0; while (true) { var invalidatedProject = getNextInvalidatedProject(state, buildOrder, reportQueue); if (!invalidatedProject) break; reportQueue = false; invalidatedProject.done(cancellationToken); if (!state.diagnostics.has(invalidatedProject.projectPath)) successfulProjects++; } disableCache(state); reportErrorSummary(state, buildOrder); startWatching(state, buildOrder); return isCircularBuildOrder(buildOrder) ? ts.ExitStatus.ProjectReferenceCycle_OutputsSkipped : !buildOrder.some(function (p) { return state.diagnostics.has(toResolvedConfigFilePath(state, p)); }) ? ts.ExitStatus.Success : successfulProjects ? ts.ExitStatus.DiagnosticsPresent_OutputsGenerated : ts.ExitStatus.DiagnosticsPresent_OutputsSkipped; } function clean(state, project, onlyReferences) { var buildOrder = getBuildOrderFor(state, project, onlyReferences); if (!buildOrder) return ts.ExitStatus.InvalidProject_OutputsSkipped; if (isCircularBuildOrder(buildOrder)) { reportErrors(state, buildOrder.circularDiagnostics); return ts.ExitStatus.ProjectReferenceCycle_OutputsSkipped; } var options = state.options, host = state.host; var filesToDelete = options.dry ? [] : undefined; for (var _i = 0, buildOrder_1 = buildOrder; _i < buildOrder_1.length; _i++) { var proj = buildOrder_1[_i]; var resolvedPath = toResolvedConfigFilePath(state, proj); var parsed = parseConfigFile(state, proj, resolvedPath); if (parsed === undefined) { // File has gone missing; fine to ignore here reportParseConfigFileDiagnostic(state, resolvedPath); continue; } var outputs = ts.getAllProjectOutputs(parsed, !host.useCaseSensitiveFileNames()); for (var _a = 0, outputs_3 = outputs; _a < outputs_3.length; _a++) { var output = outputs_3[_a]; if (host.fileExists(output)) { if (filesToDelete) { filesToDelete.push(output); } else { host.deleteFile(output); invalidateProject(state, resolvedPath, ts.ConfigFileProgramReloadLevel.None); } } } } if (filesToDelete) { reportStatus(state, ts.Diagnostics.A_non_dry_build_would_delete_the_following_files_Colon_0, filesToDelete.map(function (f) { return "\r\n * " + f; }).join("")); } return ts.ExitStatus.Success; } function invalidateProject(state, resolved, reloadLevel) { // If host implements getParsedCommandLine, we cant get list of files from parseConfigFileHost if (state.host.getParsedCommandLine && reloadLevel === ts.ConfigFileProgramReloadLevel.Partial) { reloadLevel = ts.ConfigFileProgramReloadLevel.Full; } if (reloadLevel === ts.ConfigFileProgramReloadLevel.Full) { state.configFileCache.delete(resolved); state.buildOrder = undefined; } state.needsSummary = true; clearProjectStatus(state, resolved); addProjToQueue(state, resolved, reloadLevel); enableCache(state); } function invalidateProjectAndScheduleBuilds(state, resolvedPath, reloadLevel) { state.reportFileChangeDetected = true; invalidateProject(state, resolvedPath, reloadLevel); scheduleBuildInvalidatedProject(state); } function scheduleBuildInvalidatedProject(state) { var hostWithWatch = state.hostWithWatch; if (!hostWithWatch.setTimeout || !hostWithWatch.clearTimeout) { return; } if (state.timerToBuildInvalidatedProject) { hostWithWatch.clearTimeout(state.timerToBuildInvalidatedProject); } state.timerToBuildInvalidatedProject = hostWithWatch.setTimeout(buildNextInvalidatedProject, 250, state); } function buildNextInvalidatedProject(state) { state.timerToBuildInvalidatedProject = undefined; if (state.reportFileChangeDetected) { state.reportFileChangeDetected = false; state.projectErrorsReported.clear(); reportWatchStatus(state, ts.Diagnostics.File_change_detected_Starting_incremental_compilation); } var buildOrder = getBuildOrder(state); var invalidatedProject = getNextInvalidatedProject(state, buildOrder, /*reportQueue*/ false); if (invalidatedProject) { invalidatedProject.done(); if (state.projectPendingBuild.size) { // Schedule next project for build if (state.watch && !state.timerToBuildInvalidatedProject) { scheduleBuildInvalidatedProject(state); } return; } } disableCache(state); reportErrorSummary(state, buildOrder); } function watchConfigFile(state, resolved, resolvedPath, parsed) { if (!state.watch || state.allWatchedConfigFiles.has(resolvedPath)) return; state.allWatchedConfigFiles.set(resolvedPath, state.watchFile(state.hostWithWatch, resolved, function () { invalidateProjectAndScheduleBuilds(state, resolvedPath, ts.ConfigFileProgramReloadLevel.Full); }, ts.PollingInterval.High, parsed === null || parsed === void 0 ? void 0 : parsed.watchOptions, ts.WatchType.ConfigFile, resolved)); } function isSameFile(state, file1, file2) { return ts.comparePaths(file1, file2, state.currentDirectory, !state.host.useCaseSensitiveFileNames()) === 0 /* EqualTo */; } function isOutputFile(state, fileName, configFile) { if (configFile.options.noEmit) return false; // ts or tsx files are not output if (!ts.fileExtensionIs(fileName, ".d.ts" /* Dts */) && (ts.fileExtensionIs(fileName, ".ts" /* Ts */) || ts.fileExtensionIs(fileName, ".tsx" /* Tsx */))) { return false; } // If options have --outFile or --out, check if its that var out = configFile.options.outFile || configFile.options.out; if (out && (isSameFile(state, fileName, out) || isSameFile(state, fileName, ts.removeFileExtension(out) + ".d.ts" /* Dts */))) { return true; } // If declarationDir is specified, return if its a file in that directory if (configFile.options.declarationDir && ts.containsPath(configFile.options.declarationDir, fileName, state.currentDirectory, !state.host.useCaseSensitiveFileNames())) { return true; } // If --outDir, check if file is in that directory if (configFile.options.outDir && ts.containsPath(configFile.options.outDir, fileName, state.currentDirectory, !state.host.useCaseSensitiveFileNames())) { return true; } return !ts.forEach(configFile.fileNames, function (inputFile) { return isSameFile(state, fileName, inputFile); }); } function watchWildCardDirectories(state, resolved, resolvedPath, parsed) { if (!state.watch) return; ts.updateWatchingWildcardDirectories(getOrCreateValueMapFromConfigFileMap(state.allWatchedWildcardDirectories, resolvedPath), ts.createMapFromTemplate(parsed.configFileSpecs.wildcardDirectories), function (dir, flags) { return state.watchDirectory(state.hostWithWatch, dir, function (fileOrDirectory) { var fileOrDirectoryPath = toPath(state, fileOrDirectory); if (fileOrDirectoryPath !== toPath(state, dir) && ts.hasExtension(fileOrDirectoryPath) && !ts.isSupportedSourceFileName(fileOrDirectory, parsed.options)) { state.writeLog("Project: " + resolved + " Detected file add/remove of non supported extension: " + fileOrDirectory); return; } if (isOutputFile(state, fileOrDirectory, parsed)) { state.writeLog(fileOrDirectory + " is output file"); return; } invalidateProjectAndScheduleBuilds(state, resolvedPath, ts.ConfigFileProgramReloadLevel.Partial); }, flags, parsed === null || parsed === void 0 ? void 0 : parsed.watchOptions, ts.WatchType.WildcardDirectory, resolved); }); } function watchInputFiles(state, resolved, resolvedPath, parsed) { if (!state.watch) return; ts.mutateMap(getOrCreateValueMapFromConfigFileMap(state.allWatchedInputFiles, resolvedPath), ts.arrayToMap(parsed.fileNames, function (fileName) { return toPath(state, fileName); }), { createNewValue: function (path, input) { return state.watchFilePath(state.hostWithWatch, input, function () { return invalidateProjectAndScheduleBuilds(state, resolvedPath, ts.ConfigFileProgramReloadLevel.None); }, ts.PollingInterval.Low, parsed === null || parsed === void 0 ? void 0 : parsed.watchOptions, path, ts.WatchType.SourceFile, resolved); }, onDeleteValue: ts.closeFileWatcher, }); } function startWatching(state, buildOrder) { if (!state.watchAllProjectsPending) return; state.watchAllProjectsPending = false; for (var _i = 0, _a = getBuildOrderFromAnyBuildOrder(buildOrder); _i < _a.length; _i++) { var resolved = _a[_i]; var resolvedPath = toResolvedConfigFilePath(state, resolved); var cfg = parseConfigFile(state, resolved, resolvedPath); // Watch this file watchConfigFile(state, resolved, resolvedPath, cfg); if (cfg) { // Update watchers for wildcard directories watchWildCardDirectories(state, resolved, resolvedPath, cfg); // Watch input files watchInputFiles(state, resolved, resolvedPath, cfg); } } } function stopWatching(state) { ts.clearMap(state.allWatchedConfigFiles, ts.closeFileWatcher); ts.clearMap(state.allWatchedWildcardDirectories, function (watchedWildcardDirectories) { return ts.clearMap(watchedWildcardDirectories, ts.closeFileWatcherOf); }); ts.clearMap(state.allWatchedInputFiles, function (watchedWildcardDirectories) { return ts.clearMap(watchedWildcardDirectories, ts.closeFileWatcher); }); } function createSolutionBuilderWorker(watch, hostOrHostWithWatch, rootNames, options, baseWatchOptions) { var state = createSolutionBuilderState(watch, hostOrHostWithWatch, rootNames, options, baseWatchOptions); return { build: function (project, cancellationToken) { return build(state, project, cancellationToken); }, clean: function (project) { return clean(state, project); }, buildReferences: function (project, cancellationToken) { return build(state, project, cancellationToken, /*onlyReferences*/ true); }, cleanReferences: function (project) { return clean(state, project, /*onlyReferences*/ true); }, getNextInvalidatedProject: function (cancellationToken) { setupInitialBuild(state, cancellationToken); return getNextInvalidatedProject(state, getBuildOrder(state), /*reportQueue*/ false); }, getBuildOrder: function () { return getBuildOrder(state); }, getUpToDateStatusOfProject: function (project) { var configFileName = resolveProjectName(state, project); var configFilePath = toResolvedConfigFilePath(state, configFileName); return getUpToDateStatus(state, parseConfigFile(state, configFileName, configFilePath), configFilePath); }, invalidateProject: function (configFilePath, reloadLevel) { return invalidateProject(state, configFilePath, reloadLevel || ts.ConfigFileProgramReloadLevel.None); }, buildNextInvalidatedProject: function () { return buildNextInvalidatedProject(state); }, getAllParsedConfigs: function () { return ts.arrayFrom(ts.mapDefinedIterator(state.configFileCache.values(), function (config) { return isParsedCommandLine(config) ? config : undefined; })); }, close: function () { return stopWatching(state); }, }; } function relName(state, path) { return ts.convertToRelativePath(path, state.currentDirectory, function (f) { return state.getCanonicalFileName(f); }); } function reportStatus(state, message) { var args = []; for (var _i = 2; _i < arguments.length; _i++) { args[_i - 2] = arguments[_i]; } state.host.reportSolutionBuilderStatus(ts.createCompilerDiagnostic.apply(void 0, __spreadArrays([message], args))); } function reportWatchStatus(state, message) { var args = []; for (var _i = 2; _i < arguments.length; _i++) { args[_i - 2] = arguments[_i]; } if (state.hostWithWatch.onWatchStatusChange) { state.hostWithWatch.onWatchStatusChange(ts.createCompilerDiagnostic.apply(void 0, __spreadArrays([message], args)), state.host.getNewLine(), state.baseCompilerOptions); } } function reportErrors(_a, errors) { var host = _a.host; errors.forEach(function (err) { return host.reportDiagnostic(err); }); } function reportAndStoreErrors(state, proj, errors) { reportErrors(state, errors); state.projectErrorsReported.set(proj, true); if (errors.length) { state.diagnostics.set(proj, errors); } } function reportParseConfigFileDiagnostic(state, proj) { reportAndStoreErrors(state, proj, [state.configFileCache.get(proj)]); } function reportErrorSummary(state, buildOrder) { if (!state.needsSummary) return; state.needsSummary = false; var canReportSummary = state.watch || !!state.host.reportErrorSummary; var diagnostics = state.diagnostics; var totalErrors = 0; if (isCircularBuildOrder(buildOrder)) { reportBuildQueue(state, buildOrder.buildOrder); reportErrors(state, buildOrder.circularDiagnostics); if (canReportSummary) totalErrors += ts.getErrorCountForSummary(buildOrder.circularDiagnostics); } else { // Report errors from the other projects buildOrder.forEach(function (project) { var projectPath = toResolvedConfigFilePath(state, project); if (!state.projectErrorsReported.has(projectPath)) { reportErrors(state, diagnostics.get(projectPath) || ts.emptyArray); } }); if (canReportSummary) diagnostics.forEach(function (singleProjectErrors) { return totalErrors += ts.getErrorCountForSummary(singleProjectErrors); }); } if (state.watch) { reportWatchStatus(state, ts.getWatchErrorSummaryDiagnosticMessage(totalErrors), totalErrors); } else if (state.host.reportErrorSummary) { state.host.reportErrorSummary(totalErrors); } } /** * Report the build ordering inferred from the current project graph if we're in verbose mode */ function reportBuildQueue(state, buildQueue) { if (state.options.verbose) { reportStatus(state, ts.Diagnostics.Projects_in_this_build_Colon_0, buildQueue.map(function (s) { return "\r\n * " + relName(state, s); }).join("")); } } function reportUpToDateStatus(state, configFileName, status) { switch (status.type) { case ts.UpToDateStatusType.OutOfDateWithSelf: return reportStatus(state, ts.Diagnostics.Project_0_is_out_of_date_because_oldest_output_1_is_older_than_newest_input_2, relName(state, configFileName), relName(state, status.outOfDateOutputFileName), relName(state, status.newerInputFileName)); case ts.UpToDateStatusType.OutOfDateWithUpstream: return reportStatus(state, ts.Diagnostics.Project_0_is_out_of_date_because_oldest_output_1_is_older_than_newest_input_2, relName(state, configFileName), relName(state, status.outOfDateOutputFileName), relName(state, status.newerProjectName)); case ts.UpToDateStatusType.OutputMissing: return reportStatus(state, ts.Diagnostics.Project_0_is_out_of_date_because_output_file_1_does_not_exist, relName(state, configFileName), relName(state, status.missingOutputFileName)); case ts.UpToDateStatusType.UpToDate: if (status.newestInputFileTime !== undefined) { return reportStatus(state, ts.Diagnostics.Project_0_is_up_to_date_because_newest_input_1_is_older_than_oldest_output_2, relName(state, configFileName), relName(state, status.newestInputFileName || ""), relName(state, status.oldestOutputFileName || "")); } // Don't report anything for "up to date because it was already built" -- too verbose break; case ts.UpToDateStatusType.OutOfDateWithPrepend: return reportStatus(state, ts.Diagnostics.Project_0_is_out_of_date_because_output_of_its_dependency_1_has_changed, relName(state, configFileName), relName(state, status.newerProjectName)); case ts.UpToDateStatusType.UpToDateWithUpstreamTypes: return reportStatus(state, ts.Diagnostics.Project_0_is_up_to_date_with_d_ts_files_from_its_dependencies, relName(state, configFileName)); case ts.UpToDateStatusType.UpstreamOutOfDate: return reportStatus(state, ts.Diagnostics.Project_0_is_out_of_date_because_its_dependency_1_is_out_of_date, relName(state, configFileName), relName(state, status.upstreamProjectName)); case ts.UpToDateStatusType.UpstreamBlocked: return reportStatus(state, status.upstreamProjectBlocked ? ts.Diagnostics.Project_0_can_t_be_built_because_its_dependency_1_was_not_built : ts.Diagnostics.Project_0_can_t_be_built_because_its_dependency_1_has_errors, relName(state, configFileName), relName(state, status.upstreamProjectName)); case ts.UpToDateStatusType.Unbuildable: return reportStatus(state, ts.Diagnostics.Failed_to_parse_file_0_Colon_1, relName(state, configFileName), status.reason); case ts.UpToDateStatusType.TsVersionOutputOfDate: return reportStatus(state, ts.Diagnostics.Project_0_is_out_of_date_because_output_for_it_was_generated_with_version_1_that_differs_with_current_version_2, relName(state, configFileName), status.version, ts.version); case ts.UpToDateStatusType.ContainerOnly: // Don't report status on "solution" projects // falls through case ts.UpToDateStatusType.ComputingUpstream: // Should never leak from getUptoDateStatusWorker break; default: ts.assertType(status); } } /** * Report the up-to-date status of a project if we're in verbose mode */ function verboseReportProjectStatus(state, configFileName, status) { if (state.options.verbose) { reportUpToDateStatus(state, configFileName, status); } } })(ts || (ts = {})); var ts; (function (ts) { var server; (function (server) { /* @internal */ server.ActionSet = "action::set"; /* @internal */ server.ActionInvalidate = "action::invalidate"; /* @internal */ server.ActionPackageInstalled = "action::packageInstalled"; /* @internal */ server.EventTypesRegistry = "event::typesRegistry"; /* @internal */ server.EventBeginInstallTypes = "event::beginInstallTypes"; /* @internal */ server.EventEndInstallTypes = "event::endInstallTypes"; /* @internal */ server.EventInitializationFailed = "event::initializationFailed"; /* @internal */ var Arguments; (function (Arguments) { Arguments.GlobalCacheLocation = "--globalTypingsCacheLocation"; Arguments.LogFile = "--logFile"; Arguments.EnableTelemetry = "--enableTelemetry"; Arguments.TypingSafeListLocation = "--typingSafeListLocation"; Arguments.TypesMapLocation = "--typesMapLocation"; /** * This argument specifies the location of the NPM executable. * typingsInstaller will run the command with `${npmLocation} install ...`. */ Arguments.NpmLocation = "--npmLocation"; /** * Flag indicating that the typings installer should try to validate the default npm location. * If the default npm is not found when this flag is enabled, fallback to `npm install` */ Arguments.ValidateDefaultNpmLocation = "--validateDefaultNpmLocation"; })(Arguments = server.Arguments || (server.Arguments = {})); /* @internal */ function hasArgument(argumentName) { return ts.sys.args.indexOf(argumentName) >= 0; } server.hasArgument = hasArgument; /* @internal */ function findArgument(argumentName) { var index = ts.sys.args.indexOf(argumentName); return index >= 0 && index < ts.sys.args.length - 1 ? ts.sys.args[index + 1] : undefined; } server.findArgument = findArgument; /* @internal */ function nowString() { // E.g. "12:34:56.789" var d = new Date(); return d.getHours() + ":" + d.getMinutes() + ":" + d.getSeconds() + "." + d.getMilliseconds(); } server.nowString = nowString; })(server = ts.server || (ts.server = {})); })(ts || (ts = {})); /* @internal */ var ts; (function (ts) { var JsTyping; (function (JsTyping) { function isTypingUpToDate(cachedTyping, availableTypingVersions) { var availableVersion = new ts.Version(ts.getProperty(availableTypingVersions, "ts" + ts.versionMajorMinor) || ts.getProperty(availableTypingVersions, "latest")); return availableVersion.compareTo(cachedTyping.version) <= 0; } JsTyping.isTypingUpToDate = isTypingUpToDate; JsTyping.nodeCoreModuleList = [ "assert", "async_hooks", "buffer", "child_process", "cluster", "console", "constants", "crypto", "dgram", "dns", "domain", "events", "fs", "http", "https", "http2", "inspector", "net", "os", "path", "perf_hooks", "process", "punycode", "querystring", "readline", "repl", "stream", "string_decoder", "timers", "tls", "tty", "url", "util", "v8", "vm", "zlib" ]; JsTyping.nodeCoreModules = ts.arrayToSet(JsTyping.nodeCoreModuleList); function nonRelativeModuleNameForTypingCache(moduleName) { return JsTyping.nodeCoreModules.has(moduleName) ? "node" : moduleName; } JsTyping.nonRelativeModuleNameForTypingCache = nonRelativeModuleNameForTypingCache; function loadSafeList(host, safeListPath) { var result = ts.readConfigFile(safeListPath, function (path) { return host.readFile(path); }); return ts.createMapFromTemplate(result.config); } JsTyping.loadSafeList = loadSafeList; function loadTypesMap(host, typesMapPath) { var result = ts.readConfigFile(typesMapPath, function (path) { return host.readFile(path); }); if (result.config) { return ts.createMapFromTemplate(result.config.simpleMap); } return undefined; } JsTyping.loadTypesMap = loadTypesMap; /** * @param host is the object providing I/O related operations. * @param fileNames are the file names that belong to the same project * @param projectRootPath is the path to the project root directory * @param safeListPath is the path used to retrieve the safe list * @param packageNameToTypingLocation is the map of package names to their cached typing locations and installed versions * @param typeAcquisition is used to customize the typing acquisition process * @param compilerOptions are used as a source for typing inference */ function discoverTypings(host, log, fileNames, projectRootPath, safeList, packageNameToTypingLocation, typeAcquisition, unresolvedImports, typesRegistry) { if (!typeAcquisition || !typeAcquisition.enable) { return { cachedTypingPaths: [], newTypingNames: [], filesToWatch: [] }; } // A typing name to typing file path mapping var inferredTypings = ts.createMap(); // Only infer typings for .js and .jsx files fileNames = ts.mapDefined(fileNames, function (fileName) { var path = ts.normalizePath(fileName); if (ts.hasJSFileExtension(path)) { return path; } }); var filesToWatch = []; if (typeAcquisition.include) addInferredTypings(typeAcquisition.include, "Explicitly included types"); var exclude = typeAcquisition.exclude || []; // Directories to search for package.json, bower.json and other typing information var possibleSearchDirs = ts.arrayToSet(fileNames, ts.getDirectoryPath); possibleSearchDirs.set(projectRootPath, true); possibleSearchDirs.forEach(function (_true, searchDir) { var packageJsonPath = ts.combinePaths(searchDir, "package.json"); getTypingNamesFromJson(packageJsonPath, filesToWatch); var bowerJsonPath = ts.combinePaths(searchDir, "bower.json"); getTypingNamesFromJson(bowerJsonPath, filesToWatch); var bowerComponentsPath = ts.combinePaths(searchDir, "bower_components"); getTypingNamesFromPackagesFolder(bowerComponentsPath, filesToWatch); var nodeModulesPath = ts.combinePaths(searchDir, "node_modules"); getTypingNamesFromPackagesFolder(nodeModulesPath, filesToWatch); }); getTypingNamesFromSourceFileNames(fileNames); // add typings for unresolved imports if (unresolvedImports) { var module_1 = ts.deduplicate(unresolvedImports.map(nonRelativeModuleNameForTypingCache), ts.equateStringsCaseSensitive, ts.compareStringsCaseSensitive); addInferredTypings(module_1, "Inferred typings from unresolved imports"); } // Add the cached typing locations for inferred typings that are already installed packageNameToTypingLocation.forEach(function (typing, name) { var registryEntry = typesRegistry.get(name); if (inferredTypings.has(name) && inferredTypings.get(name) === undefined && registryEntry !== undefined && isTypingUpToDate(typing, registryEntry)) { inferredTypings.set(name, typing.typingLocation); } }); // Remove typings that the user has added to the exclude list for (var _i = 0, exclude_1 = exclude; _i < exclude_1.length; _i++) { var excludeTypingName = exclude_1[_i]; var didDelete = inferredTypings.delete(excludeTypingName); if (didDelete && log) log("Typing for " + excludeTypingName + " is in exclude list, will be ignored."); } var newTypingNames = []; var cachedTypingPaths = []; inferredTypings.forEach(function (inferred, typing) { if (inferred !== undefined) { cachedTypingPaths.push(inferred); } else { newTypingNames.push(typing); } }); var result = { cachedTypingPaths: cachedTypingPaths, newTypingNames: newTypingNames, filesToWatch: filesToWatch }; if (log) log("Result: " + JSON.stringify(result)); return result; function addInferredTyping(typingName) { if (!inferredTypings.has(typingName)) { inferredTypings.set(typingName, undefined); // TODO: GH#18217 } } function addInferredTypings(typingNames, message) { if (log) log(message + ": " + JSON.stringify(typingNames)); ts.forEach(typingNames, addInferredTyping); } /** * Get the typing info from common package manager json files like package.json or bower.json */ function getTypingNamesFromJson(jsonPath, filesToWatch) { if (!host.fileExists(jsonPath)) { return; } filesToWatch.push(jsonPath); var jsonConfig = ts.readConfigFile(jsonPath, function (path) { return host.readFile(path); }).config; var jsonTypingNames = ts.flatMap([jsonConfig.dependencies, jsonConfig.devDependencies, jsonConfig.optionalDependencies, jsonConfig.peerDependencies], ts.getOwnKeys); addInferredTypings(jsonTypingNames, "Typing names in '" + jsonPath + "' dependencies"); } /** * Infer typing names from given file names. For example, the file name "jquery-min.2.3.4.js" * should be inferred to the 'jquery' typing name; and "angular-route.1.2.3.js" should be inferred * to the 'angular-route' typing name. * @param fileNames are the names for source files in the project */ function getTypingNamesFromSourceFileNames(fileNames) { var fromFileNames = ts.mapDefined(fileNames, function (j) { if (!ts.hasJSFileExtension(j)) return undefined; var inferredTypingName = ts.removeFileExtension(ts.getBaseFileName(j.toLowerCase())); var cleanedTypingName = ts.removeMinAndVersionNumbers(inferredTypingName); return safeList.get(cleanedTypingName); }); if (fromFileNames.length) { addInferredTypings(fromFileNames, "Inferred typings from file names"); } var hasJsxFile = ts.some(fileNames, function (f) { return ts.fileExtensionIs(f, ".jsx" /* Jsx */); }); if (hasJsxFile) { if (log) log("Inferred 'react' typings due to presence of '.jsx' extension"); addInferredTyping("react"); } } /** * Infer typing names from packages folder (ex: node_module, bower_components) * @param packagesFolderPath is the path to the packages folder */ function getTypingNamesFromPackagesFolder(packagesFolderPath, filesToWatch) { filesToWatch.push(packagesFolderPath); // Todo: add support for ModuleResolutionHost too if (!host.directoryExists(packagesFolderPath)) { return; } // depth of 2, so we access `node_modules/foo` but not `node_modules/foo/bar` var fileNames = host.readDirectory(packagesFolderPath, [".json" /* Json */], /*excludes*/ undefined, /*includes*/ undefined, /*depth*/ 2); if (log) log("Searching for typing names in " + packagesFolderPath + "; all files: " + JSON.stringify(fileNames)); var packageNames = []; for (var _i = 0, fileNames_1 = fileNames; _i < fileNames_1.length; _i++) { var fileName = fileNames_1[_i]; var normalizedFileName = ts.normalizePath(fileName); var baseFileName = ts.getBaseFileName(normalizedFileName); if (baseFileName !== "package.json" && baseFileName !== "bower.json") { continue; } var result_1 = ts.readConfigFile(normalizedFileName, function (path) { return host.readFile(path); }); var packageJson = result_1.config; // npm 3's package.json contains a "_requiredBy" field // we should include all the top level module names for npm 2, and only module names whose // "_requiredBy" field starts with "#" or equals "/" for npm 3. if (baseFileName === "package.json" && packageJson._requiredBy && ts.filter(packageJson._requiredBy, function (r) { return r[0] === "#" || r === "/"; }).length === 0) { continue; } // If the package has its own d.ts typings, those will take precedence. Otherwise the package name will be used // to download d.ts files from DefinitelyTyped if (!packageJson.name) { continue; } var ownTypes = packageJson.types || packageJson.typings; if (ownTypes) { var absolutePath = ts.getNormalizedAbsolutePath(ownTypes, ts.getDirectoryPath(normalizedFileName)); if (log) log(" Package '" + packageJson.name + "' provides its own types."); inferredTypings.set(packageJson.name, absolutePath); } else { packageNames.push(packageJson.name); } } addInferredTypings(packageNames, " Found package names"); } } JsTyping.discoverTypings = discoverTypings; var NameValidationResult; (function (NameValidationResult) { NameValidationResult[NameValidationResult["Ok"] = 0] = "Ok"; NameValidationResult[NameValidationResult["EmptyName"] = 1] = "EmptyName"; NameValidationResult[NameValidationResult["NameTooLong"] = 2] = "NameTooLong"; NameValidationResult[NameValidationResult["NameStartsWithDot"] = 3] = "NameStartsWithDot"; NameValidationResult[NameValidationResult["NameStartsWithUnderscore"] = 4] = "NameStartsWithUnderscore"; NameValidationResult[NameValidationResult["NameContainsNonURISafeCharacters"] = 5] = "NameContainsNonURISafeCharacters"; })(NameValidationResult = JsTyping.NameValidationResult || (JsTyping.NameValidationResult = {})); var maxPackageNameLength = 214; /** * Validates package name using rules defined at https://docs.npmjs.com/files/package.json */ function validatePackageName(packageName) { return validatePackageNameWorker(packageName, /*supportScopedPackage*/ true); } JsTyping.validatePackageName = validatePackageName; function validatePackageNameWorker(packageName, supportScopedPackage) { if (!packageName) { return 1 /* EmptyName */; } if (packageName.length > maxPackageNameLength) { return 2 /* NameTooLong */; } if (packageName.charCodeAt(0) === 46 /* dot */) { return 3 /* NameStartsWithDot */; } if (packageName.charCodeAt(0) === 95 /* _ */) { return 4 /* NameStartsWithUnderscore */; } // check if name is scope package like: starts with @ and has one '/' in the middle // scoped packages are not currently supported if (supportScopedPackage) { var matches = /^@([^/]+)\/([^/]+)$/.exec(packageName); if (matches) { var scopeResult = validatePackageNameWorker(matches[1], /*supportScopedPackage*/ false); if (scopeResult !== 0 /* Ok */) { return { name: matches[1], isScopeName: true, result: scopeResult }; } var packageResult = validatePackageNameWorker(matches[2], /*supportScopedPackage*/ false); if (packageResult !== 0 /* Ok */) { return { name: matches[2], isScopeName: false, result: packageResult }; } return 0 /* Ok */; } } if (encodeURIComponent(packageName) !== packageName) { return 5 /* NameContainsNonURISafeCharacters */; } return 0 /* Ok */; } function renderPackageNameValidationFailure(result, typing) { return typeof result === "object" ? renderPackageNameValidationFailureWorker(typing, result.result, result.name, result.isScopeName) : renderPackageNameValidationFailureWorker(typing, result, typing, /*isScopeName*/ false); } JsTyping.renderPackageNameValidationFailure = renderPackageNameValidationFailure; function renderPackageNameValidationFailureWorker(typing, result, name, isScopeName) { var kind = isScopeName ? "Scope" : "Package"; switch (result) { case 1 /* EmptyName */: return "'" + typing + "':: " + kind + " name '" + name + "' cannot be empty"; case 2 /* NameTooLong */: return "'" + typing + "':: " + kind + " name '" + name + "' should be less than " + maxPackageNameLength + " characters"; case 3 /* NameStartsWithDot */: return "'" + typing + "':: " + kind + " name '" + name + "' cannot start with '.'"; case 4 /* NameStartsWithUnderscore */: return "'" + typing + "':: " + kind + " name '" + name + "' cannot start with '_'"; case 5 /* NameContainsNonURISafeCharacters */: return "'" + typing + "':: " + kind + " name '" + name + "' contains non URI safe characters"; case 0 /* Ok */: return ts.Debug.fail(); // Shouldn't have called this. default: throw ts.Debug.assertNever(result); } } })(JsTyping = ts.JsTyping || (ts.JsTyping = {})); })(ts || (ts = {})); var ts; (function (ts) { var server; (function (server) { var typingsInstaller; (function (typingsInstaller) { var nullLog = { isEnabled: function () { return false; }, writeLine: ts.noop }; function typingToFileName(cachePath, packageName, installTypingHost, log) { try { var result = ts.resolveModuleName(packageName, ts.combinePaths(cachePath, "index.d.ts"), { moduleResolution: ts.ModuleResolutionKind.NodeJs }, installTypingHost); return result.resolvedModule && result.resolvedModule.resolvedFileName; } catch (e) { if (log.isEnabled()) { log.writeLine("Failed to resolve " + packageName + " in folder '" + cachePath + "': " + e.message); } return undefined; } } /*@internal*/ function installNpmPackages(npmPath, tsVersion, packageNames, install) { var hasError = false; for (var remaining = packageNames.length; remaining > 0;) { var result = getNpmCommandForInstallation(npmPath, tsVersion, packageNames, remaining); remaining = result.remaining; hasError = install(result.command) || hasError; } return hasError; } typingsInstaller.installNpmPackages = installNpmPackages; /*@internal*/ function getNpmCommandForInstallation(npmPath, tsVersion, packageNames, remaining) { var sliceStart = packageNames.length - remaining; var command, toSlice = remaining; while (true) { command = npmPath + " install --ignore-scripts " + (toSlice === packageNames.length ? packageNames : packageNames.slice(sliceStart, sliceStart + toSlice)).join(" ") + " --save-dev --user-agent=\"typesInstaller/" + tsVersion + "\""; if (command.length < 8000) { break; } toSlice = toSlice - Math.floor(toSlice / 2); } return { command: command, remaining: remaining - toSlice }; } typingsInstaller.getNpmCommandForInstallation = getNpmCommandForInstallation; function endsWith(str, suffix, caseSensitive) { var expectedPos = str.length - suffix.length; return expectedPos >= 0 && (str.indexOf(suffix, expectedPos) === expectedPos || (!caseSensitive && ts.compareStringsCaseInsensitive(str.substr(expectedPos), suffix) === 0 /* EqualTo */)); } function isPackageOrBowerJson(fileName, caseSensitive) { return endsWith(fileName, "/package.json", caseSensitive) || endsWith(fileName, "/bower.json", caseSensitive); } function sameFiles(a, b, caseSensitive) { return a === b || (!caseSensitive && ts.compareStringsCaseInsensitive(a, b) === 0 /* EqualTo */); } var ProjectWatcherType; (function (ProjectWatcherType) { ProjectWatcherType["FileWatcher"] = "FileWatcher"; ProjectWatcherType["DirectoryWatcher"] = "DirectoryWatcher"; })(ProjectWatcherType || (ProjectWatcherType = {})); var TypingsInstaller = /** @class */ (function () { function TypingsInstaller(installTypingHost, globalCachePath, safeListPath, typesMapLocation, throttleLimit, log) { if (log === void 0) { log = nullLog; } this.installTypingHost = installTypingHost; this.globalCachePath = globalCachePath; this.safeListPath = safeListPath; this.typesMapLocation = typesMapLocation; this.throttleLimit = throttleLimit; this.log = log; this.packageNameToTypingLocation = ts.createMap(); this.missingTypingsSet = ts.createMap(); this.knownCachesSet = ts.createMap(); this.projectWatchers = ts.createMap(); this.pendingRunRequests = []; this.installRunCount = 1; this.inFlightRequestCount = 0; this.latestDistTag = "latest"; this.toCanonicalFileName = ts.createGetCanonicalFileName(installTypingHost.useCaseSensitiveFileNames); this.globalCachePackageJsonPath = ts.combinePaths(globalCachePath, "package.json"); if (this.log.isEnabled()) { this.log.writeLine("Global cache location '" + globalCachePath + "', safe file path '" + safeListPath + "', types map path " + typesMapLocation); } this.processCacheLocation(this.globalCachePath); } TypingsInstaller.prototype.closeProject = function (req) { this.closeWatchers(req.projectName); }; TypingsInstaller.prototype.closeWatchers = function (projectName) { if (this.log.isEnabled()) { this.log.writeLine("Closing file watchers for project '" + projectName + "'"); } var watchers = this.projectWatchers.get(projectName); if (!watchers) { if (this.log.isEnabled()) { this.log.writeLine("No watchers are registered for project '" + projectName + "'"); } return; } ts.clearMap(watchers, ts.closeFileWatcher); this.projectWatchers.delete(projectName); if (this.log.isEnabled()) { this.log.writeLine("Closing file watchers for project '" + projectName + "' - done."); } }; TypingsInstaller.prototype.install = function (req) { var _this = this; if (this.log.isEnabled()) { this.log.writeLine("Got install request " + JSON.stringify(req)); } // load existing typing information from the cache if (req.cachePath) { if (this.log.isEnabled()) { this.log.writeLine("Request specifies cache path '" + req.cachePath + "', loading cached information..."); } this.processCacheLocation(req.cachePath); } if (this.safeList === undefined) { this.initializeSafeList(); } var discoverTypingsResult = ts.JsTyping.discoverTypings(this.installTypingHost, this.log.isEnabled() ? (function (s) { return _this.log.writeLine(s); }) : undefined, req.fileNames, req.projectRootPath, this.safeList, this.packageNameToTypingLocation, req.typeAcquisition, req.unresolvedImports, this.typesRegistry); if (this.log.isEnabled()) { this.log.writeLine("Finished typings discovery: " + JSON.stringify(discoverTypingsResult)); } // start watching files this.watchFiles(req.projectName, discoverTypingsResult.filesToWatch, req.projectRootPath, req.watchOptions); // install typings if (discoverTypingsResult.newTypingNames.length) { this.installTypings(req, req.cachePath || this.globalCachePath, discoverTypingsResult.cachedTypingPaths, discoverTypingsResult.newTypingNames); } else { this.sendResponse(this.createSetTypings(req, discoverTypingsResult.cachedTypingPaths)); if (this.log.isEnabled()) { this.log.writeLine("No new typings were requested as a result of typings discovery"); } } }; TypingsInstaller.prototype.initializeSafeList = function () { // Prefer the safe list from the types map if it exists if (this.typesMapLocation) { var safeListFromMap = ts.JsTyping.loadTypesMap(this.installTypingHost, this.typesMapLocation); if (safeListFromMap) { this.log.writeLine("Loaded safelist from types map file '" + this.typesMapLocation + "'"); this.safeList = safeListFromMap; return; } this.log.writeLine("Failed to load safelist from types map file '" + this.typesMapLocation + "'"); } this.safeList = ts.JsTyping.loadSafeList(this.installTypingHost, this.safeListPath); }; TypingsInstaller.prototype.processCacheLocation = function (cacheLocation) { if (this.log.isEnabled()) { this.log.writeLine("Processing cache location '" + cacheLocation + "'"); } if (this.knownCachesSet.has(cacheLocation)) { if (this.log.isEnabled()) { this.log.writeLine("Cache location was already processed..."); } return; } var packageJson = ts.combinePaths(cacheLocation, "package.json"); var packageLockJson = ts.combinePaths(cacheLocation, "package-lock.json"); if (this.log.isEnabled()) { this.log.writeLine("Trying to find '" + packageJson + "'..."); } if (this.installTypingHost.fileExists(packageJson) && this.installTypingHost.fileExists(packageLockJson)) { var npmConfig = JSON.parse(this.installTypingHost.readFile(packageJson)); // TODO: GH#18217 var npmLock = JSON.parse(this.installTypingHost.readFile(packageLockJson)); // TODO: GH#18217 if (this.log.isEnabled()) { this.log.writeLine("Loaded content of '" + packageJson + "': " + JSON.stringify(npmConfig)); this.log.writeLine("Loaded content of '" + packageLockJson + "'"); } if (npmConfig.devDependencies && npmLock.dependencies) { for (var key in npmConfig.devDependencies) { if (!ts.hasProperty(npmLock.dependencies, key)) { // if package in package.json but not package-lock.json, skip adding to cache so it is reinstalled on next use continue; } // key is @types/ var packageName = ts.getBaseFileName(key); if (!packageName) { continue; } var typingFile = typingToFileName(cacheLocation, packageName, this.installTypingHost, this.log); if (!typingFile) { this.missingTypingsSet.set(packageName, true); continue; } var existingTypingFile = this.packageNameToTypingLocation.get(packageName); if (existingTypingFile) { if (existingTypingFile.typingLocation === typingFile) { continue; } if (this.log.isEnabled()) { this.log.writeLine("New typing for package " + packageName + " from '" + typingFile + "' conflicts with existing typing file '" + existingTypingFile + "'"); } } if (this.log.isEnabled()) { this.log.writeLine("Adding entry into typings cache: '" + packageName + "' => '" + typingFile + "'"); } var info = ts.getProperty(npmLock.dependencies, key); var version_1 = info && info.version; if (!version_1) { continue; } var newTyping = { typingLocation: typingFile, version: new ts.Version(version_1) }; this.packageNameToTypingLocation.set(packageName, newTyping); } } } if (this.log.isEnabled()) { this.log.writeLine("Finished processing cache location '" + cacheLocation + "'"); } this.knownCachesSet.set(cacheLocation, true); }; TypingsInstaller.prototype.filterTypings = function (typingsToInstall) { var _this = this; return ts.mapDefined(typingsToInstall, function (typing) { var typingKey = ts.mangleScopedPackageName(typing); if (_this.missingTypingsSet.get(typingKey)) { if (_this.log.isEnabled()) _this.log.writeLine("'" + typing + "':: '" + typingKey + "' is in missingTypingsSet - skipping..."); return undefined; } var validationResult = ts.JsTyping.validatePackageName(typing); if (validationResult !== 0 /* Ok */) { // add typing name to missing set so we won't process it again _this.missingTypingsSet.set(typingKey, true); if (_this.log.isEnabled()) _this.log.writeLine(ts.JsTyping.renderPackageNameValidationFailure(validationResult, typing)); return undefined; } if (!_this.typesRegistry.has(typingKey)) { if (_this.log.isEnabled()) _this.log.writeLine("'" + typing + "':: Entry for package '" + typingKey + "' does not exist in local types registry - skipping..."); return undefined; } if (_this.packageNameToTypingLocation.get(typingKey) && ts.JsTyping.isTypingUpToDate(_this.packageNameToTypingLocation.get(typingKey), _this.typesRegistry.get(typingKey))) { if (_this.log.isEnabled()) _this.log.writeLine("'" + typing + "':: '" + typingKey + "' already has an up-to-date typing - skipping..."); return undefined; } return typingKey; }); }; TypingsInstaller.prototype.ensurePackageDirectoryExists = function (directory) { var npmConfigPath = ts.combinePaths(directory, "package.json"); if (this.log.isEnabled()) { this.log.writeLine("Npm config file: " + npmConfigPath); } if (!this.installTypingHost.fileExists(npmConfigPath)) { if (this.log.isEnabled()) { this.log.writeLine("Npm config file: '" + npmConfigPath + "' is missing, creating new one..."); } this.ensureDirectoryExists(directory, this.installTypingHost); this.installTypingHost.writeFile(npmConfigPath, '{ "private": true }'); } }; TypingsInstaller.prototype.installTypings = function (req, cachePath, currentlyCachedTypings, typingsToInstall) { var _this = this; if (this.log.isEnabled()) { this.log.writeLine("Installing typings " + JSON.stringify(typingsToInstall)); } var filteredTypings = this.filterTypings(typingsToInstall); if (filteredTypings.length === 0) { if (this.log.isEnabled()) { this.log.writeLine("All typings are known to be missing or invalid - no need to install more typings"); } this.sendResponse(this.createSetTypings(req, currentlyCachedTypings)); return; } this.ensurePackageDirectoryExists(cachePath); var requestId = this.installRunCount; this.installRunCount++; // send progress event this.sendResponse({ kind: server.EventBeginInstallTypes, eventId: requestId, // qualified explicitly to prevent occasional shadowing // eslint-disable-next-line @typescript-eslint/no-unnecessary-qualifier typingsInstallerVersion: ts.version, projectName: req.projectName }); var scopedTypings = filteredTypings.map(typingsName); this.installTypingsAsync(requestId, scopedTypings, cachePath, function (ok) { try { if (!ok) { if (_this.log.isEnabled()) { _this.log.writeLine("install request failed, marking packages as missing to prevent repeated requests: " + JSON.stringify(filteredTypings)); } for (var _i = 0, filteredTypings_1 = filteredTypings; _i < filteredTypings_1.length; _i++) { var typing = filteredTypings_1[_i]; _this.missingTypingsSet.set(typing, true); } return; } // TODO: watch project directory if (_this.log.isEnabled()) { _this.log.writeLine("Installed typings " + JSON.stringify(scopedTypings)); } var installedTypingFiles = []; for (var _a = 0, filteredTypings_2 = filteredTypings; _a < filteredTypings_2.length; _a++) { var packageName = filteredTypings_2[_a]; var typingFile = typingToFileName(cachePath, packageName, _this.installTypingHost, _this.log); if (!typingFile) { _this.missingTypingsSet.set(packageName, true); continue; } // packageName is guaranteed to exist in typesRegistry by filterTypings var distTags = _this.typesRegistry.get(packageName); var newVersion = new ts.Version(distTags["ts" + ts.versionMajorMinor] || distTags[_this.latestDistTag]); var newTyping = { typingLocation: typingFile, version: newVersion }; _this.packageNameToTypingLocation.set(packageName, newTyping); installedTypingFiles.push(typingFile); } if (_this.log.isEnabled()) { _this.log.writeLine("Installed typing files " + JSON.stringify(installedTypingFiles)); } _this.sendResponse(_this.createSetTypings(req, currentlyCachedTypings.concat(installedTypingFiles))); } finally { var response = { kind: server.EventEndInstallTypes, eventId: requestId, projectName: req.projectName, packagesToInstall: scopedTypings, installSuccess: ok, // qualified explicitly to prevent occasional shadowing // eslint-disable-next-line @typescript-eslint/no-unnecessary-qualifier typingsInstallerVersion: ts.version }; _this.sendResponse(response); } }); }; TypingsInstaller.prototype.ensureDirectoryExists = function (directory, host) { var directoryName = ts.getDirectoryPath(directory); if (!host.directoryExists(directoryName)) { this.ensureDirectoryExists(directoryName, host); } if (!host.directoryExists(directory)) { host.createDirectory(directory); } }; TypingsInstaller.prototype.watchFiles = function (projectName, files, projectRootPath, options) { var _this = this; if (!files.length) { // shut down existing watchers this.closeWatchers(projectName); return; } var watchers = this.projectWatchers.get(projectName); var toRemove = ts.createMap(); if (!watchers) { watchers = ts.createMap(); this.projectWatchers.set(projectName, watchers); } else { ts.copyEntries(watchers, toRemove); } // handler should be invoked once for the entire set of files since it will trigger full rediscovery of typings watchers.isInvoked = false; var isLoggingEnabled = this.log.isEnabled(); var createProjectWatcher = function (path, projectWatcherType) { var canonicalPath = _this.toCanonicalFileName(path); toRemove.delete(canonicalPath); if (watchers.has(canonicalPath)) { return; } if (isLoggingEnabled) { _this.log.writeLine(projectWatcherType + ":: Added:: WatchInfo: " + path); } var watcher = projectWatcherType === "FileWatcher" /* FileWatcher */ ? _this.installTypingHost.watchFile(path, function (f, eventKind) { if (isLoggingEnabled) { _this.log.writeLine("FileWatcher:: Triggered with " + f + " eventKind: " + ts.FileWatcherEventKind[eventKind] + ":: WatchInfo: " + path + ":: handler is already invoked '" + watchers.isInvoked + "'"); } if (!watchers.isInvoked) { watchers.isInvoked = true; _this.sendResponse({ projectName: projectName, kind: server.ActionInvalidate }); } }, /*pollingInterval*/ 2000, options) : _this.installTypingHost.watchDirectory(path, function (f) { if (isLoggingEnabled) { _this.log.writeLine("DirectoryWatcher:: Triggered with " + f + " :: WatchInfo: " + path + " recursive :: handler is already invoked '" + watchers.isInvoked + "'"); } if (watchers.isInvoked || !ts.fileExtensionIs(f, ".json" /* Json */)) { return; } if (isPackageOrBowerJson(f, _this.installTypingHost.useCaseSensitiveFileNames) && !sameFiles(f, _this.globalCachePackageJsonPath, _this.installTypingHost.useCaseSensitiveFileNames)) { watchers.isInvoked = true; _this.sendResponse({ projectName: projectName, kind: server.ActionInvalidate }); } }, /*recursive*/ true, options); watchers.set(canonicalPath, isLoggingEnabled ? { close: function () { _this.log.writeLine(projectWatcherType + ":: Closed:: WatchInfo: " + path); watcher.close(); } } : watcher); }; // Create watches from list of files for (var _i = 0, files_1 = files; _i < files_1.length; _i++) { var file = files_1[_i]; if (file.endsWith("/package.json") || file.endsWith("/bower.json")) { // package.json or bower.json exists, watch the file to detect changes and update typings createProjectWatcher(file, "FileWatcher" /* FileWatcher */); continue; } // path in projectRoot, watch project root if (ts.containsPath(projectRootPath, file, projectRootPath, !this.installTypingHost.useCaseSensitiveFileNames)) { var subDirectory = file.indexOf(ts.directorySeparator, projectRootPath.length + 1); if (subDirectory !== -1) { // Watch subDirectory createProjectWatcher(file.substr(0, subDirectory), "DirectoryWatcher" /* DirectoryWatcher */); } else { // Watch the directory itself createProjectWatcher(file, "DirectoryWatcher" /* DirectoryWatcher */); } continue; } // path in global cache, watch global cache if (ts.containsPath(this.globalCachePath, file, projectRootPath, !this.installTypingHost.useCaseSensitiveFileNames)) { createProjectWatcher(this.globalCachePath, "DirectoryWatcher" /* DirectoryWatcher */); continue; } // watch node_modules or bower_components createProjectWatcher(file, "DirectoryWatcher" /* DirectoryWatcher */); } // Remove unused watches toRemove.forEach(function (watch, path) { watch.close(); watchers.delete(path); }); }; TypingsInstaller.prototype.createSetTypings = function (request, typings) { return { projectName: request.projectName, typeAcquisition: request.typeAcquisition, compilerOptions: request.compilerOptions, typings: typings, unresolvedImports: request.unresolvedImports, kind: server.ActionSet }; }; TypingsInstaller.prototype.installTypingsAsync = function (requestId, packageNames, cwd, onRequestCompleted) { this.pendingRunRequests.unshift({ requestId: requestId, packageNames: packageNames, cwd: cwd, onRequestCompleted: onRequestCompleted }); this.executeWithThrottling(); }; TypingsInstaller.prototype.executeWithThrottling = function () { var _this = this; var _loop_1 = function () { this_1.inFlightRequestCount++; var request = this_1.pendingRunRequests.pop(); this_1.installWorker(request.requestId, request.packageNames, request.cwd, function (ok) { _this.inFlightRequestCount--; request.onRequestCompleted(ok); _this.executeWithThrottling(); }); }; var this_1 = this; while (this.inFlightRequestCount < this.throttleLimit && this.pendingRunRequests.length) { _loop_1(); } }; return TypingsInstaller; }()); typingsInstaller.TypingsInstaller = TypingsInstaller; /* @internal */ function typingsName(packageName) { return "@types/" + packageName + "@ts" + ts.versionMajorMinor; } typingsInstaller.typingsName = typingsName; })(typingsInstaller = server.typingsInstaller || (server.typingsInstaller = {})); })(server = ts.server || (ts.server = {})); })(ts || (ts = {})); var ts; (function (ts) { var server; (function (server) { var typingsInstaller; (function (typingsInstaller) { var fs = require("fs"); var path = require("path"); var FileLog = (function () { function FileLog(logFile) { var _this = this; this.logFile = logFile; this.isEnabled = function () { return typeof _this.logFile === "string"; }; this.writeLine = function (text) { if (typeof _this.logFile !== "string") return; try { fs.appendFileSync(_this.logFile, "[" + server.nowString() + "] " + text + ts.sys.newLine); } catch (e) { _this.logFile = undefined; } }; } return FileLog; }()); function getDefaultNPMLocation(processName, validateDefaultNpmLocation, host) { if (path.basename(processName).indexOf("node") === 0) { var npmPath = path.join(path.dirname(process.argv[0]), "npm"); if (!validateDefaultNpmLocation) { return npmPath; } if (host.fileExists(npmPath)) { return "\"" + npmPath + "\""; } } return "npm"; } function loadTypesRegistryFile(typesRegistryFilePath, host, log) { if (!host.fileExists(typesRegistryFilePath)) { if (log.isEnabled()) { log.writeLine("Types registry file '" + typesRegistryFilePath + "' does not exist"); } return ts.createMap(); } try { var content = JSON.parse(host.readFile(typesRegistryFilePath)); return ts.createMapFromTemplate(content.entries); } catch (e) { if (log.isEnabled()) { log.writeLine("Error when loading types registry file '" + typesRegistryFilePath + "': " + e.message + ", " + e.stack); } return ts.createMap(); } } var typesRegistryPackageName = "types-registry"; function getTypesRegistryFileLocation(globalTypingsCacheLocation) { return ts.combinePaths(ts.normalizeSlashes(globalTypingsCacheLocation), "node_modules/" + typesRegistryPackageName + "/index.json"); } var NodeTypingsInstaller = (function (_super) { __extends(NodeTypingsInstaller, _super); function NodeTypingsInstaller(globalTypingsCacheLocation, typingSafeListLocation, typesMapLocation, npmLocation, validateDefaultNpmLocation, throttleLimit, log) { var _this = _super.call(this, ts.sys, globalTypingsCacheLocation, typingSafeListLocation ? ts.toPath(typingSafeListLocation, "", ts.createGetCanonicalFileName(ts.sys.useCaseSensitiveFileNames)) : ts.toPath("typingSafeList.json", __dirname, ts.createGetCanonicalFileName(ts.sys.useCaseSensitiveFileNames)), typesMapLocation ? ts.toPath(typesMapLocation, "", ts.createGetCanonicalFileName(ts.sys.useCaseSensitiveFileNames)) : ts.toPath("typesMap.json", __dirname, ts.createGetCanonicalFileName(ts.sys.useCaseSensitiveFileNames)), throttleLimit, log) || this; _this.npmPath = npmLocation !== undefined ? npmLocation : getDefaultNPMLocation(process.argv[0], validateDefaultNpmLocation, _this.installTypingHost); if (ts.stringContains(_this.npmPath, " ") && _this.npmPath[0] !== "\"") { _this.npmPath = "\"" + _this.npmPath + "\""; } if (_this.log.isEnabled()) { _this.log.writeLine("Process id: " + process.pid); _this.log.writeLine("NPM location: " + _this.npmPath + " (explicit '" + server.Arguments.NpmLocation + "' " + (npmLocation === undefined ? "not " : "") + " provided)"); _this.log.writeLine("validateDefaultNpmLocation: " + validateDefaultNpmLocation); } (_this.nodeExecSync = require("child_process").execSync); _this.ensurePackageDirectoryExists(globalTypingsCacheLocation); try { if (_this.log.isEnabled()) { _this.log.writeLine("Updating " + typesRegistryPackageName + " npm package..."); } _this.execSyncAndLog(_this.npmPath + " install --ignore-scripts " + typesRegistryPackageName + "@" + _this.latestDistTag, { cwd: globalTypingsCacheLocation }); if (_this.log.isEnabled()) { _this.log.writeLine("Updated " + typesRegistryPackageName + " npm package"); } } catch (e) { if (_this.log.isEnabled()) { _this.log.writeLine("Error updating " + typesRegistryPackageName + " package: " + e.message); } _this.delayedInitializationError = { kind: "event::initializationFailed", message: e.message }; } _this.typesRegistry = loadTypesRegistryFile(getTypesRegistryFileLocation(globalTypingsCacheLocation), _this.installTypingHost, _this.log); return _this; } NodeTypingsInstaller.prototype.listen = function () { var _this = this; process.on("message", function (req) { if (_this.delayedInitializationError) { _this.sendResponse(_this.delayedInitializationError); _this.delayedInitializationError = undefined; } switch (req.kind) { case "discover": _this.install(req); break; case "closeProject": _this.closeProject(req); break; case "typesRegistry": { var typesRegistry_1 = {}; _this.typesRegistry.forEach(function (value, key) { typesRegistry_1[key] = value; }); var response = { kind: server.EventTypesRegistry, typesRegistry: typesRegistry_1 }; _this.sendResponse(response); break; } case "installPackage": { var fileName = req.fileName, packageName_1 = req.packageName, projectName_1 = req.projectName, projectRootPath = req.projectRootPath; var cwd = getDirectoryOfPackageJson(fileName, _this.installTypingHost) || projectRootPath; if (cwd) { _this.installWorker(-1, [packageName_1], cwd, function (success) { var message = success ? "Package " + packageName_1 + " installed." : "There was an error installing " + packageName_1 + "."; var response = { kind: server.ActionPackageInstalled, projectName: projectName_1, success: success, message: message }; _this.sendResponse(response); }); } else { var response = { kind: server.ActionPackageInstalled, projectName: projectName_1, success: false, message: "Could not determine a project root path." }; _this.sendResponse(response); } break; } default: ts.Debug.assertNever(req); } }); }; NodeTypingsInstaller.prototype.sendResponse = function (response) { if (this.log.isEnabled()) { this.log.writeLine("Sending response:\n " + JSON.stringify(response)); } process.send(response); if (this.log.isEnabled()) { this.log.writeLine("Response has been sent."); } }; NodeTypingsInstaller.prototype.installWorker = function (requestId, packageNames, cwd, onRequestCompleted) { var _this = this; if (this.log.isEnabled()) { this.log.writeLine("#" + requestId + " with arguments'" + JSON.stringify(packageNames) + "'."); } var start = Date.now(); var hasError = typingsInstaller.installNpmPackages(this.npmPath, ts.version, packageNames, function (command) { return _this.execSyncAndLog(command, { cwd: cwd }); }); if (this.log.isEnabled()) { this.log.writeLine("npm install #" + requestId + " took: " + (Date.now() - start) + " ms"); } onRequestCompleted(!hasError); }; NodeTypingsInstaller.prototype.execSyncAndLog = function (command, options) { if (this.log.isEnabled()) { this.log.writeLine("Exec: " + command); } try { var stdout = this.nodeExecSync(command, __assign(__assign({}, options), { encoding: "utf-8" })); if (this.log.isEnabled()) { this.log.writeLine(" Succeeded. stdout:" + indent(ts.sys.newLine, stdout)); } return false; } catch (error) { var stdout = error.stdout, stderr = error.stderr; this.log.writeLine(" Failed. stdout:" + indent(ts.sys.newLine, stdout) + ts.sys.newLine + " stderr:" + indent(ts.sys.newLine, stderr)); return true; } }; return NodeTypingsInstaller; }(typingsInstaller.TypingsInstaller)); typingsInstaller.NodeTypingsInstaller = NodeTypingsInstaller; function getDirectoryOfPackageJson(fileName, host) { return ts.forEachAncestorDirectory(ts.getDirectoryPath(fileName), function (directory) { if (host.fileExists(ts.combinePaths(directory, "package.json"))) { return directory; } }); } var logFilePath = server.findArgument(server.Arguments.LogFile); var globalTypingsCacheLocation = server.findArgument(server.Arguments.GlobalCacheLocation); var typingSafeListLocation = server.findArgument(server.Arguments.TypingSafeListLocation); var typesMapLocation = server.findArgument(server.Arguments.TypesMapLocation); var npmLocation = server.findArgument(server.Arguments.NpmLocation); var validateDefaultNpmLocation = server.hasArgument(server.Arguments.ValidateDefaultNpmLocation); var log = new FileLog(logFilePath); if (log.isEnabled()) { process.on("uncaughtException", function (e) { log.writeLine("Unhandled exception: " + e + " at " + e.stack); }); } process.on("disconnect", function () { if (log.isEnabled()) { log.writeLine("Parent process has exited, shutting down..."); } process.exit(0); }); var installer = new NodeTypingsInstaller(globalTypingsCacheLocation, typingSafeListLocation, typesMapLocation, npmLocation, validateDefaultNpmLocation, 5, log); installer.listen(); function indent(newline, str) { return newline + " " + str.replace(/\r?\n/, newline + " "); } })(typingsInstaller = server.typingsInstaller || (server.typingsInstaller = {})); })(server = ts.server || (ts.server = {})); })(ts || (ts = {})); //# sourceMappingURL=typingsInstaller.js.map