GoToSocial/vendor/github.com/goccy/go-json/internal/decoder/compile.go

488 lines
15 KiB
Go

package decoder
import (
"encoding/json"
"fmt"
"reflect"
"strings"
"sync/atomic"
"unicode"
"unsafe"
"github.com/goccy/go-json/internal/runtime"
)
var (
jsonNumberType = reflect.TypeOf(json.Number(""))
typeAddr *runtime.TypeAddr
cachedDecoderMap unsafe.Pointer // map[uintptr]decoder
cachedDecoder []Decoder
)
func init() {
typeAddr = runtime.AnalyzeTypeAddr()
if typeAddr == nil {
typeAddr = &runtime.TypeAddr{}
}
cachedDecoder = make([]Decoder, typeAddr.AddrRange>>typeAddr.AddrShift+1)
}
func loadDecoderMap() map[uintptr]Decoder {
p := atomic.LoadPointer(&cachedDecoderMap)
return *(*map[uintptr]Decoder)(unsafe.Pointer(&p))
}
func storeDecoder(typ uintptr, dec Decoder, m map[uintptr]Decoder) {
newDecoderMap := make(map[uintptr]Decoder, len(m)+1)
newDecoderMap[typ] = dec
for k, v := range m {
newDecoderMap[k] = v
}
atomic.StorePointer(&cachedDecoderMap, *(*unsafe.Pointer)(unsafe.Pointer(&newDecoderMap)))
}
func compileToGetDecoderSlowPath(typeptr uintptr, typ *runtime.Type) (Decoder, error) {
decoderMap := loadDecoderMap()
if dec, exists := decoderMap[typeptr]; exists {
return dec, nil
}
dec, err := compileHead(typ, map[uintptr]Decoder{})
if err != nil {
return nil, err
}
storeDecoder(typeptr, dec, decoderMap)
return dec, nil
}
func compileHead(typ *runtime.Type, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
switch {
case implementsUnmarshalJSONType(runtime.PtrTo(typ)):
return newUnmarshalJSONDecoder(runtime.PtrTo(typ), "", ""), nil
case runtime.PtrTo(typ).Implements(unmarshalTextType):
return newUnmarshalTextDecoder(runtime.PtrTo(typ), "", ""), nil
}
return compile(typ.Elem(), "", "", structTypeToDecoder)
}
func compile(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
switch {
case implementsUnmarshalJSONType(runtime.PtrTo(typ)):
return newUnmarshalJSONDecoder(runtime.PtrTo(typ), structName, fieldName), nil
case runtime.PtrTo(typ).Implements(unmarshalTextType):
return newUnmarshalTextDecoder(runtime.PtrTo(typ), structName, fieldName), nil
}
switch typ.Kind() {
case reflect.Ptr:
return compilePtr(typ, structName, fieldName, structTypeToDecoder)
case reflect.Struct:
return compileStruct(typ, structName, fieldName, structTypeToDecoder)
case reflect.Slice:
elem := typ.Elem()
if elem.Kind() == reflect.Uint8 {
return compileBytes(elem, structName, fieldName)
}
return compileSlice(typ, structName, fieldName, structTypeToDecoder)
case reflect.Array:
return compileArray(typ, structName, fieldName, structTypeToDecoder)
case reflect.Map:
return compileMap(typ, structName, fieldName, structTypeToDecoder)
case reflect.Interface:
return compileInterface(typ, structName, fieldName)
case reflect.Uintptr:
return compileUint(typ, structName, fieldName)
case reflect.Int:
return compileInt(typ, structName, fieldName)
case reflect.Int8:
return compileInt8(typ, structName, fieldName)
case reflect.Int16:
return compileInt16(typ, structName, fieldName)
case reflect.Int32:
return compileInt32(typ, structName, fieldName)
case reflect.Int64:
return compileInt64(typ, structName, fieldName)
case reflect.Uint:
return compileUint(typ, structName, fieldName)
case reflect.Uint8:
return compileUint8(typ, structName, fieldName)
case reflect.Uint16:
return compileUint16(typ, structName, fieldName)
case reflect.Uint32:
return compileUint32(typ, structName, fieldName)
case reflect.Uint64:
return compileUint64(typ, structName, fieldName)
case reflect.String:
return compileString(typ, structName, fieldName)
case reflect.Bool:
return compileBool(structName, fieldName)
case reflect.Float32:
return compileFloat32(structName, fieldName)
case reflect.Float64:
return compileFloat64(structName, fieldName)
case reflect.Func:
return compileFunc(typ, structName, fieldName)
}
return newInvalidDecoder(typ, structName, fieldName), nil
}
func isStringTagSupportedType(typ *runtime.Type) bool {
switch {
case implementsUnmarshalJSONType(runtime.PtrTo(typ)):
return false
case runtime.PtrTo(typ).Implements(unmarshalTextType):
return false
}
switch typ.Kind() {
case reflect.Map:
return false
case reflect.Slice:
return false
case reflect.Array:
return false
case reflect.Struct:
return false
case reflect.Interface:
return false
}
return true
}
func compileMapKey(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
if runtime.PtrTo(typ).Implements(unmarshalTextType) {
return newUnmarshalTextDecoder(runtime.PtrTo(typ), structName, fieldName), nil
}
if typ.Kind() == reflect.String {
return newStringDecoder(structName, fieldName), nil
}
dec, err := compile(typ, structName, fieldName, structTypeToDecoder)
if err != nil {
return nil, err
}
for {
switch t := dec.(type) {
case *stringDecoder, *interfaceDecoder:
return dec, nil
case *boolDecoder, *intDecoder, *uintDecoder, *numberDecoder:
return newWrappedStringDecoder(typ, dec, structName, fieldName), nil
case *ptrDecoder:
dec = t.dec
default:
return newInvalidDecoder(typ, structName, fieldName), nil
}
}
}
func compilePtr(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
dec, err := compile(typ.Elem(), structName, fieldName, structTypeToDecoder)
if err != nil {
return nil, err
}
return newPtrDecoder(dec, typ.Elem(), structName, fieldName), nil
}
func compileInt(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) {
*(*int)(p) = int(v)
}), nil
}
func compileInt8(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) {
*(*int8)(p) = int8(v)
}), nil
}
func compileInt16(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) {
*(*int16)(p) = int16(v)
}), nil
}
func compileInt32(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) {
*(*int32)(p) = int32(v)
}), nil
}
func compileInt64(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newIntDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v int64) {
*(*int64)(p) = v
}), nil
}
func compileUint(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) {
*(*uint)(p) = uint(v)
}), nil
}
func compileUint8(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) {
*(*uint8)(p) = uint8(v)
}), nil
}
func compileUint16(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) {
*(*uint16)(p) = uint16(v)
}), nil
}
func compileUint32(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) {
*(*uint32)(p) = uint32(v)
}), nil
}
func compileUint64(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newUintDecoder(typ, structName, fieldName, func(p unsafe.Pointer, v uint64) {
*(*uint64)(p) = v
}), nil
}
func compileFloat32(structName, fieldName string) (Decoder, error) {
return newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) {
*(*float32)(p) = float32(v)
}), nil
}
func compileFloat64(structName, fieldName string) (Decoder, error) {
return newFloatDecoder(structName, fieldName, func(p unsafe.Pointer, v float64) {
*(*float64)(p) = v
}), nil
}
func compileString(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
if typ == runtime.Type2RType(jsonNumberType) {
return newNumberDecoder(structName, fieldName, func(p unsafe.Pointer, v json.Number) {
*(*json.Number)(p) = v
}), nil
}
return newStringDecoder(structName, fieldName), nil
}
func compileBool(structName, fieldName string) (Decoder, error) {
return newBoolDecoder(structName, fieldName), nil
}
func compileBytes(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newBytesDecoder(typ, structName, fieldName), nil
}
func compileSlice(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
elem := typ.Elem()
decoder, err := compile(elem, structName, fieldName, structTypeToDecoder)
if err != nil {
return nil, err
}
return newSliceDecoder(decoder, elem, elem.Size(), structName, fieldName), nil
}
func compileArray(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
elem := typ.Elem()
decoder, err := compile(elem, structName, fieldName, structTypeToDecoder)
if err != nil {
return nil, err
}
return newArrayDecoder(decoder, elem, typ.Len(), structName, fieldName), nil
}
func compileMap(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
keyDec, err := compileMapKey(typ.Key(), structName, fieldName, structTypeToDecoder)
if err != nil {
return nil, err
}
valueDec, err := compile(typ.Elem(), structName, fieldName, structTypeToDecoder)
if err != nil {
return nil, err
}
return newMapDecoder(typ, typ.Key(), keyDec, typ.Elem(), valueDec, structName, fieldName), nil
}
func compileInterface(typ *runtime.Type, structName, fieldName string) (Decoder, error) {
return newInterfaceDecoder(typ, structName, fieldName), nil
}
func compileFunc(typ *runtime.Type, strutName, fieldName string) (Decoder, error) {
return newFuncDecoder(typ, strutName, fieldName), nil
}
func typeToStructTags(typ *runtime.Type) runtime.StructTags {
tags := runtime.StructTags{}
fieldNum := typ.NumField()
for i := 0; i < fieldNum; i++ {
field := typ.Field(i)
if runtime.IsIgnoredStructField(field) {
continue
}
tags = append(tags, runtime.StructTagFromField(field))
}
return tags
}
func compileStruct(typ *runtime.Type, structName, fieldName string, structTypeToDecoder map[uintptr]Decoder) (Decoder, error) {
fieldNum := typ.NumField()
fieldMap := map[string]*structFieldSet{}
typeptr := uintptr(unsafe.Pointer(typ))
if dec, exists := structTypeToDecoder[typeptr]; exists {
return dec, nil
}
structDec := newStructDecoder(structName, fieldName, fieldMap)
structTypeToDecoder[typeptr] = structDec
structName = typ.Name()
tags := typeToStructTags(typ)
allFields := []*structFieldSet{}
for i := 0; i < fieldNum; i++ {
field := typ.Field(i)
if runtime.IsIgnoredStructField(field) {
continue
}
isUnexportedField := unicode.IsLower([]rune(field.Name)[0])
tag := runtime.StructTagFromField(field)
dec, err := compile(runtime.Type2RType(field.Type), structName, field.Name, structTypeToDecoder)
if err != nil {
return nil, err
}
if field.Anonymous && !tag.IsTaggedKey {
if stDec, ok := dec.(*structDecoder); ok {
if runtime.Type2RType(field.Type) == typ {
// recursive definition
continue
}
for k, v := range stDec.fieldMap {
if tags.ExistsKey(k) {
continue
}
fieldSet := &structFieldSet{
dec: v.dec,
offset: field.Offset + v.offset,
isTaggedKey: v.isTaggedKey,
key: k,
keyLen: int64(len(k)),
}
allFields = append(allFields, fieldSet)
}
} else if pdec, ok := dec.(*ptrDecoder); ok {
contentDec := pdec.contentDecoder()
if pdec.typ == typ {
// recursive definition
continue
}
var fieldSetErr error
if isUnexportedField {
fieldSetErr = fmt.Errorf(
"json: cannot set embedded pointer to unexported struct: %v",
field.Type.Elem(),
)
}
if dec, ok := contentDec.(*structDecoder); ok {
for k, v := range dec.fieldMap {
if tags.ExistsKey(k) {
continue
}
fieldSet := &structFieldSet{
dec: newAnonymousFieldDecoder(pdec.typ, v.offset, v.dec),
offset: field.Offset,
isTaggedKey: v.isTaggedKey,
key: k,
keyLen: int64(len(k)),
err: fieldSetErr,
}
allFields = append(allFields, fieldSet)
}
} else {
fieldSet := &structFieldSet{
dec: pdec,
offset: field.Offset,
isTaggedKey: tag.IsTaggedKey,
key: field.Name,
keyLen: int64(len(field.Name)),
}
allFields = append(allFields, fieldSet)
}
} else {
fieldSet := &structFieldSet{
dec: dec,
offset: field.Offset,
isTaggedKey: tag.IsTaggedKey,
key: field.Name,
keyLen: int64(len(field.Name)),
}
allFields = append(allFields, fieldSet)
}
} else {
if tag.IsString && isStringTagSupportedType(runtime.Type2RType(field.Type)) {
dec = newWrappedStringDecoder(runtime.Type2RType(field.Type), dec, structName, field.Name)
}
var key string
if tag.Key != "" {
key = tag.Key
} else {
key = field.Name
}
fieldSet := &structFieldSet{
dec: dec,
offset: field.Offset,
isTaggedKey: tag.IsTaggedKey,
key: key,
keyLen: int64(len(key)),
}
allFields = append(allFields, fieldSet)
}
}
for _, set := range filterDuplicatedFields(allFields) {
fieldMap[set.key] = set
lower := strings.ToLower(set.key)
if _, exists := fieldMap[lower]; !exists {
// first win
fieldMap[lower] = set
}
}
delete(structTypeToDecoder, typeptr)
structDec.tryOptimize()
return structDec, nil
}
func filterDuplicatedFields(allFields []*structFieldSet) []*structFieldSet {
fieldMap := map[string][]*structFieldSet{}
for _, field := range allFields {
fieldMap[field.key] = append(fieldMap[field.key], field)
}
duplicatedFieldMap := map[string]struct{}{}
for k, sets := range fieldMap {
sets = filterFieldSets(sets)
if len(sets) != 1 {
duplicatedFieldMap[k] = struct{}{}
}
}
filtered := make([]*structFieldSet, 0, len(allFields))
for _, field := range allFields {
if _, exists := duplicatedFieldMap[field.key]; exists {
continue
}
filtered = append(filtered, field)
}
return filtered
}
func filterFieldSets(sets []*structFieldSet) []*structFieldSet {
if len(sets) == 1 {
return sets
}
filtered := make([]*structFieldSet, 0, len(sets))
for _, set := range sets {
if set.isTaggedKey {
filtered = append(filtered, set)
}
}
return filtered
}
func implementsUnmarshalJSONType(typ *runtime.Type) bool {
return typ.Implements(unmarshalJSONType) || typ.Implements(unmarshalJSONContextType)
}