/*! ***************************************************************************** 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. ***************************************************************************** */ declare namespace ts { const versionMajorMinor = "3.9"; /** The version of the TypeScript compiler release */ const version: string; /** * Type of objects whose values are all of the same type. * The `in` and `for-in` operators can *not* be safely used, * since `Object.prototype` may be modified by outside code. */ interface MapLike { [index: string]: T; } interface SortedReadonlyArray extends ReadonlyArray { " __sortedArrayBrand": any; } interface SortedArray extends Array { " __sortedArrayBrand": any; } /** ES6 Map interface, only read methods included. */ interface ReadonlyMap { get(key: string): T | undefined; has(key: string): boolean; forEach(action: (value: T, key: string) => void): void; readonly size: number; keys(): Iterator; values(): Iterator; entries(): Iterator<[string, T]>; } /** ES6 Map interface. */ interface Map extends ReadonlyMap { set(key: string, value: T): this; delete(key: string): boolean; clear(): void; } /** ES6 Iterator type. */ interface Iterator { next(): { value: T; done?: false; } | { value: never; done: true; }; } /** Array that is only intended to be pushed to, never read. */ interface Push { push(...values: T[]): void; } } declare namespace ts { export type Path = string & { __pathBrand: any; }; export interface TextRange { pos: number; end: number; } export type JSDocSyntaxKind = SyntaxKind.EndOfFileToken | SyntaxKind.WhitespaceTrivia | SyntaxKind.AtToken | SyntaxKind.NewLineTrivia | SyntaxKind.AsteriskToken | SyntaxKind.OpenBraceToken | SyntaxKind.CloseBraceToken | SyntaxKind.LessThanToken | SyntaxKind.GreaterThanToken | SyntaxKind.OpenBracketToken | SyntaxKind.CloseBracketToken | SyntaxKind.EqualsToken | SyntaxKind.CommaToken | SyntaxKind.DotToken | SyntaxKind.Identifier | SyntaxKind.BacktickToken | SyntaxKind.Unknown | KeywordSyntaxKind; export type KeywordSyntaxKind = SyntaxKind.AbstractKeyword | SyntaxKind.AnyKeyword | SyntaxKind.AsKeyword | SyntaxKind.AssertsKeyword | SyntaxKind.BigIntKeyword | SyntaxKind.BooleanKeyword | SyntaxKind.BreakKeyword | SyntaxKind.CaseKeyword | SyntaxKind.CatchKeyword | SyntaxKind.ClassKeyword | SyntaxKind.ContinueKeyword | SyntaxKind.ConstKeyword | SyntaxKind.ConstructorKeyword | SyntaxKind.DebuggerKeyword | SyntaxKind.DeclareKeyword | SyntaxKind.DefaultKeyword | SyntaxKind.DeleteKeyword | SyntaxKind.DoKeyword | SyntaxKind.ElseKeyword | SyntaxKind.EnumKeyword | SyntaxKind.ExportKeyword | SyntaxKind.ExtendsKeyword | SyntaxKind.FalseKeyword | SyntaxKind.FinallyKeyword | SyntaxKind.ForKeyword | SyntaxKind.FromKeyword | SyntaxKind.FunctionKeyword | SyntaxKind.GetKeyword | SyntaxKind.IfKeyword | SyntaxKind.ImplementsKeyword | SyntaxKind.ImportKeyword | SyntaxKind.InKeyword | SyntaxKind.InferKeyword | SyntaxKind.InstanceOfKeyword | SyntaxKind.InterfaceKeyword | SyntaxKind.IsKeyword | SyntaxKind.KeyOfKeyword | SyntaxKind.LetKeyword | SyntaxKind.ModuleKeyword | SyntaxKind.NamespaceKeyword | SyntaxKind.NeverKeyword | SyntaxKind.NewKeyword | SyntaxKind.NullKeyword | SyntaxKind.NumberKeyword | SyntaxKind.ObjectKeyword | SyntaxKind.PackageKeyword | SyntaxKind.PrivateKeyword | SyntaxKind.ProtectedKeyword | SyntaxKind.PublicKeyword | SyntaxKind.ReadonlyKeyword | SyntaxKind.RequireKeyword | SyntaxKind.GlobalKeyword | SyntaxKind.ReturnKeyword | SyntaxKind.SetKeyword | SyntaxKind.StaticKeyword | SyntaxKind.StringKeyword | SyntaxKind.SuperKeyword | SyntaxKind.SwitchKeyword | SyntaxKind.SymbolKeyword | SyntaxKind.ThisKeyword | SyntaxKind.ThrowKeyword | SyntaxKind.TrueKeyword | SyntaxKind.TryKeyword | SyntaxKind.TypeKeyword | SyntaxKind.TypeOfKeyword | SyntaxKind.UndefinedKeyword | SyntaxKind.UniqueKeyword | SyntaxKind.UnknownKeyword | SyntaxKind.VarKeyword | SyntaxKind.VoidKeyword | SyntaxKind.WhileKeyword | SyntaxKind.WithKeyword | SyntaxKind.YieldKeyword | SyntaxKind.AsyncKeyword | SyntaxKind.AwaitKeyword | SyntaxKind.OfKeyword; export type JsxTokenSyntaxKind = SyntaxKind.LessThanSlashToken | SyntaxKind.EndOfFileToken | SyntaxKind.ConflictMarkerTrivia | SyntaxKind.JsxText | SyntaxKind.JsxTextAllWhiteSpaces | SyntaxKind.OpenBraceToken | SyntaxKind.LessThanToken; export enum SyntaxKind { Unknown = 0, EndOfFileToken = 1, SingleLineCommentTrivia = 2, MultiLineCommentTrivia = 3, NewLineTrivia = 4, WhitespaceTrivia = 5, ShebangTrivia = 6, ConflictMarkerTrivia = 7, NumericLiteral = 8, BigIntLiteral = 9, StringLiteral = 10, JsxText = 11, JsxTextAllWhiteSpaces = 12, RegularExpressionLiteral = 13, NoSubstitutionTemplateLiteral = 14, TemplateHead = 15, TemplateMiddle = 16, TemplateTail = 17, OpenBraceToken = 18, CloseBraceToken = 19, OpenParenToken = 20, CloseParenToken = 21, OpenBracketToken = 22, CloseBracketToken = 23, DotToken = 24, DotDotDotToken = 25, SemicolonToken = 26, CommaToken = 27, QuestionDotToken = 28, LessThanToken = 29, LessThanSlashToken = 30, GreaterThanToken = 31, LessThanEqualsToken = 32, GreaterThanEqualsToken = 33, EqualsEqualsToken = 34, ExclamationEqualsToken = 35, EqualsEqualsEqualsToken = 36, ExclamationEqualsEqualsToken = 37, EqualsGreaterThanToken = 38, PlusToken = 39, MinusToken = 40, AsteriskToken = 41, AsteriskAsteriskToken = 42, SlashToken = 43, PercentToken = 44, PlusPlusToken = 45, MinusMinusToken = 46, LessThanLessThanToken = 47, GreaterThanGreaterThanToken = 48, GreaterThanGreaterThanGreaterThanToken = 49, AmpersandToken = 50, BarToken = 51, CaretToken = 52, ExclamationToken = 53, TildeToken = 54, AmpersandAmpersandToken = 55, BarBarToken = 56, QuestionToken = 57, ColonToken = 58, AtToken = 59, QuestionQuestionToken = 60, /** Only the JSDoc scanner produces BacktickToken. The normal scanner produces NoSubstitutionTemplateLiteral and related kinds. */ BacktickToken = 61, EqualsToken = 62, PlusEqualsToken = 63, MinusEqualsToken = 64, AsteriskEqualsToken = 65, AsteriskAsteriskEqualsToken = 66, SlashEqualsToken = 67, PercentEqualsToken = 68, LessThanLessThanEqualsToken = 69, GreaterThanGreaterThanEqualsToken = 70, GreaterThanGreaterThanGreaterThanEqualsToken = 71, AmpersandEqualsToken = 72, BarEqualsToken = 73, CaretEqualsToken = 74, Identifier = 75, PrivateIdentifier = 76, BreakKeyword = 77, CaseKeyword = 78, CatchKeyword = 79, ClassKeyword = 80, ConstKeyword = 81, ContinueKeyword = 82, DebuggerKeyword = 83, DefaultKeyword = 84, DeleteKeyword = 85, DoKeyword = 86, ElseKeyword = 87, EnumKeyword = 88, ExportKeyword = 89, ExtendsKeyword = 90, FalseKeyword = 91, FinallyKeyword = 92, ForKeyword = 93, FunctionKeyword = 94, IfKeyword = 95, ImportKeyword = 96, InKeyword = 97, InstanceOfKeyword = 98, NewKeyword = 99, NullKeyword = 100, ReturnKeyword = 101, SuperKeyword = 102, SwitchKeyword = 103, ThisKeyword = 104, ThrowKeyword = 105, TrueKeyword = 106, TryKeyword = 107, TypeOfKeyword = 108, VarKeyword = 109, VoidKeyword = 110, WhileKeyword = 111, WithKeyword = 112, ImplementsKeyword = 113, InterfaceKeyword = 114, LetKeyword = 115, PackageKeyword = 116, PrivateKeyword = 117, ProtectedKeyword = 118, PublicKeyword = 119, StaticKeyword = 120, YieldKeyword = 121, AbstractKeyword = 122, AsKeyword = 123, AssertsKeyword = 124, AnyKeyword = 125, AsyncKeyword = 126, AwaitKeyword = 127, BooleanKeyword = 128, ConstructorKeyword = 129, DeclareKeyword = 130, GetKeyword = 131, InferKeyword = 132, IsKeyword = 133, KeyOfKeyword = 134, ModuleKeyword = 135, NamespaceKeyword = 136, NeverKeyword = 137, ReadonlyKeyword = 138, RequireKeyword = 139, NumberKeyword = 140, ObjectKeyword = 141, SetKeyword = 142, StringKeyword = 143, SymbolKeyword = 144, TypeKeyword = 145, UndefinedKeyword = 146, UniqueKeyword = 147, UnknownKeyword = 148, FromKeyword = 149, GlobalKeyword = 150, BigIntKeyword = 151, OfKeyword = 152, QualifiedName = 153, ComputedPropertyName = 154, TypeParameter = 155, Parameter = 156, Decorator = 157, PropertySignature = 158, PropertyDeclaration = 159, MethodSignature = 160, MethodDeclaration = 161, Constructor = 162, GetAccessor = 163, SetAccessor = 164, CallSignature = 165, ConstructSignature = 166, IndexSignature = 167, TypePredicate = 168, TypeReference = 169, FunctionType = 170, ConstructorType = 171, TypeQuery = 172, TypeLiteral = 173, ArrayType = 174, TupleType = 175, OptionalType = 176, RestType = 177, UnionType = 178, IntersectionType = 179, ConditionalType = 180, InferType = 181, ParenthesizedType = 182, ThisType = 183, TypeOperator = 184, IndexedAccessType = 185, MappedType = 186, LiteralType = 187, ImportType = 188, ObjectBindingPattern = 189, ArrayBindingPattern = 190, BindingElement = 191, ArrayLiteralExpression = 192, ObjectLiteralExpression = 193, PropertyAccessExpression = 194, ElementAccessExpression = 195, CallExpression = 196, NewExpression = 197, TaggedTemplateExpression = 198, TypeAssertionExpression = 199, ParenthesizedExpression = 200, FunctionExpression = 201, ArrowFunction = 202, DeleteExpression = 203, TypeOfExpression = 204, VoidExpression = 205, AwaitExpression = 206, PrefixUnaryExpression = 207, PostfixUnaryExpression = 208, BinaryExpression = 209, ConditionalExpression = 210, TemplateExpression = 211, YieldExpression = 212, SpreadElement = 213, ClassExpression = 214, OmittedExpression = 215, ExpressionWithTypeArguments = 216, AsExpression = 217, NonNullExpression = 218, MetaProperty = 219, SyntheticExpression = 220, TemplateSpan = 221, SemicolonClassElement = 222, Block = 223, EmptyStatement = 224, VariableStatement = 225, ExpressionStatement = 226, IfStatement = 227, DoStatement = 228, WhileStatement = 229, ForStatement = 230, ForInStatement = 231, ForOfStatement = 232, ContinueStatement = 233, BreakStatement = 234, ReturnStatement = 235, WithStatement = 236, SwitchStatement = 237, LabeledStatement = 238, ThrowStatement = 239, TryStatement = 240, DebuggerStatement = 241, VariableDeclaration = 242, VariableDeclarationList = 243, FunctionDeclaration = 244, ClassDeclaration = 245, InterfaceDeclaration = 246, TypeAliasDeclaration = 247, EnumDeclaration = 248, ModuleDeclaration = 249, ModuleBlock = 250, CaseBlock = 251, NamespaceExportDeclaration = 252, ImportEqualsDeclaration = 253, ImportDeclaration = 254, ImportClause = 255, NamespaceImport = 256, NamedImports = 257, ImportSpecifier = 258, ExportAssignment = 259, ExportDeclaration = 260, NamedExports = 261, NamespaceExport = 262, ExportSpecifier = 263, MissingDeclaration = 264, ExternalModuleReference = 265, JsxElement = 266, JsxSelfClosingElement = 267, JsxOpeningElement = 268, JsxClosingElement = 269, JsxFragment = 270, JsxOpeningFragment = 271, JsxClosingFragment = 272, JsxAttribute = 273, JsxAttributes = 274, JsxSpreadAttribute = 275, JsxExpression = 276, CaseClause = 277, DefaultClause = 278, HeritageClause = 279, CatchClause = 280, PropertyAssignment = 281, ShorthandPropertyAssignment = 282, SpreadAssignment = 283, EnumMember = 284, UnparsedPrologue = 285, UnparsedPrepend = 286, UnparsedText = 287, UnparsedInternalText = 288, UnparsedSyntheticReference = 289, SourceFile = 290, Bundle = 291, UnparsedSource = 292, InputFiles = 293, JSDocTypeExpression = 294, JSDocAllType = 295, JSDocUnknownType = 296, JSDocNullableType = 297, JSDocNonNullableType = 298, JSDocOptionalType = 299, JSDocFunctionType = 300, JSDocVariadicType = 301, JSDocNamepathType = 302, JSDocComment = 303, JSDocTypeLiteral = 304, JSDocSignature = 305, JSDocTag = 306, JSDocAugmentsTag = 307, JSDocImplementsTag = 308, JSDocAuthorTag = 309, JSDocClassTag = 310, JSDocPublicTag = 311, JSDocPrivateTag = 312, JSDocProtectedTag = 313, JSDocReadonlyTag = 314, JSDocCallbackTag = 315, JSDocEnumTag = 316, JSDocParameterTag = 317, JSDocReturnTag = 318, JSDocThisTag = 319, JSDocTypeTag = 320, JSDocTemplateTag = 321, JSDocTypedefTag = 322, JSDocPropertyTag = 323, SyntaxList = 324, NotEmittedStatement = 325, PartiallyEmittedExpression = 326, CommaListExpression = 327, MergeDeclarationMarker = 328, EndOfDeclarationMarker = 329, SyntheticReferenceExpression = 330, Count = 331, FirstAssignment = 62, LastAssignment = 74, FirstCompoundAssignment = 63, LastCompoundAssignment = 74, FirstReservedWord = 77, LastReservedWord = 112, FirstKeyword = 77, LastKeyword = 152, FirstFutureReservedWord = 113, LastFutureReservedWord = 121, FirstTypeNode = 168, LastTypeNode = 188, FirstPunctuation = 18, LastPunctuation = 74, FirstToken = 0, LastToken = 152, FirstTriviaToken = 2, LastTriviaToken = 7, FirstLiteralToken = 8, LastLiteralToken = 14, FirstTemplateToken = 14, LastTemplateToken = 17, FirstBinaryOperator = 29, LastBinaryOperator = 74, FirstStatement = 225, LastStatement = 241, FirstNode = 153, FirstJSDocNode = 294, LastJSDocNode = 323, FirstJSDocTagNode = 306, LastJSDocTagNode = 323, } export enum NodeFlags { None = 0, Let = 1, Const = 2, NestedNamespace = 4, Synthesized = 8, Namespace = 16, OptionalChain = 32, ExportContext = 64, ContainsThis = 128, HasImplicitReturn = 256, HasExplicitReturn = 512, GlobalAugmentation = 1024, HasAsyncFunctions = 2048, DisallowInContext = 4096, YieldContext = 8192, DecoratorContext = 16384, AwaitContext = 32768, ThisNodeHasError = 65536, JavaScriptFile = 131072, ThisNodeOrAnySubNodesHasError = 262144, HasAggregatedChildData = 524288, JSDoc = 4194304, JsonFile = 33554432, BlockScoped = 3, ReachabilityCheckFlags = 768, ReachabilityAndEmitFlags = 2816, ContextFlags = 25358336, TypeExcludesFlags = 40960, } export enum ModifierFlags { None = 0, Export = 1, Ambient = 2, Public = 4, Private = 8, Protected = 16, Static = 32, Readonly = 64, Abstract = 128, Async = 256, Default = 512, Const = 2048, HasComputedFlags = 536870912, AccessibilityModifier = 28, ParameterPropertyModifier = 92, NonPublicAccessibilityModifier = 24, TypeScriptModifier = 2270, ExportDefault = 513, All = 3071 } export enum JsxFlags { None = 0, /** An element from a named property of the JSX.IntrinsicElements interface */ IntrinsicNamedElement = 1, /** An element inferred from the string index signature of the JSX.IntrinsicElements interface */ IntrinsicIndexedElement = 2, IntrinsicElement = 3 } export interface Node extends TextRange { kind: SyntaxKind; flags: NodeFlags; decorators?: NodeArray; modifiers?: ModifiersArray; parent: Node; } export interface JSDocContainer { } export type HasJSDoc = ParameterDeclaration | CallSignatureDeclaration | ConstructSignatureDeclaration | MethodSignature | PropertySignature | ArrowFunction | ParenthesizedExpression | SpreadAssignment | ShorthandPropertyAssignment | PropertyAssignment | FunctionExpression | LabeledStatement | ExpressionStatement | VariableStatement | FunctionDeclaration | ConstructorDeclaration | MethodDeclaration | PropertyDeclaration | AccessorDeclaration | ClassLikeDeclaration | InterfaceDeclaration | TypeAliasDeclaration | EnumMember | EnumDeclaration | ModuleDeclaration | ImportEqualsDeclaration | IndexSignatureDeclaration | FunctionTypeNode | ConstructorTypeNode | JSDocFunctionType | ExportDeclaration | EndOfFileToken; export type HasType = SignatureDeclaration | VariableDeclaration | ParameterDeclaration | PropertySignature | PropertyDeclaration | TypePredicateNode | ParenthesizedTypeNode | TypeOperatorNode | MappedTypeNode | AssertionExpression | TypeAliasDeclaration | JSDocTypeExpression | JSDocNonNullableType | JSDocNullableType | JSDocOptionalType | JSDocVariadicType; export type HasTypeArguments = CallExpression | NewExpression | TaggedTemplateExpression | JsxOpeningElement | JsxSelfClosingElement; export type HasInitializer = HasExpressionInitializer | ForStatement | ForInStatement | ForOfStatement | JsxAttribute; export type HasExpressionInitializer = VariableDeclaration | ParameterDeclaration | BindingElement | PropertySignature | PropertyDeclaration | PropertyAssignment | EnumMember; export interface NodeArray extends ReadonlyArray, TextRange { hasTrailingComma?: boolean; } export interface Token extends Node { kind: TKind; } export type DotToken = Token; export type DotDotDotToken = Token; export type QuestionToken = Token; export type QuestionDotToken = Token; export type ExclamationToken = Token; export type ColonToken = Token; export type EqualsToken = Token; export type AsteriskToken = Token; export type EqualsGreaterThanToken = Token; export type EndOfFileToken = Token & JSDocContainer; export type ReadonlyToken = Token; export type AwaitKeywordToken = Token; export type PlusToken = Token; export type MinusToken = Token; export type AssertsToken = Token; export type Modifier = Token | Token | Token | Token | Token | Token | Token | Token | Token | Token | Token; export type ModifiersArray = NodeArray; export interface Identifier extends PrimaryExpression, Declaration { kind: SyntaxKind.Identifier; /** * Prefer to use `id.unescapedText`. (Note: This is available only in services, not internally to the TypeScript compiler.) * Text of identifier, but if the identifier begins with two underscores, this will begin with three. */ escapedText: __String; originalKeywordKind?: SyntaxKind; isInJSDocNamespace?: boolean; } export interface TransientIdentifier extends Identifier { resolvedSymbol: Symbol; } export interface QualifiedName extends Node { kind: SyntaxKind.QualifiedName; left: EntityName; right: Identifier; } export type EntityName = Identifier | QualifiedName; export type PropertyName = Identifier | StringLiteral | NumericLiteral | ComputedPropertyName | PrivateIdentifier; export type DeclarationName = Identifier | PrivateIdentifier | StringLiteralLike | NumericLiteral | ComputedPropertyName | ElementAccessExpression | BindingPattern | EntityNameExpression; export interface Declaration extends Node { _declarationBrand: any; } export interface NamedDeclaration extends Declaration { name?: DeclarationName; } export interface DeclarationStatement extends NamedDeclaration, Statement { name?: Identifier | StringLiteral | NumericLiteral; } export interface ComputedPropertyName extends Node { parent: Declaration; kind: SyntaxKind.ComputedPropertyName; expression: Expression; } export interface PrivateIdentifier extends Node { kind: SyntaxKind.PrivateIdentifier; escapedText: __String; } export interface Decorator extends Node { kind: SyntaxKind.Decorator; parent: NamedDeclaration; expression: LeftHandSideExpression; } export interface TypeParameterDeclaration extends NamedDeclaration { kind: SyntaxKind.TypeParameter; parent: DeclarationWithTypeParameterChildren | InferTypeNode; name: Identifier; /** Note: Consider calling `getEffectiveConstraintOfTypeParameter` */ constraint?: TypeNode; default?: TypeNode; expression?: Expression; } export interface SignatureDeclarationBase extends NamedDeclaration, JSDocContainer { kind: SignatureDeclaration["kind"]; name?: PropertyName; typeParameters?: NodeArray; parameters: NodeArray; type?: TypeNode; } export type SignatureDeclaration = CallSignatureDeclaration | ConstructSignatureDeclaration | MethodSignature | IndexSignatureDeclaration | FunctionTypeNode | ConstructorTypeNode | JSDocFunctionType | FunctionDeclaration | MethodDeclaration | ConstructorDeclaration | AccessorDeclaration | FunctionExpression | ArrowFunction; export interface CallSignatureDeclaration extends SignatureDeclarationBase, TypeElement { kind: SyntaxKind.CallSignature; } export interface ConstructSignatureDeclaration extends SignatureDeclarationBase, TypeElement { kind: SyntaxKind.ConstructSignature; } export type BindingName = Identifier | BindingPattern; export interface VariableDeclaration extends NamedDeclaration { kind: SyntaxKind.VariableDeclaration; parent: VariableDeclarationList | CatchClause; name: BindingName; exclamationToken?: ExclamationToken; type?: TypeNode; initializer?: Expression; } export interface VariableDeclarationList extends Node { kind: SyntaxKind.VariableDeclarationList; parent: VariableStatement | ForStatement | ForOfStatement | ForInStatement; declarations: NodeArray; } export interface ParameterDeclaration extends NamedDeclaration, JSDocContainer { kind: SyntaxKind.Parameter; parent: SignatureDeclaration; dotDotDotToken?: DotDotDotToken; name: BindingName; questionToken?: QuestionToken; type?: TypeNode; initializer?: Expression; } export interface BindingElement extends NamedDeclaration { kind: SyntaxKind.BindingElement; parent: BindingPattern; propertyName?: PropertyName; dotDotDotToken?: DotDotDotToken; name: BindingName; initializer?: Expression; } export interface PropertySignature extends TypeElement, JSDocContainer { kind: SyntaxKind.PropertySignature; name: PropertyName; questionToken?: QuestionToken; type?: TypeNode; initializer?: Expression; } export interface PropertyDeclaration extends ClassElement, JSDocContainer { kind: SyntaxKind.PropertyDeclaration; parent: ClassLikeDeclaration; name: PropertyName; questionToken?: QuestionToken; exclamationToken?: ExclamationToken; type?: TypeNode; initializer?: Expression; } export interface ObjectLiteralElement extends NamedDeclaration { _objectLiteralBrand: any; name?: PropertyName; } /** Unlike ObjectLiteralElement, excludes JSXAttribute and JSXSpreadAttribute. */ export type ObjectLiteralElementLike = PropertyAssignment | ShorthandPropertyAssignment | SpreadAssignment | MethodDeclaration | AccessorDeclaration; export interface PropertyAssignment extends ObjectLiteralElement, JSDocContainer { parent: ObjectLiteralExpression; kind: SyntaxKind.PropertyAssignment; name: PropertyName; questionToken?: QuestionToken; initializer: Expression; } export interface ShorthandPropertyAssignment extends ObjectLiteralElement, JSDocContainer { parent: ObjectLiteralExpression; kind: SyntaxKind.ShorthandPropertyAssignment; name: Identifier; questionToken?: QuestionToken; exclamationToken?: ExclamationToken; equalsToken?: Token; objectAssignmentInitializer?: Expression; } export interface SpreadAssignment extends ObjectLiteralElement, JSDocContainer { parent: ObjectLiteralExpression; kind: SyntaxKind.SpreadAssignment; expression: Expression; } export type VariableLikeDeclaration = VariableDeclaration | ParameterDeclaration | BindingElement | PropertyDeclaration | PropertyAssignment | PropertySignature | JsxAttribute | ShorthandPropertyAssignment | EnumMember | JSDocPropertyTag | JSDocParameterTag; export interface PropertyLikeDeclaration extends NamedDeclaration { name: PropertyName; } export interface ObjectBindingPattern extends Node { kind: SyntaxKind.ObjectBindingPattern; parent: VariableDeclaration | ParameterDeclaration | BindingElement; elements: NodeArray; } export interface ArrayBindingPattern extends Node { kind: SyntaxKind.ArrayBindingPattern; parent: VariableDeclaration | ParameterDeclaration | BindingElement; elements: NodeArray; } export type BindingPattern = ObjectBindingPattern | ArrayBindingPattern; export type ArrayBindingElement = BindingElement | OmittedExpression; /** * Several node kinds share function-like features such as a signature, * a name, and a body. These nodes should extend FunctionLikeDeclarationBase. * Examples: * - FunctionDeclaration * - MethodDeclaration * - AccessorDeclaration */ export interface FunctionLikeDeclarationBase extends SignatureDeclarationBase { _functionLikeDeclarationBrand: any; asteriskToken?: AsteriskToken; questionToken?: QuestionToken; exclamationToken?: ExclamationToken; body?: Block | Expression; } export type FunctionLikeDeclaration = FunctionDeclaration | MethodDeclaration | GetAccessorDeclaration | SetAccessorDeclaration | ConstructorDeclaration | FunctionExpression | ArrowFunction; /** @deprecated Use SignatureDeclaration */ export type FunctionLike = SignatureDeclaration; export interface FunctionDeclaration extends FunctionLikeDeclarationBase, DeclarationStatement { kind: SyntaxKind.FunctionDeclaration; name?: Identifier; body?: FunctionBody; } export interface MethodSignature extends SignatureDeclarationBase, TypeElement { kind: SyntaxKind.MethodSignature; parent: ObjectTypeDeclaration; name: PropertyName; } export interface MethodDeclaration extends FunctionLikeDeclarationBase, ClassElement, ObjectLiteralElement, JSDocContainer { kind: SyntaxKind.MethodDeclaration; parent: ClassLikeDeclaration | ObjectLiteralExpression; name: PropertyName; body?: FunctionBody; } export interface ConstructorDeclaration extends FunctionLikeDeclarationBase, ClassElement, JSDocContainer { kind: SyntaxKind.Constructor; parent: ClassLikeDeclaration; body?: FunctionBody; } /** For when we encounter a semicolon in a class declaration. ES6 allows these as class elements. */ export interface SemicolonClassElement extends ClassElement { kind: SyntaxKind.SemicolonClassElement; parent: ClassLikeDeclaration; } export interface GetAccessorDeclaration extends FunctionLikeDeclarationBase, ClassElement, ObjectLiteralElement, JSDocContainer { kind: SyntaxKind.GetAccessor; parent: ClassLikeDeclaration | ObjectLiteralExpression; name: PropertyName; body?: FunctionBody; } export interface SetAccessorDeclaration extends FunctionLikeDeclarationBase, ClassElement, ObjectLiteralElement, JSDocContainer { kind: SyntaxKind.SetAccessor; parent: ClassLikeDeclaration | ObjectLiteralExpression; name: PropertyName; body?: FunctionBody; } export type AccessorDeclaration = GetAccessorDeclaration | SetAccessorDeclaration; export interface IndexSignatureDeclaration extends SignatureDeclarationBase, ClassElement, TypeElement { kind: SyntaxKind.IndexSignature; parent: ObjectTypeDeclaration; } export interface TypeNode extends Node { _typeNodeBrand: any; } export interface KeywordTypeNode extends TypeNode { kind: SyntaxKind.AnyKeyword | SyntaxKind.UnknownKeyword | SyntaxKind.NumberKeyword | SyntaxKind.BigIntKeyword | SyntaxKind.ObjectKeyword | SyntaxKind.BooleanKeyword | SyntaxKind.StringKeyword | SyntaxKind.SymbolKeyword | SyntaxKind.ThisKeyword | SyntaxKind.VoidKeyword | SyntaxKind.UndefinedKeyword | SyntaxKind.NullKeyword | SyntaxKind.NeverKeyword; } export interface ImportTypeNode extends NodeWithTypeArguments { kind: SyntaxKind.ImportType; isTypeOf?: boolean; argument: TypeNode; qualifier?: EntityName; } export interface ThisTypeNode extends TypeNode { kind: SyntaxKind.ThisType; } export type FunctionOrConstructorTypeNode = FunctionTypeNode | ConstructorTypeNode; export interface FunctionOrConstructorTypeNodeBase extends TypeNode, SignatureDeclarationBase { kind: SyntaxKind.FunctionType | SyntaxKind.ConstructorType; type: TypeNode; } export interface FunctionTypeNode extends FunctionOrConstructorTypeNodeBase { kind: SyntaxKind.FunctionType; } export interface ConstructorTypeNode extends FunctionOrConstructorTypeNodeBase { kind: SyntaxKind.ConstructorType; } export interface NodeWithTypeArguments extends TypeNode { typeArguments?: NodeArray; } export type TypeReferenceType = TypeReferenceNode | ExpressionWithTypeArguments; export interface TypeReferenceNode extends NodeWithTypeArguments { kind: SyntaxKind.TypeReference; typeName: EntityName; } export interface TypePredicateNode extends TypeNode { kind: SyntaxKind.TypePredicate; parent: SignatureDeclaration | JSDocTypeExpression; assertsModifier?: AssertsToken; parameterName: Identifier | ThisTypeNode; type?: TypeNode; } export interface TypeQueryNode extends TypeNode { kind: SyntaxKind.TypeQuery; exprName: EntityName; } export interface TypeLiteralNode extends TypeNode, Declaration { kind: SyntaxKind.TypeLiteral; members: NodeArray; } export interface ArrayTypeNode extends TypeNode { kind: SyntaxKind.ArrayType; elementType: TypeNode; } export interface TupleTypeNode extends TypeNode { kind: SyntaxKind.TupleType; elementTypes: NodeArray; } export interface OptionalTypeNode extends TypeNode { kind: SyntaxKind.OptionalType; type: TypeNode; } export interface RestTypeNode extends TypeNode { kind: SyntaxKind.RestType; type: TypeNode; } export type UnionOrIntersectionTypeNode = UnionTypeNode | IntersectionTypeNode; export interface UnionTypeNode extends TypeNode { kind: SyntaxKind.UnionType; types: NodeArray; } export interface IntersectionTypeNode extends TypeNode { kind: SyntaxKind.IntersectionType; types: NodeArray; } export interface ConditionalTypeNode extends TypeNode { kind: SyntaxKind.ConditionalType; checkType: TypeNode; extendsType: TypeNode; trueType: TypeNode; falseType: TypeNode; } export interface InferTypeNode extends TypeNode { kind: SyntaxKind.InferType; typeParameter: TypeParameterDeclaration; } export interface ParenthesizedTypeNode extends TypeNode { kind: SyntaxKind.ParenthesizedType; type: TypeNode; } export interface TypeOperatorNode extends TypeNode { kind: SyntaxKind.TypeOperator; operator: SyntaxKind.KeyOfKeyword | SyntaxKind.UniqueKeyword | SyntaxKind.ReadonlyKeyword; type: TypeNode; } export interface IndexedAccessTypeNode extends TypeNode { kind: SyntaxKind.IndexedAccessType; objectType: TypeNode; indexType: TypeNode; } export interface MappedTypeNode extends TypeNode, Declaration { kind: SyntaxKind.MappedType; readonlyToken?: ReadonlyToken | PlusToken | MinusToken; typeParameter: TypeParameterDeclaration; questionToken?: QuestionToken | PlusToken | MinusToken; type?: TypeNode; } export interface LiteralTypeNode extends TypeNode { kind: SyntaxKind.LiteralType; literal: BooleanLiteral | LiteralExpression | PrefixUnaryExpression; } export interface StringLiteral extends LiteralExpression, Declaration { kind: SyntaxKind.StringLiteral; } export type StringLiteralLike = StringLiteral | NoSubstitutionTemplateLiteral; export interface Expression extends Node { _expressionBrand: any; } export interface OmittedExpression extends Expression { kind: SyntaxKind.OmittedExpression; } export interface PartiallyEmittedExpression extends LeftHandSideExpression { kind: SyntaxKind.PartiallyEmittedExpression; expression: Expression; } export interface UnaryExpression extends Expression { _unaryExpressionBrand: any; } /** Deprecated, please use UpdateExpression */ export type IncrementExpression = UpdateExpression; export interface UpdateExpression extends UnaryExpression { _updateExpressionBrand: any; } export type PrefixUnaryOperator = SyntaxKind.PlusPlusToken | SyntaxKind.MinusMinusToken | SyntaxKind.PlusToken | SyntaxKind.MinusToken | SyntaxKind.TildeToken | SyntaxKind.ExclamationToken; export interface PrefixUnaryExpression extends UpdateExpression { kind: SyntaxKind.PrefixUnaryExpression; operator: PrefixUnaryOperator; operand: UnaryExpression; } export type PostfixUnaryOperator = SyntaxKind.PlusPlusToken | SyntaxKind.MinusMinusToken; export interface PostfixUnaryExpression extends UpdateExpression { kind: SyntaxKind.PostfixUnaryExpression; operand: LeftHandSideExpression; operator: PostfixUnaryOperator; } export interface LeftHandSideExpression extends UpdateExpression { _leftHandSideExpressionBrand: any; } export interface MemberExpression extends LeftHandSideExpression { _memberExpressionBrand: any; } export interface PrimaryExpression extends MemberExpression { _primaryExpressionBrand: any; } export interface NullLiteral extends PrimaryExpression, TypeNode { kind: SyntaxKind.NullKeyword; } export interface BooleanLiteral extends PrimaryExpression, TypeNode { kind: SyntaxKind.TrueKeyword | SyntaxKind.FalseKeyword; } export interface ThisExpression extends PrimaryExpression, KeywordTypeNode { kind: SyntaxKind.ThisKeyword; } export interface SuperExpression extends PrimaryExpression { kind: SyntaxKind.SuperKeyword; } export interface ImportExpression extends PrimaryExpression { kind: SyntaxKind.ImportKeyword; } export interface DeleteExpression extends UnaryExpression { kind: SyntaxKind.DeleteExpression; expression: UnaryExpression; } export interface TypeOfExpression extends UnaryExpression { kind: SyntaxKind.TypeOfExpression; expression: UnaryExpression; } export interface VoidExpression extends UnaryExpression { kind: SyntaxKind.VoidExpression; expression: UnaryExpression; } export interface AwaitExpression extends UnaryExpression { kind: SyntaxKind.AwaitExpression; expression: UnaryExpression; } export interface YieldExpression extends Expression { kind: SyntaxKind.YieldExpression; asteriskToken?: AsteriskToken; expression?: Expression; } export interface SyntheticExpression extends Expression { kind: SyntaxKind.SyntheticExpression; isSpread: boolean; type: Type; } export type ExponentiationOperator = SyntaxKind.AsteriskAsteriskToken; export type MultiplicativeOperator = SyntaxKind.AsteriskToken | SyntaxKind.SlashToken | SyntaxKind.PercentToken; export type MultiplicativeOperatorOrHigher = ExponentiationOperator | MultiplicativeOperator; export type AdditiveOperator = SyntaxKind.PlusToken | SyntaxKind.MinusToken; export type AdditiveOperatorOrHigher = MultiplicativeOperatorOrHigher | AdditiveOperator; export type ShiftOperator = SyntaxKind.LessThanLessThanToken | SyntaxKind.GreaterThanGreaterThanToken | SyntaxKind.GreaterThanGreaterThanGreaterThanToken; export type ShiftOperatorOrHigher = AdditiveOperatorOrHigher | ShiftOperator; export type RelationalOperator = SyntaxKind.LessThanToken | SyntaxKind.LessThanEqualsToken | SyntaxKind.GreaterThanToken | SyntaxKind.GreaterThanEqualsToken | SyntaxKind.InstanceOfKeyword | SyntaxKind.InKeyword; export type RelationalOperatorOrHigher = ShiftOperatorOrHigher | RelationalOperator; export type EqualityOperator = SyntaxKind.EqualsEqualsToken | SyntaxKind.EqualsEqualsEqualsToken | SyntaxKind.ExclamationEqualsEqualsToken | SyntaxKind.ExclamationEqualsToken; export type EqualityOperatorOrHigher = RelationalOperatorOrHigher | EqualityOperator; export type BitwiseOperator = SyntaxKind.AmpersandToken | SyntaxKind.BarToken | SyntaxKind.CaretToken; export type BitwiseOperatorOrHigher = EqualityOperatorOrHigher | BitwiseOperator; export type LogicalOperator = SyntaxKind.AmpersandAmpersandToken | SyntaxKind.BarBarToken; export type LogicalOperatorOrHigher = BitwiseOperatorOrHigher | LogicalOperator; export type CompoundAssignmentOperator = SyntaxKind.PlusEqualsToken | SyntaxKind.MinusEqualsToken | SyntaxKind.AsteriskAsteriskEqualsToken | SyntaxKind.AsteriskEqualsToken | SyntaxKind.SlashEqualsToken | SyntaxKind.PercentEqualsToken | SyntaxKind.AmpersandEqualsToken | SyntaxKind.BarEqualsToken | SyntaxKind.CaretEqualsToken | SyntaxKind.LessThanLessThanEqualsToken | SyntaxKind.GreaterThanGreaterThanGreaterThanEqualsToken | SyntaxKind.GreaterThanGreaterThanEqualsToken; export type AssignmentOperator = SyntaxKind.EqualsToken | CompoundAssignmentOperator; export type AssignmentOperatorOrHigher = SyntaxKind.QuestionQuestionToken | LogicalOperatorOrHigher | AssignmentOperator; export type BinaryOperator = AssignmentOperatorOrHigher | SyntaxKind.CommaToken; export type BinaryOperatorToken = Token; export interface BinaryExpression extends Expression, Declaration { kind: SyntaxKind.BinaryExpression; left: Expression; operatorToken: BinaryOperatorToken; right: Expression; } export type AssignmentOperatorToken = Token; export interface AssignmentExpression extends BinaryExpression { left: LeftHandSideExpression; operatorToken: TOperator; } export interface ObjectDestructuringAssignment extends AssignmentExpression { left: ObjectLiteralExpression; } export interface ArrayDestructuringAssignment extends AssignmentExpression { left: ArrayLiteralExpression; } export type DestructuringAssignment = ObjectDestructuringAssignment | ArrayDestructuringAssignment; export type BindingOrAssignmentElement = VariableDeclaration | ParameterDeclaration | BindingElement | PropertyAssignment | ShorthandPropertyAssignment | SpreadAssignment | OmittedExpression | SpreadElement | ArrayLiteralExpression | ObjectLiteralExpression | AssignmentExpression | Identifier | PropertyAccessExpression | ElementAccessExpression; export type BindingOrAssignmentElementRestIndicator = DotDotDotToken | SpreadElement | SpreadAssignment; export type BindingOrAssignmentElementTarget = BindingOrAssignmentPattern | Identifier | PropertyAccessExpression | ElementAccessExpression | OmittedExpression; export type ObjectBindingOrAssignmentPattern = ObjectBindingPattern | ObjectLiteralExpression; export type ArrayBindingOrAssignmentPattern = ArrayBindingPattern | ArrayLiteralExpression; export type AssignmentPattern = ObjectLiteralExpression | ArrayLiteralExpression; export type BindingOrAssignmentPattern = ObjectBindingOrAssignmentPattern | ArrayBindingOrAssignmentPattern; export interface ConditionalExpression extends Expression { kind: SyntaxKind.ConditionalExpression; condition: Expression; questionToken: QuestionToken; whenTrue: Expression; colonToken: ColonToken; whenFalse: Expression; } export type FunctionBody = Block; export type ConciseBody = FunctionBody | Expression; export interface FunctionExpression extends PrimaryExpression, FunctionLikeDeclarationBase, JSDocContainer { kind: SyntaxKind.FunctionExpression; name?: Identifier; body: FunctionBody; } export interface ArrowFunction extends Expression, FunctionLikeDeclarationBase, JSDocContainer { kind: SyntaxKind.ArrowFunction; equalsGreaterThanToken: EqualsGreaterThanToken; body: ConciseBody; name: never; } export interface LiteralLikeNode extends Node { text: string; isUnterminated?: boolean; hasExtendedUnicodeEscape?: boolean; } export interface TemplateLiteralLikeNode extends LiteralLikeNode { rawText?: string; } export interface LiteralExpression extends LiteralLikeNode, PrimaryExpression { _literalExpressionBrand: any; } export interface RegularExpressionLiteral extends LiteralExpression { kind: SyntaxKind.RegularExpressionLiteral; } export interface NoSubstitutionTemplateLiteral extends LiteralExpression, TemplateLiteralLikeNode, Declaration { kind: SyntaxKind.NoSubstitutionTemplateLiteral; } export enum TokenFlags { None = 0, Scientific = 16, Octal = 32, HexSpecifier = 64, BinarySpecifier = 128, OctalSpecifier = 256, } export interface NumericLiteral extends LiteralExpression, Declaration { kind: SyntaxKind.NumericLiteral; } export interface BigIntLiteral extends LiteralExpression { kind: SyntaxKind.BigIntLiteral; } export interface TemplateHead extends TemplateLiteralLikeNode { kind: SyntaxKind.TemplateHead; parent: TemplateExpression; } export interface TemplateMiddle extends TemplateLiteralLikeNode { kind: SyntaxKind.TemplateMiddle; parent: TemplateSpan; } export interface TemplateTail extends TemplateLiteralLikeNode { kind: SyntaxKind.TemplateTail; parent: TemplateSpan; } export type TemplateLiteral = TemplateExpression | NoSubstitutionTemplateLiteral; export interface TemplateExpression extends PrimaryExpression { kind: SyntaxKind.TemplateExpression; head: TemplateHead; templateSpans: NodeArray; } export interface TemplateSpan extends Node { kind: SyntaxKind.TemplateSpan; parent: TemplateExpression; expression: Expression; literal: TemplateMiddle | TemplateTail; } export interface ParenthesizedExpression extends PrimaryExpression, JSDocContainer { kind: SyntaxKind.ParenthesizedExpression; expression: Expression; } export interface ArrayLiteralExpression extends PrimaryExpression { kind: SyntaxKind.ArrayLiteralExpression; elements: NodeArray; } export interface SpreadElement extends Expression { kind: SyntaxKind.SpreadElement; parent: ArrayLiteralExpression | CallExpression | NewExpression; expression: Expression; } /** * This interface is a base interface for ObjectLiteralExpression and JSXAttributes to extend from. JSXAttributes is similar to * ObjectLiteralExpression in that it contains array of properties; however, JSXAttributes' properties can only be * JSXAttribute or JSXSpreadAttribute. ObjectLiteralExpression, on the other hand, can only have properties of type * ObjectLiteralElement (e.g. PropertyAssignment, ShorthandPropertyAssignment etc.) */ export interface ObjectLiteralExpressionBase extends PrimaryExpression, Declaration { properties: NodeArray; } export interface ObjectLiteralExpression extends ObjectLiteralExpressionBase { kind: SyntaxKind.ObjectLiteralExpression; } export type EntityNameExpression = Identifier | PropertyAccessEntityNameExpression; export type EntityNameOrEntityNameExpression = EntityName | EntityNameExpression; export interface PropertyAccessExpression extends MemberExpression, NamedDeclaration { kind: SyntaxKind.PropertyAccessExpression; expression: LeftHandSideExpression; questionDotToken?: QuestionDotToken; name: Identifier | PrivateIdentifier; } export interface PropertyAccessChain extends PropertyAccessExpression { _optionalChainBrand: any; name: Identifier; } export interface SuperPropertyAccessExpression extends PropertyAccessExpression { expression: SuperExpression; } /** Brand for a PropertyAccessExpression which, like a QualifiedName, consists of a sequence of identifiers separated by dots. */ export interface PropertyAccessEntityNameExpression extends PropertyAccessExpression { _propertyAccessExpressionLikeQualifiedNameBrand?: any; expression: EntityNameExpression; name: Identifier; } export interface ElementAccessExpression extends MemberExpression { kind: SyntaxKind.ElementAccessExpression; expression: LeftHandSideExpression; questionDotToken?: QuestionDotToken; argumentExpression: Expression; } export interface ElementAccessChain extends ElementAccessExpression { _optionalChainBrand: any; } export interface SuperElementAccessExpression extends ElementAccessExpression { expression: SuperExpression; } export type SuperProperty = SuperPropertyAccessExpression | SuperElementAccessExpression; export interface CallExpression extends LeftHandSideExpression, Declaration { kind: SyntaxKind.CallExpression; expression: LeftHandSideExpression; questionDotToken?: QuestionDotToken; typeArguments?: NodeArray; arguments: NodeArray; } export interface CallChain extends CallExpression { _optionalChainBrand: any; } export type OptionalChain = PropertyAccessChain | ElementAccessChain | CallChain | NonNullChain; export interface SuperCall extends CallExpression { expression: SuperExpression; } export interface ImportCall extends CallExpression { expression: ImportExpression; } export interface ExpressionWithTypeArguments extends NodeWithTypeArguments { kind: SyntaxKind.ExpressionWithTypeArguments; parent: HeritageClause | JSDocAugmentsTag | JSDocImplementsTag; expression: LeftHandSideExpression; } export interface NewExpression extends PrimaryExpression, Declaration { kind: SyntaxKind.NewExpression; expression: LeftHandSideExpression; typeArguments?: NodeArray; arguments?: NodeArray; } export interface TaggedTemplateExpression extends MemberExpression { kind: SyntaxKind.TaggedTemplateExpression; tag: LeftHandSideExpression; typeArguments?: NodeArray; template: TemplateLiteral; } export type CallLikeExpression = CallExpression | NewExpression | TaggedTemplateExpression | Decorator | JsxOpeningLikeElement; export interface AsExpression extends Expression { kind: SyntaxKind.AsExpression; expression: Expression; type: TypeNode; } export interface TypeAssertion extends UnaryExpression { kind: SyntaxKind.TypeAssertionExpression; type: TypeNode; expression: UnaryExpression; } export type AssertionExpression = TypeAssertion | AsExpression; export interface NonNullExpression extends LeftHandSideExpression { kind: SyntaxKind.NonNullExpression; expression: Expression; } export interface NonNullChain extends NonNullExpression { _optionalChainBrand: any; } export interface MetaProperty extends PrimaryExpression { kind: SyntaxKind.MetaProperty; keywordToken: SyntaxKind.NewKeyword | SyntaxKind.ImportKeyword; name: Identifier; } export interface JsxElement extends PrimaryExpression { kind: SyntaxKind.JsxElement; openingElement: JsxOpeningElement; children: NodeArray; closingElement: JsxClosingElement; } export type JsxOpeningLikeElement = JsxSelfClosingElement | JsxOpeningElement; export type JsxAttributeLike = JsxAttribute | JsxSpreadAttribute; export type JsxTagNameExpression = Identifier | ThisExpression | JsxTagNamePropertyAccess; export interface JsxTagNamePropertyAccess extends PropertyAccessExpression { expression: JsxTagNameExpression; } export interface JsxAttributes extends ObjectLiteralExpressionBase { kind: SyntaxKind.JsxAttributes; parent: JsxOpeningLikeElement; } export interface JsxOpeningElement extends Expression { kind: SyntaxKind.JsxOpeningElement; parent: JsxElement; tagName: JsxTagNameExpression; typeArguments?: NodeArray; attributes: JsxAttributes; } export interface JsxSelfClosingElement extends PrimaryExpression { kind: SyntaxKind.JsxSelfClosingElement; tagName: JsxTagNameExpression; typeArguments?: NodeArray; attributes: JsxAttributes; } export interface JsxFragment extends PrimaryExpression { kind: SyntaxKind.JsxFragment; openingFragment: JsxOpeningFragment; children: NodeArray; closingFragment: JsxClosingFragment; } export interface JsxOpeningFragment extends Expression { kind: SyntaxKind.JsxOpeningFragment; parent: JsxFragment; } export interface JsxClosingFragment extends Expression { kind: SyntaxKind.JsxClosingFragment; parent: JsxFragment; } export interface JsxAttribute extends ObjectLiteralElement { kind: SyntaxKind.JsxAttribute; parent: JsxAttributes; name: Identifier; initializer?: StringLiteral | JsxExpression; } export interface JsxSpreadAttribute extends ObjectLiteralElement { kind: SyntaxKind.JsxSpreadAttribute; parent: JsxAttributes; expression: Expression; } export interface JsxClosingElement extends Node { kind: SyntaxKind.JsxClosingElement; parent: JsxElement; tagName: JsxTagNameExpression; } export interface JsxExpression extends Expression { kind: SyntaxKind.JsxExpression; parent: JsxElement | JsxAttributeLike; dotDotDotToken?: Token; expression?: Expression; } export interface JsxText extends LiteralLikeNode { kind: SyntaxKind.JsxText; containsOnlyTriviaWhiteSpaces: boolean; parent: JsxElement; } export type JsxChild = JsxText | JsxExpression | JsxElement | JsxSelfClosingElement | JsxFragment; export interface Statement extends Node { _statementBrand: any; } export interface NotEmittedStatement extends Statement { kind: SyntaxKind.NotEmittedStatement; } /** * A list of comma-separated expressions. This node is only created by transformations. */ export interface CommaListExpression extends Expression { kind: SyntaxKind.CommaListExpression; elements: NodeArray; } export interface EmptyStatement extends Statement { kind: SyntaxKind.EmptyStatement; } export interface DebuggerStatement extends Statement { kind: SyntaxKind.DebuggerStatement; } export interface MissingDeclaration extends DeclarationStatement { kind: SyntaxKind.MissingDeclaration; name?: Identifier; } export type BlockLike = SourceFile | Block | ModuleBlock | CaseOrDefaultClause; export interface Block extends Statement { kind: SyntaxKind.Block; statements: NodeArray; } export interface VariableStatement extends Statement, JSDocContainer { kind: SyntaxKind.VariableStatement; declarationList: VariableDeclarationList; } export interface ExpressionStatement extends Statement, JSDocContainer { kind: SyntaxKind.ExpressionStatement; expression: Expression; } export interface IfStatement extends Statement { kind: SyntaxKind.IfStatement; expression: Expression; thenStatement: Statement; elseStatement?: Statement; } export interface IterationStatement extends Statement { statement: Statement; } export interface DoStatement extends IterationStatement { kind: SyntaxKind.DoStatement; expression: Expression; } export interface WhileStatement extends IterationStatement { kind: SyntaxKind.WhileStatement; expression: Expression; } export type ForInitializer = VariableDeclarationList | Expression; export interface ForStatement extends IterationStatement { kind: SyntaxKind.ForStatement; initializer?: ForInitializer; condition?: Expression; incrementor?: Expression; } export type ForInOrOfStatement = ForInStatement | ForOfStatement; export interface ForInStatement extends IterationStatement { kind: SyntaxKind.ForInStatement; initializer: ForInitializer; expression: Expression; } export interface ForOfStatement extends IterationStatement { kind: SyntaxKind.ForOfStatement; awaitModifier?: AwaitKeywordToken; initializer: ForInitializer; expression: Expression; } export interface BreakStatement extends Statement { kind: SyntaxKind.BreakStatement; label?: Identifier; } export interface ContinueStatement extends Statement { kind: SyntaxKind.ContinueStatement; label?: Identifier; } export type BreakOrContinueStatement = BreakStatement | ContinueStatement; export interface ReturnStatement extends Statement { kind: SyntaxKind.ReturnStatement; expression?: Expression; } export interface WithStatement extends Statement { kind: SyntaxKind.WithStatement; expression: Expression; statement: Statement; } export interface SwitchStatement extends Statement { kind: SyntaxKind.SwitchStatement; expression: Expression; caseBlock: CaseBlock; possiblyExhaustive?: boolean; } export interface CaseBlock extends Node { kind: SyntaxKind.CaseBlock; parent: SwitchStatement; clauses: NodeArray; } export interface CaseClause extends Node { kind: SyntaxKind.CaseClause; parent: CaseBlock; expression: Expression; statements: NodeArray; } export interface DefaultClause extends Node { kind: SyntaxKind.DefaultClause; parent: CaseBlock; statements: NodeArray; } export type CaseOrDefaultClause = CaseClause | DefaultClause; export interface LabeledStatement extends Statement, JSDocContainer { kind: SyntaxKind.LabeledStatement; label: Identifier; statement: Statement; } export interface ThrowStatement extends Statement { kind: SyntaxKind.ThrowStatement; expression?: Expression; } export interface TryStatement extends Statement { kind: SyntaxKind.TryStatement; tryBlock: Block; catchClause?: CatchClause; finallyBlock?: Block; } export interface CatchClause extends Node { kind: SyntaxKind.CatchClause; parent: TryStatement; variableDeclaration?: VariableDeclaration; block: Block; } export type ObjectTypeDeclaration = ClassLikeDeclaration | InterfaceDeclaration | TypeLiteralNode; export type DeclarationWithTypeParameters = DeclarationWithTypeParameterChildren | JSDocTypedefTag | JSDocCallbackTag | JSDocSignature; export type DeclarationWithTypeParameterChildren = SignatureDeclaration | ClassLikeDeclaration | InterfaceDeclaration | TypeAliasDeclaration | JSDocTemplateTag; export interface ClassLikeDeclarationBase extends NamedDeclaration, JSDocContainer { kind: SyntaxKind.ClassDeclaration | SyntaxKind.ClassExpression; name?: Identifier; typeParameters?: NodeArray; heritageClauses?: NodeArray; members: NodeArray; } export interface ClassDeclaration extends ClassLikeDeclarationBase, DeclarationStatement { kind: SyntaxKind.ClassDeclaration; /** May be undefined in `export default class { ... }`. */ name?: Identifier; } export interface ClassExpression extends ClassLikeDeclarationBase, PrimaryExpression { kind: SyntaxKind.ClassExpression; } export type ClassLikeDeclaration = ClassDeclaration | ClassExpression; export interface ClassElement extends NamedDeclaration { _classElementBrand: any; name?: PropertyName; } export interface TypeElement extends NamedDeclaration { _typeElementBrand: any; name?: PropertyName; questionToken?: QuestionToken; } export interface InterfaceDeclaration extends DeclarationStatement, JSDocContainer { kind: SyntaxKind.InterfaceDeclaration; name: Identifier; typeParameters?: NodeArray; heritageClauses?: NodeArray; members: NodeArray; } export interface HeritageClause extends Node { kind: SyntaxKind.HeritageClause; parent: InterfaceDeclaration | ClassLikeDeclaration; token: SyntaxKind.ExtendsKeyword | SyntaxKind.ImplementsKeyword; types: NodeArray; } export interface TypeAliasDeclaration extends DeclarationStatement, JSDocContainer { kind: SyntaxKind.TypeAliasDeclaration; name: Identifier; typeParameters?: NodeArray; type: TypeNode; } export interface EnumMember extends NamedDeclaration, JSDocContainer { kind: SyntaxKind.EnumMember; parent: EnumDeclaration; name: PropertyName; initializer?: Expression; } export interface EnumDeclaration extends DeclarationStatement, JSDocContainer { kind: SyntaxKind.EnumDeclaration; name: Identifier; members: NodeArray; } export type ModuleName = Identifier | StringLiteral; export type ModuleBody = NamespaceBody | JSDocNamespaceBody; export interface ModuleDeclaration extends DeclarationStatement, JSDocContainer { kind: SyntaxKind.ModuleDeclaration; parent: ModuleBody | SourceFile; name: ModuleName; body?: ModuleBody | JSDocNamespaceDeclaration; } export type NamespaceBody = ModuleBlock | NamespaceDeclaration; export interface NamespaceDeclaration extends ModuleDeclaration { name: Identifier; body: NamespaceBody; } export type JSDocNamespaceBody = Identifier | JSDocNamespaceDeclaration; export interface JSDocNamespaceDeclaration extends ModuleDeclaration { name: Identifier; body?: JSDocNamespaceBody; } export interface ModuleBlock extends Node, Statement { kind: SyntaxKind.ModuleBlock; parent: ModuleDeclaration; statements: NodeArray; } export type ModuleReference = EntityName | ExternalModuleReference; /** * One of: * - import x = require("mod"); * - import x = M.x; */ export interface ImportEqualsDeclaration extends DeclarationStatement, JSDocContainer { kind: SyntaxKind.ImportEqualsDeclaration; parent: SourceFile | ModuleBlock; name: Identifier; moduleReference: ModuleReference; } export interface ExternalModuleReference extends Node { kind: SyntaxKind.ExternalModuleReference; parent: ImportEqualsDeclaration; expression: Expression; } export interface ImportDeclaration extends Statement { kind: SyntaxKind.ImportDeclaration; parent: SourceFile | ModuleBlock; importClause?: ImportClause; /** If this is not a StringLiteral it will be a grammar error. */ moduleSpecifier: Expression; } export type NamedImportBindings = NamespaceImport | NamedImports; export type NamedExportBindings = NamespaceExport | NamedExports; export interface ImportClause extends NamedDeclaration { kind: SyntaxKind.ImportClause; parent: ImportDeclaration; isTypeOnly: boolean; name?: Identifier; namedBindings?: NamedImportBindings; } export interface NamespaceImport extends NamedDeclaration { kind: SyntaxKind.NamespaceImport; parent: ImportClause; name: Identifier; } export interface NamespaceExport extends NamedDeclaration { kind: SyntaxKind.NamespaceExport; parent: ExportDeclaration; name: Identifier; } export interface NamespaceExportDeclaration extends DeclarationStatement { kind: SyntaxKind.NamespaceExportDeclaration; name: Identifier; } export interface ExportDeclaration extends DeclarationStatement, JSDocContainer { kind: SyntaxKind.ExportDeclaration; parent: SourceFile | ModuleBlock; isTypeOnly: boolean; /** Will not be assigned in the case of `export * from "foo";` */ exportClause?: NamedExportBindings; /** If this is not a StringLiteral it will be a grammar error. */ moduleSpecifier?: Expression; } export interface NamedImports extends Node { kind: SyntaxKind.NamedImports; parent: ImportClause; elements: NodeArray; } export interface NamedExports extends Node { kind: SyntaxKind.NamedExports; parent: ExportDeclaration; elements: NodeArray; } export type NamedImportsOrExports = NamedImports | NamedExports; export interface ImportSpecifier extends NamedDeclaration { kind: SyntaxKind.ImportSpecifier; parent: NamedImports; propertyName?: Identifier; name: Identifier; } export interface ExportSpecifier extends NamedDeclaration { kind: SyntaxKind.ExportSpecifier; parent: NamedExports; propertyName?: Identifier; name: Identifier; } export type ImportOrExportSpecifier = ImportSpecifier | ExportSpecifier; export type TypeOnlyCompatibleAliasDeclaration = ImportClause | NamespaceImport | ImportOrExportSpecifier; /** * This is either an `export =` or an `export default` declaration. * Unless `isExportEquals` is set, this node was parsed as an `export default`. */ export interface ExportAssignment extends DeclarationStatement { kind: SyntaxKind.ExportAssignment; parent: SourceFile; isExportEquals?: boolean; expression: Expression; } export interface FileReference extends TextRange { fileName: string; } export interface CheckJsDirective extends TextRange { enabled: boolean; } export type CommentKind = SyntaxKind.SingleLineCommentTrivia | SyntaxKind.MultiLineCommentTrivia; export interface CommentRange extends TextRange { hasTrailingNewLine?: boolean; kind: CommentKind; } export interface SynthesizedComment extends CommentRange { text: string; pos: -1; end: -1; } export interface JSDocTypeExpression extends TypeNode { kind: SyntaxKind.JSDocTypeExpression; type: TypeNode; } export interface JSDocType extends TypeNode { _jsDocTypeBrand: any; } export interface JSDocAllType extends JSDocType { kind: SyntaxKind.JSDocAllType; } export interface JSDocUnknownType extends JSDocType { kind: SyntaxKind.JSDocUnknownType; } export interface JSDocNonNullableType extends JSDocType { kind: SyntaxKind.JSDocNonNullableType; type: TypeNode; } export interface JSDocNullableType extends JSDocType { kind: SyntaxKind.JSDocNullableType; type: TypeNode; } export interface JSDocOptionalType extends JSDocType { kind: SyntaxKind.JSDocOptionalType; type: TypeNode; } export interface JSDocFunctionType extends JSDocType, SignatureDeclarationBase { kind: SyntaxKind.JSDocFunctionType; } export interface JSDocVariadicType extends JSDocType { kind: SyntaxKind.JSDocVariadicType; type: TypeNode; } export interface JSDocNamepathType extends JSDocType { kind: SyntaxKind.JSDocNamepathType; type: TypeNode; } export type JSDocTypeReferencingNode = JSDocVariadicType | JSDocOptionalType | JSDocNullableType | JSDocNonNullableType; export interface JSDoc extends Node { kind: SyntaxKind.JSDocComment; parent: HasJSDoc; tags?: NodeArray; comment?: string; } export interface JSDocTag extends Node { parent: JSDoc | JSDocTypeLiteral; tagName: Identifier; comment?: string; } export interface JSDocUnknownTag extends JSDocTag { kind: SyntaxKind.JSDocTag; } /** * Note that `@extends` is a synonym of `@augments`. * Both tags are represented by this interface. */ export interface JSDocAugmentsTag extends JSDocTag { kind: SyntaxKind.JSDocAugmentsTag; class: ExpressionWithTypeArguments & { expression: Identifier | PropertyAccessEntityNameExpression; }; } export interface JSDocImplementsTag extends JSDocTag { kind: SyntaxKind.JSDocImplementsTag; class: ExpressionWithTypeArguments & { expression: Identifier | PropertyAccessEntityNameExpression; }; } export interface JSDocAuthorTag extends JSDocTag { kind: SyntaxKind.JSDocAuthorTag; } export interface JSDocClassTag extends JSDocTag { kind: SyntaxKind.JSDocClassTag; } export interface JSDocPublicTag extends JSDocTag { kind: SyntaxKind.JSDocPublicTag; } export interface JSDocPrivateTag extends JSDocTag { kind: SyntaxKind.JSDocPrivateTag; } export interface JSDocProtectedTag extends JSDocTag { kind: SyntaxKind.JSDocProtectedTag; } export interface JSDocReadonlyTag extends JSDocTag { kind: SyntaxKind.JSDocReadonlyTag; } export interface JSDocEnumTag extends JSDocTag, Declaration { parent: JSDoc; kind: SyntaxKind.JSDocEnumTag; typeExpression?: JSDocTypeExpression; } export interface JSDocThisTag extends JSDocTag { kind: SyntaxKind.JSDocThisTag; typeExpression?: JSDocTypeExpression; } export interface JSDocTemplateTag extends JSDocTag { kind: SyntaxKind.JSDocTemplateTag; constraint: JSDocTypeExpression | undefined; typeParameters: NodeArray; } export interface JSDocReturnTag extends JSDocTag { kind: SyntaxKind.JSDocReturnTag; typeExpression?: JSDocTypeExpression; } export interface JSDocTypeTag extends JSDocTag { kind: SyntaxKind.JSDocTypeTag; typeExpression: JSDocTypeExpression; } export interface JSDocTypedefTag extends JSDocTag, NamedDeclaration { parent: JSDoc; kind: SyntaxKind.JSDocTypedefTag; fullName?: JSDocNamespaceDeclaration | Identifier; name?: Identifier; typeExpression?: JSDocTypeExpression | JSDocTypeLiteral; } export interface JSDocCallbackTag extends JSDocTag, NamedDeclaration { parent: JSDoc; kind: SyntaxKind.JSDocCallbackTag; fullName?: JSDocNamespaceDeclaration | Identifier; name?: Identifier; typeExpression: JSDocSignature; } export interface JSDocSignature extends JSDocType, Declaration { kind: SyntaxKind.JSDocSignature; typeParameters?: readonly JSDocTemplateTag[]; parameters: readonly JSDocParameterTag[]; type: JSDocReturnTag | undefined; } export interface JSDocPropertyLikeTag extends JSDocTag, Declaration { parent: JSDoc; name: EntityName; typeExpression?: JSDocTypeExpression; /** Whether the property name came before the type -- non-standard for JSDoc, but Typescript-like */ isNameFirst: boolean; isBracketed: boolean; } export interface JSDocPropertyTag extends JSDocPropertyLikeTag { kind: SyntaxKind.JSDocPropertyTag; } export interface JSDocParameterTag extends JSDocPropertyLikeTag { kind: SyntaxKind.JSDocParameterTag; } export interface JSDocTypeLiteral extends JSDocType { kind: SyntaxKind.JSDocTypeLiteral; jsDocPropertyTags?: readonly JSDocPropertyLikeTag[]; /** If true, then this type literal represents an *array* of its type. */ isArrayType?: boolean; } export enum FlowFlags { Unreachable = 1, Start = 2, BranchLabel = 4, LoopLabel = 8, Assignment = 16, TrueCondition = 32, FalseCondition = 64, SwitchClause = 128, ArrayMutation = 256, Call = 512, ReduceLabel = 1024, Referenced = 2048, Shared = 4096, Label = 12, Condition = 96 } export type FlowNode = AfterFinallyFlow | PreFinallyFlow | FlowStart | FlowLabel | FlowAssignment | FlowCall | FlowCondition | FlowSwitchClause | FlowArrayMutation; export interface FlowNodeBase { flags: FlowFlags; id?: number; } export interface FlowLock { locked?: boolean; } export interface AfterFinallyFlow extends FlowNodeBase, FlowLock { antecedent: FlowNode; } export interface PreFinallyFlow extends FlowNodeBase { antecedent: FlowNode; lock: FlowLock; } export interface FlowStart extends FlowNodeBase { node?: FunctionExpression | ArrowFunction | MethodDeclaration; } export interface FlowLabel extends FlowNodeBase { antecedents: FlowNode[] | undefined; } export interface FlowAssignment extends FlowNodeBase { node: Expression | VariableDeclaration | BindingElement; antecedent: FlowNode; } export interface FlowCall extends FlowNodeBase { node: CallExpression; antecedent: FlowNode; } export interface FlowCondition extends FlowNodeBase { node: Expression; antecedent: FlowNode; } export interface FlowSwitchClause extends FlowNodeBase { switchStatement: SwitchStatement; clauseStart: number; clauseEnd: number; antecedent: FlowNode; } export interface FlowArrayMutation extends FlowNodeBase { node: CallExpression | BinaryExpression; antecedent: FlowNode; } export interface FlowReduceLabel extends FlowNodeBase { target: FlowLabel; antecedents: FlowNode[]; antecedent: FlowNode; } export type FlowType = Type | IncompleteType; export interface IncompleteType { flags: TypeFlags; type: Type; } export interface AmdDependency { path: string; name?: string; } export interface SourceFile extends Declaration { kind: SyntaxKind.SourceFile; statements: NodeArray; endOfFileToken: Token; fileName: string; text: string; amdDependencies: readonly AmdDependency[]; moduleName?: string; referencedFiles: readonly FileReference[]; typeReferenceDirectives: readonly FileReference[]; libReferenceDirectives: readonly FileReference[]; languageVariant: LanguageVariant; isDeclarationFile: boolean; /** * lib.d.ts should have a reference comment like * * /// * * If any other file has this comment, it signals not to include lib.d.ts * because this containing file is intended to act as a default library. */ hasNoDefaultLib: boolean; languageVersion: ScriptTarget; } export interface Bundle extends Node { kind: SyntaxKind.Bundle; prepends: readonly (InputFiles | UnparsedSource)[]; sourceFiles: readonly SourceFile[]; } export interface InputFiles extends Node { kind: SyntaxKind.InputFiles; javascriptPath?: string; javascriptText: string; javascriptMapPath?: string; javascriptMapText?: string; declarationPath?: string; declarationText: string; declarationMapPath?: string; declarationMapText?: string; } export interface UnparsedSource extends Node { kind: SyntaxKind.UnparsedSource; fileName: string; text: string; prologues: readonly UnparsedPrologue[]; helpers: readonly UnscopedEmitHelper[] | undefined; referencedFiles: readonly FileReference[]; typeReferenceDirectives: readonly string[] | undefined; libReferenceDirectives: readonly FileReference[]; hasNoDefaultLib?: boolean; sourceMapPath?: string; sourceMapText?: string; syntheticReferences?: readonly UnparsedSyntheticReference[]; texts: readonly UnparsedSourceText[]; } export type UnparsedSourceText = UnparsedPrepend | UnparsedTextLike; export type UnparsedNode = UnparsedPrologue | UnparsedSourceText | UnparsedSyntheticReference; export interface UnparsedSection extends Node { kind: SyntaxKind; data?: string; parent: UnparsedSource; } export interface UnparsedPrologue extends UnparsedSection { kind: SyntaxKind.UnparsedPrologue; data: string; parent: UnparsedSource; } export interface UnparsedPrepend extends UnparsedSection { kind: SyntaxKind.UnparsedPrepend; data: string; parent: UnparsedSource; texts: readonly UnparsedTextLike[]; } export interface UnparsedTextLike extends UnparsedSection { kind: SyntaxKind.UnparsedText | SyntaxKind.UnparsedInternalText; parent: UnparsedSource; } export interface UnparsedSyntheticReference extends UnparsedSection { kind: SyntaxKind.UnparsedSyntheticReference; parent: UnparsedSource; } export interface JsonSourceFile extends SourceFile { statements: NodeArray; } export interface TsConfigSourceFile extends JsonSourceFile { extendedSourceFiles?: string[]; } export interface JsonMinusNumericLiteral extends PrefixUnaryExpression { kind: SyntaxKind.PrefixUnaryExpression; operator: SyntaxKind.MinusToken; operand: NumericLiteral; } export interface JsonObjectExpressionStatement extends ExpressionStatement { expression: ObjectLiteralExpression | ArrayLiteralExpression | JsonMinusNumericLiteral | NumericLiteral | StringLiteral | BooleanLiteral | NullLiteral; } export interface ScriptReferenceHost { getCompilerOptions(): CompilerOptions; getSourceFile(fileName: string): SourceFile | undefined; getSourceFileByPath(path: Path): SourceFile | undefined; getCurrentDirectory(): string; } export interface ParseConfigHost { useCaseSensitiveFileNames: boolean; readDirectory(rootDir: string, extensions: readonly string[], excludes: readonly string[] | undefined, includes: readonly string[], depth?: number): readonly string[]; /** * Gets a value indicating whether the specified path exists and is a file. * @param path The path to test. */ fileExists(path: string): boolean; readFile(path: string): string | undefined; trace?(s: string): void; } /** * Branded string for keeping track of when we've turned an ambiguous path * specified like "./blah" to an absolute path to an actual * tsconfig file, e.g. "/root/blah/tsconfig.json" */ export type ResolvedConfigFileName = string & { _isResolvedConfigFileName: never; }; export type WriteFileCallback = (fileName: string, data: string, writeByteOrderMark: boolean, onError?: (message: string) => void, sourceFiles?: readonly SourceFile[]) => void; export class OperationCanceledException { } export interface CancellationToken { isCancellationRequested(): boolean; /** @throws OperationCanceledException if isCancellationRequested is true */ throwIfCancellationRequested(): void; } export interface Program extends ScriptReferenceHost { getCurrentDirectory(): string; /** * Get a list of root file names that were passed to a 'createProgram' */ getRootFileNames(): readonly string[]; /** * Get a list of files in the program */ getSourceFiles(): readonly SourceFile[]; /** * Emits the JavaScript and declaration files. If targetSourceFile is not specified, then * the JavaScript and declaration files will be produced for all the files in this program. * If targetSourceFile is specified, then only the JavaScript and declaration for that * specific file will be generated. * * If writeFile is not specified then the writeFile callback from the compiler host will be * used for writing the JavaScript and declaration files. Otherwise, the writeFile parameter * will be invoked when writing the JavaScript and declaration files. */ emit(targetSourceFile?: SourceFile, writeFile?: WriteFileCallback, cancellationToken?: CancellationToken, emitOnlyDtsFiles?: boolean, customTransformers?: CustomTransformers): EmitResult; getOptionsDiagnostics(cancellationToken?: CancellationToken): readonly Diagnostic[]; getGlobalDiagnostics(cancellationToken?: CancellationToken): readonly Diagnostic[]; getSyntacticDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly DiagnosticWithLocation[]; /** The first time this is called, it will return global diagnostics (no location). */ getSemanticDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly Diagnostic[]; getDeclarationDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly DiagnosticWithLocation[]; getConfigFileParsingDiagnostics(): readonly Diagnostic[]; /** * Gets a type checker that can be used to semantically analyze source files in the program. */ getTypeChecker(): TypeChecker; getNodeCount(): number; getIdentifierCount(): number; getSymbolCount(): number; getTypeCount(): number; getInstantiationCount(): number; getRelationCacheSizes(): { assignable: number; identity: number; subtype: number; strictSubtype: number; }; isSourceFileFromExternalLibrary(file: SourceFile): boolean; isSourceFileDefaultLibrary(file: SourceFile): boolean; getProjectReferences(): readonly ProjectReference[] | undefined; getResolvedProjectReferences(): readonly (ResolvedProjectReference | undefined)[] | undefined; } export interface ResolvedProjectReference { commandLine: ParsedCommandLine; sourceFile: SourceFile; references?: readonly (ResolvedProjectReference | undefined)[]; } export type CustomTransformerFactory = (context: TransformationContext) => CustomTransformer; export interface CustomTransformer { transformSourceFile(node: SourceFile): SourceFile; transformBundle(node: Bundle): Bundle; } export interface CustomTransformers { /** Custom transformers to evaluate before built-in .js transformations. */ before?: (TransformerFactory | CustomTransformerFactory)[]; /** Custom transformers to evaluate after built-in .js transformations. */ after?: (TransformerFactory | CustomTransformerFactory)[]; /** Custom transformers to evaluate after built-in .d.ts transformations. */ afterDeclarations?: (TransformerFactory | CustomTransformerFactory)[]; } export interface SourceMapSpan { /** Line number in the .js file. */ emittedLine: number; /** Column number in the .js file. */ emittedColumn: number; /** Line number in the .ts file. */ sourceLine: number; /** Column number in the .ts file. */ sourceColumn: number; /** Optional name (index into names array) associated with this span. */ nameIndex?: number; /** .ts file (index into sources array) associated with this span */ sourceIndex: number; } /** Return code used by getEmitOutput function to indicate status of the function */ export enum ExitStatus { Success = 0, DiagnosticsPresent_OutputsSkipped = 1, DiagnosticsPresent_OutputsGenerated = 2, InvalidProject_OutputsSkipped = 3, ProjectReferenceCycle_OutputsSkipped = 4, /** @deprecated Use ProjectReferenceCycle_OutputsSkipped instead. */ ProjectReferenceCycle_OutputsSkupped = 4 } export interface EmitResult { emitSkipped: boolean; /** Contains declaration emit diagnostics */ diagnostics: readonly Diagnostic[]; emittedFiles?: string[]; } export interface TypeChecker { getTypeOfSymbolAtLocation(symbol: Symbol, node: Node): Type; getDeclaredTypeOfSymbol(symbol: Symbol): Type; getPropertiesOfType(type: Type): Symbol[]; getPropertyOfType(type: Type, propertyName: string): Symbol | undefined; getPrivateIdentifierPropertyOfType(leftType: Type, name: string, location: Node): Symbol | undefined; getIndexInfoOfType(type: Type, kind: IndexKind): IndexInfo | undefined; getSignaturesOfType(type: Type, kind: SignatureKind): readonly Signature[]; getIndexTypeOfType(type: Type, kind: IndexKind): Type | undefined; getBaseTypes(type: InterfaceType): BaseType[]; getBaseTypeOfLiteralType(type: Type): Type; getWidenedType(type: Type): Type; getReturnTypeOfSignature(signature: Signature): Type; getNullableType(type: Type, flags: TypeFlags): Type; getNonNullableType(type: Type): Type; getTypeArguments(type: TypeReference): readonly Type[]; /** Note that the resulting nodes cannot be checked. */ typeToTypeNode(type: Type, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): TypeNode | undefined; /** Note that the resulting nodes cannot be checked. */ signatureToSignatureDeclaration(signature: Signature, kind: SyntaxKind, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): (SignatureDeclaration & { typeArguments?: NodeArray; }) | undefined; /** Note that the resulting nodes cannot be checked. */ indexInfoToIndexSignatureDeclaration(indexInfo: IndexInfo, kind: IndexKind, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): IndexSignatureDeclaration | undefined; /** Note that the resulting nodes cannot be checked. */ symbolToEntityName(symbol: Symbol, meaning: SymbolFlags, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): EntityName | undefined; /** Note that the resulting nodes cannot be checked. */ symbolToExpression(symbol: Symbol, meaning: SymbolFlags, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): Expression | undefined; /** Note that the resulting nodes cannot be checked. */ symbolToTypeParameterDeclarations(symbol: Symbol, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): NodeArray | undefined; /** Note that the resulting nodes cannot be checked. */ symbolToParameterDeclaration(symbol: Symbol, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): ParameterDeclaration | undefined; /** Note that the resulting nodes cannot be checked. */ typeParameterToDeclaration(parameter: TypeParameter, enclosingDeclaration?: Node, flags?: NodeBuilderFlags): TypeParameterDeclaration | undefined; getSymbolsInScope(location: Node, meaning: SymbolFlags): Symbol[]; getSymbolAtLocation(node: Node): Symbol | undefined; getSymbolsOfParameterPropertyDeclaration(parameter: ParameterDeclaration, parameterName: string): Symbol[]; /** * The function returns the value (local variable) symbol of an identifier in the short-hand property assignment. * This is necessary as an identifier in short-hand property assignment can contains two meaning: property name and property value. */ getShorthandAssignmentValueSymbol(location: Node): Symbol | undefined; getExportSpecifierLocalTargetSymbol(location: ExportSpecifier): Symbol | undefined; /** * If a symbol is a local symbol with an associated exported symbol, returns the exported symbol. * Otherwise returns its input. * For example, at `export type T = number;`: * - `getSymbolAtLocation` at the location `T` will return the exported symbol for `T`. * - But the result of `getSymbolsInScope` will contain the *local* symbol for `T`, not the exported symbol. * - Calling `getExportSymbolOfSymbol` on that local symbol will return the exported symbol. */ getExportSymbolOfSymbol(symbol: Symbol): Symbol; getPropertySymbolOfDestructuringAssignment(location: Identifier): Symbol | undefined; getTypeOfAssignmentPattern(pattern: AssignmentPattern): Type; getTypeAtLocation(node: Node): Type; getTypeFromTypeNode(node: TypeNode): Type; signatureToString(signature: Signature, enclosingDeclaration?: Node, flags?: TypeFormatFlags, kind?: SignatureKind): string; typeToString(type: Type, enclosingDeclaration?: Node, flags?: TypeFormatFlags): string; symbolToString(symbol: Symbol, enclosingDeclaration?: Node, meaning?: SymbolFlags, flags?: SymbolFormatFlags): string; typePredicateToString(predicate: TypePredicate, enclosingDeclaration?: Node, flags?: TypeFormatFlags): string; getFullyQualifiedName(symbol: Symbol): string; getAugmentedPropertiesOfType(type: Type): Symbol[]; getRootSymbols(symbol: Symbol): readonly Symbol[]; getContextualType(node: Expression): Type | undefined; /** * returns unknownSignature in the case of an error. * returns undefined if the node is not valid. * @param argumentCount Apparent number of arguments, passed in case of a possibly incomplete call. This should come from an ArgumentListInfo. See `signatureHelp.ts`. */ getResolvedSignature(node: CallLikeExpression, candidatesOutArray?: Signature[], argumentCount?: number): Signature | undefined; getSignatureFromDeclaration(declaration: SignatureDeclaration): Signature | undefined; isImplementationOfOverload(node: SignatureDeclaration): boolean | undefined; isUndefinedSymbol(symbol: Symbol): boolean; isArgumentsSymbol(symbol: Symbol): boolean; isUnknownSymbol(symbol: Symbol): boolean; getConstantValue(node: EnumMember | PropertyAccessExpression | ElementAccessExpression): string | number | undefined; isValidPropertyAccess(node: PropertyAccessExpression | QualifiedName | ImportTypeNode, propertyName: string): boolean; /** Follow all aliases to get the original symbol. */ getAliasedSymbol(symbol: Symbol): Symbol; getExportsOfModule(moduleSymbol: Symbol): Symbol[]; getJsxIntrinsicTagNamesAt(location: Node): Symbol[]; isOptionalParameter(node: ParameterDeclaration): boolean; getAmbientModules(): Symbol[]; tryGetMemberInModuleExports(memberName: string, moduleSymbol: Symbol): Symbol | undefined; getApparentType(type: Type): Type; getBaseConstraintOfType(type: Type): Type | undefined; getDefaultFromTypeParameter(type: Type): Type | undefined; /** * Depending on the operation performed, it may be appropriate to throw away the checker * if the cancellation token is triggered. Typically, if it is used for error checking * and the operation is cancelled, then it should be discarded, otherwise it is safe to keep. */ runWithCancellationToken(token: CancellationToken, cb: (checker: TypeChecker) => T): T; } export enum NodeBuilderFlags { None = 0, NoTruncation = 1, WriteArrayAsGenericType = 2, GenerateNamesForShadowedTypeParams = 4, UseStructuralFallback = 8, ForbidIndexedAccessSymbolReferences = 16, WriteTypeArgumentsOfSignature = 32, UseFullyQualifiedType = 64, UseOnlyExternalAliasing = 128, SuppressAnyReturnType = 256, WriteTypeParametersInQualifiedName = 512, MultilineObjectLiterals = 1024, WriteClassExpressionAsTypeLiteral = 2048, UseTypeOfFunction = 4096, OmitParameterModifiers = 8192, UseAliasDefinedOutsideCurrentScope = 16384, UseSingleQuotesForStringLiteralType = 268435456, NoTypeReduction = 536870912, AllowThisInObjectLiteral = 32768, AllowQualifedNameInPlaceOfIdentifier = 65536, AllowAnonymousIdentifier = 131072, AllowEmptyUnionOrIntersection = 262144, AllowEmptyTuple = 524288, AllowUniqueESSymbolType = 1048576, AllowEmptyIndexInfoType = 2097152, AllowNodeModulesRelativePaths = 67108864, IgnoreErrors = 70221824, InObjectTypeLiteral = 4194304, InTypeAlias = 8388608, InInitialEntityName = 16777216, InReverseMappedType = 33554432 } export enum TypeFormatFlags { None = 0, NoTruncation = 1, WriteArrayAsGenericType = 2, UseStructuralFallback = 8, WriteTypeArgumentsOfSignature = 32, UseFullyQualifiedType = 64, SuppressAnyReturnType = 256, MultilineObjectLiterals = 1024, WriteClassExpressionAsTypeLiteral = 2048, UseTypeOfFunction = 4096, OmitParameterModifiers = 8192, UseAliasDefinedOutsideCurrentScope = 16384, UseSingleQuotesForStringLiteralType = 268435456, NoTypeReduction = 536870912, AllowUniqueESSymbolType = 1048576, AddUndefined = 131072, WriteArrowStyleSignature = 262144, InArrayType = 524288, InElementType = 2097152, InFirstTypeArgument = 4194304, InTypeAlias = 8388608, /** @deprecated */ WriteOwnNameForAnyLike = 0, NodeBuilderFlagsMask = 814775659 } export enum SymbolFormatFlags { None = 0, WriteTypeParametersOrArguments = 1, UseOnlyExternalAliasing = 2, AllowAnyNodeKind = 4, UseAliasDefinedOutsideCurrentScope = 8, } export enum TypePredicateKind { This = 0, Identifier = 1, AssertsThis = 2, AssertsIdentifier = 3 } export interface TypePredicateBase { kind: TypePredicateKind; type: Type | undefined; } export interface ThisTypePredicate extends TypePredicateBase { kind: TypePredicateKind.This; parameterName: undefined; parameterIndex: undefined; type: Type; } export interface IdentifierTypePredicate extends TypePredicateBase { kind: TypePredicateKind.Identifier; parameterName: string; parameterIndex: number; type: Type; } export interface AssertsThisTypePredicate extends TypePredicateBase { kind: TypePredicateKind.AssertsThis; parameterName: undefined; parameterIndex: undefined; type: Type | undefined; } export interface AssertsIdentifierTypePredicate extends TypePredicateBase { kind: TypePredicateKind.AssertsIdentifier; parameterName: string; parameterIndex: number; type: Type | undefined; } export type TypePredicate = ThisTypePredicate | IdentifierTypePredicate | AssertsThisTypePredicate | AssertsIdentifierTypePredicate; export enum SymbolFlags { None = 0, FunctionScopedVariable = 1, BlockScopedVariable = 2, Property = 4, EnumMember = 8, Function = 16, Class = 32, Interface = 64, ConstEnum = 128, RegularEnum = 256, ValueModule = 512, NamespaceModule = 1024, TypeLiteral = 2048, ObjectLiteral = 4096, Method = 8192, Constructor = 16384, GetAccessor = 32768, SetAccessor = 65536, Signature = 131072, TypeParameter = 262144, TypeAlias = 524288, ExportValue = 1048576, Alias = 2097152, Prototype = 4194304, ExportStar = 8388608, Optional = 16777216, Transient = 33554432, Assignment = 67108864, ModuleExports = 134217728, Enum = 384, Variable = 3, Value = 111551, Type = 788968, Namespace = 1920, Module = 1536, Accessor = 98304, FunctionScopedVariableExcludes = 111550, BlockScopedVariableExcludes = 111551, ParameterExcludes = 111551, PropertyExcludes = 0, EnumMemberExcludes = 900095, FunctionExcludes = 110991, ClassExcludes = 899503, InterfaceExcludes = 788872, RegularEnumExcludes = 899327, ConstEnumExcludes = 899967, ValueModuleExcludes = 110735, NamespaceModuleExcludes = 0, MethodExcludes = 103359, GetAccessorExcludes = 46015, SetAccessorExcludes = 78783, TypeParameterExcludes = 526824, TypeAliasExcludes = 788968, AliasExcludes = 2097152, ModuleMember = 2623475, ExportHasLocal = 944, BlockScoped = 418, PropertyOrAccessor = 98308, ClassMember = 106500, } export interface Symbol { flags: SymbolFlags; escapedName: __String; declarations: Declaration[]; valueDeclaration: Declaration; members?: SymbolTable; exports?: SymbolTable; globalExports?: SymbolTable; } export enum InternalSymbolName { Call = "__call", Constructor = "__constructor", New = "__new", Index = "__index", ExportStar = "__export", Global = "__global", Missing = "__missing", Type = "__type", Object = "__object", JSXAttributes = "__jsxAttributes", Class = "__class", Function = "__function", Computed = "__computed", Resolving = "__resolving__", ExportEquals = "export=", Default = "default", This = "this" } /** * This represents a string whose leading underscore have been escaped by adding extra leading underscores. * The shape of this brand is rather unique compared to others we've used. * Instead of just an intersection of a string and an object, it is that union-ed * with an intersection of void and an object. This makes it wholly incompatible * with a normal string (which is good, it cannot be misused on assignment or on usage), * while still being comparable with a normal string via === (also good) and castable from a string. */ export type __String = (string & { __escapedIdentifier: void; }) | (void & { __escapedIdentifier: void; }) | InternalSymbolName; /** ReadonlyMap where keys are `__String`s. */ export interface ReadonlyUnderscoreEscapedMap { get(key: __String): T | undefined; has(key: __String): boolean; forEach(action: (value: T, key: __String) => void): void; readonly size: number; keys(): Iterator<__String>; values(): Iterator; entries(): Iterator<[__String, T]>; } /** Map where keys are `__String`s. */ export interface UnderscoreEscapedMap extends ReadonlyUnderscoreEscapedMap { set(key: __String, value: T): this; delete(key: __String): boolean; clear(): void; } /** SymbolTable based on ES6 Map interface. */ export type SymbolTable = UnderscoreEscapedMap; export enum TypeFlags { Any = 1, Unknown = 2, String = 4, Number = 8, Boolean = 16, Enum = 32, BigInt = 64, StringLiteral = 128, NumberLiteral = 256, BooleanLiteral = 512, EnumLiteral = 1024, BigIntLiteral = 2048, ESSymbol = 4096, UniqueESSymbol = 8192, Void = 16384, Undefined = 32768, Null = 65536, Never = 131072, TypeParameter = 262144, Object = 524288, Union = 1048576, Intersection = 2097152, Index = 4194304, IndexedAccess = 8388608, Conditional = 16777216, Substitution = 33554432, NonPrimitive = 67108864, Literal = 2944, Unit = 109440, StringOrNumberLiteral = 384, PossiblyFalsy = 117724, StringLike = 132, NumberLike = 296, BigIntLike = 2112, BooleanLike = 528, EnumLike = 1056, ESSymbolLike = 12288, VoidLike = 49152, UnionOrIntersection = 3145728, StructuredType = 3670016, TypeVariable = 8650752, InstantiableNonPrimitive = 58982400, InstantiablePrimitive = 4194304, Instantiable = 63176704, StructuredOrInstantiable = 66846720, Narrowable = 133970943, NotUnionOrUnit = 67637251, } export type DestructuringPattern = BindingPattern | ObjectLiteralExpression | ArrayLiteralExpression; export interface Type { flags: TypeFlags; symbol: Symbol; pattern?: DestructuringPattern; aliasSymbol?: Symbol; aliasTypeArguments?: readonly Type[]; } export interface LiteralType extends Type { value: string | number | PseudoBigInt; freshType: LiteralType; regularType: LiteralType; } export interface UniqueESSymbolType extends Type { symbol: Symbol; escapedName: __String; } export interface StringLiteralType extends LiteralType { value: string; } export interface NumberLiteralType extends LiteralType { value: number; } export interface BigIntLiteralType extends LiteralType { value: PseudoBigInt; } export interface EnumType extends Type { } export enum ObjectFlags { Class = 1, Interface = 2, Reference = 4, Tuple = 8, Anonymous = 16, Mapped = 32, Instantiated = 64, ObjectLiteral = 128, EvolvingArray = 256, ObjectLiteralPatternWithComputedProperties = 512, ContainsSpread = 1024, ReverseMapped = 2048, JsxAttributes = 4096, MarkerType = 8192, JSLiteral = 16384, FreshLiteral = 32768, ArrayLiteral = 65536, ObjectRestType = 131072, ClassOrInterface = 3, } export interface ObjectType extends Type { objectFlags: ObjectFlags; } /** Class and interface types (ObjectFlags.Class and ObjectFlags.Interface). */ export interface InterfaceType extends ObjectType { typeParameters: TypeParameter[] | undefined; outerTypeParameters: TypeParameter[] | undefined; localTypeParameters: TypeParameter[] | undefined; thisType: TypeParameter | undefined; } export type BaseType = ObjectType | IntersectionType | TypeVariable; export interface InterfaceTypeWithDeclaredMembers extends InterfaceType { declaredProperties: Symbol[]; declaredCallSignatures: Signature[]; declaredConstructSignatures: Signature[]; declaredStringIndexInfo?: IndexInfo; declaredNumberIndexInfo?: IndexInfo; } /** * Type references (ObjectFlags.Reference). When a class or interface has type parameters or * a "this" type, references to the class or interface are made using type references. The * typeArguments property specifies the types to substitute for the type parameters of the * class or interface and optionally includes an extra element that specifies the type to * substitute for "this" in the resulting instantiation. When no extra argument is present, * the type reference itself is substituted for "this". The typeArguments property is undefined * if the class or interface has no type parameters and the reference isn't specifying an * explicit "this" argument. */ export interface TypeReference extends ObjectType { target: GenericType; node?: TypeReferenceNode | ArrayTypeNode | TupleTypeNode; } export interface DeferredTypeReference extends TypeReference { } export interface GenericType extends InterfaceType, TypeReference { } export interface TupleType extends GenericType { minLength: number; hasRestElement: boolean; readonly: boolean; associatedNames?: __String[]; } export interface TupleTypeReference extends TypeReference { target: TupleType; } export interface UnionOrIntersectionType extends Type { types: Type[]; } export interface UnionType extends UnionOrIntersectionType { } export interface IntersectionType extends UnionOrIntersectionType { } export type StructuredType = ObjectType | UnionType | IntersectionType; export interface EvolvingArrayType extends ObjectType { elementType: Type; finalArrayType?: Type; } export interface InstantiableType extends Type { } export interface TypeParameter extends InstantiableType { } export interface IndexedAccessType extends InstantiableType { objectType: Type; indexType: Type; constraint?: Type; simplifiedForReading?: Type; simplifiedForWriting?: Type; } export type TypeVariable = TypeParameter | IndexedAccessType; export interface IndexType extends InstantiableType { type: InstantiableType | UnionOrIntersectionType; } export interface ConditionalRoot { node: ConditionalTypeNode; checkType: Type; extendsType: Type; trueType: Type; falseType: Type; isDistributive: boolean; inferTypeParameters?: TypeParameter[]; outerTypeParameters?: TypeParameter[]; instantiations?: Map; aliasSymbol?: Symbol; aliasTypeArguments?: Type[]; } export interface ConditionalType extends InstantiableType { root: ConditionalRoot; checkType: Type; extendsType: Type; resolvedTrueType: Type; resolvedFalseType: Type; } export interface SubstitutionType extends InstantiableType { baseType: Type; substitute: Type; } export enum SignatureKind { Call = 0, Construct = 1 } export interface Signature { declaration?: SignatureDeclaration | JSDocSignature; typeParameters?: readonly TypeParameter[]; parameters: readonly Symbol[]; } export enum IndexKind { String = 0, Number = 1 } export interface IndexInfo { type: Type; isReadonly: boolean; declaration?: IndexSignatureDeclaration; } export enum InferencePriority { NakedTypeVariable = 1, HomomorphicMappedType = 2, PartialHomomorphicMappedType = 4, MappedTypeConstraint = 8, ContravariantConditional = 16, ReturnType = 32, LiteralKeyof = 64, NoConstraints = 128, AlwaysStrict = 256, MaxValue = 512, PriorityImpliesCombination = 104, Circularity = -1 } /** @deprecated Use FileExtensionInfo instead. */ export type JsFileExtensionInfo = FileExtensionInfo; export interface FileExtensionInfo { extension: string; isMixedContent: boolean; scriptKind?: ScriptKind; } export interface DiagnosticMessage { key: string; category: DiagnosticCategory; code: number; message: string; reportsUnnecessary?: {}; } /** * A linked list of formatted diagnostic messages to be used as part of a multiline message. * It is built from the bottom up, leaving the head to be the "main" diagnostic. * While it seems that DiagnosticMessageChain is structurally similar to DiagnosticMessage, * the difference is that messages are all preformatted in DMC. */ export interface DiagnosticMessageChain { messageText: string; category: DiagnosticCategory; code: number; next?: DiagnosticMessageChain[]; } export interface Diagnostic extends DiagnosticRelatedInformation { /** May store more in future. For now, this will simply be `true` to indicate when a diagnostic is an unused-identifier diagnostic. */ reportsUnnecessary?: {}; source?: string; relatedInformation?: DiagnosticRelatedInformation[]; } export interface DiagnosticRelatedInformation { category: DiagnosticCategory; code: number; file: SourceFile | undefined; start: number | undefined; length: number | undefined; messageText: string | DiagnosticMessageChain; } export interface DiagnosticWithLocation extends Diagnostic { file: SourceFile; start: number; length: number; } export enum DiagnosticCategory { Warning = 0, Error = 1, Suggestion = 2, Message = 3 } export enum ModuleResolutionKind { Classic = 1, NodeJs = 2 } export interface PluginImport { name: string; } export interface ProjectReference { /** A normalized path on disk */ path: string; /** The path as the user originally wrote it */ originalPath?: string; /** True if the output of this reference should be prepended to the output of this project. Only valid for --outFile compilations */ prepend?: boolean; /** True if it is intended that this reference form a circularity */ circular?: boolean; } export enum WatchFileKind { FixedPollingInterval = 0, PriorityPollingInterval = 1, DynamicPriorityPolling = 2, UseFsEvents = 3, UseFsEventsOnParentDirectory = 4 } export enum WatchDirectoryKind { UseFsEvents = 0, FixedPollingInterval = 1, DynamicPriorityPolling = 2 } export enum PollingWatchKind { FixedInterval = 0, PriorityInterval = 1, DynamicPriority = 2 } export type CompilerOptionsValue = string | number | boolean | (string | number)[] | string[] | MapLike | PluginImport[] | ProjectReference[] | null | undefined; export interface CompilerOptions { allowJs?: boolean; allowSyntheticDefaultImports?: boolean; allowUmdGlobalAccess?: boolean; allowUnreachableCode?: boolean; allowUnusedLabels?: boolean; alwaysStrict?: boolean; baseUrl?: string; charset?: string; checkJs?: boolean; declaration?: boolean; declarationMap?: boolean; emitDeclarationOnly?: boolean; declarationDir?: string; disableSizeLimit?: boolean; disableSourceOfProjectReferenceRedirect?: boolean; disableSolutionSearching?: boolean; downlevelIteration?: boolean; emitBOM?: boolean; emitDecoratorMetadata?: boolean; experimentalDecorators?: boolean; forceConsistentCasingInFileNames?: boolean; importHelpers?: boolean; importsNotUsedAsValues?: ImportsNotUsedAsValues; inlineSourceMap?: boolean; inlineSources?: boolean; isolatedModules?: boolean; jsx?: JsxEmit; keyofStringsOnly?: boolean; lib?: string[]; locale?: string; mapRoot?: string; maxNodeModuleJsDepth?: number; module?: ModuleKind; moduleResolution?: ModuleResolutionKind; newLine?: NewLineKind; noEmit?: boolean; noEmitHelpers?: boolean; noEmitOnError?: boolean; noErrorTruncation?: boolean; noFallthroughCasesInSwitch?: boolean; noImplicitAny?: boolean; noImplicitReturns?: boolean; noImplicitThis?: boolean; noStrictGenericChecks?: boolean; noUnusedLocals?: boolean; noUnusedParameters?: boolean; noImplicitUseStrict?: boolean; assumeChangesOnlyAffectDirectDependencies?: boolean; noLib?: boolean; noResolve?: boolean; out?: string; outDir?: string; outFile?: string; paths?: MapLike; preserveConstEnums?: boolean; preserveSymlinks?: boolean; project?: string; reactNamespace?: string; jsxFactory?: string; composite?: boolean; incremental?: boolean; tsBuildInfoFile?: string; removeComments?: boolean; rootDir?: string; rootDirs?: string[]; skipLibCheck?: boolean; skipDefaultLibCheck?: boolean; sourceMap?: boolean; sourceRoot?: string; strict?: boolean; strictFunctionTypes?: boolean; strictBindCallApply?: boolean; strictNullChecks?: boolean; strictPropertyInitialization?: boolean; stripInternal?: boolean; suppressExcessPropertyErrors?: boolean; suppressImplicitAnyIndexErrors?: boolean; target?: ScriptTarget; traceResolution?: boolean; resolveJsonModule?: boolean; types?: string[]; /** Paths used to compute primary types search locations */ typeRoots?: string[]; esModuleInterop?: boolean; useDefineForClassFields?: boolean; [option: string]: CompilerOptionsValue | TsConfigSourceFile | undefined; } export interface WatchOptions { watchFile?: WatchFileKind; watchDirectory?: WatchDirectoryKind; fallbackPolling?: PollingWatchKind; synchronousWatchDirectory?: boolean; [option: string]: CompilerOptionsValue | undefined; } export interface TypeAcquisition { /** * @deprecated typingOptions.enableAutoDiscovery * Use typeAcquisition.enable instead. */ enableAutoDiscovery?: boolean; enable?: boolean; include?: string[]; exclude?: string[]; [option: string]: string[] | boolean | undefined; } export enum ModuleKind { None = 0, CommonJS = 1, AMD = 2, UMD = 3, System = 4, ES2015 = 5, ES2020 = 6, ESNext = 99 } export enum JsxEmit { None = 0, Preserve = 1, React = 2, ReactNative = 3 } export enum ImportsNotUsedAsValues { Remove = 0, Preserve = 1, Error = 2 } export enum NewLineKind { CarriageReturnLineFeed = 0, LineFeed = 1 } export interface LineAndCharacter { /** 0-based. */ line: number; character: number; } export enum ScriptKind { Unknown = 0, JS = 1, JSX = 2, TS = 3, TSX = 4, External = 5, JSON = 6, /** * 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. */ Deferred = 7 } export enum ScriptTarget { ES3 = 0, ES5 = 1, ES2015 = 2, ES2016 = 3, ES2017 = 4, ES2018 = 5, ES2019 = 6, ES2020 = 7, ESNext = 99, JSON = 100, Latest = 99 } export enum LanguageVariant { Standard = 0, JSX = 1 } /** Either a parsed command line or a parsed tsconfig.json */ export interface ParsedCommandLine { options: CompilerOptions; typeAcquisition?: TypeAcquisition; fileNames: string[]; projectReferences?: readonly ProjectReference[]; watchOptions?: WatchOptions; raw?: any; errors: Diagnostic[]; wildcardDirectories?: MapLike; compileOnSave?: boolean; } export enum WatchDirectoryFlags { None = 0, Recursive = 1 } export interface ExpandResult { fileNames: string[]; wildcardDirectories: MapLike; } export interface CreateProgramOptions { rootNames: readonly string[]; options: CompilerOptions; projectReferences?: readonly ProjectReference[]; host?: CompilerHost; oldProgram?: Program; configFileParsingDiagnostics?: readonly Diagnostic[]; } export interface ModuleResolutionHost { fileExists(fileName: string): boolean; readFile(fileName: string): string | undefined; trace?(s: string): void; directoryExists?(directoryName: string): boolean; /** * Resolve a symbolic link. * @see https://nodejs.org/api/fs.html#fs_fs_realpathsync_path_options */ realpath?(path: string): string; getCurrentDirectory?(): string; getDirectories?(path: string): string[]; } /** * Represents the result of module resolution. * Module resolution will pick up tsx/jsx/js files even if '--jsx' and '--allowJs' are turned off. * The Program will then filter results based on these flags. * * Prefer to return a `ResolvedModuleFull` so that the file type does not have to be inferred. */ export interface ResolvedModule { /** Path of the file the module was resolved to. */ resolvedFileName: string; /** True if `resolvedFileName` comes from `node_modules`. */ isExternalLibraryImport?: boolean; } /** * ResolvedModule with an explicitly provided `extension` property. * Prefer this over `ResolvedModule`. * If changing this, remember to change `moduleResolutionIsEqualTo`. */ export interface ResolvedModuleFull extends ResolvedModule { /** * Extension of resolvedFileName. This must match what's at the end of resolvedFileName. * This is optional for backwards-compatibility, but will be added if not provided. */ extension: Extension; packageId?: PackageId; } /** * Unique identifier with a package name and version. * If changing this, remember to change `packageIdIsEqual`. */ export interface PackageId { /** * Name of the package. * Should not include `@types`. * If accessing a non-index file, this should include its name e.g. "foo/bar". */ name: string; /** * Name of a submodule within this package. * May be "". */ subModuleName: string; /** Version of the package, e.g. "1.2.3" */ version: string; } export enum Extension { Ts = ".ts", Tsx = ".tsx", Dts = ".d.ts", Js = ".js", Jsx = ".jsx", Json = ".json", TsBuildInfo = ".tsbuildinfo" } export interface ResolvedModuleWithFailedLookupLocations { readonly resolvedModule: ResolvedModuleFull | undefined; } export interface ResolvedTypeReferenceDirective { primary: boolean; resolvedFileName: string | undefined; packageId?: PackageId; /** True if `resolvedFileName` comes from `node_modules`. */ isExternalLibraryImport?: boolean; } export interface ResolvedTypeReferenceDirectiveWithFailedLookupLocations { readonly resolvedTypeReferenceDirective: ResolvedTypeReferenceDirective | undefined; readonly failedLookupLocations: string[]; } export interface CompilerHost extends ModuleResolutionHost { getSourceFile(fileName: string, languageVersion: ScriptTarget, onError?: (message: string) => void, shouldCreateNewSourceFile?: boolean): SourceFile | undefined; getSourceFileByPath?(fileName: string, path: Path, languageVersion: ScriptTarget, onError?: (message: string) => void, shouldCreateNewSourceFile?: boolean): SourceFile | undefined; getCancellationToken?(): CancellationToken; getDefaultLibFileName(options: CompilerOptions): string; getDefaultLibLocation?(): string; writeFile: WriteFileCallback; getCurrentDirectory(): string; getCanonicalFileName(fileName: string): string; useCaseSensitiveFileNames(): boolean; getNewLine(): string; readDirectory?(rootDir: string, extensions: readonly string[], excludes: readonly string[] | undefined, includes: readonly string[], depth?: number): string[]; resolveModuleNames?(moduleNames: string[], containingFile: string, reusedNames: string[] | undefined, redirectedReference: ResolvedProjectReference | undefined, options: CompilerOptions): (ResolvedModule | undefined)[]; /** * This method is a companion for 'resolveModuleNames' and is used to resolve 'types' references to actual type declaration files */ resolveTypeReferenceDirectives?(typeReferenceDirectiveNames: string[], containingFile: string, redirectedReference: ResolvedProjectReference | undefined, options: CompilerOptions): (ResolvedTypeReferenceDirective | undefined)[]; getEnvironmentVariable?(name: string): string | undefined; createHash?(data: string): string; getParsedCommandLine?(fileName: string): ParsedCommandLine | undefined; } export interface SourceMapRange extends TextRange { source?: SourceMapSource; } export interface SourceMapSource { fileName: string; text: string; skipTrivia?: (pos: number) => number; } export enum EmitFlags { None = 0, SingleLine = 1, AdviseOnEmitNode = 2, NoSubstitution = 4, CapturesThis = 8, NoLeadingSourceMap = 16, NoTrailingSourceMap = 32, NoSourceMap = 48, NoNestedSourceMaps = 64, NoTokenLeadingSourceMaps = 128, NoTokenTrailingSourceMaps = 256, NoTokenSourceMaps = 384, NoLeadingComments = 512, NoTrailingComments = 1024, NoComments = 1536, NoNestedComments = 2048, HelperName = 4096, ExportName = 8192, LocalName = 16384, InternalName = 32768, Indented = 65536, NoIndentation = 131072, AsyncFunctionBody = 262144, ReuseTempVariableScope = 524288, CustomPrologue = 1048576, NoHoisting = 2097152, HasEndOfDeclarationMarker = 4194304, Iterator = 8388608, NoAsciiEscaping = 16777216, } export interface EmitHelper { readonly name: string; readonly scoped: boolean; readonly text: string | ((node: EmitHelperUniqueNameCallback) => string); readonly priority?: number; readonly dependencies?: EmitHelper[]; } export interface UnscopedEmitHelper extends EmitHelper { readonly scoped: false; readonly text: string; } export type EmitHelperUniqueNameCallback = (name: string) => string; export enum EmitHint { SourceFile = 0, Expression = 1, IdentifierName = 2, MappedTypeParameter = 3, Unspecified = 4, EmbeddedStatement = 5, JsxAttributeValue = 6 } export interface TransformationContext { /** Gets the compiler options supplied to the transformer. */ getCompilerOptions(): CompilerOptions; /** Starts a new lexical environment. */ startLexicalEnvironment(): void; /** Suspends the current lexical environment, usually after visiting a parameter list. */ suspendLexicalEnvironment(): void; /** Resumes a suspended lexical environment, usually before visiting a function body. */ resumeLexicalEnvironment(): void; /** Ends a lexical environment, returning any declarations. */ endLexicalEnvironment(): Statement[] | undefined; /** Hoists a function declaration to the containing scope. */ hoistFunctionDeclaration(node: FunctionDeclaration): void; /** Hoists a variable declaration to the containing scope. */ hoistVariableDeclaration(node: Identifier): void; /** Records a request for a non-scoped emit helper in the current context. */ requestEmitHelper(helper: EmitHelper): void; /** Gets and resets the requested non-scoped emit helpers. */ readEmitHelpers(): EmitHelper[] | undefined; /** Enables expression substitutions in the pretty printer for the provided SyntaxKind. */ enableSubstitution(kind: SyntaxKind): void; /** Determines whether expression substitutions are enabled for the provided node. */ isSubstitutionEnabled(node: Node): boolean; /** * Hook used by transformers to substitute expressions just before they * are emitted by the pretty printer. * * NOTE: Transformation hooks should only be modified during `Transformer` initialization, * before returning the `NodeTransformer` callback. */ onSubstituteNode: (hint: EmitHint, node: Node) => Node; /** * Enables before/after emit notifications in the pretty printer for the provided * SyntaxKind. */ enableEmitNotification(kind: SyntaxKind): void; /** * Determines whether before/after emit notifications should be raised in the pretty * printer when it emits a node. */ isEmitNotificationEnabled(node: Node): boolean; /** * Hook used to allow transformers to capture state before or after * the printer emits a node. * * NOTE: Transformation hooks should only be modified during `Transformer` initialization, * before returning the `NodeTransformer` callback. */ onEmitNode: (hint: EmitHint, node: Node, emitCallback: (hint: EmitHint, node: Node) => void) => void; } export interface TransformationResult { /** Gets the transformed source files. */ transformed: T[]; /** Gets diagnostics for the transformation. */ diagnostics?: DiagnosticWithLocation[]; /** * Gets a substitute for a node, if one is available; otherwise, returns the original node. * * @param hint A hint as to the intended usage of the node. * @param node The node to substitute. */ substituteNode(hint: EmitHint, node: Node): Node; /** * Emits a node with possible notification. * * @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. */ emitNodeWithNotification(hint: EmitHint, node: Node, emitCallback: (hint: EmitHint, node: Node) => void): void; /** * Indicates if a given node needs an emit notification * * @param node The node to emit. */ isEmitNotificationEnabled?(node: Node): boolean; /** * Clean up EmitNode entries on any parse-tree nodes. */ dispose(): void; } /** * A function that is used to initialize and return a `Transformer` callback, which in turn * will be used to transform one or more nodes. */ export type TransformerFactory = (context: TransformationContext) => Transformer; /** * A function that transforms a node. */ export type Transformer = (node: T) => T; /** * A function that accepts and possibly transforms a node. */ export type Visitor = (node: Node) => VisitResult; export type VisitResult = T | T[] | undefined; export interface Printer { /** * Print a node and its subtree as-is, without any emit transformations. * @param hint A value indicating the purpose of a node. This is primarily used to * distinguish between an `Identifier` used in an expression position, versus an * `Identifier` used as an `IdentifierName` as part of a declaration. For most nodes you * should just pass `Unspecified`. * @param node The node to print. The node and its subtree are printed as-is, without any * emit transformations. * @param sourceFile A source file that provides context for the node. The source text of * the file is used to emit the original source content for literals and identifiers, while * the identifiers of the source file are used when generating unique names to avoid * collisions. */ printNode(hint: EmitHint, node: Node, sourceFile: SourceFile): string; /** * Prints a list of nodes using the given format flags */ printList(format: ListFormat, list: NodeArray, sourceFile: SourceFile): string; /** * Prints a source file as-is, without any emit transformations. */ printFile(sourceFile: SourceFile): string; /** * Prints a bundle of source files as-is, without any emit transformations. */ printBundle(bundle: Bundle): string; } export interface PrintHandlers { /** * A hook used by the Printer when generating unique names to avoid collisions with * globally defined names that exist outside of the current source file. */ hasGlobalName?(name: string): boolean; /** * A hook used by the Printer to provide notifications prior to emitting a node. A * compatible implementation **must** invoke `emitCallback` with the provided `hint` and * `node` values. * @param hint A hint indicating the intended purpose of the node. * @param node The node to emit. * @param emitCallback A callback that, when invoked, will emit the node. * @example * ```ts * var printer = createPrinter(printerOptions, { * onEmitNode(hint, node, emitCallback) { * // set up or track state prior to emitting the node... * emitCallback(hint, node); * // restore state after emitting the node... * } * }); * ``` */ onEmitNode?(hint: EmitHint, node: Node | undefined, emitCallback: (hint: EmitHint, node: Node | undefined) => void): void; /** * A hook used to check if an emit notification is required for a node. * @param node The node to emit. */ isEmitNotificationEnabled?(node: Node | undefined): boolean; /** * A hook used by the Printer to perform just-in-time substitution of a node. This is * primarily used by node transformations that need to substitute one node for another, * such as replacing `myExportedVar` with `exports.myExportedVar`. * @param hint A hint indicating the intended purpose of the node. * @param node The node to emit. * @example * ```ts * var printer = createPrinter(printerOptions, { * substituteNode(hint, node) { * // perform substitution if necessary... * return node; * } * }); * ``` */ substituteNode?(hint: EmitHint, node: Node): Node; } export interface PrinterOptions { removeComments?: boolean; newLine?: NewLineKind; omitTrailingSemicolon?: boolean; noEmitHelpers?: boolean; } export interface GetEffectiveTypeRootsHost { directoryExists?(directoryName: string): boolean; getCurrentDirectory?(): string; } export interface TextSpan { start: number; length: number; } export interface TextChangeRange { span: TextSpan; newLength: number; } export interface SyntaxList extends Node { _children: Node[]; } export enum ListFormat { None = 0, SingleLine = 0, MultiLine = 1, PreserveLines = 2, LinesMask = 3, NotDelimited = 0, BarDelimited = 4, AmpersandDelimited = 8, CommaDelimited = 16, AsteriskDelimited = 32, DelimitersMask = 60, AllowTrailingComma = 64, Indented = 128, SpaceBetweenBraces = 256, SpaceBetweenSiblings = 512, Braces = 1024, Parenthesis = 2048, AngleBrackets = 4096, SquareBrackets = 8192, BracketsMask = 15360, OptionalIfUndefined = 16384, OptionalIfEmpty = 32768, Optional = 49152, PreferNewLine = 65536, NoTrailingNewLine = 131072, NoInterveningComments = 262144, NoSpaceIfEmpty = 524288, SingleElement = 1048576, SpaceAfterList = 2097152, Modifiers = 262656, HeritageClauses = 512, SingleLineTypeLiteralMembers = 768, MultiLineTypeLiteralMembers = 32897, TupleTypeElements = 528, UnionTypeConstituents = 516, IntersectionTypeConstituents = 520, ObjectBindingPatternElements = 525136, ArrayBindingPatternElements = 524880, ObjectLiteralExpressionProperties = 526226, ArrayLiteralExpressionElements = 8914, CommaListElements = 528, CallExpressionArguments = 2576, NewExpressionArguments = 18960, TemplateExpressionSpans = 262144, SingleLineBlockStatements = 768, MultiLineBlockStatements = 129, VariableDeclarationList = 528, SingleLineFunctionBodyStatements = 768, MultiLineFunctionBodyStatements = 1, ClassHeritageClauses = 0, ClassMembers = 129, InterfaceMembers = 129, EnumMembers = 145, CaseBlockClauses = 129, NamedImportsOrExportsElements = 525136, JsxElementOrFragmentChildren = 262144, JsxElementAttributes = 262656, CaseOrDefaultClauseStatements = 163969, HeritageClauseTypes = 528, SourceFileStatements = 131073, Decorators = 2146305, TypeArguments = 53776, TypeParameters = 53776, Parameters = 2576, IndexSignatureParameters = 8848, JSDocComment = 33 } export interface UserPreferences { readonly disableSuggestions?: boolean; readonly quotePreference?: "auto" | "double" | "single"; readonly includeCompletionsForModuleExports?: boolean; readonly includeAutomaticOptionalChainCompletions?: boolean; readonly includeCompletionsWithInsertText?: boolean; readonly importModuleSpecifierPreference?: "auto" | "relative" | "non-relative"; /** Determines whether we import `foo/index.ts` as "foo", "foo/index", or "foo/index.js" */ readonly importModuleSpecifierEnding?: "auto" | "minimal" | "index" | "js"; readonly allowTextChangesInNewFiles?: boolean; readonly providePrefixAndSuffixTextForRename?: boolean; } /** Represents a bigint literal value without requiring bigint support */ export interface PseudoBigInt { negative: boolean; base10Value: string; } export {}; } declare function setTimeout(handler: (...args: any[]) => void, timeout: number): any; declare function clearTimeout(handle: any): void; declare namespace ts { export enum FileWatcherEventKind { Created = 0, Changed = 1, Deleted = 2 } export type FileWatcherCallback = (fileName: string, eventKind: FileWatcherEventKind) => void; export type DirectoryWatcherCallback = (fileName: string) => void; export interface System { args: string[]; newLine: string; useCaseSensitiveFileNames: boolean; write(s: string): void; writeOutputIsTTY?(): boolean; readFile(path: string, encoding?: string): string | undefined; getFileSize?(path: string): number; writeFile(path: string, data: string, writeByteOrderMark?: boolean): void; /** * @pollingInterval - this parameter is used in polling-based watchers and ignored in watchers that * use native OS file watching */ watchFile?(path: string, callback: FileWatcherCallback, pollingInterval?: number, options?: WatchOptions): FileWatcher; watchDirectory?(path: string, callback: DirectoryWatcherCallback, recursive?: boolean, options?: WatchOptions): FileWatcher; resolvePath(path: string): string; fileExists(path: string): boolean; directoryExists(path: string): boolean; createDirectory(path: string): void; getExecutingFilePath(): string; getCurrentDirectory(): string; getDirectories(path: string): string[]; readDirectory(path: string, extensions?: readonly string[], exclude?: readonly string[], include?: readonly string[], depth?: number): string[]; getModifiedTime?(path: string): Date | undefined; setModifiedTime?(path: string, time: Date): void; deleteFile?(path: string): void; /** * A good implementation is node.js' `crypto.createHash`. (https://nodejs.org/api/crypto.html#crypto_crypto_createhash_algorithm) */ createHash?(data: string): string; /** This must be cryptographically secure. Only implement this method using `crypto.createHash("sha256")`. */ createSHA256Hash?(data: string): string; getMemoryUsage?(): number; exit(exitCode?: number): void; realpath?(path: string): string; setTimeout?(callback: (...args: any[]) => void, ms: number, ...args: any[]): any; clearTimeout?(timeoutId: any): void; clearScreen?(): void; base64decode?(input: string): string; base64encode?(input: string): string; } export interface FileWatcher { close(): void; } export function getNodeMajorVersion(): number | undefined; export let sys: System; export {}; } declare namespace ts { type ErrorCallback = (message: DiagnosticMessage, length: number) => void; interface Scanner { getStartPos(): number; getToken(): SyntaxKind; getTextPos(): number; getTokenPos(): number; getTokenText(): string; getTokenValue(): string; hasUnicodeEscape(): boolean; hasExtendedUnicodeEscape(): boolean; hasPrecedingLineBreak(): boolean; isIdentifier(): boolean; isReservedWord(): boolean; isUnterminated(): boolean; reScanGreaterToken(): SyntaxKind; reScanSlashToken(): SyntaxKind; reScanTemplateToken(isTaggedTemplate: boolean): SyntaxKind; reScanTemplateHeadOrNoSubstitutionTemplate(): SyntaxKind; scanJsxIdentifier(): SyntaxKind; scanJsxAttributeValue(): SyntaxKind; reScanJsxAttributeValue(): SyntaxKind; reScanJsxToken(): JsxTokenSyntaxKind; reScanLessThanToken(): SyntaxKind; reScanQuestionToken(): SyntaxKind; scanJsxToken(): JsxTokenSyntaxKind; scanJsDocToken(): JSDocSyntaxKind; scan(): SyntaxKind; getText(): string; setText(text: string | undefined, start?: number, length?: number): void; setOnError(onError: ErrorCallback | undefined): void; setScriptTarget(scriptTarget: ScriptTarget): void; setLanguageVariant(variant: LanguageVariant): void; setTextPos(textPos: number): void; lookAhead(callback: () => T): T; scanRange(start: number, length: number, callback: () => T): T; tryScan(callback: () => T): T; } function tokenToString(t: SyntaxKind): string | undefined; function getPositionOfLineAndCharacter(sourceFile: SourceFileLike, line: number, character: number): number; function getLineAndCharacterOfPosition(sourceFile: SourceFileLike, position: number): LineAndCharacter; function isWhiteSpaceLike(ch: number): boolean; /** Does not include line breaks. For that, see isWhiteSpaceLike. */ function isWhiteSpaceSingleLine(ch: number): boolean; function isLineBreak(ch: number): boolean; function couldStartTrivia(text: string, pos: number): boolean; function forEachLeadingCommentRange(text: string, pos: number, cb: (pos: number, end: number, kind: CommentKind, hasTrailingNewLine: boolean) => U): U | undefined; function forEachLeadingCommentRange(text: string, pos: number, cb: (pos: number, end: number, kind: CommentKind, hasTrailingNewLine: boolean, state: T) => U, state: T): U | undefined; function forEachTrailingCommentRange(text: string, pos: number, cb: (pos: number, end: number, kind: CommentKind, hasTrailingNewLine: boolean) => U): U | undefined; function forEachTrailingCommentRange(text: string, pos: number, cb: (pos: number, end: number, kind: CommentKind, hasTrailingNewLine: boolean, state: T) => U, state: T): U | undefined; function reduceEachLeadingCommentRange(text: string, pos: number, cb: (pos: number, end: number, kind: CommentKind, hasTrailingNewLine: boolean, state: T, memo: U) => U, state: T, initial: U): U | undefined; function reduceEachTrailingCommentRange(text: string, pos: number, cb: (pos: number, end: number, kind: CommentKind, hasTrailingNewLine: boolean, state: T, memo: U) => U, state: T, initial: U): U | undefined; function getLeadingCommentRanges(text: string, pos: number): CommentRange[] | undefined; function getTrailingCommentRanges(text: string, pos: number): CommentRange[] | undefined; /** Optionally, get the shebang */ function getShebang(text: string): string | undefined; function isIdentifierStart(ch: number, languageVersion: ScriptTarget | undefined): boolean; function isIdentifierPart(ch: number, languageVersion: ScriptTarget | undefined, identifierVariant?: LanguageVariant): boolean; function createScanner(languageVersion: ScriptTarget, skipTrivia: boolean, languageVariant?: LanguageVariant, textInitial?: string, onError?: ErrorCallback, start?: number, length?: number): Scanner; } declare namespace ts { function isExternalModuleNameRelative(moduleName: string): boolean; function sortAndDeduplicateDiagnostics(diagnostics: readonly T[]): SortedReadonlyArray; function getDefaultLibFileName(options: CompilerOptions): string; function textSpanEnd(span: TextSpan): number; function textSpanIsEmpty(span: TextSpan): boolean; function textSpanContainsPosition(span: TextSpan, position: number): boolean; function textSpanContainsTextSpan(span: TextSpan, other: TextSpan): boolean; function textSpanOverlapsWith(span: TextSpan, other: TextSpan): boolean; function textSpanOverlap(span1: TextSpan, span2: TextSpan): TextSpan | undefined; function textSpanIntersectsWithTextSpan(span: TextSpan, other: TextSpan): boolean; function textSpanIntersectsWith(span: TextSpan, start: number, length: number): boolean; function decodedTextSpanIntersectsWith(start1: number, length1: number, start2: number, length2: number): boolean; function textSpanIntersectsWithPosition(span: TextSpan, position: number): boolean; function textSpanIntersection(span1: TextSpan, span2: TextSpan): TextSpan | undefined; function createTextSpan(start: number, length: number): TextSpan; function createTextSpanFromBounds(start: number, end: number): TextSpan; function textChangeRangeNewSpan(range: TextChangeRange): TextSpan; function textChangeRangeIsUnchanged(range: TextChangeRange): boolean; function createTextChangeRange(span: TextSpan, newLength: number): TextChangeRange; let unchangedTextChangeRange: TextChangeRange; /** * 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: readonly TextChangeRange[]): TextChangeRange; function getTypeParameterOwner(d: Declaration): Declaration | undefined; type ParameterPropertyDeclaration = ParameterDeclaration & { parent: ConstructorDeclaration; name: Identifier; }; function isParameterPropertyDeclaration(node: Node, parent: Node): node is ParameterPropertyDeclaration; function isEmptyBindingPattern(node: BindingName): node is BindingPattern; function isEmptyBindingElement(node: BindingElement): boolean; function walkUpBindingElementsAndPatterns(binding: BindingElement): VariableDeclaration | ParameterDeclaration; function getCombinedModifierFlags(node: Declaration): ModifierFlags; function getCombinedNodeFlags(node: Node): NodeFlags; /** * Checks to see if the locale is in the appropriate format, * and if it is, attempts to set the appropriate language. */ function validateLocaleAndSetLanguage(locale: string, sys: { getExecutingFilePath(): string; resolvePath(path: string): string; fileExists(fileName: string): boolean; readFile(fileName: string): string | undefined; }, errors?: Push): void; function getOriginalNode(node: Node): Node; function getOriginalNode(node: Node, nodeTest: (node: Node) => node is T): T; function getOriginalNode(node: Node | undefined): Node | undefined; function getOriginalNode(node: Node | undefined, nodeTest: (node: Node | undefined) => node is T): T | undefined; /** * Gets a value indicating whether a node originated in the parse tree. * * @param node The node to test. */ function isParseTreeNode(node: Node): boolean; /** * Gets the original parse tree node for a node. * * @param node The original node. * @returns The original parse tree node if found; otherwise, undefined. */ function getParseTreeNode(node: Node): Node; /** * Gets the original parse tree node for a node. * * @param node The original node. * @param nodeTest A callback used to ensure the correct type of parse tree node is returned. * @returns The original parse tree node if found; otherwise, undefined. */ function getParseTreeNode(node: Node | undefined, nodeTest?: (node: Node) => node is T): T | undefined; /** Add an extra underscore to identifiers that start with two underscores to avoid issues with magic names like '__proto__' */ function escapeLeadingUnderscores(identifier: string): __String; /** * Remove extra underscore from escaped identifier text content. * * @param identifier The escaped identifier text. * @returns The unescaped identifier text. */ function unescapeLeadingUnderscores(identifier: __String): string; function idText(identifierOrPrivateName: Identifier | PrivateIdentifier): string; function symbolName(symbol: Symbol): string; function getNameOfJSDocTypedef(declaration: JSDocTypedefTag): Identifier | PrivateIdentifier | undefined; function getNameOfDeclaration(declaration: Declaration | Expression): DeclarationName | undefined; /** * 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: ParameterDeclaration): readonly JSDocParameterTag[]; /** * 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: TypeParameterDeclaration): readonly JSDocTemplateTag[]; /** * 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: FunctionLikeDeclaration | SignatureDeclaration): boolean; /** Gets the JSDoc augments tag for the node if present */ function getJSDocAugmentsTag(node: Node): JSDocAugmentsTag | undefined; /** Gets the JSDoc implements tags for the node if present */ function getJSDocImplementsTags(node: Node): readonly JSDocImplementsTag[]; /** Gets the JSDoc class tag for the node if present */ function getJSDocClassTag(node: Node): JSDocClassTag | undefined; /** Gets the JSDoc public tag for the node if present */ function getJSDocPublicTag(node: Node): JSDocPublicTag | undefined; /** Gets the JSDoc private tag for the node if present */ function getJSDocPrivateTag(node: Node): JSDocPrivateTag | undefined; /** Gets the JSDoc protected tag for the node if present */ function getJSDocProtectedTag(node: Node): JSDocProtectedTag | undefined; /** Gets the JSDoc protected tag for the node if present */ function getJSDocReadonlyTag(node: Node): JSDocReadonlyTag | undefined; /** Gets the JSDoc enum tag for the node if present */ function getJSDocEnumTag(node: Node): JSDocEnumTag | undefined; /** Gets the JSDoc this tag for the node if present */ function getJSDocThisTag(node: Node): JSDocThisTag | undefined; /** Gets the JSDoc return tag for the node if present */ function getJSDocReturnTag(node: Node): JSDocReturnTag | undefined; /** Gets the JSDoc template tag for the node if present */ function getJSDocTemplateTag(node: Node): JSDocTemplateTag | undefined; /** Gets the JSDoc type tag for the node if present and valid */ function getJSDocTypeTag(node: Node): JSDocTypeTag | undefined; /** * 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: Node): TypeNode | undefined; /** * 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: Node): TypeNode | undefined; /** Get all JSDoc tags related to a node, including those on parent nodes. */ function getJSDocTags(node: Node): readonly JSDocTag[]; /** Gets all JSDoc tags that match a specified predicate */ function getAllJSDocTags(node: Node, predicate: (tag: JSDocTag) => tag is T): readonly T[]; /** Gets all JSDoc tags of a specified kind */ function getAllJSDocTagsOfKind(node: Node, kind: SyntaxKind): readonly JSDocTag[]; /** * 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: DeclarationWithTypeParameters): readonly TypeParameterDeclaration[]; function getEffectiveConstraintOfTypeParameter(node: TypeParameterDeclaration): TypeNode | undefined; function isNumericLiteral(node: Node): node is NumericLiteral; function isBigIntLiteral(node: Node): node is BigIntLiteral; function isStringLiteral(node: Node): node is StringLiteral; function isJsxText(node: Node): node is JsxText; function isRegularExpressionLiteral(node: Node): node is RegularExpressionLiteral; function isNoSubstitutionTemplateLiteral(node: Node): node is NoSubstitutionTemplateLiteral; function isTemplateHead(node: Node): node is TemplateHead; function isTemplateMiddle(node: Node): node is TemplateMiddle; function isTemplateTail(node: Node): node is TemplateTail; function isIdentifier(node: Node): node is Identifier; function isQualifiedName(node: Node): node is QualifiedName; function isComputedPropertyName(node: Node): node is ComputedPropertyName; function isPrivateIdentifier(node: Node): node is PrivateIdentifier; function isIdentifierOrPrivateIdentifier(node: Node): node is Identifier | PrivateIdentifier; function isTypeParameterDeclaration(node: Node): node is TypeParameterDeclaration; function isParameter(node: Node): node is ParameterDeclaration; function isDecorator(node: Node): node is Decorator; function isPropertySignature(node: Node): node is PropertySignature; function isPropertyDeclaration(node: Node): node is PropertyDeclaration; function isMethodSignature(node: Node): node is MethodSignature; function isMethodDeclaration(node: Node): node is MethodDeclaration; function isConstructorDeclaration(node: Node): node is ConstructorDeclaration; function isGetAccessorDeclaration(node: Node): node is GetAccessorDeclaration; function isSetAccessorDeclaration(node: Node): node is SetAccessorDeclaration; function isCallSignatureDeclaration(node: Node): node is CallSignatureDeclaration; function isConstructSignatureDeclaration(node: Node): node is ConstructSignatureDeclaration; function isIndexSignatureDeclaration(node: Node): node is IndexSignatureDeclaration; function isTypePredicateNode(node: Node): node is TypePredicateNode; function isTypeReferenceNode(node: Node): node is TypeReferenceNode; function isFunctionTypeNode(node: Node): node is FunctionTypeNode; function isConstructorTypeNode(node: Node): node is ConstructorTypeNode; function isTypeQueryNode(node: Node): node is TypeQueryNode; function isTypeLiteralNode(node: Node): node is TypeLiteralNode; function isArrayTypeNode(node: Node): node is ArrayTypeNode; function isTupleTypeNode(node: Node): node is TupleTypeNode; function isUnionTypeNode(node: Node): node is UnionTypeNode; function isIntersectionTypeNode(node: Node): node is IntersectionTypeNode; function isConditionalTypeNode(node: Node): node is ConditionalTypeNode; function isInferTypeNode(node: Node): node is InferTypeNode; function isParenthesizedTypeNode(node: Node): node is ParenthesizedTypeNode; function isThisTypeNode(node: Node): node is ThisTypeNode; function isTypeOperatorNode(node: Node): node is TypeOperatorNode; function isIndexedAccessTypeNode(node: Node): node is IndexedAccessTypeNode; function isMappedTypeNode(node: Node): node is MappedTypeNode; function isLiteralTypeNode(node: Node): node is LiteralTypeNode; function isImportTypeNode(node: Node): node is ImportTypeNode; function isObjectBindingPattern(node: Node): node is ObjectBindingPattern; function isArrayBindingPattern(node: Node): node is ArrayBindingPattern; function isBindingElement(node: Node): node is BindingElement; function isArrayLiteralExpression(node: Node): node is ArrayLiteralExpression; function isObjectLiteralExpression(node: Node): node is ObjectLiteralExpression; function isPropertyAccessExpression(node: Node): node is PropertyAccessExpression; function isPropertyAccessChain(node: Node): node is PropertyAccessChain; function isElementAccessExpression(node: Node): node is ElementAccessExpression; function isElementAccessChain(node: Node): node is ElementAccessChain; function isCallExpression(node: Node): node is CallExpression; function isCallChain(node: Node): node is CallChain; function isOptionalChain(node: Node): node is PropertyAccessChain | ElementAccessChain | CallChain | NonNullChain; function isNullishCoalesce(node: Node): boolean; function isNewExpression(node: Node): node is NewExpression; function isTaggedTemplateExpression(node: Node): node is TaggedTemplateExpression; function isTypeAssertion(node: Node): node is TypeAssertion; function isConstTypeReference(node: Node): boolean; function isParenthesizedExpression(node: Node): node is ParenthesizedExpression; function skipPartiallyEmittedExpressions(node: Expression): Expression; function skipPartiallyEmittedExpressions(node: Node): Node; function isFunctionExpression(node: Node): node is FunctionExpression; function isArrowFunction(node: Node): node is ArrowFunction; function isDeleteExpression(node: Node): node is DeleteExpression; function isTypeOfExpression(node: Node): node is TypeOfExpression; function isVoidExpression(node: Node): node is VoidExpression; function isAwaitExpression(node: Node): node is AwaitExpression; function isPrefixUnaryExpression(node: Node): node is PrefixUnaryExpression; function isPostfixUnaryExpression(node: Node): node is PostfixUnaryExpression; function isBinaryExpression(node: Node): node is BinaryExpression; function isConditionalExpression(node: Node): node is ConditionalExpression; function isTemplateExpression(node: Node): node is TemplateExpression; function isYieldExpression(node: Node): node is YieldExpression; function isSpreadElement(node: Node): node is SpreadElement; function isClassExpression(node: Node): node is ClassExpression; function isOmittedExpression(node: Node): node is OmittedExpression; function isExpressionWithTypeArguments(node: Node): node is ExpressionWithTypeArguments; function isAsExpression(node: Node): node is AsExpression; function isNonNullExpression(node: Node): node is NonNullExpression; function isNonNullChain(node: Node): node is NonNullChain; function isMetaProperty(node: Node): node is MetaProperty; function isTemplateSpan(node: Node): node is TemplateSpan; function isSemicolonClassElement(node: Node): node is SemicolonClassElement; function isBlock(node: Node): node is Block; function isVariableStatement(node: Node): node is VariableStatement; function isEmptyStatement(node: Node): node is EmptyStatement; function isExpressionStatement(node: Node): node is ExpressionStatement; function isIfStatement(node: Node): node is IfStatement; function isDoStatement(node: Node): node is DoStatement; function isWhileStatement(node: Node): node is WhileStatement; function isForStatement(node: Node): node is ForStatement; function isForInStatement(node: Node): node is ForInStatement; function isForOfStatement(node: Node): node is ForOfStatement; function isContinueStatement(node: Node): node is ContinueStatement; function isBreakStatement(node: Node): node is BreakStatement; function isBreakOrContinueStatement(node: Node): node is BreakOrContinueStatement; function isReturnStatement(node: Node): node is ReturnStatement; function isWithStatement(node: Node): node is WithStatement; function isSwitchStatement(node: Node): node is SwitchStatement; function isLabeledStatement(node: Node): node is LabeledStatement; function isThrowStatement(node: Node): node is ThrowStatement; function isTryStatement(node: Node): node is TryStatement; function isDebuggerStatement(node: Node): node is DebuggerStatement; function isVariableDeclaration(node: Node): node is VariableDeclaration; function isVariableDeclarationList(node: Node): node is VariableDeclarationList; function isFunctionDeclaration(node: Node): node is FunctionDeclaration; function isClassDeclaration(node: Node): node is ClassDeclaration; function isInterfaceDeclaration(node: Node): node is InterfaceDeclaration; function isTypeAliasDeclaration(node: Node): node is TypeAliasDeclaration; function isEnumDeclaration(node: Node): node is EnumDeclaration; function isModuleDeclaration(node: Node): node is ModuleDeclaration; function isModuleBlock(node: Node): node is ModuleBlock; function isCaseBlock(node: Node): node is CaseBlock; function isNamespaceExportDeclaration(node: Node): node is NamespaceExportDeclaration; function isImportEqualsDeclaration(node: Node): node is ImportEqualsDeclaration; function isImportDeclaration(node: Node): node is ImportDeclaration; function isImportClause(node: Node): node is ImportClause; function isNamespaceImport(node: Node): node is NamespaceImport; function isNamespaceExport(node: Node): node is NamespaceExport; function isNamedExportBindings(node: Node): node is NamedExportBindings; function isNamedImports(node: Node): node is NamedImports; function isImportSpecifier(node: Node): node is ImportSpecifier; function isExportAssignment(node: Node): node is ExportAssignment; function isExportDeclaration(node: Node): node is ExportDeclaration; function isNamedExports(node: Node): node is NamedExports; function isExportSpecifier(node: Node): node is ExportSpecifier; function isMissingDeclaration(node: Node): node is MissingDeclaration; function isExternalModuleReference(node: Node): node is ExternalModuleReference; function isJsxElement(node: Node): node is JsxElement; function isJsxSelfClosingElement(node: Node): node is JsxSelfClosingElement; function isJsxOpeningElement(node: Node): node is JsxOpeningElement; function isJsxClosingElement(node: Node): node is JsxClosingElement; function isJsxFragment(node: Node): node is JsxFragment; function isJsxOpeningFragment(node: Node): node is JsxOpeningFragment; function isJsxClosingFragment(node: Node): node is JsxClosingFragment; function isJsxAttribute(node: Node): node is JsxAttribute; function isJsxAttributes(node: Node): node is JsxAttributes; function isJsxSpreadAttribute(node: Node): node is JsxSpreadAttribute; function isJsxExpression(node: Node): node is JsxExpression; function isCaseClause(node: Node): node is CaseClause; function isDefaultClause(node: Node): node is DefaultClause; function isHeritageClause(node: Node): node is HeritageClause; function isCatchClause(node: Node): node is CatchClause; function isPropertyAssignment(node: Node): node is PropertyAssignment; function isShorthandPropertyAssignment(node: Node): node is ShorthandPropertyAssignment; function isSpreadAssignment(node: Node): node is SpreadAssignment; function isEnumMember(node: Node): node is EnumMember; function isSourceFile(node: Node): node is SourceFile; function isBundle(node: Node): node is Bundle; function isUnparsedSource(node: Node): node is UnparsedSource; function isUnparsedPrepend(node: Node): node is UnparsedPrepend; function isUnparsedTextLike(node: Node): node is UnparsedTextLike; function isUnparsedNode(node: Node): node is UnparsedNode; function isJSDocTypeExpression(node: Node): node is JSDocTypeExpression; function isJSDocAllType(node: Node): node is JSDocAllType; function isJSDocUnknownType(node: Node): node is JSDocUnknownType; function isJSDocNullableType(node: Node): node is JSDocNullableType; function isJSDocNonNullableType(node: Node): node is JSDocNonNullableType; function isJSDocOptionalType(node: Node): node is JSDocOptionalType; function isJSDocFunctionType(node: Node): node is JSDocFunctionType; function isJSDocVariadicType(node: Node): node is JSDocVariadicType; function isJSDoc(node: Node): node is JSDoc; function isJSDocAuthorTag(node: Node): node is JSDocAuthorTag; function isJSDocAugmentsTag(node: Node): node is JSDocAugmentsTag; function isJSDocImplementsTag(node: Node): node is JSDocImplementsTag; function isJSDocClassTag(node: Node): node is JSDocClassTag; function isJSDocPublicTag(node: Node): node is JSDocPublicTag; function isJSDocPrivateTag(node: Node): node is JSDocPrivateTag; function isJSDocProtectedTag(node: Node): node is JSDocProtectedTag; function isJSDocReadonlyTag(node: Node): node is JSDocReadonlyTag; function isJSDocEnumTag(node: Node): node is JSDocEnumTag; function isJSDocThisTag(node: Node): node is JSDocThisTag; function isJSDocParameterTag(node: Node): node is JSDocParameterTag; function isJSDocReturnTag(node: Node): node is JSDocReturnTag; function isJSDocTypeTag(node: Node): node is JSDocTypeTag; function isJSDocTemplateTag(node: Node): node is JSDocTemplateTag; function isJSDocTypedefTag(node: Node): node is JSDocTypedefTag; function isJSDocPropertyTag(node: Node): node is JSDocPropertyTag; function isJSDocPropertyLikeTag(node: Node): node is JSDocPropertyLikeTag; function isJSDocTypeLiteral(node: Node): node is JSDocTypeLiteral; function isJSDocCallbackTag(node: Node): node is JSDocCallbackTag; function isJSDocSignature(node: Node): node is JSDocSignature; /** * 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: Node): boolean; function isLiteralExpression(node: Node): node is LiteralExpression; type TemplateLiteralToken = NoSubstitutionTemplateLiteral | TemplateHead | TemplateMiddle | TemplateTail; function isTemplateLiteralToken(node: Node): node is TemplateLiteralToken; function isTemplateMiddleOrTemplateTail(node: Node): node is TemplateMiddle | TemplateTail; function isImportOrExportSpecifier(node: Node): node is ImportSpecifier | ExportSpecifier; function isTypeOnlyImportOrExportDeclaration(node: Node): node is TypeOnlyCompatibleAliasDeclaration; function isStringTextContainingNode(node: Node): node is StringLiteral | TemplateLiteralToken; function isModifier(node: Node): node is Modifier; function isEntityName(node: Node): node is EntityName; function isPropertyName(node: Node): node is PropertyName; function isBindingName(node: Node): node is BindingName; function isFunctionLike(node: Node): node is SignatureDeclaration; function isClassElement(node: Node): node is ClassElement; function isClassLike(node: Node): node is ClassLikeDeclaration; function isAccessor(node: Node): node is AccessorDeclaration; function isTypeElement(node: Node): node is TypeElement; function isClassOrTypeElement(node: Node): node is ClassElement | TypeElement; function isObjectLiteralElementLike(node: Node): node is ObjectLiteralElementLike; /** * 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: Node): node is TypeNode; function isFunctionOrConstructorTypeNode(node: Node): node is FunctionTypeNode | ConstructorTypeNode; function isPropertyAccessOrQualifiedName(node: Node): node is PropertyAccessExpression | QualifiedName; function isCallLikeExpression(node: Node): node is CallLikeExpression; function isCallOrNewExpression(node: Node): node is CallExpression | NewExpression; function isTemplateLiteral(node: Node): node is TemplateLiteral; function isAssertionExpression(node: Node): node is AssertionExpression; function isIterationStatement(node: Node, lookInLabeledStatements: false): node is IterationStatement; function isIterationStatement(node: Node, lookInLabeledStatements: boolean): node is IterationStatement | LabeledStatement; function isJsxOpeningLikeElement(node: Node): node is JsxOpeningLikeElement; function isCaseOrDefaultClause(node: Node): node is CaseOrDefaultClause; /** True if node is of a kind that may contain comment text. */ function isJSDocCommentContainingNode(node: Node): boolean; function isSetAccessor(node: Node): node is SetAccessorDeclaration; function isGetAccessor(node: Node): node is GetAccessorDeclaration; /** True if has initializer node attached to it. */ function hasOnlyExpressionInitializer(node: Node): node is HasExpressionInitializer; function isObjectLiteralElement(node: Node): node is ObjectLiteralElement; function isStringLiteralLike(node: Node): node is StringLiteralLike; } declare namespace ts { export function createNode(kind: SyntaxKind, pos?: number, end?: number): Node; /** * 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. */ export function forEachChild(node: Node, cbNode: (node: Node) => T | undefined, cbNodes?: (nodes: NodeArray) => T | undefined): T | undefined; export function createSourceFile(fileName: string, sourceText: string, languageVersion: ScriptTarget, setParentNodes?: boolean, scriptKind?: ScriptKind): SourceFile; export function parseIsolatedEntityName(text: string, languageVersion: ScriptTarget): EntityName | undefined; /** * Parse json text into SyntaxTree and return node and parse errors if any * @param fileName * @param sourceText */ export function parseJsonText(fileName: string, sourceText: string): JsonSourceFile; export function isExternalModule(file: SourceFile): boolean; export function updateSourceFile(sourceFile: SourceFile, newText: string, textChangeRange: TextChangeRange, aggressiveChecks?: boolean): SourceFile; export {}; } declare namespace ts { export function parseCommandLine(commandLine: readonly string[], readFile?: (path: string) => string | undefined): ParsedCommandLine; export type DiagnosticReporter = (diagnostic: Diagnostic) => void; /** * Reports config file diagnostics */ export interface ConfigFileDiagnosticsReporter { /** * Reports unrecoverable error when parsing config file */ onUnRecoverableConfigFileDiagnostic: DiagnosticReporter; } /** * Interface extending ParseConfigHost to support ParseConfigFile that reads config file and reports errors */ export interface ParseConfigFileHost extends ParseConfigHost, ConfigFileDiagnosticsReporter { getCurrentDirectory(): string; } /** * Reads the config file, reports errors if any and exits if the config file cannot be found */ export function getParsedCommandLineOfConfigFile(configFileName: string, optionsToExtend: CompilerOptions, host: ParseConfigFileHost, extendedConfigCache?: Map, watchOptionsToExtend?: WatchOptions, extraFileExtensions?: readonly FileExtensionInfo[]): ParsedCommandLine | undefined; /** * Read tsconfig.json file * @param fileName The path to the config file */ export function readConfigFile(fileName: string, readFile: (path: string) => string | undefined): { config?: any; error?: Diagnostic; }; /** * Parse the text of the tsconfig.json file * @param fileName The path to the config file * @param jsonText The text of the config file */ export function parseConfigFileTextToJson(fileName: string, jsonText: string): { config?: any; error?: Diagnostic; }; /** * Read tsconfig.json file * @param fileName The path to the config file */ export function readJsonConfigFile(fileName: string, readFile: (path: string) => string | undefined): TsConfigSourceFile; /** * Convert the json syntax tree into the json value */ export function convertToObject(sourceFile: JsonSourceFile, errors: Push): any; /** * 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 */ export function parseJsonConfigFileContent(json: any, host: ParseConfigHost, basePath: string, existingOptions?: CompilerOptions, configFileName?: string, resolutionStack?: Path[], extraFileExtensions?: readonly FileExtensionInfo[], extendedConfigCache?: Map, existingWatchOptions?: WatchOptions): ParsedCommandLine; /** * 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 */ export function parseJsonSourceFileConfigFileContent(sourceFile: TsConfigSourceFile, host: ParseConfigHost, basePath: string, existingOptions?: CompilerOptions, configFileName?: string, resolutionStack?: Path[], extraFileExtensions?: readonly FileExtensionInfo[], extendedConfigCache?: Map, existingWatchOptions?: WatchOptions): ParsedCommandLine; export interface ParsedTsconfig { raw: any; options?: CompilerOptions; watchOptions?: WatchOptions; typeAcquisition?: TypeAcquisition; /** * Note that the case of the config path has not yet been normalized, as no files have been imported into the project yet */ extendedConfigPath?: string; } export interface ExtendedConfigCacheEntry { extendedResult: TsConfigSourceFile; extendedConfig: ParsedTsconfig | undefined; } export function convertCompilerOptionsFromJson(jsonOptions: any, basePath: string, configFileName?: string): { options: CompilerOptions; errors: Diagnostic[]; }; export function convertTypeAcquisitionFromJson(jsonOptions: any, basePath: string, configFileName?: string): { options: TypeAcquisition; errors: Diagnostic[]; }; export {}; } declare namespace ts { function getEffectiveTypeRoots(options: CompilerOptions, host: GetEffectiveTypeRootsHost): string[] | undefined; /** * @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: string, containingFile: string | undefined, options: CompilerOptions, host: ModuleResolutionHost, redirectedReference?: ResolvedProjectReference): ResolvedTypeReferenceDirectiveWithFailedLookupLocations; /** * 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: CompilerOptions, host: ModuleResolutionHost): string[]; /** * Cached module resolutions per containing directory. * This assumes that any module id will have the same resolution for sibling files located in the same folder. */ interface ModuleResolutionCache extends NonRelativeModuleNameResolutionCache { getOrCreateCacheForDirectory(directoryName: string, redirectedReference?: ResolvedProjectReference): Map; } /** * Stored map from non-relative module name to a table: directory -> result of module lookup in this directory * We support only non-relative module names because resolution of relative module names is usually more deterministic and thus less expensive. */ interface NonRelativeModuleNameResolutionCache { getOrCreateCacheForModuleName(nonRelativeModuleName: string, redirectedReference?: ResolvedProjectReference): PerModuleNameCache; } interface PerModuleNameCache { get(directory: string): ResolvedModuleWithFailedLookupLocations | undefined; set(directory: string, result: ResolvedModuleWithFailedLookupLocations): void; } function createModuleResolutionCache(currentDirectory: string, getCanonicalFileName: (s: string) => string, options?: CompilerOptions): ModuleResolutionCache; function resolveModuleNameFromCache(moduleName: string, containingFile: string, cache: ModuleResolutionCache): ResolvedModuleWithFailedLookupLocations | undefined; function resolveModuleName(moduleName: string, containingFile: string, compilerOptions: CompilerOptions, host: ModuleResolutionHost, cache?: ModuleResolutionCache, redirectedReference?: ResolvedProjectReference): ResolvedModuleWithFailedLookupLocations; function nodeModuleNameResolver(moduleName: string, containingFile: string, compilerOptions: CompilerOptions, host: ModuleResolutionHost, cache?: ModuleResolutionCache, redirectedReference?: ResolvedProjectReference): ResolvedModuleWithFailedLookupLocations; function classicNameResolver(moduleName: string, containingFile: string, compilerOptions: CompilerOptions, host: ModuleResolutionHost, cache?: NonRelativeModuleNameResolutionCache, redirectedReference?: ResolvedProjectReference): ResolvedModuleWithFailedLookupLocations; } declare namespace ts { function createNodeArray(elements?: readonly T[], hasTrailingComma?: boolean): NodeArray; /** If a node is passed, creates a string literal whose source text is read from a source node during emit. */ function createLiteral(value: string | StringLiteral | NoSubstitutionTemplateLiteral | NumericLiteral | Identifier): StringLiteral; function createLiteral(value: number | PseudoBigInt): NumericLiteral; function createLiteral(value: boolean): BooleanLiteral; function createLiteral(value: string | number | PseudoBigInt | boolean): PrimaryExpression; function createNumericLiteral(value: string, numericLiteralFlags?: TokenFlags): NumericLiteral; function createBigIntLiteral(value: string): BigIntLiteral; function createStringLiteral(text: string): StringLiteral; function createRegularExpressionLiteral(text: string): RegularExpressionLiteral; function createIdentifier(text: string): Identifier; function updateIdentifier(node: Identifier): Identifier; /** Create a unique temporary variable. */ function createTempVariable(recordTempVariable: ((node: Identifier) => void) | undefined): Identifier; /** Create a unique temporary variable for use in a loop. */ function createLoopVariable(): Identifier; /** Create a unique name based on the supplied text. */ function createUniqueName(text: string): Identifier; /** Create a unique name based on the supplied text. */ function createOptimisticUniqueName(text: string): Identifier; /** Create a unique name based on the supplied text. This does not consider names injected by the transformer. */ function createFileLevelUniqueName(text: string): Identifier; /** Create a unique name generated for a node. */ function getGeneratedNameForNode(node: Node | undefined): Identifier; function createPrivateIdentifier(text: string): PrivateIdentifier; function createToken(token: TKind): Token; function createSuper(): SuperExpression; function createThis(): ThisExpression & Token; function createNull(): NullLiteral & Token; function createTrue(): BooleanLiteral & Token; function createFalse(): BooleanLiteral & Token; function createModifier(kind: T): Token; function createModifiersFromModifierFlags(flags: ModifierFlags): Modifier[]; function createQualifiedName(left: EntityName, right: string | Identifier): QualifiedName; function updateQualifiedName(node: QualifiedName, left: EntityName, right: Identifier): QualifiedName; function createComputedPropertyName(expression: Expression): ComputedPropertyName; function updateComputedPropertyName(node: ComputedPropertyName, expression: Expression): ComputedPropertyName; function createTypeParameterDeclaration(name: string | Identifier, constraint?: TypeNode, defaultType?: TypeNode): TypeParameterDeclaration; function updateTypeParameterDeclaration(node: TypeParameterDeclaration, name: Identifier, constraint: TypeNode | undefined, defaultType: TypeNode | undefined): TypeParameterDeclaration; function createParameter(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, dotDotDotToken: DotDotDotToken | undefined, name: string | BindingName, questionToken?: QuestionToken, type?: TypeNode, initializer?: Expression): ParameterDeclaration; function updateParameter(node: ParameterDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, dotDotDotToken: DotDotDotToken | undefined, name: string | BindingName, questionToken: QuestionToken | undefined, type: TypeNode | undefined, initializer: Expression | undefined): ParameterDeclaration; function createDecorator(expression: Expression): Decorator; function updateDecorator(node: Decorator, expression: Expression): Decorator; function createPropertySignature(modifiers: readonly Modifier[] | undefined, name: PropertyName | string, questionToken: QuestionToken | undefined, type: TypeNode | undefined, initializer: Expression | undefined): PropertySignature; function updatePropertySignature(node: PropertySignature, modifiers: readonly Modifier[] | undefined, name: PropertyName, questionToken: QuestionToken | undefined, type: TypeNode | undefined, initializer: Expression | undefined): PropertySignature; function createProperty(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | PropertyName, questionOrExclamationToken: QuestionToken | ExclamationToken | undefined, type: TypeNode | undefined, initializer: Expression | undefined): PropertyDeclaration; function updateProperty(node: PropertyDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | PropertyName, questionOrExclamationToken: QuestionToken | ExclamationToken | undefined, type: TypeNode | undefined, initializer: Expression | undefined): PropertyDeclaration; function createMethodSignature(typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, name: string | PropertyName, questionToken: QuestionToken | undefined): MethodSignature; function updateMethodSignature(node: MethodSignature, typeParameters: NodeArray | undefined, parameters: NodeArray, type: TypeNode | undefined, name: PropertyName, questionToken: QuestionToken | undefined): MethodSignature; function createMethod(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, asteriskToken: AsteriskToken | undefined, name: string | PropertyName, questionToken: QuestionToken | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block | undefined): MethodDeclaration; function updateMethod(node: MethodDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, asteriskToken: AsteriskToken | undefined, name: PropertyName, questionToken: QuestionToken | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block | undefined): MethodDeclaration; function createConstructor(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, parameters: readonly ParameterDeclaration[], body: Block | undefined): ConstructorDeclaration; function updateConstructor(node: ConstructorDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, parameters: readonly ParameterDeclaration[], body: Block | undefined): ConstructorDeclaration; function createGetAccessor(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | PropertyName, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block | undefined): GetAccessorDeclaration; function updateGetAccessor(node: GetAccessorDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: PropertyName, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block | undefined): GetAccessorDeclaration; function createSetAccessor(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | PropertyName, parameters: readonly ParameterDeclaration[], body: Block | undefined): SetAccessorDeclaration; function updateSetAccessor(node: SetAccessorDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: PropertyName, parameters: readonly ParameterDeclaration[], body: Block | undefined): SetAccessorDeclaration; function createCallSignature(typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined): CallSignatureDeclaration; function updateCallSignature(node: CallSignatureDeclaration, typeParameters: NodeArray | undefined, parameters: NodeArray, type: TypeNode | undefined): CallSignatureDeclaration; function createConstructSignature(typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined): ConstructSignatureDeclaration; function updateConstructSignature(node: ConstructSignatureDeclaration, typeParameters: NodeArray | undefined, parameters: NodeArray, type: TypeNode | undefined): ConstructSignatureDeclaration; function createIndexSignature(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode): IndexSignatureDeclaration; function updateIndexSignature(node: IndexSignatureDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode): IndexSignatureDeclaration; function createKeywordTypeNode(kind: KeywordTypeNode["kind"]): KeywordTypeNode; function createTypePredicateNode(parameterName: Identifier | ThisTypeNode | string, type: TypeNode): TypePredicateNode; function createTypePredicateNodeWithModifier(assertsModifier: AssertsToken | undefined, parameterName: Identifier | ThisTypeNode | string, type: TypeNode | undefined): TypePredicateNode; function updateTypePredicateNode(node: TypePredicateNode, parameterName: Identifier | ThisTypeNode, type: TypeNode): TypePredicateNode; function updateTypePredicateNodeWithModifier(node: TypePredicateNode, assertsModifier: AssertsToken | undefined, parameterName: Identifier | ThisTypeNode, type: TypeNode | undefined): TypePredicateNode; function createTypeReferenceNode(typeName: string | EntityName, typeArguments: readonly TypeNode[] | undefined): TypeReferenceNode; function updateTypeReferenceNode(node: TypeReferenceNode, typeName: EntityName, typeArguments: NodeArray | undefined): TypeReferenceNode; function createFunctionTypeNode(typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined): FunctionTypeNode; function updateFunctionTypeNode(node: FunctionTypeNode, typeParameters: NodeArray | undefined, parameters: NodeArray, type: TypeNode | undefined): FunctionTypeNode; function createConstructorTypeNode(typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined): ConstructorTypeNode; function updateConstructorTypeNode(node: ConstructorTypeNode, typeParameters: NodeArray | undefined, parameters: NodeArray, type: TypeNode | undefined): ConstructorTypeNode; function createTypeQueryNode(exprName: EntityName): TypeQueryNode; function updateTypeQueryNode(node: TypeQueryNode, exprName: EntityName): TypeQueryNode; function createTypeLiteralNode(members: readonly TypeElement[] | undefined): TypeLiteralNode; function updateTypeLiteralNode(node: TypeLiteralNode, members: NodeArray): TypeLiteralNode; function createArrayTypeNode(elementType: TypeNode): ArrayTypeNode; function updateArrayTypeNode(node: ArrayTypeNode, elementType: TypeNode): ArrayTypeNode; function createTupleTypeNode(elementTypes: readonly TypeNode[]): TupleTypeNode; function updateTupleTypeNode(node: TupleTypeNode, elementTypes: readonly TypeNode[]): TupleTypeNode; function createOptionalTypeNode(type: TypeNode): OptionalTypeNode; function updateOptionalTypeNode(node: OptionalTypeNode, type: TypeNode): OptionalTypeNode; function createRestTypeNode(type: TypeNode): RestTypeNode; function updateRestTypeNode(node: RestTypeNode, type: TypeNode): RestTypeNode; function createUnionTypeNode(types: readonly TypeNode[]): UnionTypeNode; function updateUnionTypeNode(node: UnionTypeNode, types: NodeArray): UnionTypeNode; function createIntersectionTypeNode(types: readonly TypeNode[]): IntersectionTypeNode; function updateIntersectionTypeNode(node: IntersectionTypeNode, types: NodeArray): IntersectionTypeNode; function createUnionOrIntersectionTypeNode(kind: SyntaxKind.UnionType | SyntaxKind.IntersectionType, types: readonly TypeNode[]): UnionOrIntersectionTypeNode; function createConditionalTypeNode(checkType: TypeNode, extendsType: TypeNode, trueType: TypeNode, falseType: TypeNode): ConditionalTypeNode; function updateConditionalTypeNode(node: ConditionalTypeNode, checkType: TypeNode, extendsType: TypeNode, trueType: TypeNode, falseType: TypeNode): ConditionalTypeNode; function createInferTypeNode(typeParameter: TypeParameterDeclaration): InferTypeNode; function updateInferTypeNode(node: InferTypeNode, typeParameter: TypeParameterDeclaration): InferTypeNode; function createImportTypeNode(argument: TypeNode, qualifier?: EntityName, typeArguments?: readonly TypeNode[], isTypeOf?: boolean): ImportTypeNode; function updateImportTypeNode(node: ImportTypeNode, argument: TypeNode, qualifier?: EntityName, typeArguments?: readonly TypeNode[], isTypeOf?: boolean): ImportTypeNode; function createParenthesizedType(type: TypeNode): ParenthesizedTypeNode; function updateParenthesizedType(node: ParenthesizedTypeNode, type: TypeNode): ParenthesizedTypeNode; function createThisTypeNode(): ThisTypeNode; function createTypeOperatorNode(type: TypeNode): TypeOperatorNode; function createTypeOperatorNode(operator: SyntaxKind.KeyOfKeyword | SyntaxKind.UniqueKeyword | SyntaxKind.ReadonlyKeyword, type: TypeNode): TypeOperatorNode; function updateTypeOperatorNode(node: TypeOperatorNode, type: TypeNode): TypeOperatorNode; function createIndexedAccessTypeNode(objectType: TypeNode, indexType: TypeNode): IndexedAccessTypeNode; function updateIndexedAccessTypeNode(node: IndexedAccessTypeNode, objectType: TypeNode, indexType: TypeNode): IndexedAccessTypeNode; function createMappedTypeNode(readonlyToken: ReadonlyToken | PlusToken | MinusToken | undefined, typeParameter: TypeParameterDeclaration, questionToken: QuestionToken | PlusToken | MinusToken | undefined, type: TypeNode | undefined): MappedTypeNode; function updateMappedTypeNode(node: MappedTypeNode, readonlyToken: ReadonlyToken | PlusToken | MinusToken | undefined, typeParameter: TypeParameterDeclaration, questionToken: QuestionToken | PlusToken | MinusToken | undefined, type: TypeNode | undefined): MappedTypeNode; function createLiteralTypeNode(literal: LiteralTypeNode["literal"]): LiteralTypeNode; function updateLiteralTypeNode(node: LiteralTypeNode, literal: LiteralTypeNode["literal"]): LiteralTypeNode; function createObjectBindingPattern(elements: readonly BindingElement[]): ObjectBindingPattern; function updateObjectBindingPattern(node: ObjectBindingPattern, elements: readonly BindingElement[]): ObjectBindingPattern; function createArrayBindingPattern(elements: readonly ArrayBindingElement[]): ArrayBindingPattern; function updateArrayBindingPattern(node: ArrayBindingPattern, elements: readonly ArrayBindingElement[]): ArrayBindingPattern; function createBindingElement(dotDotDotToken: DotDotDotToken | undefined, propertyName: string | PropertyName | undefined, name: string | BindingName, initializer?: Expression): BindingElement; function updateBindingElement(node: BindingElement, dotDotDotToken: DotDotDotToken | undefined, propertyName: PropertyName | undefined, name: BindingName, initializer: Expression | undefined): BindingElement; function createArrayLiteral(elements?: readonly Expression[], multiLine?: boolean): ArrayLiteralExpression; function updateArrayLiteral(node: ArrayLiteralExpression, elements: readonly Expression[]): ArrayLiteralExpression; function createObjectLiteral(properties?: readonly ObjectLiteralElementLike[], multiLine?: boolean): ObjectLiteralExpression; function updateObjectLiteral(node: ObjectLiteralExpression, properties: readonly ObjectLiteralElementLike[]): ObjectLiteralExpression; function createPropertyAccess(expression: Expression, name: string | Identifier | PrivateIdentifier): PropertyAccessExpression; function updatePropertyAccess(node: PropertyAccessExpression, expression: Expression, name: Identifier | PrivateIdentifier): PropertyAccessExpression; function createPropertyAccessChain(expression: Expression, questionDotToken: QuestionDotToken | undefined, name: string | Identifier): PropertyAccessChain; function updatePropertyAccessChain(node: PropertyAccessChain, expression: Expression, questionDotToken: QuestionDotToken | undefined, name: Identifier): PropertyAccessChain; function createElementAccess(expression: Expression, index: number | Expression): ElementAccessExpression; function updateElementAccess(node: ElementAccessExpression, expression: Expression, argumentExpression: Expression): ElementAccessExpression; function createElementAccessChain(expression: Expression, questionDotToken: QuestionDotToken | undefined, index: number | Expression): ElementAccessChain; function updateElementAccessChain(node: ElementAccessChain, expression: Expression, questionDotToken: QuestionDotToken | undefined, argumentExpression: Expression): ElementAccessChain; function createCall(expression: Expression, typeArguments: readonly TypeNode[] | undefined, argumentsArray: readonly Expression[] | undefined): CallExpression; function updateCall(node: CallExpression, expression: Expression, typeArguments: readonly TypeNode[] | undefined, argumentsArray: readonly Expression[]): CallExpression; function createCallChain(expression: Expression, questionDotToken: QuestionDotToken | undefined, typeArguments: readonly TypeNode[] | undefined, argumentsArray: readonly Expression[] | undefined): CallChain; function updateCallChain(node: CallChain, expression: Expression, questionDotToken: QuestionDotToken | undefined, typeArguments: readonly TypeNode[] | undefined, argumentsArray: readonly Expression[]): CallChain; function createNew(expression: Expression, typeArguments: readonly TypeNode[] | undefined, argumentsArray: readonly Expression[] | undefined): NewExpression; function updateNew(node: NewExpression, expression: Expression, typeArguments: readonly TypeNode[] | undefined, argumentsArray: readonly Expression[] | undefined): NewExpression; /** @deprecated */ function createTaggedTemplate(tag: Expression, template: TemplateLiteral): TaggedTemplateExpression; function createTaggedTemplate(tag: Expression, typeArguments: readonly TypeNode[] | undefined, template: TemplateLiteral): TaggedTemplateExpression; /** @deprecated */ function updateTaggedTemplate(node: TaggedTemplateExpression, tag: Expression, template: TemplateLiteral): TaggedTemplateExpression; function updateTaggedTemplate(node: TaggedTemplateExpression, tag: Expression, typeArguments: readonly TypeNode[] | undefined, template: TemplateLiteral): TaggedTemplateExpression; function createTypeAssertion(type: TypeNode, expression: Expression): TypeAssertion; function updateTypeAssertion(node: TypeAssertion, type: TypeNode, expression: Expression): TypeAssertion; function createParen(expression: Expression): ParenthesizedExpression; function updateParen(node: ParenthesizedExpression, expression: Expression): ParenthesizedExpression; function createFunctionExpression(modifiers: readonly Modifier[] | undefined, asteriskToken: AsteriskToken | undefined, name: string | Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[] | undefined, type: TypeNode | undefined, body: Block): FunctionExpression; function updateFunctionExpression(node: FunctionExpression, modifiers: readonly Modifier[] | undefined, asteriskToken: AsteriskToken | undefined, name: Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block): FunctionExpression; function createArrowFunction(modifiers: readonly Modifier[] | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, equalsGreaterThanToken: EqualsGreaterThanToken | undefined, body: ConciseBody): ArrowFunction; function updateArrowFunction(node: ArrowFunction, modifiers: readonly Modifier[] | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, equalsGreaterThanToken: Token, body: ConciseBody): ArrowFunction; function createDelete(expression: Expression): DeleteExpression; function updateDelete(node: DeleteExpression, expression: Expression): DeleteExpression; function createTypeOf(expression: Expression): TypeOfExpression; function updateTypeOf(node: TypeOfExpression, expression: Expression): TypeOfExpression; function createVoid(expression: Expression): VoidExpression; function updateVoid(node: VoidExpression, expression: Expression): VoidExpression; function createAwait(expression: Expression): AwaitExpression; function updateAwait(node: AwaitExpression, expression: Expression): AwaitExpression; function createPrefix(operator: PrefixUnaryOperator, operand: Expression): PrefixUnaryExpression; function updatePrefix(node: PrefixUnaryExpression, operand: Expression): PrefixUnaryExpression; function createPostfix(operand: Expression, operator: PostfixUnaryOperator): PostfixUnaryExpression; function updatePostfix(node: PostfixUnaryExpression, operand: Expression): PostfixUnaryExpression; function createBinary(left: Expression, operator: BinaryOperator | BinaryOperatorToken, right: Expression): BinaryExpression; function updateBinary(node: BinaryExpression, left: Expression, right: Expression, operator?: BinaryOperator | BinaryOperatorToken): BinaryExpression; /** @deprecated */ function createConditional(condition: Expression, whenTrue: Expression, whenFalse: Expression): ConditionalExpression; function createConditional(condition: Expression, questionToken: QuestionToken, whenTrue: Expression, colonToken: ColonToken, whenFalse: Expression): ConditionalExpression; function updateConditional(node: ConditionalExpression, condition: Expression, questionToken: Token, whenTrue: Expression, colonToken: Token, whenFalse: Expression): ConditionalExpression; function createTemplateExpression(head: TemplateHead, templateSpans: readonly TemplateSpan[]): TemplateExpression; function updateTemplateExpression(node: TemplateExpression, head: TemplateHead, templateSpans: readonly TemplateSpan[]): TemplateExpression; function createTemplateHead(text: string, rawText?: string): TemplateHead; function createTemplateMiddle(text: string, rawText?: string): TemplateMiddle; function createTemplateTail(text: string, rawText?: string): TemplateTail; function createNoSubstitutionTemplateLiteral(text: string, rawText?: string): NoSubstitutionTemplateLiteral; function createYield(expression?: Expression): YieldExpression; function createYield(asteriskToken: AsteriskToken | undefined, expression: Expression): YieldExpression; function updateYield(node: YieldExpression, asteriskToken: AsteriskToken | undefined, expression: Expression): YieldExpression; function createSpread(expression: Expression): SpreadElement; function updateSpread(node: SpreadElement, expression: Expression): SpreadElement; function createClassExpression(modifiers: readonly Modifier[] | undefined, name: string | Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, heritageClauses: readonly HeritageClause[] | undefined, members: readonly ClassElement[]): ClassExpression; function updateClassExpression(node: ClassExpression, modifiers: readonly Modifier[] | undefined, name: Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, heritageClauses: readonly HeritageClause[] | undefined, members: readonly ClassElement[]): ClassExpression; function createOmittedExpression(): OmittedExpression; function createExpressionWithTypeArguments(typeArguments: readonly TypeNode[] | undefined, expression: Expression): ExpressionWithTypeArguments; function updateExpressionWithTypeArguments(node: ExpressionWithTypeArguments, typeArguments: readonly TypeNode[] | undefined, expression: Expression): ExpressionWithTypeArguments; function createAsExpression(expression: Expression, type: TypeNode): AsExpression; function updateAsExpression(node: AsExpression, expression: Expression, type: TypeNode): AsExpression; function createNonNullExpression(expression: Expression): NonNullExpression; function updateNonNullExpression(node: NonNullExpression, expression: Expression): NonNullExpression; function createNonNullChain(expression: Expression): NonNullChain; function updateNonNullChain(node: NonNullChain, expression: Expression): NonNullChain; function createMetaProperty(keywordToken: MetaProperty["keywordToken"], name: Identifier): MetaProperty; function updateMetaProperty(node: MetaProperty, name: Identifier): MetaProperty; function createTemplateSpan(expression: Expression, literal: TemplateMiddle | TemplateTail): TemplateSpan; function updateTemplateSpan(node: TemplateSpan, expression: Expression, literal: TemplateMiddle | TemplateTail): TemplateSpan; function createSemicolonClassElement(): SemicolonClassElement; function createBlock(statements: readonly Statement[], multiLine?: boolean): Block; function updateBlock(node: Block, statements: readonly Statement[]): Block; function createVariableStatement(modifiers: readonly Modifier[] | undefined, declarationList: VariableDeclarationList | readonly VariableDeclaration[]): VariableStatement; function updateVariableStatement(node: VariableStatement, modifiers: readonly Modifier[] | undefined, declarationList: VariableDeclarationList): VariableStatement; function createEmptyStatement(): EmptyStatement; function createExpressionStatement(expression: Expression): ExpressionStatement; function updateExpressionStatement(node: ExpressionStatement, expression: Expression): ExpressionStatement; /** @deprecated Use `createExpressionStatement` instead. */ const createStatement: typeof createExpressionStatement; /** @deprecated Use `updateExpressionStatement` instead. */ const updateStatement: typeof updateExpressionStatement; function createIf(expression: Expression, thenStatement: Statement, elseStatement?: Statement): IfStatement; function updateIf(node: IfStatement, expression: Expression, thenStatement: Statement, elseStatement: Statement | undefined): IfStatement; function createDo(statement: Statement, expression: Expression): DoStatement; function updateDo(node: DoStatement, statement: Statement, expression: Expression): DoStatement; function createWhile(expression: Expression, statement: Statement): WhileStatement; function updateWhile(node: WhileStatement, expression: Expression, statement: Statement): WhileStatement; function createFor(initializer: ForInitializer | undefined, condition: Expression | undefined, incrementor: Expression | undefined, statement: Statement): ForStatement; function updateFor(node: ForStatement, initializer: ForInitializer | undefined, condition: Expression | undefined, incrementor: Expression | undefined, statement: Statement): ForStatement; function createForIn(initializer: ForInitializer, expression: Expression, statement: Statement): ForInStatement; function updateForIn(node: ForInStatement, initializer: ForInitializer, expression: Expression, statement: Statement): ForInStatement; function createForOf(awaitModifier: AwaitKeywordToken | undefined, initializer: ForInitializer, expression: Expression, statement: Statement): ForOfStatement; function updateForOf(node: ForOfStatement, awaitModifier: AwaitKeywordToken | undefined, initializer: ForInitializer, expression: Expression, statement: Statement): ForOfStatement; function createContinue(label?: string | Identifier): ContinueStatement; function updateContinue(node: ContinueStatement, label: Identifier | undefined): ContinueStatement; function createBreak(label?: string | Identifier): BreakStatement; function updateBreak(node: BreakStatement, label: Identifier | undefined): BreakStatement; function createReturn(expression?: Expression): ReturnStatement; function updateReturn(node: ReturnStatement, expression: Expression | undefined): ReturnStatement; function createWith(expression: Expression, statement: Statement): WithStatement; function updateWith(node: WithStatement, expression: Expression, statement: Statement): WithStatement; function createSwitch(expression: Expression, caseBlock: CaseBlock): SwitchStatement; function updateSwitch(node: SwitchStatement, expression: Expression, caseBlock: CaseBlock): SwitchStatement; function createLabel(label: string | Identifier, statement: Statement): LabeledStatement; function updateLabel(node: LabeledStatement, label: Identifier, statement: Statement): LabeledStatement; function createThrow(expression: Expression): ThrowStatement; function updateThrow(node: ThrowStatement, expression: Expression): ThrowStatement; function createTry(tryBlock: Block, catchClause: CatchClause | undefined, finallyBlock: Block | undefined): TryStatement; function updateTry(node: TryStatement, tryBlock: Block, catchClause: CatchClause | undefined, finallyBlock: Block | undefined): TryStatement; function createDebuggerStatement(): DebuggerStatement; function createVariableDeclaration(name: string | BindingName, type?: TypeNode, initializer?: Expression): VariableDeclaration; function updateVariableDeclaration(node: VariableDeclaration, name: BindingName, type: TypeNode | undefined, initializer: Expression | undefined): VariableDeclaration; function createVariableDeclarationList(declarations: readonly VariableDeclaration[], flags?: NodeFlags): VariableDeclarationList; function updateVariableDeclarationList(node: VariableDeclarationList, declarations: readonly VariableDeclaration[]): VariableDeclarationList; function createFunctionDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, asteriskToken: AsteriskToken | undefined, name: string | Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block | undefined): FunctionDeclaration; function updateFunctionDeclaration(node: FunctionDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, asteriskToken: AsteriskToken | undefined, name: Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, parameters: readonly ParameterDeclaration[], type: TypeNode | undefined, body: Block | undefined): FunctionDeclaration; function createClassDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, heritageClauses: readonly HeritageClause[] | undefined, members: readonly ClassElement[]): ClassDeclaration; function updateClassDeclaration(node: ClassDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: Identifier | undefined, typeParameters: readonly TypeParameterDeclaration[] | undefined, heritageClauses: readonly HeritageClause[] | undefined, members: readonly ClassElement[]): ClassDeclaration; function createInterfaceDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | Identifier, typeParameters: readonly TypeParameterDeclaration[] | undefined, heritageClauses: readonly HeritageClause[] | undefined, members: readonly TypeElement[]): InterfaceDeclaration; function updateInterfaceDeclaration(node: InterfaceDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: Identifier, typeParameters: readonly TypeParameterDeclaration[] | undefined, heritageClauses: readonly HeritageClause[] | undefined, members: readonly TypeElement[]): InterfaceDeclaration; function createTypeAliasDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | Identifier, typeParameters: readonly TypeParameterDeclaration[] | undefined, type: TypeNode): TypeAliasDeclaration; function updateTypeAliasDeclaration(node: TypeAliasDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: Identifier, typeParameters: readonly TypeParameterDeclaration[] | undefined, type: TypeNode): TypeAliasDeclaration; function createEnumDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | Identifier, members: readonly EnumMember[]): EnumDeclaration; function updateEnumDeclaration(node: EnumDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: Identifier, members: readonly EnumMember[]): EnumDeclaration; function createModuleDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: ModuleName, body: ModuleBody | undefined, flags?: NodeFlags): ModuleDeclaration; function updateModuleDeclaration(node: ModuleDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: ModuleName, body: ModuleBody | undefined): ModuleDeclaration; function createModuleBlock(statements: readonly Statement[]): ModuleBlock; function updateModuleBlock(node: ModuleBlock, statements: readonly Statement[]): ModuleBlock; function createCaseBlock(clauses: readonly CaseOrDefaultClause[]): CaseBlock; function updateCaseBlock(node: CaseBlock, clauses: readonly CaseOrDefaultClause[]): CaseBlock; function createNamespaceExportDeclaration(name: string | Identifier): NamespaceExportDeclaration; function updateNamespaceExportDeclaration(node: NamespaceExportDeclaration, name: Identifier): NamespaceExportDeclaration; function createImportEqualsDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: string | Identifier, moduleReference: ModuleReference): ImportEqualsDeclaration; function updateImportEqualsDeclaration(node: ImportEqualsDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, name: Identifier, moduleReference: ModuleReference): ImportEqualsDeclaration; function createImportDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, importClause: ImportClause | undefined, moduleSpecifier: Expression): ImportDeclaration; function updateImportDeclaration(node: ImportDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, importClause: ImportClause | undefined, moduleSpecifier: Expression): ImportDeclaration; function createImportClause(name: Identifier | undefined, namedBindings: NamedImportBindings | undefined, isTypeOnly?: boolean): ImportClause; function updateImportClause(node: ImportClause, name: Identifier | undefined, namedBindings: NamedImportBindings | undefined, isTypeOnly: boolean): ImportClause; function createNamespaceImport(name: Identifier): NamespaceImport; function createNamespaceExport(name: Identifier): NamespaceExport; function updateNamespaceImport(node: NamespaceImport, name: Identifier): NamespaceImport; function updateNamespaceExport(node: NamespaceExport, name: Identifier): NamespaceExport; function createNamedImports(elements: readonly ImportSpecifier[]): NamedImports; function updateNamedImports(node: NamedImports, elements: readonly ImportSpecifier[]): NamedImports; function createImportSpecifier(propertyName: Identifier | undefined, name: Identifier): ImportSpecifier; function updateImportSpecifier(node: ImportSpecifier, propertyName: Identifier | undefined, name: Identifier): ImportSpecifier; function createExportAssignment(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, isExportEquals: boolean | undefined, expression: Expression): ExportAssignment; function updateExportAssignment(node: ExportAssignment, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, expression: Expression): ExportAssignment; function createExportDeclaration(decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, exportClause: NamedExportBindings | undefined, moduleSpecifier?: Expression, isTypeOnly?: boolean): ExportDeclaration; function updateExportDeclaration(node: ExportDeclaration, decorators: readonly Decorator[] | undefined, modifiers: readonly Modifier[] | undefined, exportClause: NamedExportBindings | undefined, moduleSpecifier: Expression | undefined, isTypeOnly: boolean): ExportDeclaration; function createNamedExports(elements: readonly ExportSpecifier[]): NamedExports; function updateNamedExports(node: NamedExports, elements: readonly ExportSpecifier[]): NamedExports; function createExportSpecifier(propertyName: string | Identifier | undefined, name: string | Identifier): ExportSpecifier; function updateExportSpecifier(node: ExportSpecifier, propertyName: Identifier | undefined, name: Identifier): ExportSpecifier; function createExternalModuleReference(expression: Expression): ExternalModuleReference; function updateExternalModuleReference(node: ExternalModuleReference, expression: Expression): ExternalModuleReference; function createJsxElement(openingElement: JsxOpeningElement, children: readonly JsxChild[], closingElement: JsxClosingElement): JsxElement; function updateJsxElement(node: JsxElement, openingElement: JsxOpeningElement, children: readonly JsxChild[], closingElement: JsxClosingElement): JsxElement; function createJsxSelfClosingElement(tagName: JsxTagNameExpression, typeArguments: readonly TypeNode[] | undefined, attributes: JsxAttributes): JsxSelfClosingElement; function updateJsxSelfClosingElement(node: JsxSelfClosingElement, tagName: JsxTagNameExpression, typeArguments: readonly TypeNode[] | undefined, attributes: JsxAttributes): JsxSelfClosingElement; function createJsxOpeningElement(tagName: JsxTagNameExpression, typeArguments: readonly TypeNode[] | undefined, attributes: JsxAttributes): JsxOpeningElement; function updateJsxOpeningElement(node: JsxOpeningElement, tagName: JsxTagNameExpression, typeArguments: readonly TypeNode[] | undefined, attributes: JsxAttributes): JsxOpeningElement; function createJsxClosingElement(tagName: JsxTagNameExpression): JsxClosingElement; function updateJsxClosingElement(node: JsxClosingElement, tagName: JsxTagNameExpression): JsxClosingElement; function createJsxFragment(openingFragment: JsxOpeningFragment, children: readonly JsxChild[], closingFragment: JsxClosingFragment): JsxFragment; function createJsxText(text: string, containsOnlyTriviaWhiteSpaces?: boolean): JsxText; function updateJsxText(node: JsxText, text: string, containsOnlyTriviaWhiteSpaces?: boolean): JsxText; function createJsxOpeningFragment(): JsxOpeningFragment; function createJsxJsxClosingFragment(): JsxClosingFragment; function updateJsxFragment(node: JsxFragment, openingFragment: JsxOpeningFragment, children: readonly JsxChild[], closingFragment: JsxClosingFragment): JsxFragment; function createJsxAttribute(name: Identifier, initializer: StringLiteral | JsxExpression): JsxAttribute; function updateJsxAttribute(node: JsxAttribute, name: Identifier, initializer: StringLiteral | JsxExpression): JsxAttribute; function createJsxAttributes(properties: readonly JsxAttributeLike[]): JsxAttributes; function updateJsxAttributes(node: JsxAttributes, properties: readonly JsxAttributeLike[]): JsxAttributes; function createJsxSpreadAttribute(expression: Expression): JsxSpreadAttribute; function updateJsxSpreadAttribute(node: JsxSpreadAttribute, expression: Expression): JsxSpreadAttribute; function createJsxExpression(dotDotDotToken: DotDotDotToken | undefined, expression: Expression | undefined): JsxExpression; function updateJsxExpression(node: JsxExpression, expression: Expression | undefined): JsxExpression; function createCaseClause(expression: Expression, statements: readonly Statement[]): CaseClause; function updateCaseClause(node: CaseClause, expression: Expression, statements: readonly Statement[]): CaseClause; function createDefaultClause(statements: readonly Statement[]): DefaultClause; function updateDefaultClause(node: DefaultClause, statements: readonly Statement[]): DefaultClause; function createHeritageClause(token: HeritageClause["token"], types: readonly ExpressionWithTypeArguments[]): HeritageClause; function updateHeritageClause(node: HeritageClause, types: readonly ExpressionWithTypeArguments[]): HeritageClause; function createCatchClause(variableDeclaration: string | VariableDeclaration | undefined, block: Block): CatchClause; function updateCatchClause(node: CatchClause, variableDeclaration: VariableDeclaration | undefined, block: Block): CatchClause; function createPropertyAssignment(name: string | PropertyName, initializer: Expression): PropertyAssignment; function updatePropertyAssignment(node: PropertyAssignment, name: PropertyName, initializer: Expression): PropertyAssignment; function createShorthandPropertyAssignment(name: string | Identifier, objectAssignmentInitializer?: Expression): ShorthandPropertyAssignment; function updateShorthandPropertyAssignment(node: ShorthandPropertyAssignment, name: Identifier, objectAssignmentInitializer: Expression | undefined): ShorthandPropertyAssignment; function createSpreadAssignment(expression: Expression): SpreadAssignment; function updateSpreadAssignment(node: SpreadAssignment, expression: Expression): SpreadAssignment; function createEnumMember(name: string | PropertyName, initializer?: Expression): EnumMember; function updateEnumMember(node: EnumMember, name: PropertyName, initializer: Expression | undefined): EnumMember; function updateSourceFileNode(node: SourceFile, statements: readonly Statement[], isDeclarationFile?: boolean, referencedFiles?: SourceFile["referencedFiles"], typeReferences?: SourceFile["typeReferenceDirectives"], hasNoDefaultLib?: boolean, libReferences?: SourceFile["libReferenceDirectives"]): SourceFile; /** * Creates a shallow, memberwise clone of a node for mutation. */ function getMutableClone(node: T): T; /** * 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: Node): NotEmittedStatement; /** * 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: Expression, original?: Node): PartiallyEmittedExpression; function updatePartiallyEmittedExpression(node: PartiallyEmittedExpression, expression: Expression): PartiallyEmittedExpression; function createCommaList(elements: readonly Expression[]): CommaListExpression; function updateCommaList(node: CommaListExpression, elements: readonly Expression[]): CommaListExpression; function createBundle(sourceFiles: readonly SourceFile[], prepends?: readonly (UnparsedSource | InputFiles)[]): Bundle; function createUnparsedSourceFile(text: string): UnparsedSource; function createUnparsedSourceFile(inputFile: InputFiles, type: "js" | "dts", stripInternal?: boolean): UnparsedSource; function createUnparsedSourceFile(text: string, mapPath: string | undefined, map: string | undefined): UnparsedSource; function createInputFiles(javascriptText: string, declarationText: string): InputFiles; function createInputFiles(readFileText: (path: string) => string | undefined, javascriptPath: string, javascriptMapPath: string | undefined, declarationPath: string, declarationMapPath: string | undefined, buildInfoPath: string | undefined): InputFiles; function createInputFiles(javascriptText: string, declarationText: string, javascriptMapPath: string | undefined, javascriptMapText: string | undefined, declarationMapPath: string | undefined, declarationMapText: string | undefined): InputFiles; function updateBundle(node: Bundle, sourceFiles: readonly SourceFile[], prepends?: readonly (UnparsedSource | InputFiles)[]): Bundle; function createImmediatelyInvokedFunctionExpression(statements: readonly Statement[]): CallExpression; function createImmediatelyInvokedFunctionExpression(statements: readonly Statement[], param: ParameterDeclaration, paramValue: Expression): CallExpression; function createImmediatelyInvokedArrowFunction(statements: readonly Statement[]): CallExpression; function createImmediatelyInvokedArrowFunction(statements: readonly Statement[], param: ParameterDeclaration, paramValue: Expression): CallExpression; function createComma(left: Expression, right: Expression): Expression; function createLessThan(left: Expression, right: Expression): Expression; function createAssignment(left: ObjectLiteralExpression | ArrayLiteralExpression, right: Expression): DestructuringAssignment; function createAssignment(left: Expression, right: Expression): BinaryExpression; function createStrictEquality(left: Expression, right: Expression): BinaryExpression; function createStrictInequality(left: Expression, right: Expression): BinaryExpression; function createAdd(left: Expression, right: Expression): BinaryExpression; function createSubtract(left: Expression, right: Expression): BinaryExpression; function createPostfixIncrement(operand: Expression): PostfixUnaryExpression; function createLogicalAnd(left: Expression, right: Expression): BinaryExpression; function createLogicalOr(left: Expression, right: Expression): BinaryExpression; function createNullishCoalesce(left: Expression, right: Expression): BinaryExpression; function createLogicalNot(operand: Expression): PrefixUnaryExpression; function createVoidZero(): VoidExpression; function createExportDefault(expression: Expression): ExportAssignment; function createExternalModuleExport(exportName: Identifier): ExportDeclaration; /** * Clears any EmitNode entries from parse-tree nodes. * @param sourceFile A source file. */ function disposeEmitNodes(sourceFile: SourceFile): void; function setTextRange(range: T, location: TextRange | undefined): T; /** * Sets flags that control emit behavior of a node. */ function setEmitFlags(node: T, emitFlags: EmitFlags): T; /** * Gets a custom text range to use when emitting source maps. */ function getSourceMapRange(node: Node): SourceMapRange; /** * Sets a custom text range to use when emitting source maps. */ function setSourceMapRange(node: T, range: SourceMapRange | undefined): T; /** * Create an external source map source file reference */ function createSourceMapSource(fileName: string, text: string, skipTrivia?: (pos: number) => number): SourceMapSource; /** * Gets the TextRange to use for source maps for a token of a node. */ function getTokenSourceMapRange(node: Node, token: SyntaxKind): SourceMapRange | undefined; /** * Sets the TextRange to use for source maps for a token of a node. */ function setTokenSourceMapRange(node: T, token: SyntaxKind, range: SourceMapRange | undefined): T; /** * Gets a custom text range to use when emitting comments. */ function getCommentRange(node: Node): TextRange; /** * Sets a custom text range to use when emitting comments. */ function setCommentRange(node: T, range: TextRange): T; function getSyntheticLeadingComments(node: Node): SynthesizedComment[] | undefined; function setSyntheticLeadingComments(node: T, comments: SynthesizedComment[] | undefined): T; function addSyntheticLeadingComment(node: T, kind: SyntaxKind.SingleLineCommentTrivia | SyntaxKind.MultiLineCommentTrivia, text: string, hasTrailingNewLine?: boolean): T; function getSyntheticTrailingComments(node: Node): SynthesizedComment[] | undefined; function setSyntheticTrailingComments(node: T, comments: SynthesizedComment[] | undefined): T; function addSyntheticTrailingComment(node: T, kind: SyntaxKind.SingleLineCommentTrivia | SyntaxKind.MultiLineCommentTrivia, text: string, hasTrailingNewLine?: boolean): T; function moveSyntheticComments(node: T, original: Node): T; /** * Gets the constant value to emit for an expression. */ function getConstantValue(node: PropertyAccessExpression | ElementAccessExpression): string | number | undefined; /** * Sets the constant value to emit for an expression. */ function setConstantValue(node: PropertyAccessExpression | ElementAccessExpression, value: string | number): PropertyAccessExpression | ElementAccessExpression; /** * Adds an EmitHelper to a node. */ function addEmitHelper(node: T, helper: EmitHelper): T; /** * Add EmitHelpers to a node. */ function addEmitHelpers(node: T, helpers: EmitHelper[] | undefined): T; /** * Removes an EmitHelper from a node. */ function removeEmitHelper(node: Node, helper: EmitHelper): boolean; /** * Gets the EmitHelpers of a node. */ function getEmitHelpers(node: Node): EmitHelper[] | undefined; /** * Moves matching emit helpers from a source node to a target node. */ function moveEmitHelpers(source: Node, target: Node, predicate: (helper: EmitHelper) => boolean): void; function setOriginalNode(node: T, original: Node | undefined): T; } declare namespace ts { /** * Visits a Node using the supplied visitor, possibly returning a new Node in its place. * * @param node The Node to visit. * @param visitor The callback used to visit the Node. * @param test A callback to execute to verify the Node is valid. * @param lift An optional callback to execute to lift a NodeArray into a valid Node. */ function visitNode(node: T | undefined, visitor: Visitor | undefined, test?: (node: Node) => boolean, lift?: (node: NodeArray) => T): T; /** * Visits a Node using the supplied visitor, possibly returning a new Node in its place. * * @param node The Node to visit. * @param visitor The callback used to visit the Node. * @param test A callback to execute to verify the Node is valid. * @param lift An optional callback to execute to lift a NodeArray into a valid Node. */ function visitNode(node: T | undefined, visitor: Visitor | undefined, test?: (node: Node) => boolean, lift?: (node: NodeArray) => T): T | undefined; /** * 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: NodeArray | undefined, visitor: Visitor, test?: (node: Node) => boolean, start?: number, count?: number): NodeArray; /** * 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: NodeArray | undefined, visitor: Visitor, test?: (node: Node) => boolean, start?: number, count?: number): NodeArray | undefined; /** * Starts a new lexical environment and visits a statement list, ending the lexical environment * and merging hoisted declarations upon completion. */ function visitLexicalEnvironment(statements: NodeArray, visitor: Visitor, context: TransformationContext, start?: number, ensureUseStrict?: boolean): NodeArray; /** * Starts a new lexical environment and visits a parameter list, suspending the lexical * environment upon completion. */ function visitParameterList(nodes: NodeArray, visitor: Visitor, context: TransformationContext, nodesVisitor?: (nodes: NodeArray, visitor: Visitor, test?: (node: Node) => boolean, start?: number, count?: number) => NodeArray): NodeArray; function visitParameterList(nodes: NodeArray | undefined, visitor: Visitor, context: TransformationContext, nodesVisitor?: (nodes: NodeArray | undefined, visitor: Visitor, test?: (node: Node) => boolean, start?: number, count?: number) => NodeArray | undefined): NodeArray | undefined; /** * Resumes a suspended lexical environment and visits a function body, ending the lexical * environment and merging hoisted declarations upon completion. */ function visitFunctionBody(node: FunctionBody, visitor: Visitor, context: TransformationContext): FunctionBody; /** * Resumes a suspended lexical environment and visits a function body, ending the lexical * environment and merging hoisted declarations upon completion. */ function visitFunctionBody(node: FunctionBody | undefined, visitor: Visitor, context: TransformationContext): FunctionBody | undefined; /** * Resumes a suspended lexical environment and visits a concise body, ending the lexical * environment and merging hoisted declarations upon completion. */ function visitFunctionBody(node: ConciseBody, visitor: Visitor, context: TransformationContext): ConciseBody; /** * Visits each child of a Node using the supplied visitor, possibly returning a new Node of the same kind in its place. * * @param node The Node whose children will be visited. * @param visitor The callback used to visit each child. * @param context A lexical environment context for the visitor. */ function visitEachChild(node: T, visitor: Visitor, context: TransformationContext): T; /** * Visits each child of a Node using the supplied visitor, possibly returning a new Node of the same kind in its place. * * @param node The Node whose children will be visited. * @param visitor The callback used to visit each child. * @param context A lexical environment context for the visitor. */ function visitEachChild(node: T | undefined, visitor: Visitor, context: TransformationContext, nodesVisitor?: typeof visitNodes, tokenVisitor?: Visitor): T | undefined; } declare namespace ts { function getTsBuildInfoEmitOutputFilePath(options: CompilerOptions): string | undefined; function getOutputFileNames(commandLine: ParsedCommandLine, inputFileName: string, ignoreCase: boolean): readonly string[]; function createPrinter(printerOptions?: PrinterOptions, handlers?: PrintHandlers): Printer; } declare namespace ts { export function findConfigFile(searchPath: string, fileExists: (fileName: string) => boolean, configName?: string): string | undefined; export function resolveTripleslashReference(moduleName: string, containingFile: string): string; export function createCompilerHost(options: CompilerOptions, setParentNodes?: boolean): CompilerHost; export function getPreEmitDiagnostics(program: Program, sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly Diagnostic[]; export interface FormatDiagnosticsHost { getCurrentDirectory(): string; getCanonicalFileName(fileName: string): string; getNewLine(): string; } export function formatDiagnostics(diagnostics: readonly Diagnostic[], host: FormatDiagnosticsHost): string; export function formatDiagnostic(diagnostic: Diagnostic, host: FormatDiagnosticsHost): string; export function formatDiagnosticsWithColorAndContext(diagnostics: readonly Diagnostic[], host: FormatDiagnosticsHost): string; export function flattenDiagnosticMessageText(diag: string | DiagnosticMessageChain | undefined, newLine: string, indent?: number): string; export function getConfigFileParsingDiagnostics(configFileParseResult: ParsedCommandLine): readonly Diagnostic[]; /** * Create a new 'Program' instance. A Program is an immutable collection of 'SourceFile's and a 'CompilerOptions' * that represent a compilation unit. * * Creating a program proceeds from a set of root files, expanding the set of inputs by following imports and * triple-slash-reference-path directives transitively. '@types' and triple-slash-reference-types are also pulled in. * * @param createProgramOptions - The options for creating a program. * @returns A 'Program' object. */ export function createProgram(createProgramOptions: CreateProgramOptions): Program; /** * Create a new 'Program' instance. A Program is an immutable collection of 'SourceFile's and a 'CompilerOptions' * that represent a compilation unit. * * Creating a program proceeds from a set of root files, expanding the set of inputs by following imports and * triple-slash-reference-path directives transitively. '@types' and triple-slash-reference-types are also pulled in. * * @param rootNames - A set of root files. * @param options - The compiler options which should be used. * @param host - The host interacts with the underlying file system. * @param oldProgram - Reuses an old program structure. * @param configFileParsingDiagnostics - error during config file parsing * @returns A 'Program' object. */ export function createProgram(rootNames: readonly string[], options: CompilerOptions, host?: CompilerHost, oldProgram?: Program, configFileParsingDiagnostics?: readonly Diagnostic[]): Program; /** @deprecated */ export interface ResolveProjectReferencePathHost { fileExists(fileName: string): boolean; } /** * Returns the target config filename of a project reference. * Note: The file might not exist. */ export function resolveProjectReferencePath(ref: ProjectReference): ResolvedConfigFileName; /** @deprecated */ export function resolveProjectReferencePath(host: ResolveProjectReferencePathHost, ref: ProjectReference): ResolvedConfigFileName; export {}; } declare namespace ts { interface EmitOutput { outputFiles: OutputFile[]; emitSkipped: boolean; } interface OutputFile { name: string; writeByteOrderMark: boolean; text: string; } } declare namespace ts { type AffectedFileResult = { result: T; affected: SourceFile | Program; } | undefined; interface BuilderProgramHost { /** * return true if file names are treated with case sensitivity */ useCaseSensitiveFileNames(): boolean; /** * If provided this would be used this hash instead of actual file shape text for detecting changes */ createHash?: (data: string) => string; /** * When emit or emitNextAffectedFile are called without writeFile, * this callback if present would be used to write files */ writeFile?: WriteFileCallback; } /** * Builder to manage the program state changes */ interface BuilderProgram { /** * Returns current program */ getProgram(): Program; /** * Get compiler options of the program */ getCompilerOptions(): CompilerOptions; /** * Get the source file in the program with file name */ getSourceFile(fileName: string): SourceFile | undefined; /** * Get a list of files in the program */ getSourceFiles(): readonly SourceFile[]; /** * Get the diagnostics for compiler options */ getOptionsDiagnostics(cancellationToken?: CancellationToken): readonly Diagnostic[]; /** * Get the diagnostics that dont belong to any file */ getGlobalDiagnostics(cancellationToken?: CancellationToken): readonly Diagnostic[]; /** * Get the diagnostics from config file parsing */ getConfigFileParsingDiagnostics(): readonly Diagnostic[]; /** * Get the syntax diagnostics, for all source files if source file is not supplied */ getSyntacticDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly Diagnostic[]; /** * Get the declaration diagnostics, for all source files if source file is not supplied */ getDeclarationDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly DiagnosticWithLocation[]; /** * Get all the dependencies of the file */ getAllDependencies(sourceFile: SourceFile): readonly string[]; /** * 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 */ getSemanticDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly Diagnostic[]; /** * 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 */ emit(targetSourceFile?: SourceFile, writeFile?: WriteFileCallback, cancellationToken?: CancellationToken, emitOnlyDtsFiles?: boolean, customTransformers?: CustomTransformers): EmitResult; /** * Get the current directory of the program */ getCurrentDirectory(): string; } /** * The builder that caches the semantic diagnostics for the program and handles the changed files and affected files */ interface SemanticDiagnosticsBuilderProgram extends BuilderProgram { /** * Gets the semantic diagnostics from the program for the next affected file and caches it * Returns undefined if the iteration is complete */ getSemanticDiagnosticsOfNextAffectedFile(cancellationToken?: CancellationToken, ignoreSourceFile?: (sourceFile: SourceFile) => boolean): AffectedFileResult; } /** * The builder that can handle the changes in program and iterate through changed file to emit the files * The semantic diagnostics are cached per file and managed by clearing for the changed/affected files */ interface EmitAndSemanticDiagnosticsBuilderProgram extends SemanticDiagnosticsBuilderProgram { /** * 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 */ emitNextAffectedFile(writeFile?: WriteFileCallback, cancellationToken?: CancellationToken, emitOnlyDtsFiles?: boolean, customTransformers?: CustomTransformers): AffectedFileResult; } /** * Create the builder to manage semantic diagnostics and cache them */ function createSemanticDiagnosticsBuilderProgram(newProgram: Program, host: BuilderProgramHost, oldProgram?: SemanticDiagnosticsBuilderProgram, configFileParsingDiagnostics?: readonly Diagnostic[]): SemanticDiagnosticsBuilderProgram; function createSemanticDiagnosticsBuilderProgram(rootNames: readonly string[] | undefined, options: CompilerOptions | undefined, host?: CompilerHost, oldProgram?: SemanticDiagnosticsBuilderProgram, configFileParsingDiagnostics?: readonly Diagnostic[], projectReferences?: readonly ProjectReference[]): SemanticDiagnosticsBuilderProgram; /** * Create the builder that can handle the changes in program and iterate through changed files * to emit the those files and manage semantic diagnostics cache as well */ function createEmitAndSemanticDiagnosticsBuilderProgram(newProgram: Program, host: BuilderProgramHost, oldProgram?: EmitAndSemanticDiagnosticsBuilderProgram, configFileParsingDiagnostics?: readonly Diagnostic[]): EmitAndSemanticDiagnosticsBuilderProgram; function createEmitAndSemanticDiagnosticsBuilderProgram(rootNames: readonly string[] | undefined, options: CompilerOptions | undefined, host?: CompilerHost, oldProgram?: EmitAndSemanticDiagnosticsBuilderProgram, configFileParsingDiagnostics?: readonly Diagnostic[], projectReferences?: readonly ProjectReference[]): EmitAndSemanticDiagnosticsBuilderProgram; /** * Creates a builder thats just abstraction over program and can be used with watch */ function createAbstractBuilder(newProgram: Program, host: BuilderProgramHost, oldProgram?: BuilderProgram, configFileParsingDiagnostics?: readonly Diagnostic[]): BuilderProgram; function createAbstractBuilder(rootNames: readonly string[] | undefined, options: CompilerOptions | undefined, host?: CompilerHost, oldProgram?: BuilderProgram, configFileParsingDiagnostics?: readonly Diagnostic[], projectReferences?: readonly ProjectReference[]): BuilderProgram; } declare namespace ts { interface ReadBuildProgramHost { useCaseSensitiveFileNames(): boolean; getCurrentDirectory(): string; readFile(fileName: string): string | undefined; } function readBuilderProgram(compilerOptions: CompilerOptions, host: ReadBuildProgramHost): EmitAndSemanticDiagnosticsBuilderProgram | undefined; function createIncrementalCompilerHost(options: CompilerOptions, system?: System): CompilerHost; interface IncrementalProgramOptions { rootNames: readonly string[]; options: CompilerOptions; configFileParsingDiagnostics?: readonly Diagnostic[]; projectReferences?: readonly ProjectReference[]; host?: CompilerHost; createProgram?: CreateProgram; } function createIncrementalProgram({ rootNames, options, configFileParsingDiagnostics, projectReferences, host, createProgram }: IncrementalProgramOptions): T; type WatchStatusReporter = (diagnostic: Diagnostic, newLine: string, options: CompilerOptions, errorCount?: number) => void; /** Create the program with rootNames and options, if they are undefined, oldProgram and new configFile diagnostics create new program */ type CreateProgram = (rootNames: readonly string[] | undefined, options: CompilerOptions | undefined, host?: CompilerHost, oldProgram?: T, configFileParsingDiagnostics?: readonly Diagnostic[], projectReferences?: readonly ProjectReference[] | undefined) => T; /** Host that has watch functionality used in --watch mode */ interface WatchHost { /** If provided, called with Diagnostic message that informs about change in watch status */ onWatchStatusChange?(diagnostic: Diagnostic, newLine: string, options: CompilerOptions, errorCount?: number): void; /** Used to watch changes in source files, missing files needed to update the program or config file */ watchFile(path: string, callback: FileWatcherCallback, pollingInterval?: number, options?: CompilerOptions): FileWatcher; /** Used to watch resolved module's failed lookup locations, config file specs, type roots where auto type reference directives are added */ watchDirectory(path: string, callback: DirectoryWatcherCallback, recursive?: boolean, options?: CompilerOptions): FileWatcher; /** If provided, will be used to set delayed compilation, so that multiple changes in short span are compiled together */ setTimeout?(callback: (...args: any[]) => void, ms: number, ...args: any[]): any; /** If provided, will be used to reset existing delayed compilation */ clearTimeout?(timeoutId: any): void; } interface ProgramHost { /** * Used to create the program when need for program creation or recreation detected */ createProgram: CreateProgram; useCaseSensitiveFileNames(): boolean; getNewLine(): string; getCurrentDirectory(): string; getDefaultLibFileName(options: CompilerOptions): string; getDefaultLibLocation?(): string; createHash?(data: string): string; /** * Use to check file presence for source files and * if resolveModuleNames is not provided (complier is in charge of module resolution) then module files as well */ fileExists(path: string): boolean; /** * Use to read file text for source files and * if resolveModuleNames is not provided (complier is in charge of module resolution) then module files as well */ readFile(path: string, encoding?: string): string | undefined; /** If provided, used for module resolution as well as to handle directory structure */ directoryExists?(path: string): boolean; /** If provided, used in resolutions as well as handling directory structure */ getDirectories?(path: string): string[]; /** If provided, used to cache and handle directory structure modifications */ readDirectory?(path: string, extensions?: readonly string[], exclude?: readonly string[], include?: readonly string[], depth?: number): string[]; /** Symbol links resolution */ realpath?(path: string): string; /** If provided would be used to write log about compilation */ trace?(s: string): void; /** If provided is used to get the environment variable */ getEnvironmentVariable?(name: string): string | undefined; /** If provided, used to resolve the module names, otherwise typescript's default module resolution */ resolveModuleNames?(moduleNames: string[], containingFile: string, reusedNames: string[] | undefined, redirectedReference: ResolvedProjectReference | undefined, options: CompilerOptions): (ResolvedModule | undefined)[]; /** If provided, used to resolve type reference directives, otherwise typescript's default resolution */ resolveTypeReferenceDirectives?(typeReferenceDirectiveNames: string[], containingFile: string, redirectedReference: ResolvedProjectReference | undefined, options: CompilerOptions): (ResolvedTypeReferenceDirective | undefined)[]; } interface WatchCompilerHost extends ProgramHost, WatchHost { /** Instead of using output d.ts file from project reference, use its source file */ useSourceOfProjectReferenceRedirect?(): boolean; /** If provided, callback to invoke after every new program creation */ afterProgramCreate?(program: T): void; } /** * Host to create watch with root files and options */ interface WatchCompilerHostOfFilesAndCompilerOptions extends WatchCompilerHost { /** root files to use to generate program */ rootFiles: string[]; /** Compiler options */ options: CompilerOptions; watchOptions?: WatchOptions; /** Project References */ projectReferences?: readonly ProjectReference[]; } /** * Host to create watch with config file */ interface WatchCompilerHostOfConfigFile extends WatchCompilerHost, ConfigFileDiagnosticsReporter { /** Name of the config file to compile */ configFileName: string; /** Options to extend */ optionsToExtend?: CompilerOptions; watchOptionsToExtend?: WatchOptions; extraFileExtensions?: readonly FileExtensionInfo[]; /** * Used to generate source file names from the config file and its include, exclude, files rules * and also to cache the directory stucture */ readDirectory(path: string, extensions?: readonly string[], exclude?: readonly string[], include?: readonly string[], depth?: number): string[]; } interface Watch { /** Synchronize with host and get updated program */ getProgram(): T; /** Closes the watch */ close(): void; } /** * Creates the watch what generates program using the config file */ interface WatchOfConfigFile extends Watch { } /** * Creates the watch that generates program using the root files and compiler options */ interface WatchOfFilesAndCompilerOptions extends Watch { /** Updates the root files in the program, only if this is not config file compilation */ updateRootFileNames(fileNames: string[]): void; } /** * Create the watch compiler host for either configFile or fileNames and its options */ function createWatchCompilerHost(configFileName: string, optionsToExtend: CompilerOptions | undefined, system: System, createProgram?: CreateProgram, reportDiagnostic?: DiagnosticReporter, reportWatchStatus?: WatchStatusReporter, watchOptionsToExtend?: WatchOptions, extraFileExtensions?: readonly FileExtensionInfo[]): WatchCompilerHostOfConfigFile; function createWatchCompilerHost(rootFiles: string[], options: CompilerOptions, system: System, createProgram?: CreateProgram, reportDiagnostic?: DiagnosticReporter, reportWatchStatus?: WatchStatusReporter, projectReferences?: readonly ProjectReference[], watchOptions?: WatchOptions): WatchCompilerHostOfFilesAndCompilerOptions; /** * Creates the watch from the host for root files and compiler options */ function createWatchProgram(host: WatchCompilerHostOfFilesAndCompilerOptions): WatchOfFilesAndCompilerOptions; /** * Creates the watch from the host for config file */ function createWatchProgram(host: WatchCompilerHostOfConfigFile): WatchOfConfigFile; } declare namespace ts { interface BuildOptions { dry?: boolean; force?: boolean; verbose?: boolean; incremental?: boolean; assumeChangesOnlyAffectDirectDependencies?: boolean; traceResolution?: boolean; [option: string]: CompilerOptionsValue | undefined; } type ReportEmitErrorSummary = (errorCount: number) => void; interface SolutionBuilderHostBase extends ProgramHost { createDirectory?(path: string): void; /** * Should provide create directory and writeFile if done of invalidatedProjects is not invoked with * writeFileCallback */ writeFile?(path: string, data: string, writeByteOrderMark?: boolean): void; getModifiedTime(fileName: string): Date | undefined; setModifiedTime(fileName: string, date: Date): void; deleteFile(fileName: string): void; getParsedCommandLine?(fileName: string): ParsedCommandLine | undefined; reportDiagnostic: DiagnosticReporter; reportSolutionBuilderStatus: DiagnosticReporter; afterProgramEmitAndDiagnostics?(program: T): void; } interface SolutionBuilderHost extends SolutionBuilderHostBase { reportErrorSummary?: ReportEmitErrorSummary; } interface SolutionBuilderWithWatchHost extends SolutionBuilderHostBase, WatchHost { } interface SolutionBuilder { build(project?: string, cancellationToken?: CancellationToken): ExitStatus; clean(project?: string): ExitStatus; buildReferences(project: string, cancellationToken?: CancellationToken): ExitStatus; cleanReferences(project?: string): ExitStatus; getNextInvalidatedProject(cancellationToken?: CancellationToken): InvalidatedProject | undefined; } /** * Create a function that reports watch status by writing to the system and handles the formating of the diagnostic */ function createBuilderStatusReporter(system: System, pretty?: boolean): DiagnosticReporter; function createSolutionBuilderHost(system?: System, createProgram?: CreateProgram, reportDiagnostic?: DiagnosticReporter, reportSolutionBuilderStatus?: DiagnosticReporter, reportErrorSummary?: ReportEmitErrorSummary): SolutionBuilderHost; function createSolutionBuilderWithWatchHost(system?: System, createProgram?: CreateProgram, reportDiagnostic?: DiagnosticReporter, reportSolutionBuilderStatus?: DiagnosticReporter, reportWatchStatus?: WatchStatusReporter): SolutionBuilderWithWatchHost; function createSolutionBuilder(host: SolutionBuilderHost, rootNames: readonly string[], defaultOptions: BuildOptions): SolutionBuilder; function createSolutionBuilderWithWatch(host: SolutionBuilderWithWatchHost, rootNames: readonly string[], defaultOptions: BuildOptions, baseWatchOptions?: WatchOptions): SolutionBuilder; enum InvalidatedProjectKind { Build = 0, UpdateBundle = 1, UpdateOutputFileStamps = 2 } interface InvalidatedProjectBase { readonly kind: InvalidatedProjectKind; readonly project: ResolvedConfigFileName; /** * To dispose this project and ensure that all the necessary actions are taken and state is updated accordingly */ done(cancellationToken?: CancellationToken, writeFile?: WriteFileCallback, customTransformers?: CustomTransformers): ExitStatus; getCompilerOptions(): CompilerOptions; getCurrentDirectory(): string; } interface UpdateOutputFileStampsProject extends InvalidatedProjectBase { readonly kind: InvalidatedProjectKind.UpdateOutputFileStamps; updateOutputFileStatmps(): void; } interface BuildInvalidedProject extends InvalidatedProjectBase { readonly kind: InvalidatedProjectKind.Build; getBuilderProgram(): T | undefined; getProgram(): Program | undefined; getSourceFile(fileName: string): SourceFile | undefined; getSourceFiles(): readonly SourceFile[]; getOptionsDiagnostics(cancellationToken?: CancellationToken): readonly Diagnostic[]; getGlobalDiagnostics(cancellationToken?: CancellationToken): readonly Diagnostic[]; getConfigFileParsingDiagnostics(): readonly Diagnostic[]; getSyntacticDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly Diagnostic[]; getAllDependencies(sourceFile: SourceFile): readonly string[]; getSemanticDiagnostics(sourceFile?: SourceFile, cancellationToken?: CancellationToken): readonly Diagnostic[]; getSemanticDiagnosticsOfNextAffectedFile(cancellationToken?: CancellationToken, ignoreSourceFile?: (sourceFile: SourceFile) => boolean): AffectedFileResult; emit(targetSourceFile?: SourceFile, writeFile?: WriteFileCallback, cancellationToken?: CancellationToken, emitOnlyDtsFiles?: boolean, customTransformers?: CustomTransformers): EmitResult | undefined; } interface UpdateBundleProject extends InvalidatedProjectBase { readonly kind: InvalidatedProjectKind.UpdateBundle; emit(writeFile?: WriteFileCallback, customTransformers?: CustomTransformers): EmitResult | BuildInvalidedProject | undefined; } type InvalidatedProject = UpdateOutputFileStampsProject | BuildInvalidedProject | UpdateBundleProject; } declare namespace ts.server { type ActionSet = "action::set"; type ActionInvalidate = "action::invalidate"; type ActionPackageInstalled = "action::packageInstalled"; type EventTypesRegistry = "event::typesRegistry"; type EventBeginInstallTypes = "event::beginInstallTypes"; type EventEndInstallTypes = "event::endInstallTypes"; type EventInitializationFailed = "event::initializationFailed"; } declare namespace ts.server { interface TypingInstallerResponse { readonly kind: ActionSet | ActionInvalidate | EventTypesRegistry | ActionPackageInstalled | EventBeginInstallTypes | EventEndInstallTypes | EventInitializationFailed; } interface TypingInstallerRequestWithProjectName { readonly projectName: string; } interface DiscoverTypings extends TypingInstallerRequestWithProjectName { readonly fileNames: string[]; readonly projectRootPath: Path; readonly compilerOptions: CompilerOptions; readonly watchOptions?: WatchOptions; readonly typeAcquisition: TypeAcquisition; readonly unresolvedImports: SortedReadonlyArray; readonly cachePath?: string; readonly kind: "discover"; } interface CloseProject extends TypingInstallerRequestWithProjectName { readonly kind: "closeProject"; } interface TypesRegistryRequest { readonly kind: "typesRegistry"; } interface InstallPackageRequest extends TypingInstallerRequestWithProjectName { readonly kind: "installPackage"; readonly fileName: Path; readonly packageName: string; readonly projectRootPath: Path; } interface PackageInstalledResponse extends ProjectResponse { readonly kind: ActionPackageInstalled; readonly success: boolean; readonly message: string; } interface InitializationFailedResponse extends TypingInstallerResponse { readonly kind: EventInitializationFailed; readonly message: string; } interface ProjectResponse extends TypingInstallerResponse { readonly projectName: string; } interface InvalidateCachedTypings extends ProjectResponse { readonly kind: ActionInvalidate; } interface InstallTypes extends ProjectResponse { readonly kind: EventBeginInstallTypes | EventEndInstallTypes; readonly eventId: number; readonly typingsInstallerVersion: string; readonly packagesToInstall: readonly string[]; } interface BeginInstallTypes extends InstallTypes { readonly kind: EventBeginInstallTypes; } interface EndInstallTypes extends InstallTypes { readonly kind: EventEndInstallTypes; readonly installSuccess: boolean; } interface SetTypings extends ProjectResponse { readonly typeAcquisition: TypeAcquisition; readonly compilerOptions: CompilerOptions; readonly typings: string[]; readonly unresolvedImports: SortedReadonlyArray; readonly kind: ActionSet; } } declare namespace ts { interface Node { getSourceFile(): SourceFile; getChildCount(sourceFile?: SourceFile): number; getChildAt(index: number, sourceFile?: SourceFile): Node; getChildren(sourceFile?: SourceFile): Node[]; getStart(sourceFile?: SourceFile, includeJsDocComment?: boolean): number; getFullStart(): number; getEnd(): number; getWidth(sourceFile?: SourceFileLike): number; getFullWidth(): number; getLeadingTriviaWidth(sourceFile?: SourceFile): number; getFullText(sourceFile?: SourceFile): string; getText(sourceFile?: SourceFile): string; getFirstToken(sourceFile?: SourceFile): Node | undefined; getLastToken(sourceFile?: SourceFile): Node | undefined; forEachChild(cbNode: (node: Node) => T | undefined, cbNodeArray?: (nodes: NodeArray) => T | undefined): T | undefined; } interface Identifier { readonly text: string; } interface PrivateIdentifier { readonly text: string; } interface Symbol { readonly name: string; getFlags(): SymbolFlags; getEscapedName(): __String; getName(): string; getDeclarations(): Declaration[] | undefined; getDocumentationComment(typeChecker: TypeChecker | undefined): SymbolDisplayPart[]; getJsDocTags(): JSDocTagInfo[]; } interface Type { getFlags(): TypeFlags; getSymbol(): Symbol | undefined; getProperties(): Symbol[]; getProperty(propertyName: string): Symbol | undefined; getApparentProperties(): Symbol[]; getCallSignatures(): readonly Signature[]; getConstructSignatures(): readonly Signature[]; getStringIndexType(): Type | undefined; getNumberIndexType(): Type | undefined; getBaseTypes(): BaseType[] | undefined; getNonNullableType(): Type; getConstraint(): Type | undefined; getDefault(): Type | undefined; isUnion(): this is UnionType; isIntersection(): this is IntersectionType; isUnionOrIntersection(): this is UnionOrIntersectionType; isLiteral(): this is LiteralType; isStringLiteral(): this is StringLiteralType; isNumberLiteral(): this is NumberLiteralType; isTypeParameter(): this is TypeParameter; isClassOrInterface(): this is InterfaceType; isClass(): this is InterfaceType; } interface TypeReference { typeArguments?: readonly Type[]; } interface Signature { getDeclaration(): SignatureDeclaration; getTypeParameters(): TypeParameter[] | undefined; getParameters(): Symbol[]; getReturnType(): Type; getDocumentationComment(typeChecker: TypeChecker | undefined): SymbolDisplayPart[]; getJsDocTags(): JSDocTagInfo[]; } interface SourceFile { getLineAndCharacterOfPosition(pos: number): LineAndCharacter; getLineEndOfPosition(pos: number): number; getLineStarts(): readonly number[]; getPositionOfLineAndCharacter(line: number, character: number): number; update(newText: string, textChangeRange: TextChangeRange): SourceFile; } interface SourceFileLike { getLineAndCharacterOfPosition(pos: number): LineAndCharacter; } interface SourceMapSource { getLineAndCharacterOfPosition(pos: number): LineAndCharacter; } /** * Represents an immutable snapshot of a script at a specified time.Once acquired, the * snapshot is observably immutable. i.e. the same calls with the same parameters will return * the same values. */ interface IScriptSnapshot { /** Gets a portion of the script snapshot specified by [start, end). */ getText(start: number, end: number): string; /** Gets the length of this script snapshot. */ getLength(): number; /** * Gets the TextChangeRange that describe how the text changed between this text and * an older version. This information is used by the incremental parser to determine * what sections of the script need to be re-parsed. 'undefined' can be returned if the * change range cannot be determined. However, in that case, incremental parsing will * not happen and the entire document will be re - parsed. */ getChangeRange(oldSnapshot: IScriptSnapshot): TextChangeRange | undefined; /** Releases all resources held by this script snapshot */ dispose?(): void; } namespace ScriptSnapshot { function fromString(text: string): IScriptSnapshot; } interface PreProcessedFileInfo { referencedFiles: FileReference[]; typeReferenceDirectives: FileReference[]; libReferenceDirectives: FileReference[]; importedFiles: FileReference[]; ambientExternalModules?: string[]; isLibFile: boolean; } interface HostCancellationToken { isCancellationRequested(): boolean; } interface InstallPackageOptions { fileName: Path; packageName: string; } interface LanguageServiceHost extends GetEffectiveTypeRootsHost { getCompilationSettings(): CompilerOptions; getNewLine?(): string; getProjectVersion?(): string; getScriptFileNames(): string[]; getScriptKind?(fileName: string): ScriptKind; getScriptVersion(fileName: string): string; getScriptSnapshot(fileName: string): IScriptSnapshot | undefined; getProjectReferences?(): readonly ProjectReference[] | undefined; getLocalizedDiagnosticMessages?(): any; getCancellationToken?(): HostCancellationToken; getCurrentDirectory(): string; getDefaultLibFileName(options: CompilerOptions): string; log?(s: string): void; trace?(s: string): void; error?(s: string): void; useCaseSensitiveFileNames?(): boolean; readDirectory?(path: string, extensions?: readonly string[], exclude?: readonly string[], include?: readonly string[], depth?: number): string[]; readFile?(path: string, encoding?: string): string | undefined; realpath?(path: string): string; fileExists?(path: string): boolean; getTypeRootsVersion?(): number; resolveModuleNames?(moduleNames: string[], containingFile: string, reusedNames: string[] | undefined, redirectedReference: ResolvedProjectReference | undefined, options: CompilerOptions): (ResolvedModule | undefined)[]; getResolvedModuleWithFailedLookupLocationsFromCache?(modulename: string, containingFile: string): ResolvedModuleWithFailedLookupLocations | undefined; resolveTypeReferenceDirectives?(typeDirectiveNames: string[], containingFile: string, redirectedReference: ResolvedProjectReference | undefined, options: CompilerOptions): (ResolvedTypeReferenceDirective | undefined)[]; getDirectories?(directoryName: string): string[]; /** * Gets a set of custom transformers to use during emit. */ getCustomTransformers?(): CustomTransformers | undefined; isKnownTypesPackageName?(name: string): boolean; installPackage?(options: InstallPackageOptions): Promise; writeFile?(fileName: string, content: string): void; } type WithMetadata = T & { metadata?: unknown; }; interface LanguageService { /** This is used as a part of restarting the language service. */ cleanupSemanticCache(): void; /** * Gets errors indicating invalid syntax in a file. * * In English, "this cdeo have, erorrs" is syntactically invalid because it has typos, * grammatical errors, and misplaced punctuation. Likewise, examples of syntax * errors in TypeScript are missing parentheses in an `if` statement, mismatched * curly braces, and using a reserved keyword as a variable name. * * These diagnostics are inexpensive to compute and don't require knowledge of * other files. Note that a non-empty result increases the likelihood of false positives * from `getSemanticDiagnostics`. * * While these represent the majority of syntax-related diagnostics, there are some * that require the type system, which will be present in `getSemanticDiagnostics`. * * @param fileName A path to the file you want syntactic diagnostics for */ getSyntacticDiagnostics(fileName: string): DiagnosticWithLocation[]; /** * Gets warnings or errors indicating type system issues in a given file. * Requesting semantic diagnostics may start up the type system and * run deferred work, so the first call may take longer than subsequent calls. * * Unlike the other get*Diagnostics functions, these diagnostics can potentially not * include a reference to a source file. Specifically, the first time this is called, * it will return global diagnostics with no associated location. * * To contrast the differences between semantic and syntactic diagnostics, consider the * sentence: "The sun is green." is syntactically correct; those are real English words with * correct sentence structure. However, it is semantically invalid, because it is not true. * * @param fileName A path to the file you want semantic diagnostics for */ getSemanticDiagnostics(fileName: string): Diagnostic[]; /** * Gets suggestion diagnostics for a specific file. These diagnostics tend to * proactively suggest refactors, as opposed to diagnostics that indicate * potentially incorrect runtime behavior. * * @param fileName A path to the file you want semantic diagnostics for */ getSuggestionDiagnostics(fileName: string): DiagnosticWithLocation[]; /** * Gets global diagnostics related to the program configuration and compiler options. */ getCompilerOptionsDiagnostics(): Diagnostic[]; /** @deprecated Use getEncodedSyntacticClassifications instead. */ getSyntacticClassifications(fileName: string, span: TextSpan): ClassifiedSpan[]; /** @deprecated Use getEncodedSemanticClassifications instead. */ getSemanticClassifications(fileName: string, span: TextSpan): ClassifiedSpan[]; getEncodedSyntacticClassifications(fileName: string, span: TextSpan): Classifications; getEncodedSemanticClassifications(fileName: string, span: TextSpan): Classifications; /** * Gets completion entries at a particular position in a file. * * @param fileName The path to the file * @param position A zero-based index of the character where you want the entries * @param options An object describing how the request was triggered and what kinds * of code actions can be returned with the completions. */ getCompletionsAtPosition(fileName: string, position: number, options: GetCompletionsAtPositionOptions | undefined): WithMetadata | undefined; /** * Gets the extended details for a completion entry retrieved from `getCompletionsAtPosition`. * * @param fileName The path to the file * @param position A zero based index of the character where you want the entries * @param entryName The name from an existing completion which came from `getCompletionsAtPosition` * @param formatOptions How should code samples in the completions be formatted, can be undefined for backwards compatibility * @param source Source code for the current file, can be undefined for backwards compatibility * @param preferences User settings, can be undefined for backwards compatibility */ getCompletionEntryDetails(fileName: string, position: number, entryName: string, formatOptions: FormatCodeOptions | FormatCodeSettings | undefined, source: string | undefined, preferences: UserPreferences | undefined): CompletionEntryDetails | undefined; getCompletionEntrySymbol(fileName: string, position: number, name: string, source: string | undefined): Symbol | undefined; /** * Gets semantic information about the identifier at a particular position in a * file. Quick info is what you typically see when you hover in an editor. * * @param fileName The path to the file * @param position A zero-based index of the character where you want the quick info */ getQuickInfoAtPosition(fileName: string, position: number): QuickInfo | undefined; getNameOrDottedNameSpan(fileName: string, startPos: number, endPos: number): TextSpan | undefined; getBreakpointStatementAtPosition(fileName: string, position: number): TextSpan | undefined; getSignatureHelpItems(fileName: string, position: number, options: SignatureHelpItemsOptions | undefined): SignatureHelpItems | undefined; getRenameInfo(fileName: string, position: number, options?: RenameInfoOptions): RenameInfo; findRenameLocations(fileName: string, position: number, findInStrings: boolean, findInComments: boolean, providePrefixAndSuffixTextForRename?: boolean): readonly RenameLocation[] | undefined; getSmartSelectionRange(fileName: string, position: number): SelectionRange; getDefinitionAtPosition(fileName: string, position: number): readonly DefinitionInfo[] | undefined; getDefinitionAndBoundSpan(fileName: string, position: number): DefinitionInfoAndBoundSpan | undefined; getTypeDefinitionAtPosition(fileName: string, position: number): readonly DefinitionInfo[] | undefined; getImplementationAtPosition(fileName: string, position: number): readonly ImplementationLocation[] | undefined; getReferencesAtPosition(fileName: string, position: number): ReferenceEntry[] | undefined; findReferences(fileName: string, position: number): ReferencedSymbol[] | undefined; getDocumentHighlights(fileName: string, position: number, filesToSearch: string[]): DocumentHighlights[] | undefined; /** @deprecated */ getOccurrencesAtPosition(fileName: string, position: number): readonly ReferenceEntry[] | undefined; getNavigateToItems(searchValue: string, maxResultCount?: number, fileName?: string, excludeDtsFiles?: boolean): NavigateToItem[]; getNavigationBarItems(fileName: string): NavigationBarItem[]; getNavigationTree(fileName: string): NavigationTree; prepareCallHierarchy(fileName: string, position: number): CallHierarchyItem | CallHierarchyItem[] | undefined; provideCallHierarchyIncomingCalls(fileName: string, position: number): CallHierarchyIncomingCall[]; provideCallHierarchyOutgoingCalls(fileName: string, position: number): CallHierarchyOutgoingCall[]; getOutliningSpans(fileName: string): OutliningSpan[]; getTodoComments(fileName: string, descriptors: TodoCommentDescriptor[]): TodoComment[]; getBraceMatchingAtPosition(fileName: string, position: number): TextSpan[]; getIndentationAtPosition(fileName: string, position: number, options: EditorOptions | EditorSettings): number; getFormattingEditsForRange(fileName: string, start: number, end: number, options: FormatCodeOptions | FormatCodeSettings): TextChange[]; getFormattingEditsForDocument(fileName: string, options: FormatCodeOptions | FormatCodeSettings): TextChange[]; getFormattingEditsAfterKeystroke(fileName: string, position: number, key: string, options: FormatCodeOptions | FormatCodeSettings): TextChange[]; getDocCommentTemplateAtPosition(fileName: string, position: number): TextInsertion | undefined; isValidBraceCompletionAtPosition(fileName: string, position: number, openingBrace: number): boolean; /** * This will return a defined result if the position is after the `>` of the opening tag, or somewhere in the text, of a JSXElement with no closing tag. * Editors should call this after `>` is typed. */ getJsxClosingTagAtPosition(fileName: string, position: number): JsxClosingTagInfo | undefined; getSpanOfEnclosingComment(fileName: string, position: number, onlyMultiLine: boolean): TextSpan | undefined; toLineColumnOffset?(fileName: string, position: number): LineAndCharacter; getCodeFixesAtPosition(fileName: string, start: number, end: number, errorCodes: readonly number[], formatOptions: FormatCodeSettings, preferences: UserPreferences): readonly CodeFixAction[]; getCombinedCodeFix(scope: CombinedCodeFixScope, fixId: {}, formatOptions: FormatCodeSettings, preferences: UserPreferences): CombinedCodeActions; applyCodeActionCommand(action: CodeActionCommand, formatSettings?: FormatCodeSettings): Promise; applyCodeActionCommand(action: CodeActionCommand[], formatSettings?: FormatCodeSettings): Promise; applyCodeActionCommand(action: CodeActionCommand | CodeActionCommand[], formatSettings?: FormatCodeSettings): Promise; /** @deprecated `fileName` will be ignored */ applyCodeActionCommand(fileName: string, action: CodeActionCommand): Promise; /** @deprecated `fileName` will be ignored */ applyCodeActionCommand(fileName: string, action: CodeActionCommand[]): Promise; /** @deprecated `fileName` will be ignored */ applyCodeActionCommand(fileName: string, action: CodeActionCommand | CodeActionCommand[]): Promise; getApplicableRefactors(fileName: string, positionOrRange: number | TextRange, preferences: UserPreferences | undefined): ApplicableRefactorInfo[]; getEditsForRefactor(fileName: string, formatOptions: FormatCodeSettings, positionOrRange: number | TextRange, refactorName: string, actionName: string, preferences: UserPreferences | undefined): RefactorEditInfo | undefined; organizeImports(scope: OrganizeImportsScope, formatOptions: FormatCodeSettings, preferences: UserPreferences | undefined): readonly FileTextChanges[]; getEditsForFileRename(oldFilePath: string, newFilePath: string, formatOptions: FormatCodeSettings, preferences: UserPreferences | undefined): readonly FileTextChanges[]; getEmitOutput(fileName: string, emitOnlyDtsFiles?: boolean, forceDtsEmit?: boolean): EmitOutput; getProgram(): Program | undefined; dispose(): void; } interface JsxClosingTagInfo { readonly newText: string; } interface CombinedCodeFixScope { type: "file"; fileName: string; } type OrganizeImportsScope = CombinedCodeFixScope; type CompletionsTriggerCharacter = "." | '"' | "'" | "`" | "/" | "@" | "<" | "#"; interface GetCompletionsAtPositionOptions extends UserPreferences { /** * If the editor is asking for completions because a certain character was typed * (as opposed to when the user explicitly requested them) this should be set. */ triggerCharacter?: CompletionsTriggerCharacter; /** @deprecated Use includeCompletionsForModuleExports */ includeExternalModuleExports?: boolean; /** @deprecated Use includeCompletionsWithInsertText */ includeInsertTextCompletions?: boolean; } type SignatureHelpTriggerCharacter = "," | "(" | "<"; type SignatureHelpRetriggerCharacter = SignatureHelpTriggerCharacter | ")"; interface SignatureHelpItemsOptions { triggerReason?: SignatureHelpTriggerReason; } type SignatureHelpTriggerReason = SignatureHelpInvokedReason | SignatureHelpCharacterTypedReason | SignatureHelpRetriggeredReason; /** * Signals that the user manually requested signature help. * The language service will unconditionally attempt to provide a result. */ interface SignatureHelpInvokedReason { kind: "invoked"; triggerCharacter?: undefined; } /** * Signals that the signature help request came from a user typing a character. * Depending on the character and the syntactic context, the request may or may not be served a result. */ interface SignatureHelpCharacterTypedReason { kind: "characterTyped"; /** * Character that was responsible for triggering signature help. */ triggerCharacter: SignatureHelpTriggerCharacter; } /** * Signals that this signature help request came from typing a character or moving the cursor. * This should only occur if a signature help session was already active and the editor needs to see if it should adjust. * The language service will unconditionally attempt to provide a result. * `triggerCharacter` can be `undefined` for a retrigger caused by a cursor move. */ interface SignatureHelpRetriggeredReason { kind: "retrigger"; /** * Character that was responsible for triggering signature help. */ triggerCharacter?: SignatureHelpRetriggerCharacter; } interface ApplyCodeActionCommandResult { successMessage: string; } interface Classifications { spans: number[]; endOfLineState: EndOfLineState; } interface ClassifiedSpan { textSpan: TextSpan; classificationType: ClassificationTypeNames; } /** * Navigation bar interface designed for visual studio's dual-column layout. * This does not form a proper tree. * The navbar is returned as a list of top-level items, each of which has a list of child items. * Child items always have an empty array for their `childItems`. */ interface NavigationBarItem { text: string; kind: ScriptElementKind; kindModifiers: string; spans: TextSpan[]; childItems: NavigationBarItem[]; indent: number; bolded: boolean; grayed: boolean; } /** * Node in a tree of nested declarations in a file. * The top node is always a script or module node. */ interface NavigationTree { /** Name of the declaration, or a short description, e.g. "". */ text: string; kind: ScriptElementKind; /** ScriptElementKindModifier separated by commas, e.g. "public,abstract" */ kindModifiers: string; /** * Spans of the nodes that generated this declaration. * There will be more than one if this is the result of merging. */ spans: TextSpan[]; nameSpan: TextSpan | undefined; /** Present if non-empty */ childItems?: NavigationTree[]; } interface CallHierarchyItem { name: string; kind: ScriptElementKind; file: string; span: TextSpan; selectionSpan: TextSpan; } interface CallHierarchyIncomingCall { from: CallHierarchyItem; fromSpans: TextSpan[]; } interface CallHierarchyOutgoingCall { to: CallHierarchyItem; fromSpans: TextSpan[]; } interface TodoCommentDescriptor { text: string; priority: number; } interface TodoComment { descriptor: TodoCommentDescriptor; message: string; position: number; } interface TextChange { span: TextSpan; newText: string; } interface FileTextChanges { fileName: string; textChanges: readonly TextChange[]; isNewFile?: boolean; } interface CodeAction { /** Description of the code action to display in the UI of the editor */ description: string; /** Text changes to apply to each file as part of the code action */ changes: FileTextChanges[]; /** * If the user accepts the code fix, the editor should send the action back in a `applyAction` request. * This allows the language service to have side effects (e.g. installing dependencies) upon a code fix. */ commands?: CodeActionCommand[]; } interface CodeFixAction extends CodeAction { /** Short name to identify the fix, for use by telemetry. */ fixName: string; /** * If present, one may call 'getCombinedCodeFix' with this fixId. * This may be omitted to indicate that the code fix can't be applied in a group. */ fixId?: {}; fixAllDescription?: string; } interface CombinedCodeActions { changes: readonly FileTextChanges[]; commands?: readonly CodeActionCommand[]; } type CodeActionCommand = InstallPackageAction; interface InstallPackageAction { } /** * A set of one or more available refactoring actions, grouped under a parent refactoring. */ interface ApplicableRefactorInfo { /** * The programmatic name of the refactoring */ name: string; /** * A description of this refactoring category to show to the user. * If the refactoring gets inlined (see below), this text will not be visible. */ description: string; /** * Inlineable refactorings can have their actions hoisted out to the top level * of a context menu. Non-inlineanable refactorings should always be shown inside * their parent grouping. * * If not specified, this value is assumed to be 'true' */ inlineable?: boolean; actions: RefactorActionInfo[]; } /** * Represents a single refactoring action - for example, the "Extract Method..." refactor might * offer several actions, each corresponding to a surround class or closure to extract into. */ interface RefactorActionInfo { /** * The programmatic name of the refactoring action */ name: string; /** * A description of this refactoring action to show to the user. * If the parent refactoring is inlined away, this will be the only text shown, * so this description should make sense by itself if the parent is inlineable=true */ description: string; } /** * A set of edits to make in response to a refactor action, plus an optional * location where renaming should be invoked from */ interface RefactorEditInfo { edits: FileTextChanges[]; renameFilename?: string; renameLocation?: number; commands?: CodeActionCommand[]; } interface TextInsertion { newText: string; /** The position in newText the caret should point to after the insertion. */ caretOffset: number; } interface DocumentSpan { textSpan: TextSpan; fileName: string; /** * If the span represents a location that was remapped (e.g. via a .d.ts.map file), * then the original filename and span will be specified here */ originalTextSpan?: TextSpan; originalFileName?: string; /** * If DocumentSpan.textSpan is the span for name of the declaration, * then this is the span for relevant declaration */ contextSpan?: TextSpan; originalContextSpan?: TextSpan; } interface RenameLocation extends DocumentSpan { readonly prefixText?: string; readonly suffixText?: string; } interface ReferenceEntry extends DocumentSpan { isWriteAccess: boolean; isDefinition: boolean; isInString?: true; } interface ImplementationLocation extends DocumentSpan { kind: ScriptElementKind; displayParts: SymbolDisplayPart[]; } enum HighlightSpanKind { none = "none", definition = "definition", reference = "reference", writtenReference = "writtenReference" } interface HighlightSpan { fileName?: string; isInString?: true; textSpan: TextSpan; contextSpan?: TextSpan; kind: HighlightSpanKind; } interface NavigateToItem { name: string; kind: ScriptElementKind; kindModifiers: string; matchKind: "exact" | "prefix" | "substring" | "camelCase"; isCaseSensitive: boolean; fileName: string; textSpan: TextSpan; containerName: string; containerKind: ScriptElementKind; } enum IndentStyle { None = 0, Block = 1, Smart = 2 } enum SemicolonPreference { Ignore = "ignore", Insert = "insert", Remove = "remove" } interface EditorOptions { BaseIndentSize?: number; IndentSize: number; TabSize: number; NewLineCharacter: string; ConvertTabsToSpaces: boolean; IndentStyle: IndentStyle; } interface EditorSettings { baseIndentSize?: number; indentSize?: number; tabSize?: number; newLineCharacter?: string; convertTabsToSpaces?: boolean; indentStyle?: IndentStyle; trimTrailingWhitespace?: boolean; } interface FormatCodeOptions extends EditorOptions { InsertSpaceAfterCommaDelimiter: boolean; InsertSpaceAfterSemicolonInForStatements: boolean; InsertSpaceBeforeAndAfterBinaryOperators: boolean; InsertSpaceAfterConstructor?: boolean; InsertSpaceAfterKeywordsInControlFlowStatements: boolean; InsertSpaceAfterFunctionKeywordForAnonymousFunctions: boolean; InsertSpaceAfterOpeningAndBeforeClosingNonemptyParenthesis: boolean; InsertSpaceAfterOpeningAndBeforeClosingNonemptyBrackets: boolean; InsertSpaceAfterOpeningAndBeforeClosingNonemptyBraces?: boolean; InsertSpaceAfterOpeningAndBeforeClosingTemplateStringBraces: boolean; InsertSpaceAfterOpeningAndBeforeClosingJsxExpressionBraces?: boolean; InsertSpaceAfterTypeAssertion?: boolean; InsertSpaceBeforeFunctionParenthesis?: boolean; PlaceOpenBraceOnNewLineForFunctions: boolean; PlaceOpenBraceOnNewLineForControlBlocks: boolean; insertSpaceBeforeTypeAnnotation?: boolean; } interface FormatCodeSettings extends EditorSettings { readonly insertSpaceAfterCommaDelimiter?: boolean; readonly insertSpaceAfterSemicolonInForStatements?: boolean; readonly insertSpaceBeforeAndAfterBinaryOperators?: boolean; readonly insertSpaceAfterConstructor?: boolean; readonly insertSpaceAfterKeywordsInControlFlowStatements?: boolean; readonly insertSpaceAfterFunctionKeywordForAnonymousFunctions?: boolean; readonly insertSpaceAfterOpeningAndBeforeClosingNonemptyParenthesis?: boolean; readonly insertSpaceAfterOpeningAndBeforeClosingNonemptyBrackets?: boolean; readonly insertSpaceAfterOpeningAndBeforeClosingNonemptyBraces?: boolean; readonly insertSpaceAfterOpeningAndBeforeClosingEmptyBraces?: boolean; readonly insertSpaceAfterOpeningAndBeforeClosingTemplateStringBraces?: boolean; readonly insertSpaceAfterOpeningAndBeforeClosingJsxExpressionBraces?: boolean; readonly insertSpaceAfterTypeAssertion?: boolean; readonly insertSpaceBeforeFunctionParenthesis?: boolean; readonly placeOpenBraceOnNewLineForFunctions?: boolean; readonly placeOpenBraceOnNewLineForControlBlocks?: boolean; readonly insertSpaceBeforeTypeAnnotation?: boolean; readonly indentMultiLineObjectLiteralBeginningOnBlankLine?: boolean; readonly semicolons?: SemicolonPreference; } function getDefaultFormatCodeSettings(newLineCharacter?: string): FormatCodeSettings; interface DefinitionInfo extends DocumentSpan { kind: ScriptElementKind; name: string; containerKind: ScriptElementKind; containerName: string; } interface DefinitionInfoAndBoundSpan { definitions?: readonly DefinitionInfo[]; textSpan: TextSpan; } interface ReferencedSymbolDefinitionInfo extends DefinitionInfo { displayParts: SymbolDisplayPart[]; } interface ReferencedSymbol { definition: ReferencedSymbolDefinitionInfo; references: ReferenceEntry[]; } enum SymbolDisplayPartKind { aliasName = 0, className = 1, enumName = 2, fieldName = 3, interfaceName = 4, keyword = 5, lineBreak = 6, numericLiteral = 7, stringLiteral = 8, localName = 9, methodName = 10, moduleName = 11, operator = 12, parameterName = 13, propertyName = 14, punctuation = 15, space = 16, text = 17, typeParameterName = 18, enumMemberName = 19, functionName = 20, regularExpressionLiteral = 21 } interface SymbolDisplayPart { text: string; kind: string; } interface JSDocTagInfo { name: string; text?: string; } interface QuickInfo { kind: ScriptElementKind; kindModifiers: string; textSpan: TextSpan; displayParts?: SymbolDisplayPart[]; documentation?: SymbolDisplayPart[]; tags?: JSDocTagInfo[]; } type RenameInfo = RenameInfoSuccess | RenameInfoFailure; interface RenameInfoSuccess { canRename: true; /** * File or directory to rename. * If set, `getEditsForFileRename` should be called instead of `findRenameLocations`. */ fileToRename?: string; displayName: string; fullDisplayName: string; kind: ScriptElementKind; kindModifiers: string; triggerSpan: TextSpan; } interface RenameInfoFailure { canRename: false; localizedErrorMessage: string; } interface RenameInfoOptions { readonly allowRenameOfImportPath?: boolean; } interface SignatureHelpParameter { name: string; documentation: SymbolDisplayPart[]; displayParts: SymbolDisplayPart[]; isOptional: boolean; } interface SelectionRange { textSpan: TextSpan; parent?: SelectionRange; } /** * Represents a single signature to show in signature help. * The id is used for subsequent calls into the language service to ask questions about the * signature help item in the context of any documents that have been updated. i.e. after * an edit has happened, while signature help is still active, the host can ask important * questions like 'what parameter is the user currently contained within?'. */ interface SignatureHelpItem { isVariadic: boolean; prefixDisplayParts: SymbolDisplayPart[]; suffixDisplayParts: SymbolDisplayPart[]; separatorDisplayParts: SymbolDisplayPart[]; parameters: SignatureHelpParameter[]; documentation: SymbolDisplayPart[]; tags: JSDocTagInfo[]; } /** * Represents a set of signature help items, and the preferred item that should be selected. */ interface SignatureHelpItems { items: SignatureHelpItem[]; applicableSpan: TextSpan; selectedItemIndex: number; argumentIndex: number; argumentCount: number; } interface CompletionInfo { /** Not true for all global completions. This will be true if the enclosing scope matches a few syntax kinds. See `isSnippetScope`. */ isGlobalCompletion: boolean; isMemberCompletion: boolean; /** * true when the current location also allows for a new identifier */ isNewIdentifierLocation: boolean; entries: CompletionEntry[]; } interface CompletionEntry { name: string; kind: ScriptElementKind; kindModifiers?: string; sortText: string; insertText?: string; /** * An optional span that indicates the text to be replaced by this completion item. * If present, this span should be used instead of the default one. * It will be set if the required span differs from the one generated by the default replacement behavior. */ replacementSpan?: TextSpan; hasAction?: true; source?: string; isRecommended?: true; isFromUncheckedFile?: true; } interface CompletionEntryDetails { name: string; kind: ScriptElementKind; kindModifiers: string; displayParts: SymbolDisplayPart[]; documentation?: SymbolDisplayPart[]; tags?: JSDocTagInfo[]; codeActions?: CodeAction[]; source?: SymbolDisplayPart[]; } interface OutliningSpan { /** The span of the document to actually collapse. */ textSpan: TextSpan; /** The span of the document to display when the user hovers over the collapsed span. */ hintSpan: TextSpan; /** The text to display in the editor for the collapsed region. */ bannerText: string; /** * Whether or not this region should be automatically collapsed when * the 'Collapse to Definitions' command is invoked. */ autoCollapse: boolean; /** * Classification of the contents of the span */ kind: OutliningSpanKind; } enum OutliningSpanKind { /** Single or multi-line comments */ Comment = "comment", /** Sections marked by '// #region' and '// #endregion' comments */ Region = "region", /** Declarations and expressions */ Code = "code", /** Contiguous blocks of import declarations */ Imports = "imports" } enum OutputFileType { JavaScript = 0, SourceMap = 1, Declaration = 2 } enum EndOfLineState { None = 0, InMultiLineCommentTrivia = 1, InSingleQuoteStringLiteral = 2, InDoubleQuoteStringLiteral = 3, InTemplateHeadOrNoSubstitutionTemplate = 4, InTemplateMiddleOrTail = 5, InTemplateSubstitutionPosition = 6 } enum TokenClass { Punctuation = 0, Keyword = 1, Operator = 2, Comment = 3, Whitespace = 4, Identifier = 5, NumberLiteral = 6, BigIntLiteral = 7, StringLiteral = 8, RegExpLiteral = 9 } interface ClassificationResult { finalLexState: EndOfLineState; entries: ClassificationInfo[]; } interface ClassificationInfo { length: number; classification: TokenClass; } interface Classifier { /** * Gives lexical classifications of tokens on a line without any syntactic context. * For instance, a token consisting of the text 'string' can be either an identifier * named 'string' or the keyword 'string', however, because this classifier is not aware, * it relies on certain heuristics to give acceptable results. For classifications where * speed trumps accuracy, this function is preferable; however, for true accuracy, the * syntactic classifier is ideal. In fact, in certain editing scenarios, combining the * lexical, syntactic, and semantic classifiers may issue the best user experience. * * @param text The text of a line to classify. * @param lexState The state of the lexical classifier at the end of the previous line. * @param syntacticClassifierAbsent Whether the client is *not* using a syntactic classifier. * If there is no syntactic classifier (syntacticClassifierAbsent=true), * certain heuristics may be used in its place; however, if there is a * syntactic classifier (syntacticClassifierAbsent=false), certain * classifications which may be incorrectly categorized will be given * back as Identifiers in order to allow the syntactic classifier to * subsume the classification. * @deprecated Use getLexicalClassifications instead. */ getClassificationsForLine(text: string, lexState: EndOfLineState, syntacticClassifierAbsent: boolean): ClassificationResult; getEncodedLexicalClassifications(text: string, endOfLineState: EndOfLineState, syntacticClassifierAbsent: boolean): Classifications; } enum ScriptElementKind { unknown = "", warning = "warning", /** predefined type (void) or keyword (class) */ keyword = "keyword", /** top level script node */ scriptElement = "script", /** module foo {} */ moduleElement = "module", /** class X {} */ classElement = "class", /** var x = class X {} */ localClassElement = "local class", /** interface Y {} */ interfaceElement = "interface", /** type T = ... */ typeElement = "type", /** enum E */ enumElement = "enum", enumMemberElement = "enum member", /** * Inside module and script only * const v = .. */ variableElement = "var", /** Inside function */ localVariableElement = "local var", /** * Inside module and script only * function f() { } */ functionElement = "function", /** Inside function */ localFunctionElement = "local function", /** class X { [public|private]* foo() {} } */ memberFunctionElement = "method", /** class X { [public|private]* [get|set] foo:number; } */ memberGetAccessorElement = "getter", memberSetAccessorElement = "setter", /** * class X { [public|private]* foo:number; } * interface Y { foo:number; } */ memberVariableElement = "property", /** class X { constructor() { } } */ constructorImplementationElement = "constructor", /** interface Y { ():number; } */ callSignatureElement = "call", /** interface Y { []:number; } */ indexSignatureElement = "index", /** interface Y { new():Y; } */ constructSignatureElement = "construct", /** function foo(*Y*: string) */ parameterElement = "parameter", typeParameterElement = "type parameter", primitiveType = "primitive type", label = "label", alias = "alias", constElement = "const", letElement = "let", directory = "directory", externalModuleName = "external module name", /** * */ jsxAttribute = "JSX attribute", /** String literal */ string = "string" } enum ScriptElementKindModifier { none = "", publicMemberModifier = "public", privateMemberModifier = "private", protectedMemberModifier = "protected", exportedModifier = "export", ambientModifier = "declare", staticModifier = "static", abstractModifier = "abstract", optionalModifier = "optional", dtsModifier = ".d.ts", tsModifier = ".ts", tsxModifier = ".tsx", jsModifier = ".js", jsxModifier = ".jsx", jsonModifier = ".json" } enum ClassificationTypeNames { comment = "comment", identifier = "identifier", keyword = "keyword", numericLiteral = "number", bigintLiteral = "bigint", operator = "operator", stringLiteral = "string", whiteSpace = "whitespace", text = "text", punctuation = "punctuation", className = "class name", enumName = "enum name", interfaceName = "interface name", moduleName = "module name", typeParameterName = "type parameter name", typeAliasName = "type alias name", parameterName = "parameter name", docCommentTagName = "doc comment tag name", jsxOpenTagName = "jsx open tag name", jsxCloseTagName = "jsx close tag name", jsxSelfClosingTagName = "jsx self closing tag name", jsxAttribute = "jsx attribute", jsxText = "jsx text", jsxAttributeStringLiteralValue = "jsx attribute string literal value" } enum ClassificationType { comment = 1, identifier = 2, keyword = 3, numericLiteral = 4, operator = 5, stringLiteral = 6, regularExpressionLiteral = 7, whiteSpace = 8, text = 9, punctuation = 10, className = 11, enumName = 12, interfaceName = 13, moduleName = 14, typeParameterName = 15, typeAliasName = 16, parameterName = 17, docCommentTagName = 18, jsxOpenTagName = 19, jsxCloseTagName = 20, jsxSelfClosingTagName = 21, jsxAttribute = 22, jsxText = 23, jsxAttributeStringLiteralValue = 24, bigintLiteral = 25 } } declare namespace ts { /** The classifier is used for syntactic highlighting in editors via the TSServer */ function createClassifier(): Classifier; } declare namespace ts { interface DocumentHighlights { fileName: string; highlightSpans: HighlightSpan[]; } } declare namespace ts { /** * The document registry represents a store of SourceFile objects that can be shared between * multiple LanguageService instances. A LanguageService instance holds on the SourceFile (AST) * of files in the context. * SourceFile objects account for most of the memory usage by the language service. Sharing * the same DocumentRegistry instance between different instances of LanguageService allow * for more efficient memory utilization since all projects will share at least the library * file (lib.d.ts). * * A more advanced use of the document registry is to serialize sourceFile objects to disk * and re-hydrate them when needed. * * To create a default DocumentRegistry, use createDocumentRegistry to create one, and pass it * to all subsequent createLanguageService calls. */ interface DocumentRegistry { /** * Request a stored SourceFile with a given fileName and compilationSettings. * The first call to acquire will call createLanguageServiceSourceFile to generate * the SourceFile if was not found in the registry. * * @param fileName The name of the file requested * @param compilationSettings Some compilation settings like target affects the * shape of a the resulting SourceFile. This allows the DocumentRegistry to store * multiple copies of the same file for different compilation settings. * @param scriptSnapshot Text of the file. Only used if the file was not found * in the registry and a new one was created. * @param version Current version of the file. Only used if the file was not found * in the registry and a new one was created. */ acquireDocument(fileName: string, compilationSettings: CompilerOptions, scriptSnapshot: IScriptSnapshot, version: string, scriptKind?: ScriptKind): SourceFile; acquireDocumentWithKey(fileName: string, path: Path, compilationSettings: CompilerOptions, key: DocumentRegistryBucketKey, scriptSnapshot: IScriptSnapshot, version: string, scriptKind?: ScriptKind): SourceFile; /** * Request an updated version of an already existing SourceFile with a given fileName * and compilationSettings. The update will in-turn call updateLanguageServiceSourceFile * to get an updated SourceFile. * * @param fileName The name of the file requested * @param compilationSettings Some compilation settings like target affects the * shape of a the resulting SourceFile. This allows the DocumentRegistry to store * multiple copies of the same file for different compilation settings. * @param scriptSnapshot Text of the file. * @param version Current version of the file. */ updateDocument(fileName: string, compilationSettings: CompilerOptions, scriptSnapshot: IScriptSnapshot, version: string, scriptKind?: ScriptKind): SourceFile; updateDocumentWithKey(fileName: string, path: Path, compilationSettings: CompilerOptions, key: DocumentRegistryBucketKey, scriptSnapshot: IScriptSnapshot, version: string, scriptKind?: ScriptKind): SourceFile; getKeyForCompilationSettings(settings: CompilerOptions): DocumentRegistryBucketKey; /** * Informs the DocumentRegistry that a file is not needed any longer. * * Note: It is not allowed to call release on a SourceFile that was not acquired from * this registry originally. * * @param fileName The name of the file to be released * @param compilationSettings The compilation settings used to acquire the file */ releaseDocument(fileName: string, compilationSettings: CompilerOptions): void; releaseDocumentWithKey(path: Path, key: DocumentRegistryBucketKey): void; reportStats(): string; } type DocumentRegistryBucketKey = string & { __bucketKey: any; }; function createDocumentRegistry(useCaseSensitiveFileNames?: boolean, currentDirectory?: string): DocumentRegistry; } declare namespace ts { function preProcessFile(sourceText: string, readImportFiles?: boolean, detectJavaScriptImports?: boolean): PreProcessedFileInfo; } declare namespace ts { interface TranspileOptions { compilerOptions?: CompilerOptions; fileName?: string; reportDiagnostics?: boolean; moduleName?: string; renamedDependencies?: MapLike; transformers?: CustomTransformers; } interface TranspileOutput { outputText: string; diagnostics?: Diagnostic[]; sourceMapText?: string; } function transpileModule(input: string, transpileOptions: TranspileOptions): TranspileOutput; function transpile(input: string, compilerOptions?: CompilerOptions, fileName?: string, diagnostics?: Diagnostic[], moduleName?: string): string; } declare namespace ts { /** The version of the language service API */ const servicesVersion = "0.8"; function toEditorSettings(options: EditorOptions | EditorSettings): EditorSettings; function displayPartsToString(displayParts: SymbolDisplayPart[] | undefined): string; function getDefaultCompilerOptions(): CompilerOptions; function getSupportedCodeFixes(): string[]; function createLanguageServiceSourceFile(fileName: string, scriptSnapshot: IScriptSnapshot, scriptTarget: ScriptTarget, version: string, setNodeParents: boolean, scriptKind?: ScriptKind): SourceFile; function updateLanguageServiceSourceFile(sourceFile: SourceFile, scriptSnapshot: IScriptSnapshot, version: string, textChangeRange: TextChangeRange | undefined, aggressiveChecks?: boolean): SourceFile; function createLanguageService(host: LanguageServiceHost, documentRegistry?: DocumentRegistry, syntaxOnly?: boolean): LanguageService; /** * Get the path of the default library files (lib.d.ts) as distributed with the typescript * node package. * The functionality is not supported if the ts module is consumed outside of a node module. */ function getDefaultLibFilePath(options: CompilerOptions): string; } declare namespace ts { /** * Transform one or more nodes using the supplied transformers. * @param source A single `Node` or an array of `Node` objects. * @param transformers An array of `TransformerFactory` callbacks used to process the transformation. * @param compilerOptions Optional compiler options. */ function transform(source: T | T[], transformers: TransformerFactory[], compilerOptions?: CompilerOptions): TransformationResult; }