lzma/CPP/7zip/Common/MethodProps.h - nest-cam/4320010/lzma - Git at Google

 // MethodProps.h

 #ifndef __7Z_METHOD_PROPS_H
 #define __7Z_METHOD_PROPS_H

 #include "../../Common/MyString.h"

 #include "../../Windows/PropVariant.h"

 #include "../ICoder.h"

 bool StringToBool(const UString &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<CProp> 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 level);

   void AddPropString(PROPID propid, const wchar_t *s)
   {
     CProp prop;
     prop.IsOptional = true;
     prop.Id = propid;
     prop.Value = s;
     Props.Add(prop);
   }

   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));
   }

   UInt32 Get_Lzma_NumThreads(bool &fixedNumber) const
   {
     fixedNumber = false;
     int numThreads = Get_NumThreads();
     if (numThreads >= 0)
     {
       fixedNumber = true;
       return numThreads < 2 ? 1 : 2;
     }
     return Get_Lzma_Algo() == 0 ? 1 : 2;
   }

   UInt32 Get_BZip2_NumThreads(bool &fixedNumber) const
   {
     fixedNumber = false;
     int numThreads = Get_NumThreads();
     if (numThreads >= 0)
     {
       fixedNumber = true;
       if (numThreads < 1) return 1;
       if (numThreads > 64) return 64;
       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 AddLevelProp(UInt32 level)
   {
     AddProp32(NCoderPropID::kLevel, level);
   }

   void AddNumThreadsProp(UInt32 numThreads)
   {
     AddProp32(NCoderPropID::kNumThreads, numThreads);
   }

   HRESULT ParseParamsFromString(const UString &srcString);
   HRESULT ParseParamsFromPROPVARIANT(const UString &realName, const PROPVARIANT &value);
 };

 class COneMethodInfo: public CMethodProps
 {
 public:
   UString MethodName;

   void Clear()
   {
     CMethodProps::Clear();
     MethodName.Empty();
   }
   bool IsEmpty() const { return MethodName.IsEmpty() && Props.IsEmpty(); }
   HRESULT ParseMethodFromPROPVARIANT(const UString &realName, const PROPVARIANT &value);
   HRESULT ParseMethodFromString(const UString &s);
 };

 #endif
	// MethodProps.h

	#ifndef __7Z_METHOD_PROPS_H
	#define __7Z_METHOD_PROPS_H

	#include "../../Common/MyString.h"

	#include "../../Windows/PropVariant.h"

	#include "../ICoder.h"

	bool StringToBool(const UString &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<CProp> 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 level);

	void AddPropString(PROPID propid, const wchar_t *s)
	{
	CProp prop;
	prop.IsOptional = true;
	prop.Id = propid;
	prop.Value = s;
	Props.Add(prop);
	}

	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));
	}

	UInt32 Get_Lzma_NumThreads(bool &fixedNumber) const
	{
	fixedNumber = false;
	int numThreads = Get_NumThreads();
	if (numThreads >= 0)
	{
	fixedNumber = true;
	return numThreads < 2 ? 1 : 2;
	}
	return Get_Lzma_Algo() == 0 ? 1 : 2;
	}

	UInt32 Get_BZip2_NumThreads(bool &fixedNumber) const
	{
	fixedNumber = false;
	int numThreads = Get_NumThreads();
	if (numThreads >= 0)
	{
	fixedNumber = true;
	if (numThreads < 1) return 1;
	if (numThreads > 64) return 64;
	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 AddLevelProp(UInt32 level)
	{
	AddProp32(NCoderPropID::kLevel, level);
	}

	void AddNumThreadsProp(UInt32 numThreads)
	{
	AddProp32(NCoderPropID::kNumThreads, numThreads);
	}

	HRESULT ParseParamsFromString(const UString &srcString);
	HRESULT ParseParamsFromPROPVARIANT(const UString &realName, const PROPVARIANT &value);
	};

	class COneMethodInfo: public CMethodProps
	{
	public:
	UString MethodName;

	void Clear()
	{
	CMethodProps::Clear();
	MethodName.Empty();
	}
	bool IsEmpty() const { return MethodName.IsEmpty() && Props.IsEmpty(); }
	HRESULT ParseMethodFromPROPVARIANT(const UString &realName, const PROPVARIANT &value);
	HRESULT ParseMethodFromString(const UString &s);
	};

	#endif