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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-14 12:53:35 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-14 12:53:35 +0000
commit762a5e638314efa0f7a070e8568bfaf35bc87315 (patch)
treec2f4352237b3101986b8085626f0d77f6cfa18c7 /encoder.cc
parentInitial commit. (diff)
downloadlzip-upstream.tar.xz
lzip-upstream.zip
Adding upstream version 1.24.1.upstream/1.24.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'encoder.cc')
-rw-r--r--encoder.cc594
1 files changed, 594 insertions, 0 deletions
diff --git a/encoder.cc b/encoder.cc
new file mode 100644
index 0000000..11da3a0
--- /dev/null
+++ b/encoder.cc
@@ -0,0 +1,594 @@
+/* Lzip - LZMA lossless data compressor
+ Copyright (C) 2008-2024 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
+ the Free Software Foundation, either version 2 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program. If not, see <http://www.gnu.org/licenses/>.
+*/
+
+#define _FILE_OFFSET_BITS 64
+
+#include <algorithm>
+#include <cerrno>
+#include <cstdlib>
+#include <cstring>
+#include <string>
+#include <vector>
+#include <stdint.h>
+
+#include "lzip.h"
+#include "encoder_base.h"
+#include "encoder.h"
+
+
+const CRC32 crc32;
+
+
+int LZ_encoder::get_match_pairs( Pair * pairs )
+ {
+ int len_limit = match_len_limit;
+ if( len_limit > available_bytes() )
+ {
+ len_limit = available_bytes();
+ if( len_limit < 4 ) return 0;
+ }
+
+ int maxlen = 3; // only used if pairs != 0
+ int num_pairs = 0;
+ const int min_pos = ( pos > dictionary_size ) ? pos - dictionary_size : 0;
+ const uint8_t * const data = ptr_to_current_pos();
+
+ unsigned tmp = crc32[data[0]] ^ data[1];
+ const int key2 = tmp & ( num_prev_positions2 - 1 );
+ tmp ^= (unsigned)data[2] << 8;
+ const int key3 = num_prev_positions2 + ( tmp & ( num_prev_positions3 - 1 ) );
+ const int key4 = num_prev_positions23 +
+ ( ( tmp ^ ( crc32[data[3]] << 5 ) ) & key4_mask );
+
+ if( pairs )
+ {
+ const int np2 = prev_positions[key2];
+ const int np3 = prev_positions[key3];
+ if( np2 > min_pos && buffer[np2-1] == data[0] )
+ {
+ pairs[0].dis = pos - np2;
+ pairs[0].len = maxlen = 2 + ( np2 == np3 );
+ num_pairs = 1;
+ }
+ if( np2 != np3 && np3 > min_pos && buffer[np3-1] == data[0] )
+ {
+ maxlen = 3;
+ pairs[num_pairs++].dis = pos - np3;
+ }
+ if( num_pairs > 0 )
+ {
+ const int delta = pairs[num_pairs-1].dis + 1;
+ while( maxlen < len_limit && data[maxlen-delta] == data[maxlen] )
+ ++maxlen;
+ pairs[num_pairs-1].len = maxlen;
+ if( maxlen < 3 ) maxlen = 3;
+ if( maxlen >= len_limit ) pairs = 0; // done. now just skip
+ }
+ }
+
+ const int pos1 = pos + 1;
+ prev_positions[key2] = pos1;
+ prev_positions[key3] = pos1;
+ int newpos1 = prev_positions[key4];
+ prev_positions[key4] = pos1;
+
+ int32_t * ptr0 = pos_array + ( cyclic_pos << 1 );
+ int32_t * ptr1 = ptr0 + 1;
+ int len = 0, len0 = 0, len1 = 0;
+
+ for( int count = cycles; ; )
+ {
+ if( newpos1 <= min_pos || --count < 0 ) { *ptr0 = *ptr1 = 0; break; }
+
+ const int delta = pos1 - newpos1;
+ int32_t * const newptr = pos_array +
+ ( ( cyclic_pos - delta +
+ ( ( cyclic_pos >= delta ) ? 0 : dictionary_size + 1 ) ) << 1 );
+ if( data[len-delta] == data[len] )
+ {
+ while( ++len < len_limit && data[len-delta] == data[len] ) {}
+ if( pairs && maxlen < len )
+ {
+ pairs[num_pairs].dis = delta - 1;
+ pairs[num_pairs].len = maxlen = len;
+ ++num_pairs;
+ }
+ if( len >= len_limit )
+ {
+ *ptr0 = newptr[0];
+ *ptr1 = newptr[1];
+ break;
+ }
+ }
+ if( data[len-delta] < data[len] )
+ {
+ *ptr0 = newpos1;
+ ptr0 = newptr + 1;
+ newpos1 = *ptr0;
+ len0 = len; if( len1 < len ) len = len1;
+ }
+ else
+ {
+ *ptr1 = newpos1;
+ ptr1 = newptr;
+ newpos1 = *ptr1;
+ len1 = len; if( len0 < len ) len = len0;
+ }
+ }
+ return num_pairs;
+ }
+
+
+void LZ_encoder::update_distance_prices()
+ {
+ for( int dis = start_dis_model; dis < modeled_distances; ++dis )
+ {
+ const int dis_slot = dis_slots[dis];
+ const int direct_bits = ( dis_slot >> 1 ) - 1;
+ const int base = ( 2 | ( dis_slot & 1 ) ) << direct_bits;
+ const int price = price_symbol_reversed( bm_dis + ( base - dis_slot ),
+ dis - base, direct_bits );
+ for( int len_state = 0; len_state < len_states; ++len_state )
+ dis_prices[len_state][dis] = price;
+ }
+
+ for( int len_state = 0; len_state < len_states; ++len_state )
+ {
+ int * const dsp = dis_slot_prices[len_state];
+ const Bit_model * const bmds = bm_dis_slot[len_state];
+ int slot = 0;
+ for( ; slot < end_dis_model; ++slot )
+ dsp[slot] = price_symbol6( bmds, slot );
+ for( ; slot < num_dis_slots; ++slot )
+ dsp[slot] = price_symbol6( bmds, slot ) +
+ (((( slot >> 1 ) - 1 ) - dis_align_bits ) << price_shift_bits );
+
+ int * const dp = dis_prices[len_state];
+ int dis = 0;
+ for( ; dis < start_dis_model; ++dis )
+ dp[dis] = dsp[dis];
+ for( ; dis < modeled_distances; ++dis )
+ dp[dis] += dsp[dis_slots[dis]];
+ }
+ }
+
+
+/* Return the number of bytes advanced (ahead).
+ trials[0]..trials[ahead-1] contain the steps to encode.
+ ( trials[0].dis4 == -1 ) means literal.
+ A match/rep longer or equal than match_len_limit finishes the sequence.
+*/
+int LZ_encoder::sequence_optimizer( const int reps[num_rep_distances],
+ const State state )
+ {
+ int num_pairs, num_trials;
+
+ if( pending_num_pairs > 0 ) // from previous call
+ {
+ num_pairs = pending_num_pairs;
+ pending_num_pairs = 0;
+ }
+ else
+ num_pairs = read_match_distances();
+ const int main_len = ( num_pairs > 0 ) ? pairs[num_pairs-1].len : 0;
+
+ int replens[num_rep_distances];
+ int rep_index = 0;
+ for( int i = 0; i < num_rep_distances; ++i )
+ {
+ replens[i] = true_match_len( 0, reps[i] + 1 );
+ if( replens[i] > replens[rep_index] ) rep_index = i;
+ }
+ if( replens[rep_index] >= match_len_limit )
+ {
+ trials[0].price = replens[rep_index];
+ trials[0].dis4 = rep_index;
+ move_and_update( replens[rep_index] );
+ return replens[rep_index];
+ }
+
+ if( main_len >= match_len_limit )
+ {
+ trials[0].price = main_len;
+ trials[0].dis4 = pairs[num_pairs-1].dis + num_rep_distances;
+ move_and_update( main_len );
+ return main_len;
+ }
+
+ const int pos_state = data_position() & pos_state_mask;
+ const uint8_t prev_byte = peek( 1 );
+ const uint8_t cur_byte = peek( 0 );
+ const uint8_t match_byte = peek( reps[0] + 1 );
+
+ trials[1].price = price0( bm_match[state()][pos_state] );
+ if( state.is_char() )
+ trials[1].price += price_literal( prev_byte, cur_byte );
+ else
+ trials[1].price += price_matched( prev_byte, cur_byte, match_byte );
+ trials[1].dis4 = -1; // literal
+
+ const int match_price = price1( bm_match[state()][pos_state] );
+ const int rep_match_price = match_price + price1( bm_rep[state()] );
+
+ if( match_byte == cur_byte )
+ trials[1].update( rep_match_price + price_shortrep( state, pos_state ), 0, 0 );
+
+ num_trials = std::max( main_len, replens[rep_index] );
+
+ if( num_trials < min_match_len )
+ {
+ trials[0].price = 1;
+ trials[0].dis4 = trials[1].dis4;
+ move_pos();
+ return 1;
+ }
+
+ trials[0].state = state;
+ for( int i = 0; i < num_rep_distances; ++i )
+ trials[0].reps[i] = reps[i];
+
+ for( int len = min_match_len; len <= num_trials; ++len )
+ trials[len].price = infinite_price;
+
+ for( int rep = 0; rep < num_rep_distances; ++rep )
+ {
+ if( replens[rep] < min_match_len ) continue;
+ const int price = rep_match_price + price_rep( rep, state, pos_state );
+ for( int len = min_match_len; len <= replens[rep]; ++len )
+ trials[len].update( price + rep_len_prices.price( len, pos_state ),
+ rep, 0 );
+ }
+
+ if( main_len > replens[0] )
+ {
+ const int normal_match_price = match_price + price0( bm_rep[state()] );
+ int i = 0, len = std::max( replens[0] + 1, (int)min_match_len );
+ while( len > pairs[i].len ) ++i;
+ while( true )
+ {
+ const int dis = pairs[i].dis;
+ trials[len].update( normal_match_price + price_pair( dis, len, pos_state ),
+ dis + num_rep_distances, 0 );
+ if( ++len > pairs[i].len && ++i >= num_pairs ) break;
+ }
+ }
+
+ int cur = 0;
+ while( true ) // price optimization loop
+ {
+ move_pos();
+ if( ++cur >= num_trials ) // no more initialized trials
+ {
+ backward( cur );
+ return cur;
+ }
+
+ const int num_pairs = read_match_distances();
+ const int newlen = ( num_pairs > 0 ) ? pairs[num_pairs-1].len : 0;
+ if( newlen >= match_len_limit )
+ {
+ pending_num_pairs = num_pairs;
+ backward( cur );
+ return cur;
+ }
+
+ // give final values to current trial
+ Trial & cur_trial = trials[cur];
+ State cur_state;
+ {
+ const int dis4 = cur_trial.dis4;
+ int prev_index = cur_trial.prev_index;
+ const int prev_index2 = cur_trial.prev_index2;
+
+ if( prev_index2 == single_step_trial )
+ {
+ cur_state = trials[prev_index].state;
+ if( prev_index + 1 == cur ) // len == 1
+ {
+ if( dis4 == 0 ) cur_state.set_short_rep();
+ else cur_state.set_char(); // literal
+ }
+ else if( dis4 < num_rep_distances ) cur_state.set_rep();
+ else cur_state.set_match();
+ }
+ else
+ {
+ if( prev_index2 == dual_step_trial ) // dis4 == 0 (rep0)
+ --prev_index;
+ else // prev_index2 >= 0
+ prev_index = prev_index2;
+ cur_state.set_char_rep();
+ }
+ cur_trial.state = cur_state;
+ for( int i = 0; i < num_rep_distances; ++i )
+ cur_trial.reps[i] = trials[prev_index].reps[i];
+ mtf_reps( dis4, cur_trial.reps ); // literal is ignored
+ }
+
+ const int pos_state = data_position() & pos_state_mask;
+ const uint8_t prev_byte = peek( 1 );
+ const uint8_t cur_byte = peek( 0 );
+ const uint8_t match_byte = peek( cur_trial.reps[0] + 1 );
+
+ int next_price = cur_trial.price +
+ price0( bm_match[cur_state()][pos_state] );
+ if( cur_state.is_char() )
+ next_price += price_literal( prev_byte, cur_byte );
+ else
+ next_price += price_matched( prev_byte, cur_byte, match_byte );
+
+ // try last updates to next trial
+ Trial & next_trial = trials[cur+1];
+
+ next_trial.update( next_price, -1, cur ); // literal
+
+ const int match_price = cur_trial.price + price1( bm_match[cur_state()][pos_state] );
+ const int rep_match_price = match_price + price1( bm_rep[cur_state()] );
+
+ if( match_byte == cur_byte && next_trial.dis4 != 0 &&
+ next_trial.prev_index2 == single_step_trial )
+ {
+ const int price = rep_match_price + price_shortrep( cur_state, pos_state );
+ if( price <= next_trial.price )
+ {
+ next_trial.price = price;
+ next_trial.dis4 = 0; // rep0
+ next_trial.prev_index = cur;
+ }
+ }
+
+ const int triable_bytes =
+ std::min( available_bytes(), max_num_trials - 1 - cur );
+ if( triable_bytes < min_match_len ) continue;
+
+ const int len_limit = std::min( match_len_limit, triable_bytes );
+
+ // try literal + rep0
+ if( match_byte != cur_byte && next_trial.prev_index != cur )
+ {
+ const uint8_t * const data = ptr_to_current_pos();
+ const int dis = cur_trial.reps[0] + 1;
+ const int limit = std::min( match_len_limit + 1, triable_bytes );
+ int len = 1;
+ while( len < limit && data[len-dis] == data[len] ) ++len;
+ if( --len >= min_match_len )
+ {
+ const int pos_state2 = ( pos_state + 1 ) & pos_state_mask;
+ State state2 = cur_state; state2.set_char();
+ const int price = next_price +
+ price1( bm_match[state2()][pos_state2] ) +
+ price1( bm_rep[state2()] ) +
+ price_rep0_len( len, state2, pos_state2 );
+ while( num_trials < cur + 1 + len )
+ trials[++num_trials].price = infinite_price;
+ trials[cur+1+len].update2( price, cur + 1 );
+ }
+ }
+
+ int start_len = min_match_len;
+
+ // try rep distances
+ for( int rep = 0; rep < num_rep_distances; ++rep )
+ {
+ const uint8_t * const data = ptr_to_current_pos();
+ const int dis = cur_trial.reps[rep] + 1;
+ int len;
+
+ if( data[0-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 )
+ trials[++num_trials].price = infinite_price;
+ int price = rep_match_price + price_rep( rep, cur_state, pos_state );
+ for( int i = min_match_len; i <= len; ++i )
+ trials[cur+i].update( price + rep_len_prices.price( i, pos_state ),
+ rep, cur );
+
+ if( rep == 0 ) start_len = len + 1; // discard shorter matches
+
+ // try rep + literal + rep0
+ int len2 = len + 1;
+ const int limit = std::min( match_len_limit + len2, triable_bytes );
+ while( len2 < limit && data[len2-dis] == data[len2] ) ++len2;
+ len2 -= len + 1;
+ if( len2 < min_match_len ) continue;
+
+ int pos_state2 = ( pos_state + len ) & pos_state_mask;
+ State state2 = cur_state; state2.set_rep();
+ price += rep_len_prices.price( len, pos_state ) +
+ price0( bm_match[state2()][pos_state2] ) +
+ price_matched( data[len-1], data[len], data[len-dis] );
+ pos_state2 = ( pos_state2 + 1 ) & pos_state_mask;
+ state2.set_char();
+ price += price1( bm_match[state2()][pos_state2] ) +
+ price1( bm_rep[state2()] ) +
+ price_rep0_len( len2, state2, pos_state2 );
+ while( num_trials < cur + len + 1 + len2 )
+ trials[++num_trials].price = infinite_price;
+ trials[cur+len+1+len2].update3( price, rep, cur + len + 1, cur );
+ }
+
+ // try matches
+ if( newlen >= start_len && newlen <= len_limit )
+ {
+ const int normal_match_price = match_price +
+ price0( bm_rep[cur_state()] );
+
+ while( num_trials < cur + newlen )
+ trials[++num_trials].price = infinite_price;
+
+ int i = 0;
+ while( pairs[i].len < start_len ) ++i;
+ int dis = pairs[i].dis;
+ for( int len = start_len; ; ++len )
+ {
+ int price = normal_match_price + price_pair( dis, len, pos_state );
+ trials[cur+len].update( price, dis + num_rep_distances, cur );
+
+ // try match + literal + rep0
+ if( len == pairs[i].len )
+ {
+ const uint8_t * const data = ptr_to_current_pos();
+ const int dis2 = dis + 1;
+ int len2 = len + 1;
+ const int limit = std::min( match_len_limit + len2, triable_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 = cur_state; state2.set_match();
+ price += price0( bm_match[state2()][pos_state2] ) +
+ price_matched( data[len-1], data[len], data[len-dis2] );
+ pos_state2 = ( pos_state2 + 1 ) & pos_state_mask;
+ state2.set_char();
+ price += price1( bm_match[state2()][pos_state2] ) +
+ price1( bm_rep[state2()] ) +
+ price_rep0_len( len2, state2, pos_state2 );
+
+ while( num_trials < cur + len + 1 + len2 )
+ trials[++num_trials].price = infinite_price;
+ trials[cur+len+1+len2].update3( price, dis + num_rep_distances,
+ cur + len + 1, cur );
+ }
+ if( ++i >= num_pairs ) break;
+ dis = pairs[i].dis;
+ }
+ }
+ }
+ }
+ }
+
+
+bool LZ_encoder::encode_member( const unsigned long long member_size )
+ {
+ const unsigned long long member_size_limit =
+ member_size - Lzip_trailer::size - max_marker_size;
+ const bool best = ( match_len_limit > 12 );
+ const int dis_price_count = best ? 1 : 512;
+ const int align_price_count = best ? 1 : dis_align_size;
+ const int price_count = ( match_len_limit > 36 ) ? 1013 : 4093;
+ int price_counter = 0; // counters may decrement below 0
+ int dis_price_counter = 0;
+ int align_price_counter = 0;
+ int reps[num_rep_distances];
+ State state;
+ for( int i = 0; i < num_rep_distances; ++i ) reps[i] = 0;
+
+ if( data_position() != 0 || renc.member_position() != Lzip_header::size )
+ return false; // can be called only once
+
+ if( !data_finished() ) // encode first byte
+ {
+ const uint8_t prev_byte = 0;
+ const uint8_t cur_byte = peek( 0 );
+ renc.encode_bit( bm_match[state()][0], 0 );
+ encode_literal( prev_byte, cur_byte );
+ crc32.update_byte( crc_, cur_byte );
+ get_match_pairs();
+ move_pos();
+ }
+
+ while( !data_finished() )
+ {
+ if( price_counter <= 0 && pending_num_pairs == 0 )
+ {
+ price_counter = price_count; // recalculate prices every these bytes
+ if( dis_price_counter <= 0 )
+ { dis_price_counter = dis_price_count; update_distance_prices(); }
+ if( align_price_counter <= 0 )
+ {
+ align_price_counter = align_price_count;
+ for( int i = 0; i < dis_align_size; ++i )
+ align_prices[i] = price_symbol_reversed( bm_align, i, dis_align_bits );
+ }
+ match_len_prices.update_prices();
+ rep_len_prices.update_prices();
+ }
+
+ int ahead = sequence_optimizer( reps, state );
+ price_counter -= ahead;
+
+ for( int i = 0; ahead > 0; )
+ {
+ const int pos_state = ( data_position() - ahead ) & pos_state_mask;
+ const int len = trials[i].price;
+ int dis = trials[i].dis4;
+
+ bool bit = ( dis < 0 );
+ renc.encode_bit( bm_match[state()][pos_state], !bit );
+ if( bit ) // literal byte
+ {
+ const uint8_t prev_byte = peek( ahead + 1 );
+ const uint8_t cur_byte = peek( ahead );
+ crc32.update_byte( crc_, cur_byte );
+ if( state.is_char_set_char() )
+ encode_literal( prev_byte, cur_byte );
+ else
+ {
+ const uint8_t match_byte = peek( ahead + reps[0] + 1 );
+ encode_matched( prev_byte, cur_byte, match_byte );
+ }
+ }
+ else // match or repeated match
+ {
+ crc32.update_buf( crc_, ptr_to_current_pos() - ahead, len );
+ mtf_reps( dis, reps );
+ bit = ( dis < num_rep_distances );
+ renc.encode_bit( bm_rep[state()], bit );
+ if( bit ) // repeated match
+ {
+ bit = ( dis == 0 );
+ renc.encode_bit( bm_rep0[state()], !bit );
+ if( bit )
+ renc.encode_bit( bm_len[state()][pos_state], len > 1 );
+ else
+ {
+ renc.encode_bit( bm_rep1[state()], dis > 1 );
+ if( dis > 1 )
+ renc.encode_bit( bm_rep2[state()], dis > 2 );
+ }
+ if( len == 1 ) state.set_short_rep();
+ else
+ {
+ renc.encode_len( rep_len_model, len, pos_state );
+ rep_len_prices.decrement_counter( pos_state );
+ state.set_rep();
+ }
+ }
+ else // match
+ {
+ dis -= num_rep_distances;
+ encode_pair( dis, len, pos_state );
+ if( dis >= modeled_distances ) --align_price_counter;
+ --dis_price_counter;
+ match_len_prices.decrement_counter( pos_state );
+ state.set_match();
+ }
+ }
+ ahead -= len; i += len;
+ if( renc.member_position() >= member_size_limit )
+ {
+ if( !dec_pos( ahead ) ) return false;
+ full_flush( state );
+ return true;
+ }
+ }
+ }
+ full_flush( state );
+ return true;
+ }