// MethodProps.h #ifndef __7Z_METHOD_PROPS_H #define __7Z_METHOD_PROPS_H #include "../../Common/MyString.h" #include "../../Common/Defs.h" #include "../../Windows/Defs.h" #include "../../Windows/PropVariant.h" #include "../ICoder.h" bool StringToBool(const wchar_t *s, bool &res); HRESULT PROPVARIANT_to_bool(const PROPVARIANT &prop, bool &dest); unsigned ParseStringToUInt32(const UString &srcString, UInt32 &number); HRESULT ParsePropToUInt32(const UString &name, const PROPVARIANT &prop, UInt32 &resValue); HRESULT ParseMtProp(const UString &name, const PROPVARIANT &prop, UInt32 defaultNumThreads, UInt32 &numThreads); struct CProp { PROPID Id; bool IsOptional; NWindows::NCOM::CPropVariant Value; CProp(): IsOptional(false) {} }; struct CProps { CObjectVector Props; void Clear() { Props.Clear(); } bool AreThereNonOptionalProps() const { FOR_VECTOR (i, Props) if (!Props[i].IsOptional) return true; return false; } void AddProp32(PROPID propid, UInt32 val); void AddPropBool(PROPID propid, bool val); void AddProp_Ascii(PROPID propid, const char *s) { CProp &prop = Props.AddNew(); prop.IsOptional = true; prop.Id = propid; prop.Value = s; } HRESULT SetCoderProps(ICompressSetCoderProperties *scp, const UInt64 *dataSizeReduce) const; }; class CMethodProps: public CProps { HRESULT SetParam(const UString &name, const UString &value); public: int GetLevel() const; int Get_NumThreads() const { int i = FindProp(NCoderPropID::kNumThreads); if (i >= 0) if (Props[i].Value.vt == VT_UI4) return (int)Props[i].Value.ulVal; return -1; } bool Get_DicSize(UInt32 &res) const { res = 0; int i = FindProp(NCoderPropID::kDictionarySize); if (i >= 0) if (Props[i].Value.vt == VT_UI4) { res = Props[i].Value.ulVal; return true; } return false; } int FindProp(PROPID id) const; UInt32 Get_Lzma_Algo() const { int i = FindProp(NCoderPropID::kAlgorithm); if (i >= 0) if (Props[i].Value.vt == VT_UI4) return Props[i].Value.ulVal; return GetLevel() >= 5 ? 1 : 0; } UInt32 Get_Lzma_DicSize() const { int i = FindProp(NCoderPropID::kDictionarySize); if (i >= 0) if (Props[i].Value.vt == VT_UI4) return Props[i].Value.ulVal; int level = GetLevel(); return level <= 5 ? (1 << (level * 2 + 14)) : (level == 6 ? (1 << 25) : (1 << 26)); } bool Get_Lzma_Eos() const { int i = FindProp(NCoderPropID::kEndMarker); if (i >= 0) { const NWindows::NCOM::CPropVariant &val = Props[i].Value; if (val.vt == VT_BOOL) return VARIANT_BOOLToBool(val.boolVal); } return false; } bool Are_Lzma_Model_Props_Defined() const { if (FindProp(NCoderPropID::kPosStateBits) >= 0) return true; if (FindProp(NCoderPropID::kLitContextBits) >= 0) return true; if (FindProp(NCoderPropID::kLitPosBits) >= 0) return true; return false; } UInt32 Get_Lzma_NumThreads() const { if (Get_Lzma_Algo() == 0) return 1; int numThreads = Get_NumThreads(); if (numThreads >= 0) return numThreads < 2 ? 1 : 2; return 2; } int Get_Xz_NumThreads(UInt32 &lzmaThreads) const { lzmaThreads = 1; int numThreads = Get_NumThreads(); if (numThreads >= 0 && numThreads <= 1) return 1; if (Get_Lzma_Algo() != 0) lzmaThreads = 2; return numThreads; } UInt64 GetProp_BlockSize(PROPID id) const { int i = FindProp(id); if (i >= 0) { const NWindows::NCOM::CPropVariant &val = Props[i].Value; if (val.vt == VT_UI4) { return val.ulVal; } if (val.vt == VT_UI8) { return val.uhVal.QuadPart; } } return 0; } UInt64 Get_Xz_BlockSize() const { { UInt64 blockSize1 = GetProp_BlockSize(NCoderPropID::kBlockSize); UInt64 blockSize2 = GetProp_BlockSize(NCoderPropID::kBlockSize2); UInt64 minSize = MyMin(blockSize1, blockSize2); if (minSize != 0) return minSize; UInt64 maxSize = MyMax(blockSize1, blockSize2); if (maxSize != 0) return maxSize; } const UInt32 kMinSize = (UInt32)1 << 20; const UInt32 kMaxSize = (UInt32)1 << 28; UInt32 dictSize = Get_Lzma_DicSize(); UInt64 blockSize = (UInt64)dictSize << 2; if (blockSize < kMinSize) blockSize = kMinSize; if (blockSize > kMaxSize) blockSize = kMaxSize; if (blockSize < dictSize) blockSize = dictSize; blockSize += (kMinSize - 1); blockSize &= ~(UInt64)(kMinSize - 1); return blockSize; } UInt32 Get_BZip2_NumThreads(bool &fixedNumber) const { fixedNumber = false; int numThreads = Get_NumThreads(); if (numThreads >= 0) { fixedNumber = true; if (numThreads < 1) return 1; const unsigned kNumBZip2ThreadsMax = 64; if (numThreads > kNumBZip2ThreadsMax) return kNumBZip2ThreadsMax; return numThreads; } return 1; } UInt32 Get_BZip2_BlockSize() const { int i = FindProp(NCoderPropID::kDictionarySize); if (i >= 0) if (Props[i].Value.vt == VT_UI4) { UInt32 blockSize = Props[i].Value.ulVal; const UInt32 kDicSizeMin = 100000; const UInt32 kDicSizeMax = 900000; if (blockSize < kDicSizeMin) blockSize = kDicSizeMin; if (blockSize > kDicSizeMax) blockSize = kDicSizeMax; return blockSize; } int level = GetLevel(); return 100000 * (level >= 5 ? 9 : (level >= 1 ? level * 2 - 1: 1)); } UInt32 Get_Ppmd_MemSize() const { int i = FindProp(NCoderPropID::kUsedMemorySize); if (i >= 0) if (Props[i].Value.vt == VT_UI4) return Props[i].Value.ulVal; int level = GetLevel(); return level >= 9 ? (192 << 20) : ((UInt32)1 << (level + 19)); } void AddProp_Level(UInt32 level) { AddProp32(NCoderPropID::kLevel, level); } void AddProp_NumThreads(UInt32 numThreads) { AddProp32(NCoderPropID::kNumThreads, numThreads); } void AddProp_EndMarker_if_NotFound(bool eos) { if (FindProp(NCoderPropID::kEndMarker) < 0) AddPropBool(NCoderPropID::kEndMarker, eos); } HRESULT ParseParamsFromString(const UString &srcString); HRESULT ParseParamsFromPROPVARIANT(const UString &realName, const PROPVARIANT &value); }; class COneMethodInfo: public CMethodProps { public: AString MethodName; UString PropsString; void Clear() { CMethodProps::Clear(); MethodName.Empty(); PropsString.Empty(); } bool IsEmpty() const { return MethodName.IsEmpty() && Props.IsEmpty(); } HRESULT ParseMethodFromPROPVARIANT(const UString &realName, const PROPVARIANT &value); HRESULT ParseMethodFromString(const UString &s); }; #endif