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codec_union.go
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codec_union.go
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package avro
import (
"errors"
"fmt"
"reflect"
"strings"
"unsafe"
"github.com/modern-go/reflect2"
)
func createDecoderOfUnion(d *decoderContext, schema *UnionSchema, typ reflect2.Type) ValDecoder {
switch typ.Kind() {
case reflect.Map:
if typ.(reflect2.MapType).Key().Kind() != reflect.String ||
typ.(reflect2.MapType).Elem().Kind() != reflect.Interface {
break
}
return decoderOfMapUnion(d, schema, typ)
case reflect.Slice:
if !schema.Nullable() {
break
}
return decoderOfNullableUnion(d, schema, typ)
case reflect.Ptr:
if !schema.Nullable() {
break
}
return decoderOfNullableUnion(d, schema, typ)
case reflect.Interface:
if _, ok := typ.(*reflect2.UnsafeIFaceType); !ok {
dec, err := decoderOfResolvedUnion(d, schema)
if err != nil {
return &errorDecoder{err: fmt.Errorf("avro: problem resolving decoder for Avro %s: %w", schema.Type(), err)}
}
return dec
}
}
return &errorDecoder{err: fmt.Errorf("avro: %s is unsupported for Avro %s", typ.String(), schema.Type())}
}
func createEncoderOfUnion(e *encoderContext, schema *UnionSchema, typ reflect2.Type) ValEncoder {
switch typ.Kind() {
case reflect.Map:
if typ.(reflect2.MapType).Key().Kind() != reflect.String ||
typ.(reflect2.MapType).Elem().Kind() != reflect.Interface {
break
}
return encoderOfMapUnion(e, schema, typ)
case reflect.Slice:
if !schema.Nullable() {
break
}
return encoderOfNullableUnion(e, schema, typ)
case reflect.Ptr:
if !schema.Nullable() {
break
}
return encoderOfNullableUnion(e, schema, typ)
}
return encoderOfResolverUnion(e, schema, typ)
}
func decoderOfMapUnion(d *decoderContext, union *UnionSchema, typ reflect2.Type) ValDecoder {
mapType := typ.(*reflect2.UnsafeMapType)
typeDecs := make([]ValDecoder, len(union.Types()))
for i, s := range union.Types() {
if s.Type() == Null {
continue
}
typeDecs[i] = newEfaceDecoder(d, s)
}
return &mapUnionDecoder{
cfg: d.cfg,
schema: union,
mapType: mapType,
elemType: mapType.Elem(),
typeDecs: typeDecs,
}
}
type mapUnionDecoder struct {
cfg *frozenConfig
schema *UnionSchema
mapType *reflect2.UnsafeMapType
elemType reflect2.Type
typeDecs []ValDecoder
}
func (d *mapUnionDecoder) Decode(ptr unsafe.Pointer, r *Reader) {
idx, resSchema := getUnionSchema(d.schema, r)
if resSchema == nil {
return
}
// In a null case, just return
if resSchema.Type() == Null {
return
}
if d.mapType.UnsafeIsNil(ptr) {
d.mapType.UnsafeSet(ptr, d.mapType.UnsafeMakeMap(1))
}
key := schemaTypeName(resSchema)
keyPtr := reflect2.PtrOf(key)
elemPtr := d.elemType.UnsafeNew()
d.typeDecs[idx].Decode(elemPtr, r)
d.mapType.UnsafeSetIndex(ptr, keyPtr, elemPtr)
}
func encoderOfMapUnion(e *encoderContext, union *UnionSchema, _ reflect2.Type) ValEncoder {
return &mapUnionEncoder{
cfg: e.cfg,
schema: union,
}
}
type mapUnionEncoder struct {
cfg *frozenConfig
schema *UnionSchema
}
func (e *mapUnionEncoder) Encode(ptr unsafe.Pointer, w *Writer) {
m := *((*map[string]any)(ptr))
if len(m) > 1 {
w.Error = errors.New("avro: cannot encode union map with multiple entries")
return
}
name := "null"
val := any(nil)
for k, v := range m {
name = k
val = v
break
}
schema, pos := e.schema.Types().Get(name)
if schema == nil {
w.Error = fmt.Errorf("avro: unknown union type %s", name)
return
}
w.WriteInt(int32(pos))
if schema.Type() == Null && val == nil {
return
}
elemType := reflect2.TypeOf(val)
elemPtr := reflect2.PtrOf(val)
encoder := encoderOfType(newEncoderContext(e.cfg), schema, elemType)
if elemType.LikePtr() {
encoder = &onePtrEncoder{encoder}
}
encoder.Encode(elemPtr, w)
}
func decoderOfNullableUnion(d *decoderContext, schema Schema, typ reflect2.Type) ValDecoder {
union := schema.(*UnionSchema)
_, typeIdx := union.Indices()
var (
baseTyp reflect2.Type
isPtr bool
)
switch v := typ.(type) {
case *reflect2.UnsafePtrType:
baseTyp = v.Elem()
isPtr = true
case *reflect2.UnsafeSliceType:
baseTyp = v
}
decoder := decoderOfType(d, union.Types()[typeIdx], baseTyp)
return &unionNullableDecoder{
schema: union,
typ: baseTyp,
isPtr: isPtr,
decoder: decoder,
}
}
type unionNullableDecoder struct {
schema *UnionSchema
typ reflect2.Type
isPtr bool
decoder ValDecoder
}
func (d *unionNullableDecoder) Decode(ptr unsafe.Pointer, r *Reader) {
_, schema := getUnionSchema(d.schema, r)
if schema == nil {
return
}
if schema.Type() == Null {
*((*unsafe.Pointer)(ptr)) = nil
return
}
// Handle the non-ptr case separately.
if !d.isPtr {
if d.typ.UnsafeIsNil(ptr) {
// Create a new instance.
newPtr := d.typ.UnsafeNew()
d.decoder.Decode(newPtr, r)
d.typ.UnsafeSet(ptr, newPtr)
return
}
// Reuse the existing instance.
d.decoder.Decode(ptr, r)
return
}
if *((*unsafe.Pointer)(ptr)) == nil {
// Create new instance.
newPtr := d.typ.UnsafeNew()
d.decoder.Decode(newPtr, r)
*((*unsafe.Pointer)(ptr)) = newPtr
return
}
// Reuse existing instance.
d.decoder.Decode(*((*unsafe.Pointer)(ptr)), r)
}
func encoderOfNullableUnion(e *encoderContext, schema Schema, typ reflect2.Type) ValEncoder {
union := schema.(*UnionSchema)
nullIdx, typeIdx := union.Indices()
var (
baseTyp reflect2.Type
isPtr bool
)
switch v := typ.(type) {
case *reflect2.UnsafePtrType:
baseTyp = v.Elem()
isPtr = true
case *reflect2.UnsafeSliceType:
baseTyp = v
}
encoder := encoderOfType(e, union.Types()[typeIdx], baseTyp)
return &unionNullableEncoder{
schema: union,
encoder: encoder,
isPtr: isPtr,
nullIdx: int32(nullIdx),
typeIdx: int32(typeIdx),
}
}
type unionNullableEncoder struct {
schema *UnionSchema
encoder ValEncoder
isPtr bool
nullIdx int32
typeIdx int32
}
func (e *unionNullableEncoder) Encode(ptr unsafe.Pointer, w *Writer) {
if *((*unsafe.Pointer)(ptr)) == nil {
w.WriteInt(e.nullIdx)
return
}
w.WriteInt(e.typeIdx)
newPtr := ptr
if e.isPtr {
newPtr = *((*unsafe.Pointer)(ptr))
}
e.encoder.Encode(newPtr, w)
}
func decoderOfResolvedUnion(d *decoderContext, schema Schema) (ValDecoder, error) {
union := schema.(*UnionSchema)
types := make([]reflect2.Type, len(union.Types()))
decoders := make([]ValDecoder, len(union.Types()))
for i, schema := range union.Types() {
name := unionResolutionName(schema)
typ, err := d.cfg.resolver.Type(name)
if err != nil {
if d.cfg.config.UnionResolutionError {
return nil, err
}
if d.cfg.config.PartialUnionTypeResolution {
decoders[i] = nil
types[i] = nil
continue
}
decoders = []ValDecoder{}
types = []reflect2.Type{}
break
}
decoder := decoderOfType(d, schema, typ)
decoders[i] = decoder
types[i] = typ
}
return &unionResolvedDecoder{
cfg: d.cfg,
schema: union,
types: types,
decoders: decoders,
}, nil
}
type unionResolvedDecoder struct {
cfg *frozenConfig
schema *UnionSchema
types []reflect2.Type
decoders []ValDecoder
}
func (d *unionResolvedDecoder) Decode(ptr unsafe.Pointer, r *Reader) {
i, schema := getUnionSchema(d.schema, r)
if schema == nil {
return
}
pObj := (*any)(ptr)
if schema.Type() == Null {
*pObj = nil
return
}
if i >= len(d.decoders) || d.decoders[i] == nil {
if d.cfg.config.UnionResolutionError {
r.ReportError("decode union type", "unknown union type")
return
}
// We cannot resolve this, set it to the map type
name := schemaTypeName(schema)
obj := map[string]any{}
vTyp, err := genericReceiver(schema)
if err != nil {
r.ReportError("Union", err.Error())
return
}
obj[name] = genericDecode(vTyp, decoderOfType(newDecoderContext(d.cfg), schema, vTyp), r)
*pObj = obj
return
}
typ := d.types[i]
var newPtr unsafe.Pointer
switch typ.Kind() {
case reflect.Map:
mapType := typ.(*reflect2.UnsafeMapType)
newPtr = mapType.UnsafeMakeMap(1)
case reflect.Slice:
mapType := typ.(*reflect2.UnsafeSliceType)
newPtr = mapType.UnsafeMakeSlice(1, 1)
case reflect.Ptr:
elemType := typ.(*reflect2.UnsafePtrType).Elem()
newPtr = elemType.UnsafeNew()
default:
newPtr = typ.UnsafeNew()
}
d.decoders[i].Decode(newPtr, r)
*pObj = typ.UnsafeIndirect(newPtr)
}
func unionResolutionName(schema Schema) string {
name := schemaTypeName(schema)
switch schema.Type() {
case Map:
name += ":"
valSchema := schema.(*MapSchema).Values()
valName := schemaTypeName(valSchema)
name += valName
case Array:
name += ":"
itemSchema := schema.(*ArraySchema).Items()
itemName := schemaTypeName(itemSchema)
name += itemName
}
return name
}
func encoderOfResolverUnion(e *encoderContext, schema Schema, typ reflect2.Type) ValEncoder {
union := schema.(*UnionSchema)
names, err := e.cfg.resolver.Name(typ)
if err != nil {
return &errorEncoder{err: err}
}
var pos int
for _, name := range names {
if idx := strings.Index(name, ":"); idx > 0 {
name = name[:idx]
}
schema, pos = union.Types().Get(name)
if schema != nil {
break
}
}
if schema == nil {
return &errorEncoder{err: fmt.Errorf("avro: unknown union type %s", names[0])}
}
encoder := encoderOfType(e, schema, typ)
return &unionResolverEncoder{
pos: pos,
encoder: encoder,
}
}
type unionResolverEncoder struct {
pos int
encoder ValEncoder
}
func (e *unionResolverEncoder) Encode(ptr unsafe.Pointer, w *Writer) {
w.WriteInt(int32(e.pos))
e.encoder.Encode(ptr, w)
}
func getUnionSchema(schema *UnionSchema, r *Reader) (int, Schema) {
types := schema.Types()
idx := int(r.ReadInt())
if idx < 0 || idx > len(types)-1 {
r.ReportError("decode union type", "unknown union type")
return 0, nil
}
return idx, types[idx]
}