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/*  Lzlib - A compression library for lzip files
    Copyright (C) 2009, 2010 Antonio Diaz Diaz.

    This library 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 library 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 library.  If not, see <http://www.gnu.org/licenses/>.

    As a special exception, you may use this file as part of a free
    software library without restriction.  Specifically, if other files
    instantiate templates or use macros or inline functions from this
    file, or you compile this file and link it with other files to
    produce an executable, this file does not by itself cause the
    resulting executable to be covered by the GNU General Public
    License.  This exception does not however invalidate any other
    reasons why the executable file might be covered by the GNU General
    Public License.
*/

#define _FILE_OFFSET_BITS 64

#include <algorithm>
#include <cerrno>
#include <cstdlib>
#include <cstring>
#include <stdint.h>

#include "lzlib.h"
#include "lzip.h"
#include "encoder.h"


const Dis_slots dis_slots;
const Prob_prices prob_prices;


int Matchfinder::write_data( const uint8_t * const in_buffer, const int in_size ) throw()
  {
  if( at_stream_end_ ) return 0;
  const int size = std::min( buffer_size - stream_pos, in_size );
  if( size > 0 )
    {
    std::memcpy( buffer + stream_pos, in_buffer, size );
    stream_pos += size;
    }
  return size;
  }


Matchfinder::Matchfinder( const int dict_size, const int len_limit )
  :
  partial_data_pos( 0 ),
  dictionary_size_( dict_size ),
  buffer_size( ( 2 * std::max( 65536, dictionary_size_ ) ) +
               before_size + after_size ),
  buffer( new( std::nothrow ) uint8_t[buffer_size] ),
  pos( 0 ),
  cyclic_pos( 0 ),
  stream_pos( 0 ),
  pos_limit( buffer_size - after_size ),
  match_len_limit_( len_limit ),
  prev_positions( new( std::nothrow ) int32_t[num_prev_positions] ),
  at_stream_end_( false )
  {
  prev_pos_tree = new( std::nothrow ) int32_t[2*dictionary_size_];
  if( !buffer || !prev_positions || !prev_pos_tree )
    {
    if( prev_pos_tree ) delete[] prev_pos_tree;
    if( prev_positions ) delete[] prev_positions;
    if( buffer ) delete[] buffer;
    throw std::bad_alloc();
    }
  for( int i = 0; i < num_prev_positions; ++i ) prev_positions[i] = -1;
  }


void Matchfinder::reset() throw()
  {
  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;
  at_stream_end_ = false;
  for( int i = 0; i < num_prev_positions; ++i ) prev_positions[i] = -1;
  }


bool Matchfinder::move_pos() throw()
  {
  if( ++cyclic_pos >= dictionary_size_ ) cyclic_pos = 0;
  if( ++pos >= pos_limit )
    {
    if( pos > stream_pos ) { pos = stream_pos; return false; }
    else
      {
      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 < 2 * dictionary_size_; ++i )
        if( prev_pos_tree[i] >= 0 ) prev_pos_tree[i] -= offset;
      }
    }
  return true;
  }


int Matchfinder::longest_match_len( int * const distances ) throw()
  {
  int idx0 = cyclic_pos << 1;
  int idx1 = idx0 + 1;
  int len_limit = match_len_limit_;
  if( len_limit > available_bytes() )
    {
    len_limit = available_bytes();
    if( len_limit < 4 )
      { prev_pos_tree[idx0] = prev_pos_tree[idx1] = -1; 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;
  const int key2 = num_prev_positions4 + num_prev_positions3 +
                   ( ( (int)data[0] << 8 ) | data[1] );
  const int tmp = crc32[data[0]] ^ data[1] ^ ( (int)data[2] << 8 );
  const int key3 = num_prev_positions4 + ( tmp & ( num_prev_positions3 - 1 ) );
  const int key4 = ( tmp ^ ( crc32[data[3]] << 5 ) ) &
                   ( num_prev_positions4 - 1 );

  if( distances )
    {
    int np = prev_positions[key2];
    if( np >= min_pos )
      { distances[2] = pos - np - 1; maxlen = 2; }
    else distances[2] = 0x7FFFFFFF;
    np = prev_positions[key3];
    if( np >= min_pos && buffer[np] == data[0] )
      { distances[3] = pos - np - 1; maxlen = 3; }
    else distances[3] = 0x7FFFFFFF;
    distances[4] = 0x7FFFFFFF;
    }

  prev_positions[key2] = pos;
  prev_positions[key3] = pos;
  int newpos = prev_positions[key4];
  prev_positions[key4] = pos;

  for( int count = 16 + ( match_len_limit_ / 2 ); ; )
    {
    if( newpos < min_pos || --count < 0 )
      { prev_pos_tree[idx0] = prev_pos_tree[idx1] = -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( distances ) while( maxlen < len ) distances[++maxlen] = delta - 1;

    const int newidx = ( cyclic_pos - delta +
      ( ( cyclic_pos >= delta ) ? 0 : dictionary_size_ ) ) << 1;

    if( len < len_limit )
      {
      if( newdata[len] < data[len] )
        {
        prev_pos_tree[idx0] = newpos;
        idx0 = newidx + 1;
        newpos = prev_pos_tree[idx0];
        }
      else
        {
        prev_pos_tree[idx1] = newpos;
        idx1 = newidx;
        newpos = prev_pos_tree[idx1];
        }
      }
    else
      {
      prev_pos_tree[idx0] = prev_pos_tree[newidx];
      prev_pos_tree[idx1] = prev_pos_tree[newidx+1];
      break;
      }
    }
  if( distances )
    {
    if( distances[3] > distances[4] ) distances[3] = distances[4];
    if( distances[2] > distances[3] ) distances[2] = distances[3];
    }
  return maxlen;
  }


void Len_encoder::encode( Range_encoder & range_encoder, int symbol,
                          const int pos_state )
  {
  symbol -= min_match_len;
  if( symbol < len_low_symbols )
    {
    range_encoder.encode_bit( choice1, 0 );
    range_encoder.encode_tree( bm_low[pos_state], symbol, len_low_bits );
    }
  else
    {
    range_encoder.encode_bit( choice1, 1 );
    if( symbol < len_low_symbols + len_mid_symbols )
      {
      range_encoder.encode_bit( choice2, 0 );
      range_encoder.encode_tree( bm_mid[pos_state], symbol - len_low_symbols, len_mid_bits );
      }
    else
      {
      range_encoder.encode_bit( choice2, 1 );
      range_encoder.encode_tree( bm_high, symbol - len_low_symbols - len_mid_symbols, len_high_bits );
      }
    }
  if( --counters[pos_state] <= 0 ) update_prices( pos_state );
  }


void LZ_encoder::fill_align_prices() throw()
  {
  for( int i = 0; i < dis_align_size; ++i )
    align_prices[i] = price_symbol_reversed( bm_align, i, dis_align_bits );
  align_price_count = dis_align_size;
  }


void LZ_encoder::fill_distance_prices() throw()
  {
  for( int dis_state = 0; dis_state < max_dis_states; ++dis_state )
    {
    int * dsp = dis_slot_prices[dis_state];
    const Bit_model * bmds = bm_dis_slot[dis_state];
    int slot = 0;
    for( ; slot < end_dis_model && slot < num_dis_slots; ++slot )
      dsp[slot] = price_symbol( bmds, slot, dis_slot_bits );
    for( ; slot < num_dis_slots; ++slot )
      dsp[slot] = price_symbol( bmds, slot, dis_slot_bits ) +
                  (((( slot >> 1 ) - 1 ) - dis_align_bits ) << price_shift );

    int * dp = dis_prices[dis_state];
    int dis = 0;
    for( ; dis < start_dis_model; ++dis )
      dp[dis] = dsp[dis];
    for( ; 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;
      dp[dis] = dsp[dis_slot] +
          price_symbol_reversed( bm_dis + base - dis_slot, dis - base, direct_bits );
      }
    }
  }


// Return value: ( dis == -1 ) && ( len == 1 ) means literal
int LZ_encoder::best_pair_sequence( const int reps[num_rep_distances],
                                    const State & state )
  {
  int main_len;
  if( longest_match_found > 0 )		// from previous call
    {
    main_len = longest_match_found;
    longest_match_found = 0;
    }
  else main_len = read_match_distances();

  int replens[num_rep_distances];
  int rep_index = 0;
  for( int i = 0; i < num_rep_distances; ++i )
    {
    replens[i] = matchfinder.true_match_len( 0, reps[i] + 1, max_match_len );
    if( replens[i] > replens[rep_index] ) rep_index = i;
    }
  if( replens[rep_index] >= matchfinder.match_len_limit() )
    {
    trials[0].dis = rep_index;
    trials[0].price = replens[rep_index];
    if( !move_pos( replens[rep_index], true ) ) return 0;
    return replens[rep_index];
    }

  if( main_len >= matchfinder.match_len_limit() )
    {
    trials[0].dis = match_distances[matchfinder.match_len_limit()] +
                    num_rep_distances;
    trials[0].price = main_len;
    if( !move_pos( main_len, true ) ) return 0;
    return main_len;
    }

  trials[0].state = state;
  for( int i = 0; i < num_rep_distances; ++i ) trials[0].reps[i] = reps[i];

  const uint8_t prev_byte = matchfinder[-1];
  const uint8_t cur_byte = matchfinder[0];
  const uint8_t match_byte = matchfinder[-reps[0]-1];
  unsigned int position = matchfinder.data_position();
  const int pos_state = position & pos_state_mask;

  trials[1].dis = -1;
  trials[1].prev_index = 0;
  trials[1].price = price0( bm_match[state()][pos_state] );
  if( state.is_char() )
    trials[1].price += literal_encoder.price_symbol( prev_byte, cur_byte );
  else
    trials[1].price += literal_encoder.price_matched( prev_byte, cur_byte, match_byte );

  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( 0, 0, rep_match_price + price_rep_len1( state, pos_state ) );

  if( main_len < min_match_len )
    {
    trials[0].dis = trials[1].dis;
    trials[0].price = 1;
    if( !matchfinder.move_pos() ) return 0;
    return 1;
    }

  {
  const int normal_match_price = match_price + price0( bm_rep[state()] );
  int len = min_match_len;
  if( main_len <= replens[rep_index] )
    {
    main_len = replens[rep_index];
    for( ; len <= main_len; ++len ) trials[len].price = infinite_price;
    }
  else for( ; len <= main_len; ++len )
    {
    trials[len].dis = match_distances[len] + num_rep_distances;
    trials[len].prev_index = 0;
    trials[len].price = normal_match_price +
                        price_pair( match_distances[len], len, pos_state );
    }
  }

  for( int rep = 0; rep < num_rep_distances; ++rep )
    {
    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( rep, 0, price +
                                  rep_match_len_encoder.price( len, pos_state ) );
    }

  int cur = 0;
  int num_trials = main_len;
  if( !matchfinder.move_pos() ) return 0;

  while( true )
    {
    if( ++cur >= num_trials )
      {
      backward( cur );
      return cur;
      }
    const int newlen = read_match_distances();
    if( newlen >= matchfinder.match_len_limit() )
      {
      longest_match_found = newlen;
      backward( cur );
      return cur;
      }

    Trial & cur_trial = trials[cur];
    const int prev_index = cur_trial.prev_index;

    cur_trial.state = trials[prev_index].state;

    for( int i = 0; i < num_rep_distances; ++i )
      cur_trial.reps[i] = trials[prev_index].reps[i];
    if( prev_index == cur - 1 )
      {
      if( cur_trial.dis == 0 ) cur_trial.state.set_short_rep();
      else cur_trial.state.set_char();
      }
    else
      {
      if( cur_trial.dis < num_rep_distances ) cur_trial.state.set_rep();
      else cur_trial.state.set_match();
      mtf_reps( cur_trial.dis, cur_trial.reps );
      }

    const uint8_t prev_byte = matchfinder[-1];
    const uint8_t cur_byte = matchfinder[0];
    const uint8_t match_byte = matchfinder[-cur_trial.reps[0]-1];
    const int pos_state = ++position & pos_state_mask;
    int next_price = cur_trial.price + price0( bm_match[cur_trial.state()][pos_state] );
    if( cur_trial.state.is_char() )
      next_price += literal_encoder.price_symbol( prev_byte, cur_byte );
    else
      next_price += literal_encoder.price_matched( prev_byte, cur_byte, match_byte );
    if( !matchfinder.move_pos() ) return 0;

    Trial & next_trial = trials[cur+1];

    next_trial.update( -1, cur, next_price );

    const int match_price = cur_trial.price + price1( bm_match[cur_trial.state()][pos_state] );
    const int rep_match_price = match_price + price1( bm_rep[cur_trial.state()] );

    if( match_byte == cur_byte && next_trial.dis != 0 )
      next_trial.update( 0, cur, rep_match_price +
                                 price_rep_len1( cur_trial.state, pos_state ) );

    const int len_limit = std::min( std::min( max_num_trials - 1 - cur,
                          matchfinder.available_bytes() ), matchfinder.match_len_limit() );
    if( len_limit < min_match_len ) continue;

    for( int rep = 0; rep < num_rep_distances; ++rep )
      {
      const int dis = cur_trial.reps[rep] + 1;
      int len = 0;
      const uint8_t * const data = matchfinder.ptr_to_current_pos() - 1;
      while( len < len_limit && data[len] == data[len-dis] ) ++len;
      if( len >= min_match_len )
        {
        const int price = rep_match_price +
                          price_rep( rep, cur_trial.state, pos_state );
        while( num_trials < cur + len )
          trials[++num_trials].price = infinite_price;
        for( ; len >= min_match_len; --len )
          trials[cur+len].update( rep, cur, price +
                                  rep_match_len_encoder.price( len, pos_state ) );
        }
      }

    if( newlen <= len_limit &&
        ( newlen > min_match_len ||
          ( newlen == min_match_len &&
            match_distances[newlen] < modeled_distances ) ) )
      {
      const int normal_match_price = match_price +
                                     price0( bm_rep[cur_trial.state()] );
      while( num_trials < cur + newlen )
        trials[++num_trials].price = infinite_price;

      for( int len = min_match_len; len <= newlen; ++len )
        trials[cur+len].update( match_distances[len] + num_rep_distances, cur,
                                normal_match_price +
                                price_pair( match_distances[len], len, pos_state ) );
      }
    }
  }


     // Sync Flush mark => (dis == 0xFFFFFFFF, len == min_match_len + 1)
bool LZ_encoder::sync_flush()
  {
  if( member_finished_ || range_encoder.free_bytes() < max_marker_size )
    return false;
  const int pos_state = ( matchfinder.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( 0xFFFFFFFF, min_match_len + 1, pos_state );
  range_encoder.flush();
  return true;
  }


     // End Of Stream mark => (dis == 0xFFFFFFFF, len == min_match_len)
bool LZ_encoder::full_flush()
  {
  if( member_finished_ ||
      range_encoder.free_bytes() < (int)sizeof( File_trailer ) + max_marker_size )
    return false;
  const int pos_state = ( matchfinder.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( 0xFFFFFFFF, min_match_len, pos_state );
  range_encoder.flush();
  File_trailer trailer;
  trailer.data_crc( crc() );
  trailer.data_size( matchfinder.data_position() );
  trailer.member_size( range_encoder.member_position() + sizeof trailer );
  for( unsigned int i = 0; i < sizeof trailer; ++i )
    range_encoder.put_byte( ((uint8_t *)&trailer)[i] );
  return true;
  }


LZ_encoder::LZ_encoder( Matchfinder & mf, const File_header & header,
                        const long long member_size )
  :
  member_size_limit( member_size - sizeof( File_trailer ) - max_marker_size ),
  longest_match_found( 0 ),
  crc_( 0xFFFFFFFF ),
  matchfinder( mf ),
  range_encoder(),
  len_encoder( matchfinder.match_len_limit() ),
  rep_match_len_encoder( matchfinder.match_len_limit() ),
  literal_encoder(),
  num_dis_slots( 2 * File_header::real_bits( matchfinder.dictionary_size() - 1 ) ),
  fill_counter( 0 ),
  member_finished_( false )
  {
  for( int i = 0; i < num_rep_distances; ++i ) rep_distances[i] = 0;
  fill_align_prices();

  for( unsigned int i = 0; i < sizeof header; ++i )
    range_encoder.put_byte( ((uint8_t *)&header)[i] );
  }


bool LZ_encoder::encode_member( const bool finish )
  {
  if( member_finished_ ) return true;
  if( range_encoder.member_position() >= member_size_limit )
    { if( full_flush() ) { member_finished_ = true; } return true; }

  // encode first byte
  if( matchfinder.data_position() == 0 && !matchfinder.finished() )
    {
    if( matchfinder.available_bytes() < 4 && !matchfinder.at_stream_end() )
      return true;
    range_encoder.encode_bit( bm_match[state()][0], 0 );
    const uint8_t prev_byte = 0;
    const uint8_t cur_byte = matchfinder[0];
    literal_encoder.encode( range_encoder, prev_byte, cur_byte );
    crc32.update( crc_, cur_byte );
    if( !move_pos( 1 ) ) return false;
    }

  while( true )
    {
    if( matchfinder.finished() )
      {
      if( finish && full_flush() ) member_finished_ = true;
      return true;
      }
    if( !matchfinder.enough_available_bytes() ||
        !range_encoder.enough_free_bytes() ) return true;
    if( fill_counter <= 0 ) { fill_distance_prices(); fill_counter = 512; }

    int ahead = best_pair_sequence( rep_distances, state );
    if( ahead <= 0 ) return false;
    fill_counter -= ahead;

    for( int i = 0; ; )
      {
      const int pos_state = ( matchfinder.data_position() - ahead ) & pos_state_mask;
      int dis = trials[i].dis;
      const int len = trials[i].price;

      bool bit = ( dis < 0 && len == 1 );
      range_encoder.encode_bit( bm_match[state()][pos_state], !bit );
      if( bit )
        {
        const uint8_t prev_byte = matchfinder[-ahead-1];
        const uint8_t cur_byte = matchfinder[-ahead];
        if( state.is_char() )
          literal_encoder.encode( range_encoder, prev_byte, cur_byte );
        else
          {
          const uint8_t match_byte = matchfinder[-ahead-rep_distances[0]-1];
          literal_encoder.encode_matched( range_encoder, prev_byte, match_byte, cur_byte );
          }
        state.set_char();
        }
      else
        {
        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();
          }
        }
      for( int j = 0; j < len; ++j )
        crc32.update( crc_, matchfinder[j-ahead] );
      ahead -= len; i += len;
      if( range_encoder.member_position() >= member_size_limit )
        {
        if( !matchfinder.dec_pos( ahead ) ) return false;
        if( full_flush() ) member_finished_ = true;
        return true;
        }
      if( ahead <= 0 ) break;
      }
    }
  }