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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [go/] [image/] [jpeg/] [huffman.go] - Rev 814

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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.

package jpeg

import "io"

// Each code is at most 16 bits long.
const maxCodeLength = 16

// Each decoded value is a uint8, so there are at most 256 such values.
const maxNumValues = 256

// Bit stream for the Huffman decoder.
// The n least significant bits of a form the unread bits, to be read in MSB to LSB order.
type bits struct {
        a int // accumulator.
        n int // the number of unread bits in a.
        m int // mask. m==1<<(n-1) when n>0, with m==0 when n==0.
}

// Huffman table decoder, specified in section C.
type huffman struct {
        l        [maxCodeLength]int
        length   int                 // sum of l[i].
        val      [maxNumValues]uint8 // the decoded values, as sorted by their encoding.
        size     [maxNumValues]int   // size[i] is the number of bits to encode val[i].
        code     [maxNumValues]int   // code[i] is the encoding of val[i].
        minCode  [maxCodeLength]int  // min codes of length i, or -1 if no codes of that length.
        maxCode  [maxCodeLength]int  // max codes of length i, or -1 if no codes of that length.
        valIndex [maxCodeLength]int  // index into val of minCode[i].
}

// Reads bytes from the io.Reader to ensure that bits.n is at least n.
func (d *decoder) ensureNBits(n int) error {
        for d.b.n < n {
                c, err := d.r.ReadByte()
                if err != nil {
                        return err
                }
                d.b.a = d.b.a<<8 | int(c)
                d.b.n += 8
                if d.b.m == 0 {
                        d.b.m = 1 << 7
                } else {
                        d.b.m <<= 8
                }
                // Byte stuffing, specified in section F.1.2.3.
                if c == 0xff {
                        c, err = d.r.ReadByte()
                        if err != nil {
                                return err
                        }
                        if c != 0x00 {
                                return FormatError("missing 0xff00 sequence")
                        }
                }
        }
        return nil
}

// The composition of RECEIVE and EXTEND, specified in section F.2.2.1.
func (d *decoder) receiveExtend(t uint8) (int, error) {
        err := d.ensureNBits(int(t))
        if err != nil {
                return 0, err
        }
        d.b.n -= int(t)
        d.b.m >>= t
        s := 1 << t
        x := (d.b.a >> uint8(d.b.n)) & (s - 1)
        if x < s>>1 {
                x += ((-1) << t) + 1
        }
        return x, nil
}

// Processes a Define Huffman Table marker, and initializes a huffman struct from its contents.
// Specified in section B.2.4.2.
func (d *decoder) processDHT(n int) error {
        for n > 0 {
                if n < 17 {
                        return FormatError("DHT has wrong length")
                }
                _, err := io.ReadFull(d.r, d.tmp[0:17])
                if err != nil {
                        return err
                }
                tc := d.tmp[0] >> 4
                if tc > maxTc {
                        return FormatError("bad Tc value")
                }
                th := d.tmp[0] & 0x0f
                const isBaseline = true // Progressive mode is not yet supported.
                if th > maxTh || isBaseline && th > 1 {
                        return FormatError("bad Th value")
                }
                h := &d.huff[tc][th]

                // Read l and val (and derive length).
                h.length = 0
                for i := 0; i < maxCodeLength; i++ {
                        h.l[i] = int(d.tmp[i+1])
                        h.length += h.l[i]
                }
                if h.length == 0 {
                        return FormatError("Huffman table has zero length")
                }
                if h.length > maxNumValues {
                        return FormatError("Huffman table has excessive length")
                }
                n -= h.length + 17
                if n < 0 {
                        return FormatError("DHT has wrong length")
                }
                _, err = io.ReadFull(d.r, h.val[0:h.length])
                if err != nil {
                        return err
                }

                // Derive size.
                k := 0
                for i := 0; i < maxCodeLength; i++ {
                        for j := 0; j < h.l[i]; j++ {
                                h.size[k] = i + 1
                                k++
                        }
                }

                // Derive code.
                code := 0
                size := h.size[0]
                for i := 0; i < h.length; i++ {
                        if size != h.size[i] {
                                code <<= uint8(h.size[i] - size)
                                size = h.size[i]
                        }
                        h.code[i] = code
                        code++
                }

                // Derive minCode, maxCode, and valIndex.
                k = 0
                index := 0
                for i := 0; i < maxCodeLength; i++ {
                        if h.l[i] == 0 {
                                h.minCode[i] = -1
                                h.maxCode[i] = -1
                                h.valIndex[i] = -1
                        } else {
                                h.minCode[i] = k
                                h.maxCode[i] = k + h.l[i] - 1
                                h.valIndex[i] = index
                                k += h.l[i]
                                index += h.l[i]
                        }
                        k <<= 1
                }
        }
        return nil
}

// Returns the next Huffman-coded value from the bit stream, decoded according to h.
// TODO(nigeltao): This decoding algorithm is simple, but slow. A lookahead table, instead of always
// peeling off only 1 bit at at time, ought to be faster.
func (d *decoder) decodeHuffman(h *huffman) (uint8, error) {
        if h.length == 0 {
                return 0, FormatError("uninitialized Huffman table")
        }
        for i, code := 0, 0; i < maxCodeLength; i++ {
                err := d.ensureNBits(1)
                if err != nil {
                        return 0, err
                }
                if d.b.a&d.b.m != 0 {
                        code |= 1
                }
                d.b.n--
                d.b.m >>= 1
                if code <= h.maxCode[i] {
                        return h.val[h.valIndex[i]+code-h.minCode[i]], nil
                }
                code <<= 1
        }
        return 0, FormatError("bad Huffman code")
}

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