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gitea/vendor/github.com/ulikunitz/xz/lzma/writer2.go

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// Copyright 2014-2017 Ulrich Kunitz. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package lzma
import (
"bytes"
"errors"
"io"
)
// Writer2Config is used to create a Writer2 using parameters.
type Writer2Config struct {
// The properties for the encoding. If the it is nil the value
// {LC: 3, LP: 0, PB: 2} will be chosen.
Properties *Properties
// The capacity of the dictionary. If DictCap is zero, the value
// 8 MiB will be chosen.
DictCap int
// Size of the lookahead buffer; value 0 indicates default size
// 4096
BufSize int
// Match algorithm
Matcher MatchAlgorithm
}
// fill replaces zero values with default values.
func (c *Writer2Config) fill() {
if c.Properties == nil {
c.Properties = &Properties{LC: 3, LP: 0, PB: 2}
}
if c.DictCap == 0 {
c.DictCap = 8 * 1024 * 1024
}
if c.BufSize == 0 {
c.BufSize = 4096
}
}
// Verify checks the Writer2Config for correctness. Zero values will be
// replaced by default values.
func (c *Writer2Config) Verify() error {
c.fill()
var err error
if c == nil {
return errors.New("lzma: WriterConfig is nil")
}
if c.Properties == nil {
return errors.New("lzma: WriterConfig has no Properties set")
}
if err = c.Properties.verify(); err != nil {
return err
}
if !(MinDictCap <= c.DictCap && int64(c.DictCap) <= MaxDictCap) {
return errors.New("lzma: dictionary capacity is out of range")
}
if !(maxMatchLen <= c.BufSize) {
return errors.New("lzma: lookahead buffer size too small")
}
if c.Properties.LC+c.Properties.LP > 4 {
return errors.New("lzma: sum of lc and lp exceeds 4")
}
if err = c.Matcher.verify(); err != nil {
return err
}
return nil
}
// Writer2 supports the creation of an LZMA2 stream. But note that
// written data is buffered, so call Flush or Close to write data to the
// underlying writer. The Close method writes the end-of-stream marker
// to the stream. So you may be able to concatenate the output of two
// writers as long the output of the first writer has only been flushed
// but not closed.
//
// Any change to the fields Properties, DictCap must be done before the
// first call to Write, Flush or Close.
type Writer2 struct {
w io.Writer
start *state
encoder *encoder
cstate chunkState
ctype chunkType
buf bytes.Buffer
lbw LimitedByteWriter
}
// NewWriter2 creates an LZMA2 chunk sequence writer with the default
// parameters and options.
func NewWriter2(lzma2 io.Writer) (w *Writer2, err error) {
return Writer2Config{}.NewWriter2(lzma2)
}
// NewWriter2 creates a new LZMA2 writer using the given configuration.
func (c Writer2Config) NewWriter2(lzma2 io.Writer) (w *Writer2, err error) {
if err = c.Verify(); err != nil {
return nil, err
}
w = &Writer2{
w: lzma2,
start: newState(*c.Properties),
cstate: start,
ctype: start.defaultChunkType(),
}
w.buf.Grow(maxCompressed)
w.lbw = LimitedByteWriter{BW: &w.buf, N: maxCompressed}
m, err := c.Matcher.new(c.DictCap)
if err != nil {
return nil, err
}
d, err := newEncoderDict(c.DictCap, c.BufSize, m)
if err != nil {
return nil, err
}
w.encoder, err = newEncoder(&w.lbw, cloneState(w.start), d, 0)
if err != nil {
return nil, err
}
return w, nil
}
// written returns the number of bytes written to the current chunk
func (w *Writer2) written() int {
if w.encoder == nil {
return 0
}
return int(w.encoder.Compressed()) + w.encoder.dict.Buffered()
}
// errClosed indicates that the writer is closed.
var errClosed = errors.New("lzma: writer closed")
// Writes data to LZMA2 stream. Note that written data will be buffered.
// Use Flush or Close to ensure that data is written to the underlying
// writer.
func (w *Writer2) Write(p []byte) (n int, err error) {
if w.cstate == stop {
return 0, errClosed
}
for n < len(p) {
m := maxUncompressed - w.written()
if m <= 0 {
panic("lzma: maxUncompressed reached")
}
var q []byte
if n+m < len(p) {
q = p[n : n+m]
} else {
q = p[n:]
}
k, err := w.encoder.Write(q)
n += k
if err != nil && err != ErrLimit {
return n, err
}
if err == ErrLimit || k == m {
if err = w.flushChunk(); err != nil {
return n, err
}
}
}
return n, nil
}
// writeUncompressedChunk writes an uncompressed chunk to the LZMA2
// stream.
func (w *Writer2) writeUncompressedChunk() error {
u := w.encoder.Compressed()
if u <= 0 {
return errors.New("lzma: can't write empty uncompressed chunk")
}
if u > maxUncompressed {
panic("overrun of uncompressed data limit")
}
switch w.ctype {
case cLRND:
w.ctype = cUD
default:
w.ctype = cU
}
w.encoder.state = w.start
header := chunkHeader{
ctype: w.ctype,
uncompressed: uint32(u - 1),
}
hdata, err := header.MarshalBinary()
if err != nil {
return err
}
if _, err = w.w.Write(hdata); err != nil {
return err
}
_, err = w.encoder.dict.CopyN(w.w, int(u))
return err
}
// writeCompressedChunk writes a compressed chunk to the underlying
// writer.
func (w *Writer2) writeCompressedChunk() error {
if w.ctype == cU || w.ctype == cUD {
panic("chunk type uncompressed")
}
u := w.encoder.Compressed()
if u <= 0 {
return errors.New("writeCompressedChunk: empty chunk")
}
if u > maxUncompressed {
panic("overrun of uncompressed data limit")
}
c := w.buf.Len()
if c <= 0 {
panic("no compressed data")
}
if c > maxCompressed {
panic("overrun of compressed data limit")
}
header := chunkHeader{
ctype: w.ctype,
uncompressed: uint32(u - 1),
compressed: uint16(c - 1),
props: w.encoder.state.Properties,
}
hdata, err := header.MarshalBinary()
if err != nil {
return err
}
if _, err = w.w.Write(hdata); err != nil {
return err
}
_, err = io.Copy(w.w, &w.buf)
return err
}
// writes a single chunk to the underlying writer.
func (w *Writer2) writeChunk() error {
u := int(uncompressedHeaderLen + w.encoder.Compressed())
c := headerLen(w.ctype) + w.buf.Len()
if u < c {
return w.writeUncompressedChunk()
}
return w.writeCompressedChunk()
}
// flushChunk terminates the current chunk. The encoder will be reset
// to support the next chunk.
func (w *Writer2) flushChunk() error {
if w.written() == 0 {
return nil
}
var err error
if err = w.encoder.Close(); err != nil {
return err
}
if err = w.writeChunk(); err != nil {
return err
}
w.buf.Reset()
w.lbw.N = maxCompressed
if err = w.encoder.Reopen(&w.lbw); err != nil {
return err
}
if err = w.cstate.next(w.ctype); err != nil {
return err
}
w.ctype = w.cstate.defaultChunkType()
w.start = cloneState(w.encoder.state)
return nil
}
// Flush writes all buffered data out to the underlying stream. This
// could result in multiple chunks to be created.
func (w *Writer2) Flush() error {
if w.cstate == stop {
return errClosed
}
for w.written() > 0 {
if err := w.flushChunk(); err != nil {
return err
}
}
return nil
}
// Close terminates the LZMA2 stream with an EOS chunk.
func (w *Writer2) Close() error {
if w.cstate == stop {
return errClosed
}
if err := w.Flush(); err != nil {
return nil
}
// write zero byte EOS chunk
_, err := w.w.Write([]byte{0})
if err != nil {
return err
}
w.cstate = stop
return nil
}