shithub: jbig2

ref: b2fb8f740bd1a88af47aa6875848049094d9cd84
dir: /jbig2_mmr.c/

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/* Copyright (C) 2001-2019 Artifex Software, Inc.
   All Rights Reserved.

   This software is provided AS-IS with no warranty, either express or
   implied.

   This software is distributed under license and may not be copied,
   modified or distributed except as expressly authorized under the terms
   of the license contained in the file LICENSE in this distribution.

   Refer to licensing information at http://www.artifex.com or contact
   Artifex Software, Inc.,  1305 Grant Avenue - Suite 200, Novato,
   CA 94945, U.S.A., +1(415)492-9861, for further information.
*/

/*
    jbig2dec
*/

/* An implementation of MMR decoding. This is based on the
   implementation in Fitz, which in turn is based on the one
   in Ghostscript.
*/

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "os_types.h"

#include <stddef.h>
#include <stdio.h>
#include <string.h>

#include "jbig2.h"
#include "jbig2_priv.h"
#include "jbig2_arith.h"
#include "jbig2_generic.h"
#include "jbig2_image.h"
#include "jbig2_mmr.h"
#include "jbig2_segment.h"

#if !defined (UINT32_MAX)
#define UINT32_MAX 0xffffffff
#endif

typedef struct {
    uint32_t width;
    uint32_t height;
    const byte *data;
    size_t size;
    uint32_t data_index;
    uint32_t bit_index;
    uint32_t word;
} Jbig2MmrCtx;

#define MINUS1 UINT32_MAX
#define ERROR -1
#define ZEROES -2
#define UNCOMPRESSED -3

static void
jbig2_decode_mmr_init(Jbig2MmrCtx *mmr, int width, int height, const byte *data, size_t size)
{
    size_t i;
    uint32_t word = 0;

    mmr->width = width;
    mmr->height = height;
    mmr->data = data;
    mmr->size = size;
    mmr->data_index = 0;
    mmr->bit_index = 0;

    for (i = 0; i < size && i < 4; i++)
        word |= (data[i] << ((3 - i) << 3));
    mmr->word = word;
}

static void
jbig2_decode_mmr_consume(Jbig2MmrCtx *mmr, int n_bits)
{
    mmr->word <<= n_bits;
    mmr->bit_index += n_bits;
    while (mmr->bit_index >= 8) {
        mmr->bit_index -= 8;
        if (mmr->data_index + 4 < mmr->size)
            mmr->word |= (mmr->data[mmr->data_index + 4] << mmr->bit_index);
        mmr->data_index++;
    }
}

/*
<raph> the first 2^(initialbits) entries map bit patterns to decodes
<raph> let's say initial_bits is 8 for the sake of example
<raph> and that the code is 1001
<raph> that means that entries 0x90 .. 0x9f have the entry { val, 4 }
<raph> because those are all the bytes that start with the code
<raph> and the 4 is the length of the code
... if (n_bits > initial_bits) ...
<raph> anyway, in that case, it basically points to a mini table
<raph> the n_bits is the maximum length of all codes beginning with that byte
<raph> so 2^(n_bits - initial_bits) is the size of the mini-table
<raph> peter came up with this, and it makes sense
*/

typedef struct {
    short val;
    short n_bits;
} mmr_table_node;

/* white decode table (runlength huffman codes) */
const mmr_table_node jbig2_mmr_white_decode[] = {
    {256, 12},
    {272, 12},
    {29, 8},
    {30, 8},
    {45, 8},
    {46, 8},
    {22, 7},
    {22, 7},
    {23, 7},
    {23, 7},
    {47, 8},
    {48, 8},
    {13, 6},
    {13, 6},
    {13, 6},
    {13, 6},
    {20, 7},
    {20, 7},
    {33, 8},
    {34, 8},
    {35, 8},
    {36, 8},
    {37, 8},
    {38, 8},
    {19, 7},
    {19, 7},
    {31, 8},
    {32, 8},
    {1, 6},
    {1, 6},
    {1, 6},
    {1, 6},
    {12, 6},
    {12, 6},
    {12, 6},
    {12, 6},
    {53, 8},
    {54, 8},
    {26, 7},
    {26, 7},
    {39, 8},
    {40, 8},
    {41, 8},
    {42, 8},
    {43, 8},
    {44, 8},
    {21, 7},
    {21, 7},
    {28, 7},
    {28, 7},
    {61, 8},
    {62, 8},
    {63, 8},
    {0, 8},
    {320, 8},
    {384, 8},
    {10, 5},
    {10, 5},
    {10, 5},
    {10, 5},
    {10, 5},
    {10, 5},
    {10, 5},
    {10, 5},
    {11, 5},
    {11, 5},
    {11, 5},
    {11, 5},
    {11, 5},
    {11, 5},
    {11, 5},
    {11, 5},
    {27, 7},
    {27, 7},
    {59, 8},
    {60, 8},
    {288, 9},
    {290, 9},
    {18, 7},
    {18, 7},
    {24, 7},
    {24, 7},
    {49, 8},
    {50, 8},
    {51, 8},
    {52, 8},
    {25, 7},
    {25, 7},
    {55, 8},
    {56, 8},
    {57, 8},
    {58, 8},
    {192, 6},
    {192, 6},
    {192, 6},
    {192, 6},
    {1664, 6},
    {1664, 6},
    {1664, 6},
    {1664, 6},
    {448, 8},
    {512, 8},
    {292, 9},
    {640, 8},
    {576, 8},
    {294, 9},
    {296, 9},
    {298, 9},
    {300, 9},
    {302, 9},
    {256, 7},
    {256, 7},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {2, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {3, 4},
    {128, 5},
    {128, 5},
    {128, 5},
    {128, 5},
    {128, 5},
    {128, 5},
    {128, 5},
    {128, 5},
    {8, 5},
    {8, 5},
    {8, 5},
    {8, 5},
    {8, 5},
    {8, 5},
    {8, 5},
    {8, 5},
    {9, 5},
    {9, 5},
    {9, 5},
    {9, 5},
    {9, 5},
    {9, 5},
    {9, 5},
    {9, 5},
    {16, 6},
    {16, 6},
    {16, 6},
    {16, 6},
    {17, 6},
    {17, 6},
    {17, 6},
    {17, 6},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {4, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {14, 6},
    {14, 6},
    {14, 6},
    {14, 6},
    {15, 6},
    {15, 6},
    {15, 6},
    {15, 6},
    {64, 5},
    {64, 5},
    {64, 5},
    {64, 5},
    {64, 5},
    {64, 5},
    {64, 5},
    {64, 5},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {7, 4},
    {-2, 3},
    {-2, 3},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-3, 4},
    {1792, 3},
    {1792, 3},
    {1984, 4},
    {2048, 4},
    {2112, 4},
    {2176, 4},
    {2240, 4},
    {2304, 4},
    {1856, 3},
    {1856, 3},
    {1920, 3},
    {1920, 3},
    {2368, 4},
    {2432, 4},
    {2496, 4},
    {2560, 4},
    {1472, 1},
    {1536, 1},
    {1600, 1},
    {1728, 1},
    {704, 1},
    {768, 1},
    {832, 1},
    {896, 1},
    {960, 1},
    {1024, 1},
    {1088, 1},
    {1152, 1},
    {1216, 1},
    {1280, 1},
    {1344, 1},
    {1408, 1}
};

/* black decode table (runlength huffman codes) */
const mmr_table_node jbig2_mmr_black_decode[] = {
    {128, 12},
    {160, 13},
    {224, 12},
    {256, 12},
    {10, 7},
    {11, 7},
    {288, 12},
    {12, 7},
    {9, 6},
    {9, 6},
    {8, 6},
    {8, 6},
    {7, 5},
    {7, 5},
    {7, 5},
    {7, 5},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {6, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {5, 4},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {1, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {4, 3},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {3, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {2, 2},
    {-2, 4},
    {-2, 4},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-1, 0},
    {-3, 5},
    {1792, 4},
    {1792, 4},
    {1984, 5},
    {2048, 5},
    {2112, 5},
    {2176, 5},
    {2240, 5},
    {2304, 5},
    {1856, 4},
    {1856, 4},
    {1920, 4},
    {1920, 4},
    {2368, 5},
    {2432, 5},
    {2496, 5},
    {2560, 5},
    {18, 3},
    {18, 3},
    {18, 3},
    {18, 3},
    {18, 3},
    {18, 3},
    {18, 3},
    {18, 3},
    {52, 5},
    {52, 5},
    {640, 6},
    {704, 6},
    {768, 6},
    {832, 6},
    {55, 5},
    {55, 5},
    {56, 5},
    {56, 5},
    {1280, 6},
    {1344, 6},
    {1408, 6},
    {1472, 6},
    {59, 5},
    {59, 5},
    {60, 5},
    {60, 5},
    {1536, 6},
    {1600, 6},
    {24, 4},
    {24, 4},
    {24, 4},
    {24, 4},
    {25, 4},
    {25, 4},
    {25, 4},
    {25, 4},
    {1664, 6},
    {1728, 6},
    {320, 5},
    {320, 5},
    {384, 5},
    {384, 5},
    {448, 5},
    {448, 5},
    {512, 6},
    {576, 6},
    {53, 5},
    {53, 5},
    {54, 5},
    {54, 5},
    {896, 6},
    {960, 6},
    {1024, 6},
    {1088, 6},
    {1152, 6},
    {1216, 6},
    {64, 3},
    {64, 3},
    {64, 3},
    {64, 3},
    {64, 3},
    {64, 3},
    {64, 3},
    {64, 3},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {13, 1},
    {23, 4},
    {23, 4},
    {50, 5},
    {51, 5},
    {44, 5},
    {45, 5},
    {46, 5},
    {47, 5},
    {57, 5},
    {58, 5},
    {61, 5},
    {256, 5},
    {16, 3},
    {16, 3},
    {16, 3},
    {16, 3},
    {17, 3},
    {17, 3},
    {17, 3},
    {17, 3},
    {48, 5},
    {49, 5},
    {62, 5},
    {63, 5},
    {30, 5},
    {31, 5},
    {32, 5},
    {33, 5},
    {40, 5},
    {41, 5},
    {22, 4},
    {22, 4},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {14, 1},
    {15, 2},
    {15, 2},
    {15, 2},
    {15, 2},
    {15, 2},
    {15, 2},
    {15, 2},
    {15, 2},
    {128, 5},
    {192, 5},
    {26, 5},
    {27, 5},
    {28, 5},
    {29, 5},
    {19, 4},
    {19, 4},
    {20, 4},
    {20, 4},
    {34, 5},
    {35, 5},
    {36, 5},
    {37, 5},
    {38, 5},
    {39, 5},
    {21, 4},
    {21, 4},
    {42, 5},
    {43, 5},
    {0, 3},
    {0, 3},
    {0, 3},
    {0, 3}
};

#define getbit(buf, x) ( ( buf[x >> 3] >> ( 7 - (x & 7) ) ) & 1 )

static uint32_t
jbig2_find_changing_element(const byte *line, uint32_t x, uint32_t w)
{
    int a, b;

    if (line == NULL)
        return w;

    if (x == MINUS1) {
        a = 0;
        x = 0;
    } else if (x < w) {
        a = getbit(line, x);
        x++;
    } else {
        return x;
    }

    while (x < w) {
        b = getbit(line, x);
        if (a != b)
            break;
        x++;
    }

    return x;
}

static uint32_t
jbig2_find_changing_element_of_color(const byte *line, uint32_t x, uint32_t w, int color)
{
    if (line == NULL)
        return w;
    x = jbig2_find_changing_element(line, x, w);
    if (x < w && getbit(line, x) != color)
        x = jbig2_find_changing_element(line, x, w);
    return x;
}

static const byte lm[8] = { 0xFF, 0x7F, 0x3F, 0x1F, 0x0F, 0x07, 0x03, 0x01 };
static const byte rm[8] = { 0x00, 0x80, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC, 0xFE };

static void
jbig2_set_bits(byte *line, uint32_t x0, uint32_t x1)
{
    uint32_t a0, a1, b0, b1, a;

    a0 = x0 >> 3;
    a1 = x1 >> 3;

    b0 = x0 & 7;
    b1 = x1 & 7;

    if (a0 == a1) {
        line[a0] |= lm[b0] & rm[b1];
    } else {
        line[a0] |= lm[b0];
        for (a = a0 + 1; a < a1; a++)
            line[a] = 0xFF;
        if (b1)
            line[a1] |= rm[b1];
    }
}

static int
jbig2_decode_get_code(Jbig2MmrCtx *mmr, const mmr_table_node *table, int initial_bits)
{
    uint32_t word = mmr->word;
    int table_ix = word >> (32 - initial_bits);
    int val = table[table_ix].val;
    int n_bits = table[table_ix].n_bits;

    if (n_bits > initial_bits) {
        int mask = (1 << (32 - initial_bits)) - 1;

        table_ix = val + ((word & mask) >> (32 - n_bits));
        val = table[table_ix].val;
        n_bits = initial_bits + table[table_ix].n_bits;
    }

    jbig2_decode_mmr_consume(mmr, n_bits);

    return val;
}

static int
jbig2_decode_get_run(Jbig2Ctx *ctx, Jbig2MmrCtx *mmr, const mmr_table_node *table, int initial_bits)
{
    int result = 0;
    int val;

    do {
        val = jbig2_decode_get_code(mmr, table, initial_bits);
        if (val == ERROR)
            return jbig2_error(ctx, JBIG2_SEVERITY_FATAL, -1, "invalid code detected in MMR-coded data");
        else if (val == UNCOMPRESSED)
            return jbig2_error(ctx, JBIG2_SEVERITY_FATAL, -1, "uncompressed code in MMR-coded data");
        else if (val == ZEROES)
            return jbig2_error(ctx, JBIG2_SEVERITY_FATAL, -1, "zeroes code in MMR-coded data");
        result += val;
    } while (val >= 64);

    return result;
}

static int
jbig2_decode_mmr_line(Jbig2Ctx *ctx, Jbig2MmrCtx *mmr, const byte *ref, byte *dst, int *eofb)
{
    uint32_t a0 = MINUS1;
    uint32_t a1, a2, b1, b2;
    int c = 0;                  /* 0 is white, black is 1 */

    while (1) {
        uint32_t word = mmr->word;

        /* printf ("%08x\n", word); */

        if (a0 != MINUS1 && a0 >= mmr->width)
            break;

        if ((word >> (32 - 3)) == 1) {
            int white_run, black_run;

            jbig2_decode_mmr_consume(mmr, 3);

            if (a0 == MINUS1)
                a0 = 0;

            if (c == 0) {
                white_run = jbig2_decode_get_run(ctx, mmr, jbig2_mmr_white_decode, 8);
                if (white_run < 0)
                    return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "failed to decode white H run");
                black_run = jbig2_decode_get_run(ctx, mmr, jbig2_mmr_black_decode, 7);
                if (black_run < 0)
                    return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "failed to decode black H run");
                /* printf ("H %d %d\n", white_run, black_run); */
                a1 = a0 + white_run;
                a2 = a1 + black_run;
                if (a1 > mmr->width)
                    a1 = mmr->width;
                if (a2 > mmr->width)
                    a2 = mmr->width;
                if (a2 < a1) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative black H run");
                    a2 = a1;
                }
                if (a1 < mmr->width)
                    jbig2_set_bits(dst, a1, a2);
                a0 = a2;
            } else {
                black_run = jbig2_decode_get_run(ctx, mmr, jbig2_mmr_black_decode, 7);
                if (black_run < 0)
                    return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "failed to decode black H run");
                white_run = jbig2_decode_get_run(ctx, mmr, jbig2_mmr_white_decode, 8);
                if (white_run < 0)
                    return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "failed to decode white H run");
                /* printf ("H %d %d\n", black_run, white_run); */
                a1 = a0 + black_run;
                a2 = a1 + white_run;
                if (a1 > mmr->width)
                    a1 = mmr->width;
                if (a2 > mmr->width)
                    a2 = mmr->width;
                if (a1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative white H run");
                    a1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, a1);
                a0 = a2;
            }
        }

        else if ((word >> (32 - 4)) == 1) {
            /* printf ("P\n"); */
            jbig2_decode_mmr_consume(mmr, 4);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            b2 = jbig2_find_changing_element(ref, b1, mmr->width);
            if (c) {
                if (b2 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative P run");
                    b2 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b2);
            }
            a0 = b2;
        }

        else if ((word >> (32 - 1)) == 1) {
            /* printf ("V(0)\n"); */
            jbig2_decode_mmr_consume(mmr, 1);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative V(0) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 3)) == 3) {
            /* printf ("VR(1)\n"); */
            jbig2_decode_mmr_consume(mmr, 3);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (b1 + 1 <= mmr->width)
                b1 += 1;
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative VR(1) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 6)) == 3) {
            /* printf ("VR(2)\n"); */
            jbig2_decode_mmr_consume(mmr, 6);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (b1 + 2 <= mmr->width)
                b1 += 2;
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative VR(2) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 7)) == 3) {
            /* printf ("VR(3)\n"); */
            jbig2_decode_mmr_consume(mmr, 7);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (b1 + 3 <= mmr->width)
                b1 += 3;
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative VR(3) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 3)) == 2) {
            /* printf ("VL(1)\n"); */
            jbig2_decode_mmr_consume(mmr, 3);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (b1 >= 1)
                b1 -= 1;
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative VL(1) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 6)) == 2) {
            /* printf ("VL(2)\n"); */
            jbig2_decode_mmr_consume(mmr, 6);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (b1 >= 2)
                b1 -= 2;
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative VL(2) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 7)) == 2) {
            /* printf ("VL(3)\n"); */
            jbig2_decode_mmr_consume(mmr, 7);
            b1 = jbig2_find_changing_element_of_color(ref, a0, mmr->width, !c);
            if (b1 >= 3)
                b1 -= 3;
            if (c) {
                if (b1 < a0) {
                    jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "ignoring negative VL(3) run");
                    b1 = a0;
                }
                if (a0 < mmr->width)
                    jbig2_set_bits(dst, a0, b1);
            }
            a0 = b1;
            c = !c;
        }

        else if ((word >> (32 - 24)) == 0x1001) {
            /* printf ("EOFB\n"); */
            jbig2_decode_mmr_consume(mmr, 24);
            *eofb = 1;
            break;
        }

        else
            break;
    }

    return 0;
}

int
jbig2_decode_generic_mmr(Jbig2Ctx *ctx, Jbig2Segment *segment, const Jbig2GenericRegionParams *params, const byte *data, size_t size, Jbig2Image *image)
{
    Jbig2MmrCtx mmr;
    const uint32_t rowstride = image->stride;
    byte *dst = image->data;
    byte *ref = NULL;
    uint32_t y;
    int code = 0;
    int eofb = 0;

    jbig2_decode_mmr_init(&mmr, image->width, image->height, data, size);

    for (y = 0; !eofb && y < image->height; y++) {
        memset(dst, 0, rowstride);
        code = jbig2_decode_mmr_line(ctx, &mmr, ref, dst, &eofb);
        if (code < 0)
            return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, segment->number, "failed to decode mmr line");
        ref = dst;
        dst += rowstride;
    }

    if (eofb && y < image->height) {
        memset(dst, 0, rowstride * (image->height - y));
    }

    return code;
}

/**
 * jbig2_decode_halftone_mmr: decode mmr region inside of halftones
 *
 * @ctx: jbig2 decoder context
 * @params: parameters for decoding
 * @data: pointer to text region data to be decoded
 * @size: length of text region data
 * @image: return of decoded image
 * @consumed_bytes: return of consumed bytes from @data
 *
 * MMR decoding that consumes EOFB and returns consumed bytes (@consumed_bytes)
 *
 * returns: 0
 **/
int
jbig2_decode_halftone_mmr(Jbig2Ctx *ctx, const Jbig2GenericRegionParams *params, const byte *data, size_t size, Jbig2Image *image, size_t *consumed_bytes)
{
    Jbig2MmrCtx mmr;
    const uint32_t rowstride = image->stride;
    byte *dst = image->data;
    byte *ref = NULL;
    uint32_t y;
    int code = 0;
    const uint32_t EOFB = 0x001001;
    int eofb = 0;

    jbig2_decode_mmr_init(&mmr, image->width, image->height, data, size);

    for (y = 0; !eofb && y < image->height; y++) {
        memset(dst, 0, rowstride);
        code = jbig2_decode_mmr_line(ctx, &mmr, ref, dst, &eofb);
        if (code < 0)
            return jbig2_error(ctx, JBIG2_SEVERITY_WARNING, -1, "failed to decode halftone mmr line");
        ref = dst;
        dst += rowstride;
    }

    if (eofb && y < image->height) {
        memset(dst, 0, rowstride * (image->height - y));
    }

    /* test for EOFB (see section 6.2.6) */
    if (mmr.word >> 8 == EOFB) {
        jbig2_decode_mmr_consume(&mmr, 24);
    }

    *consumed_bytes += mmr.data_index + (mmr.bit_index >> 3) + (mmr.bit_index > 0 ? 1 : 0);
    return code;
}