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/*  Lzlib - Compression library for the lzip format
    Copyright (C) 2009-2017 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 bool Mb_normalize_pos( struct Matchfinder_base * const mb )
  {
  if( mb->pos > mb->stream_pos )
    { mb->pos = mb->stream_pos; return false; }
  if( !mb->at_stream_end )
    {
    int i;
    const int offset = mb->pos - mb->before_size - mb->dictionary_size;
    const int size = mb->stream_pos - offset;
    memmove( mb->buffer, mb->buffer + offset, size );
    mb->partial_data_pos += offset;
    mb->pos -= offset;		/* pos = before_size + dictionary_size */
    mb->stream_pos -= offset;
    for( i = 0; i < mb->num_prev_positions; ++i )
      mb->prev_positions[i] -= min( mb->prev_positions[i], offset );
    for( i = 0; i < mb->pos_array_size; ++i )
      mb->pos_array[i] -= min( mb->pos_array[i], offset );
    }
  return true;
  }


static bool Mb_init( struct Matchfinder_base * const mb,
                     const int before, const int dict_size,
                     const int after_size, const int dict_factor,
                     const int num_prev_positions23,
                     const int pos_array_factor )
  {
  const int buffer_size_limit =
    ( dict_factor * dict_size ) + before + after_size;
  unsigned size;
  int i;

  mb->partial_data_pos = 0;
  mb->before_size = before;
  mb->after_size = after_size;
  mb->pos = 0;
  mb->cyclic_pos = 0;
  mb->stream_pos = 0;
  mb->at_stream_end = false;
  mb->flushing = false;

  mb->buffer_size = max( 65536, buffer_size_limit );
  mb->buffer = (uint8_t *)malloc( mb->buffer_size );
  if( !mb->buffer ) return false;
  mb->dictionary_size = dict_size;
  mb->pos_limit = mb->buffer_size - after_size;
  size = 1 << max( 16, real_bits( mb->dictionary_size - 1 ) - 2 );
  if( mb->dictionary_size > 1 << 26 )		/* 64 MiB */
    size >>= 1;
  mb->key4_mask = size - 1;
  mb->num_prev_positions23 = num_prev_positions23;
  size += num_prev_positions23;

  mb->num_prev_positions = size;
  mb->pos_array_size = pos_array_factor * ( mb->dictionary_size + 1 );
  size += mb->pos_array_size;
  if( size * sizeof mb->prev_positions[0] <= size ) mb->prev_positions = 0;
  else mb->prev_positions =
    (int32_t *)malloc( size * sizeof mb->prev_positions[0] );
  if( !mb->prev_positions ) { free( mb->buffer ); return false; }
  mb->pos_array = mb->prev_positions + mb->num_prev_positions;
  for( i = 0; i < mb->num_prev_positions; ++i ) mb->prev_positions[i] = 0;
  return true;
  }


static void Mb_adjust_dictionary_size( struct Matchfinder_base * const mb )
  {
  if( mb->stream_pos < mb->dictionary_size )
    {
    int size;
    mb->buffer_size =
    mb->dictionary_size =
    mb->pos_limit = max( min_dictionary_size, mb->stream_pos );
    size = 1 << max( 16, real_bits( mb->dictionary_size - 1 ) - 2 );
    if( mb->dictionary_size > 1 << 26 )		/* 64 MiB */
      size >>= 1;
    mb->key4_mask = size - 1;
    size += mb->num_prev_positions23;
    mb->num_prev_positions = size;
    mb->pos_array = mb->prev_positions + mb->num_prev_positions;
    }
  }


static void Mb_reset( struct Matchfinder_base * const mb )
  {
  int i;
  if( mb->stream_pos > mb->pos )
    memmove( mb->buffer, mb->buffer + mb->pos, mb->stream_pos - mb->pos );
  mb->partial_data_pos = 0;
  mb->stream_pos -= mb->pos;
  mb->pos = 0;
  mb->cyclic_pos = 0;
  mb->at_stream_end = false;
  mb->flushing = false;
  for( i = 0; i < mb->num_prev_positions; ++i ) mb->prev_positions[i] = 0;
  }


     /* End Of Stream mark => (dis == 0xFFFFFFFFU, len == min_match_len) */
static void LZeb_try_full_flush( struct LZ_encoder_base * const eb )
  {
  int i;
  const int pos_state = Mb_data_position( &eb->mb ) & pos_state_mask;
  const State state = eb->state;
  File_trailer trailer;
  if( eb->member_finished ||
      Cb_free_bytes( &eb->renc.cb ) < max_marker_size + eb->renc.ff_count + Ft_size )
    return;
  eb->member_finished = true;
  Re_encode_bit( &eb->renc, &eb->bm_match[state][pos_state], 1 );
  Re_encode_bit( &eb->renc, &eb->bm_rep[state], 0 );
  LZeb_encode_pair( eb, 0xFFFFFFFFU, min_match_len, pos_state );
  Re_flush( &eb->renc );
  Ft_set_data_crc( trailer, LZeb_crc( eb ) );
  Ft_set_data_size( trailer, Mb_data_position( &eb->mb ) );
  Ft_set_member_size( trailer, Re_member_position( &eb->renc ) + Ft_size );
  for( i = 0; i < Ft_size; ++i )
    Cb_put_byte( &eb->renc.cb, trailer[i] );
  }


     /* Sync Flush mark => (dis == 0xFFFFFFFFU, len == min_match_len + 1) */
static bool LZeb_sync_flush( struct LZ_encoder_base * const eb )
  {
  int i;
  const int pos_state = Mb_data_position( &eb->mb ) & pos_state_mask;
  const State state = eb->state;
  if( eb->member_finished ||
      Cb_free_bytes( &eb->renc.cb ) < (2 * max_marker_size) + eb->renc.ff_count )
    return false;
  for( i = 0; i < 2; ++i )	/* 2 consecutive markers guarantee decoding */
    {
    Re_encode_bit( &eb->renc, &eb->bm_match[state][pos_state], 1 );
    Re_encode_bit( &eb->renc, &eb->bm_rep[state], 0 );
    LZeb_encode_pair( eb, 0xFFFFFFFFU, min_match_len + 1, pos_state );
    Re_flush( &eb->renc );
    }
  return true;
  }


static void LZeb_reset( struct LZ_encoder_base * const eb,
                        const unsigned long long member_size )
  {
  int i;
  Mb_reset( &eb->mb );
  eb->member_size_limit = member_size - Ft_size - max_marker_size;
  eb->crc = 0xFFFFFFFFU;
  Bm_array_init( eb->bm_literal[0], (1 << literal_context_bits) * 0x300 );
  Bm_array_init( eb->bm_match[0], states * pos_states );
  Bm_array_init( eb->bm_rep, states );
  Bm_array_init( eb->bm_rep0, states );
  Bm_array_init( eb->bm_rep1, states );
  Bm_array_init( eb->bm_rep2, states );
  Bm_array_init( eb->bm_len[0], states * pos_states );
  Bm_array_init( eb->bm_dis_slot[0], len_states * (1 << dis_slot_bits) );
  Bm_array_init( eb->bm_dis, modeled_distances - end_dis_model + 1 );
  Bm_array_init( eb->bm_align, dis_align_size );
  Lm_init( &eb->match_len_model );
  Lm_init( &eb->rep_len_model );
  Re_reset( &eb->renc );
  for( i = 0; i < num_rep_distances; ++i ) eb->reps[i] = 0;
  eb->state = 0;
  eb->member_finished = false;
  }