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422 lines
11 KiB
422 lines
11 KiB
/* ------------------------------------------------------------------------ */
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/* */
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/* Copyright (c) Microsoft Corporation, 2000-2001. All rights reserved. */
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/* Copyright (c) Andrew Kadatch, 1991-2001. All rights reserved. */
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/* */
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/* Microsoft Confidential -- do not redistribute. */
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/* */
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/* ------------------------------------------------------------------------ */
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#include "xprs.h"
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#define ALLOCATE_ON_STACK 1
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#define MAGIC_DECODE 0x35DEC0DE
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typedef struct
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{
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struct
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{
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uchar *end, *beg, *careful, *stop, *last;
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} dst;
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struct
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{
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const uchar *end, *beg, *careful, *end_1, *end_tag, *end_bitmask2, *last;
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}
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src;
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int result;
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int eof;
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int magic;
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#if CODING & (CODING_HUFF_LEN | CODING_HUFF_PTR | CODING_HUFF_ALL)
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uint16 table[(1 << DECODE_BITS) + (HUFF_SIZE << 1)];
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#endif
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} decode_info;
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#if CODING == CODING_BY_BIT
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static int bit_to_len_initialized = 0;
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static uchar bit_to_len1[1 << (9 - MIN_MATCH)];
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static uchar bit_to_len2[1 << (9 - MIN_MATCH)];
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static void bit_to_len_init (void)
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{
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int i, k;
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if (bit_to_len_initialized) return;
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bit_to_len1[0] = 0;
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bit_to_len2[0] = 9 - MIN_MATCH;
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for (k = 1, i = 1 << (8 - MIN_MATCH); i != 0; i >>= 1, ++k)
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{
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memset (bit_to_len1 + i, k, i);
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memset (bit_to_len2 + i, k - 1, i);
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}
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bit_to_len_initialized = 1;
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}
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#endif
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#if CODING & (CODING_HUFF_LEN | CODING_HUFF_PTR | CODING_HUFF_ALL)
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static int huffman_decode_create (uint16 *table, const uchar *length)
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{
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xint i, j, k, last, freq[16], sum[16];
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/* calculate number of codewords */
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memset (freq, 0, sizeof (freq));
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i = HUFF_SIZE >> 1;
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do
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{
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k = length[--i];
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++freq[k & 0xf];
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++freq[k >> 4];
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}
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while (i != 0);
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/* handle special case(s) -- 0 and 1 symbols in alphabet */
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if (freq[0] == HUFF_SIZE)
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goto ok;
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if (freq[0] == HUFF_SIZE - 1)
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goto bad;
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#if 0
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{
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if (freq[1] != 1)
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goto bad;
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i = -1; do ++i; while (length[i] == 0);
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k = i << 1;
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if (length[i] != 1) ++k;
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i = 1 << DECODE_BITS;
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do
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*table++ = (uint16) k;
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while (--i > 0);
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goto ok;
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}
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#endif
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/* save frequences */
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memcpy (sum, freq, sizeof (sum));
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/* check code correctness */
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k = 0;
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i = 15;
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do
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{
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if ((k += freq[i]) & 1)
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goto bad;
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k >>= 1;
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}
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while (--i != 0);
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if (k != 1)
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goto bad;
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/* sort symbols */
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k = 0;
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for (i = 1; i < 16; ++i)
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freq[i] = (k += freq[i]);
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last = freq[15]; /* preserve number of symbols in alphabet */
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i = HUFF_SIZE << 4;
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do
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{
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i -= 1 << 4;
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k = length[i >> 5] >> 4;
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if (k != 0)
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table[--freq[k]] = (uint16) (k | i);
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i -= 1 << 4;
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k = length[i >> 5] & 0xf;
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if (k != 0)
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table[--freq[k]] = (uint16) (k | i);
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}
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while (i != 0);
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/* now create decoding table */
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k = i = (1 << DECODE_BITS) + (HUFF_SIZE << 1);
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{
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xint n;
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for (n = 15; n > DECODE_BITS; --n)
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{
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j = i;
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while (k > j)
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table[--i] = (uint16) ((k -= 2) | 0x8000);
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for (k = sum[n]; --k >= 0;)
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table[--i] = table[--last];
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k = j;
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}
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}
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j = i;
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i = 1 << DECODE_BITS;
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while (k > j)
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table[--i] = (uint16) ((k -= 2) | 0x8000);
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while (last > 0)
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{
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k = table[--last];
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j = i - ((1 << DECODE_BITS) >> (k & 15));
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do
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table[--i] = (uint16) k;
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while (i != j);
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}
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assert ((i | last) == 0);
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ok:
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return (1);
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bad:
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return (0);
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}
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#endif /* CODING */
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#if DEBUG
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#define RET_OK do {printf ("OK @ %d\n", __LINE__); goto ret_ok;} while (0)
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#define RET_ERR do {printf ("ERR @ %d\n", __LINE__); goto ret_err;} while (0)
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#else
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#define RET_OK goto ret_ok
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#define RET_ERR goto ret_err
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#endif
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#define GET_UINT16(x,p) x = *(__unaligned uint16 *)(p); p += 2
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#define COPY_8_BYTES(dst,src) \
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dst[0] = src[0]; dst[1] = src[1]; dst[2] = src[2]; dst[3] = src[3]; \
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dst[4] = src[4]; dst[5] = src[5]; dst[6] = src[6]; dst[7] = src[7]
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/* do not use "memcpy" -- it does not work properly if "dst" and "src" are close (overlap) */
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#define COPY_BLOCK_SLOW(dst,src,len) \
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if (len > 8) do \
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{ \
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COPY_8_BYTES (dst, src); \
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len -= 8; dst += 8; src += 8; \
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} \
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while (len > 8); \
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do \
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*dst++ = *src++, --len; \
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while (len)
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#ifndef i386
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#define COPY_BLOCK_FAST_8(dst,src) \
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COPY_8_BYTES (dst, src)
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#else
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#if 0
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#define COPY_BLOCK_FAST_8(dst,src) \
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((__unaligned uint32 *) dst)[0] = ((__unaligned uint32 *) src)[0]; \
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((__unaligned uint32 *) dst)[1] = ((__unaligned uint32 *) src)[1]
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#else
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#define COPY_BLOCK_FAST_8(dst,src) \
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((__unaligned __int64 *) dst)[0] = ((__unaligned __int64 *) src)[0]
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#endif
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#endif /* i386 */
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#define BIORD(bits) \
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(Mask >> (sizeof (Mask) * 8 - (bits)))
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#define CONCAT2(x,y) x##y
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#define CONCAT(x,y) CONCAT2(x,y)
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#define bits_t signed char
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#define BIORD_MORE0(bits) \
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if ((Bits = (bits_t) (Bits - (bits))) < 0) \
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{ \
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CAREFUL_ERR_IF (src >= info->src.end_1); \
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Mask += ((ubitmask4) *(__unaligned ubitmask2 *)src) << (-Bits); \
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src += sizeof (ubitmask2); \
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Bits += (bits_t) (sizeof (ubitmask2) * 8); \
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}
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#define BIORD_MORE(bits) \
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Mask <<= (bits_t)(bits); \
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BIORD_MORE0 (bits)
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#define BIORD_WORD(result,bits) \
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result = 1 << (bits); \
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if (bits) \
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{ \
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result += BIORD (bits); \
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BIORD_MORE (bits); \
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}
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#define BIORD_DECODE(result,table) { \
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bits_t __bits; \
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result = ((int16 *)(table))[BIORD (DECODE_BITS)]; \
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if (result < 0) \
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{ \
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Mask <<= DECODE_BITS; \
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do \
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{ \
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result &= 0x7fff; \
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if ((bitmask4) Mask < 0) ++result; \
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result = ((int16 *)(table))[result]; \
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Mask <<= 1; \
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} \
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while (result < 0); \
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__bits = (bits_t)(result & 15); \
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} \
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else \
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{ \
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__bits = (bits_t)(result & 15); \
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Mask <<= __bits; \
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} \
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result >>= 4; \
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Bits = (bits_t) (Bits - __bits); \
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} \
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if (Bits < 0) \
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{ \
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CAREFUL_ERR_IF (src >= info->src.end_1); \
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if (CODING == CODING_HUFF_ALL) \
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{CAREFUL_IF (src >= info->src.careful, rdmore);} \
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Mask += ((ubitmask4) *(__unaligned ubitmask2 *)src) << (-Bits); \
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src += sizeof (ubitmask2); \
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Bits += (bits_t) (sizeof (ubitmask2) * 8); \
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}
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#ifdef _MSC_VER
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#ifdef _M_IX86
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#pragma optimize ("aw", off)
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#else
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#pragma optimize ("w", off)
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#endif /* _M_IX86 */
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#endif /* _MSC_VER */
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#define CAREFUL 0
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#include "xdecode.i"
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#define CAREFUL 1
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#include "xdecode.i"
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#ifdef _MSC_VER
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#ifdef _M_IX86
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#pragma optimize ("aw", on)
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#else
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#pragma optimize ("w", on)
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#endif /* _M_IX86 */
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#endif
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int XPRESS_CALL XpressDecode
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(
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XpressDecodeStream stream,
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void *orig, int orig_size, int decode_size,
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const void *comp, int comp_size
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)
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{
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decode_info *info;
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const uchar *src;
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#if ALLOCATE_ON_STACK
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decode_info stack_info;
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info = &stack_info;
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info->src.beg = (void *) stream;
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#else
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if (stream == 0 || (info = (decode_info *) stream)->magic != MAGIC_DECODE)
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return (-1);
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#endif
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if (comp_size == orig_size)
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return (decode_size);
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if (orig_size < comp_size
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|| comp_size < 0
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|| orig_size <= MIN_SIZE
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|| comp_size < MIN_SIZE
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)
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return (-1);
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if (orig_size > BUFF_SIZE || decode_size <= 0)
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return (decode_size);
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src = comp;
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info->dst.beg = orig;
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info->dst.end = (uchar *) orig + orig_size;
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info->dst.stop = (uchar *) orig + decode_size;
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info->src.end = src + comp_size;
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info->src.end_1 = info->src.end - 1;
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info->src.end_tag = info->src.end - (sizeof (tag_t) - 1);
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info->src.end_bitmask2 = info->src.end - (sizeof (bitmask2) - 1);
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// check bounds when we read new mask (at most 8 * sizeof (tag_t)) pointers
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// we may write at most 8 bytes without checks
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#define RESERVE_DST ((8 * 8 + 2) * sizeof (tag_t))
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info->dst.careful = info->dst.beg;
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if (info->dst.stop - info->dst.beg > RESERVE_DST)
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info->dst.careful = info->dst.stop - RESERVE_DST;
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// we may read at most 7 bytes
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#define RESERVE_SRC ((7 * 8 + 2) * sizeof (tag_t))
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info->src.careful = info->src.beg;
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if (info->src.end - info->src.beg > RESERVE_SRC)
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info->src.careful = info->src.end - RESERVE_SRC;
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#if CODING & (CODING_HUFF_LEN | CODING_HUFF_PTR | CODING_HUFF_ALL)
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if (!huffman_decode_create (info->table, src))
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return (-1);
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src += HUFF_SIZE >> 1;
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#endif
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#if CODING == CODING_BY_BIT
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bit_to_len_init ();
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#endif
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info->src.beg = src;
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info->result = 0;
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info->eof = 0;
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do_decode (info);
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if (!info->result || info->dst.last > info->dst.stop || info->src.last > info->src.end
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|| (info->dst.stop == info->dst.end && !info->eof)
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)
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return (-1);
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return (decode_size);
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}
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XpressDecodeStream
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XPRESS_CALL
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XpressDecodeCreate
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(
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void *context, // user-defined context info (will be passed to AllocFn)
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XpressAllocFn *AllocFn // memory allocation callback
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)
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{
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#if ALLOCATE_ON_STACK
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#ifdef _M_IX86
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return ((XpressDecodeStream) 1);
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#else
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return ((XpressDecodeStream) (__int64) 1);
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#endif
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#else
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decode_info *info;
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if (AllocFn == 0 || (info = AllocFn (context, sizeof (*info))) == 0)
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return (0);
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info->magic = MAGIC_DECODE;
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return ((XpressDecodeStream) info);
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#endif
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}
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void
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XPRESS_CALL
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XpressDecodeClose
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(
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XpressDecodeStream stream, // encoder's workspace
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void *context, // user-defined context info (will be passed to FreeFn)
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XpressFreeFn *FreeFn // callback that releases the memory
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)
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{
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#if ALLOCATE_ON_STACK
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/* do nothing */
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#else
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if (FreeFn != 0 && stream != 0 && ((decode_info *) stream)->magic == MAGIC_DECODE)
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{
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((decode_info *) stream)->magic = 0;
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FreeFn (context, stream);
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}
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#endif
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}
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