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///////////////////////////////////////////////////////////////////////////////
//
/// \file lz_encoder_hash.h
/// \brief Hash macros for match finders
//
// Author: Igor Pavlov
//
// This file has been put into the public domain.
// You can do whatever you want with this file.
//
///////////////////////////////////////////////////////////////////////////////
#ifndef LZMA_LZ_ENCODER_HASH_H
#define LZMA_LZ_ENCODER_HASH_H
#if defined(WORDS_BIGENDIAN) && !defined(HAVE_SMALL)
// This is to make liblzma produce the same output on big endian
// systems that it does on little endian systems. lz_encoder.c
// takes care of including the actual table.
extern const uint32_t lzma_lz_hash_table[256];
# define hash_table lzma_lz_hash_table
#else
# include "check.h"
# define hash_table lzma_crc32_table[0]
#endif
#define HASH_2_SIZE (UINT32_C(1) << 10)
#define HASH_3_SIZE (UINT32_C(1) << 16)
#define HASH_4_SIZE (UINT32_C(1) << 20)
#define HASH_2_MASK (HASH_2_SIZE - 1)
#define HASH_3_MASK (HASH_3_SIZE - 1)
#define HASH_4_MASK (HASH_4_SIZE - 1)
#define FIX_3_HASH_SIZE (HASH_2_SIZE)
#define FIX_4_HASH_SIZE (HASH_2_SIZE + HASH_3_SIZE)
#define FIX_5_HASH_SIZE (HASH_2_SIZE + HASH_3_SIZE + HASH_4_SIZE)
// Endianness doesn't matter in hash_2_calc() (no effect on the output).
#ifdef TUKLIB_FAST_UNALIGNED_ACCESS
# define hash_2_calc() \
hash_value = *(const uint16_t *)(cur)
#else
# define hash_2_calc() \
hash_value = (uint32_t)(cur[0]) | ((uint32_t)(cur[1]) << 8)
#endif
#define hash_3_calc() \
temp = hash_table[cur[0]] ^ cur[1]; \
hash_2_value = temp & HASH_2_MASK; \
hash_value = (temp ^ ((uint32_t)(cur[2]) << 8)) & mf->hash_mask
#define hash_4_calc() \
temp = hash_table[cur[0]] ^ cur[1]; \
hash_2_value = temp & HASH_2_MASK; \
hash_3_value = (temp ^ ((uint32_t)(cur[2]) << 8)) & HASH_3_MASK; \
hash_value = (temp ^ ((uint32_t)(cur[2]) << 8) \
^ (hash_table[cur[3]] << 5)) & mf->hash_mask
// The following are not currently used.
#define hash_5_calc() \
const uint32_t temp = hash_table[cur[0]] ^ cur[1]; \
const uint32_t hash_2_value = temp & HASH_2_MASK; \
const uint32_t hash_3_value \
= (temp ^ ((uint32_t)(cur[2]) << 8)) & HASH_3_MASK; \
uint32_t hash_4_value = (temp ^ ((uint32_t)(cur[2]) << 8) ^ \
^ hash_table[cur[3]] << 5); \
const uint32_t hash_value \
= (hash_4_value ^ (hash_table[cur[4]] << 3)) \
& mf->hash_mask; \
hash_4_value &= HASH_4_MASK
/*
#define hash_zip_calc() \
const uint32_t hash_value \
= (((uint32_t)(cur[0]) | ((uint32_t)(cur[1]) << 8)) \
^ hash_table[cur[2]]) & 0xFFFF
*/
#define hash_zip_calc() \
const uint32_t hash_value \
= (((uint32_t)(cur[2]) | ((uint32_t)(cur[0]) << 8)) \
^ hash_table[cur[1]]) & 0xFFFF
#define mt_hash_2_calc() \
const uint32_t hash_2_value \
= (hash_table[cur[0]] ^ cur[1]) & HASH_2_MASK
#define mt_hash_3_calc() \
const uint32_t temp = hash_table[cur[0]] ^ cur[1]; \
const uint32_t hash_2_value = temp & HASH_2_MASK; \
const uint32_t hash_3_value \
= (temp ^ ((uint32_t)(cur[2]) << 8)) & HASH_3_MASK
#define mt_hash_4_calc() \
const uint32_t temp = hash_table[cur[0]] ^ cur[1]; \
const uint32_t hash_2_value = temp & HASH_2_MASK; \
const uint32_t hash_3_value \
= (temp ^ ((uint32_t)(cur[2]) << 8)) & HASH_3_MASK; \
const uint32_t hash_4_value = (temp ^ ((uint32_t)(cur[2]) << 8) ^ \
(hash_table[cur[3]] << 5)) & HASH_4_MASK
#endif