package json import ( "fmt" "io" "reflect" "strconv" "strings" "sync" "unsafe" "golang.org/x/xerrors" ) // An Encoder writes JSON values to an output stream. type Encoder struct { w io.Writer buf []byte pool sync.Pool } type EncodeOp func(*Encoder, uintptr) const ( bufSize = 1024 ) var ( encPool sync.Pool cachedEncodeOp map[string]EncodeOp ) func init() { encPool = sync.Pool{ New: func() interface{} { return &Encoder{ buf: make([]byte, 0, bufSize), pool: encPool, } }, } cachedEncodeOp = map[string]EncodeOp{} } // NewEncoder returns a new encoder that writes to w. func NewEncoder(w io.Writer) *Encoder { enc := encPool.Get().(*Encoder) enc.w = w enc.reset() return enc } // Encode writes the JSON encoding of v to the stream, followed by a newline character. // // See the documentation for Marshal for details about the conversion of Go values to JSON. func (e *Encoder) Encode(v interface{}) error { header := (*interfaceHeader)(unsafe.Pointer(&v)) if err := e.encode(reflect.ValueOf(v), header.ptr); err != nil { return err } if _, err := e.w.Write(e.buf); err != nil { return err } return nil } func (e *Encoder) encodeForMarshal(v interface{}) ([]byte, error) { header := (*interfaceHeader)(unsafe.Pointer(&v)) if err := e.encode(reflect.ValueOf(v), header.ptr); err != nil { return nil, err } copied := make([]byte, len(e.buf)) copy(copied, e.buf) return copied, nil } // SetEscapeHTML specifies whether problematic HTML characters should be escaped inside JSON quoted strings. // The default behavior is to escape &, <, and > to \u0026, \u003c, and \u003e to avoid certain safety problems that can arise when embedding JSON in HTML. // // In non-HTML settings where the escaping interferes with the readability of the output, SetEscapeHTML(false) disables this behavior. func (e *Encoder) SetEscapeHTML(on bool) { } // SetIndent instructs the encoder to format each subsequent encoded value as if indented by the package-level function Indent(dst, src, prefix, indent). // Calling SetIndent("", "") disables indentation. func (e *Encoder) SetIndent(prefix, indent string) { } func (e *Encoder) release() { e.pool.Put(e) e.w = nil } func (e *Encoder) reset() { e.buf = e.buf[:0] } func (e *Encoder) encodeInt(v int) { e.encodeInt64(int64(v)) } func (e *Encoder) encodeInt8(v int8) { e.encodeInt64(int64(v)) } func (e *Encoder) encodeInt16(v int16) { e.encodeInt64(int64(v)) } func (e *Encoder) encodeInt32(v int32) { e.encodeInt64(int64(v)) } func (e *Encoder) encodeInt64(v int64) { e.buf = strconv.AppendInt(e.buf, v, 10) } func (e *Encoder) encodeUint(v uint) { e.encodeUint64(uint64(v)) } func (e *Encoder) encodeUint8(v uint8) { e.encodeUint64(uint64(v)) } func (e *Encoder) encodeUint16(v uint16) { e.encodeUint64(uint64(v)) } func (e *Encoder) encodeUint32(v uint32) { e.encodeUint64(uint64(v)) } func (e *Encoder) encodeUint64(v uint64) { e.buf = strconv.AppendUint(e.buf, v, 10) } func (e *Encoder) encodeFloat32(v float32) { e.buf = strconv.AppendFloat(e.buf, float64(v), 'f', -1, 32) } func (e *Encoder) encodeFloat64(v float64) { e.buf = strconv.AppendFloat(e.buf, v, 'f', -1, 64) } func (e *Encoder) encodeBool(v bool) { e.buf = strconv.AppendBool(e.buf, v) } func (e *Encoder) encodeString(s string) { b := *(*[]byte)(unsafe.Pointer(&s)) e.buf = append(e.buf, b...) } func (e *Encoder) encodeByte(b byte) { e.buf = append(e.buf, b) } type rtype struct{} type interfaceHeader struct { typ *rtype ptr unsafe.Pointer } func (e *Encoder) encode(v reflect.Value, ptr unsafe.Pointer) error { typ := v.Type() name := typ.String() if op, exists := cachedEncodeOp[name]; exists { op(e, uintptr(ptr)) return nil } if typ.Kind() == reflect.Ptr { v = v.Elem() } op, err := e.compile(v) if err != nil { return err } if op == nil { return nil } if name != "" { cachedEncodeOp[name] = op } op(e, uintptr(ptr)) return nil } func (e *Encoder) compile(v reflect.Value) (EncodeOp, error) { switch v.Type().Kind() { case reflect.Ptr: return e.compilePtr(v) case reflect.Slice: return e.compileSlice(v) case reflect.Struct: return e.compileStruct(v) case reflect.Map: return e.compileMap(v) case reflect.Array: return e.compileArray(v) case reflect.Int: return e.compileInt() case reflect.Int8: return e.compileInt8() case reflect.Int16: return e.compileInt16() case reflect.Int32: return e.compileInt32() case reflect.Int64: return e.compileInt64() case reflect.Uint: return e.compileUint() case reflect.Uint8: return e.compileUint8() case reflect.Uint16: return e.compileUint16() case reflect.Uint32: return e.compileUint32() case reflect.Uint64: return e.compileUint64() case reflect.Uintptr: return e.compileUint() case reflect.Float32: return e.compileFloat32() case reflect.Float64: return e.compileFloat64() case reflect.String: return e.compileString() case reflect.Bool: return e.compileBool() case reflect.Interface: return nil, ErrCompileSlowPath } return nil, xerrors.Errorf("failed to encode type %s: %w", v.Type(), ErrUnsupportedType) } func (e *Encoder) compilePtr(v reflect.Value) (EncodeOp, error) { op, err := e.compile(v.Elem()) if err != nil { return nil, err } if op == nil { return nil, nil } return func(enc *Encoder, p uintptr) { op(enc, e.ptrToPtr(p)) }, nil } func (e *Encoder) compileInt() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeInt(e.ptrToInt(p)) }, nil } func (e *Encoder) compileInt8() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeInt8(e.ptrToInt8(p)) }, nil } func (e *Encoder) compileInt16() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeInt16(e.ptrToInt16(p)) }, nil } func (e *Encoder) compileInt32() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeInt32(e.ptrToInt32(p)) }, nil } func (e *Encoder) compileInt64() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeInt64(e.ptrToInt64(p)) }, nil } func (e *Encoder) compileUint() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeUint(e.ptrToUint(p)) }, nil } func (e *Encoder) compileUint8() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeUint8(e.ptrToUint8(p)) }, nil } func (e *Encoder) compileUint16() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeUint16(e.ptrToUint16(p)) }, nil } func (e *Encoder) compileUint32() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeUint32(e.ptrToUint32(p)) }, nil } func (e *Encoder) compileUint64() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeUint64(e.ptrToUint64(p)) }, nil } func (e *Encoder) compileFloat32() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeFloat32(e.ptrToFloat32(p)) }, nil } func (e *Encoder) compileFloat64() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeFloat64(e.ptrToFloat64(p)) }, nil } func (e *Encoder) compileString() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeEscapedString(e.ptrToString(p)) }, nil } func (e *Encoder) compileBool() (EncodeOp, error) { return func(enc *Encoder, p uintptr) { enc.encodeBool(e.ptrToBool(p)) }, nil } func (e *Encoder) compileSlice(v reflect.Value) (EncodeOp, error) { typ := v.Type() size := typ.Elem().Size() op, err := e.compile(reflect.Zero(typ.Elem())) if err != nil { return nil, err } if op == nil { return nil, nil } return func(enc *Encoder, base uintptr) { if base == 0 { enc.encodeString("null") return } enc.encodeByte('[') slice := (*reflect.SliceHeader)(unsafe.Pointer(base)) num := slice.Len for i := 0; i < num; i++ { op(enc, slice.Data+uintptr(i)*size) if i != num-1 { enc.encodeByte(',') } } enc.encodeByte(']') }, nil } func (e *Encoder) compileArray(v reflect.Value) (EncodeOp, error) { typ := v.Type() alen := typ.Len() size := typ.Elem().Size() op, err := e.compile(reflect.Zero(typ.Elem())) if err != nil { return nil, err } if op == nil { return nil, nil } return func(enc *Encoder, base uintptr) { if base == 0 { enc.encodeString("null") return } enc.encodeByte('[') for i := 0; i < alen; i++ { if i != 0 { enc.encodeByte(',') } op(enc, base+uintptr(i)*size) } enc.encodeByte(']') }, nil } func (e *Encoder) getTag(field reflect.StructField) string { return field.Tag.Get("json") } func (e *Encoder) isIgnoredStructField(field reflect.StructField) bool { if field.PkgPath != "" && !field.Anonymous { // private field return true } tag := e.getTag(field) if tag == "-" { return true } return false } func (e *Encoder) compileStruct(v reflect.Value) (EncodeOp, error) { typ := v.Type() fieldNum := typ.NumField() opQueue := make([]EncodeOp, 0, fieldNum) for i := 0; i < fieldNum; i++ { field := typ.Field(i) if e.isIgnoredStructField(field) { continue } keyName := field.Name tag := e.getTag(field) opts := strings.Split(tag, ",") if len(opts) > 0 { if opts[0] != "" { keyName = opts[0] } } op, err := e.compile(v.Field(i)) if err != nil { return nil, err } if op == nil { continue } key := fmt.Sprintf(`"%s":`, keyName) opQueue = append(opQueue, func(enc *Encoder, base uintptr) { enc.encodeString(key) op(enc, base+field.Offset) }) } queueNum := len(opQueue) return func(enc *Encoder, base uintptr) { if base == 0 { enc.encodeString("null") return } enc.encodeByte('{') for i := 0; i < queueNum; i++ { opQueue[i](enc, base) if i != queueNum-1 { enc.encodeByte(',') } } enc.encodeByte('}') }, nil } //go:linkname mapiterinit reflect.mapiterinit func mapiterinit(mapType unsafe.Pointer, m unsafe.Pointer) unsafe.Pointer //go:linkname mapiterkey reflect.mapiterkey func mapiterkey(it unsafe.Pointer) unsafe.Pointer //go:linkname mapitervalue reflect.mapitervalue func mapitervalue(it unsafe.Pointer) unsafe.Pointer //go:linkname mapiternext reflect.mapiternext func mapiternext(it unsafe.Pointer) //go:linkname maplen reflect.maplen func maplen(m unsafe.Pointer) int type valueType struct { typ unsafe.Pointer ptr unsafe.Pointer } func (e *Encoder) compileMap(v reflect.Value) (EncodeOp, error) { mapType := (*valueType)(unsafe.Pointer(&v)).typ keyOp, err := e.compile(reflect.Zero(v.Type().Key())) if err != nil { return nil, err } if keyOp == nil { return nil, nil } valueOp, err := e.compile(reflect.Zero(v.Type().Elem())) if err != nil { return nil, err } if valueOp == nil { return nil, nil } return func(enc *Encoder, base uintptr) { if base == 0 { enc.encodeString("null") return } enc.encodeByte('{') mlen := maplen(unsafe.Pointer(base)) iter := mapiterinit(mapType, unsafe.Pointer(base)) for i := 0; i < mlen; i++ { key := mapiterkey(iter) if i != 0 { enc.encodeByte(',') } value := mapitervalue(iter) keyOp(enc, uintptr(key)) enc.encodeByte(':') valueOp(enc, uintptr(value)) mapiternext(iter) } enc.encodeByte('}') }, nil } func (e *Encoder) ptrToPtr(p uintptr) uintptr { return *(*uintptr)(unsafe.Pointer(p)) } func (e *Encoder) ptrToInt(p uintptr) int { return *(*int)(unsafe.Pointer(p)) } func (e *Encoder) ptrToInt8(p uintptr) int8 { return *(*int8)(unsafe.Pointer(p)) } func (e *Encoder) ptrToInt16(p uintptr) int16 { return *(*int16)(unsafe.Pointer(p)) } func (e *Encoder) ptrToInt32(p uintptr) int32 { return *(*int32)(unsafe.Pointer(p)) } func (e *Encoder) ptrToInt64(p uintptr) int64 { return *(*int64)(unsafe.Pointer(p)) } func (e *Encoder) ptrToUint(p uintptr) uint { return *(*uint)(unsafe.Pointer(p)) } func (e *Encoder) ptrToUint8(p uintptr) uint8 { return *(*uint8)(unsafe.Pointer(p)) } func (e *Encoder) ptrToUint16(p uintptr) uint16 { return *(*uint16)(unsafe.Pointer(p)) } func (e *Encoder) ptrToUint32(p uintptr) uint32 { return *(*uint32)(unsafe.Pointer(p)) } func (e *Encoder) ptrToUint64(p uintptr) uint64 { return *(*uint64)(unsafe.Pointer(p)) } func (e *Encoder) ptrToFloat32(p uintptr) float32 { return *(*float32)(unsafe.Pointer(p)) } func (e *Encoder) ptrToFloat64(p uintptr) float64 { return *(*float64)(unsafe.Pointer(p)) } func (e *Encoder) ptrToBool(p uintptr) bool { return *(*bool)(unsafe.Pointer(p)) } func (e *Encoder) ptrToByte(p uintptr) byte { return *(*byte)(unsafe.Pointer(p)) } func (e *Encoder) ptrToBytes(p uintptr) []byte { return *(*[]byte)(unsafe.Pointer(p)) } func (e *Encoder) ptrToString(p uintptr) string { return *(*string)(unsafe.Pointer(p)) }