2007-12-08 22:42:33 +00:00
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///////////////////////////////////////////////////////////////////////////////
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//
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/// \file lzma_encoder_private.h
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/// \brief Private definitions for LZMA encoder
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//
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// Copyright (C) 1999-2006 Igor Pavlov
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// Copyright (C) 2007 Lasse Collin
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2.1 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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///////////////////////////////////////////////////////////////////////////////
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#ifndef LZMA_LZMA_ENCODER_PRIVATE_H
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#define LZMA_LZMA_ENCODER_PRIVATE_H
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#include "lzma_encoder.h"
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#include "lzma_common.h"
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#include "lz_encoder.h"
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2008-01-14 11:42:43 +00:00
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#include "range_encoder.h"
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2007-12-08 22:42:33 +00:00
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#define move_pos(num) \
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do { \
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assert((int32_t)(num) >= 0); \
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if ((num) != 0) { \
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coder->additional_offset += num; \
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coder->lz.skip(&coder->lz, num); \
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} \
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} while (0)
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typedef struct {
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probability choice;
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probability choice2;
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probability low[POS_STATES_MAX][LEN_LOW_SYMBOLS];
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probability mid[POS_STATES_MAX][LEN_MID_SYMBOLS];
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probability high[LEN_HIGH_SYMBOLS];
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uint32_t prices[POS_STATES_MAX][LEN_SYMBOLS];
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uint32_t table_size;
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uint32_t counters[POS_STATES_MAX];
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} lzma_length_encoder;
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typedef struct {
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2008-03-21 22:57:33 +00:00
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lzma_lzma_state state;
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2007-12-08 22:42:33 +00:00
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bool prev_1_is_char;
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bool prev_2;
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uint32_t pos_prev_2;
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uint32_t back_prev_2;
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uint32_t price;
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uint32_t pos_prev; // pos_next;
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uint32_t back_prev;
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2008-06-01 09:48:17 +00:00
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uint32_t backs[REP_DISTANCES];
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2007-12-08 22:42:33 +00:00
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} lzma_optimal;
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struct lzma_coder_s {
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// Next coder in the chain
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lzma_next_coder next;
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// In window and match finder
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lzma_lz_encoder lz;
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// Range encoder
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lzma_range_encoder rc;
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// State
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lzma_lzma_state state;
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2007-12-08 22:42:33 +00:00
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uint8_t previous_byte;
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2008-06-01 09:48:17 +00:00
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uint32_t reps[REP_DISTANCES];
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2007-12-08 22:42:33 +00:00
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// Misc
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uint32_t match_distances[MATCH_MAX_LEN * 2 + 2 + 1];
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uint32_t num_distance_pairs;
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uint32_t additional_offset;
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uint32_t now_pos; // Lowest 32 bits are enough here.
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bool best_compression; ///< True when LZMA_MODE_BEST is used
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bool is_initialized;
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2008-06-01 09:48:17 +00:00
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bool is_flushed;
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bool write_eopm;
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2007-12-08 22:42:33 +00:00
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// Literal encoder
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lzma_literal_coder *literal_coder;
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// Bit encoders
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probability is_match[STATES][POS_STATES_MAX];
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probability is_rep[STATES];
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probability is_rep0[STATES];
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probability is_rep1[STATES];
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probability is_rep2[STATES];
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probability is_rep0_long[STATES][POS_STATES_MAX];
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probability pos_encoders[FULL_DISTANCES - END_POS_MODEL_INDEX];
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// Bit Tree Encoders
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probability pos_slot_encoder[LEN_TO_POS_STATES][1 << POS_SLOT_BITS];
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probability pos_align_encoder[1 << ALIGN_BITS];
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// Length encoders
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2008-03-21 22:57:33 +00:00
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lzma_length_encoder match_len_encoder;
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lzma_length_encoder rep_len_encoder;
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2008-06-01 09:48:17 +00:00
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lzma_length_encoder *prev_len_encoder;
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2007-12-08 22:42:33 +00:00
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// Optimal
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lzma_optimal optimum[OPTS];
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uint32_t optimum_end_index;
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uint32_t optimum_current_index;
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uint32_t longest_match_length;
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bool longest_match_was_found;
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// Prices
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uint32_t pos_slot_prices[LEN_TO_POS_STATES][DIST_TABLE_SIZE_MAX];
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uint32_t distances_prices[LEN_TO_POS_STATES][FULL_DISTANCES];
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uint32_t align_prices[ALIGN_TABLE_SIZE];
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uint32_t align_price_count;
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uint32_t dist_table_size;
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uint32_t match_price_count;
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// LZMA specific settings
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uint32_t dictionary_size; ///< Size in bytes
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uint32_t fast_bytes;
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uint32_t pos_state_bits;
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uint32_t pos_mask; ///< (1 << pos_state_bits) - 1
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};
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extern void lzma_length_encoder_update_table(lzma_length_encoder *lencoder,
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const uint32_t pos_state);
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extern bool lzma_lzma_encode(lzma_coder *coder, uint8_t *restrict out,
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size_t *restrict out_pos, size_t out_size);
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extern void lzma_get_optimum(lzma_coder *restrict coder,
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uint32_t *restrict back_res, uint32_t *restrict len_res);
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extern void lzma_get_optimum_fast(lzma_coder *restrict coder,
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uint32_t *restrict back_res, uint32_t *restrict len_res);
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// NOTE: Don't add 'restrict'.
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static inline void
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lzma_read_match_distances(lzma_coder *coder,
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uint32_t *len_res, uint32_t *num_distance_pairs)
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{
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*len_res = 0;
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coder->lz.get_matches(&coder->lz, coder->match_distances);
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*num_distance_pairs = coder->match_distances[0];
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if (*num_distance_pairs > 0) {
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*len_res = coder->match_distances[*num_distance_pairs - 1];
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assert(*len_res <= MATCH_MAX_LEN);
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if (*len_res == coder->fast_bytes) {
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uint32_t offset = *len_res - 1;
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const uint32_t distance = coder->match_distances[
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*num_distance_pairs] + 1;
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uint32_t limit = MATCH_MAX_LEN - *len_res;
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assert(offset + limit < coder->lz.keep_size_after);
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2008-01-14 10:08:02 +00:00
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assert(coder->lz.read_pos <= coder->lz.write_pos);
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2007-12-08 22:42:33 +00:00
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// If we are close to end of the stream, we may need
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// to limit the length of the match.
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2008-01-14 10:08:02 +00:00
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if (coder->lz.write_pos - coder->lz.read_pos
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< offset + limit)
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2007-12-08 22:42:33 +00:00
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limit = coder->lz.write_pos
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- (coder->lz.read_pos + offset);
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offset += coder->lz.read_pos;
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uint32_t i = 0;
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while (i < limit && coder->lz.buffer[offset + i]
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== coder->lz.buffer[
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offset + i - distance])
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++i;
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*len_res += i;
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}
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}
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++coder->additional_offset;
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return;
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}
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#endif
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