package goja import ( "bytes" "encoding/json" "errors" "fmt" "io" "math" "strconv" "strings" "unicode/utf16" "unicode/utf8" "apigo.cc/ai/ai/goja/unistring" ) const hex = "0123456789abcdef" func (r *Runtime) builtinJSON_parse(call FunctionCall) Value { d := json.NewDecoder(strings.NewReader(call.Argument(0).toString().String())) value, err := r.builtinJSON_decodeValue(d) if errors.Is(err, io.EOF) { panic(r.newError(r.getSyntaxError(), "Unexpected end of JSON input (%v)", err.Error())) } if err != nil { panic(r.newError(r.getSyntaxError(), err.Error())) } if tok, err := d.Token(); err != io.EOF { panic(r.newError(r.getSyntaxError(), "Unexpected token at the end: %v", tok)) } var reviver func(FunctionCall) Value if arg1 := call.Argument(1); arg1 != _undefined { reviver, _ = arg1.ToObject(r).self.assertCallable() } if reviver != nil { root := r.NewObject() createDataPropertyOrThrow(root, stringEmpty, value) return r.builtinJSON_reviveWalk(reviver, root, stringEmpty) } return value } func (r *Runtime) builtinJSON_decodeToken(d *json.Decoder, tok json.Token) (Value, error) { switch tok := tok.(type) { case json.Delim: switch tok { case '{': return r.builtinJSON_decodeObject(d) case '[': return r.builtinJSON_decodeArray(d) } case nil: return _null, nil case string: return newStringValue(tok), nil case float64: return floatToValue(tok), nil case bool: if tok { return valueTrue, nil } return valueFalse, nil } return nil, fmt.Errorf("Unexpected token (%T): %v", tok, tok) } func (r *Runtime) builtinJSON_decodeValue(d *json.Decoder) (Value, error) { tok, err := d.Token() if err != nil { return nil, err } return r.builtinJSON_decodeToken(d, tok) } func (r *Runtime) builtinJSON_decodeObject(d *json.Decoder) (*Object, error) { object := r.NewObject() for { key, end, err := r.builtinJSON_decodeObjectKey(d) if err != nil { return nil, err } if end { break } value, err := r.builtinJSON_decodeValue(d) if err != nil { return nil, err } object.self._putProp(unistring.NewFromString(key), value, true, true, true) } return object, nil } func (r *Runtime) builtinJSON_decodeObjectKey(d *json.Decoder) (string, bool, error) { tok, err := d.Token() if err != nil { return "", false, err } switch tok := tok.(type) { case json.Delim: if tok == '}' { return "", true, nil } case string: return tok, false, nil } return "", false, fmt.Errorf("Unexpected token (%T): %v", tok, tok) } func (r *Runtime) builtinJSON_decodeArray(d *json.Decoder) (*Object, error) { var arrayValue []Value for { tok, err := d.Token() if err != nil { return nil, err } if delim, ok := tok.(json.Delim); ok { if delim == ']' { break } } value, err := r.builtinJSON_decodeToken(d, tok) if err != nil { return nil, err } arrayValue = append(arrayValue, value) } return r.newArrayValues(arrayValue), nil } func (r *Runtime) builtinJSON_reviveWalk(reviver func(FunctionCall) Value, holder *Object, name Value) Value { value := nilSafe(holder.get(name, nil)) if object, ok := value.(*Object); ok { if isArray(object) { length := toLength(object.self.getStr("length", nil)) for index := int64(0); index < length; index++ { name := asciiString(strconv.FormatInt(index, 10)) value := r.builtinJSON_reviveWalk(reviver, object, name) if value == _undefined { object.delete(name, false) } else { createDataProperty(object, name, value) } } } else { for _, name := range object.self.stringKeys(false, nil) { value := r.builtinJSON_reviveWalk(reviver, object, name) if value == _undefined { object.self.deleteStr(name.string(), false) } else { createDataProperty(object, name, value) } } } } return reviver(FunctionCall{ This: holder, Arguments: []Value{name, value}, }) } type _builtinJSON_stringifyContext struct { r *Runtime stack []*Object propertyList []Value replacerFunction func(FunctionCall) Value gap, indent string buf bytes.Buffer allAscii bool } func (r *Runtime) builtinJSON_stringify(call FunctionCall) Value { ctx := _builtinJSON_stringifyContext{ r: r, allAscii: true, } replacer, _ := call.Argument(1).(*Object) if replacer != nil { if isArray(replacer) { length := toLength(replacer.self.getStr("length", nil)) seen := map[string]bool{} propertyList := make([]Value, length) length = 0 for index := range propertyList { var name string value := replacer.self.getIdx(valueInt(int64(index)), nil) switch v := value.(type) { case valueFloat, valueInt, String: name = value.String() case *Object: switch v.self.className() { case classNumber, classString: name = value.String() default: continue } default: continue } if seen[name] { continue } seen[name] = true propertyList[length] = newStringValue(name) length += 1 } ctx.propertyList = propertyList[0:length] } else if c, ok := replacer.self.assertCallable(); ok { ctx.replacerFunction = c } } if spaceValue := call.Argument(2); spaceValue != _undefined { if o, ok := spaceValue.(*Object); ok { switch oImpl := o.self.(type) { case *primitiveValueObject: switch oImpl.pValue.(type) { case valueInt, valueFloat: spaceValue = o.ToNumber() } case *stringObject: spaceValue = o.ToString() } } isNum := false var num int64 if i, ok := spaceValue.(valueInt); ok { num = int64(i) isNum = true } else if f, ok := spaceValue.(valueFloat); ok { num = int64(f) isNum = true } if isNum { if num > 0 { if num > 10 { num = 10 } ctx.gap = strings.Repeat(" ", int(num)) } } else { if s, ok := spaceValue.(String); ok { str := s.String() if len(str) > 10 { ctx.gap = str[:10] } else { ctx.gap = str } } } } if ctx.do(call.Argument(0)) { if ctx.allAscii { return asciiString(ctx.buf.String()) } else { return &importedString{ s: ctx.buf.String(), } } } return _undefined } func (ctx *_builtinJSON_stringifyContext) do(v Value) bool { holder := ctx.r.NewObject() createDataPropertyOrThrow(holder, stringEmpty, v) return ctx.str(stringEmpty, holder) } func (ctx *_builtinJSON_stringifyContext) str(key Value, holder *Object) bool { value := nilSafe(holder.get(key, nil)) switch value.(type) { case *Object, *valueBigInt: if toJSON, ok := ctx.r.getVStr(value, "toJSON").(*Object); ok { if c, ok := toJSON.self.assertCallable(); ok { value = c(FunctionCall{ This: value, Arguments: []Value{key}, }) } } } if ctx.replacerFunction != nil { value = ctx.replacerFunction(FunctionCall{ This: holder, Arguments: []Value{key, value}, }) } if o, ok := value.(*Object); ok { switch o1 := o.self.(type) { case *primitiveValueObject: switch pValue := o1.pValue.(type) { case valueInt, valueFloat: value = o.ToNumber() default: value = pValue } case *stringObject: value = o.toString() case *objectGoReflect: if o1.toJson != nil { value = ctx.r.ToValue(o1.toJson()) } else if v, ok := o1.origValue.Interface().(json.Marshaler); ok { b, err := v.MarshalJSON() if err != nil { panic(ctx.r.NewGoError(err)) } ctx.buf.Write(b) ctx.allAscii = false return true } else { switch o1.className() { case classNumber: value = o1.val.ordinaryToPrimitiveNumber() case classString: value = o1.val.ordinaryToPrimitiveString() case classBoolean: if o.ToInteger() != 0 { value = valueTrue } else { value = valueFalse } } if o1.exportType() == typeBigInt { value = o1.val.ordinaryToPrimitiveNumber() } } } } switch value1 := value.(type) { case valueBool: if value1 { ctx.buf.WriteString("true") } else { ctx.buf.WriteString("false") } case String: ctx.quote(value1) case valueInt: ctx.buf.WriteString(value.String()) case valueFloat: if !math.IsNaN(float64(value1)) && !math.IsInf(float64(value1), 0) { ctx.buf.WriteString(value.String()) } else { ctx.buf.WriteString("null") } case valueNull: ctx.buf.WriteString("null") case *valueBigInt: ctx.r.typeErrorResult(true, "Do not know how to serialize a BigInt") case *Object: for _, object := range ctx.stack { if value1.SameAs(object) { ctx.r.typeErrorResult(true, "Converting circular structure to JSON") } } ctx.stack = append(ctx.stack, value1) defer func() { ctx.stack = ctx.stack[:len(ctx.stack)-1] }() if _, ok := value1.self.assertCallable(); !ok { if isArray(value1) { ctx.ja(value1) } else { ctx.jo(value1) } } else { return false } default: return false } return true } func (ctx *_builtinJSON_stringifyContext) ja(array *Object) { var stepback string if ctx.gap != "" { stepback = ctx.indent ctx.indent += ctx.gap } length := toLength(array.self.getStr("length", nil)) if length == 0 { ctx.buf.WriteString("[]") return } ctx.buf.WriteByte('[') var separator string if ctx.gap != "" { ctx.buf.WriteByte('\n') ctx.buf.WriteString(ctx.indent) separator = ",\n" + ctx.indent } else { separator = "," } for i := int64(0); i < length; i++ { if !ctx.str(asciiString(strconv.FormatInt(i, 10)), array) { ctx.buf.WriteString("null") } if i < length-1 { ctx.buf.WriteString(separator) } } if ctx.gap != "" { ctx.buf.WriteByte('\n') ctx.buf.WriteString(stepback) ctx.indent = stepback } ctx.buf.WriteByte(']') } func (ctx *_builtinJSON_stringifyContext) jo(object *Object) { var stepback string if ctx.gap != "" { stepback = ctx.indent ctx.indent += ctx.gap } ctx.buf.WriteByte('{') mark := ctx.buf.Len() var separator string if ctx.gap != "" { ctx.buf.WriteByte('\n') ctx.buf.WriteString(ctx.indent) separator = ",\n" + ctx.indent } else { separator = "," } var props []Value if ctx.propertyList == nil { props = object.self.stringKeys(false, nil) } else { props = ctx.propertyList } empty := true for _, name := range props { off := ctx.buf.Len() if !empty { ctx.buf.WriteString(separator) } ctx.quote(name.toString()) if ctx.gap != "" { ctx.buf.WriteString(": ") } else { ctx.buf.WriteByte(':') } if ctx.str(name, object) { if empty { empty = false } } else { ctx.buf.Truncate(off) } } if empty { ctx.buf.Truncate(mark) } else { if ctx.gap != "" { ctx.buf.WriteByte('\n') ctx.buf.WriteString(stepback) ctx.indent = stepback } } ctx.buf.WriteByte('}') } func (ctx *_builtinJSON_stringifyContext) quote(str String) { ctx.buf.WriteByte('"') reader := &lenientUtf16Decoder{utf16Reader: str.utf16Reader()} for { r, _, err := reader.ReadRune() if err != nil { break } switch r { case '"', '\\': ctx.buf.WriteByte('\\') ctx.buf.WriteByte(byte(r)) case 0x08: ctx.buf.WriteString(`\b`) case 0x09: ctx.buf.WriteString(`\t`) case 0x0A: ctx.buf.WriteString(`\n`) case 0x0C: ctx.buf.WriteString(`\f`) case 0x0D: ctx.buf.WriteString(`\r`) default: if r < 0x20 { ctx.buf.WriteString(`\u00`) ctx.buf.WriteByte(hex[r>>4]) ctx.buf.WriteByte(hex[r&0xF]) } else { if utf16.IsSurrogate(r) { ctx.buf.WriteString(`\u`) ctx.buf.WriteByte(hex[r>>12]) ctx.buf.WriteByte(hex[(r>>8)&0xF]) ctx.buf.WriteByte(hex[(r>>4)&0xF]) ctx.buf.WriteByte(hex[r&0xF]) } else { ctx.buf.WriteRune(r) if ctx.allAscii && r >= utf8.RuneSelf { ctx.allAscii = false } } } } } ctx.buf.WriteByte('"') } func (r *Runtime) getJSON() *Object { ret := r.global.JSON if ret == nil { JSON := r.newBaseObject(r.global.ObjectPrototype, classObject) ret = JSON.val r.global.JSON = ret JSON._putProp("parse", r.newNativeFunc(r.builtinJSON_parse, "parse", 2), true, false, true) JSON._putProp("stringify", r.newNativeFunc(r.builtinJSON_stringify, "stringify", 3), true, false, true) JSON._putSym(SymToStringTag, valueProp(asciiString(classJSON), false, false, true)) } return ret }