diff options
author | Daniel Baumann <mail@daniel-baumann.ch> | 2015-11-07 07:49:37 +0000 |
---|---|---|
committer | Daniel Baumann <mail@daniel-baumann.ch> | 2015-11-07 07:49:37 +0000 |
commit | 867c3a558780e371ffc835ac5dc19613fb177233 (patch) | |
tree | e388646a6bb73561a4b9c864bf8d38629f1d1bcd /fast_encoder.cc | |
parent | Adding upstream version 1.10. (diff) | |
download | lzip-867c3a558780e371ffc835ac5dc19613fb177233.tar.xz lzip-867c3a558780e371ffc835ac5dc19613fb177233.zip |
Adding upstream version 1.11.upstream/1.11
Signed-off-by: Daniel Baumann <mail@daniel-baumann.ch>
Diffstat (limited to '')
-rw-r--r-- | fast_encoder.cc | 378 |
1 files changed, 378 insertions, 0 deletions
diff --git a/fast_encoder.cc b/fast_encoder.cc new file mode 100644 index 0000000..f4becde --- /dev/null +++ b/fast_encoder.cc @@ -0,0 +1,378 @@ +/* Lzip - Data compressor based on the LZMA algorithm + Copyright (C) 2008, 2009, 2010 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 3 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.h" +#include "fast_encoder.h" + + +bool Fmatchfinder::read_block() + { + if( !at_stream_end && stream_pos < buffer_size ) + { + const int size = buffer_size - stream_pos; + const int rd = readblock( infd, buffer + stream_pos, size ); + stream_pos += rd; + if( rd != size && errno ) throw Error( "Read error" ); + at_stream_end = ( rd < size ); + } + return pos < stream_pos; + } + + +Fmatchfinder::Fmatchfinder( const int ifd ) + : + partial_data_pos( 0 ), + prev_positions( new int32_t[num_prev_positions] ), + pos( 0 ), + cyclic_pos( 0 ), + key4( 0 ), + stream_pos( 0 ), + match_len_limit_( 16 ), + infd( ifd ), + at_stream_end( false ) + { + const int dict_size = 65536; + const int buffer_size_limit = ( 16 * dict_size ) + before_size + after_size; + buffer_size = dict_size; + buffer = (uint8_t *)std::malloc( buffer_size ); + if( !buffer ) throw std::bad_alloc(); + if( read_block() && !at_stream_end && buffer_size < buffer_size_limit ) + { + buffer_size = buffer_size_limit; + buffer = (uint8_t *)std::realloc( buffer, buffer_size ); + if( !buffer ) throw std::bad_alloc(); + read_block(); + } + if( at_stream_end && stream_pos < dict_size ) + dictionary_size_ = std::max( (int)min_dictionary_size, stream_pos ); + else dictionary_size_ = dict_size; + pos_limit = buffer_size; + if( !at_stream_end ) pos_limit -= after_size; + prev_pos_chain = new int32_t[dictionary_size_]; + for( int i = 0; i < num_prev_positions; ++i ) prev_positions[i] = -1; + } + + +void Fmatchfinder::reset() + { + const int size = stream_pos - pos; + if( size > 0 ) std::memmove( buffer, buffer + pos, size ); + partial_data_pos = 0; + stream_pos -= pos; + pos = 0; + cyclic_pos = 0; + key4 = 0; + for( int i = 0; i < num_prev_positions; ++i ) prev_positions[i] = -1; + read_block(); + } + + +void Fmatchfinder::move_pos() + { + if( ++cyclic_pos >= dictionary_size_ ) cyclic_pos = 0; + if( ++pos >= pos_limit ) + { + if( pos > stream_pos ) + internal_error( "pos > stream_pos in Fmatchfinder::move_pos" ); + if( !at_stream_end ) + { + const int offset = pos - dictionary_size_ - before_size; + const int size = stream_pos - offset; + std::memmove( buffer, buffer + offset, size ); + partial_data_pos += offset; + pos -= offset; + stream_pos -= offset; + for( int i = 0; i < num_prev_positions; ++i ) + if( prev_positions[i] >= 0 ) prev_positions[i] -= offset; + for( int i = 0; i < dictionary_size_; ++i ) + if( prev_pos_chain[i] >= 0 ) prev_pos_chain[i] -= offset; + read_block(); + } + } + } + + +int Fmatchfinder::longest_match_len( int * const distance ) throw() + { + int len_limit = match_len_limit_; + if( len_limit > available_bytes() ) + { + len_limit = available_bytes(); + if( len_limit < 4 ) return 0; + } + + int maxlen = min_match_len - 1; + const int min_pos = (pos >= dictionary_size_) ? + (pos - dictionary_size_ + 1) : 0; + const uint8_t * const data = buffer + pos; + key4 = ( ( key4 << 4 ) ^ data[3] ) & ( num_prev_positions - 1 ); + + int newpos = prev_positions[key4]; + prev_positions[key4] = pos; + + int32_t * ptr0 = prev_pos_chain + cyclic_pos; + + for( int count = 4; ; ) + { + if( newpos < min_pos || --count < 0 ) { *ptr0 = -1; break; } + const uint8_t * const newdata = buffer + newpos; + int len = 0; + while( len < len_limit && newdata[len] == data[len] ) ++len; + + const int delta = pos - newpos; + if( maxlen < len ) { maxlen = len; *distance = delta - 1; } + + int32_t * const newptr = prev_pos_chain + + ( cyclic_pos - delta + + ( ( cyclic_pos >= delta ) ? 0 : dictionary_size_ ) ); + + if( len < len_limit ) + { + *ptr0 = newpos; + ptr0 = newptr; + newpos = *ptr0; + } + else + { + *ptr0 = *newptr; + break; + } + } + return maxlen; + } + + +void Fmatchfinder::longest_match_len() throw() + { + int len_limit = match_len_limit_; + if( len_limit > available_bytes() ) + { + len_limit = available_bytes(); + if( len_limit < 4 ) return; + } + + const int min_pos = (pos >= dictionary_size_) ? + (pos - dictionary_size_ + 1) : 0; + const uint8_t * const data = buffer + pos; + key4 = ( ( key4 << 4 ) ^ data[3] ) & ( num_prev_positions - 1 ); + + const int newpos = prev_positions[key4]; + prev_positions[key4] = pos; + + int32_t * const ptr0 = prev_pos_chain + cyclic_pos; + + if( newpos < min_pos ) *ptr0 = -1; + else + { + const uint8_t * const newdata = buffer + newpos; + if( newdata[len_limit-1] != data[len_limit-1] || + std::memcmp( newdata, data, len_limit - 1 ) ) *ptr0 = newpos; + else + { + const int delta = pos - newpos; + int idx = cyclic_pos - delta; + if( idx < 0 ) idx += dictionary_size_; + *ptr0 = prev_pos_chain[idx]; + } + } + } + + +// Return value == number of bytes advanced (len). +// *disp returns the distance to encode. +// ( *disp == -1 && len == 1 ) means literal. +int FLZ_encoder::sequence_optimizer( const int reps[num_rep_distances], + int * const disp, const State & state ) + { + const int main_len = read_match_distances(); + + int replen = 0; + int rep_index = 0; + for( int i = 0; i < num_rep_distances; ++i ) + { + const int len = fmatchfinder.true_match_len( 0, reps[i] + 1, max_match_len ); + if( len > replen ) { replen = len; rep_index = i; } + } + if( replen > min_match_len ) + { + *disp = rep_index; + move_pos( replen, true ); + return replen; + } + + if( main_len > min_match_len || + ( main_len == min_match_len && match_distance < modeled_distances ) ) + { + *disp = num_rep_distances + match_distance; + move_pos( main_len, true ); + return main_len; + } + + const uint8_t cur_byte = fmatchfinder[0]; + const uint8_t match_byte = fmatchfinder[-reps[0]-1]; + + *disp = -1; + if( match_byte == cur_byte ) + { + const uint8_t prev_byte = fmatchfinder[-1]; + const int pos_state = fmatchfinder.data_position() & pos_state_mask; + int price = price0( bm_match[state()][pos_state] ); + if( state.is_char() ) + price += literal_encoder.price_symbol( prev_byte, cur_byte ); + else + price += literal_encoder.price_matched( prev_byte, cur_byte, match_byte ); + const int short_rep_price = price1( bm_match[state()][pos_state] ) + + price1( bm_rep[state()] ) + + price_rep_len1( state, pos_state ); + if( short_rep_price < price ) *disp = 0; + } + + fmatchfinder.move_pos(); + return 1; + } + + + // End Of Stream mark => (dis == 0xFFFFFFFFU, len == min_match_len) +void FLZ_encoder::full_flush( const State & state ) + { + const int pos_state = fmatchfinder.data_position() & pos_state_mask; + range_encoder.encode_bit( bm_match[state()][pos_state], 1 ); + range_encoder.encode_bit( bm_rep[state()], 0 ); + encode_pair( 0xFFFFFFFFU, min_match_len, pos_state ); + range_encoder.flush(); + File_trailer trailer; + trailer.data_crc( crc() ); + trailer.data_size( fmatchfinder.data_position() ); + trailer.member_size( range_encoder.member_position() + File_trailer::size() ); + for( int i = 0; i < File_trailer::size(); ++i ) + range_encoder.put_byte( trailer.data[i] ); + range_encoder.flush_data(); + } + + +FLZ_encoder::FLZ_encoder( Fmatchfinder & mf, const File_header & header, + const int outfd ) + : + crc_( 0xFFFFFFFFU ), + fmatchfinder( mf ), + range_encoder( outfd ), + len_encoder( fmatchfinder.match_len_limit() ), + rep_match_len_encoder( fmatchfinder.match_len_limit() ), + num_dis_slots( 2 * real_bits( fmatchfinder.dictionary_size() - 1 ) ) + { + for( int i = 0; i < File_header::size; ++i ) + range_encoder.put_byte( header.data[i] ); + } + + +bool FLZ_encoder::encode_member( const long long member_size ) + { + const long long member_size_limit = + member_size - File_trailer::size() - max_marker_size; + int rep_distances[num_rep_distances]; + State state; + for( int i = 0; i < num_rep_distances; ++i ) rep_distances[i] = 0; + + if( fmatchfinder.data_position() != 0 || + range_encoder.member_position() != File_header::size ) + return false; // can be called only once + + if( !fmatchfinder.finished() ) // encode first byte + { + const uint8_t prev_byte = 0; + const uint8_t cur_byte = fmatchfinder[0]; + range_encoder.encode_bit( bm_match[state()][0], 0 ); + literal_encoder.encode( range_encoder, prev_byte, cur_byte ); + crc32.update( crc_, cur_byte ); + move_pos( 1 ); + } + + while( true ) + { + if( fmatchfinder.finished() ) { full_flush( state ); return true; } + + const int pos_state = fmatchfinder.data_position() & pos_state_mask; + int dis; + const int len = sequence_optimizer( rep_distances, &dis, state ); + if( len <= 0 ) return false; + + bool bit = ( dis < 0 && len == 1 ); + range_encoder.encode_bit( bm_match[state()][pos_state], !bit ); + if( bit ) // literal byte + { + const uint8_t prev_byte = fmatchfinder[-len-1]; + const uint8_t cur_byte = fmatchfinder[-len]; + crc32.update( crc_, cur_byte ); + if( state.is_char() ) + literal_encoder.encode( range_encoder, prev_byte, cur_byte ); + else + { + const uint8_t match_byte = fmatchfinder[-len-rep_distances[0]-1]; + literal_encoder.encode_matched( range_encoder, + prev_byte, cur_byte, match_byte ); + } + state.set_char(); + } + else // match or repeated match + { + crc32.update( crc_, fmatchfinder.ptr_to_current_pos() - len, len ); + mtf_reps( dis, rep_distances ); + bit = ( dis < num_rep_distances ); + range_encoder.encode_bit( bm_rep[state()], bit ); + if( bit ) + { + bit = ( dis == 0 ); + range_encoder.encode_bit( bm_rep0[state()], !bit ); + if( bit ) + range_encoder.encode_bit( bm_len[state()][pos_state], len > 1 ); + else + { + range_encoder.encode_bit( bm_rep1[state()], dis > 1 ); + if( dis > 1 ) + range_encoder.encode_bit( bm_rep2[state()], dis > 2 ); + } + if( len == 1 ) state.set_short_rep(); + else + { + rep_match_len_encoder.encode( range_encoder, len, pos_state ); + state.set_rep(); + } + } + else + { + encode_pair( dis - num_rep_distances, len, pos_state ); + state.set_match(); + } + } + if( range_encoder.member_position() >= member_size_limit ) + { + full_flush( state ); + return true; + } + } + } |