mirror of
https://github.com/go-gitea/gitea.git
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266 lines
6.9 KiB
Go
266 lines
6.9 KiB
Go
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// Copyright 2012 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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// +build ignore
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// This program generates fixedhuff.go
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// Invoke as
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//
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// go run gen.go -output fixedhuff.go
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package main
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import (
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"bytes"
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"flag"
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"fmt"
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"go/format"
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"io/ioutil"
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"log"
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)
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var filename = flag.String("output", "fixedhuff.go", "output file name")
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const maxCodeLen = 16
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// Note: the definition of the huffmanDecoder struct is copied from
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// inflate.go, as it is private to the implementation.
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// chunk & 15 is number of bits
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// chunk >> 4 is value, including table link
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const (
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huffmanChunkBits = 9
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huffmanNumChunks = 1 << huffmanChunkBits
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huffmanCountMask = 15
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huffmanValueShift = 4
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)
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type huffmanDecoder struct {
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min int // the minimum code length
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chunks [huffmanNumChunks]uint32 // chunks as described above
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links [][]uint32 // overflow links
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linkMask uint32 // mask the width of the link table
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}
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// Initialize Huffman decoding tables from array of code lengths.
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// Following this function, h is guaranteed to be initialized into a complete
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// tree (i.e., neither over-subscribed nor under-subscribed). The exception is a
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// degenerate case where the tree has only a single symbol with length 1. Empty
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// trees are permitted.
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func (h *huffmanDecoder) init(bits []int) bool {
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// Sanity enables additional runtime tests during Huffman
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// table construction. It's intended to be used during
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// development to supplement the currently ad-hoc unit tests.
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const sanity = false
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if h.min != 0 {
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*h = huffmanDecoder{}
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}
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// Count number of codes of each length,
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// compute min and max length.
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var count [maxCodeLen]int
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var min, max int
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for _, n := range bits {
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if n == 0 {
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continue
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}
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if min == 0 || n < min {
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min = n
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}
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if n > max {
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max = n
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}
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count[n]++
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}
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// Empty tree. The decompressor.huffSym function will fail later if the tree
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// is used. Technically, an empty tree is only valid for the HDIST tree and
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// not the HCLEN and HLIT tree. However, a stream with an empty HCLEN tree
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// is guaranteed to fail since it will attempt to use the tree to decode the
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// codes for the HLIT and HDIST trees. Similarly, an empty HLIT tree is
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// guaranteed to fail later since the compressed data section must be
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// composed of at least one symbol (the end-of-block marker).
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if max == 0 {
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return true
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}
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code := 0
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var nextcode [maxCodeLen]int
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for i := min; i <= max; i++ {
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code <<= 1
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nextcode[i] = code
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code += count[i]
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}
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// Check that the coding is complete (i.e., that we've
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// assigned all 2-to-the-max possible bit sequences).
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// Exception: To be compatible with zlib, we also need to
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// accept degenerate single-code codings. See also
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// TestDegenerateHuffmanCoding.
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if code != 1<<uint(max) && !(code == 1 && max == 1) {
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return false
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}
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h.min = min
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if max > huffmanChunkBits {
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numLinks := 1 << (uint(max) - huffmanChunkBits)
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h.linkMask = uint32(numLinks - 1)
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// create link tables
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link := nextcode[huffmanChunkBits+1] >> 1
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h.links = make([][]uint32, huffmanNumChunks-link)
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for j := uint(link); j < huffmanNumChunks; j++ {
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reverse := int(reverseByte[j>>8]) | int(reverseByte[j&0xff])<<8
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reverse >>= uint(16 - huffmanChunkBits)
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off := j - uint(link)
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if sanity && h.chunks[reverse] != 0 {
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panic("impossible: overwriting existing chunk")
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}
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h.chunks[reverse] = uint32(off<<huffmanValueShift | (huffmanChunkBits + 1))
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h.links[off] = make([]uint32, numLinks)
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}
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}
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for i, n := range bits {
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if n == 0 {
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continue
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}
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code := nextcode[n]
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nextcode[n]++
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chunk := uint32(i<<huffmanValueShift | n)
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reverse := int(reverseByte[code>>8]) | int(reverseByte[code&0xff])<<8
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reverse >>= uint(16 - n)
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if n <= huffmanChunkBits {
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for off := reverse; off < len(h.chunks); off += 1 << uint(n) {
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// We should never need to overwrite
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// an existing chunk. Also, 0 is
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// never a valid chunk, because the
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// lower 4 "count" bits should be
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// between 1 and 15.
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if sanity && h.chunks[off] != 0 {
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panic("impossible: overwriting existing chunk")
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}
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h.chunks[off] = chunk
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}
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} else {
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j := reverse & (huffmanNumChunks - 1)
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if sanity && h.chunks[j]&huffmanCountMask != huffmanChunkBits+1 {
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// Longer codes should have been
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// associated with a link table above.
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panic("impossible: not an indirect chunk")
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}
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value := h.chunks[j] >> huffmanValueShift
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linktab := h.links[value]
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reverse >>= huffmanChunkBits
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for off := reverse; off < len(linktab); off += 1 << uint(n-huffmanChunkBits) {
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if sanity && linktab[off] != 0 {
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panic("impossible: overwriting existing chunk")
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}
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linktab[off] = chunk
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}
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}
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}
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if sanity {
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// Above we've sanity checked that we never overwrote
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// an existing entry. Here we additionally check that
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// we filled the tables completely.
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for i, chunk := range h.chunks {
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if chunk == 0 {
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// As an exception, in the degenerate
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// single-code case, we allow odd
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// chunks to be missing.
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if code == 1 && i%2 == 1 {
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continue
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}
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panic("impossible: missing chunk")
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}
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}
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for _, linktab := range h.links {
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for _, chunk := range linktab {
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if chunk == 0 {
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panic("impossible: missing chunk")
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}
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}
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}
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}
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return true
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}
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func main() {
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flag.Parse()
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var h huffmanDecoder
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var bits [288]int
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initReverseByte()
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for i := 0; i < 144; i++ {
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bits[i] = 8
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}
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for i := 144; i < 256; i++ {
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bits[i] = 9
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}
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for i := 256; i < 280; i++ {
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bits[i] = 7
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}
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for i := 280; i < 288; i++ {
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bits[i] = 8
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}
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h.init(bits[:])
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if h.links != nil {
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log.Fatal("Unexpected links table in fixed Huffman decoder")
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}
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var buf bytes.Buffer
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fmt.Fprintf(&buf, `// Copyright 2013 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.`+"\n\n")
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fmt.Fprintln(&buf, "package flate")
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fmt.Fprintln(&buf)
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fmt.Fprintln(&buf, "// autogenerated by go run gen.go -output fixedhuff.go, DO NOT EDIT")
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fmt.Fprintln(&buf)
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fmt.Fprintln(&buf, "var fixedHuffmanDecoder = huffmanDecoder{")
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fmt.Fprintf(&buf, "\t%d,\n", h.min)
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fmt.Fprintln(&buf, "\t[huffmanNumChunks]uint32{")
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for i := 0; i < huffmanNumChunks; i++ {
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if i&7 == 0 {
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fmt.Fprintf(&buf, "\t\t")
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} else {
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fmt.Fprintf(&buf, " ")
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}
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fmt.Fprintf(&buf, "0x%04x,", h.chunks[i])
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if i&7 == 7 {
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fmt.Fprintln(&buf)
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}
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}
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fmt.Fprintln(&buf, "\t},")
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fmt.Fprintln(&buf, "\tnil, 0,")
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fmt.Fprintln(&buf, "}")
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data, err := format.Source(buf.Bytes())
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if err != nil {
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log.Fatal(err)
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}
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err = ioutil.WriteFile(*filename, data, 0644)
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if err != nil {
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log.Fatal(err)
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}
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}
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var reverseByte [256]byte
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func initReverseByte() {
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for x := 0; x < 256; x++ {
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var result byte
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for i := uint(0); i < 8; i++ {
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result |= byte(((x >> i) & 1) << (7 - i))
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}
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reverseByte[x] = result
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}
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}
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