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/* Lzlib - Compression library for the lzip format
   Copyright (C) 2009-2024 Antonio Diaz Diaz.

   This library is free software. Redistribution and use in source and
   binary forms, with or without modification, are permitted provided
   that the following conditions are met:

   1. Redistributions of source code must retain the above copyright
   notice, this list of conditions, and the following disclaimer.

   2. Redistributions in binary form must reproduce the above copyright
   notice, this list of conditions, and the following disclaimer in the
   documentation and/or other materials provided with the distribution.

   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.
*/

static int LZe_get_match_pairs( struct LZ_encoder * const e, struct Pair * pairs )
  {
  int32_t * ptr0 = e->eb.mb.pos_array + ( e->eb.mb.cyclic_pos << 1 );
  int32_t * ptr1 = ptr0 + 1;
  int len_limit = e->match_len_limit;
  if( len_limit > Mb_available_bytes( &e->eb.mb ) )
    {
    e->been_flushed = true;
    len_limit = Mb_available_bytes( &e->eb.mb );
    if( len_limit < 4 ) { *ptr0 = *ptr1 = 0; return 0; }
    }

  int maxlen = 3;			/* only used if pairs != 0 */
  int num_pairs = 0;
  const int min_pos = ( e->eb.mb.pos > e->eb.mb.dictionary_size ) ?
                        e->eb.mb.pos - e->eb.mb.dictionary_size : 0;
  const uint8_t * const data = Mb_ptr_to_current_pos( &e->eb.mb );

  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_positions2 + num_prev_positions3 +
                   ( ( tmp ^ ( crc32[data[3]] << 5 ) ) & e->eb.mb.key4_mask );

  if( pairs )
    {
    const int np2 = e->eb.mb.prev_positions[key2];
    const int np3 = e->eb.mb.prev_positions[key3];
    if( np2 > min_pos && e->eb.mb.buffer[np2-1] == data[0] )
      {
      pairs[0].dis = e->eb.mb.pos - np2;
      pairs[0].len = maxlen = 2 + ( np2 == np3 );
      num_pairs = 1;
      }
    if( np2 != np3 && np3 > min_pos && e->eb.mb.buffer[np3-1] == data[0] )
      {
      maxlen = 3;
      pairs[num_pairs++].dis = e->eb.mb.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 = e->eb.mb.pos + 1;
  e->eb.mb.prev_positions[key2] = pos1;
  e->eb.mb.prev_positions[key3] = pos1;
  int newpos1 = e->eb.mb.prev_positions[key4];
  e->eb.mb.prev_positions[key4] = pos1;

  int len = 0, len0 = 0, len1 = 0;

  int count;
  for( count = e->cycles; ; )
    {
    if( newpos1 <= min_pos || --count < 0 ) { *ptr0 = *ptr1 = 0; break; }

    if( e->been_flushed ) len = 0;
    const int delta = pos1 - newpos1;
    int32_t * const newptr = e->eb.mb.pos_array +
      ( ( e->eb.mb.cyclic_pos - delta +
          ( (e->eb.mb.cyclic_pos >= delta) ? 0 : e->eb.mb.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;
  }


static void LZe_update_distance_prices( struct LZ_encoder * const e )
  {
  int dis, len_state;
  for( 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( e->eb.bm_dis + ( base - dis_slot ),
                                             dis - base, direct_bits );
    for( len_state = 0; len_state < len_states; ++len_state )
      e->dis_prices[len_state][dis] = price;
    }

  for( len_state = 0; len_state < len_states; ++len_state )
    {
    int * const dsp = e->dis_slot_prices[len_state];
    const Bit_model * const bmds = e->eb.bm_dis_slot[len_state];
    int slot = 0;
    for( ; slot < end_dis_model; ++slot )
      dsp[slot] = price_symbol6( bmds, slot );
    for( ; slot < e->num_dis_slots; ++slot )
      dsp[slot] = price_symbol6( bmds, slot ) +
                  (((( slot >> 1 ) - 1 ) - dis_align_bits ) << price_shift_bits );

    int * const dp = e->dis_prices[len_state];
    for( dis = 0; 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.
*/
static int LZe_sequence_optimizer( struct LZ_encoder * const e,
                                   const int reps[num_rep_distances],
                                   const State state )
  {
  int num_pairs, num_trials;
  int i, rep, len;

  if( e->pending_num_pairs > 0 )		/* from previous call */
    {
    num_pairs = e->pending_num_pairs;
    e->pending_num_pairs = 0;
    }
  else
    num_pairs = LZe_read_match_distances( e );
  const int main_len = ( num_pairs > 0 ) ? e->pairs[num_pairs-1].len : 0;

  int replens[num_rep_distances];
  int rep_index = 0;
  for( i = 0; i < num_rep_distances; ++i )
    {
    replens[i] = Mb_true_match_len( &e->eb.mb, 0, reps[i] + 1 );
    if( replens[i] > replens[rep_index] ) rep_index = i;
    }
  if( replens[rep_index] >= e->match_len_limit )
    {
    e->trials[0].price = replens[rep_index];
    e->trials[0].dis4 = rep_index;
    if( !LZe_move_and_update( e, replens[rep_index] ) ) return 0;
    return replens[rep_index];
    }

  if( main_len >= e->match_len_limit )
    {
    e->trials[0].price = main_len;
    e->trials[0].dis4 = e->pairs[num_pairs-1].dis + num_rep_distances;
    if( !LZe_move_and_update( e, main_len ) ) return 0;
    return main_len;
    }

  const int pos_state = Mb_data_position( &e->eb.mb ) & pos_state_mask;
  const uint8_t prev_byte = Mb_peek( &e->eb.mb, 1 );
  const uint8_t cur_byte = Mb_peek( &e->eb.mb, 0 );
  const uint8_t match_byte = Mb_peek( &e->eb.mb, reps[0] + 1 );

  e->trials[1].price = price0( e->eb.bm_match[state][pos_state] );
  if( St_is_char( state ) )
    e->trials[1].price += LZeb_price_literal( &e->eb, prev_byte, cur_byte );
  else
    e->trials[1].price += LZeb_price_matched( &e->eb, prev_byte, cur_byte, match_byte );
  e->trials[1].dis4 = -1;				/* literal */

  const int match_price = price1( e->eb.bm_match[state][pos_state] );
  const int rep_match_price = match_price + price1( e->eb.bm_rep[state] );

  if( match_byte == cur_byte )
    Tr_update( &e->trials[1], rep_match_price +
               LZeb_price_shortrep( &e->eb, state, pos_state ), 0, 0 );

  num_trials = max( main_len, replens[rep_index] );

  if( num_trials < min_match_len )
    {
    e->trials[0].price = 1;
    e->trials[0].dis4 = e->trials[1].dis4;
    if( !Mb_move_pos( &e->eb.mb ) ) return 0;
    return 1;
    }

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

  for( len = min_match_len; len <= num_trials; ++len )
    e->trials[len].price = infinite_price;

  for( rep = 0; rep < num_rep_distances; ++rep )
    {
    if( replens[rep] < min_match_len ) continue;
    const int price = rep_match_price + LZeb_price_rep( &e->eb, rep, state, pos_state );
    for( len = min_match_len; len <= replens[rep]; ++len )
      Tr_update( &e->trials[len], price +
                 Lp_price( &e->rep_len_prices, len, pos_state ), rep, 0 );
    }

  if( main_len > replens[0] )
    {
    const int normal_match_price = match_price + price0( e->eb.bm_rep[state] );
    int i = 0, len = max( replens[0] + 1, min_match_len );
    while( len > e->pairs[i].len ) ++i;
    while( true )
      {
      const int dis = e->pairs[i].dis;
      Tr_update( &e->trials[len], normal_match_price +
                 LZe_price_pair( e, dis, len, pos_state ),
                 dis + num_rep_distances, 0 );
      if( ++len > e->pairs[i].len && ++i >= num_pairs ) break;
      }
    }

  int cur = 0;
  while( true )				/* price optimization loop */
    {
    if( !Mb_move_pos( &e->eb.mb ) ) return 0;
    if( ++cur >= num_trials )		/* no more initialized trials */
      {
      LZe_backward( e, cur );
      return cur;
      }

    const int num_pairs = LZe_read_match_distances( e );
    const int newlen = ( num_pairs > 0 ) ? e->pairs[num_pairs-1].len : 0;
    if( newlen >= e->match_len_limit )
      {
      e->pending_num_pairs = num_pairs;
      LZe_backward( e, cur );
      return cur;
      }

    /* give final values to current trial */
    struct Trial * cur_trial = &e->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 = e->trials[prev_index].state;
      if( prev_index + 1 == cur )			/* len == 1 */
        {
        if( dis4 == 0 ) cur_state = St_set_short_rep( cur_state );
        else cur_state = St_set_char( cur_state );	/* literal */
        }
      else if( dis4 < num_rep_distances ) cur_state = St_set_rep( cur_state );
      else cur_state = St_set_match( cur_state );
      }
    else
      {
      if( prev_index2 == dual_step_trial )	/* dis4 == 0 (rep0) */
        --prev_index;
      else					/* prev_index2 >= 0 */
        prev_index = prev_index2;
      cur_state = St_set_char_rep();
      }
    cur_trial->state = cur_state;
    for( i = 0; i < num_rep_distances; ++i )
      cur_trial->reps[i] = e->trials[prev_index].reps[i];
    mtf_reps( dis4, cur_trial->reps );		/* literal is ignored */
    }

    const int pos_state = Mb_data_position( &e->eb.mb ) & pos_state_mask;
    const uint8_t prev_byte = Mb_peek( &e->eb.mb, 1 );
    const uint8_t cur_byte = Mb_peek( &e->eb.mb, 0 );
    const uint8_t match_byte = Mb_peek( &e->eb.mb, cur_trial->reps[0] + 1 );

    int next_price = cur_trial->price +
                     price0( e->eb.bm_match[cur_state][pos_state] );
    if( St_is_char( cur_state ) )
      next_price += LZeb_price_literal( &e->eb, prev_byte, cur_byte );
    else
      next_price += LZeb_price_matched( &e->eb, prev_byte, cur_byte, match_byte );

    /* try last updates to next trial */
    struct Trial * next_trial = &e->trials[cur+1];

    Tr_update( next_trial, next_price, -1, cur );	/* literal */

    const int match_price = cur_trial->price + price1( e->eb.bm_match[cur_state][pos_state] );
    const int rep_match_price = match_price + price1( e->eb.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 +
                        LZeb_price_shortrep( &e->eb, 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 =
      min( Mb_available_bytes( &e->eb.mb ), max_num_trials - 1 - cur );
    if( triable_bytes < min_match_len ) continue;

    const int len_limit = min( e->match_len_limit, triable_bytes );

    /* try literal + rep0 */
    if( match_byte != cur_byte && next_trial->prev_index != cur )
      {
      const uint8_t * const data = Mb_ptr_to_current_pos( &e->eb.mb );
      const int dis = cur_trial->reps[0] + 1;
      const int limit = min( e->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;
        const State state2 = St_set_char( cur_state );
        const int price = next_price +
                          price1( e->eb.bm_match[state2][pos_state2] ) +
                          price1( e->eb.bm_rep[state2] ) +
                          LZe_price_rep0_len( e, len, state2, pos_state2 );
        while( num_trials < cur + 1 + len )
          e->trials[++num_trials].price = infinite_price;
        Tr_update2( &e->trials[cur+1+len], price, cur + 1 );
        }
      }

    int start_len = min_match_len;

    /* try rep distances */
    for( rep = 0; rep < num_rep_distances; ++rep )
      {
      const uint8_t * const data = Mb_ptr_to_current_pos( &e->eb.mb );
      const int dis = cur_trial->reps[rep] + 1;

      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 )
        e->trials[++num_trials].price = infinite_price;
      int price = rep_match_price + LZeb_price_rep( &e->eb, rep, cur_state, pos_state );
      for( i = min_match_len; i <= len; ++i )
        Tr_update( &e->trials[cur+i], price +
                   Lp_price( &e->rep_len_prices, 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 = min( e->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 = St_set_rep( cur_state );
      price += Lp_price( &e->rep_len_prices, len, pos_state ) +
               price0( e->eb.bm_match[state2][pos_state2] ) +
               LZeb_price_matched( &e->eb, data[len-1], data[len], data[len-dis] );
      pos_state2 = ( pos_state2 + 1 ) & pos_state_mask;
      state2 = St_set_char( state2 );
      price += price1( e->eb.bm_match[state2][pos_state2] ) +
               price1( e->eb.bm_rep[state2] ) +
               LZe_price_rep0_len( e, len2, state2, pos_state2 );
      while( num_trials < cur + len + 1 + len2 )
        e->trials[++num_trials].price = infinite_price;
      Tr_update3( &e->trials[cur+len+1+len2], price, rep, cur + len + 1, cur );
      }

    /* try matches */
    if( newlen >= start_len && newlen <= len_limit )
      {
      const int normal_match_price = match_price +
                                     price0( e->eb.bm_rep[cur_state] );

      while( num_trials < cur + newlen )
        e->trials[++num_trials].price = infinite_price;

      int i = 0;
      while( e->pairs[i].len < start_len ) ++i;
      int dis = e->pairs[i].dis;
      for( len = start_len; ; ++len )
        {
        int price = normal_match_price + LZe_price_pair( e, dis, len, pos_state );
        Tr_update( &e->trials[cur+len], price, dis + num_rep_distances, cur );

        /* try match + literal + rep0 */
        if( len == e->pairs[i].len )
          {
          const uint8_t * const data = Mb_ptr_to_current_pos( &e->eb.mb );
          const int dis2 = dis + 1;
          int len2 = len + 1;
          const int limit = min( e->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 = St_set_match( cur_state );
            price += price0( e->eb.bm_match[state2][pos_state2] ) +
                     LZeb_price_matched( &e->eb, data[len-1], data[len], data[len-dis2] );
            pos_state2 = ( pos_state2 + 1 ) & pos_state_mask;
            state2 = St_set_char( state2 );
            price += price1( e->eb.bm_match[state2][pos_state2] ) +
                     price1( e->eb.bm_rep[state2] ) +
                     LZe_price_rep0_len( e, len2, state2, pos_state2 );

            while( num_trials < cur + len + 1 + len2 )
              e->trials[++num_trials].price = infinite_price;
            Tr_update3( &e->trials[cur+len+1+len2], price,
                        dis + num_rep_distances, cur + len + 1, cur );
            }
          if( ++i >= num_pairs ) break;
          dis = e->pairs[i].dis;
          }
        }
      }
    }
  }


static bool LZe_encode_member( struct LZ_encoder * const e )
  {
  const bool best = ( e->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 = ( e->match_len_limit > 36 ) ? 1013 : 4093;
  int i;
  State * const state = &e->eb.state;

  if( e->eb.member_finished ) return true;
  if( Re_member_position( &e->eb.renc ) >= e->eb.member_size_limit )
    { LZeb_try_full_flush( &e->eb ); return true; }

  if( Mb_data_position( &e->eb.mb ) == 0 &&
      !Mb_data_finished( &e->eb.mb ) )		/* encode first byte */
    {
    if( !Mb_enough_available_bytes( &e->eb.mb ) ||
        !Re_enough_free_bytes( &e->eb.renc ) ) return true;
    const uint8_t prev_byte = 0;
    const uint8_t cur_byte = Mb_peek( &e->eb.mb, 0 );
    Re_encode_bit( &e->eb.renc, &e->eb.bm_match[*state][0], 0 );
    LZeb_encode_literal( &e->eb, prev_byte, cur_byte );
    CRC32_update_byte( &e->eb.crc, cur_byte );
    LZe_get_match_pairs( e, 0 );
    if( !Mb_move_pos( &e->eb.mb ) ) return false;
    }

  while( !Mb_data_finished( &e->eb.mb ) )
    {
    if( !Mb_enough_available_bytes( &e->eb.mb ) ||
        !Re_enough_free_bytes( &e->eb.renc ) ) return true;
    if( e->price_counter <= 0 && e->pending_num_pairs == 0 )
      {
      e->price_counter = price_count;	/* recalculate prices every these bytes */
      if( e->dis_price_counter <= 0 )
        { e->dis_price_counter = dis_price_count; LZe_update_distance_prices( e ); }
      if( e->align_price_counter <= 0 )
        {
        e->align_price_counter = align_price_count;
        for( i = 0; i < dis_align_size; ++i )
          e->align_prices[i] = price_symbol_reversed( e->eb.bm_align, i, dis_align_bits );
        }
      Lp_update_prices( &e->match_len_prices );
      Lp_update_prices( &e->rep_len_prices );
      }

    int ahead = LZe_sequence_optimizer( e, e->eb.reps, *state );
    e->price_counter -= ahead;

    for( i = 0; ahead > 0; )
      {
      const int pos_state =
        ( Mb_data_position( &e->eb.mb ) - ahead ) & pos_state_mask;
      const int len = e->trials[i].price;
      int dis = e->trials[i].dis4;

      bool bit = ( dis < 0 );
      Re_encode_bit( &e->eb.renc, &e->eb.bm_match[*state][pos_state], !bit );
      if( bit )					/* literal byte */
        {
        const uint8_t prev_byte = Mb_peek( &e->eb.mb, ahead + 1 );
        const uint8_t cur_byte = Mb_peek( &e->eb.mb, ahead );
        CRC32_update_byte( &e->eb.crc, cur_byte );
        if( ( *state = St_set_char( *state ) ) < 4 )
          LZeb_encode_literal( &e->eb, prev_byte, cur_byte );
        else
          {
          const uint8_t match_byte = Mb_peek( &e->eb.mb, ahead + e->eb.reps[0] + 1 );
          LZeb_encode_matched( &e->eb, prev_byte, cur_byte, match_byte );
          }
        }
      else					/* match or repeated match */
        {
        CRC32_update_buf( &e->eb.crc, Mb_ptr_to_current_pos( &e->eb.mb ) - ahead, len );
        mtf_reps( dis, e->eb.reps );
        bit = ( dis < num_rep_distances );
        Re_encode_bit( &e->eb.renc, &e->eb.bm_rep[*state], bit );
        if( bit )				/* repeated match */
          {
          bit = ( dis == 0 );
          Re_encode_bit( &e->eb.renc, &e->eb.bm_rep0[*state], !bit );
          if( bit )
            Re_encode_bit( &e->eb.renc, &e->eb.bm_len[*state][pos_state], len > 1 );
          else
            {
            Re_encode_bit( &e->eb.renc, &e->eb.bm_rep1[*state], dis > 1 );
            if( dis > 1 )
              Re_encode_bit( &e->eb.renc, &e->eb.bm_rep2[*state], dis > 2 );
            }
          if( len == 1 ) *state = St_set_short_rep( *state );
          else
            {
            Re_encode_len( &e->eb.renc, &e->eb.rep_len_model, len, pos_state );
            Lp_decrement_counter( &e->rep_len_prices, pos_state );
            *state = St_set_rep( *state );
            }
          }
        else					/* match */
          {
          dis -= num_rep_distances;
          LZeb_encode_pair( &e->eb, dis, len, pos_state );
          if( dis >= modeled_distances ) --e->align_price_counter;
          --e->dis_price_counter;
          Lp_decrement_counter( &e->match_len_prices, pos_state );
          *state = St_set_match( *state );
          }
        }
      ahead -= len; i += len;
      if( Re_member_position( &e->eb.renc ) >= e->eb.member_size_limit )
        {
        if( !Mb_dec_pos( &e->eb.mb, ahead ) ) return false;
        LZeb_try_full_flush( &e->eb );
        return true;
        }
      }
    }
  LZeb_try_full_flush( &e->eb );
  return true;
  }