// x86_2.cpp #include "StdAfx.h" #include "x86_2.h" extern "C" { #include "../../../../C/Alloc.h" } namespace NCompress { namespace NBcj2 { inline bool IsJcc(Byte b0, Byte b1) { return (b0 == 0x0F && (b1 & 0xF0) == 0x80); } inline bool IsJ(Byte b0, Byte b1) { return ((b1 & 0xFE) == 0xE8 || IsJcc(b0, b1)); } inline unsigned GetIndex(Byte b0, Byte b1) { return ((b1 == 0xE8) ? b0 : ((b1 == 0xE9) ? 256 : 257)); } #ifndef EXTRACT_ONLY static const int kBufferSize = 1 << 17; static bool inline Test86MSByte(Byte b) { return (b == 0 || b == 0xFF); } bool CEncoder::Create() { if (!_mainStream.Create(1 << 16)) return false; if (!_callStream.Create(1 << 20)) return false; if (!_jumpStream.Create(1 << 20)) return false; if (!_rangeEncoder.Create(1 << 20)) return false; if (_buffer == 0) { _buffer = (Byte *)MidAlloc(kBufferSize); if (_buffer == 0) return false; } return true; } CEncoder::~CEncoder() { ::MidFree(_buffer); } HRESULT CEncoder::Flush() { RINOK(_mainStream.Flush()); RINOK(_callStream.Flush()); RINOK(_jumpStream.Flush()); _rangeEncoder.FlushData(); return _rangeEncoder.FlushStream(); } const UInt32 kDefaultLimit = (1 << 24); HRESULT CEncoder::CodeReal(ISequentialInStream **inStreams, const UInt64 **inSizes, UInt32 numInStreams, ISequentialOutStream **outStreams, const UInt64 ** /* outSizes */, UInt32 numOutStreams, ICompressProgressInfo *progress) { if (numInStreams != 1 || numOutStreams != 4) return E_INVALIDARG; if (!Create()) return E_OUTOFMEMORY; bool sizeIsDefined = false; UInt64 inSize = 0; if (inSizes != NULL) if (inSizes[0] != NULL) { inSize = *inSizes[0]; if (inSize <= kDefaultLimit) sizeIsDefined = true; } ISequentialInStream *inStream = inStreams[0]; _mainStream.SetStream(outStreams[0]); _mainStream.Init(); _callStream.SetStream(outStreams[1]); _callStream.Init(); _jumpStream.SetStream(outStreams[2]); _jumpStream.Init(); _rangeEncoder.SetStream(outStreams[3]); _rangeEncoder.Init(); for (int i = 0; i < 256 + 2; i++) _statusEncoder[i].Init(); CCoderReleaser releaser(this); CMyComPtr getSubStreamSize; { inStream->QueryInterface(IID_ICompressGetSubStreamSize, (void **)&getSubStreamSize); } UInt32 nowPos = 0; UInt64 nowPos64 = 0; UInt32 bufferPos = 0; Byte prevByte = 0; UInt64 subStreamIndex = 0; UInt64 subStreamStartPos = 0; UInt64 subStreamEndPos = 0; for (;;) { UInt32 processedSize = 0; for (;;) { UInt32 size = kBufferSize - (bufferPos + processedSize); UInt32 processedSizeLoc; if (size == 0) break; RINOK(inStream->Read(_buffer + bufferPos + processedSize, size, &processedSizeLoc)); if (processedSizeLoc == 0) break; processedSize += processedSizeLoc; } UInt32 endPos = bufferPos + processedSize; if (endPos < 5) { // change it for (bufferPos = 0; bufferPos < endPos; bufferPos++) { Byte b = _buffer[bufferPos]; _mainStream.WriteByte(b); UInt32 index; if (b == 0xE8) index = prevByte; else if (b == 0xE9) index = 256; else if (IsJcc(prevByte, b)) index = 257; else { prevByte = b; continue; } _statusEncoder[index].Encode(&_rangeEncoder, 0); prevByte = b; } return Flush(); } bufferPos = 0; UInt32 limit = endPos - 5; while(bufferPos <= limit) { Byte b = _buffer[bufferPos]; _mainStream.WriteByte(b); if (!IsJ(prevByte, b)) { bufferPos++; prevByte = b; continue; } Byte nextByte = _buffer[bufferPos + 4]; UInt32 src = (UInt32(nextByte) << 24) | (UInt32(_buffer[bufferPos + 3]) << 16) | (UInt32(_buffer[bufferPos + 2]) << 8) | (_buffer[bufferPos + 1]); UInt32 dest = (nowPos + bufferPos + 5) + src; // if (Test86MSByte(nextByte)) bool convert; if (getSubStreamSize != NULL) { UInt64 currentPos = (nowPos64 + bufferPos); while (subStreamEndPos < currentPos) { UInt64 subStreamSize; HRESULT result = getSubStreamSize->GetSubStreamSize(subStreamIndex, &subStreamSize); if (result == S_OK) { subStreamStartPos = subStreamEndPos; subStreamEndPos += subStreamSize; subStreamIndex++; } else if (result == S_FALSE || result == E_NOTIMPL) { getSubStreamSize.Release(); subStreamStartPos = 0; subStreamEndPos = subStreamStartPos - 1; } else return result; } if (getSubStreamSize == NULL) { if (sizeIsDefined) convert = (dest < inSize); else convert = Test86MSByte(nextByte); } else if (subStreamEndPos - subStreamStartPos > kDefaultLimit) convert = Test86MSByte(nextByte); else { UInt64 dest64 = (currentPos + 5) + Int64(Int32(src)); convert = (dest64 >= subStreamStartPos && dest64 < subStreamEndPos); } } else if (sizeIsDefined) convert = (dest < inSize); else convert = Test86MSByte(nextByte); unsigned index = GetIndex(prevByte, b); if (convert) { _statusEncoder[index].Encode(&_rangeEncoder, 1); bufferPos += 5; COutBuffer &s = (b == 0xE8) ? _callStream : _jumpStream; for (int i = 24; i >= 0; i -= 8) s.WriteByte((Byte)(dest >> i)); prevByte = nextByte; } else { _statusEncoder[index].Encode(&_rangeEncoder, 0); bufferPos++; prevByte = b; } } nowPos += bufferPos; nowPos64 += bufferPos; if (progress != NULL) { /* const UInt64 compressedSize = _mainStream.GetProcessedSize() + _callStream.GetProcessedSize() + _jumpStream.GetProcessedSize() + _rangeEncoder.GetProcessedSize(); */ RINOK(progress->SetRatioInfo(&nowPos64, NULL)); } UInt32 i = 0; while(bufferPos < endPos) _buffer[i++] = _buffer[bufferPos++]; bufferPos = i; } } STDMETHODIMP CEncoder::Code(ISequentialInStream **inStreams, const UInt64 **inSizes, UInt32 numInStreams, ISequentialOutStream **outStreams, const UInt64 **outSizes, UInt32 numOutStreams, ICompressProgressInfo *progress) { try { return CodeReal(inStreams, inSizes, numInStreams, outStreams, outSizes,numOutStreams, progress); } catch(const COutBufferException &e) { return e.ErrorCode; } catch(...) { return S_FALSE; } } #endif HRESULT CDecoder::CodeReal(ISequentialInStream **inStreams, const UInt64 ** /* inSizes */, UInt32 numInStreams, ISequentialOutStream **outStreams, const UInt64 ** /* outSizes */, UInt32 numOutStreams, ICompressProgressInfo *progress) { if (numInStreams != 4 || numOutStreams != 1) return E_INVALIDARG; if (!_mainInStream.Create(1 << 16)) return E_OUTOFMEMORY; if (!_callStream.Create(1 << 20)) return E_OUTOFMEMORY; if (!_jumpStream.Create(1 << 16)) return E_OUTOFMEMORY; if (!_rangeDecoder.Create(1 << 20)) return E_OUTOFMEMORY; if (!_outStream.Create(1 << 16)) return E_OUTOFMEMORY; _mainInStream.SetStream(inStreams[0]); _callStream.SetStream(inStreams[1]); _jumpStream.SetStream(inStreams[2]); _rangeDecoder.SetStream(inStreams[3]); _outStream.SetStream(outStreams[0]); _mainInStream.Init(); _callStream.Init(); _jumpStream.Init(); _rangeDecoder.Init(); _outStream.Init(); for (int i = 0; i < 256 + 2; i++) _statusDecoder[i].Init(); CCoderReleaser releaser(this); Byte prevByte = 0; UInt32 processedBytes = 0; for (;;) { if (processedBytes >= (1 << 20) && progress != NULL) { /* const UInt64 compressedSize = _mainInStream.GetProcessedSize() + _callStream.GetProcessedSize() + _jumpStream.GetProcessedSize() + _rangeDecoder.GetProcessedSize(); */ const UInt64 nowPos64 = _outStream.GetProcessedSize(); RINOK(progress->SetRatioInfo(NULL, &nowPos64)); processedBytes = 0; } UInt32 i; Byte b = 0; const UInt32 kBurstSize = (1 << 18); for (i = 0; i < kBurstSize; i++) { if (!_mainInStream.ReadByte(b)) return Flush(); _outStream.WriteByte(b); if (IsJ(prevByte, b)) break; prevByte = b; } processedBytes += i; if (i == kBurstSize) continue; unsigned index = GetIndex(prevByte, b); if (_statusDecoder[index].Decode(&_rangeDecoder) == 1) { UInt32 src = 0; CInBuffer &s = (b == 0xE8) ? _callStream : _jumpStream; for (int i = 0; i < 4; i++) { Byte b0; if(!s.ReadByte(b0)) return S_FALSE; src <<= 8; src |= ((UInt32)b0); } UInt32 dest = src - (UInt32(_outStream.GetProcessedSize()) + 4) ; _outStream.WriteByte((Byte)(dest)); _outStream.WriteByte((Byte)(dest >> 8)); _outStream.WriteByte((Byte)(dest >> 16)); _outStream.WriteByte((Byte)(dest >> 24)); prevByte = (Byte)(dest >> 24); processedBytes += 4; } else prevByte = b; } } STDMETHODIMP CDecoder::Code(ISequentialInStream **inStreams, const UInt64 **inSizes, UInt32 numInStreams, ISequentialOutStream **outStreams, const UInt64 **outSizes, UInt32 numOutStreams, ICompressProgressInfo *progress) { try { return CodeReal(inStreams, inSizes, numInStreams, outStreams, outSizes,numOutStreams, progress); } catch(const CInBufferException &e) { return e.ErrorCode; } catch(const COutBufferException &e) { return e.ErrorCode; } catch(...) { return S_FALSE; } } }}