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9fe4437bda
* Use vendored go-swagger * vendor go-swagger * revert un wanteed change * remove un-needed GO111MODULE * Update Makefile Co-Authored-By: techknowlogick <matti@mdranta.net>
271 lines
5.4 KiB
Go
271 lines
5.4 KiB
Go
// Package buffer implements a buffer for serialization, consisting of a chain of []byte-s to
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// reduce copying and to allow reuse of individual chunks.
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package buffer
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import (
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"io"
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"sync"
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)
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// PoolConfig contains configuration for the allocation and reuse strategy.
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type PoolConfig struct {
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StartSize int // Minimum chunk size that is allocated.
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PooledSize int // Minimum chunk size that is reused, reusing chunks too small will result in overhead.
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MaxSize int // Maximum chunk size that will be allocated.
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}
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var config = PoolConfig{
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StartSize: 128,
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PooledSize: 512,
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MaxSize: 32768,
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}
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// Reuse pool: chunk size -> pool.
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var buffers = map[int]*sync.Pool{}
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func initBuffers() {
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for l := config.PooledSize; l <= config.MaxSize; l *= 2 {
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buffers[l] = new(sync.Pool)
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}
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}
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func init() {
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initBuffers()
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}
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// Init sets up a non-default pooling and allocation strategy. Should be run before serialization is done.
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func Init(cfg PoolConfig) {
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config = cfg
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initBuffers()
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}
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// putBuf puts a chunk to reuse pool if it can be reused.
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func putBuf(buf []byte) {
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size := cap(buf)
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if size < config.PooledSize {
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return
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}
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if c := buffers[size]; c != nil {
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c.Put(buf[:0])
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}
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}
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// getBuf gets a chunk from reuse pool or creates a new one if reuse failed.
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func getBuf(size int) []byte {
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if size < config.PooledSize {
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return make([]byte, 0, size)
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}
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if c := buffers[size]; c != nil {
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v := c.Get()
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if v != nil {
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return v.([]byte)
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}
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}
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return make([]byte, 0, size)
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}
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// Buffer is a buffer optimized for serialization without extra copying.
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type Buffer struct {
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// Buf is the current chunk that can be used for serialization.
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Buf []byte
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toPool []byte
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bufs [][]byte
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}
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// EnsureSpace makes sure that the current chunk contains at least s free bytes,
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// possibly creating a new chunk.
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func (b *Buffer) EnsureSpace(s int) {
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if cap(b.Buf)-len(b.Buf) >= s {
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return
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}
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l := len(b.Buf)
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if l > 0 {
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if cap(b.toPool) != cap(b.Buf) {
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// Chunk was reallocated, toPool can be pooled.
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putBuf(b.toPool)
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}
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if cap(b.bufs) == 0 {
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b.bufs = make([][]byte, 0, 8)
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}
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b.bufs = append(b.bufs, b.Buf)
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l = cap(b.toPool) * 2
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} else {
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l = config.StartSize
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}
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if l > config.MaxSize {
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l = config.MaxSize
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}
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b.Buf = getBuf(l)
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b.toPool = b.Buf
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}
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// AppendByte appends a single byte to buffer.
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func (b *Buffer) AppendByte(data byte) {
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if cap(b.Buf) == len(b.Buf) { // EnsureSpace won't be inlined.
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b.EnsureSpace(1)
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}
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b.Buf = append(b.Buf, data)
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}
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// AppendBytes appends a byte slice to buffer.
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func (b *Buffer) AppendBytes(data []byte) {
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for len(data) > 0 {
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if cap(b.Buf) == len(b.Buf) { // EnsureSpace won't be inlined.
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b.EnsureSpace(1)
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}
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sz := cap(b.Buf) - len(b.Buf)
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if sz > len(data) {
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sz = len(data)
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}
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b.Buf = append(b.Buf, data[:sz]...)
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data = data[sz:]
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}
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}
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// AppendBytes appends a string to buffer.
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func (b *Buffer) AppendString(data string) {
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for len(data) > 0 {
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if cap(b.Buf) == len(b.Buf) { // EnsureSpace won't be inlined.
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b.EnsureSpace(1)
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}
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sz := cap(b.Buf) - len(b.Buf)
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if sz > len(data) {
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sz = len(data)
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}
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b.Buf = append(b.Buf, data[:sz]...)
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data = data[sz:]
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}
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}
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// Size computes the size of a buffer by adding sizes of every chunk.
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func (b *Buffer) Size() int {
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size := len(b.Buf)
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for _, buf := range b.bufs {
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size += len(buf)
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}
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return size
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}
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// DumpTo outputs the contents of a buffer to a writer and resets the buffer.
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func (b *Buffer) DumpTo(w io.Writer) (written int, err error) {
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var n int
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for _, buf := range b.bufs {
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if err == nil {
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n, err = w.Write(buf)
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written += n
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}
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putBuf(buf)
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}
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if err == nil {
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n, err = w.Write(b.Buf)
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written += n
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}
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putBuf(b.toPool)
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b.bufs = nil
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b.Buf = nil
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b.toPool = nil
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return
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}
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// BuildBytes creates a single byte slice with all the contents of the buffer. Data is
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// copied if it does not fit in a single chunk. You can optionally provide one byte
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// slice as argument that it will try to reuse.
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func (b *Buffer) BuildBytes(reuse ...[]byte) []byte {
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if len(b.bufs) == 0 {
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ret := b.Buf
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b.toPool = nil
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b.Buf = nil
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return ret
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}
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var ret []byte
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size := b.Size()
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// If we got a buffer as argument and it is big enought, reuse it.
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if len(reuse) == 1 && cap(reuse[0]) >= size {
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ret = reuse[0][:0]
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} else {
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ret = make([]byte, 0, size)
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}
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for _, buf := range b.bufs {
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ret = append(ret, buf...)
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putBuf(buf)
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}
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ret = append(ret, b.Buf...)
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putBuf(b.toPool)
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b.bufs = nil
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b.toPool = nil
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b.Buf = nil
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return ret
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}
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type readCloser struct {
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offset int
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bufs [][]byte
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}
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func (r *readCloser) Read(p []byte) (n int, err error) {
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for _, buf := range r.bufs {
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// Copy as much as we can.
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x := copy(p[n:], buf[r.offset:])
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n += x // Increment how much we filled.
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// Did we empty the whole buffer?
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if r.offset+x == len(buf) {
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// On to the next buffer.
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r.offset = 0
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r.bufs = r.bufs[1:]
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// We can release this buffer.
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putBuf(buf)
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} else {
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r.offset += x
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}
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if n == len(p) {
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break
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}
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}
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// No buffers left or nothing read?
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if len(r.bufs) == 0 {
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err = io.EOF
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}
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return
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}
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func (r *readCloser) Close() error {
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// Release all remaining buffers.
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for _, buf := range r.bufs {
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putBuf(buf)
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}
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// In case Close gets called multiple times.
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r.bufs = nil
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return nil
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}
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// ReadCloser creates an io.ReadCloser with all the contents of the buffer.
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func (b *Buffer) ReadCloser() io.ReadCloser {
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ret := &readCloser{0, append(b.bufs, b.Buf)}
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b.bufs = nil
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b.toPool = nil
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b.Buf = nil
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return ret
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}
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