Windows2003-3790/public/sdk/inc/stgvar.hxx
2020-09-30 16:53:55 +02:00

627 lines
14 KiB
C++

//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1992.
//
// File: StgVar.hxx
//
// Contents: C++ wrapper for PROPVARIANT.
//
// History: 01-Aug-94 KyleP Created
//
//--------------------------------------------------------------------------
#if !defined(__STGVAR_HXX__)
#define __STGVAR_HXX__
#include <objbase.h>
#include <stgvara.hxx>
//+-------------------------------------------------------------------------
//
// Class: CStorageVariant
//
// Purpose: C++ wrapper for PROPVARIANT
//
// History: 01-Aug-94 KyleP Created
//
// Notes: A couple of variant arms are not implemented below.
// VT_BSTR because its type signature is identical to that of
// VT_LPSTR. VT_SAFEARRAY because I don't fully understand the
// structure.
//
// Some types are duplicate base types with a different variant
// tag. These include:
// VARIANT_BOOL (short)
// SCODE (long)
// DATE (double)
// We cannot create trivial constructors for the above because
// of the type collision. You must use the Set methods.
//
// Some types will automatically coerce and cause confusion,
// so they don't have constructors. You must use the Set
// method. These include:
// VT_UI2
// VT_UI4
// VT_UI8
//
//--------------------------------------------------------------------------
class CCoTaskAllocator : public PMemoryAllocator
{
public:
virtual void *Allocate(ULONG cbSize);
virtual void Free(void *pv);
};
#ifndef COTASKDECLSPEC
#define COTASKDECLSPEC __declspec(dllimport)
#endif
COTASKDECLSPEC CCoTaskAllocator CoTaskAllocator;
class CStorageVariant : public CAllocStorageVariant
{
public:
//
// Simple types
//
CStorageVariant() { vt = VT_EMPTY; }
CStorageVariant(short i) { vt = VT_I2; iVal = i; }
CStorageVariant(long l) { vt = VT_I4; lVal = l; }
CStorageVariant(LARGE_INTEGER h) { vt = VT_I8; hVal = h; }
CStorageVariant(float flt) { vt = VT_R4; fltVal = flt; }
CStorageVariant(double dbl) { vt = VT_R8; dblVal = dbl; }
CStorageVariant(CY cy) { vt = VT_CY; cyVal = cy; }
CStorageVariant(FILETIME ft) { vt = VT_FILETIME; filetime = ft; }
inline CStorageVariant & operator =(CStorageVariant const &var);
inline CStorageVariant & operator =(short i);
inline CStorageVariant & operator =(USHORT ui);
inline CStorageVariant & operator =(long l);
inline CStorageVariant & operator =(ULONG ul);
inline CStorageVariant & operator =(LARGE_INTEGER h);
inline CStorageVariant & operator =(ULARGE_INTEGER uh);
inline CStorageVariant & operator =(float flt);
inline CStorageVariant & operator =(double dbl);
inline CStorageVariant & operator =(CY cy);
inline CStorageVariant & operator =(FILETIME ft);
//
// Types with indirection
//
CStorageVariant(BLOB b);
CStorageVariant(BYTE *pb, ULONG cb);
CStorageVariant(char const *psz);
CStorageVariant(WCHAR const *pwsz);
CStorageVariant(CLSID const *pcid);
inline CStorageVariant & operator =(BLOB b);
inline CStorageVariant & operator =(char const *psz);
inline CStorageVariant & operator =(WCHAR const *pwsz);
inline CStorageVariant & operator =(CLSID const *pcid);
//
// Interface types
//
CStorageVariant(IStream *pstr);
CStorageVariant(IStorage *pstor);
//
// Counted array types. Elements initially zeroed. Use Set/Get/Size
// for access.
//
CStorageVariant(VARENUM vt, ULONG cElements);
//
// To/From C style PROPVARIANT and copy constructor
//
inline CStorageVariant(CStorageVariant const &var);
CStorageVariant(PROPVARIANT &var);
//
// Destructor
//
~CStorageVariant();
//
// Memory allocation. Uses CoTaskAllocator
//
inline void *operator new(size_t size);
inline void operator delete(void *p);
inline void *operator new(size_t size, void *p);
#if _MSC_VER >= 1200
inline void operator delete(void *p, void *pp);
#endif
//
// Serialization
//
CStorageVariant(PDeSerStream &stm);
//
// Set/Get, all types including arrays.
//
inline void SetEMPTY();
inline void SetNULL();
inline void SetI1(CHAR i);
inline void SetUI1(BYTE i);
inline void SetI2(short i);
inline void SetUI2(USHORT ui);
inline void SetI4(long l);
inline void SetUI4(ULONG ul);
inline void SetR4(float f);
inline void SetR8(double d);
inline void SetI8(LARGE_INTEGER li);
inline void SetUI8(ULARGE_INTEGER uli);
inline void SetBOOL(VARIANT_BOOL b);
inline void SetERROR(SCODE sc);
inline void SetCY(CY cy);
inline void SetDATE(DATE d);
inline void SetFILETIME(FILETIME ft);
inline void SetBSTR(BSTR b);
// void SetSAFEARRAY(SAFEARRAY &sa);
// SAFEARRAY GetSAFEARRAY();
inline void SetLPSTR(char const *psz);
inline void SetLPWSTR(WCHAR const *pwsz);
inline void SetBLOB(BLOB b);
inline void SetSTREAM(IStream *ps);
inline void SetSTREAMED_OBJECT(IStream *ps);
inline void SetSTORAGE(IStorage *ps);
inline void SetSTORED_OBJECT(IStorage *ps);
inline void SetCLSID(CLSID const *pc);
//
// Array access
//
void SetI1(CHAR i, unsigned pos);
void SetUI1(BYTE i, unsigned pos);
void SetI2(short i, unsigned pos);
void SetUI2(USHORT ui, unsigned pos);
void SetI4(long l, unsigned pos);
void SetUI4(ULONG ul, unsigned pos);
void SetI8(LARGE_INTEGER li, unsigned pos);
void SetUI8(ULARGE_INTEGER uli, unsigned pos);
void SetR4(float f, unsigned pos);
void SetR8(double d, unsigned pos);
void SetBOOL(VARIANT_BOOL b, unsigned pos);
void SetERROR(SCODE sc, unsigned pos);
void SetCY(CY c, unsigned pos);
void SetDATE(DATE d, unsigned pos);
void SetBSTR(BSTR b, unsigned pos);
// void SetVARIANT(CStorageVariant var, unsigned pos);
// CStorageVariant GetVARIANT(unsigned pos) const;
void SetLPSTR(char const *psz, unsigned pos);
void SetLPWSTR(WCHAR const *pwsz, unsigned pos);
void SetFILETIME(FILETIME f, unsigned pos);
void SetCLSID(CLSID c, unsigned pos);
};
inline
CStorageVariant::CStorageVariant(BYTE *pb, ULONG cb) :
CAllocStorageVariant(pb, cb, CoTaskAllocator)
{
}
inline
CStorageVariant::CStorageVariant(char const *psz) :
CAllocStorageVariant(psz, CoTaskAllocator)
{
}
inline
CStorageVariant::CStorageVariant(WCHAR const *pwsz) :
CAllocStorageVariant(pwsz, CoTaskAllocator)
{
}
inline
CStorageVariant::CStorageVariant(CLSID const *pcid) :
CAllocStorageVariant(pcid, CoTaskAllocator)
{
}
inline
CStorageVariant::CStorageVariant(VARENUM v, ULONG cElements) :
CAllocStorageVariant(v, cElements, CoTaskAllocator)
{
}
inline
CStorageVariant::CStorageVariant(PROPVARIANT &var) :
CAllocStorageVariant(var, CoTaskAllocator)
{
}
inline
CStorageVariant::CStorageVariant(PDeSerStream &MemDeSerStream) :
CAllocStorageVariant(MemDeSerStream, CoTaskAllocator)
{
}
inline
CStorageVariant::~CStorageVariant()
{
ResetType(CoTaskAllocator);
}
inline void
CStorageVariant::SetEMPTY()
{
CAllocStorageVariant::SetEMPTY(CoTaskAllocator);
}
inline void
CStorageVariant::SetNULL()
{
CAllocStorageVariant::SetNULL(CoTaskAllocator);
}
inline void
CStorageVariant::SetI1(CHAR c)
{
CAllocStorageVariant::SetI1(c, CoTaskAllocator);
}
inline void
CStorageVariant::SetUI1(BYTE b)
{
CAllocStorageVariant::SetUI1(b, CoTaskAllocator);
}
inline void
CStorageVariant::SetI2(short i)
{
CAllocStorageVariant::SetI2(i, CoTaskAllocator);
}
inline void
CStorageVariant::SetUI2(USHORT ui)
{
CAllocStorageVariant::SetUI2(ui, CoTaskAllocator);
}
inline void
CStorageVariant::SetI4(long l)
{
CAllocStorageVariant::SetI4(l, CoTaskAllocator);
}
inline void
CStorageVariant::SetUI4(ULONG ul)
{
CAllocStorageVariant::SetUI4(ul, CoTaskAllocator);
}
inline void
CStorageVariant::SetR4(float f)
{
CAllocStorageVariant::SetR4(f, CoTaskAllocator);
}
inline void
CStorageVariant::SetR8(double d)
{
CAllocStorageVariant::SetR8(d, CoTaskAllocator);
}
inline void
CStorageVariant::SetI8(LARGE_INTEGER li)
{
CAllocStorageVariant::SetI8(li, CoTaskAllocator);
}
inline void
CStorageVariant::SetUI8(ULARGE_INTEGER uli)
{
CAllocStorageVariant::SetUI8(uli, CoTaskAllocator);
}
inline void
CStorageVariant::SetBOOL(VARIANT_BOOL b)
{
CAllocStorageVariant::SetBOOL(b, CoTaskAllocator);
}
inline void
CStorageVariant::SetERROR(SCODE sc)
{
CAllocStorageVariant::SetERROR(sc, CoTaskAllocator);
}
inline void
CStorageVariant::SetCY(CY cy)
{
CAllocStorageVariant::SetCY(cy, CoTaskAllocator);
}
inline void
CStorageVariant::SetDATE(DATE d)
{
CAllocStorageVariant::SetDATE(d, CoTaskAllocator);
}
inline void
CStorageVariant::SetFILETIME(FILETIME ft)
{
CAllocStorageVariant::SetFILETIME(ft, CoTaskAllocator);
}
inline void
CStorageVariant::SetSTREAM(IStream *ps)
{
CAllocStorageVariant::SetSTREAM(ps, CoTaskAllocator);
}
inline void
CStorageVariant::SetSTREAMED_OBJECT(IStream *ps)
{
CAllocStorageVariant::SetSTREAMED_OBJECT(ps, CoTaskAllocator);
}
inline void
CStorageVariant::SetSTORAGE(IStorage *ps)
{
CAllocStorageVariant::SetSTORAGE(ps, CoTaskAllocator);
}
inline void
CStorageVariant::SetSTORED_OBJECT(IStorage *ps)
{
CAllocStorageVariant::SetSTORED_OBJECT(ps, CoTaskAllocator);
}
inline void
CStorageVariant::SetCLSID(CLSID const *pc)
{
CAllocStorageVariant::SetCLSID(pc, CoTaskAllocator);
}
inline CStorageVariant &
CStorageVariant::operator =(CStorageVariant const &var)
{
ResetType(CoTaskAllocator);
new (this) CStorageVariant((PROPVARIANT &) var);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(short i)
{
CAllocStorageVariant::SetI2(i, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(USHORT ui)
{
CAllocStorageVariant::SetUI2(ui, CoTaskAllocator);
return(*this);
}
inline void
CStorageVariant::SetBSTR(BSTR b)
{
CAllocStorageVariant::SetBSTR( b, CoTaskAllocator );
}
inline void
CStorageVariant::SetLPSTR(char const *psz)
{
CAllocStorageVariant::SetLPSTR(psz, CoTaskAllocator);
}
inline void
CStorageVariant::SetLPWSTR(WCHAR const *pwsz)
{
CAllocStorageVariant::SetLPWSTR(pwsz, CoTaskAllocator);
}
inline void
CStorageVariant::SetBLOB(BLOB b)
{
CAllocStorageVariant::SetBLOB(b, CoTaskAllocator);
}
inline CStorageVariant &
CStorageVariant::operator =(long l)
{
CAllocStorageVariant::SetI4(l, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(ULONG ul)
{
CAllocStorageVariant::SetUI4(ul, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(LARGE_INTEGER h)
{
CAllocStorageVariant::SetI8(h, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(ULARGE_INTEGER uh)
{
CAllocStorageVariant::SetUI8(uh, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(float flt)
{
CAllocStorageVariant::SetR4(flt, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(double dbl)
{
CAllocStorageVariant::SetR8(dbl, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(CY cy)
{
CAllocStorageVariant::SetCY(cy, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(FILETIME ft)
{
CAllocStorageVariant::SetFILETIME(ft, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(BLOB b)
{
CAllocStorageVariant::SetBLOB(b, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(char const *psz)
{
CAllocStorageVariant::SetLPSTR(psz, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(WCHAR const *pwsz)
{
CAllocStorageVariant::SetLPWSTR(pwsz, CoTaskAllocator);
return(*this);
}
inline CStorageVariant &
CStorageVariant::operator =(CLSID const *pcid)
{
CAllocStorageVariant::SetCLSID(pcid, CoTaskAllocator);
return(*this);
}
inline void *
CStorageVariant::operator new(size_t size)
{
void *p = CoTaskMemAlloc(size);
return(p);
}
inline void *
CStorageVariant::operator new(size_t size, void *p)
{
return(p);
}
inline void
CStorageVariant::operator delete(void *p)
{
if (p != NULL)
{
CoTaskMemFree(p);
}
}
#if _MSC_VER >= 1200
inline void
CStorageVariant::operator delete(void *p, void *pp)
{
return;
}
#endif
inline
CStorageVariant::CStorageVariant(CStorageVariant const &var)
{
new (this) CStorageVariant((PROPVARIANT &) var);
}
#endif // __STGVAR_HXX__