// LzmaDecoder.cpp #include "StdAfx.h" #include "../../../C/Alloc.h" #include "../Common/StreamUtils.h" #include "LzmaDecoder.h" static HRESULT SResToHRESULT(SRes res) { switch(res) { case SZ_OK: return S_OK; case SZ_ERROR_MEM: return E_OUTOFMEMORY; case SZ_ERROR_PARAM: return E_INVALIDARG; case SZ_ERROR_UNSUPPORTED: return E_NOTIMPL; case SZ_ERROR_DATA: return S_FALSE; } return E_FAIL; } namespace NCompress { namespace NLzma { static const UInt32 kInBufSize = 1 << 20; CDecoder::CDecoder(): _inBuf(0), _propsWereSet(false), _outSizeDefined(false), FinishStream(false) { _inSizeProcessed = 0; _inPos = _inSize = 0; LzmaDec_Construct(&_state); } static void *SzAlloc(void *p, size_t size) { p = p; return MyAlloc(size); } static void SzFree(void *p, void *address) { p = p; MyFree(address); } static ISzAlloc g_Alloc = { SzAlloc, SzFree }; CDecoder::~CDecoder() { LzmaDec_Free(&_state, &g_Alloc); MyFree(_inBuf); } HRESULT CDecoder::CreateInputBuffer() { if (_inBuf == 0) { _inBuf = (Byte *)MyAlloc(kInBufSize); if (_inBuf == 0) return E_OUTOFMEMORY; } return S_OK; } STDMETHODIMP CDecoder::SetDecoderProperties2(const Byte *prop, UInt32 size) { RINOK(SResToHRESULT(LzmaDec_Allocate(&_state, prop, size, &g_Alloc))); _propsWereSet = true; return CreateInputBuffer(); } void CDecoder::SetOutStreamSizeResume(const UInt64 *outSize) { _outSizeDefined = (outSize != NULL); if (_outSizeDefined) _outSize = *outSize; _outSizeProcessed = 0; LzmaDec_Init(&_state); } STDMETHODIMP CDecoder::SetOutStreamSize(const UInt64 *outSize) { _inSizeProcessed = 0; _inPos = _inSize = 0; SetOutStreamSizeResume(outSize); return S_OK; } HRESULT CDecoder::CodeSpec(ISequentialInStream *inStream, ISequentialOutStream *outStream, ICompressProgressInfo *progress) { if (_inBuf == 0 || !_propsWereSet) return S_FALSE; UInt64 startInProgress = _inSizeProcessed; for (;;) { if (_inPos == _inSize) { _inPos = _inSize = 0; RINOK(inStream->Read(_inBuf, kInBufSize, &_inSize)); } SizeT dicPos = _state.dicPos; SizeT curSize = _state.dicBufSize - dicPos; const UInt32 kStepSize = ((UInt32)1 << 22); if (curSize > kStepSize) curSize = (SizeT)kStepSize; ELzmaFinishMode finishMode = LZMA_FINISH_ANY; if (_outSizeDefined) { const UInt64 rem = _outSize - _outSizeProcessed; if (rem < curSize) { curSize = (SizeT)rem; if (FinishStream) finishMode = LZMA_FINISH_END; } } SizeT inSizeProcessed = _inSize - _inPos; ELzmaStatus status; SRes res = LzmaDec_DecodeToDic(&_state, dicPos + curSize, _inBuf + _inPos, &inSizeProcessed, finishMode, &status); _inPos += (UInt32)inSizeProcessed; _inSizeProcessed += inSizeProcessed; SizeT outSizeProcessed = _state.dicPos - dicPos; _outSizeProcessed += outSizeProcessed; bool finished = (inSizeProcessed == 0 && outSizeProcessed == 0); bool stopDecoding = (_outSizeDefined && _outSizeProcessed >= _outSize); if (res != 0 || _state.dicPos == _state.dicBufSize || finished || stopDecoding) { HRESULT res2 = WriteStream(outStream, _state.dic, _state.dicPos); if (res != 0) return S_FALSE; RINOK(res2); if (stopDecoding) return S_OK; if (finished) return (status == LZMA_STATUS_FINISHED_WITH_MARK ? S_OK : S_FALSE); } if (_state.dicPos == _state.dicBufSize) _state.dicPos = 0; if (progress) { UInt64 inSize = _inSizeProcessed - startInProgress; RINOK(progress->SetRatioInfo(&inSize, &_outSizeProcessed)); } } } STDMETHODIMP CDecoder::Code(ISequentialInStream *inStream, ISequentialOutStream *outStream, const UInt64 * /* inSize */, const UInt64 *outSize, ICompressProgressInfo *progress) { SetOutStreamSize(outSize); return CodeSpec(inStream, outStream, progress); } #ifndef NO_READ_FROM_CODER STDMETHODIMP CDecoder::SetInStream(ISequentialInStream *inStream) { _inStream = inStream; return S_OK; } STDMETHODIMP CDecoder::ReleaseInStream() { _inStream.Release(); return S_OK; } STDMETHODIMP CDecoder::Read(void *data, UInt32 size, UInt32 *processedSize) { if (processedSize) *processedSize = 0; do { if (_inPos == _inSize) { _inPos = _inSize = 0; RINOK(_inStream->Read(_inBuf, kInBufSize, &_inSize)); } { SizeT inProcessed = _inSize - _inPos; if (_outSizeDefined) { const UInt64 rem = _outSize - _outSizeProcessed; if (rem < size) size = (UInt32)rem; } SizeT outProcessed = size; ELzmaStatus status; SRes res = LzmaDec_DecodeToBuf(&_state, (Byte *)data, &outProcessed, _inBuf + _inPos, &inProcessed, LZMA_FINISH_ANY, &status); _inPos += (UInt32)inProcessed; _inSizeProcessed += inProcessed; _outSizeProcessed += outProcessed; size -= (UInt32)outProcessed; data = (Byte *)data + outProcessed; if (processedSize) *processedSize += (UInt32)outProcessed; RINOK(SResToHRESULT(res)); if (inProcessed == 0 && outProcessed == 0) return S_OK; } } while (size != 0); return S_OK; } HRESULT CDecoder::CodeResume(ISequentialOutStream *outStream, const UInt64 *outSize, ICompressProgressInfo *progress) { SetOutStreamSizeResume(outSize); return CodeSpec(_inStream, outStream, progress); } HRESULT CDecoder::ReadFromInputStream(void *data, UInt32 size, UInt32 *processedSize) { RINOK(CreateInputBuffer()); if (processedSize) *processedSize = 0; while (size > 0) { if (_inPos == _inSize) { _inPos = _inSize = 0; RINOK(_inStream->Read(_inBuf, kInBufSize, &_inSize)); if (_inSize == 0) break; } { UInt32 curSize = _inSize - _inPos; if (curSize > size) curSize = size; memcpy(data, _inBuf + _inPos, curSize); _inPos += curSize; _inSizeProcessed += curSize; size -= curSize; data = (Byte *)data + curSize; if (processedSize) *processedSize += curSize; } } return S_OK; } #endif }}