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| author | Daniel Baumann <mail@daniel-baumann.ch> | 2015-11-06 11:35:51 +0000 |
|---|---|---|
| committer | Daniel Baumann <mail@daniel-baumann.ch> | 2015-11-06 11:35:51 +0000 |
| commit | e697a57bc582b562dd0e0365479abf0bbfbb3f14 (patch) | |
| tree | d186f0d655a47c6fe2388733427224d5fde2372a /encoder.c | |
| parent | Adding debian version 1.3-3. (diff) | |
| download | clzip-e697a57bc582b562dd0e0365479abf0bbfbb3f14.tar.xz clzip-e697a57bc582b562dd0e0365479abf0bbfbb3f14.zip | |
Merging upstream version 1.4.
Signed-off-by: Daniel Baumann <mail@daniel-baumann.ch>
Diffstat (limited to 'encoder.c')
| -rw-r--r-- | encoder.c | 574 |
1 files changed, 356 insertions, 218 deletions
@@ -1,5 +1,5 @@ /* Clzip - Data compressor based on the LZMA algorithm - Copyright (C) 2010, 2011, 2012 Antonio Diaz Diaz. + Copyright (C) 2010, 2011, 2012, 2013 Antonio Diaz Diaz. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by @@ -60,9 +60,9 @@ void Mf_normalize_pos( struct Matchfinder * const mf ) mf->partial_data_pos += offset; mf->pos -= offset; mf->stream_pos -= offset; - for( i = 0; i < num_prev_positions; ++i ) + for( i = 0; i < mf->num_prev_positions; ++i ) if( mf->prev_positions[i] >= 0 ) mf->prev_positions[i] -= offset; - for( i = 0; i < 2 * mf->dictionary_size; ++i ) + for( i = 0; i < 2 * ( mf->dictionary_size + 1 ); ++i ) if( mf->prev_pos_tree[i] >= 0 ) mf->prev_pos_tree[i] -= offset; Mf_read_block( mf ); } @@ -70,44 +70,53 @@ void Mf_normalize_pos( struct Matchfinder * const mf ) bool Mf_init( struct Matchfinder * const mf, - const int dict_size, const int len_limit, const int ifd ) + const int dict_size, const int match_len_limit, const int ifd ) { const int buffer_size_limit = ( 2 * dict_size ) + before_size + after_size; - int i; + int i, size; + mf->partial_data_pos = 0; - mf->prev_positions = (int32_t *)malloc( num_prev_positions * sizeof (int32_t) ); - if( !mf->prev_positions ) return false; + mf->match_len_limit = match_len_limit; mf->pos = 0; mf->cyclic_pos = 0; mf->stream_pos = 0; - mf->match_len_limit = len_limit; - mf->cycles = ( len_limit < max_match_len ) ? 16 + ( len_limit / 2 ) : 256; + mf->cycles = ( match_len_limit < max_match_len ) ? + 16 + ( match_len_limit / 2 ) : 256; mf->infd = ifd; mf->at_stream_end = false; - for( i = 0; i < num_prev_positions; ++i ) mf->prev_positions[i] = -1; mf->buffer_size = max( 65536, dict_size ); mf->buffer = (uint8_t *)malloc( mf->buffer_size ); - if( !mf->buffer ) { free( mf->prev_positions ); return false; } + if( !mf->buffer ) return false; if( Mf_read_block( mf ) && !mf->at_stream_end && mf->buffer_size < buffer_size_limit ) { + uint8_t * tmp; mf->buffer_size = buffer_size_limit; - uint8_t * const tmp = (uint8_t *)realloc( mf->buffer, mf->buffer_size ); - if( !tmp ) - { free( mf->buffer ); free( mf->prev_positions ); return false; } + tmp = (uint8_t *)realloc( mf->buffer, mf->buffer_size ); + if( !tmp ) { free( mf->buffer ); return false; } mf->buffer = tmp; Mf_read_block( mf ); } if( mf->at_stream_end && mf->stream_pos < dict_size ) mf->dictionary_size = max( min_dictionary_size, mf->stream_pos ); - else mf->dictionary_size = dict_size; + else + mf->dictionary_size = dict_size; mf->pos_limit = mf->buffer_size; if( !mf->at_stream_end ) mf->pos_limit -= after_size; - mf->prev_pos_tree = - (int32_t *)malloc( 2 * mf->dictionary_size * sizeof (int32_t) ); - if( !mf->prev_pos_tree ) - { free( mf->buffer ); free( mf->prev_positions ); return false; } + size = 1 << max( 16, real_bits( mf->dictionary_size - 1 ) - 2 ); + if( mf->dictionary_size > 1 << 26 ) + size >>= 1; + mf->key4_mask = size - 1; + size += num_prev_positions2; + size += num_prev_positions3; + + mf->num_prev_positions = size; + size += ( 2 * ( mf->dictionary_size + 1 ) ); + mf->prev_positions = (int32_t *)malloc( size * sizeof (int32_t) ); + if( !mf->prev_positions ) { free( mf->buffer ); return false; } + mf->prev_pos_tree = mf->prev_positions + mf->num_prev_positions; + for( i = 0; i < mf->num_prev_positions; ++i ) mf->prev_positions[i] = -1; return true; } @@ -121,23 +130,24 @@ void Mf_reset( struct Matchfinder * const mf ) mf->stream_pos -= mf->pos; mf->pos = 0; mf->cyclic_pos = 0; - for( i = 0; i < num_prev_positions; ++i ) mf->prev_positions[i] = -1; + for( i = 0; i < mf->num_prev_positions; ++i ) mf->prev_positions[i] = -1; Mf_read_block( mf ); } -int Mf_longest_match_len( struct Matchfinder * const mf, int * const distances ) +int Mf_get_match_pairs( struct Matchfinder * const mf, struct Pair * pairs ) { int32_t * ptr0 = mf->prev_pos_tree + ( mf->cyclic_pos << 1 ); int32_t * ptr1 = ptr0 + 1; int32_t * newptr; - const uint8_t * newdata; int len = 0, len0 = 0, len1 = 0; int maxlen = min_match_len - 1; - const int min_pos = (mf->pos >= mf->dictionary_size) ? - (mf->pos - mf->dictionary_size + 1) : 0; + int num_pairs = 0; + const int min_pos = (mf->pos > mf->dictionary_size) ? + mf->pos - mf->dictionary_size : 0; const uint8_t * const data = mf->buffer + mf->pos; - int count, delta, key2, key3, key4, newpos, tmp; + int count, delta, key2, key3, key4, newpos; + unsigned tmp; int len_limit = mf->match_len_limit; if( len_limit > Mf_available_bytes( mf ) ) @@ -146,24 +156,39 @@ int Mf_longest_match_len( struct Matchfinder * const mf, int * const distances ) if( len_limit < 4 ) return 0; } - key2 = num_prev_positions4 + num_prev_positions3 + - ( ( (int)data[0] << 8 ) | data[1] ); - tmp = crc32[data[0]] ^ data[1] ^ ( (uint32_t)data[2] << 8 ); - key3 = num_prev_positions4 + (int)( tmp & ( num_prev_positions3 - 1 ) ); - key4 = (int)( ( tmp ^ ( crc32[data[3]] << 5 ) ) & - ( num_prev_positions4 - 1 ) ); + tmp = crc32[data[0]] ^ data[1]; + key2 = tmp & ( num_prev_positions2 - 1 ); + tmp ^= (uint32_t)data[2] << 8; + key3 = num_prev_positions2 + ( tmp & ( num_prev_positions3 - 1 ) ); + key4 = num_prev_positions2 + num_prev_positions3 + + ( ( tmp ^ ( crc32[data[3]] << 5 ) ) & mf->key4_mask ); - if( distances ) + if( pairs ) { - int np = mf->prev_positions[key2]; - if( np >= min_pos ) - { distances[2] = mf->pos - np - 1; maxlen = 2; } - else distances[2] = 0x7FFFFFFF; - np = mf->prev_positions[key3]; - if( np >= min_pos && mf->buffer[np] == data[0] ) - { distances[3] = mf->pos - np - 1; maxlen = 3; } - else distances[3] = 0x7FFFFFFF; - distances[4] = 0x7FFFFFFF; + int np2 = mf->prev_positions[key2]; + int np3 = mf->prev_positions[key3]; + if( np2 >= min_pos && mf->buffer[np2] == data[0] ) + { + pairs[0].dis = mf->pos - np2 - 1; + pairs[0].len = maxlen = 2; + num_pairs = 1; + } + if( np2 != np3 && np3 >= min_pos && mf->buffer[np3] == data[0] ) + { + maxlen = 3; + pairs[num_pairs].dis = mf->pos - np3 - 1; + ++num_pairs; + np2 = np3; + } + if( num_pairs > 0 ) + { + delta = mf->pos - np2; + while( maxlen < len_limit && data[maxlen-delta] == data[maxlen] ) + ++maxlen; + pairs[num_pairs-1].len = maxlen; + if( maxlen >= len_limit ) pairs = 0; + } + if( maxlen < 3 ) maxlen = 3; } mf->prev_positions[key2] = mf->pos; @@ -174,46 +199,43 @@ int Mf_longest_match_len( struct Matchfinder * const mf, int * const distances ) for( count = mf->cycles; ; ) { if( newpos < min_pos || --count < 0 ) { *ptr0 = *ptr1 = -1; break; } - newdata = mf->buffer + newpos; - while( len < len_limit && newdata[len] == data[len] ) ++len; delta = mf->pos - newpos; - if( distances ) while( maxlen < len ) distances[++maxlen] = delta - 1; - newptr = mf->prev_pos_tree + ( ( mf->cyclic_pos - delta + - ( ( mf->cyclic_pos >= delta ) ? 0 : mf->dictionary_size ) ) << 1 ); - - if( len < len_limit ) + ( (mf->cyclic_pos >= delta) ? 0 : mf->dictionary_size + 1 ) ) << 1 ); + if( data[len-delta] == data[len] ) { - if( newdata[len] < data[len] ) + while( ++len < len_limit && data[len-delta] == data[len] ) {} + if( pairs && maxlen < len ) { - *ptr0 = newpos; - ptr0 = newptr + 1; - newpos = *ptr0; - len0 = len; if( len1 < len ) len = len1; + pairs[num_pairs].dis = delta - 1; + pairs[num_pairs].len = maxlen = len; + ++num_pairs; } - else + if( len >= len_limit ) { - *ptr1 = newpos; - ptr1 = newptr; - newpos = *ptr1; - len1 = len; if( len0 < len ) len = len0; + *ptr0 = newptr[0]; + *ptr1 = newptr[1]; + break; } } + if( data[len-delta] < data[len] ) + { + *ptr0 = newpos; + ptr0 = newptr + 1; + newpos = *ptr0; + len0 = len; if( len1 < len ) len = len1; + } else { - *ptr0 = newptr[0]; - *ptr1 = newptr[1]; - break; + *ptr1 = newpos; + ptr1 = newptr; + newpos = *ptr1; + len1 = len; if( len0 < len ) len = len0; } } - if( distances ) - { - if( distances[3] > distances[4] ) distances[3] = distances[4]; - if( distances[2] > distances[3] ) distances[2] = distances[3]; - } - return maxlen; + return num_pairs; } @@ -222,8 +244,7 @@ void Re_flush_data( struct Range_encoder * const renc ) if( renc->pos > 0 ) { if( renc->outfd >= 0 && - writeblock( renc->outfd, renc->buffer, - renc->pos ) != renc->pos ) + writeblock( renc->outfd, renc->buffer, renc->pos ) != renc->pos ) { show_error( "Write error", errno, false ); cleanup_and_fail( 1 ); } renc->partial_member_pos += renc->pos; renc->pos = 0; @@ -263,7 +284,7 @@ void Lee_encode( struct Len_encoder * const len_encoder, /* End Of Stream mark => (dis == 0xFFFFFFFFU, len == min_match_len) */ -void LZe_full_flush( struct LZ_encoder * const encoder, const State state ) +static void LZe_full_flush( struct LZ_encoder * const encoder, const State state ) { int i; const int pos_state = Mf_data_position( encoder->matchfinder ) & pos_state_mask; @@ -282,7 +303,7 @@ void LZe_full_flush( struct LZ_encoder * const encoder, const State state ) } -void LZe_fill_align_prices( struct LZ_encoder * const encoder ) +static void LZe_fill_align_prices( struct LZ_encoder * const encoder ) { int i; for( i = 0; i < dis_align_size; ++i ) @@ -292,7 +313,7 @@ void LZe_fill_align_prices( struct LZ_encoder * const encoder ) } -void LZe_fill_distance_prices( struct LZ_encoder * const encoder ) +static void LZe_fill_distance_prices( struct LZ_encoder * const encoder ) { int dis, dis_state; for( dis = start_dis_model; dis < modeled_distances; ++dis ) @@ -301,7 +322,7 @@ void LZe_fill_distance_prices( struct LZ_encoder * const encoder ) const int direct_bits = ( dis_slot >> 1 ) - 1; const int base = ( 2 | ( dis_slot & 1 ) ) << direct_bits; const int price = - price_symbol_reversed( encoder->bm_dis + base - dis_slot, + price_symbol_reversed( encoder->bm_dis + base - dis_slot - 1, dis - base, direct_bits ); for( dis_state = 0; dis_state < max_dis_states; ++dis_state ) encoder->dis_prices[dis_state][dis] = price; @@ -317,7 +338,7 @@ void LZe_fill_distance_prices( struct LZ_encoder * const encoder ) dsp[slot] = price_symbol( bmds, slot, dis_slot_bits ); for( ; slot < encoder->num_dis_slots; ++slot ) dsp[slot] = price_symbol( bmds, slot, dis_slot_bits ) + - (((( slot >> 1 ) - 1 ) - dis_align_bits ) << price_shift ); + (((( slot >> 1 ) - 1 ) - dis_align_bits ) << price_shift_bits ); for( dis = 0; dis < start_dis_model; ++dis ) dp[dis] = dsp[dis]; @@ -331,39 +352,29 @@ bool LZe_init( struct LZ_encoder * const encoder, struct Matchfinder * const mf, const File_header header, const int outfd ) { - int i, j; - encoder->longest_match_found = 0; + int i; + encoder->pending_num_pairs = 0; encoder->crc = 0xFFFFFFFFU; - for( i = 0; i < states; ++i ) - { - for( j = 0; j < pos_states; ++j ) - { - Bm_init( &encoder->bm_match[i][j] ); - Bm_init( &encoder->bm_len[i][j] ); - } - Bm_init( &encoder->bm_rep[i] ); - Bm_init( &encoder->bm_rep0[i] ); - Bm_init( &encoder->bm_rep1[i] ); - Bm_init( &encoder->bm_rep2[i] ); - } - for( i = 0; i < max_dis_states; ++i ) - for( j = 0; j < 1<<dis_slot_bits; ++j ) - Bm_init( &encoder->bm_dis_slot[i][j] ); - for( i = 0; i < modeled_distances-end_dis_model+1; ++i ) - Bm_init( &encoder->bm_dis[i] ); - for( i = 0; i < dis_align_size; ++i ) - Bm_init( &encoder->bm_align[i] ); + Bm_array_init( encoder->bm_literal[0], (1 << literal_context_bits) * 0x300 ); + Bm_array_init( encoder->bm_match[0], states * pos_states ); + Bm_array_init( encoder->bm_rep, states ); + Bm_array_init( encoder->bm_rep0, states ); + Bm_array_init( encoder->bm_rep1, states ); + Bm_array_init( encoder->bm_rep2, states ); + Bm_array_init( encoder->bm_len[0], states * pos_states ); + Bm_array_init( encoder->bm_dis_slot[0], max_dis_states * (1 << dis_slot_bits) ); + Bm_array_init( encoder->bm_dis, modeled_distances - end_dis_model ); + Bm_array_init( encoder->bm_align, dis_align_size ); encoder->matchfinder = mf; if( !Re_init( &encoder->range_encoder, outfd ) ) return false; Lee_init( &encoder->len_encoder, encoder->matchfinder->match_len_limit ); Lee_init( &encoder->rep_match_len_encoder, encoder->matchfinder->match_len_limit ); - Lie_init( &encoder->literal_encoder ); encoder->num_dis_slots = 2 * real_bits( encoder->matchfinder->dictionary_size - 1 ); - LZe_fill_align_prices( encoder ); + encoder->align_price_count = 0; for( i = 0; i < Fh_size; ++i ) Re_put_byte( &encoder->range_encoder, header[i] ); @@ -375,24 +386,27 @@ bool LZe_init( struct LZ_encoder * const encoder, trials[0]..trials[retval-1] contain the steps to encode. ( trials[0].dis == -1 && trials[0].price == 1 ) means literal. */ -int LZe_sequence_optimizer( struct LZ_encoder * const encoder, - const int reps[num_rep_distances], - const State state ) +static int LZe_sequence_optimizer( struct LZ_encoder * const encoder, + const int reps[num_rep_distances], + const State state ) { - int main_len, i, rep, cur = 0, num_trials; + int main_len, num_pairs, i, rep, cur = 0, num_trials, len; int replens[num_rep_distances]; int rep_index = 0; - if( encoder->longest_match_found > 0 ) /* from previous call */ + if( encoder->pending_num_pairs > 0 ) /* from previous call */ { - main_len = encoder->longest_match_found; - encoder->longest_match_found = 0; + num_pairs = encoder->pending_num_pairs; + encoder->pending_num_pairs = 0; } - else main_len = LZe_read_match_distances( encoder ); + else + num_pairs = LZe_read_match_distances( encoder ); + main_len = ( num_pairs > 0 ) ? encoder->pairs[num_pairs-1].len : 0; for( i = 0; i < num_rep_distances; ++i ) { - replens[i] = Mf_true_match_len( encoder->matchfinder, 0, reps[i] + 1, max_match_len ); + replens[i] = + Mf_true_match_len( encoder->matchfinder, 0, reps[i] + 1, max_match_len ); if( replens[i] > replens[rep_index] ) rep_index = i; } if( replens[rep_index] >= encoder->matchfinder->match_len_limit ) @@ -405,9 +419,7 @@ int LZe_sequence_optimizer( struct LZ_encoder * const encoder, if( main_len >= encoder->matchfinder->match_len_limit ) { - encoder->trials[0].dis = - encoder->match_distances[encoder->matchfinder->match_len_limit] + - num_rep_distances; + encoder->trials[0].dis = encoder->pairs[num_pairs-1].dis + num_rep_distances; encoder->trials[0].price = main_len; LZe_move_pos( encoder, main_len ); return main_len; @@ -422,23 +434,22 @@ int LZe_sequence_optimizer( struct LZ_encoder * const encoder, const uint8_t match_byte = Mf_peek( encoder->matchfinder, -reps[0]-1 ); encoder->trials[0].state = state; - for( i = 0; i < num_rep_distances; ++i ) - encoder->trials[0].reps[i] = reps[i]; encoder->trials[1].dis = -1; - encoder->trials[1].prev_index = 0; encoder->trials[1].price = price0( encoder->bm_match[state][pos_state] ); if( St_is_char( state ) ) encoder->trials[1].price += - Lie_price_symbol( &encoder->literal_encoder, prev_byte, cur_byte ); + LZe_price_literal( encoder, prev_byte, cur_byte ); else encoder->trials[1].price += - Lie_price_matched( &encoder->literal_encoder, prev_byte, cur_byte, match_byte ); + LZe_price_matched( encoder, prev_byte, cur_byte, match_byte ); if( match_byte == cur_byte ) - Tr_update( &encoder->trials[1], 0, 0, rep_match_price + - LZe_price_rep_len1( encoder, state, pos_state ) ); + Tr_update( &encoder->trials[1], rep_match_price + + LZe_price_rep_len1( encoder, state, pos_state ), 0, 0 ); + + num_trials = max( main_len, replens[rep_index] ); - if( main_len < min_match_len ) + if( num_trials < min_match_len ) { encoder->trials[0].dis = encoder->trials[1].dis; encoder->trials[0].price = 1; @@ -446,45 +457,51 @@ int LZe_sequence_optimizer( struct LZ_encoder * const encoder, return 1; } - if( main_len <= replens[rep_index] ) + for( i = 0; i < num_rep_distances; ++i ) + encoder->trials[0].reps[i] = reps[i]; + encoder->trials[1].prev_index = 0; + encoder->trials[1].prev_index2 = single_step_trial; + + for( len = min_match_len; len <= num_trials; ++len ) + encoder->trials[len].price = infinite_price; + + for( rep = 0; rep < num_rep_distances; ++rep ) { - int len; - main_len = replens[rep_index]; - for( len = min_match_len; len <= main_len; ++len ) - encoder->trials[len].price = infinite_price; + int price; + if( replens[rep] < min_match_len ) continue; + price = rep_match_price + LZe_price_rep( encoder, rep, state, pos_state ); + + for( len = min_match_len; len <= replens[rep]; ++len ) + Tr_update( &encoder->trials[len], price + + Lee_price( &encoder->rep_match_len_encoder, len, pos_state ), + rep, 0 ); } - else + + if( main_len > replens[0] ) { - int len; const int normal_match_price = match_price + price0( encoder->bm_rep[state] ); - for( len = min_match_len; len <= main_len; ++len ) + i = 0, len = max( replens[0] + 1, min_match_len ); + while( len > encoder->pairs[i].len ) ++i; + while( true ) { - encoder->trials[len].dis = encoder->match_distances[len] + num_rep_distances; - encoder->trials[len].prev_index = 0; - encoder->trials[len].price = normal_match_price + - LZe_price_pair( encoder, encoder->match_distances[len], len, pos_state ); + const int dis = encoder->pairs[i].dis; + Tr_update( &encoder->trials[len], normal_match_price + + LZe_price_pair( encoder, dis, len, pos_state ), + dis + num_rep_distances, 0 ); + if( ++len > encoder->pairs[i].len && ++i >= num_pairs ) break; } } - - for( rep = 0; rep < num_rep_distances; ++rep ) - { - const int price = rep_match_price + - LZe_price_rep( encoder, rep, state, pos_state ); - int len; - for( len = min_match_len; len <= replens[rep]; ++len ) - Tr_update( &encoder->trials[len], rep, 0, price + - Lee_price( &encoder->rep_match_len_encoder, len, pos_state ) ); - } } - num_trials = main_len; Mf_move_pos( encoder->matchfinder ); - while( true ) + while( true ) /* price optimization loop */ { struct Trial *cur_trial, *next_trial; - int newlen, pos_state, prev_index, len_limit; + int newlen, pos_state, prev_index, prev_index2, available_bytes, len_limit; + int start_len = min_match_len; int next_price, match_price, rep_match_price; + State cur_state; uint8_t prev_byte, cur_byte, match_byte; if( ++cur >= num_trials ) /* no more initialized trials */ @@ -492,33 +509,70 @@ int LZe_sequence_optimizer( struct LZ_encoder * const encoder, LZe_backward( encoder, cur ); return cur; } - newlen = LZe_read_match_distances( encoder ); + + num_pairs = LZe_read_match_distances( encoder ); + newlen = ( num_pairs > 0 ) ? encoder->pairs[num_pairs-1].len : 0; if( newlen >= encoder->matchfinder->match_len_limit ) { - encoder->longest_match_found = newlen; + encoder->pending_num_pairs = num_pairs; LZe_backward( encoder, cur ); return cur; } + /* give final values to current trial */ cur_trial = &encoder->trials[cur]; prev_index = cur_trial->prev_index; + prev_index2 = cur_trial->prev_index2; - cur_trial->state = encoder->trials[prev_index].state; - - for( i = 0; i < num_rep_distances; ++i ) - cur_trial->reps[i] = encoder->trials[prev_index].reps[i]; + if( prev_index2 != single_step_trial ) + { + --prev_index; + if( prev_index2 >= 0 ) + { + cur_state = encoder->trials[prev_index2].state; + if( cur_trial->dis2 < num_rep_distances ) + cur_state = St_set_rep( cur_state ); + else + cur_state = St_set_match( cur_state ); + } + else + cur_state = encoder->trials[prev_index].state; + cur_state = St_set_char( cur_state ); + } + else + cur_state = encoder->trials[prev_index].state; if( prev_index == cur - 1 ) { - if( cur_trial->dis == 0 ) St_set_short_rep( &cur_trial->state ); - else St_set_char( &cur_trial->state ); + if( cur_trial->dis == 0 ) + cur_state = St_set_short_rep( cur_state ); + else + cur_state = St_set_char( cur_state ); + for( i = 0; i < num_rep_distances; ++i ) + cur_trial->reps[i] = encoder->trials[prev_index].reps[i]; } else { - if( cur_trial->dis < num_rep_distances ) St_set_rep( &cur_trial->state ); - else St_set_match( &cur_trial->state ); - LZe_mtf_reps( cur_trial->dis, cur_trial->reps ); + int dis; + if( prev_index2 >= 0 ) + { + dis = cur_trial->dis2; + prev_index = prev_index2; + cur_state = St_set_rep( cur_state ); + } + else + { + dis = cur_trial->dis; + if( dis < num_rep_distances ) + cur_state = St_set_rep( cur_state ); + else + cur_state = St_set_match( cur_state ); + } + for( i = 0; i < num_rep_distances; ++i ) + cur_trial->reps[i] = encoder->trials[prev_index].reps[i]; + LZe_mtf_reps( dis, cur_trial->reps ); } + cur_trial->state = cur_state; pos_state = Mf_data_position( encoder->matchfinder ) & pos_state_mask; prev_byte = Mf_peek( encoder->matchfinder, -1 ); @@ -526,81 +580,162 @@ int LZe_sequence_optimizer( struct LZ_encoder * const encoder, match_byte = Mf_peek( encoder->matchfinder, -cur_trial->reps[0]-1 ); next_price = cur_trial->price + - price0( encoder->bm_match[cur_trial->state][pos_state] ); - if( St_is_char( cur_trial->state ) ) - next_price += Lie_price_symbol( &encoder->literal_encoder, - prev_byte, cur_byte ); + price0( encoder->bm_match[cur_state][pos_state] ); + if( St_is_char( cur_state ) ) + next_price += LZe_price_literal( encoder, prev_byte, cur_byte ); else - next_price += Lie_price_matched( &encoder->literal_encoder, + next_price += LZe_price_matched( encoder, prev_byte, cur_byte, match_byte ); Mf_move_pos( encoder->matchfinder ); + /* try last updates to next trial */ next_trial = &encoder->trials[cur+1]; - Tr_update( next_trial, -1, cur, next_price ); + Tr_update( next_trial, next_price, -1, cur ); - match_price = cur_trial->price + price1( encoder->bm_match[cur_trial->state][pos_state] ); - rep_match_price = match_price + price1( encoder->bm_rep[cur_trial->state] ); + match_price = cur_trial->price + price1( encoder->bm_match[cur_state][pos_state] ); + rep_match_price = match_price + price1( encoder->bm_rep[cur_state] ); if( match_byte == cur_byte && next_trial->dis != 0 ) - Tr_update( next_trial, 0, cur, rep_match_price + - LZe_price_rep_len1( encoder, cur_trial->state, pos_state ) ); + { + const int price = rep_match_price + + LZe_price_rep_len1( encoder, cur_state, pos_state ); + if( price <= next_trial->price ) + { + next_trial->price = price; + next_trial->dis = 0; + next_trial->prev_index = cur; + next_trial->prev_index2 = single_step_trial; + } + } - len_limit = min( min( max_num_trials - 1 - cur, - Mf_available_bytes( encoder->matchfinder ) ), - encoder->matchfinder->match_len_limit ); - if( len_limit < min_match_len ) continue; + available_bytes = min( Mf_available_bytes( encoder->matchfinder ) + 1, + max_num_trials - 1 - cur ); + if( available_bytes < min_match_len ) continue; - for( rep = 0; rep < num_rep_distances; ++rep ) + len_limit = min( encoder->matchfinder->match_len_limit, available_bytes ); + + /* try literal + rep0 */ + if( match_byte != cur_byte && next_trial->prev_index != cur ) { - const int dis = cur_trial->reps[rep] + 1; - int len = 0; const uint8_t * const data = Mf_ptr_to_current_pos( encoder->matchfinder ) - 1; - while( len < len_limit && data[len] == data[len-dis] ) ++len; - if( len >= min_match_len ) + const int dis = cur_trial->reps[0] + 1; + const int limit = min( encoder->matchfinder->match_len_limit + 1, + available_bytes ); + len = 1; + while( len < limit && data[len-dis] == data[len] ) ++len; + if( --len >= min_match_len ) { - const int price = rep_match_price + - LZe_price_rep( encoder, rep, cur_trial->state, pos_state ); - while( num_trials < cur + len ) + const int pos_state2 = ( pos_state + 1 ) & pos_state_mask; + const State state2 = St_set_char( cur_state ); + const int price = next_price + + price1( encoder->bm_match[state2][pos_state2] ) + + price1( encoder->bm_rep[state2] ) + + LZe_price_rep0_len( encoder, len, state2, pos_state2 ); + while( num_trials < cur + 1 + len ) encoder->trials[++num_trials].price = infinite_price; - for( ; len >= min_match_len; --len ) - Tr_update( &encoder->trials[cur+len], rep, cur, price + - Lee_price( &encoder->rep_match_len_encoder, len, pos_state ) ); + Tr_update2( &encoder->trials[cur+1+len], price, 0, cur + 1 ); } } - if( newlen <= len_limit && - ( newlen > min_match_len || - ( newlen == min_match_len && - encoder->match_distances[min_match_len] < modeled_distances ) ) ) + /* try rep distances */ + for( rep = 0; rep < num_rep_distances; ++rep ) { + const uint8_t * const data = Mf_ptr_to_current_pos( encoder->matchfinder ) - 1; + int price; + const int dis = cur_trial->reps[rep] + 1; + + if( data[-dis] != data[0] || data[1-dis] != data[1] ) continue; + for( len = min_match_len; len < len_limit; ++len ) + if( data[len-dis] != data[len] ) break; + while( num_trials < cur + len ) + encoder->trials[++num_trials].price = infinite_price; + price = rep_match_price + + LZe_price_rep( encoder, rep, cur_state, pos_state ); + for( i = min_match_len; i <= len; ++i ) + Tr_update( &encoder->trials[cur+i], price + + Lee_price( &encoder->rep_match_len_encoder, i, pos_state ), + rep, cur ); + + if( rep == 0 ) start_len = len + 1; /* discard shorter matches */ + + /* try rep + literal + rep0 */ + { + int len2 = len + 1, pos_state2; + const int limit = min( encoder->matchfinder->match_len_limit + len2, + available_bytes ); + State state2; + while( len2 < limit && data[len2-dis] == data[len2] ) ++len2; + len2 -= len + 1; + if( len2 < min_match_len ) continue; + + pos_state2 = ( pos_state + len ) & pos_state_mask; + state2 = St_set_rep( cur_state ); + price += Lee_price( &encoder->rep_match_len_encoder, len, pos_state ) + + price0( encoder->bm_match[state2][pos_state2] ) + + LZe_price_matched( encoder, data[len-1], data[len], data[len-dis] ); + pos_state2 = ( pos_state2 + 1 ) & pos_state_mask; + state2 = St_set_char( state2 ); + price += price1( encoder->bm_match[state2][pos_state2] ) + + price1( encoder->bm_rep[state2] ) + + LZe_price_rep0_len( encoder, len2, state2, pos_state2 ); + while( num_trials < cur + len + 1 + len2 ) + encoder->trials[++num_trials].price = infinite_price; + Tr_update3( &encoder->trials[cur+len+1+len2], price, 0, cur + len + 1, + rep, cur ); + } + } + + /* try matches */ + if( newlen >= start_len && newlen <= len_limit ) + { + int dis; const int normal_match_price = match_price + - price0( encoder->bm_rep[cur_trial->state] ); - int len; - int dis = encoder->match_distances[min_match_len]; - int dis_state = get_dis_state( min_match_len ); - int dis_price = infinite_price; + price0( encoder->bm_rep[cur_state] ); while( num_trials < cur + newlen ) encoder->trials[++num_trials].price = infinite_price; - if( dis < modeled_distances ) - Tr_update( &encoder->trials[cur+min_match_len], dis + num_rep_distances, - cur, normal_match_price + encoder->dis_prices[dis_state][dis] + - Lee_price( &encoder->len_encoder, min_match_len, pos_state ) ); - - for( len = min_match_len + 1; len <= newlen; ++len ) + i = 0; + while( start_len > encoder->pairs[i].len ) ++i; + dis = encoder->pairs[i].dis; + for( len = start_len; ; ++len ) { - if( dis != encoder->match_distances[len] || - dis_state < max_dis_states - 1 ) + int price = normal_match_price + + LZe_price_pair( encoder, dis, len, pos_state ); + + Tr_update( &encoder->trials[cur+len], price, dis + num_rep_distances, cur ); + + /* try match + literal + rep0 */ + if( len == encoder->pairs[i].len ) { - dis = encoder->match_distances[len]; - dis_state = get_dis_state( len ); - dis_price = LZe_price_dis( encoder, dis, dis_state ); + const uint8_t * const data = Mf_ptr_to_current_pos( encoder->matchfinder ) - 1; + const int dis2 = dis + 1; + int len2 = len + 1; + const int limit = min( encoder->matchfinder->match_len_limit + len2, + available_bytes ); + while( len2 < limit && data[len2-dis2] == data[len2] ) ++len2; + len2 -= len + 1; + if( len2 >= min_match_len ) + { + int pos_state2 = ( pos_state + len ) & pos_state_mask; + State state2 = St_set_match( cur_state ); + price += price0( encoder->bm_match[state2][pos_state2] ) + + LZe_price_matched( encoder, data[len-1], data[len], data[len-dis2] ); + pos_state2 = ( pos_state2 + 1 ) & pos_state_mask; + state2 = St_set_char( state2 ); + price += price1( encoder->bm_match[state2][pos_state2] ) + + price1( encoder->bm_rep[state2] ) + + LZe_price_rep0_len( encoder, len2, state2, pos_state2 ); + + while( num_trials < cur + len + 1 + len2 ) + encoder->trials[++num_trials].price = infinite_price; + Tr_update3( &encoder->trials[cur+len+1+len2], price, 0, + cur + len + 1, dis + num_rep_distances, cur ); + } + if( ++i >= num_pairs ) break; + dis = encoder->pairs[i].dis; } - Tr_update( &encoder->trials[cur+len], dis + num_rep_distances, cur, - normal_match_price + dis_price + - Lee_price( &encoder->len_encoder, len, pos_state ) ); } } } @@ -608,12 +743,12 @@ int LZe_sequence_optimizer( struct LZ_encoder * const encoder, bool LZe_encode_member( struct LZ_encoder * const encoder, - const long long member_size ) + const unsigned long long member_size ) { - const long long member_size_limit = + const unsigned long long member_size_limit = member_size - Ft_size - max_marker_size; const int fill_count = - ( encoder->matchfinder->match_len_limit > 12 ) ? 512 : 2048; + ( encoder->matchfinder->match_len_limit > 12 ) ? 128 : 512; int fill_counter = 0; int ahead, i; int rep_distances[num_rep_distances]; @@ -629,20 +764,24 @@ bool LZe_encode_member( struct LZ_encoder * const encoder, const uint8_t prev_byte = 0; const uint8_t cur_byte = Mf_peek( encoder->matchfinder, 0 ); Re_encode_bit( &encoder->range_encoder, &encoder->bm_match[state][0], 0 ); - Lie_encode( &encoder->literal_encoder, &encoder->range_encoder, prev_byte, cur_byte ); + LZe_encode_literal( encoder, prev_byte, cur_byte ); CRC32_update_byte( &encoder->crc, cur_byte ); - Mf_longest_match_len( encoder->matchfinder, 0 ); + Mf_get_match_pairs( encoder->matchfinder, 0 ); Mf_move_pos( encoder->matchfinder ); } while( !Mf_finished( encoder->matchfinder ) ) { - if( fill_counter <= 0 ) - { LZe_fill_distance_prices( encoder ); fill_counter = fill_count; } + if( encoder->pending_num_pairs == 0 ) + { + if( fill_counter <= 0 ) + { LZe_fill_distance_prices( encoder ); fill_counter = fill_count; } + if( encoder->align_price_count <= 0 ) + LZe_fill_align_prices( encoder ); + } ahead = LZe_sequence_optimizer( encoder, rep_distances, state ); if( ahead <= 0 ) return false; /* can't happen */ - fill_counter -= ahead; for( i = 0; ; ) { @@ -660,18 +799,16 @@ bool LZe_encode_member( struct LZ_encoder * const encoder, const uint8_t cur_byte = Mf_peek( encoder->matchfinder, -ahead ); CRC32_update_byte( &encoder->crc, cur_byte ); if( St_is_char( state ) ) - Lie_encode( &encoder->literal_encoder, &encoder->range_encoder, - prev_byte, cur_byte ); + LZe_encode_literal( encoder, prev_byte, cur_byte ); else { const uint8_t match_byte = Mf_peek( encoder->matchfinder, -ahead-rep_distances[0]-1 ); - Lie_encode_matched( &encoder->literal_encoder, &encoder->range_encoder, - prev_byte, cur_byte, match_byte ); + LZe_encode_matched( encoder, prev_byte, cur_byte, match_byte ); } - St_set_char( &state ); + state = St_set_char( state ); } - else /* match or repeated match */ + else /* match or repeated match */ { CRC32_update_buf( &encoder->crc, Mf_ptr_to_current_pos( encoder->matchfinder ) - ahead, len ); LZe_mtf_reps( dis, rep_distances ); @@ -689,17 +826,18 @@ bool LZe_encode_member( struct LZ_encoder * const encoder, if( dis > 1 ) Re_encode_bit( &encoder->range_encoder, &encoder->bm_rep2[state], dis > 2 ); } - if( len == 1 ) St_set_short_rep( &state ); + if( len == 1 ) state = St_set_short_rep( state ); else { Lee_encode( &encoder->rep_match_len_encoder, &encoder->range_encoder, len, pos_state ); - St_set_rep( &state ); + state = St_set_rep( state ); } } else { LZe_encode_pair( encoder, dis - num_rep_distances, len, pos_state ); - St_set_match( &state ); + --fill_counter; + state = St_set_match( state ); } } ahead -= len; i += len; |