Source Code of SevenZip.Compression.LZMA.Encoder

package SevenZip.Compression.LZMA;

import SevenZip.Compression.RangeCoder.BitTreeEncoder;
import SevenZip.Compression.LZMA.Base;
import SevenZip.Compression.LZ.BinTree;
import SevenZip.ICodeProgress;
import java.io.IOException;

public class Encoder
{
  public static final int EMatchFinderTypeBT2 = 0;
  public static final int EMatchFinderTypeBT4 = 1;




  static final int kIfinityPrice = 0xFFFFFFF;

  static byte[] g_FastPos = new byte[1 << 11];

  static
  {
    int kFastSlots = 22;
    int c = 2;
    g_FastPos[0] = 0;
    g_FastPos[1] = 1;
    for (int slotFast = 2; slotFast < kFastSlots; slotFast++)
    {
      int k = (1 << ((slotFast >> 1) - 1));
      for (int j = 0; j < k; j++, c++)
        g_FastPos[c] = (byte)slotFast;
    }
  }

  static int GetPosSlot(int pos)
  {
    if (pos < (1 << 11))
      return g_FastPos[pos];
    if (pos < (1 << 21))
      return (g_FastPos[pos >> 10] + 20);
    return (g_FastPos[pos >> 20] + 40);
  }

  static int GetPosSlot2(int pos)
  {
    if (pos < (1 << 17))
      return (g_FastPos[pos >> 6] + 12);
    if (pos < (1 << 27))
      return (g_FastPos[pos >> 16] + 32);
    return (g_FastPos[pos >> 26] + 52);
  }

  int _state = Base.StateInit();
  byte _previousByte;
  int[] _repDistances = new int[Base.kNumRepDistances];

  void BaseInit()
  {
    _state = Base.StateInit();
    _previousByte = 0;
    for (int i = 0; i < Base.kNumRepDistances; i++)
      _repDistances[i] = 0;
  }

  static final int kDefaultDictionaryLogSize = 22;
  static final int kNumFastBytesDefault = 0x20;

  class LiteralEncoder
  {
    class Encoder2
    {
      short[] m_Encoders = new short[0x300];

      public void Init() { SevenZip.Compression.RangeCoder.Encoder.InitBitModels(m_Encoders); }



      public void Encode(SevenZip.Compression.RangeCoder.Encoder rangeEncoder, byte symbol) throws IOException
      {
        int context = 1;
        for (int i = 7; i >= 0; i--)
        {
          int bit = ((symbol >> i) & 1);
          rangeEncoder.Encode(m_Encoders, context, bit);
          context = (context << 1) | bit;
        }
      }

      public void EncodeMatched(SevenZip.Compression.RangeCoder.Encoder rangeEncoder, byte matchByte, byte symbol) throws IOException
      {
        int context = 1;
        boolean same = true;
        for (int i = 7; i >= 0; i--)
        {
          int bit = ((symbol >> i) & 1);
          int state = context;
          if (same)
          {
            int matchBit = ((matchByte >> i) & 1);
            state += ((1 + matchBit) << 8);
            same = (matchBit == bit);
          }
          rangeEncoder.Encode(m_Encoders, state, bit);
          context = (context << 1) | bit;
        }
      }

      public int GetPrice(boolean matchMode, byte matchByte, byte symbol)
      {
        int price = 0;
        int context = 1;
        int i = 7;
        if (matchMode)
        {
          for (; i >= 0; i--)
          {
            int matchBit = (matchByte >> i) & 1;
            int bit = (symbol >> i) & 1;
            price += SevenZip.Compression.RangeCoder.Encoder.GetPrice(m_Encoders[((1 + matchBit) << 8) + context], bit);
            context = (context << 1) | bit;
            if (matchBit != bit)
            {
              i--;
              break;
            }
          }
        }
        for (; i >= 0; i--)
        {
          int bit = (symbol >> i) & 1;
          price += SevenZip.Compression.RangeCoder.Encoder.GetPrice(m_Encoders[context], bit);
          context = (context << 1) | bit;
        }
        return price;
      }
    }

    Encoder2[] m_Coders;
    int m_NumPrevBits;
    int m_NumPosBits;
    int m_PosMask;

    public void Create(int numPosBits, int numPrevBits)
    {
      if (m_Coders != null && m_NumPrevBits == numPrevBits && m_NumPosBits == numPosBits)
        return;
      m_NumPosBits = numPosBits;
      m_PosMask = (1 << numPosBits) - 1;
      m_NumPrevBits = numPrevBits;
      int numStates = 1 << (m_NumPrevBits + m_NumPosBits);
      m_Coders = new Encoder2[numStates];
      for (int i = 0; i < numStates; i++)
        m_Coders[i] = new Encoder2();
    }

    public void Init()
    {
      int numStates = 1 << (m_NumPrevBits + m_NumPosBits);
      for (int i = 0; i < numStates; i++)
        m_Coders[i].Init();
    }

    public Encoder2 GetSubCoder(int pos, byte prevByte)
    { return m_Coders[((pos & m_PosMask) << m_NumPrevBits) + ((prevByte & 0xFF) >>> (8 - m_NumPrevBits))]; }
  }

  class LenEncoder
  {
    short[] _choice = new short[2];
    BitTreeEncoder[] _lowCoder = new BitTreeEncoder[Base.kNumPosStatesEncodingMax];
    BitTreeEncoder[] _midCoder = new BitTreeEncoder[Base.kNumPosStatesEncodingMax];
    BitTreeEncoder _highCoder = new BitTreeEncoder(Base.kNumHighLenBits);


    public LenEncoder()
    {
      for (int posState = 0; posState < Base.kNumPosStatesEncodingMax; posState++)
      {
        _lowCoder[posState] = new BitTreeEncoder(Base.kNumLowLenBits);
        _midCoder[posState] = new BitTreeEncoder(Base.kNumMidLenBits);
      }
    }

    public void Init(int numPosStates)
    {
      SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_choice);

      for (int posState = 0; posState < numPosStates; posState++)
      {
        _lowCoder[posState].Init();
        _midCoder[posState].Init();
      }
      _highCoder.Init();
    }

    public void Encode(SevenZip.Compression.RangeCoder.Encoder rangeEncoder, int symbol, int posState) throws IOException
    {
      if (symbol < Base.kNumLowLenSymbols)
      {
        rangeEncoder.Encode(_choice, 0, 0);
        _lowCoder[posState].Encode(rangeEncoder, symbol);
      }
      else
      {
        symbol -= Base.kNumLowLenSymbols;
        rangeEncoder.Encode(_choice, 0, 1);
        if (symbol < Base.kNumMidLenSymbols)
        {
          rangeEncoder.Encode(_choice, 1, 0);
          _midCoder[posState].Encode(rangeEncoder, symbol);
        }
        else
        {
          rangeEncoder.Encode(_choice, 1, 1);
          _highCoder.Encode(rangeEncoder, symbol - Base.kNumMidLenSymbols);
        }
      }
    }

    public void SetPrices(int posState, int numSymbols, int[] prices, int st)
    {
      int a0 = SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_choice[0]);
      int a1 = SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_choice[0]);
      int b0 = a1 + SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_choice[1]);
      int b1 = a1 + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_choice[1]);
      int i = 0;
      for (i = 0; i < Base.kNumLowLenSymbols; i++)
      {
        if (i >= numSymbols)
          return;
        prices[st + i] = a0 + _lowCoder[posState].GetPrice(i);
      }
      for (; i < Base.kNumLowLenSymbols + Base.kNumMidLenSymbols; i++)
      {
        if (i >= numSymbols)
          return;
        prices[st + i] = b0 + _midCoder[posState].GetPrice(i - Base.kNumLowLenSymbols);
      }
      for (; i < numSymbols; i++)
        prices[st + i] = b1 + _highCoder.GetPrice(i - Base.kNumLowLenSymbols - Base.kNumMidLenSymbols);
    }
  };

  public static final int kNumLenSpecSymbols = Base.kNumLowLenSymbols + Base.kNumMidLenSymbols;

  class LenPriceTableEncoder extends LenEncoder
  {
    int[] _prices = new int[Base.kNumLenSymbols<<Base.kNumPosStatesBitsEncodingMax];
    int _tableSize;
    int[] _counters = new int[Base.kNumPosStatesEncodingMax];

    public void SetTableSize(int tableSize) { _tableSize = tableSize; }

    public int GetPrice(int symbol, int posState)
    {
      return _prices[posState * Base.kNumLenSymbols + symbol];
    }

    void UpdateTable(int posState)
    {
      SetPrices(posState, _tableSize, _prices, posState * Base.kNumLenSymbols);
      _counters[posState] = _tableSize;
    }

    public void UpdateTables(int numPosStates)
    {
      for (int posState = 0; posState < numPosStates; posState++)
        UpdateTable(posState);
    }

    public void Encode(SevenZip.Compression.RangeCoder.Encoder rangeEncoder, int symbol, int posState) throws IOException
    {
      super.Encode(rangeEncoder, symbol, posState);
      if (--_counters[posState] == 0)
        UpdateTable(posState);
    }
  }

  static final int kNumOpts = 1 << 12;
  class Optimal
  {
    public int State;

    public boolean Prev1IsChar;
    public boolean Prev2;

    public int PosPrev2;
    public int BackPrev2;

    public int Price;
    public int PosPrev;
    public int BackPrev;

    public int Backs0;
    public int Backs1;
    public int Backs2;
    public int Backs3;

    public void MakeAsChar() { BackPrev = -1; Prev1IsChar = false; }
    public void MakeAsShortRep() { BackPrev = 0; ; Prev1IsChar = false; }
    public boolean IsShortRep() { return (BackPrev == 0); }
  };
  Optimal[] _optimum = new Optimal[kNumOpts];
  SevenZip.Compression.LZ.BinTree _matchFinder = null;
  SevenZip.Compression.RangeCoder.Encoder _rangeEncoder = new SevenZip.Compression.RangeCoder.Encoder();

  short[] _isMatch = new short[Base.kNumStates<<Base.kNumPosStatesBitsMax];
  short[] _isRep = new short[Base.kNumStates];
  short[] _isRepG0 = new short[Base.kNumStates];
  short[] _isRepG1 = new short[Base.kNumStates];
  short[] _isRepG2 = new short[Base.kNumStates];
  short[] _isRep0Long = new short[Base.kNumStates<<Base.kNumPosStatesBitsMax];

  BitTreeEncoder[] _posSlotEncoder = new BitTreeEncoder[Base.kNumLenToPosStates]; // kNumPosSlotBits

  short[] _posEncoders = new short[Base.kNumFullDistances-Base.kEndPosModelIndex];
  BitTreeEncoder _posAlignEncoder = new BitTreeEncoder(Base.kNumAlignBits);

  LenPriceTableEncoder _lenEncoder = new LenPriceTableEncoder();
  LenPriceTableEncoder _repMatchLenEncoder = new LenPriceTableEncoder();

  LiteralEncoder _literalEncoder = new LiteralEncoder();

  int[] _matchDistances = new int[Base.kMatchMaxLen*2+2];

  int _numFastBytes = kNumFastBytesDefault;
  int _longestMatchLength;
  int _numDistancePairs;

  int _additionalOffset;

  int _optimumEndIndex;
  int _optimumCurrentIndex;

  boolean _longestMatchWasFound;

  int[] _posSlotPrices = new int[1<<(Base.kNumPosSlotBits+Base.kNumLenToPosStatesBits)];
  int[] _distancesPrices = new int[Base.kNumFullDistances<<Base.kNumLenToPosStatesBits];
  int[] _alignPrices = new int[Base.kAlignTableSize];
  int _alignPriceCount;

  int _distTableSize = (kDefaultDictionaryLogSize * 2);

  int _posStateBits = 2;
  int _posStateMask = (4 - 1);
  int _numLiteralPosStateBits = 0;
  int _numLiteralContextBits = 3;

  int _dictionarySize = (1 << kDefaultDictionaryLogSize);
  int _dictionarySizePrev = -1;
  int _numFastBytesPrev = -1;

  long nowPos64;
  boolean _finished;
  java.io.InputStream _inStream;

  int _matchFinderType = EMatchFinderTypeBT4;
  boolean _writeEndMark = false;

  boolean _needReleaseMFStream = false;

  void Create()
  {
    if (_matchFinder == null)
    {
      SevenZip.Compression.LZ.BinTree bt = new SevenZip.Compression.LZ.BinTree();
      int numHashBytes = 4;
      if (_matchFinderType == EMatchFinderTypeBT2)
        numHashBytes = 2;
      bt.SetType(numHashBytes);
      _matchFinder = bt;
    }
    _literalEncoder.Create(_numLiteralPosStateBits, _numLiteralContextBits);

    if (_dictionarySize == _dictionarySizePrev && _numFastBytesPrev == _numFastBytes)
      return;
    _matchFinder.Create(_dictionarySize, kNumOpts, _numFastBytes, Base.kMatchMaxLen + 1);
    _dictionarySizePrev = _dictionarySize;
    _numFastBytesPrev = _numFastBytes;
  }

  public Encoder()
  {
    for (int i = 0; i < kNumOpts; i++)
      _optimum[i] = new Optimal();
    for (int i = 0; i < Base.kNumLenToPosStates; i++)
      _posSlotEncoder[i] = new BitTreeEncoder(Base.kNumPosSlotBits);
  }

  void SetWriteEndMarkerMode(boolean writeEndMarker)
  {
    _writeEndMark = writeEndMarker;
  }

  void Init()
  {
    BaseInit();
    _rangeEncoder.Init();

    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_isMatch);
    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_isRep0Long);
    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_isRep);
    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_isRepG0);
    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_isRepG1);
    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_isRepG2);
    SevenZip.Compression.RangeCoder.Encoder.InitBitModels(_posEncoders);







    _literalEncoder.Init();
    for (int i = 0; i < Base.kNumLenToPosStates; i++)
      _posSlotEncoder[i].Init();



    _lenEncoder.Init(1 << _posStateBits);
    _repMatchLenEncoder.Init(1 << _posStateBits);

    _posAlignEncoder.Init();

    _longestMatchWasFound = false;
    _optimumEndIndex = 0;
    _optimumCurrentIndex = 0;
    _additionalOffset = 0;
  }

  int ReadMatchDistances() throws java.io.IOException
  {
    int lenRes = 0;
    _numDistancePairs = _matchFinder.GetMatches(_matchDistances);
    if (_numDistancePairs > 0)
    {
      lenRes = _matchDistances[_numDistancePairs - 2];
      if (lenRes == _numFastBytes)
        lenRes += _matchFinder.GetMatchLen((int)lenRes - 1, _matchDistances[_numDistancePairs - 1],
          Base.kMatchMaxLen - lenRes);
    }
    _additionalOffset++;
    return lenRes;
  }

  void MovePos(int num) throws java.io.IOException
  {
    if (num > 0)
    {
      _matchFinder.Skip(num);
      _additionalOffset += num;
    }
  }

  int GetRepLen1Price(int state, int posState)
  {
    return SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isRepG0[state]) +
        SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isRep0Long[(state << Base.kNumPosStatesBitsMax) + posState]);
  }

  int GetPureRepPrice(int repIndex, int state, int posState)
  {
    int price;
    if (repIndex == 0)
    {
      price = SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isRepG0[state]);
      price += SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRep0Long[(state << Base.kNumPosStatesBitsMax) + posState]);
    }
    else
    {
      price = SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRepG0[state]);
      if (repIndex == 1)
        price += SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isRepG1[state]);
      else
      {
        price += SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRepG1[state]);
        price += SevenZip.Compression.RangeCoder.Encoder.GetPrice(_isRepG2[state], repIndex - 2);
      }
    }
    return price;
  }

  int GetRepPrice(int repIndex, int len, int state, int posState)
  {
    int price = _repMatchLenEncoder.GetPrice(len - Base.kMatchMinLen, posState);
    return price + GetPureRepPrice(repIndex, state, posState);
  }

  int GetPosLenPrice(int pos, int len, int posState)
  {
    int price;
    int lenToPosState = Base.GetLenToPosState(len);
    if (pos < Base.kNumFullDistances)
      price = _distancesPrices[(lenToPosState * Base.kNumFullDistances) + pos];
    else
      price = _posSlotPrices[(lenToPosState << Base.kNumPosSlotBits) + GetPosSlot2(pos)] +
        _alignPrices[pos & Base.kAlignMask];
    return price + _lenEncoder.GetPrice(len - Base.kMatchMinLen, posState);
  }

  int Backward(int cur)
  {
    _optimumEndIndex = cur;
    int posMem = _optimum[cur].PosPrev;
    int backMem = _optimum[cur].BackPrev;
    do
    {
      if (_optimum[cur].Prev1IsChar)
      {
        _optimum[posMem].MakeAsChar();
        _optimum[posMem].PosPrev = posMem - 1;
        if (_optimum[cur].Prev2)
        {
          _optimum[posMem - 1].Prev1IsChar = false;
          _optimum[posMem - 1].PosPrev = _optimum[cur].PosPrev2;
          _optimum[posMem - 1].BackPrev = _optimum[cur].BackPrev2;
        }
      }
      int posPrev = posMem;
      int backCur = backMem;

      backMem = _optimum[posPrev].BackPrev;
      posMem = _optimum[posPrev].PosPrev;

      _optimum[posPrev].BackPrev = backCur;
      _optimum[posPrev].PosPrev = cur;
      cur = posPrev;
    }
    while (cur > 0);
    backRes = _optimum[0].BackPrev;
    _optimumCurrentIndex = _optimum[0].PosPrev;
    return _optimumCurrentIndex;
  }

  int[] reps = new int[Base.kNumRepDistances];
  int[] repLens = new int[Base.kNumRepDistances];
  int backRes;

  int GetOptimum(int position) throws IOException
  {
    if (_optimumEndIndex != _optimumCurrentIndex)
    {
      int lenRes = _optimum[_optimumCurrentIndex].PosPrev - _optimumCurrentIndex;
      backRes = _optimum[_optimumCurrentIndex].BackPrev;
      _optimumCurrentIndex = _optimum[_optimumCurrentIndex].PosPrev;
      return lenRes;
    }
    _optimumCurrentIndex = _optimumEndIndex = 0;

    int lenMain, numDistancePairs;
    if (!_longestMatchWasFound)
    {
      lenMain = ReadMatchDistances();
    }
    else
    {
      lenMain = _longestMatchLength;
      _longestMatchWasFound = false;
    }
    numDistancePairs = _numDistancePairs;

    int numAvailableBytes = _matchFinder.GetNumAvailableBytes() + 1;
    if (numAvailableBytes < 2)
    {
      backRes = -1;
      return 1;
    }
    if (numAvailableBytes > Base.kMatchMaxLen)
      numAvailableBytes = Base.kMatchMaxLen;

    int repMaxIndex = 0;
    int i;
    for (i = 0; i < Base.kNumRepDistances; i++)
    {
      reps[i] = _repDistances[i];
      repLens[i] = _matchFinder.GetMatchLen(0 - 1, reps[i], Base.kMatchMaxLen);
      if (repLens[i] > repLens[repMaxIndex])
        repMaxIndex = i;
    }
    if (repLens[repMaxIndex] >= _numFastBytes)
    {
      backRes = repMaxIndex;
      int lenRes = repLens[repMaxIndex];
      MovePos(lenRes - 1);
      return lenRes;
    }

    if (lenMain >= _numFastBytes)
    {
      backRes = _matchDistances[numDistancePairs - 1] + Base.kNumRepDistances;
      MovePos(lenMain - 1);
      return lenMain;
    }

    byte currentByte = _matchFinder.GetIndexByte(0 - 1);
    byte matchByte = _matchFinder.GetIndexByte(0 - _repDistances[0] - 1 - 1);

    if (lenMain < 2 && currentByte != matchByte && repLens[repMaxIndex] < 2)
    {
      backRes = -1;
      return 1;
    }

    _optimum[0].State = _state;

    int posState = (position & _posStateMask);

    _optimum[1].Price = SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isMatch[(_state << Base.kNumPosStatesBitsMax) + posState]) +
        _literalEncoder.GetSubCoder(position, _previousByte).GetPrice(!Base.StateIsCharState(_state), matchByte, currentByte);
    _optimum[1].MakeAsChar();

    int matchPrice = SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isMatch[(_state << Base.kNumPosStatesBitsMax) + posState]);
    int repMatchPrice = matchPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRep[_state]);

    if (matchByte == currentByte)
    {
      int shortRepPrice = repMatchPrice + GetRepLen1Price(_state, posState);
      if (shortRepPrice < _optimum[1].Price)
      {
        _optimum[1].Price = shortRepPrice;
        _optimum[1].MakeAsShortRep();
      }
    }

    int lenEnd = ((lenMain >= repLens[repMaxIndex]) ? lenMain : repLens[repMaxIndex]);

    if (lenEnd < 2)
    {
      backRes = _optimum[1].BackPrev;
      return 1;
    }

    _optimum[1].PosPrev = 0;

    _optimum[0].Backs0 = reps[0];
    _optimum[0].Backs1 = reps[1];
    _optimum[0].Backs2 = reps[2];
    _optimum[0].Backs3 = reps[3];

    int len = lenEnd;
    do
      _optimum[len--].Price = kIfinityPrice;
    while (len >= 2);

    for (i = 0; i < Base.kNumRepDistances; i++)
    {
      int repLen = repLens[i];
      if (repLen < 2)
        continue;
      int price = repMatchPrice + GetPureRepPrice(i, _state, posState);
      do
      {
        int curAndLenPrice = price + _repMatchLenEncoder.GetPrice(repLen - 2, posState);
        Optimal optimum = _optimum[repLen];
        if (curAndLenPrice < optimum.Price)
        {
          optimum.Price = curAndLenPrice;
          optimum.PosPrev = 0;
          optimum.BackPrev = i;
          optimum.Prev1IsChar = false;
        }
      }
      while (--repLen >= 2);
    }

    int normalMatchPrice = matchPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isRep[_state]);

    len = ((repLens[0] >= 2) ? repLens[0] + 1 : 2);
    if (len <= lenMain)
    {
      int offs = 0;
      while (len > _matchDistances[offs])
        offs += 2;
      for (; ; len++)
      {
        int distance = _matchDistances[offs + 1];
        int curAndLenPrice = normalMatchPrice + GetPosLenPrice(distance, len, posState);
        Optimal optimum = _optimum[len];
        if (curAndLenPrice < optimum.Price)
        {
          optimum.Price = curAndLenPrice;
          optimum.PosPrev = 0;
          optimum.BackPrev = distance + Base.kNumRepDistances;
          optimum.Prev1IsChar = false;
        }
        if (len == _matchDistances[offs])
        {
          offs += 2;
          if (offs == numDistancePairs)
            break;
        }
      }
    }

    int cur = 0;

    while (true)
    {
      cur++;
      if (cur == lenEnd)
        return Backward(cur);
      int newLen = ReadMatchDistances();
      numDistancePairs = _numDistancePairs;
      if (newLen >= _numFastBytes)
      {

        _longestMatchLength = newLen;
        _longestMatchWasFound = true;
        return Backward(cur);
      }
      position++;
      int posPrev = _optimum[cur].PosPrev;
      int state;
      if (_optimum[cur].Prev1IsChar)
      {
        posPrev--;
        if (_optimum[cur].Prev2)
        {
          state = _optimum[_optimum[cur].PosPrev2].State;
          if (_optimum[cur].BackPrev2 < Base.kNumRepDistances)
            state = Base.StateUpdateRep(state);
          else
            state = Base.StateUpdateMatch(state);
        }
        else
          state = _optimum[posPrev].State;
        state = Base.StateUpdateChar(state);
      }
      else
        state = _optimum[posPrev].State;
      if (posPrev == cur - 1)
      {
        if (_optimum[cur].IsShortRep())
          state = Base.StateUpdateShortRep(state);
        else
          state = Base.StateUpdateChar(state);
      }
      else
      {
        int pos;
        if (_optimum[cur].Prev1IsChar && _optimum[cur].Prev2)
        {
          posPrev = _optimum[cur].PosPrev2;
          pos = _optimum[cur].BackPrev2;
          state = Base.StateUpdateRep(state);
        }
        else
        {
          pos = _optimum[cur].BackPrev;
          if (pos < Base.kNumRepDistances)
            state = Base.StateUpdateRep(state);
          else
            state = Base.StateUpdateMatch(state);
        }
        Optimal opt = _optimum[posPrev];
        if (pos < Base.kNumRepDistances)
        {
          if (pos == 0)
          {
            reps[0] = opt.Backs0;
            reps[1] = opt.Backs1;
            reps[2] = opt.Backs2;
            reps[3] = opt.Backs3;
          }
          else if (pos == 1)
          {
            reps[0] = opt.Backs1;
            reps[1] = opt.Backs0;
            reps[2] = opt.Backs2;
            reps[3] = opt.Backs3;
          }
          else if (pos == 2)
          {
            reps[0] = opt.Backs2;
            reps[1] = opt.Backs0;
            reps[2] = opt.Backs1;
            reps[3] = opt.Backs3;
          }
          else
          {
            reps[0] = opt.Backs3;
            reps[1] = opt.Backs0;
            reps[2] = opt.Backs1;
            reps[3] = opt.Backs2;
          }
        }
        else
        {
          reps[0] = (pos - Base.kNumRepDistances);
          reps[1] = opt.Backs0;
          reps[2] = opt.Backs1;
          reps[3] = opt.Backs2;
        }
      }
      _optimum[cur].State = state;
      _optimum[cur].Backs0 = reps[0];
      _optimum[cur].Backs1 = reps[1];
      _optimum[cur].Backs2 = reps[2];
      _optimum[cur].Backs3 = reps[3];
      int curPrice = _optimum[cur].Price;

      currentByte = _matchFinder.GetIndexByte(0 - 1);
      matchByte = _matchFinder.GetIndexByte(0 - reps[0] - 1 - 1);

      posState = (position & _posStateMask);

      int curAnd1Price = curPrice +
        SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isMatch[(state << Base.kNumPosStatesBitsMax) + posState]) +
        _literalEncoder.GetSubCoder(position, _matchFinder.GetIndexByte(0 - 2)).
        GetPrice(!Base.StateIsCharState(state), matchByte, currentByte);

      Optimal nextOptimum = _optimum[cur + 1];

      boolean nextIsChar = false;
      if (curAnd1Price < nextOptimum.Price)
      {
        nextOptimum.Price = curAnd1Price;
        nextOptimum.PosPrev = cur;
        nextOptimum.MakeAsChar();
        nextIsChar = true;
      }

      matchPrice = curPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isMatch[(state << Base.kNumPosStatesBitsMax) + posState]);
      repMatchPrice = matchPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRep[state]);

      if (matchByte == currentByte &&
        !(nextOptimum.PosPrev < cur && nextOptimum.BackPrev == 0))
      {
        int shortRepPrice = repMatchPrice + GetRepLen1Price(state, posState);
        if (shortRepPrice <= nextOptimum.Price)
        {
          nextOptimum.Price = shortRepPrice;
          nextOptimum.PosPrev = cur;
          nextOptimum.MakeAsShortRep();
          nextIsChar = true;
        }
      }

      int numAvailableBytesFull = _matchFinder.GetNumAvailableBytes() + 1;
      numAvailableBytesFull = Math.min(kNumOpts - 1 - cur, numAvailableBytesFull);
      numAvailableBytes = numAvailableBytesFull;

      if (numAvailableBytes < 2)
        continue;
      if (numAvailableBytes > _numFastBytes)
        numAvailableBytes = _numFastBytes;
      if (!nextIsChar && matchByte != currentByte)
      {
        // try Literal + rep0
        int t = Math.min(numAvailableBytesFull - 1, _numFastBytes);
        int lenTest2 = _matchFinder.GetMatchLen(0, reps[0], t);
        if (lenTest2 >= 2)
        {
          int state2 = Base.StateUpdateChar(state);

          int posStateNext = (position + 1) & _posStateMask;
          int nextRepMatchPrice = curAnd1Price +
            SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isMatch[(state2 << Base.kNumPosStatesBitsMax) + posStateNext]) +
            SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRep[state2]);
          {
            int offset = cur + 1 + lenTest2;
            while (lenEnd < offset)
              _optimum[++lenEnd].Price = kIfinityPrice;
            int curAndLenPrice = nextRepMatchPrice + GetRepPrice(
                0, lenTest2, state2, posStateNext);
            Optimal optimum = _optimum[offset];
            if (curAndLenPrice < optimum.Price)
            {
              optimum.Price = curAndLenPrice;
              optimum.PosPrev = cur + 1;
              optimum.BackPrev = 0;
              optimum.Prev1IsChar = true;
              optimum.Prev2 = false;
            }
          }
        }
      }

      int startLen = 2; // speed optimization

      for (int repIndex = 0; repIndex < Base.kNumRepDistances; repIndex++)
      {
        int lenTest = _matchFinder.GetMatchLen(0 - 1, reps[repIndex], numAvailableBytes);
        if (lenTest < 2)
          continue;
        int lenTestTemp = lenTest;
        do
        {
          while (lenEnd < cur + lenTest)
            _optimum[++lenEnd].Price = kIfinityPrice;
          int curAndLenPrice = repMatchPrice + GetRepPrice(repIndex, lenTest, state, posState);
          Optimal optimum = _optimum[cur + lenTest];
          if (curAndLenPrice < optimum.Price)
          {
            optimum.Price = curAndLenPrice;
            optimum.PosPrev = cur;
            optimum.BackPrev = repIndex;
            optimum.Prev1IsChar = false;
          }
        }
        while (--lenTest >= 2);
        lenTest = lenTestTemp;

        if (repIndex == 0)
          startLen = lenTest + 1;

        // if (_maxMode)
        if (lenTest < numAvailableBytesFull)
        {
          int t = Math.min(numAvailableBytesFull - 1 - lenTest, _numFastBytes);
          int lenTest2 = _matchFinder.GetMatchLen(lenTest, reps[repIndex], t);
          if (lenTest2 >= 2)
          {
            int state2 = Base.StateUpdateRep(state);

            int posStateNext = (position + lenTest) & _posStateMask;
            int curAndLenCharPrice =
                repMatchPrice + GetRepPrice(repIndex, lenTest, state, posState) +
                SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isMatch[(state2 << Base.kNumPosStatesBitsMax) + posStateNext]) +
                _literalEncoder.GetSubCoder(position + lenTest,
                _matchFinder.GetIndexByte(lenTest - 1 - 1)).GetPrice(true,
                _matchFinder.GetIndexByte(lenTest - 1 - (reps[repIndex] + 1)),
                _matchFinder.GetIndexByte(lenTest - 1));
            state2 = Base.StateUpdateChar(state2);
            posStateNext = (position + lenTest + 1) & _posStateMask;
            int nextMatchPrice = curAndLenCharPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isMatch[(state2 << Base.kNumPosStatesBitsMax) + posStateNext]);
            int nextRepMatchPrice = nextMatchPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRep[state2]);

            // for(; lenTest2 >= 2; lenTest2--)
            {
              int offset = lenTest + 1 + lenTest2;
              while (lenEnd < cur + offset)
                _optimum[++lenEnd].Price = kIfinityPrice;
              int curAndLenPrice = nextRepMatchPrice + GetRepPrice(0, lenTest2, state2, posStateNext);
              Optimal optimum = _optimum[cur + offset];
              if (curAndLenPrice < optimum.Price)
              {
                optimum.Price = curAndLenPrice;
                optimum.PosPrev = cur + lenTest + 1;
                optimum.BackPrev = 0;
                optimum.Prev1IsChar = true;
                optimum.Prev2 = true;
                optimum.PosPrev2 = cur;
                optimum.BackPrev2 = repIndex;
              }
            }
          }
        }
      }

      if (newLen > numAvailableBytes)
      {
        newLen = numAvailableBytes;
        for (numDistancePairs = 0; newLen > _matchDistances[numDistancePairs]; numDistancePairs += 2) ;
        _matchDistances[numDistancePairs] = newLen;
        numDistancePairs += 2;
      }
      if (newLen >= startLen)
      {
        normalMatchPrice = matchPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isRep[state]);
        while (lenEnd < cur + newLen)
          _optimum[++lenEnd].Price = kIfinityPrice;

        int offs = 0;
        while (startLen > _matchDistances[offs])
          offs += 2;

        for (int lenTest = startLen; ; lenTest++)
        {
          int curBack = _matchDistances[offs + 1];
          int curAndLenPrice = normalMatchPrice + GetPosLenPrice(curBack, lenTest, posState);
          Optimal optimum = _optimum[cur + lenTest];
          if (curAndLenPrice < optimum.Price)
          {
            optimum.Price = curAndLenPrice;
            optimum.PosPrev = cur;
            optimum.BackPrev = curBack + Base.kNumRepDistances;
            optimum.Prev1IsChar = false;
          }

          if (lenTest == _matchDistances[offs])
          {
            if (lenTest < numAvailableBytesFull)
            {
              int t = Math.min(numAvailableBytesFull - 1 - lenTest, _numFastBytes);
              int lenTest2 = _matchFinder.GetMatchLen(lenTest, curBack, t);
              if (lenTest2 >= 2)
              {
                int state2 = Base.StateUpdateMatch(state);

                int posStateNext = (position + lenTest) & _posStateMask;
                int curAndLenCharPrice = curAndLenPrice +
                  SevenZip.Compression.RangeCoder.Encoder.GetPrice0(_isMatch[(state2 << Base.kNumPosStatesBitsMax) + posStateNext]) +
                  _literalEncoder.GetSubCoder(position + lenTest,
                  _matchFinder.GetIndexByte(lenTest - 1 - 1)).
                  GetPrice(true,
                  _matchFinder.GetIndexByte(lenTest - (curBack + 1) - 1),
                  _matchFinder.GetIndexByte(lenTest - 1));
                state2 = Base.StateUpdateChar(state2);
                posStateNext = (position + lenTest + 1) & _posStateMask;
                int nextMatchPrice = curAndLenCharPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isMatch[(state2 << Base.kNumPosStatesBitsMax) + posStateNext]);
                int nextRepMatchPrice = nextMatchPrice + SevenZip.Compression.RangeCoder.Encoder.GetPrice1(_isRep[state2]);

                int offset = lenTest + 1 + lenTest2;
                while (lenEnd < cur + offset)
                  _optimum[++lenEnd].Price = kIfinityPrice;
                curAndLenPrice = nextRepMatchPrice + GetRepPrice(0, lenTest2, state2, posStateNext);
                optimum = _optimum[cur + offset];
                if (curAndLenPrice < optimum.Price)
                {
                  optimum.Price = curAndLenPrice;
                  optimum.PosPrev = cur + lenTest + 1;
                  optimum.BackPrev = 0;
                  optimum.Prev1IsChar = true;
                  optimum.Prev2 = true;
                  optimum.PosPrev2 = cur;
                  optimum.BackPrev2 = curBack + Base.kNumRepDistances;
                }
              }
            }
            offs += 2;
            if (offs == numDistancePairs)
              break;
          }
        }
      }
    }
  }

  boolean ChangePair(int smallDist, int bigDist)
  {
    int kDif = 7;
    return (smallDist < (1 << (32 - kDif)) && bigDist >= (smallDist << kDif));
  }

  void WriteEndMarker(int posState) throws IOException
  {
    if (!_writeEndMark)
      return;

    _rangeEncoder.Encode(_isMatch, (_state << Base.kNumPosStatesBitsMax) + posState, 1);
    _rangeEncoder.Encode(_isRep, _state, 0);
    _state = Base.StateUpdateMatch(_state);
    int len = Base.kMatchMinLen;
    _lenEncoder.Encode(_rangeEncoder, len - Base.kMatchMinLen, posState);
    int posSlot = (1 << Base.kNumPosSlotBits) - 1;
    int lenToPosState = Base.GetLenToPosState(len);
    _posSlotEncoder[lenToPosState].Encode(_rangeEncoder, posSlot);
    int footerBits = 30;
    int posReduced = (1 << footerBits) - 1;
    _rangeEncoder.EncodeDirectBits(posReduced >> Base.kNumAlignBits, footerBits - Base.kNumAlignBits);
    _posAlignEncoder.ReverseEncode(_rangeEncoder, posReduced & Base.kAlignMask);
  }

  void Flush(int nowPos) throws IOException
  {
    ReleaseMFStream();
    WriteEndMarker(nowPos & _posStateMask);
    _rangeEncoder.FlushData();
    _rangeEncoder.FlushStream();
  }

  public void CodeOneBlock(long[] inSize, long[] outSize, boolean[] finished) throws IOException
  {
    inSize[0] = 0;
    outSize[0] = 0;
    finished[0] = true;

    if (_inStream != null)
    {
      _matchFinder.SetStream(_inStream);
      _matchFinder.Init();
      _needReleaseMFStream = true;
      _inStream = null;
    }

    if (_finished)
      return;
    _finished = true;


    long progressPosValuePrev = nowPos64;
    if (nowPos64 == 0)
    {
      if (_matchFinder.GetNumAvailableBytes() == 0)
      {
        Flush((int)nowPos64);
        return;
      }

      ReadMatchDistances();
      int posState = (int)(nowPos64) & _posStateMask;
      _rangeEncoder.Encode(_isMatch, (_state << Base.kNumPosStatesBitsMax) + posState, 0);
      _state = Base.StateUpdateChar(_state);
      byte curByte = _matchFinder.GetIndexByte(0 - _additionalOffset);
      _literalEncoder.GetSubCoder((int)(nowPos64), _previousByte).Encode(_rangeEncoder, curByte);
      _previousByte = curByte;
      _additionalOffset--;
      nowPos64++;
    }
    if (_matchFinder.GetNumAvailableBytes() == 0)
    {
      Flush((int)nowPos64);
      return;
    }
    while (true)
    {

      int len = GetOptimum((int)nowPos64);
      int pos = backRes;
      int posState = ((int)nowPos64) & _posStateMask;
      int complexState = (_state << Base.kNumPosStatesBitsMax) + posState;
      if (len == 1 && pos == -1)
      {
        _rangeEncoder.Encode(_isMatch, complexState, 0);
        byte curByte = _matchFinder.GetIndexByte((int)(0 - _additionalOffset));
        LiteralEncoder.Encoder2 subCoder = _literalEncoder.GetSubCoder((int)nowPos64, _previousByte);
        if (!Base.StateIsCharState(_state))
        {
          byte matchByte = _matchFinder.GetIndexByte((int)(0 - _repDistances[0] - 1 - _additionalOffset));
          subCoder.EncodeMatched(_rangeEncoder, matchByte, curByte);
        }
        else
          subCoder.Encode(_rangeEncoder, curByte);
        _previousByte = curByte;
        _state = Base.StateUpdateChar(_state);
      }
      else
      {
        _rangeEncoder.Encode(_isMatch, complexState, 1);
        if (pos < Base.kNumRepDistances)
        {
          _rangeEncoder.Encode(_isRep, _state, 1);
          if (pos == 0)
          {
            _rangeEncoder.Encode(_isRepG0, _state, 0);
            if (len == 1)
              _rangeEncoder.Encode(_isRep0Long, complexState, 0);
            else
              _rangeEncoder.Encode(_isRep0Long, complexState, 1);
          }
          else
          {
            _rangeEncoder.Encode(_isRepG0, _state, 1);
            if (pos == 1)
              _rangeEncoder.Encode(_isRepG1, _state, 0);
            else
            {
              _rangeEncoder.Encode(_isRepG1, _state, 1);
              _rangeEncoder.Encode(_isRepG2, _state, pos - 2);
            }
          }
          if (len == 1)
            _state = Base.StateUpdateShortRep(_state);
          else
          {
            _repMatchLenEncoder.Encode(_rangeEncoder, len - Base.kMatchMinLen, posState);
            _state = Base.StateUpdateRep(_state);
          }
          int distance = _repDistances[pos];
          if (pos != 0)
          {
            for (int i = pos; i >= 1; i--)
              _repDistances[i] = _repDistances[i - 1];
            _repDistances[0] = distance;
          }
        }
        else
        {
          _rangeEncoder.Encode(_isRep, _state, 0);
          _state = Base.StateUpdateMatch(_state);
          _lenEncoder.Encode(_rangeEncoder, len - Base.kMatchMinLen, posState);
          pos -= Base.kNumRepDistances;
          int posSlot = GetPosSlot(pos);
          int lenToPosState = Base.GetLenToPosState(len);
          _posSlotEncoder[lenToPosState].Encode(_rangeEncoder, posSlot);

          if (posSlot >= Base.kStartPosModelIndex)
          {
            int footerBits = (int)((posSlot >> 1) - 1);
            int baseVal = ((2 | (posSlot & 1)) << footerBits);
            int posReduced = pos - baseVal;

            if (posSlot < Base.kEndPosModelIndex)
              BitTreeEncoder.ReverseEncode(_posEncoders,
                  baseVal - posSlot - 1, _rangeEncoder, footerBits, posReduced);
            else
            {
              _rangeEncoder.EncodeDirectBits(posReduced >> Base.kNumAlignBits, footerBits - Base.kNumAlignBits);
              _posAlignEncoder.ReverseEncode(_rangeEncoder, posReduced & Base.kAlignMask);
              _alignPriceCount++;
            }
          }
          int distance = pos;
          for (int i = Base.kNumRepDistances - 1; i >= 1; i--)
            _repDistances[i] = _repDistances[i - 1];
          _repDistances[0] = distance;
          _matchPriceCount++;
        }
        _previousByte = _matchFinder.GetIndexByte(len - 1 - _additionalOffset);
      }
      _additionalOffset -= len;
      nowPos64 += len;
      if (_additionalOffset == 0)
      {
        // if (!_fastMode)
        if (_matchPriceCount >= (1 << 7))
          FillDistancesPrices();
        if (_alignPriceCount >= Base.kAlignTableSize)
          FillAlignPrices();
        inSize[0] = nowPos64;
        outSize[0] = _rangeEncoder.GetProcessedSizeAdd();
        if (_matchFinder.GetNumAvailableBytes() == 0)
        {
          Flush((int)nowPos64);
          return;
        }

        if (nowPos64 - progressPosValuePrev >= (1 << 12))
        {
          _finished = false;
          finished[0] = false;
          return;
        }
      }
    }
  }

  void ReleaseMFStream()
  {
    if (_matchFinder != null && _needReleaseMFStream)
    {
      _matchFinder.ReleaseStream();
      _needReleaseMFStream = false;
    }
  }

  void SetOutStream(java.io.OutputStream outStream)
  { _rangeEncoder.SetStream(outStream); }
  void ReleaseOutStream()
  { _rangeEncoder.ReleaseStream(); }

  void ReleaseStreams()
  {
    ReleaseMFStream();
    ReleaseOutStream();
  }

  void SetStreams(java.io.InputStream inStream, java.io.OutputStream outStream,
      long inSize, long outSize)
  {
    _inStream = inStream;
    _finished = false;
    Create();
    SetOutStream(outStream);
    Init();

    // if (!_fastMode)
    {
      FillDistancesPrices();
      FillAlignPrices();
    }

    _lenEncoder.SetTableSize(_numFastBytes + 1 - Base.kMatchMinLen);
    _lenEncoder.UpdateTables(1 << _posStateBits);
    _repMatchLenEncoder.SetTableSize(_numFastBytes + 1 - Base.kMatchMinLen);
    _repMatchLenEncoder.UpdateTables(1 << _posStateBits);

    nowPos64 = 0;
  }

  long[] processedInSize = new long[1]; long[] processedOutSize = new long[1]; boolean[] finished = new boolean[1];
  public void Code(java.io.InputStream inStream, java.io.OutputStream outStream,
      long inSize, long outSize, ICodeProgress progress) throws IOException
  {
    _needReleaseMFStream = false;
    try
    {
      SetStreams(inStream, outStream, inSize, outSize);
      while (true)
      {



        CodeOneBlock(processedInSize, processedOutSize, finished);
        if (finished[0])
          return;
        if (progress != null)
        {
          progress.SetProgress(processedInSize[0], processedOutSize[0]);
        }
      }
    }
    finally
    {
      ReleaseStreams();
    }
  }

  public static final int kPropSize = 5;
  byte[] properties = new byte[kPropSize];

  public void WriteCoderProperties(java.io.OutputStream outStream) throws IOException
  {
    properties[0] = (byte)((_posStateBits * 5 + _numLiteralPosStateBits) * 9 + _numLiteralContextBits);
    for (int i = 0; i < 4; i++)
      properties[1 + i] = (byte)(_dictionarySize >> (8 * i));
    outStream.write(properties, 0, kPropSize);
  }

  int[] tempPrices = new int[Base.kNumFullDistances];
  int _matchPriceCount;

  void FillDistancesPrices()
  {
    for (int i = Base.kStartPosModelIndex; i < Base.kNumFullDistances; i++)
    {
      int posSlot = GetPosSlot(i);
      int footerBits = (int)((posSlot >> 1) - 1);
      int baseVal = ((2 | (posSlot & 1)) << footerBits);
      tempPrices[i] = BitTreeEncoder.ReverseGetPrice(_posEncoders,
        baseVal - posSlot - 1, footerBits, i - baseVal);
    }

    for (int lenToPosState = 0; lenToPosState < Base.kNumLenToPosStates; lenToPosState++)
    {
      int posSlot;
      BitTreeEncoder encoder = _posSlotEncoder[lenToPosState];

      int st = (lenToPosState << Base.kNumPosSlotBits);
      for (posSlot = 0; posSlot < _distTableSize; posSlot++)
        _posSlotPrices[st + posSlot] = encoder.GetPrice(posSlot);
      for (posSlot = Base.kEndPosModelIndex; posSlot < _distTableSize; posSlot++)
        _posSlotPrices[st + posSlot] += ((((posSlot >> 1) - 1) - Base.kNumAlignBits) << SevenZip.Compression.RangeCoder.Encoder.kNumBitPriceShiftBits);

      int st2 = lenToPosState * Base.kNumFullDistances;
      int i;
      for (i = 0; i < Base.kStartPosModelIndex; i++)
        _distancesPrices[st2 + i] = _posSlotPrices[st + i];
      for (; i < Base.kNumFullDistances; i++)
        _distancesPrices[st2 + i] = _posSlotPrices[st + GetPosSlot(i)] + tempPrices[i];
    }
    _matchPriceCount = 0;
  }

  void FillAlignPrices()
  {
    for (int i = 0; i < Base.kAlignTableSize; i++)
      _alignPrices[i] = _posAlignEncoder.ReverseGetPrice(i);
    _alignPriceCount = 0;
  }


  public boolean SetAlgorithm(int algorithm)
  {
    /*
    _fastMode = (algorithm == 0);
    _maxMode = (algorithm >= 2);
    */
    return true;
  }

  public boolean SetDictionarySize(int dictionarySize)
  {
    int kDicLogSizeMaxCompress = 29;
    if (dictionarySize < (1 << Base.kDicLogSizeMin) || dictionarySize > (1 << kDicLogSizeMaxCompress))
      return false;
    _dictionarySize = dictionarySize;
    int dicLogSize;
    for (dicLogSize = 0; dictionarySize > (1 << dicLogSize); dicLogSize++) ;
    _distTableSize = dicLogSize * 2;
    return true;
  }

  public boolean SetNumFastBytes(int numFastBytes)
  {
    if (numFastBytes < 5 || numFastBytes > Base.kMatchMaxLen)
      return false;
    _numFastBytes = numFastBytes;
    return true;
  }

  public boolean SetMatchFinder(int matchFinderIndex)
  {
    if (matchFinderIndex < 0 || matchFinderIndex > 2)
      return false;
    int matchFinderIndexPrev = _matchFinderType;
    _matchFinderType = matchFinderIndex;
    if (_matchFinder != null && matchFinderIndexPrev != _matchFinderType)
    {
      _dictionarySizePrev = -1;
      _matchFinder = null;
    }
    return true;
  }

  public boolean SetLcLpPb(int lc, int lp, int pb)
  {
    if (
        lp < 0 || lp > Base.kNumLitPosStatesBitsEncodingMax ||
        lc < 0 || lc > Base.kNumLitContextBitsMax ||
        pb < 0 || pb > Base.kNumPosStatesBitsEncodingMax)
      return false;
    _numLiteralPosStateBits = lp;
    _numLiteralContextBits = lc;
    _posStateBits = pb;
    _posStateMask = ((1) << _posStateBits) - 1;
    return true;
  }

  public void SetEndMarkerMode(boolean endMarkerMode)
  {
    _writeEndMark = endMarkerMode;
  }
}