package json import ( "bytes" "encoding" "encoding/base64" "fmt" "math" "reflect" "sort" "strconv" "unsafe" ) const startDetectingCyclesAfter = 1000 func load(base uintptr, idx uintptr) uintptr { addr := base + idx return **(**uintptr)(unsafe.Pointer(&addr)) } func store(base uintptr, idx uintptr, p uintptr) { addr := base + idx **(**uintptr)(unsafe.Pointer(&addr)) = p } func errUnsupportedValue(code *opcode, ptr uintptr) *UnsupportedValueError { v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: fmt.Sprintf("encountered a cycle via %s", code.typ), } } func errUnsupportedFloat(v float64) *UnsupportedValueError { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } func (e *Encoder) run(ctx *encodeRuntimeContext, code *opcode) error { recursiveLevel := 0 seenPtr := map[uintptr]struct{}{} ptrOffset := uintptr(0) ctxptr := ctx.ptr() for { switch code.op { default: return fmt.Errorf("failed to handle opcode. doesn't implement %s", code.op) case opPtr, opPtrIndent: ptr := load(ctxptr, code.idx) code = code.next store(ctxptr, code.idx, e.ptrToPtr(ptr)) case opInt: e.encodeInt(e.ptrToInt(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opIntIndent: e.encodeInt(e.ptrToInt(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opInt8: e.encodeInt8(e.ptrToInt8(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opInt8Indent: e.encodeInt8(e.ptrToInt8(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opInt16: e.encodeInt16(e.ptrToInt16(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opInt16Indent: e.encodeInt16(e.ptrToInt16(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opInt32: e.encodeInt32(e.ptrToInt32(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opInt32Indent: e.encodeInt32(e.ptrToInt32(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opInt64: e.encodeInt64(e.ptrToInt64(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opInt64Indent: e.encodeInt64(e.ptrToInt64(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opUint: e.encodeUint(e.ptrToUint(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opUintIndent: e.encodeUint(e.ptrToUint(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opUint8: e.encodeUint8(e.ptrToUint8(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opUint8Indent: e.encodeUint8(e.ptrToUint8(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opUint16: e.encodeUint16(e.ptrToUint16(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opUint16Indent: e.encodeUint16(e.ptrToUint16(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opUint32: e.encodeUint32(e.ptrToUint32(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opUint32Indent: e.encodeUint32(e.ptrToUint32(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opUint64: e.encodeUint64(e.ptrToUint64(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opUint64Indent: e.encodeUint64(e.ptrToUint64(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opFloat32: e.encodeFloat32(e.ptrToFloat32(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opFloat32Indent: e.encodeFloat32(e.ptrToFloat32(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opFloat64: v := e.ptrToFloat64(load(ctxptr, code.idx)) if math.IsInf(v, 0) || math.IsNaN(v) { return errUnsupportedFloat(v) } e.encodeFloat64(v) e.encodeByte(',') code = code.next case opFloat64Indent: v := e.ptrToFloat64(load(ctxptr, code.idx)) if math.IsInf(v, 0) || math.IsNaN(v) { return errUnsupportedFloat(v) } e.encodeFloat64(v) e.encodeBytes([]byte{',', '\n'}) code = code.next case opString: e.encodeString(e.ptrToString(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opStringIndent: e.encodeString(e.ptrToString(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opBool: e.encodeBool(e.ptrToBool(load(ctxptr, code.idx))) e.encodeByte(',') code = code.next case opBoolIndent: e.encodeBool(e.ptrToBool(load(ctxptr, code.idx))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opBytes: ptr := load(ctxptr, code.idx) header := *(**sliceHeader)(unsafe.Pointer(&ptr)) if ptr == 0 || uintptr(header.data) == 0 { e.encodeNull() } else { e.encodeByteSlice(e.ptrToBytes(ptr)) } e.encodeByte(',') code = code.next case opBytesIndent: ptr := load(ctxptr, code.idx) header := (*sliceHeader)(unsafe.Pointer(&ptr)) if ptr == 0 || uintptr(header.data) == 0 { e.encodeNull() } else { e.encodeByteSlice(e.ptrToBytes(ptr)) } e.encodeBytes([]byte{',', '\n'}) code = code.next case opInterface: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.next break } v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) if _, exists := seenPtr[ptr]; exists { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: fmt.Sprintf("encountered a cycle via %s", code.typ), } } seenPtr[ptr] = struct{}{} rv := reflect.ValueOf(v) if rv.IsNil() { e.encodeNull() e.encodeByte(',') code = code.next break } vv := rv.Interface() header := (*interfaceHeader)(unsafe.Pointer(&vv)) typ := header.typ if typ.Kind() == reflect.Ptr { typ = typ.Elem() } var c *opcode if typ.Kind() == reflect.Map { code, err := e.compileMap(&encodeCompileContext{ typ: typ, root: code.root, withIndent: e.enabledIndent, indent: code.indent, }, false) if err != nil { return err } c = code } else { code, err := e.compile(&encodeCompileContext{ typ: typ, root: code.root, withIndent: e.enabledIndent, indent: code.indent, }) if err != nil { return err } c = code } beforeLastCode := c.beforeLastCode() lastCode := beforeLastCode.next lastCode.idx = beforeLastCode.idx + uintptrSize totalLength := uintptr(code.totalLength()) nextTotalLength := uintptr(c.totalLength()) curlen := uintptr(len(ctx.ptrs)) offsetNum := ptrOffset / uintptrSize oldOffset := ptrOffset ptrOffset += totalLength * uintptrSize newLen := offsetNum + totalLength + nextTotalLength if curlen < newLen { ctx.ptrs = append(ctx.ptrs, make([]uintptr, newLen-curlen)...) } ctxptr = ctx.ptr() + ptrOffset // assign new ctxptr store(ctxptr, 0, uintptr(header.ptr)) store(ctxptr, lastCode.idx, oldOffset) // link lastCode ( opInterfaceEnd ) => code.next lastCode.op = opInterfaceEnd lastCode.next = code.next code = c recursiveLevel++ case opInterfaceIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.next break } v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) if _, exists := seenPtr[ptr]; exists { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: fmt.Sprintf("encountered a cycle via %s", code.typ), } } seenPtr[ptr] = struct{}{} rv := reflect.ValueOf(v) if rv.IsNil() { e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.next break } vv := rv.Interface() header := (*interfaceHeader)(unsafe.Pointer(&vv)) typ := header.typ if typ.Kind() == reflect.Ptr { typ = typ.Elem() } var c *opcode if typ.Kind() == reflect.Map { code, err := e.compileMap(&encodeCompileContext{ typ: typ, root: code.root, withIndent: e.enabledIndent, indent: code.indent, }, false) if err != nil { return err } c = code } else { code, err := e.compile(&encodeCompileContext{ typ: typ, root: code.root, withIndent: e.enabledIndent, indent: code.indent, }) if err != nil { return err } c = code } beforeLastCode := c.beforeLastCode() lastCode := beforeLastCode.next lastCode.idx = beforeLastCode.idx + uintptrSize totalLength := uintptr(code.totalLength()) nextTotalLength := uintptr(c.totalLength()) curlen := uintptr(len(ctx.ptrs)) offsetNum := ptrOffset / uintptrSize oldOffset := ptrOffset ptrOffset += totalLength * uintptrSize newLen := offsetNum + totalLength + nextTotalLength if curlen < newLen { ctx.ptrs = append(ctx.ptrs, make([]uintptr, newLen-curlen)...) } ctxptr = ctx.ptr() + ptrOffset // assign new ctxptr store(ctxptr, 0, uintptr(header.ptr)) store(ctxptr, lastCode.idx, oldOffset) // link lastCode ( opInterfaceEnd ) => code.next lastCode.op = opInterfaceEnd lastCode.next = code.next code = c recursiveLevel++ case opInterfaceEnd, opInterfaceEndIndent: recursiveLevel-- // restore ctxptr offset := load(ctxptr, code.idx) ctxptr = ctx.ptr() + offset ptrOffset = offset code = code.next case opMarshalJSON: ptr := load(ctxptr, code.idx) v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } var buf bytes.Buffer if e.enabledIndent { if err := encodeWithIndent( &buf, b, string(e.prefix)+string(bytes.Repeat(e.indentStr, code.indent)), string(e.indentStr), ); err != nil { return err } } else { if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } } e.encodeBytes(buf.Bytes()) e.encodeByte(',') code = code.next case opMarshalJSONIndent: ptr := load(ctxptr, code.idx) v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } var buf bytes.Buffer if e.enabledIndent { if err := encodeWithIndent( &buf, b, string(e.prefix)+string(bytes.Repeat(e.indentStr, code.indent)), string(e.indentStr), ); err != nil { return err } } else { if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } } e.encodeBytes(buf.Bytes()) e.encodeBytes([]byte{',', '\n'}) code = code.next case opMarshalText: ptr := load(ctxptr, code.idx) isPtr := code.typ.Kind() == reflect.Ptr p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) if p == nil { e.encodeNull() e.encodeByte(',') } else if isPtr && *(*unsafe.Pointer)(p) == nil { e.encodeBytes([]byte{'"', '"'}) e.encodeByte(',') } else { if isPtr && code.typ.Elem().Implements(marshalTextType) { p = *(*unsafe.Pointer)(p) } v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: p, })) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') } code = code.next case opMarshalTextIndent: ptr := load(ctxptr, code.idx) isPtr := code.typ.Kind() == reflect.Ptr p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) if p == nil { e.encodeNull() e.encodeBytes([]byte{',', '\n'}) } else if isPtr && *(*unsafe.Pointer)(p) == nil { e.encodeBytes([]byte{'"', '"'}) e.encodeBytes([]byte{',', '\n'}) } else { if isPtr && code.typ.Elem().Implements(marshalTextType) { p = *(*unsafe.Pointer)(p) } v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: p, })) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opSliceHead: p := load(ctxptr, code.idx) header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(header.len)) store(ctxptr, code.idx, uintptr(header.data)) if header.len > 0 { e.encodeByte('[') code = code.next store(ctxptr, code.idx, uintptr(header.data)) } else { e.encodeBytes([]byte{'[', ']', ','}) code = code.end.next } } case opSliceElem: idx := load(ctxptr, code.elemIdx) length := load(ctxptr, code.length) idx++ if idx < length { store(ctxptr, code.elemIdx, idx) data := load(ctxptr, code.headIdx) size := code.size code = code.next store(ctxptr, code.idx, data+idx*size) } else { last := len(e.buf) - 1 e.buf[last] = ']' e.encodeByte(',') code = code.end.next } case opSliceHeadIndent: p := load(ctxptr, code.idx) if p == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { header := *(**sliceHeader)(unsafe.Pointer(&p)) store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(header.len)) store(ctxptr, code.idx, uintptr(header.data)) if header.len > 0 { e.encodeBytes([]byte{'[', '\n'}) e.encodeIndent(code.indent + 1) code = code.next store(ctxptr, code.idx, uintptr(header.data)) } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'[', ']', '\n'}) code = code.end.next } } case opRootSliceHeadIndent: p := load(ctxptr, code.idx) if p == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { header := *(**sliceHeader)(unsafe.Pointer(&p)) store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(header.len)) store(ctxptr, code.idx, uintptr(header.data)) if header.len > 0 { e.encodeBytes([]byte{'[', '\n'}) e.encodeIndent(code.indent + 1) code = code.next store(ctxptr, code.idx, uintptr(header.data)) } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'[', ']', ',', '\n'}) code = code.end.next } } case opSliceElemIndent: idx := load(ctxptr, code.elemIdx) length := load(ctxptr, code.length) idx++ if idx < length { e.encodeIndent(code.indent + 1) store(ctxptr, code.elemIdx, idx) data := load(ctxptr, code.headIdx) size := code.size code = code.next store(ctxptr, code.idx, data+idx*size) } else { e.buf = e.buf[:len(e.buf)-2] e.encodeByte('\n') e.encodeIndent(code.indent) e.encodeBytes([]byte{']', ',', '\n'}) code = code.end.next } case opRootSliceElemIndent: idx := load(ctxptr, code.elemIdx) length := load(ctxptr, code.length) idx++ if idx < length { e.encodeIndent(code.indent + 1) store(ctxptr, code.elemIdx, idx) code = code.next data := load(ctxptr, code.headIdx) store(ctxptr, code.idx, data+idx*code.size) } else { e.encodeByte('\n') e.encodeIndent(code.indent) e.encodeByte(']') code = code.end.next } case opArrayHead: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { if code.length > 0 { e.encodeByte('[') store(ctxptr, code.elemIdx, 0) code = code.next store(ctxptr, code.idx, p) } else { e.encodeBytes([]byte{'[', ']', ','}) code = code.end.next } } case opArrayElem: idx := load(ctxptr, code.elemIdx) idx++ if idx < code.length { store(ctxptr, code.elemIdx, idx) p := load(ctxptr, code.headIdx) size := code.size code = code.next store(ctxptr, code.idx, p+idx*size) } else { last := len(e.buf) - 1 e.buf[last] = ']' e.encodeByte(',') code = code.end.next } case opArrayHeadIndent: p := load(ctxptr, code.idx) if p == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { if code.length > 0 { e.encodeBytes([]byte{'[', '\n'}) e.encodeIndent(code.indent + 1) store(ctxptr, code.elemIdx, 0) code = code.next store(ctxptr, code.idx, p) } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'[', ']', ',', '\n'}) code = code.end.next } } case opArrayElemIndent: idx := load(ctxptr, code.elemIdx) idx++ if idx < code.length { e.encodeIndent(code.indent + 1) store(ctxptr, code.elemIdx, idx) p := load(ctxptr, code.headIdx) size := code.size code = code.next store(ctxptr, code.idx, p+idx*size) } else { e.buf = e.buf[:len(e.buf)-2] e.encodeByte('\n') e.encodeIndent(code.indent) e.encodeBytes([]byte{']', ',', '\n'}) code = code.end.next } case opMapHead: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { uptr := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) mlen := maplen(uptr) if mlen > 0 { e.encodeByte('{') iter := mapiterinit(code.typ, uptr) ctx.keepRefs = append(ctx.keepRefs, iter) store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(mlen)) store(ctxptr, code.mapIter, uintptr(iter)) if !e.unorderedMap { pos := make([]int, 0, mlen) pos = append(pos, len(e.buf)) posPtr := unsafe.Pointer(&pos) ctx.keepRefs = append(ctx.keepRefs, posPtr) store(ctxptr, code.end.mapPos, uintptr(posPtr)) } key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) code = code.next } else { e.encodeBytes([]byte{'{', '}', ','}) code = code.end.next } } case opMapHeadLoad: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { // load pointer ptr = uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&ptr))) uptr := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } mlen := maplen(uptr) if mlen > 0 { e.encodeByte('{') iter := mapiterinit(code.typ, uptr) ctx.keepRefs = append(ctx.keepRefs, iter) store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(mlen)) store(ctxptr, code.mapIter, uintptr(iter)) key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) if !e.unorderedMap { pos := make([]int, 0, mlen) pos = append(pos, len(e.buf)) posPtr := unsafe.Pointer(&pos) ctx.keepRefs = append(ctx.keepRefs, posPtr) store(ctxptr, code.end.mapPos, uintptr(posPtr)) } code = code.next } else { e.encodeBytes([]byte{'{', '}', ','}) code = code.end.next } } case opMapKey: idx := load(ctxptr, code.elemIdx) length := load(ctxptr, code.length) idx++ if e.unorderedMap { if idx < length { ptr := load(ctxptr, code.mapIter) iter := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) store(ctxptr, code.elemIdx, idx) key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) code = code.next } else { last := len(e.buf) - 1 e.buf[last] = '}' e.encodeByte(',') code = code.end.next } } else { ptr := load(ctxptr, code.end.mapPos) posPtr := (*[]int)(*(*unsafe.Pointer)(unsafe.Pointer(&ptr))) *posPtr = append(*posPtr, len(e.buf)) if idx < length { ptr := load(ctxptr, code.mapIter) iter := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) store(ctxptr, code.elemIdx, idx) key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) code = code.next } else { code = code.end } } case opMapValue: if e.unorderedMap { last := len(e.buf) - 1 e.buf[last] = ':' } else { ptr := load(ctxptr, code.end.mapPos) posPtr := (*[]int)(*(*unsafe.Pointer)(unsafe.Pointer(&ptr))) *posPtr = append(*posPtr, len(e.buf)) } ptr := load(ctxptr, code.mapIter) iter := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) value := mapitervalue(iter) store(ctxptr, code.next.idx, uintptr(value)) mapiternext(iter) code = code.next case opMapEnd: // this operation only used by sorted map. length := int(load(ctxptr, code.length)) type mapKV struct { key string value string } kvs := make([]mapKV, 0, length) ptr := load(ctxptr, code.mapPos) posPtr := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) pos := *(*[]int)(posPtr) for i := 0; i < length; i++ { startKey := pos[i*2] startValue := pos[i*2+1] var endValue int if i+1 < length { endValue = pos[i*2+2] } else { endValue = len(e.buf) } kvs = append(kvs, mapKV{ key: string(e.buf[startKey:startValue]), value: string(e.buf[startValue:endValue]), }) } sort.Slice(kvs, func(i, j int) bool { return kvs[i].key < kvs[j].key }) buf := e.buf[pos[0]:] buf = buf[:0] for _, kv := range kvs { buf = append(buf, []byte(kv.key)...) buf[len(buf)-1] = ':' buf = append(buf, []byte(kv.value)...) } buf[len(buf)-1] = '}' buf = append(buf, ',') e.buf = e.buf[:pos[0]] e.buf = append(e.buf, buf...) code = code.next case opMapHeadIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { uptr := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) mlen := maplen(uptr) if mlen > 0 { e.encodeBytes([]byte{'{', '\n'}) iter := mapiterinit(code.typ, uptr) ctx.keepRefs = append(ctx.keepRefs, iter) store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(mlen)) store(ctxptr, code.mapIter, uintptr(iter)) if !e.unorderedMap { pos := make([]int, 0, mlen) pos = append(pos, len(e.buf)) posPtr := unsafe.Pointer(&pos) ctx.keepRefs = append(ctx.keepRefs, posPtr) store(ctxptr, code.end.mapPos, uintptr(posPtr)) } else { e.encodeIndent(code.next.indent) } key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) code = code.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.end.next } } case opMapHeadLoadIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() code = code.end.next } else { // load pointer ptr = uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&ptr))) uptr := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) if uintptr(uptr) == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next break } mlen := maplen(uptr) if mlen > 0 { e.encodeBytes([]byte{'{', '\n'}) iter := mapiterinit(code.typ, uptr) ctx.keepRefs = append(ctx.keepRefs, iter) store(ctxptr, code.elemIdx, 0) store(ctxptr, code.length, uintptr(mlen)) store(ctxptr, code.mapIter, uintptr(iter)) key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) if !e.unorderedMap { pos := make([]int, 0, mlen) pos = append(pos, len(e.buf)) posPtr := unsafe.Pointer(&pos) ctx.keepRefs = append(ctx.keepRefs, posPtr) store(ctxptr, code.end.mapPos, uintptr(posPtr)) } else { e.encodeIndent(code.next.indent) } code = code.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.end.next } } case opMapKeyIndent: idx := load(ctxptr, code.elemIdx) length := load(ctxptr, code.length) idx++ if e.unorderedMap { if idx < length { e.encodeIndent(code.indent) store(ctxptr, code.elemIdx, idx) ptr := load(ctxptr, code.mapIter) iter := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) code = code.next } else { last := len(e.buf) - 1 e.buf[last] = '\n' e.encodeIndent(code.indent - 1) e.encodeBytes([]byte{'}', ',', '\n'}) code = code.end.next } } else { ptr := load(ctxptr, code.end.mapPos) posPtr := (*[]int)(*(*unsafe.Pointer)(unsafe.Pointer(&ptr))) *posPtr = append(*posPtr, len(e.buf)) if idx < length { ptr := load(ctxptr, code.mapIter) iter := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) store(ctxptr, code.elemIdx, idx) key := mapiterkey(iter) store(ctxptr, code.next.idx, uintptr(key)) code = code.next } else { code = code.end } } case opMapValueIndent: if e.unorderedMap { e.encodeBytes([]byte{':', ' '}) } else { ptr := load(ctxptr, code.end.mapPos) posPtr := (*[]int)(*(*unsafe.Pointer)(unsafe.Pointer(&ptr))) *posPtr = append(*posPtr, len(e.buf)) } ptr := load(ctxptr, code.mapIter) iter := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) value := mapitervalue(iter) store(ctxptr, code.next.idx, uintptr(value)) mapiternext(iter) code = code.next case opMapEndIndent: // this operation only used by sorted map length := int(load(ctxptr, code.length)) type mapKV struct { key string value string } kvs := make([]mapKV, 0, length) ptr := load(ctxptr, code.mapPos) pos := *(*[]int)(*(*unsafe.Pointer)(unsafe.Pointer(&ptr))) for i := 0; i < length; i++ { startKey := pos[i*2] startValue := pos[i*2+1] var endValue int if i+1 < length { endValue = pos[i*2+2] } else { endValue = len(e.buf) } kvs = append(kvs, mapKV{ key: string(e.buf[startKey:startValue]), value: string(e.buf[startValue:endValue]), }) } sort.Slice(kvs, func(i, j int) bool { return kvs[i].key < kvs[j].key }) buf := e.buf[pos[0]:] buf = buf[:0] for _, kv := range kvs { buf = append(buf, e.prefix...) buf = append(buf, bytes.Repeat(e.indentStr, code.indent+1)...) buf = append(buf, []byte(kv.key)...) buf[len(buf)-2] = ':' buf[len(buf)-1] = ' ' buf = append(buf, []byte(kv.value)...) } buf = buf[:len(buf)-2] buf = append(buf, '\n') buf = append(buf, e.prefix...) buf = append(buf, bytes.Repeat(e.indentStr, code.indent)...) buf = append(buf, '}', ',', '\n') e.buf = e.buf[:pos[0]] e.buf = append(e.buf, buf...) code = code.next case opStructFieldPtrAnonymousHeadRecursive: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadRecursive: fallthrough case opStructFieldRecursive: ptr := load(ctxptr, code.idx) if ptr != 0 { if recursiveLevel > startDetectingCyclesAfter { if _, exists := seenPtr[ptr]; exists { return errUnsupportedValue(code, ptr) } } } seenPtr[ptr] = struct{}{} c := code.jmp.code c.end.next = newEndOp(&encodeCompileContext{}) c.op = c.op.ptrHeadToHead() beforeLastCode := c.end lastCode := beforeLastCode.next lastCode.idx = beforeLastCode.idx + uintptrSize lastCode.elemIdx = lastCode.idx + uintptrSize // extend length to alloc slot for elemIdx totalLength := uintptr(code.totalLength() + 1) nextTotalLength := uintptr(c.totalLength() + 1) curlen := uintptr(len(ctx.ptrs)) offsetNum := ptrOffset / uintptrSize oldOffset := ptrOffset ptrOffset += totalLength * uintptrSize newLen := offsetNum + totalLength + nextTotalLength if curlen < newLen { ctx.ptrs = append(ctx.ptrs, make([]uintptr, newLen-curlen)...) } ctxptr = ctx.ptr() + ptrOffset // assign new ctxptr store(ctxptr, c.idx, ptr) store(ctxptr, lastCode.idx, oldOffset) store(ctxptr, lastCode.elemIdx, uintptr(unsafe.Pointer(code.next))) // link lastCode ( opStructFieldRecursiveEnd ) => code.next lastCode.op = opStructFieldRecursiveEnd code = c recursiveLevel++ case opStructFieldRecursiveEnd: recursiveLevel-- // restore ctxptr offset := load(ctxptr, code.idx) ptr := load(ctxptr, code.elemIdx) code = (*opcode)(*(*unsafe.Pointer)(unsafe.Pointer(&ptr))) ctxptr = ctx.ptr() + offset ptrOffset = offset case opStructFieldPtrHead: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHead: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHead { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') if !code.anonymousKey { e.encodeKey(code) } p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) } case opStructFieldAnonymousHead: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { code = code.next store(ctxptr, code.idx, ptr) } case opStructFieldPtrHeadInt: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadInt: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadInt { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeInt(e.ptrToInt(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadInt: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadInt: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeInt(e.ptrToInt(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadInt8: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadInt8: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadInt8 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeInt8(e.ptrToInt8(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadInt8: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadInt8: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeInt8(e.ptrToInt8(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadInt16: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadInt16: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadInt16 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeInt16(e.ptrToInt16(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadInt16: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadInt16: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeInt16(e.ptrToInt16(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadInt32: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadInt32: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadInt32 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeInt32(e.ptrToInt32(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadInt32: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadInt32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeInt32(e.ptrToInt32(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadInt64: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadInt64: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadInt64 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeInt64(e.ptrToInt64(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadInt64: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadInt64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeInt64(e.ptrToInt64(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadUint: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadUint: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadUint { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeUint(e.ptrToUint(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadUint: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadUint: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeUint(e.ptrToUint(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadUint8: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadUint8: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadUint8 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeUint8(e.ptrToUint8(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadUint8: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadUint8: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeUint8(e.ptrToUint8(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadUint16: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadUint16: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadUint16 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeUint16(e.ptrToUint16(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadUint16: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadUint16: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeUint16(e.ptrToUint16(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadUint32: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadUint32: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadUint32 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeUint32(e.ptrToUint32(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadUint32: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadUint32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeUint32(e.ptrToUint32(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadUint64: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadUint64: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadUint64 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeUint64(e.ptrToUint64(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadUint64: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadUint64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeUint64(e.ptrToUint64(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadFloat32: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadFloat32: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadFloat32 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeFloat32(e.ptrToFloat32(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadFloat32: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadFloat32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeFloat32(e.ptrToFloat32(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadFloat64: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadFloat64: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadFloat64 { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeByte('{') e.encodeKey(code) e.encodeFloat64(v) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadFloat64: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadFloat64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeFloat64(v) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadString: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadString: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadString { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(e.ptrToString(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadString: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadString: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(e.ptrToString(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadBool: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadBool: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadBool { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeBool(e.ptrToBool(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadBool: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadBool: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeBool(e.ptrToBool(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadBytes: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadBytes: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadBytes { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'{', '}', ','}) } code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeByteSlice(e.ptrToBytes(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadBytes: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadBytes: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeByteSlice(e.ptrToBytes(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadArray: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadArray: ptr := load(ctxptr, code.idx) + code.offset if ptr == 0 { if code.op == opStructFieldPtrHeadArray { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'[', ']', ','}) } code = code.end.next } else { e.encodeByte('{') if !code.anonymousKey { e.encodeKey(code) } code = code.next store(ctxptr, code.idx, ptr) } case opStructFieldPtrAnonymousHeadArray: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadArray: ptr := load(ctxptr, code.idx) + code.offset if ptr == 0 { code = code.end.next } else { e.encodeKey(code) store(ctxptr, code.idx, ptr) code = code.next } case opStructFieldPtrHeadSlice: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadSlice: ptr := load(ctxptr, code.idx) p := ptr + code.offset if p == 0 { if code.op == opStructFieldPtrHeadSlice { e.encodeNull() e.encodeByte(',') } else { e.encodeBytes([]byte{'[', ']', ','}) } code = code.end.next } else { e.encodeByte('{') if !code.anonymousKey { e.encodeKey(code) } code = code.next store(ctxptr, code.idx, p) } case opStructFieldPtrAnonymousHeadSlice: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadSlice: ptr := load(ctxptr, code.idx) p := ptr + code.offset if p == 0 { code = code.end.next } else { e.encodeKey(code) store(ctxptr, code.idx, p) code = code.next } case opStructFieldPtrHeadMarshalJSON: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadMarshalJSON: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) ptr += code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) rv := reflect.ValueOf(v) if rv.Type().Kind() == reflect.Interface && rv.IsNil() { e.encodeNull() code = code.end break } b, err := rv.Interface().(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeBytes(buf.Bytes()) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadMarshalJSON: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadMarshalJSON: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) ptr += code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) rv := reflect.ValueOf(v) if rv.Type().Kind() == reflect.Interface && rv.IsNil() { e.encodeNull() code = code.end.next break } b, err := rv.Interface().(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeBytes(buf.Bytes()) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadMarshalText: p := load(ctxptr, code.idx) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next break } store(ctxptr, code.idx, e.ptrToPtr(p)) fallthrough case opStructFieldHeadMarshalText: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) ptr += code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) rv := reflect.ValueOf(v) if rv.Type().Kind() == reflect.Interface && rv.IsNil() { e.encodeNull() e.encodeByte(',') code = code.end break } bytes, err := rv.Interface().(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadMarshalText: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldAnonymousHeadMarshalText: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) ptr += code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&ptr)), })) rv := reflect.ValueOf(v) if rv.Type().Kind() == reflect.Interface && rv.IsNil() { e.encodeNull() e.encodeByte(',') code = code.end.next break } bytes, err := rv.Interface().(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else if code.next == code.end { // not exists fields e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.end.next store(ctxptr, code.idx, ptr) } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') code = code.next store(ctxptr, code.idx, ptr) } case opStructFieldPtrHeadIntIndent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadIntIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { if code.op == opStructFieldPtrHeadIntIndent { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) } else { e.encodeBytes([]byte{'{', '}', ',', '\n'}) } code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt(e.ptrToInt(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadInt8Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadInt8Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt8(e.ptrToInt8(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadInt16Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadInt16Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt16(e.ptrToInt16(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadInt32Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadInt32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt32(e.ptrToInt32(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadInt64Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadInt64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt64(e.ptrToInt64(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadUintIndent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadUintIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint(e.ptrToUint(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadUint8Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadUint8Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint8(e.ptrToUint8(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadUint16Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadUint16Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint16(e.ptrToUint16(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadUint32Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadUint32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint32(e.ptrToUint32(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadUint64Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadUint64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint64(e.ptrToUint64(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadFloat32Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadFloat32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeFloat32(e.ptrToFloat32(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadFloat64Indent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadFloat64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { v := e.ptrToFloat64(ptr) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeFloat64(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringIndent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadStringIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(e.ptrToString(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadBoolIndent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadBoolIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeBool(e.ptrToBool(ptr)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadBytesIndent: store(ctxptr, code.idx, e.ptrToPtr(load(ctxptr, code.idx))) fallthrough case opStructFieldHeadBytesIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') s := base64.StdEncoding.EncodeToString(e.ptrToBytes(ptr)) e.encodeByte('"') e.encodeBytes(*(*[]byte)(unsafe.Pointer(&s))) e.encodeByte('"') e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadOmitEmpty: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmpty: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') p := ptr + code.offset if p == 0 || *(*uintptr)(*(*unsafe.Pointer)(unsafe.Pointer(&p))) == 0 { code = code.nextField } else { e.encodeKey(code) code = code.next store(ctxptr, code.idx, p) } } case opStructFieldPtrAnonymousHeadOmitEmpty: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmpty: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { p := ptr + code.offset if p == 0 || *(*uintptr)(*(*unsafe.Pointer)(unsafe.Pointer(&p))) == 0 { code = code.nextField } else { e.encodeKey(code) code = code.next store(ctxptr, code.idx, p) } } case opStructFieldPtrHeadOmitEmptyInt: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToInt(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyInt: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyInt: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToInt(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyInt8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt8: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToInt8(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt8(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyInt8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyInt8: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToInt8(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt8(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyInt16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt16: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToInt16(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt16(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyInt16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyInt16: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToInt16(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt16(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyInt32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt32: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToInt32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt32(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyInt32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyInt32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToInt32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt32(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyInt64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt64: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToInt64(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt64(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyInt64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyInt64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToInt64(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeInt64(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyUint: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToUint(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyUint: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyUint: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToUint(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyUint8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint8: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToUint8(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint8(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyUint8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyUint8: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToUint8(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint8(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyUint16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint16: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToUint16(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint16(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyUint16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyUint16: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToUint16(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint16(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyUint32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint32: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToUint32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint32(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyUint32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyUint32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToUint32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint32(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyUint64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint64: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToUint64(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint64(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyUint64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyUint64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToUint64(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeUint64(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyFloat32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyFloat32: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToFloat32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeFloat32(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyFloat32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyFloat32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToFloat32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeFloat32(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyFloat64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyFloat64: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToFloat64(ptr + code.offset) if v == 0 { code = code.nextField } else { if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeFloat64(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyFloat64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyFloat64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToFloat64(ptr + code.offset) if v == 0 { code = code.nextField } else { if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeFloat64(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyString: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyString: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToString(ptr + code.offset) if v == "" { code = code.nextField } else { e.encodeKey(code) e.encodeString(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyString: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyString: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToString(ptr + code.offset) if v == "" { code = code.nextField } else { e.encodeKey(code) e.encodeString(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyBool: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyBool: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToBool(ptr + code.offset) if !v { code = code.nextField } else { e.encodeKey(code) e.encodeBool(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyBool: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyBool: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToBool(ptr + code.offset) if !v { code = code.nextField } else { e.encodeKey(code) e.encodeBool(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyBytes: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyBytes: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToBytes(ptr + code.offset) if len(v) == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeByteSlice(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyBytes: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyBytes: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToBytes(ptr + code.offset) if len(v) == 0 { code = code.nextField } else { e.encodeKey(code) e.encodeByteSlice(v) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyMarshalJSON: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyMarshalJSON: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) isPtr := code.typ.Kind() == reflect.Ptr if p == nil || (!isPtr && *(*unsafe.Pointer)(p) == nil) { code = code.nextField } else { v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { if isPtr { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } code = code.nextField } else { var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeKey(code) e.encodeBytes(buf.Bytes()) e.encodeByte(',') code = code.next } } } case opStructFieldPtrAnonymousHeadOmitEmptyMarshalJSON: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyMarshalJSON: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) isPtr := code.typ.Kind() == reflect.Ptr if p == nil || (!isPtr && *(*unsafe.Pointer)(p) == nil) { code = code.nextField } else { v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { if isPtr { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } code = code.nextField } else { var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeKey(code) e.encodeBytes(buf.Bytes()) e.encodeByte(',') code = code.next } } } case opStructFieldPtrHeadOmitEmptyMarshalText: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyMarshalText: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) isPtr := code.typ.Kind() == reflect.Ptr if p == nil || (!isPtr && *(*unsafe.Pointer)(p) == nil) { code = code.nextField } else { v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeKey(code) e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadOmitEmptyMarshalText: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadOmitEmptyMarshalText: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) isPtr := code.typ.Kind() == reflect.Ptr if p == nil || (!isPtr && *(*unsafe.Pointer)(p) == nil) { code = code.nextField } else { v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeKey(code) e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadOmitEmptyIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) p := ptr + code.offset if p == 0 || *(*uintptr)(*(*unsafe.Pointer)(unsafe.Pointer(&p))) == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') code = code.next store(ctxptr, code.idx, p) } } case opStructFieldPtrHeadOmitEmptyIntIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyIntIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToInt(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyInt8Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt8Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToInt8(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt8(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyInt16Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt16Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToInt16(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt16(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyInt32Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToInt32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt32(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyInt64Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyInt64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToInt64(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeInt64(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyUintIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUintIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToUint(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyUint8Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint8Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToUint8(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint8(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyUint16Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint16Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToUint16(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint16(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyUint32Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToUint32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint32(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyUint64Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyUint64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToUint64(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeUint64(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyFloat32Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyFloat32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToFloat32(ptr + code.offset) if v == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeFloat32(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyFloat64Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyFloat64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToFloat64(ptr + code.offset) if v == 0 { code = code.nextField } else { if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeFloat64(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyStringIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyStringIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToString(ptr + code.offset) if v == "" { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyBoolIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyBoolIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToBool(ptr + code.offset) if !v { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeBool(v) e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadOmitEmptyBytesIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadOmitEmptyBytesIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeIndent(code.indent) e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToBytes(ptr + code.offset) if len(v) == 0 { code = code.nextField } else { e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') s := base64.StdEncoding.EncodeToString(v) e.encodeByte('"') e.encodeBytes(*(*[]byte)(unsafe.Pointer(&s))) e.encodeByte('"') e.encodeBytes([]byte{',', '\n'}) code = code.next } } case opStructFieldPtrHeadStringTag: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTag: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') p := ptr + code.offset e.encodeKey(code) code = code.next store(ctxptr, code.idx, p) } case opStructFieldPtrAnonymousHeadStringTag: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTag: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) code = code.next store(ctxptr, code.idx, ptr+code.offset) } case opStructFieldPtrHeadStringTagInt: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagInt: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagInt: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagInt8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt8: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt8(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagInt8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagInt8: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt8(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagInt16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt16: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt16(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagInt16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagInt16: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt16(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagInt32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt32: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt32(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagInt32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagInt32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt32(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagInt64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt64: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt64(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagInt64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagInt64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt64(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagUint: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagUint: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagUint: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagUint8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint8: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint8(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagUint8: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagUint8: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint8(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagUint16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint16: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint16(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagUint16: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagUint16: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint16(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagUint32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint32: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint32(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagUint32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagUint32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint32(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagUint64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint64: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint64(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagUint64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagUint64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint64(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagFloat32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagFloat32: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToFloat32(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagFloat32: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagFloat32: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToFloat32(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagFloat64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagFloat64: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeString(fmt.Sprint(v)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagFloat64: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagFloat64: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeString(fmt.Sprint(v)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagString: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagString: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) var buf bytes.Buffer enc := NewEncoder(&buf) s := e.ptrToString(ptr + code.offset) if e.enabledHTMLEscape { enc.encodeEscapedString(s) } else { enc.encodeNoEscapedString(s) } e.encodeString(string(enc.buf)) e.encodeByte(',') enc.release() code = code.next } case opStructFieldPtrAnonymousHeadStringTagString: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagString: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(strconv.Quote(e.ptrToString(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagBool: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagBool: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToBool(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagBool: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagBool: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToBool(ptr + code.offset))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagBytes: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagBytes: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') e.encodeKey(code) e.encodeByteSlice(e.ptrToBytes(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagBytes: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagBytes: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { e.encodeKey(code) e.encodeByteSlice(e.ptrToBytes(ptr + code.offset)) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagMarshalJSON: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagMarshalJSON: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) isPtr := code.typ.Kind() == reflect.Ptr v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { if isPtr { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } e.encodeKey(code) e.encodeBytes([]byte{'"', '"'}) e.encodeByte(',') code = code.nextField } else { var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeString(buf.String()) e.encodeByte(',') code = code.next } } case opStructFieldPtrAnonymousHeadStringTagMarshalJSON: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagMarshalJSON: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) isPtr := code.typ.Kind() == reflect.Ptr v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } if len(b) == 0 { if isPtr { return errUnexpectedEndOfJSON( fmt.Sprintf("error calling MarshalJSON for type %s", code.typ), 0, ) } e.encodeKey(code) e.encodeBytes([]byte{'"', '"'}) e.encodeByte(',') code = code.nextField } else { var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeKey(code) e.encodeString(buf.String()) e.encodeByte(',') code = code.next } } case opStructFieldPtrHeadStringTagMarshalText: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagMarshalText: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeNull() e.encodeByte(',') code = code.end.next } else { e.encodeByte('{') ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeKey(code) e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next } case opStructFieldPtrAnonymousHeadStringTagMarshalText: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldAnonymousHeadStringTagMarshalText: ptr := load(ctxptr, code.idx) if ptr == 0 { code = code.end.next } else { ptr += code.offset p := *(*unsafe.Pointer)(unsafe.Pointer(&ptr)) v := *(*interface{})(unsafe.Pointer(&interfaceHeader{typ: code.typ, ptr: p})) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeKey(code) e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next } case opStructFieldPtrHeadStringTagIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) p := ptr + code.offset e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') code = code.next store(ctxptr, code.idx, p) } case opStructFieldPtrHeadStringTagIntIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagIntIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagInt8Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt8Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt8(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagInt16Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt16Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt16(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagInt32Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt32(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagInt64Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagInt64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt64(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagUintIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUintIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagUint8Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint8Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint8(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagUint16Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint16Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint16(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagUint32Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint32(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagUint64Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagUint64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint64(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagFloat32Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagFloat32Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToFloat32(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagFloat64Indent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagFloat64Indent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(v)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagStringIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagStringIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') var buf bytes.Buffer enc := NewEncoder(&buf) s := e.ptrToString(ptr + code.offset) if e.enabledHTMLEscape { enc.encodeEscapedString(s) } else { enc.encodeNoEscapedString(s) } e.encodeString(string(enc.buf)) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagBoolIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagBoolIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToBool(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructFieldPtrHeadStringTagBytesIndent: ptr := load(ctxptr, code.idx) if ptr != 0 { store(ctxptr, code.idx, e.ptrToPtr(ptr)) } fallthrough case opStructFieldHeadStringTagBytesIndent: ptr := load(ctxptr, code.idx) if ptr == 0 { e.encodeIndent(code.indent) e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.end.next } else { e.encodeBytes([]byte{'{', '\n'}) e.encodeIndent(code.indent + 1) e.encodeKey(code) e.encodeByte(' ') s := base64.StdEncoding.EncodeToString( e.ptrToBytes(ptr + code.offset), ) e.encodeByte('"') e.encodeBytes(*(*[]byte)(unsafe.Pointer(&s))) e.encodeByte('"') e.encodeBytes([]byte{',', '\n'}) code = code.next } case opStructField: if !code.anonymousKey { e.encodeKey(code) } ptr := load(ctxptr, code.headIdx) + code.offset code = code.next store(ctxptr, code.idx, ptr) case opStructFieldPtrInt: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeInt(e.ptrToInt(p)) } e.encodeByte(',') code = code.next case opStructFieldInt: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeInt(e.ptrToInt(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrInt8: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeInt8(e.ptrToInt8(p)) } e.encodeByte(',') code = code.next case opStructFieldInt8: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeInt8(e.ptrToInt8(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrInt16: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeInt16(e.ptrToInt16(p)) } e.encodeByte(',') code = code.next case opStructFieldInt16: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeInt16(e.ptrToInt16(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrInt32: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeInt32(e.ptrToInt32(p)) } e.encodeByte(',') code = code.next case opStructFieldInt32: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeInt32(e.ptrToInt32(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrInt64: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeInt64(e.ptrToInt64(p)) } e.encodeByte(',') code = code.next case opStructFieldInt64: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeInt64(e.ptrToInt64(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrUint: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeUint(e.ptrToUint(p)) } e.encodeByte(',') code = code.next case opStructFieldUint: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeUint(e.ptrToUint(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrUint8: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeUint8(e.ptrToUint8(p)) } e.encodeByte(',') code = code.next case opStructFieldUint8: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeUint8(e.ptrToUint8(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrUint16: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeUint16(e.ptrToUint16(p)) } e.encodeByte(',') code = code.next case opStructFieldUint16: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeUint16(e.ptrToUint16(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrUint32: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeUint32(e.ptrToUint32(p)) } e.encodeByte(',') code = code.next case opStructFieldUint32: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeUint32(e.ptrToUint32(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrUint64: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeUint64(e.ptrToUint64(p)) } e.encodeByte(',') code = code.next case opStructFieldUint64: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeUint64(e.ptrToUint64(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrFloat32: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeFloat32(e.ptrToFloat32(p)) } e.encodeByte(',') code = code.next case opStructFieldFloat32: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeFloat32(e.ptrToFloat32(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrFloat64: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() e.encodeByte(',') code = code.next break } v := e.ptrToFloat64(p) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeFloat64(v) e.encodeByte(',') code = code.next case opStructFieldFloat64: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeFloat64(v) e.encodeByte(',') code = code.next case opStructFieldPtrString: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeString(e.ptrToString(p)) } e.encodeByte(',') code = code.next case opStructFieldString: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(e.ptrToString(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldPtrBool: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := e.ptrToPtr(ptr + code.offset) if p == 0 { e.encodeNull() } else { e.encodeBool(e.ptrToBool(p)) } e.encodeByte(',') code = code.next case opStructFieldBool: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeBool(e.ptrToBool(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldBytes: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeByteSlice(e.ptrToBytes(ptr + code.offset)) e.encodeByte(',') code = code.next case opStructFieldMarshalJSON: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeBytes(buf.Bytes()) e.encodeByte(',') code = code.next case opStructFieldMarshalText: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next case opStructFieldArray: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) case opStructFieldSlice: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) case opStructFieldMap: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) case opStructFieldMapLoad: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) case opStructFieldStruct: e.encodeKey(code) ptr := load(ctxptr, code.headIdx) p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) case opStructFieldIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) p := ptr + code.offset code = code.next store(ctxptr, code.idx, p) case opStructFieldIntIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeInt(e.ptrToInt(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldInt8Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeInt8(e.ptrToInt8(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldInt16Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeInt16(e.ptrToInt16(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldInt32Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeInt32(e.ptrToInt32(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldInt64Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeInt64(e.ptrToInt64(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldUintIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeUint(e.ptrToUint(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldUint8Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeUint8(e.ptrToUint8(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldUint16Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeUint16(e.ptrToUint16(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldUint32Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeUint32(e.ptrToUint32(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldUint64Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeUint64(e.ptrToUint64(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldFloat32Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeFloat32(e.ptrToFloat32(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldFloat64Indent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeFloat64(v) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeString(e.ptrToString(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldBoolIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) e.encodeBool(e.ptrToBool(ptr + code.offset)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldBytesIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) s := base64.StdEncoding.EncodeToString(e.ptrToBytes(ptr + code.offset)) e.encodeByte('"') e.encodeBytes(*(*[]byte)(unsafe.Pointer(&s))) e.encodeByte('"') e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldMarshalJSONIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeBytes(buf.Bytes()) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldArrayIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) p := ptr + code.offset header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.nextField } else { code = code.next } case opStructFieldSliceIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) p := ptr + code.offset header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { e.encodeNull() e.encodeBytes([]byte{',', '\n'}) code = code.nextField } else { code = code.next } case opStructFieldMapIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { e.encodeNull() code = code.nextField } else { p = uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) mlen := maplen(*(*unsafe.Pointer)(unsafe.Pointer(&p))) if mlen == 0 { e.encodeBytes([]byte{'{', '}', ',', '\n'}) mapCode := code.next code = mapCode.end.next } else { code = code.next } } case opStructFieldMapLoadIndent: e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { e.encodeNull() code = code.nextField } else { p = uintptr(**(**unsafe.Pointer)(unsafe.Pointer(&p))) mlen := maplen(*(*unsafe.Pointer)(unsafe.Pointer(&p))) if mlen == 0 { e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.nextField } else { code = code.next } } case opStructFieldStructIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') if p == 0 { e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.nextField } else { headCode := code.next if headCode.next == headCode.end { // not exists fields e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.nextField } else { code = code.next store(ctxptr, code.idx, p) } } case opStructFieldOmitEmpty: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 || **(**uintptr)(unsafe.Pointer(&p)) == 0 { code = code.nextField } else { e.encodeKey(code) code = code.next store(ctxptr, code.idx, p) } case opStructFieldOmitEmptyInt: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeInt(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyInt8: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt8(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeInt8(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyInt16: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt16(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeInt16(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyInt32: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt32(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeInt32(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyInt64: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt64(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeInt64(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyUint: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeUint(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyUint8: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint8(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeUint8(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyUint16: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint16(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeUint16(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyUint32: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint32(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeUint32(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyUint64: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint64(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeUint64(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyFloat32: ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat32(ptr + code.offset) if v != 0 { e.encodeKey(code) e.encodeFloat32(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyFloat64: ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat64(ptr + code.offset) if v != 0 { if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeFloat64(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyString: ptr := load(ctxptr, code.headIdx) v := e.ptrToString(ptr + code.offset) if v != "" { e.encodeKey(code) e.encodeString(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyBool: ptr := load(ctxptr, code.headIdx) v := e.ptrToBool(ptr + code.offset) if v { e.encodeKey(code) e.encodeBool(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyBytes: ptr := load(ctxptr, code.headIdx) v := e.ptrToBytes(ptr + code.offset) if len(v) > 0 { e.encodeKey(code) e.encodeByteSlice(v) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyMarshalJSON: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) if v != nil { b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeBytes(buf.Bytes()) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyMarshalText: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) if v != nil { v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') } code = code.next case opStructFieldOmitEmptyArray: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { code = code.nextField } else { code = code.next } case opStructFieldOmitEmptySlice: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { code = code.nextField } else { code = code.next } case opStructFieldOmitEmptyMap: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { code = code.nextField } else { mlen := maplen(**(**unsafe.Pointer)(unsafe.Pointer(&p))) if mlen == 0 { code = code.nextField } else { code = code.next } } case opStructFieldOmitEmptyMapLoad: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { code = code.nextField } else { mlen := maplen(**(**unsafe.Pointer)(unsafe.Pointer(&p))) if mlen == 0 { code = code.nextField } else { code = code.next } } case opStructFieldOmitEmptyIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 || **(**uintptr)(unsafe.Pointer(&p)) == 0 { code = code.nextField } else { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') code = code.next store(ctxptr, code.idx, p) } case opStructFieldOmitEmptyIntIndent: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeInt(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyInt8Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt8(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeInt8(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyInt16Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt16(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeInt16(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyInt32Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt32(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeInt32(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyInt64Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToInt64(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeInt64(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyUintIndent: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeUint(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyUint8Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint8(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeUint8(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyUint16Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint16(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeUint16(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyUint32Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint32(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeUint32(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyUint64Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToUint64(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeUint64(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyFloat32Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat32(ptr + code.offset) if v != 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeFloat32(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyFloat64Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat64(ptr + code.offset) if v != 0 { if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeFloat64(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyStringIndent: ptr := load(ctxptr, code.headIdx) v := e.ptrToString(ptr + code.offset) if v != "" { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyBoolIndent: ptr := load(ctxptr, code.headIdx) v := e.ptrToBool(ptr + code.offset) if v { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeBool(v) e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyBytesIndent: ptr := load(ctxptr, code.headIdx) v := e.ptrToBytes(ptr + code.offset) if len(v) > 0 { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') s := base64.StdEncoding.EncodeToString(v) e.encodeByte('"') e.encodeBytes(*(*[]byte)(unsafe.Pointer(&s))) e.encodeByte('"') e.encodeBytes([]byte{',', '\n'}) } code = code.next case opStructFieldOmitEmptyArrayIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { code = code.nextField } else { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') code = code.next } case opStructFieldOmitEmptySliceIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset header := *(**sliceHeader)(unsafe.Pointer(&p)) if p == 0 || uintptr(header.data) == 0 { code = code.nextField } else { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') code = code.next } case opStructFieldOmitEmptyMapIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { code = code.nextField } else { mlen := maplen(**(**unsafe.Pointer)(unsafe.Pointer(&p))) if mlen == 0 { code = code.nextField } else { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') code = code.next } } case opStructFieldOmitEmptyMapLoadIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { code = code.nextField } else { mlen := maplen(**(**unsafe.Pointer)(unsafe.Pointer(&p))) if mlen == 0 { code = code.nextField } else { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') code = code.next } } case opStructFieldOmitEmptyStructIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset if p == 0 { code = code.nextField } else { e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') headCode := code.next if headCode.next == headCode.end { // not exists fields e.encodeBytes([]byte{'{', '}', ',', '\n'}) code = code.nextField } else { code = code.next store(ctxptr, code.idx, p) } } case opStructFieldStringTag: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset e.encodeKey(code) code = code.next store(ctxptr, code.idx, p) case opStructFieldStringTagInt: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagInt8: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt8(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagInt16: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt16(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagInt32: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt32(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagInt64: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToInt64(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagUint: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagUint8: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint8(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagUint16: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint16(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagUint32: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint32(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagUint64: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToUint64(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagFloat32: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToFloat32(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagFloat64: ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeKey(code) e.encodeString(fmt.Sprint(v)) e.encodeByte(',') code = code.next case opStructFieldStringTagString: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) var b bytes.Buffer enc := NewEncoder(&b) enc.encodeString(e.ptrToString(ptr + code.offset)) e.encodeString(string(enc.buf)) code = code.next case opStructFieldStringTagBool: ptr := load(ctxptr, code.headIdx) e.encodeKey(code) e.encodeString(fmt.Sprint(e.ptrToBool(ptr + code.offset))) e.encodeByte(',') code = code.next case opStructFieldStringTagBytes: ptr := load(ctxptr, code.headIdx) v := e.ptrToBytes(ptr + code.offset) e.encodeKey(code) e.encodeByteSlice(v) e.encodeByte(',') code = code.next case opStructFieldStringTagMarshalJSON: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeString(buf.String()) e.encodeByte(',') code = code.next case opStructFieldStringTagMarshalText: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeByte(',') code = code.next case opStructFieldStringTagIndent: ptr := load(ctxptr, code.headIdx) p := ptr + code.offset e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') code = code.next store(ctxptr, code.idx, p) case opStructFieldStringTagIntIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagInt8Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt8(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagInt16Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt16(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagInt32Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt32(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagInt64Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToInt64(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagUintIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagUint8Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint8(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagUint16Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint16(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagUint32Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint32(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagUint64Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToUint64(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagFloat32Indent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToFloat32(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagFloat64Indent: ptr := load(ctxptr, code.headIdx) v := e.ptrToFloat64(ptr + code.offset) if math.IsInf(v, 0) || math.IsNaN(v) { return &UnsupportedValueError{ Value: reflect.ValueOf(v), Str: strconv.FormatFloat(v, 'g', -1, 64), } } e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(v)) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagStringIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') var b bytes.Buffer enc := NewEncoder(&b) enc.encodeString(e.ptrToString(ptr + code.offset)) e.encodeString(string(enc.buf)) e.encodeBytes([]byte{',', '\n'}) enc.release() code = code.next case opStructFieldStringTagBoolIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') e.encodeString(fmt.Sprint(e.ptrToBool(ptr + code.offset))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagBytesIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') s := base64.StdEncoding.EncodeToString( e.ptrToBytes(ptr + code.offset), ) e.encodeByte('"') e.encodeBytes(*(*[]byte)(unsafe.Pointer(&s))) e.encodeByte('"') e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagMarshalJSONIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) b, err := v.(Marshaler).MarshalJSON() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } var buf bytes.Buffer if err := compact(&buf, b, e.enabledHTMLEscape); err != nil { return err } e.encodeString(buf.String()) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructFieldStringTagMarshalTextIndent: ptr := load(ctxptr, code.headIdx) e.encodeIndent(code.indent) e.encodeKey(code) e.encodeByte(' ') p := ptr + code.offset v := *(*interface{})(unsafe.Pointer(&interfaceHeader{ typ: code.typ, ptr: *(*unsafe.Pointer)(unsafe.Pointer(&p)), })) bytes, err := v.(encoding.TextMarshaler).MarshalText() if err != nil { return &MarshalerError{ Type: rtype2type(code.typ), Err: err, } } e.encodeString(*(*string)(unsafe.Pointer(&bytes))) e.encodeBytes([]byte{',', '\n'}) code = code.next case opStructEnd: last := len(e.buf) - 1 if e.buf[last] == ',' { e.buf[last] = '}' } else { e.encodeByte('}') } e.encodeByte(',') code = code.next case opStructAnonymousEnd: code = code.next case opStructEndIndent: last := len(e.buf) - 1 if e.buf[last] == '\n' { // to remove ',' and '\n' characters e.buf = e.buf[:len(e.buf)-2] } e.encodeByte('\n') e.encodeIndent(code.indent) e.encodeByte('}') e.encodeBytes([]byte{',', '\n'}) code = code.next case opEnd: goto END } } END: return 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)) }