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datum_writer.go
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datum_writer.go
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package avro
import (
"errors"
"fmt"
"reflect"
)
// Writer is an interface that may be implemented to avoid using runtime reflection during serialization.
// Implementing it is optional and may be used as an optimization. Falls back to using reflection if not implemented.
type Writer interface {
Write(enc Encoder) error
}
// DatumWriter is an interface that is responsible for writing structured data according to schema to an encoder.
type DatumWriter interface {
// Write writes a single entry using this DatumWriter according to provided Schema.
// Accepts a value to write and Encoder to write to.
// May return an error indicating a write failure.
Write(interface{}, Encoder) error
// Sets the schema for this DatumWriter to know the data structure.
// Note that it must be called before calling Write.
SetSchema(Schema)
}
// SpecificDatumWriter implements DatumWriter and is used for writing Go structs in Avro format.
type SpecificDatumWriter struct {
schema Schema
}
// NewSpecificDatumWriter creates a new SpecificDatumWriter.
func NewSpecificDatumWriter() *SpecificDatumWriter {
return &SpecificDatumWriter{}
}
// SetSchema sets the provided schema for this SpecificDatumWriter to know the data structure.
// Note that it must be called before calling Write.
func (writer *SpecificDatumWriter) SetSchema(schema Schema) {
writer.schema = schema
}
// Write writes a single Go struct using this SpecificDatumWriter according to provided Schema.
// Accepts a value to write and Encoder to write to. Field names should match field names in Avro schema but be exported
// (e.g. "some_value" in Avro schema is expected to be Some_value in struct) or you may provide Go struct tags to
// explicitly show how to map fields (e.g. if you want to map "some_value" field of type int to SomeValue in Go struct
// you should define your struct field as follows: SomeValue int32 `avro:"some_field"`).
// May return an error indicating a write failure.
func (writer *SpecificDatumWriter) Write(obj interface{}, enc Encoder) error {
if writer, ok := obj.(Writer); ok {
return writer.Write(enc)
}
rv := reflect.ValueOf(obj)
if writer.schema == nil {
return SchemaNotSet
}
return writer.write(rv, enc, writer.schema)
}
func (writer *SpecificDatumWriter) write(v reflect.Value, enc Encoder, s Schema) error {
switch s.Type() {
case Null:
case Boolean:
return writer.writeBoolean(v, enc, s)
case Int:
return writer.writeInt(v, enc, s)
case Long:
return writer.writeLong(v, enc, s)
case Float:
return writer.writeFloat(v, enc, s)
case Double:
return writer.writeDouble(v, enc, s)
case Bytes:
return writer.writeBytes(v, enc, s)
case String:
return writer.writeString(v, enc, s)
case Array:
return writer.writeArray(v, enc, s)
case Map:
return writer.writeMap(v, enc, s)
case Enum:
return writer.writeEnum(v, enc, s)
case Union:
return writer.writeUnion(v, enc, s)
case Fixed:
return writer.writeFixed(v, enc, s)
case Record:
return writer.writeRecord(v, enc, s)
case Recursive:
return writer.writeRecord(v, enc, s.(*RecursiveSchema).Actual)
}
return nil
}
func (writer *SpecificDatumWriter) writeBoolean(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid boolean value: %v", v.Interface())
}
enc.WriteBoolean(v.Interface().(bool))
return nil
}
func (writer *SpecificDatumWriter) writeInt(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid int value: %v", v.Interface())
}
enc.WriteInt(v.Interface().(int32))
return nil
}
func (writer *SpecificDatumWriter) writeLong(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid long value: %v", v.Interface())
}
enc.WriteLong(v.Interface().(int64))
return nil
}
func (writer *SpecificDatumWriter) writeFloat(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid float value: %v", v.Interface())
}
enc.WriteFloat(v.Interface().(float32))
return nil
}
func (writer *SpecificDatumWriter) writeDouble(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid double value: %v", v.Interface())
}
enc.WriteDouble(v.Interface().(float64))
return nil
}
func (writer *SpecificDatumWriter) writeBytes(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid bytes value: %v", v.Interface())
}
enc.WriteBytes(v.Interface().([]byte))
return nil
}
func (writer *SpecificDatumWriter) writeString(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid string value: %v", v.Interface())
}
enc.WriteString(v.Interface().(string))
return nil
}
func (writer *SpecificDatumWriter) writeArray(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid array value: %v", v.Interface())
}
if v.Len() == 0 {
enc.WriteArrayNext(0)
return nil
}
//TODO should probably write blocks of some length
enc.WriteArrayStart(int64(v.Len()))
for i := 0; i < v.Len(); i++ {
if err := writer.write(v.Index(i), enc, s.(*ArraySchema).Items); err != nil {
return err
}
}
enc.WriteArrayNext(0)
return nil
}
func (writer *SpecificDatumWriter) writeMap(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid map value: %v", v.Interface())
}
if v.Len() == 0 {
enc.WriteMapNext(0)
return nil
}
//TODO should probably write blocks of some length
enc.WriteMapStart(int64(v.Len()))
for _, key := range v.MapKeys() {
err := writer.writeString(key, enc, &StringSchema{})
if err != nil {
return err
}
if err = writer.write(v.MapIndex(key), enc, s.(*MapSchema).Values); err != nil {
return err
}
}
enc.WriteMapNext(0)
return nil
}
func (writer *SpecificDatumWriter) writeEnum(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid enum value: %v", v.Interface())
}
enc.WriteInt(v.Interface().(*GenericEnum).GetIndex())
return nil
}
func (writer *SpecificDatumWriter) writeUnion(v reflect.Value, enc Encoder, s Schema) error {
unionSchema := s.(*UnionSchema)
index := unionSchema.GetType(v)
if unionSchema.Types == nil || index < 0 || index >= len(unionSchema.Types) {
return fmt.Errorf("Invalid union value: %v", v.Interface())
}
enc.WriteLong(int64(index))
return writer.write(v, enc, unionSchema.Types[index])
}
func (writer *SpecificDatumWriter) writeFixed(v reflect.Value, enc Encoder, s Schema) error {
fs := s.(*FixedSchema)
if !fs.Validate(v) {
return fmt.Errorf("Invalid fixed value: %v", v.Interface())
}
// Write the raw bytes. The length is known by the schema
enc.WriteRaw(v.Interface().([]byte))
return nil
}
func (writer *SpecificDatumWriter) writeRecord(v reflect.Value, enc Encoder, s Schema) error {
if !s.Validate(v) {
return fmt.Errorf("Invalid record value: %v", v.Interface())
}
rs := assertRecordSchema(s)
for i := range rs.Fields {
schemaField := rs.Fields[i]
field, err := findField(v, schemaField.Name)
if err != nil {
return err
}
if err := writer.write(field, enc, schemaField.Type); err != nil {
return err
}
}
return nil
}
// GenericDatumWriter implements DatumWriter and is used for writing GenericRecords or other Avro supported types
// (full list is: interface{}, bool, int32, int64, float32, float64, string, slices of any type, maps with string keys
// and any values, GenericEnums) to a given Encoder.
type GenericDatumWriter struct {
schema Schema
}
// NewGenericDatumWriter creates a new GenericDatumWriter.
func NewGenericDatumWriter() *GenericDatumWriter {
return &GenericDatumWriter{}
}
// SetSchema sets the provided schema for this GenericDatumWriter to know the data structure.
// Note that it must be called before calling Write.
func (writer *GenericDatumWriter) SetSchema(schema Schema) {
writer.schema = schema
}
// Write writes a single entry using this GenericDatumWriter according to provided Schema.
// Accepts a value to write and Encoder to write to.
// May return an error indicating a write failure.
func (writer *GenericDatumWriter) Write(obj interface{}, enc Encoder) error {
return writer.write(obj, enc, writer.schema)
}
func (writer *GenericDatumWriter) write(v interface{}, enc Encoder, s Schema) error {
switch s.Type() {
case Null:
case Boolean:
return writer.writeBoolean(v, enc)
case Int:
return writer.writeInt(v, enc)
case Long:
return writer.writeLong(v, enc)
case Float:
return writer.writeFloat(v, enc)
case Double:
return writer.writeDouble(v, enc)
case Bytes:
return writer.writeBytes(v, enc)
case String:
return writer.writeString(v, enc)
case Array:
return writer.writeArray(v, enc, s)
case Map:
return writer.writeMap(v, enc, s)
case Enum:
return writer.writeEnum(v, enc, s)
case Union:
return writer.writeUnion(v, enc, s)
case Fixed:
return writer.writeFixed(v, enc, s)
case Record:
return writer.writeRecord(v, enc, s)
case Recursive:
return writer.writeRecord(v, enc, s.(*RecursiveSchema).Actual)
}
return nil
}
func (writer *GenericDatumWriter) writeBoolean(v interface{}, enc Encoder) error {
switch value := v.(type) {
case bool:
enc.WriteBoolean(value)
default:
return fmt.Errorf("%v is not a boolean", v)
}
return nil
}
func (writer *GenericDatumWriter) writeInt(v interface{}, enc Encoder) error {
switch value := v.(type) {
case int32:
enc.WriteInt(value)
default:
return fmt.Errorf("%v is not an int32", v)
}
return nil
}
func (writer *GenericDatumWriter) writeLong(v interface{}, enc Encoder) error {
switch value := v.(type) {
case int64:
enc.WriteLong(value)
default:
return fmt.Errorf("%v is not an int64", v)
}
return nil
}
func (writer *GenericDatumWriter) writeFloat(v interface{}, enc Encoder) error {
switch value := v.(type) {
case float32:
enc.WriteFloat(value)
default:
return fmt.Errorf("%v is not a float32", v)
}
return nil
}
func (writer *GenericDatumWriter) writeDouble(v interface{}, enc Encoder) error {
switch value := v.(type) {
case float64:
enc.WriteDouble(value)
default:
return fmt.Errorf("%v is not a float64", v)
}
return nil
}
func (writer *GenericDatumWriter) writeBytes(v interface{}, enc Encoder) error {
switch value := v.(type) {
case []byte:
enc.WriteBytes(value)
default:
return fmt.Errorf("%v is not a []byte", v)
}
return nil
}
func (writer *GenericDatumWriter) writeString(v interface{}, enc Encoder) error {
switch value := v.(type) {
case string:
enc.WriteString(value)
default:
return fmt.Errorf("%v is not a string", v)
}
return nil
}
func (writer *GenericDatumWriter) writeArray(v interface{}, enc Encoder, s Schema) error {
rv := reflect.ValueOf(v)
if rv.Kind() != reflect.Slice && rv.Kind() != reflect.Array {
return errors.New("Not a slice or array type")
}
if rv.Len() == 0 {
enc.WriteArrayNext(0)
return nil
}
//TODO should probably write blocks of some length
enc.WriteArrayStart(int64(rv.Len()))
for i := 0; i < rv.Len(); i++ {
err := writer.write(rv.Index(i).Interface(), enc, s.(*ArraySchema).Items)
if err != nil {
return err
}
}
enc.WriteArrayNext(0)
return nil
}
func (writer *GenericDatumWriter) writeMap(v interface{}, enc Encoder, s Schema) error {
rv := reflect.ValueOf(v)
if rv.Kind() != reflect.Map {
return errors.New("Not a map type")
}
if rv.Len() == 0 {
enc.WriteMapNext(0)
return nil
}
//TODO should probably write blocks of some length
enc.WriteMapStart(int64(rv.Len()))
for _, key := range rv.MapKeys() {
err := writer.writeString(key.Interface(), enc)
if err != nil {
return err
}
err = writer.write(rv.MapIndex(key).Interface(), enc, s.(*MapSchema).Values)
if err != nil {
return err
}
}
enc.WriteMapNext(0)
return nil
}
func (writer *GenericDatumWriter) writeEnum(v interface{}, enc Encoder, s Schema) error {
switch v.(type) {
case *GenericEnum:
{
rs := s.(*EnumSchema)
for i := range rs.Symbols {
if rs.Name == rs.Symbols[i] {
err := writer.writeInt(i, enc)
if err != nil {
return err
}
break
}
}
}
case string:
{
rs := s.(*EnumSchema)
for i := range rs.Symbols {
if v.(string) == rs.Symbols[i] {
enc.WriteInt(int32(i))
break
}
}
}
default:
return fmt.Errorf("%v is not a *GenericEnum", v)
}
return nil
}
func (writer *GenericDatumWriter) writeUnion(v interface{}, enc Encoder, s Schema) error {
unionSchema := s.(*UnionSchema)
index := unionSchema.GetType(reflect.ValueOf(v))
if index != -1 {
enc.WriteInt(int32(index))
return writer.write(v, enc, unionSchema.Types[index])
}
return fmt.Errorf("Could not write %v as %s", v, s)
}
func (writer *GenericDatumWriter) isWritableAs(v interface{}, s Schema) bool {
ok := false
switch s.(type) {
case *NullSchema:
return v == nil
case *BooleanSchema:
_, ok = v.(bool)
case *IntSchema:
_, ok = v.(int32)
case *LongSchema:
_, ok = v.(int64)
case *FloatSchema:
_, ok = v.(float32)
case *DoubleSchema:
_, ok = v.(float64)
case *StringSchema:
_, ok = v.(string)
case *BytesSchema:
_, ok = v.([]byte)
case *ArraySchema:
{
kind := reflect.ValueOf(v).Kind()
return kind == reflect.Array || kind == reflect.Slice
}
case *MapSchema:
return reflect.ValueOf(v).Kind() == reflect.Map
case *EnumSchema:
_, ok = v.(*GenericEnum)
case *UnionSchema:
panic("Nested unions not supported") //this is a part of spec: http://avro.apache.org/docs/current/spec.html#binary_encode_complex
case *RecordSchema:
_, ok = v.(*GenericRecord)
case *preparedRecordSchema:
_, ok = v.(*GenericRecord)
}
return ok
}
func (writer *GenericDatumWriter) writeFixed(v interface{}, enc Encoder, s Schema) error {
return writer.writeBytes(v, enc)
}
func (writer *GenericDatumWriter) writeRecord(v interface{}, enc Encoder, s Schema) error {
switch value := v.(type) {
case *GenericRecord:
{
rs := assertRecordSchema(s)
for i := range rs.Fields {
schemaField := rs.Fields[i]
field := value.Get(schemaField.Name)
if field == nil {
field = schemaField.Default
}
err := writer.write(field, enc, schemaField.Type)
if err != nil {
return err
}
}
}
default:
return fmt.Errorf("%v is not a *GenericRecord", v)
}
return nil
}