247 lines
6.3 KiB
Go
247 lines
6.3 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 jpeg
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import (
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"io"
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)
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// maxCodeLength is the maximum (inclusive) number of bits in a Huffman code.
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const maxCodeLength = 16
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// maxNCodes is the maximum (inclusive) number of codes in a Huffman tree.
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const maxNCodes = 256
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// lutSize is the log-2 size of the Huffman decoder's look-up table.
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const lutSize = 8
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// huffman is a Huffman decoder, specified in section C.
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type huffman struct {
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// length is the number of codes in the tree.
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nCodes int32
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// lut is the look-up table for the next lutSize bits in the bit-stream.
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// The high 8 bits of the uint16 are the encoded value. The low 8 bits
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// are 1 plus the code length, or 0 if the value is too large to fit in
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// lutSize bits.
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lut [1 << lutSize]uint16
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// vals are the decoded values, sorted by their encoding.
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vals [maxNCodes]uint8
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// minCodes[i] is the minimum code of length i, or -1 if there are no
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// codes of that length.
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minCodes [maxCodeLength]int32
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// maxCodes[i] is the maximum code of length i, or -1 if there are no
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// codes of that length.
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maxCodes [maxCodeLength]int32
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// valsIndices[i] is the index into vals of minCodes[i].
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valsIndices [maxCodeLength]int32
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}
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// errShortHuffmanData means that an unexpected EOF occurred while decoding
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// Huffman data.
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var errShortHuffmanData = FormatError("short Huffman data")
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// ensureNBits reads bytes from the byte buffer to ensure that d.bits.n is at
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// least n. For best performance (avoiding function calls inside hot loops),
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// the caller is the one responsible for first checking that d.bits.n < n.
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func (d *decoder) ensureNBits(n int32) error {
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for {
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c, err := d.readByteStuffedByte()
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if err != nil {
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if err == io.EOF {
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return errShortHuffmanData
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}
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return err
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}
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d.bits.a = d.bits.a<<8 | uint32(c)
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d.bits.n += 8
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if d.bits.m == 0 {
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d.bits.m = 1 << 7
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} else {
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d.bits.m <<= 8
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}
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if d.bits.n >= n {
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break
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}
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}
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return nil
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}
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// receiveExtend is the composition of RECEIVE and EXTEND, specified in section
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// F.2.2.1.
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func (d *decoder) receiveExtend(t uint8) (int32, error) {
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if d.bits.n < int32(t) {
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if err := d.ensureNBits(int32(t)); err != nil {
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return 0, err
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}
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}
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d.bits.n -= int32(t)
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d.bits.m >>= t
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s := int32(1) << t
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x := int32(d.bits.a>>uint8(d.bits.n)) & (s - 1)
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if x < s>>1 {
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x += ((-1) << t) + 1
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}
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return x, nil
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}
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// processDHT processes a Define Huffman Table marker, and initializes a huffman
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// struct from its contents. Specified in section B.2.4.2.
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func (d *decoder) processDHT(n int) error {
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for n > 0 {
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if n < 17 {
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return FormatError("DHT has wrong length")
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}
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if err := d.readFull(d.tmp[:17]); err != nil {
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return err
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}
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tc := d.tmp[0] >> 4
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if tc > maxTc {
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return FormatError("bad Tc value")
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}
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th := d.tmp[0] & 0x0f
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// The baseline th <= 1 restriction is specified in table B.5.
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if th > maxTh || (d.baseline && th > 1) {
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return FormatError("bad Th value")
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}
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h := &d.huff[tc][th]
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// Read nCodes and h.vals (and derive h.nCodes).
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// nCodes[i] is the number of codes with code length i.
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// h.nCodes is the total number of codes.
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h.nCodes = 0
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var nCodes [maxCodeLength]int32
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for i := range nCodes {
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nCodes[i] = int32(d.tmp[i+1])
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h.nCodes += nCodes[i]
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}
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if h.nCodes == 0 {
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return FormatError("Huffman table has zero length")
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}
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if h.nCodes > maxNCodes {
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return FormatError("Huffman table has excessive length")
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}
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n -= int(h.nCodes) + 17
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if n < 0 {
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return FormatError("DHT has wrong length")
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}
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if err := d.readFull(h.vals[:h.nCodes]); err != nil {
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return err
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}
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// Derive the look-up table.
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for i := range h.lut {
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h.lut[i] = 0
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}
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var x, code uint32
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for i := uint32(0); i < lutSize; i++ {
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code <<= 1
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for j := int32(0); j < nCodes[i]; j++ {
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// The codeLength is 1+i, so shift code by 8-(1+i) to
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// calculate the high bits for every 8-bit sequence
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// whose codeLength's high bits matches code.
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// The high 8 bits of lutValue are the encoded value.
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// The low 8 bits are 1 plus the codeLength.
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base := uint8(code << (7 - i))
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lutValue := uint16(h.vals[x])<<8 | uint16(2+i)
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for k := uint8(0); k < 1<<(7-i); k++ {
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h.lut[base|k] = lutValue
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}
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code++
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x++
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}
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}
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// Derive minCodes, maxCodes, and valsIndices.
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var c, index int32
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for i, n := range nCodes {
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if n == 0 {
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h.minCodes[i] = -1
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h.maxCodes[i] = -1
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h.valsIndices[i] = -1
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} else {
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h.minCodes[i] = c
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h.maxCodes[i] = c + n - 1
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h.valsIndices[i] = index
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c += n
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index += n
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}
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c <<= 1
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}
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}
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return nil
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}
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// decodeHuffman returns the next Huffman-coded value from the bit-stream,
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// decoded according to h.
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func (d *decoder) decodeHuffman(h *huffman) (uint8, error) {
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if h.nCodes == 0 {
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return 0, FormatError("uninitialized Huffman table")
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}
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if d.bits.n < 8 {
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if err := d.ensureNBits(8); err != nil {
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if err != errMissingFF00 && err != errShortHuffmanData {
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return 0, err
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}
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// There are no more bytes of data in this segment, but we may still
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// be able to read the next symbol out of the previously read bits.
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// First, undo the readByte that the ensureNBits call made.
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if d.bytes.nUnreadable != 0 {
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d.unreadByteStuffedByte()
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}
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goto slowPath
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}
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}
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if v := h.lut[(d.bits.a>>uint32(d.bits.n-lutSize))&0xff]; v != 0 {
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n := (v & 0xff) - 1
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d.bits.n -= int32(n)
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d.bits.m >>= n
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return uint8(v >> 8), nil
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}
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slowPath:
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for i, code := 0, int32(0); i < maxCodeLength; i++ {
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if d.bits.n == 0 {
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if err := d.ensureNBits(1); err != nil {
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return 0, err
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}
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}
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if d.bits.a&d.bits.m != 0 {
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code |= 1
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}
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d.bits.n--
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d.bits.m >>= 1
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if code <= h.maxCodes[i] {
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return h.vals[h.valsIndices[i]+code-h.minCodes[i]], nil
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}
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code <<= 1
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}
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return 0, FormatError("bad Huffman code")
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}
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func (d *decoder) decodeBit() (bool, error) {
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if d.bits.n == 0 {
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if err := d.ensureNBits(1); err != nil {
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return false, err
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}
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}
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ret := d.bits.a&d.bits.m != 0
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d.bits.n--
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d.bits.m >>= 1
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return ret, nil
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}
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func (d *decoder) decodeBits(n int32) (uint32, error) {
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if d.bits.n < n {
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if err := d.ensureNBits(n); err != nil {
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return 0, err
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}
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}
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ret := d.bits.a >> uint32(d.bits.n-n)
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ret &= (1 << uint32(n)) - 1
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d.bits.n -= n
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d.bits.m >>= uint32(n)
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return ret, nil
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}
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