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encoder.go
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encoder.go
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package avro
import (
"encoding/binary"
"io"
"math"
)
// Encoder is an interface that provides low-level support for serializing Avro values.
type Encoder interface {
// Writes a null value. Doesn't actually do anything but may advance the state of Encoder implementation if it
// is stateful.
WriteNull(interface{})
// Writes a boolean value.
WriteBoolean(bool)
// Writes an int value.
WriteInt(int32)
// Writes a long value.
WriteLong(int64)
// Writes a float value.
WriteFloat(float32)
// Writes a double value.
WriteDouble(float64)
// Writes a bytes value.
WriteBytes([]byte)
// Writes a string value.
WriteString(string)
// WriteArrayStart should be called when starting to serialize an array providing it with a number of items in
// array block.
WriteArrayStart(int64)
// WriteArrayNext should be called after finishing writing an array block either passing it the number of items in
// next block or 0 indicating the end of array.
WriteArrayNext(int64)
// WriteMapStart should be called when starting to serialize a map providing it with a number of items in
// map block.
WriteMapStart(int64)
// WriteMapNext should be called after finishing writing a map block either passing it the number of items in
// next block or 0 indicating the end of map.
WriteMapNext(int64)
// Writes raw bytes to this Encoder.
WriteRaw([]byte)
}
// BinaryEncoder implements Encoder and provides low-level support for serializing Avro values.
type BinaryEncoder struct {
buffer io.Writer
}
// NewBinaryEncoder creates a new BinaryEncoder that will write to a given io.Writer.
func NewBinaryEncoder(buffer io.Writer) *BinaryEncoder {
return &BinaryEncoder{buffer: buffer}
}
// WriteNull writes a null value. Doesn't actually do anything in this implementation.
func (be *BinaryEncoder) WriteNull(_ interface{}) {
//do nothing
}
// WriteBoolean writes a boolean value.
func (be *BinaryEncoder) WriteBoolean(x bool) {
if x {
_, _ = be.buffer.Write([]byte{0x01})
} else {
_, _ = be.buffer.Write([]byte{0x00})
}
}
// WriteInt writes an int value.
func (be *BinaryEncoder) WriteInt(x int32) {
_, _ = be.buffer.Write(be.encodeVarint32(x))
}
// WriteLong writes a long value.
func (be *BinaryEncoder) WriteLong(x int64) {
_, _ = be.buffer.Write(be.encodeVarint64(x))
}
// WriteFloat writes a float value.
func (be *BinaryEncoder) WriteFloat(x float32) {
bytes := make([]byte, 4)
binary.LittleEndian.PutUint32(bytes, math.Float32bits(x))
_, _ = be.buffer.Write(bytes)
}
// WriteDouble writes a double value.
func (be *BinaryEncoder) WriteDouble(x float64) {
bytes := make([]byte, 8)
binary.LittleEndian.PutUint64(bytes, math.Float64bits(x))
_, _ = be.buffer.Write(bytes)
}
// WriteRaw writes raw bytes to this Encoder.
func (be *BinaryEncoder) WriteRaw(x []byte) {
_, _ = be.buffer.Write(x)
}
// WriteBytes writes a bytes value.
func (be *BinaryEncoder) WriteBytes(x []byte) {
be.WriteLong(int64(len(x)))
_, _ = be.buffer.Write(x)
}
// WriteString writes a string value.
func (be *BinaryEncoder) WriteString(x string) {
be.WriteLong(int64(len(x)))
_, _ = be.buffer.Write([]byte(x))
}
// WriteArrayStart should be called when starting to serialize an array providing it with a number of items in
// array block.
func (be *BinaryEncoder) WriteArrayStart(count int64) {
be.writeItemCount(count)
}
// WriteArrayNext should be called after finishing writing an array block either passing it the number of items in
// next block or 0 indicating the end of array.
func (be *BinaryEncoder) WriteArrayNext(count int64) {
be.writeItemCount(count)
}
// WriteMapStart should be called when starting to serialize a map providing it with a number of items in
// map block.
func (be *BinaryEncoder) WriteMapStart(count int64) {
be.writeItemCount(count)
}
// WriteMapNext should be called after finishing writing a map block either passing it the number of items in
// next block or 0 indicating the end of map.
func (be *BinaryEncoder) WriteMapNext(count int64) {
be.writeItemCount(count)
}
func (be *BinaryEncoder) writeItemCount(count int64) {
be.WriteLong(count)
}
func (be *BinaryEncoder) encodeVarint32(n int32) []byte {
var buf [5]byte
ux := uint32(n) << 1
if n < 0 {
ux = ^ux
}
i := 0
for ux >= 0x80 {
buf[i] = byte(ux) | 0x80
ux >>= 7
i++
}
buf[i] = byte(ux)
return buf[0 : i+1]
}
func (be *BinaryEncoder) encodeVarint64(x int64) []byte {
var buf [10]byte
ux := uint64(x) << 1
if x < 0 {
ux = ^ux
}
i := 0
for ux >= 0x80 {
buf[i] = byte(ux) | 0x80
ux >>= 7
i++
}
buf[i] = byte(ux)
return buf[0 : i+1]
}