mirror of
https://github.com/autc04/Retro68.git
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199 lines
5.3 KiB
Go
199 lines
5.3 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package zlib
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import (
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"compress/flate"
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"fmt"
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"hash"
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"hash/adler32"
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"io"
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)
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// These constants are copied from the flate package, so that code that imports
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// "compress/zlib" does not also have to import "compress/flate".
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const (
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NoCompression = flate.NoCompression
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BestSpeed = flate.BestSpeed
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BestCompression = flate.BestCompression
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DefaultCompression = flate.DefaultCompression
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)
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// A Writer takes data written to it and writes the compressed
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// form of that data to an underlying writer (see NewWriter).
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type Writer struct {
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w io.Writer
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level int
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dict []byte
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compressor *flate.Writer
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digest hash.Hash32
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err error
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scratch [4]byte
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wroteHeader bool
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}
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// NewWriter creates a new Writer.
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// Writes to the returned Writer are compressed and written to w.
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//
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// It is the caller's responsibility to call Close on the WriteCloser when done.
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// Writes may be buffered and not flushed until Close.
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func NewWriter(w io.Writer) *Writer {
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z, _ := NewWriterLevelDict(w, DefaultCompression, nil)
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return z
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}
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// NewWriterLevel is like NewWriter but specifies the compression level instead
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// of assuming DefaultCompression.
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//
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// The compression level can be DefaultCompression, NoCompression, or any
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// integer value between BestSpeed and BestCompression inclusive. The error
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// returned will be nil if the level is valid.
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func NewWriterLevel(w io.Writer, level int) (*Writer, error) {
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return NewWriterLevelDict(w, level, nil)
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}
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// NewWriterLevelDict is like NewWriterLevel but specifies a dictionary to
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// compress with.
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//
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// The dictionary may be nil. If not, its contents should not be modified until
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// the Writer is closed.
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func NewWriterLevelDict(w io.Writer, level int, dict []byte) (*Writer, error) {
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if level < DefaultCompression || level > BestCompression {
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return nil, fmt.Errorf("zlib: invalid compression level: %d", level)
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}
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return &Writer{
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w: w,
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level: level,
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dict: dict,
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}, nil
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}
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// Reset clears the state of the Writer z such that it is equivalent to its
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// initial state from NewWriterLevel or NewWriterLevelDict, but instead writing
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// to w.
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func (z *Writer) Reset(w io.Writer) {
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z.w = w
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// z.level and z.dict left unchanged.
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if z.compressor != nil {
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z.compressor.Reset(w)
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}
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if z.digest != nil {
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z.digest.Reset()
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}
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z.err = nil
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z.scratch = [4]byte{}
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z.wroteHeader = false
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}
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// writeHeader writes the ZLIB header.
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func (z *Writer) writeHeader() (err error) {
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z.wroteHeader = true
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// ZLIB has a two-byte header (as documented in RFC 1950).
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// The first four bits is the CINFO (compression info), which is 7 for the default deflate window size.
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// The next four bits is the CM (compression method), which is 8 for deflate.
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z.scratch[0] = 0x78
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// The next two bits is the FLEVEL (compression level). The four values are:
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// 0=fastest, 1=fast, 2=default, 3=best.
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// The next bit, FDICT, is set if a dictionary is given.
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// The final five FCHECK bits form a mod-31 checksum.
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switch z.level {
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case 0, 1:
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z.scratch[1] = 0 << 6
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case 2, 3, 4, 5:
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z.scratch[1] = 1 << 6
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case 6, -1:
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z.scratch[1] = 2 << 6
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case 7, 8, 9:
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z.scratch[1] = 3 << 6
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default:
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panic("unreachable")
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}
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if z.dict != nil {
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z.scratch[1] |= 1 << 5
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}
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z.scratch[1] += uint8(31 - (uint16(z.scratch[0])<<8+uint16(z.scratch[1]))%31)
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if _, err = z.w.Write(z.scratch[0:2]); err != nil {
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return err
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}
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if z.dict != nil {
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// The next four bytes are the Adler-32 checksum of the dictionary.
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checksum := adler32.Checksum(z.dict)
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z.scratch[0] = uint8(checksum >> 24)
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z.scratch[1] = uint8(checksum >> 16)
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z.scratch[2] = uint8(checksum >> 8)
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z.scratch[3] = uint8(checksum >> 0)
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if _, err = z.w.Write(z.scratch[0:4]); err != nil {
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return err
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}
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}
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if z.compressor == nil {
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// Initialize deflater unless the Writer is being reused
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// after a Reset call.
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z.compressor, err = flate.NewWriterDict(z.w, z.level, z.dict)
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if err != nil {
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return err
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}
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z.digest = adler32.New()
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}
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return nil
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}
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// Write writes a compressed form of p to the underlying io.Writer. The
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// compressed bytes are not necessarily flushed until the Writer is closed or
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// explicitly flushed.
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func (z *Writer) Write(p []byte) (n int, err error) {
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if !z.wroteHeader {
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z.err = z.writeHeader()
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}
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if z.err != nil {
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return 0, z.err
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}
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if len(p) == 0 {
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return 0, nil
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}
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n, err = z.compressor.Write(p)
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if err != nil {
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z.err = err
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return
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}
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z.digest.Write(p)
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return
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}
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// Flush flushes the Writer to its underlying io.Writer.
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func (z *Writer) Flush() error {
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if !z.wroteHeader {
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z.err = z.writeHeader()
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}
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if z.err != nil {
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return z.err
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}
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z.err = z.compressor.Flush()
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return z.err
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}
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// Close closes the Writer, flushing any unwritten data to the underlying
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// io.Writer, but does not close the underlying io.Writer.
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func (z *Writer) Close() error {
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if !z.wroteHeader {
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z.err = z.writeHeader()
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}
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if z.err != nil {
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return z.err
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}
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z.err = z.compressor.Close()
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if z.err != nil {
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return z.err
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}
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checksum := z.digest.Sum32()
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// ZLIB (RFC 1950) is big-endian, unlike GZIP (RFC 1952).
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z.scratch[0] = uint8(checksum >> 24)
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z.scratch[1] = uint8(checksum >> 16)
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z.scratch[2] = uint8(checksum >> 8)
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z.scratch[3] = uint8(checksum >> 0)
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_, z.err = z.w.Write(z.scratch[0:4])
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return z.err
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}
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