/* Copyright 2017 Google Inc. 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 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ // Package dump can dump a Go data structure to Go source file, so that it can // be statically embedded into other code. package dump import ( "bytes" "fmt" "io" "os" "reflect" "regexp" "sort" "strconv" ) var packageNameStripperRegexp = regexp.MustCompile(`\b[a-zA-Z_]+[a-zA-Z_0-9]+\.`) // Options represents configuration option type Options struct { StripPackageNames bool HidePrivateFields bool HomePackage string VariableName string VariableDescription string } // Config is the default config used when calling Dump var Config = Options{ StripPackageNames: false, HidePrivateFields: true, VariableName: "Obj", VariableDescription: "", } type dumpState struct { w io.Writer depth int config *Options allPointers []uintptr visitedPointers []uintptr reusedPointers []uintptr primitivePointers []uintptr homePackageRegexp *regexp.Regexp } func mustWrite(w io.Writer, data []byte) { _, err := w.Write(data) if err != nil { panic(err) } } func (s *dumpState) indent() { mustWrite(s.w, bytes.Repeat([]byte("\t"), s.depth)) } func (s *dumpState) newline() { mustWrite(s.w, []byte("\n")) } func (s *dumpState) dumpType(v reflect.Value) { typeName := v.Type().String() if s.config.StripPackageNames { typeName = packageNameStripperRegexp.ReplaceAllLiteralString(typeName, "") } else if s.homePackageRegexp != nil { typeName = s.homePackageRegexp.ReplaceAllLiteralString(typeName, "") } mustWrite(s.w, []byte(typeName)) } func (s *dumpState) dumpSlice(v reflect.Value) { s.dumpType(v) numEntries := v.Len() if numEntries == 0 { mustWrite(s.w, []byte("{}")) return } mustWrite(s.w, []byte("{")) s.newline() s.depth++ for i := 0; i < numEntries; i++ { s.indent() s.dumpVal(v.Index(i)) mustWrite(s.w, []byte(",")) s.newline() } s.depth-- s.indent() mustWrite(s.w, []byte("}")) } func (s *dumpState) dumpStruct(v reflect.Value) { dumpPreamble := func() { s.dumpType(v) mustWrite(s.w, []byte("{")) s.newline() s.depth++ } preambleDumped := false vt := v.Type() numFields := v.NumField() for i := 0; i < numFields; i++ { vtf := vt.Field(i) if s.config.HidePrivateFields && vtf.PkgPath != "" { continue } if !preambleDumped { dumpPreamble() preambleDumped = true } s.indent() mustWrite(s.w, []byte(vtf.Name)) mustWrite(s.w, []byte(": ")) s.dumpVal(v.Field(i)) mustWrite(s.w, []byte(",")) s.newline() } if preambleDumped { s.depth-- s.indent() mustWrite(s.w, []byte("}")) } else { // There were no fields dumped s.dumpType(v) mustWrite(s.w, []byte("{}")) } } func (s *dumpState) dumpMap(v reflect.Value) { s.dumpType(v) mustWrite(s.w, []byte("{")) s.newline() s.depth++ keys := v.MapKeys() sort.Sort(mapKeySorter{keys}) for _, key := range keys { s.indent() s.dumpVal(key) mustWrite(s.w, []byte(": ")) s.dumpVal(v.MapIndex(key)) mustWrite(s.w, []byte(",")) s.newline() } s.depth-- s.indent() mustWrite(s.w, []byte("}")) } func (s *dumpState) dump(value interface{}) { writeVar := func() { if s.config.VariableDescription != "" { fmt.Fprintf(s.w, "\n// %s\n", s.config.VariableDescription) } mustWrite(s.w, []byte("var "+s.config.VariableName+" = ")) } if value == nil { writeVar() printNil(s.w) s.newline() return } v := reflect.ValueOf(value) s.dumpPrimitivePointerVal(v) s.visitedPointers = []uintptr{} s.dumpReusedPointerVal(v) writeVar() if v.Kind() == reflect.Ptr && v.IsNil() { printNil(s.w) } else { // Replace the writer with a temporary buffer so that // we can see how big the output is. If it's too big, // we use an intermediate value so that godoc output // isn't swamped by the literal. oldWriter := s.w buf := new(bytes.Buffer) s.w = buf s.dumpVal(v) s.w = oldWriter if buf.Len() > 100 { mustWrite(s.w, []byte("_"+s.config.VariableName)) s.newline() mustWrite(s.w, []byte("var _"+s.config.VariableName+" = ")) } mustWrite(s.w, buf.Bytes()) } s.newline() } func (s *dumpState) printPrimitivePointer(value reflect.Value, pointerName string) { v := deInterface(value) mustWrite(s.w, []byte("var "+pointerName+"Var"+" = ")) switch v.Kind() { case reflect.Bool: printBool(s.w, v.Bool()) case reflect.Int: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int8: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int16: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int32: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int64: printInt(s.w, v, s.config.StripPackageNames) case reflect.Uint: printUint(s.w, v) case reflect.Uint8: printUint(s.w, v) case reflect.Uint16: printUint(s.w, v) case reflect.Uint32: printUint(s.w, v) case reflect.Uint64: printUint(s.w, v) case reflect.Float32: printFloat(s.w, v.Float(), 32, "float32") case reflect.Float64: printFloat(s.w, v.Float(), 64, "float64") case reflect.Complex64: printComplex(s.w, v.Complex(), 32) case reflect.Complex128: printComplex(s.w, v.Complex(), 64) case reflect.String: mustWrite(s.w, []byte(strconv.Quote(v.String()))) } s.newline() mustWrite(s.w, []byte("var "+pointerName+" = &"+pointerName+"Var")) s.newline() } func (s *dumpState) dumpPrimitivePointerVal(value reflect.Value) { if value.Kind() == reflect.Ptr && value.IsNil() { return } v := deInterface(value) kind := v.Kind() switch kind { case reflect.Invalid: // Do nothing. We should never get here since invalid has already // been handled above. mustWrite(s.w, []byte("")) case reflect.Slice: if v.IsNil() { break } fallthrough case reflect.Array: for i := 0; i < v.Len(); i++ { s.dumpPrimitivePointerVal(v.Index(i)) } case reflect.Map: keys := v.MapKeys() sort.Sort(mapKeySorter{keys}) for _, key := range keys { s.dumpPrimitivePointerVal(v.MapIndex(key)) } case reflect.Struct: for i := 0; i < v.NumField(); i++ { s.dumpPrimitivePointerVal(v.Field(i)) } case reflect.Ptr: pointerName, isPrimitive, isFirstVisit := s.nameForPointer(v), s.isPrimitivePointer(v), s.visitPointerAndCheckIfFirstTime(v) if isPrimitive && isFirstVisit { s.printPrimitivePointer(v.Elem(), pointerName) } else { s.dumpPrimitivePointerVal(v.Elem()) } } } func (s *dumpState) dumpReusedPointerVal(value reflect.Value) { if value.Kind() == reflect.Ptr && value.IsNil() { return } v := deInterface(value) kind := v.Kind() switch kind { case reflect.Invalid: // Do nothing. We should never get here since invalid has already // been handled above. mustWrite(s.w, []byte("")) case reflect.Slice: if v.IsNil() { break } fallthrough case reflect.Array: for i := 0; i < v.Len(); i++ { s.dumpReusedPointerVal(v.Index(i)) } case reflect.Map: keys := v.MapKeys() sort.Sort(mapKeySorter{keys}) for _, key := range keys { s.dumpReusedPointerVal(v.MapIndex(key)) } case reflect.Struct: for i := 0; i < v.NumField(); i++ { s.dumpReusedPointerVal(v.Field(i)) } case reflect.Ptr: pointerName, isReused, isPrimitive, isFirstVisit := s.nameForPointer(v), s.isReusedPointer(v), s.isPrimitivePointer(v), s.visitPointerAndCheckIfFirstTime(v) if isReused && !isPrimitive && isFirstVisit { mustWrite(s.w, []byte("var "+pointerName+" = &")) s.dumpVal(v.Elem()) s.newline() } else { s.dumpReusedPointerVal(v.Elem()) } } } func (s *dumpState) dumpVal(value reflect.Value) { if value.Kind() == reflect.Ptr && value.IsNil() { mustWrite(s.w, []byte("nil")) return } v := deInterface(value) kind := v.Kind() switch kind { case reflect.Invalid: // Do nothing. We should never get here since invalid has already // been handled above. mustWrite(s.w, []byte("")) case reflect.Bool: printBool(s.w, v.Bool()) case reflect.Int: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int8: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int16: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int32: printInt(s.w, v, s.config.StripPackageNames) case reflect.Int64: printInt(s.w, v, s.config.StripPackageNames) case reflect.Uint: printUint(s.w, v) case reflect.Uint8: printUint(s.w, v) case reflect.Uint16: printUint(s.w, v) case reflect.Uint32: printUint(s.w, v) case reflect.Uint64: printUint(s.w, v) case reflect.Float32: printFloat(s.w, v.Float(), 32, "float32") case reflect.Float64: printFloat(s.w, v.Float(), 64, "float64") case reflect.Complex64: printComplex(s.w, v.Complex(), 32) case reflect.Complex128: printComplex(s.w, v.Complex(), 64) case reflect.String: mustWrite(s.w, []byte(strconv.Quote(v.String()))) case reflect.Slice: if v.IsNil() { printNil(s.w) break } fallthrough case reflect.Array: s.dumpSlice(v) case reflect.Interface: // The only time we should get here is for nil interfaces due to // unpackValue calls. if v.IsNil() { printNil(s.w) } case reflect.Ptr: pointerName, isPrimitive, isReused := s.nameForPointer(v), s.isPrimitivePointer(v), s.isReusedPointer(v) if isPrimitive || isReused { mustWrite(s.w, []byte(pointerName)) } else { mustWrite(s.w, []byte("&")) s.dumpVal(v.Elem()) } case reflect.Map: s.dumpMap(v) case reflect.Struct: s.dumpStruct(v) default: if v.CanInterface() { fmt.Fprintf(s.w, "%v", v.Interface()) } else { fmt.Fprintf(s.w, "%v", v.String()) } } } func (s *dumpState) nameForPointer(v reflect.Value) string { if isPointerValue(v) { ptr := v.Pointer() for i, addr := range s.allPointers { if ptr == addr { return fmt.Sprintf("p%d", i) } } } return "" } func (s *dumpState) isPrimitivePointer(v reflect.Value) bool { if isPointerValue(v) { ptr := v.Pointer() for _, addr := range s.primitivePointers { if addr == ptr { return true } } } return false } func (s *dumpState) isReusedPointer(v reflect.Value) bool { if isPointerValue(v) { ptr := v.Pointer() for _, addr := range s.reusedPointers { if addr == ptr { return true } } } return false } func (s *dumpState) visitPointerAndCheckIfFirstTime(v reflect.Value) bool { if isPointerValue(v) { ptr := v.Pointer() for _, addr := range s.visitedPointers { if addr == ptr { return false } } s.visitedPointers = append(s.visitedPointers, ptr) } return true } // prepares a new state object for dumping the provided value func newDumpState(value interface{}, options *Options) *dumpState { result := &dumpState{ config: options, } result.allPointers, result.reusedPointers, result.primitivePointers = GetPointers(reflect.ValueOf(value)) if options.HomePackage != "" { result.homePackageRegexp = regexp.MustCompile(fmt.Sprintf("\\b%s\\.", options.HomePackage)) } return result } // Dump a value to stdout func Dump(value interface{}) { (&Config).Dump(value) } // Sdump dumps a value to a string func Sdump(value interface{}) string { return (&Config).Sdump(value) } // Dump a value to stdout according to the options func (o Options) Dump(value interface{}) { state := newDumpState(value, &o) state.w = os.Stdout state.dump(value) } // Sdump dumps a value to a string according to the options func (o Options) Sdump(value interface{}) string { buf := new(bytes.Buffer) state := newDumpState(value, &o) state.w = buf state.dump(value) return buf.String() } type mapKeySorter struct { keys []reflect.Value } func (s mapKeySorter) Len() int { return len(s.keys) } func (s mapKeySorter) Swap(i, j int) { s.keys[i], s.keys[j] = s.keys[j], s.keys[i] } func (s mapKeySorter) Less(i, j int) bool { return fmt.Sprintf("%s", s.keys[i].Interface()) < fmt.Sprintf("%s", s.keys[j].Interface()) }