xenia-canary/third_party/mspack/readhuff.h

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/* This file is part of libmspack.
* (C) 2003-2014 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_READHUFF_H
#define MSPACK_READHUFF_H 1
/* This implements a fast Huffman tree decoding system. */
#if !(defined(BITS_ORDER_MSB) || defined(BITS_ORDER_LSB))
# error "readhuff.h is used in conjunction with readbits.h, include that first"
#endif
#if !(defined(TABLEBITS) && defined(MAXSYMBOLS))
# error "define TABLEBITS(tbl) and MAXSYMBOLS(tbl) before using readhuff.h"
#endif
#if !(defined(HUFF_TABLE) && defined(HUFF_LEN))
# error "define HUFF_TABLE(tbl) and HUFF_LEN(tbl) before using readhuff.h"
#endif
#ifndef HUFF_ERROR
# error "define HUFF_ERROR before using readhuff.h"
#endif
#ifndef HUFF_MAXBITS
# define HUFF_MAXBITS 16
#endif
/* Decodes the next huffman symbol from the input bitstream into var.
* Do not use this macro on a table unless build_decode_table() succeeded.
*/
#define READ_HUFFSYM(tbl, var) do { \
ENSURE_BITS(HUFF_MAXBITS); \
sym = HUFF_TABLE(tbl, PEEK_BITS(TABLEBITS(tbl))); \
if (sym >= MAXSYMBOLS(tbl)) HUFF_TRAVERSE(tbl); \
(var) = sym; \
i = HUFF_LEN(tbl, sym); \
REMOVE_BITS(i); \
} while (0)
#ifdef BITS_ORDER_LSB
# define HUFF_TRAVERSE(tbl) do { \
i = TABLEBITS(tbl) - 1; \
do { \
if (i++ > HUFF_MAXBITS) HUFF_ERROR; \
sym = HUFF_TABLE(tbl, \
(sym << 1) | ((bit_buffer >> i) & 1)); \
} while (sym >= MAXSYMBOLS(tbl)); \
} while (0)
#else
#define HUFF_TRAVERSE(tbl) do { \
i = 1 << (BITBUF_WIDTH - TABLEBITS(tbl)); \
do { \
if ((i >>= 1) == 0) HUFF_ERROR; \
sym = HUFF_TABLE(tbl, \
(sym << 1) | ((bit_buffer & i) ? 1 : 0)); \
} while (sym >= MAXSYMBOLS(tbl)); \
} while (0)
#endif
/* make_decode_table(nsyms, nbits, length[], table[])
*
* This function was originally coded by David Tritscher.
* It builds a fast huffman decoding table from
* a canonical huffman code lengths table.
*
* nsyms = total number of symbols in this huffman tree.
* nbits = any symbols with a code length of nbits or less can be decoded
* in one lookup of the table.
* length = A table to get code lengths from [0 to nsyms-1]
* table = The table to fill up with decoded symbols and pointers.
* Should be ((1<<nbits) + (nsyms*2)) in length.
*
* Returns 0 for OK or 1 for error
*/
static int make_decode_table(unsigned int nsyms, unsigned int nbits,
unsigned char *length, unsigned short *table)
{
register unsigned short sym, next_symbol;
register unsigned int leaf, fill;
#ifdef BITS_ORDER_LSB
register unsigned int reverse;
#endif
register unsigned char bit_num;
unsigned int pos = 0; /* the current position in the decode table */
unsigned int table_mask = 1 << nbits;
unsigned int bit_mask = table_mask >> 1; /* don't do 0 length codes */
/* fill entries for codes short enough for a direct mapping */
for (bit_num = 1; bit_num <= nbits; bit_num++) {
for (sym = 0; sym < nsyms; sym++) {
if (length[sym] != bit_num) continue;
#ifdef BITS_ORDER_MSB
leaf = pos;
#else
/* reverse the significant bits */
fill = length[sym]; reverse = pos >> (nbits - fill); leaf = 0;
do {leaf <<= 1; leaf |= reverse & 1; reverse >>= 1;} while (--fill);
#endif
if((pos += bit_mask) > table_mask) return 1; /* table overrun */
/* fill all possible lookups of this symbol with the symbol itself */
#ifdef BITS_ORDER_MSB
for (fill = bit_mask; fill-- > 0;) table[leaf++] = sym;
#else
fill = bit_mask; next_symbol = 1 << bit_num;
do { table[leaf] = sym; leaf += next_symbol; } while (--fill);
#endif
}
bit_mask >>= 1;
}
/* exit with success if table is now complete */
if (pos == table_mask) return 0;
/* mark all remaining table entries as unused */
for (sym = pos; sym < table_mask; sym++) {
#ifdef BITS_ORDER_MSB
table[sym] = 0xFFFF;
#else
reverse = sym; leaf = 0; fill = nbits;
do { leaf <<= 1; leaf |= reverse & 1; reverse >>= 1; } while (--fill);
table[leaf] = 0xFFFF;
#endif
}
/* next_symbol = base of allocation for long codes */
next_symbol = ((table_mask >> 1) < nsyms) ? nsyms : (table_mask >> 1);
/* give ourselves room for codes to grow by up to 16 more bits.
* codes now start at bit nbits+16 and end at (nbits+16-codelength) */
pos <<= 16;
table_mask <<= 16;
bit_mask = 1 << 15;
for (bit_num = nbits+1; bit_num <= HUFF_MAXBITS; bit_num++) {
for (sym = 0; sym < nsyms; sym++) {
if (length[sym] != bit_num) continue;
if (pos >= table_mask) return 1; /* table overflow */
#ifdef BITS_ORDER_MSB
leaf = pos >> 16;
#else
/* leaf = the first nbits of the code, reversed */
reverse = pos >> 16; leaf = 0; fill = nbits;
do {leaf <<= 1; leaf |= reverse & 1; reverse >>= 1;} while (--fill);
#endif
for (fill = 0; fill < (bit_num - nbits); fill++) {
/* if this path hasn't been taken yet, 'allocate' two entries */
if (table[leaf] == 0xFFFF) {
table[(next_symbol << 1) ] = 0xFFFF;
table[(next_symbol << 1) + 1 ] = 0xFFFF;
table[leaf] = next_symbol++;
}
/* follow the path and select either left or right for next bit */
leaf = table[leaf] << 1;
if ((pos >> (15-fill)) & 1) leaf++;
}
table[leaf] = sym;
pos += bit_mask;
}
bit_mask >>= 1;
}
/* full table? */
return (pos == table_mask) ? 0 : 1;
}
#endif