package json import ( "reflect" "strings" "unsafe" ) func (d *Decoder) compileHead(typ *rtype) (decoder, error) { switch { case rtype_ptrTo(typ).Implements(unmarshalJSONType): return newUnmarshalJSONDecoder(rtype_ptrTo(typ), "", ""), nil case rtype_ptrTo(typ).Implements(unmarshalTextType): return newUnmarshalTextDecoder(rtype_ptrTo(typ), "", ""), nil } return d.compile(typ.Elem(), "", "") } func (d *Decoder) compile(typ *rtype, structName, fieldName string) (decoder, error) { switch { case rtype_ptrTo(typ).Implements(unmarshalJSONType): return newUnmarshalJSONDecoder(rtype_ptrTo(typ), structName, fieldName), nil case rtype_ptrTo(typ).Implements(unmarshalTextType): return newUnmarshalTextDecoder(rtype_ptrTo(typ), structName, fieldName), nil } switch typ.Kind() { case reflect.Ptr: return d.compilePtr(typ, structName, fieldName) case reflect.Struct: return d.compileStruct(typ, structName, fieldName) case reflect.Slice: elem := typ.Elem() if elem.Kind() == reflect.Uint8 { return d.compileBytes(structName, fieldName) } return d.compileSlice(typ, structName, fieldName) case reflect.Array: return d.compileArray(typ, structName, fieldName) case reflect.Map: return d.compileMap(typ, structName, fieldName) case reflect.Interface: return d.compileInterface(typ, structName, fieldName) case reflect.Uintptr: return d.compileUint(structName, fieldName) case reflect.Int: return d.compileInt(structName, fieldName) case reflect.Int8: return d.compileInt8(structName, fieldName) case reflect.Int16: return d.compileInt16(structName, fieldName) case reflect.Int32: return d.compileInt32(structName, fieldName) case reflect.Int64: return d.compileInt64(structName, fieldName) case reflect.Uint: return d.compileUint(structName, fieldName) case reflect.Uint8: return d.compileUint8(structName, fieldName) case reflect.Uint16: return d.compileUint16(structName, fieldName) case reflect.Uint32: return d.compileUint32(structName, fieldName) case reflect.Uint64: return d.compileUint64(structName, fieldName) case reflect.String: return d.compileString(structName, fieldName) case reflect.Bool: return d.compileBool(structName, fieldName) case reflect.Float32: return d.compileFloat32(structName, fieldName) case reflect.Float64: return d.compileFloat64(structName, fieldName) } return nil, &UnsupportedTypeError{Type: rtype2type(typ)} } func (d *Decoder) compilePtr(typ *rtype, structName, fieldName string) (decoder, error) { dec, err := d.compile(typ.Elem(), structName, fieldName) if err != nil { return nil, err } return newPtrDecoder(dec, typ.Elem(), structName, fieldName), nil } func (d *Decoder) compileInt(structName, fieldName string) (decoder, error) { return newIntDecoder(structName, fieldName, func(p unsafe.Pointer, v int64) { *(*int)(p) = int(v) }), nil } func (d *Decoder) compileInt8(structName, fieldName string) (decoder, error) { return newIntDecoder(structName, fieldName, func(p unsafe.Pointer, v int64) { *(*int8)(p) = int8(v) }), nil } func (d *Decoder) compileInt16(structName, fieldName string) (decoder, error) { return newIntDecoder(structName, fieldName, func(p unsafe.Pointer, v int64) { *(*int16)(p) = int16(v) }), nil } func (d *Decoder) compileInt32(structName, fieldName string) (decoder, error) { return newIntDecoder(structName, fieldName, func(p unsafe.Pointer, v int64) { *(*int32)(p) = int32(v) }), nil } func (d *Decoder) compileInt64(structName, fieldName string) (decoder, error) { return newIntDecoder(structName, fieldName, func(p unsafe.Pointer, v int64) { *(*int64)(p) = v }), nil } func (d *Decoder) compileUint(structName, fieldName string) (decoder, error) { return newUintDecoder(structName, fieldName, func(p unsafe.Pointer, v uint64) { *(*uint)(p) = uint(v) }), nil } func (d *Decoder) compileUint8(structName, fieldName string) (decoder, error) { return newUintDecoder(structName, fieldName, func(p unsafe.Pointer, v uint64) { *(*uint8)(p) = uint8(v) }), nil } func (d *Decoder) compileUint16(structName, fieldName string) (decoder, error) { return newUintDecoder(structName, fieldName, func(p unsafe.Pointer, v uint64) { *(*uint16)(p) = uint16(v) }), nil } func (d *Decoder) compileUint32(structName, fieldName string) (decoder, error) { return newUintDecoder(structName, fieldName, func(p unsafe.Pointer, v uint64) { *(*uint32)(p) = uint32(v) }), nil } func (d *Decoder) compileUint64(structName, fieldName string) (decoder, error) { return newUintDecoder(structName, fieldName, func(p unsafe.Pointer, v uint64) { *(*uint64)(p) = v }), nil } func (d *Decoder) compileFloat32(structName, fieldName string) (decoder, error) { return newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) { *(*float32)(p) = float32(v) }), nil } func (d *Decoder) compileFloat64(structName, fieldName string) (decoder, error) { return newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) { *(*float64)(p) = v }), nil } func (d *Decoder) compileString(structName, fieldName string) (decoder, error) { return newStringDecoder(structName, fieldName), nil } func (d *Decoder) compileBool(structName, fieldName string) (decoder, error) { return newBoolDecoder(structName, fieldName), nil } func (d *Decoder) compileBytes(structName, fieldName string) (decoder, error) { return newBytesDecoder(structName, fieldName), nil } func (d *Decoder) compileSlice(typ *rtype, structName, fieldName string) (decoder, error) { elem := typ.Elem() decoder, err := d.compile(elem, structName, fieldName) if err != nil { return nil, err } return newSliceDecoder(decoder, elem, elem.Size(), structName, fieldName), nil } func (d *Decoder) compileArray(typ *rtype, structName, fieldName string) (decoder, error) { elem := typ.Elem() decoder, err := d.compile(elem, structName, fieldName) if err != nil { return nil, err } return newArrayDecoder(decoder, elem, typ.Len(), structName, fieldName), nil } func (d *Decoder) compileMap(typ *rtype, structName, fieldName string) (decoder, error) { keyDec, err := d.compile(typ.Key(), structName, fieldName) if err != nil { return nil, err } valueDec, err := d.compile(typ.Elem(), structName, fieldName) if err != nil { return nil, err } return newMapDecoder(typ, keyDec, valueDec, structName, fieldName), nil } func (d *Decoder) compileInterface(typ *rtype, structName, fieldName string) (decoder, error) { return newInterfaceDecoder(typ, structName, fieldName), nil } func (d *Decoder) compileStruct(typ *rtype, structName, fieldName string) (decoder, error) { fieldNum := typ.NumField() fieldMap := map[string]*structFieldSet{} typeptr := uintptr(unsafe.Pointer(typ)) if dec, exists := d.structTypeToDecoder[typeptr]; exists { return dec, nil } structDec := newStructDecoder(structName, fieldName, fieldMap) d.structTypeToDecoder[typeptr] = structDec structName = typ.Name() for i := 0; i < fieldNum; i++ { field := typ.Field(i) if isIgnoredStructField(field) { continue } tag := structTagFromField(field) dec, err := d.compile(type2rtype(field.Type), structName, field.Name) if err != nil { return nil, err } if tag.isString { dec = newWrappedStringDecoder(dec, structName, field.Name) } fieldSet := &structFieldSet{dec: dec, offset: field.Offset} fieldMap[field.Name] = fieldSet fieldMap[tag.key] = fieldSet fieldMap[strings.ToLower(tag.key)] = fieldSet } delete(d.structTypeToDecoder, typeptr) return structDec, nil }