// // comutil.h - Native C++ compiler COM support - BSTR, VARIANT wrappers header // #pragma once ////////////////////////////////////////////////////////////////////////////// class _bstr_t; class auto_var; ////////////////////////////////////////////////////////////////////////////// // // Wrapper class for VARIANT // ////////////////////////////////////////////////////////////////////////////// /* * VARENUM usage key, * * * [V] - may appear in a VARIANT * * [T] - may appear in a TYPEDESC * * [P] - may appear in an OLE property set * * [S] - may appear in a Safe Array * * [C] - supported by class auto_var * * * VT_EMPTY [V] [P] nothing * VT_NULL [V] [P] SQL style Null * VT_I2 [V][T][P][S][C] 2 byte signed int * VT_I4 [V][T][P][S][C] 4 byte signed int * VT_R4 [V][T][P][S][C] 4 byte real * VT_R8 [V][T][P][S][C] 8 byte real * VT_CY [V][T][P][S][C] currency * VT_DATE [V][T][P][S][C] date * VT_BSTR [V][T][P][S][C] OLE Automation string * VT_DISPATCH [V][T][P][S][C] IDispatch * * VT_ERROR [V][T] [S][C] SCODE * VT_BOOL [V][T][P][S][C] True=-1, False=0 * VT_VARIANT [V][T][P][S] VARIANT * * VT_UNKNOWN [V][T] [S][C] IUnknown * * VT_DECIMAL [V][T] [S][C] 16 byte fixed point * VT_I1 [T] signed char * VT_UI1 [V][T][P][S][C] unsigned char * VT_UI2 [T][P] unsigned short * VT_UI4 [T][P] unsigned short * VT_I8 [T][P] signed 64-bit int * VT_UI8 [T][P] unsigned 64-bit int * VT_INT [T] signed machine int * VT_UINT [T] unsigned machine int * VT_VOID [T] C style void * VT_HRESULT [T] Standard return type * VT_PTR [T] pointer type * VT_SAFEARRAY [T] (use VT_ARRAY in VARIANT) * VT_CARRAY [T] C style array * VT_USERDEFINED [T] user defined type * VT_LPSTR [T][P] null terminated string * VT_LPWSTR [T][P] wide null terminated string * VT_FILETIME [P] FILETIME * VT_BLOB [P] Length prefixed bytes * VT_STREAM [P] Name of the stream follows * VT_STORAGE [P] Name of the storage follows * VT_STREAMED_OBJECT [P] Stream contains an object * VT_STORED_OBJECT [P] Storage contains an object * VT_BLOB_OBJECT [P] Blob contains an object * VT_CF [P] Clipboard format * VT_CLSID [P] A Class ID * VT_VECTOR [P] simple counted array * VT_ARRAY [V] SAFEARRAY* * VT_BYREF [V] void* for local use */ class auto_var : public ::tagVARIANT { public: // Constructors // auto_var() throw(); auto_var(const VARIANT& varSrc) throw(_com_error); auto_var(const VARIANT* pSrc) throw(_com_error); auto_var(const auto_var& varSrc) throw(_com_error); auto_var(VARIANT& varSrc, bool fCopy) throw(_com_error); // Attach VARIANT if !fCopy auto_var(short sSrc, VARTYPE vtSrc = VT_I2) throw(_com_error); // Creates a VT_I2, or a VT_BOOL auto_var(long lSrc, VARTYPE vtSrc = VT_I4) throw(_com_error); // Creates a VT_I4, a VT_ERROR, or a VT_BOOL auto_var(float fltSrc) throw(); // Creates a VT_R4 auto_var(double dblSrc, VARTYPE vtSrc = VT_R8) throw(_com_error); // Creates a VT_R8, or a VT_DATE auto_var(const CY& cySrc) throw(); // Creates a VT_CY auto_var(const _bstr_t& bstrSrc) throw(_com_error); // Creates a VT_BSTR auto_var(const wchar_t *pSrc) throw(_com_error); // Creates a VT_BSTR auto_var(const char* pSrc) throw(_com_error); // Creates a VT_BSTR auto_var(IDispatch* pSrc, bool fAddRef = true) throw(); // Creates a VT_DISPATCH auto_var(bool bSrc) throw(); // Creates a VT_BOOL auto_var(IUnknown* pSrc, bool fAddRef = true) throw(); // Creates a VT_UNKNOWN auto_var(const DECIMAL& decSrc) throw(); // Creates a VT_DECIMAL auto_var(BYTE bSrc) throw(); // Creates a VT_UI1 // Destructor // ~auto_var() throw(_com_error); // Extractors // operator short() const throw(_com_error); // Extracts a short from a VT_I2 operator long() const throw(_com_error); // Extracts a long from a VT_I4 operator float() const throw(_com_error); // Extracts a float from a VT_R4 operator double() const throw(_com_error); // Extracts a double from a VT_R8 operator CY() const throw(_com_error); // Extracts a CY from a VT_CY operator _bstr_t() const throw(_com_error); // Extracts a _bstr_t from a VT_BSTR operator IDispatch*() const throw(_com_error); // Extracts a IDispatch* from a VT_DISPATCH operator bool() const throw(_com_error); // Extracts a bool from a VT_BOOL operator IUnknown*() const throw(_com_error); // Extracts a IUnknown* from a VT_UNKNOWN operator DECIMAL() const throw(_com_error); // Extracts a DECIMAL from a VT_DECIMAL operator BYTE() const throw(_com_error); // Extracts a BTYE (unsigned char) from a VT_UI1 // Assignment operations // auto_var& operator=(const VARIANT& varSrc) throw(_com_error); auto_var& operator=(const VARIANT* pSrc) throw(_com_error); auto_var& operator=(const auto_var& varSrc) throw(_com_error); auto_var& operator=(short sSrc) throw(_com_error); // Assign a VT_I2, or a VT_BOOL auto_var& operator=(long lSrc) throw(_com_error); // Assign a VT_I4, a VT_ERROR or a VT_BOOL auto_var& operator=(float fltSrc) throw(_com_error); // Assign a VT_R4 auto_var& operator=(double dblSrc) throw(_com_error); // Assign a VT_R8, or a VT_DATE auto_var& operator=(const CY& cySrc) throw(_com_error); // Assign a VT_CY auto_var& operator=(const _bstr_t& bstrSrc) throw(_com_error); // Assign a VT_BSTR auto_var& operator=(const wchar_t* pSrc) throw(_com_error); // Assign a VT_BSTR auto_var& operator=(const char* pSrc) throw(_com_error); // Assign a VT_BSTR auto_var& operator=(IDispatch* pSrc) throw(_com_error); // Assign a VT_DISPATCH auto_var& operator=(bool bSrc) throw(_com_error); // Assign a VT_BOOL auto_var& operator=(IUnknown* pSrc) throw(_com_error); // Assign a VT_UNKNOWN auto_var& operator=(const DECIMAL& decSrc) throw(_com_error); // Assign a VT_DECIMAL auto_var& operator=(BYTE bSrc) throw(_com_error); // Assign a VT_UI1 // Comparison operations // bool operator==(const VARIANT& varSrc) const throw(_com_error); bool operator==(const VARIANT* pSrc) const throw(_com_error); bool operator!=(const VARIANT& varSrc) const throw(_com_error); bool operator!=(const VARIANT* pSrc) const throw(_com_error); // Low-level operations // void Clear() throw(_com_error); void Attach(VARIANT& varSrc) throw(_com_error); VARIANT Detach() throw(_com_error); void ChangeType(VARTYPE vartype, const auto_var* pSrc = NULL) throw(_com_error); void SetString(const char* pSrc) throw(_com_error); // used to set ANSI string }; ////////////////////////////////////////////////////////////////////////////////////////// // // Constructors // ////////////////////////////////////////////////////////////////////////////////////////// // Default constructor // inline auto_var::auto_var() throw() { ::VariantInit(this); } // Construct a auto_var from a const VARIANT& // inline auto_var::auto_var(const VARIANT& varSrc) throw(_com_error) { ::VariantInit(this); _com_util::CheckError(::VariantCopy(this, const_cast(&varSrc))); } // Construct a auto_var from a const VARIANT* // inline auto_var::auto_var(const VARIANT* pSrc) throw(_com_error) { ::VariantInit(this); _com_util::CheckError(::VariantCopy(this, const_cast(pSrc))); } // Construct a auto_var from a const auto_var& // inline auto_var::auto_var(const auto_var& varSrc) throw(_com_error) { ::VariantInit(this); _com_util::CheckError(::VariantCopy(this, const_cast(static_cast(&varSrc)))); } // Construct a auto_var from a VARIANT&. If fCopy is FALSE, give control of // data to the auto_var without doing a VariantCopy. // inline auto_var::auto_var(VARIANT& varSrc, bool fCopy) throw(_com_error) { if (fCopy) { ::VariantInit(this); _com_util::CheckError(::VariantCopy(this, &varSrc)); } else { memcpy(this, &varSrc, sizeof(varSrc)); V_VT(&varSrc) = VT_EMPTY; } } // Construct either a VT_I2 VARIANT or a VT_BOOL VARIANT from // a short (the default is VT_I2) // inline auto_var::auto_var(short sSrc, VARTYPE vtSrc) throw(_com_error) { if ((vtSrc != VT_I2) && (vtSrc != VT_BOOL)) { _com_issue_error(E_INVALIDARG); } if (vtSrc == VT_BOOL) { V_VT(this) = VT_BOOL; V_BOOL(this) = (sSrc ? VARIANT_TRUE : VARIANT_FALSE); } else { V_VT(this) = VT_I2; V_I2(this) = sSrc; } } // Construct either a VT_I4 VARIANT, a VT_BOOL VARIANT, or a // VT_ERROR VARIANT from a long (the default is VT_I4) // inline auto_var::auto_var(long lSrc, VARTYPE vtSrc) throw(_com_error) { if ((vtSrc != VT_I4) && (vtSrc != VT_ERROR) && (vtSrc != VT_BOOL)) { _com_issue_error(E_INVALIDARG); } if (vtSrc == VT_ERROR) { V_VT(this) = VT_ERROR; V_ERROR(this) = lSrc; } else if (vtSrc == VT_BOOL) { V_VT(this) = VT_BOOL; V_BOOL(this) = (lSrc ? VARIANT_TRUE : VARIANT_FALSE); } else { V_VT(this) = VT_I4; V_I4(this) = lSrc; } } // Construct a VT_R4 VARIANT from a float // inline auto_var::auto_var(float fltSrc) throw() { V_VT(this) = VT_R4; V_R4(this) = fltSrc; } // Construct either a VT_R8 VARIANT, or a VT_DATE VARIANT from // a double (the default is VT_R8) // inline auto_var::auto_var(double dblSrc, VARTYPE vtSrc) throw(_com_error) { if ((vtSrc != VT_R8) && (vtSrc != VT_DATE)) { _com_issue_error(E_INVALIDARG); } if (vtSrc == VT_DATE) { V_VT(this) = VT_DATE; V_DATE(this) = dblSrc; } else { V_VT(this) = VT_R8; V_R8(this) = dblSrc; } } // Construct a VT_CY from a CY // inline auto_var::auto_var(const CY& cySrc) throw() { V_VT(this) = VT_CY; V_CY(this) = cySrc; } // Construct a VT_BSTR VARIANT from a const _bstr_t& // inline auto_var::auto_var(const _bstr_t& bstrSrc) throw(_com_error) { V_VT(this) = VT_BSTR; BSTR bstr = static_cast(bstrSrc); V_BSTR(this) = ::SysAllocStringByteLen(reinterpret_cast(bstr), ::SysStringByteLen(bstr)); if (V_BSTR(this) == NULL) { _com_issue_error(E_OUTOFMEMORY); } } // Construct a VT_BSTR VARIANT from a const wchar_t* // inline auto_var::auto_var(const wchar_t* pSrc) throw(_com_error) { V_VT(this) = VT_BSTR; V_BSTR(this) = ::SysAllocString(pSrc); if (V_BSTR(this) == NULL && pSrc != NULL) { _com_issue_error(E_OUTOFMEMORY); } } // Construct a VT_BSTR VARIANT from a const char* // inline auto_var::auto_var(const char* pSrc) throw(_com_error) { V_VT(this) = VT_BSTR; V_BSTR(this) = _com_util::ConvertStringToBSTR(pSrc); if (V_BSTR(this) == NULL && pSrc != NULL) { _com_issue_error(E_OUTOFMEMORY); } } // Construct a VT_DISPATCH VARIANT from an IDispatch* // inline auto_var::auto_var(IDispatch* pSrc, bool fAddRef) throw() { V_VT(this) = VT_DISPATCH; V_DISPATCH(this) = pSrc; // Need the AddRef() as VariantClear() calls Release(), unless fAddRef // false indicates we're taking ownership // if (fAddRef) { V_DISPATCH(this)->AddRef(); } } // Construct a VT_BOOL VARIANT from a bool // inline auto_var::auto_var(bool bSrc) throw() { V_VT(this) = VT_BOOL; V_BOOL(this) = (bSrc ? VARIANT_TRUE : VARIANT_FALSE); } // Construct a VT_UNKNOWN VARIANT from an IUnknown* // inline auto_var::auto_var(IUnknown* pSrc, bool fAddRef) throw() { V_VT(this) = VT_UNKNOWN; V_UNKNOWN(this) = pSrc; // Need the AddRef() as VariantClear() calls Release(), unless fAddRef // false indicates we're taking ownership // if (fAddRef) { V_UNKNOWN(this)->AddRef(); } } // Construct a VT_DECIMAL VARIANT from a DECIMAL // inline auto_var::auto_var(const DECIMAL& decSrc) throw() { // Order is important here! Setting V_DECIMAL wipes out the entire VARIANT // V_DECIMAL(this) = decSrc; V_VT(this) = VT_DECIMAL; } // Construct a VT_UI1 VARIANT from a BYTE (unsigned char) // inline auto_var::auto_var(BYTE bSrc) throw() { V_VT(this) = VT_UI1; V_UI1(this) = bSrc; } ////////////////////////////////////////////////////////////////////////////////////////// // // Extractors // ////////////////////////////////////////////////////////////////////////////////////////// // Extracts a VT_I2 into a short // inline auto_var::operator short() const throw(_com_error) { if (V_VT(this) == VT_I2) { return V_I2(this); } auto_var varDest; varDest.ChangeType(VT_I2, this); return V_I2(&varDest); } // Extracts a VT_I4 into a long // inline auto_var::operator long() const throw(_com_error) { if (V_VT(this) == VT_I4) { return V_I4(this); } auto_var varDest; varDest.ChangeType(VT_I4, this); return V_I4(&varDest); } // Extracts a VT_R4 into a float // inline auto_var::operator float() const throw(_com_error) { if (V_VT(this) == VT_R4) { return V_R4(this); } auto_var varDest; varDest.ChangeType(VT_R4, this); return V_R4(&varDest); } // Extracts a VT_R8 into a double // inline auto_var::operator double() const throw(_com_error) { if (V_VT(this) == VT_R8) { return V_R8(this); } auto_var varDest; varDest.ChangeType(VT_R8, this); return V_R8(&varDest); } // Extracts a VT_CY into a CY // inline auto_var::operator CY() const throw(_com_error) { if (V_VT(this) == VT_CY) { return V_CY(this); } auto_var varDest; varDest.ChangeType(VT_CY, this); return V_CY(&varDest); } // Extracts a VT_BSTR into a _bstr_t // inline auto_var::operator _bstr_t() const throw(_com_error) { if (V_VT(this) == VT_BSTR) { return V_BSTR(this); } auto_var varDest; varDest.ChangeType(VT_BSTR, this); return V_BSTR(&varDest); } // Extracts a VT_DISPATCH into an IDispatch* // inline auto_var::operator IDispatch*() const throw(_com_error) { if (V_VT(this) == VT_DISPATCH) { V_DISPATCH(this)->AddRef(); return V_DISPATCH(this); } auto_var varDest; varDest.ChangeType(VT_DISPATCH, this); V_DISPATCH(&varDest)->AddRef(); return V_DISPATCH(&varDest); } // Extract a VT_BOOL into a bool // inline auto_var::operator bool() const throw(_com_error) { if (V_VT(this) == VT_BOOL) { return V_BOOL(this) ? true : false; } auto_var varDest; varDest.ChangeType(VT_BOOL, this); return V_BOOL(&varDest) ? true : false; } // Extracts a VT_UNKNOWN into an IUnknown* // inline auto_var::operator IUnknown*() const throw(_com_error) { if (V_VT(this) == VT_UNKNOWN) { return V_UNKNOWN(this); } auto_var varDest; varDest.ChangeType(VT_UNKNOWN, this); return V_UNKNOWN(&varDest); } // Extracts a VT_DECIMAL into a DECIMAL // inline auto_var::operator DECIMAL() const throw(_com_error) { if (V_VT(this) == VT_DECIMAL) { return V_DECIMAL(this); } auto_var varDest; varDest.ChangeType(VT_DECIMAL, this); return V_DECIMAL(&varDest); } // Extracts a VT_UI1 into a BYTE (unsigned char) // inline auto_var::operator BYTE() const throw(_com_error) { if (V_VT(this) == VT_UI1) { return V_UI1(this); } auto_var varDest; varDest.ChangeType(VT_UI1, this); return V_UI1(&varDest); } ////////////////////////////////////////////////////////////////////////////////////////// // // Assignment operations // ////////////////////////////////////////////////////////////////////////////////////////// // Assign a const VARIANT& (::VariantCopy handles everything) // inline auto_var& auto_var::operator=(const VARIANT& varSrc) throw(_com_error) { Clear(); _com_util::CheckError(::VariantCopy(this, const_cast(&varSrc))); return *this; } // Assign a const VARIANT* (::VariantCopy handles everything) // inline auto_var& auto_var::operator=(const VARIANT* pSrc) throw(_com_error) { Clear(); _com_util::CheckError(::VariantCopy(this, const_cast(pSrc))); return *this; } // Assign a const auto_var& (::VariantCopy handles everything) // inline auto_var& auto_var::operator=(const auto_var& varSrc) throw(_com_error) { Clear(); _com_util::CheckError(::VariantCopy(this, const_cast(static_cast(&varSrc)))); return *this; } // Assign a short creating either VT_I2 VARIANT or a // VT_BOOL VARIANT (VT_I2 is the default) // inline auto_var& auto_var::operator=(short sSrc) throw(_com_error) { if (V_VT(this) == VT_I2) { V_I2(this) = sSrc; } else if (V_VT(this) == VT_BOOL) { V_BOOL(this) = (sSrc ? VARIANT_TRUE : VARIANT_FALSE); } else { // Clear the VARIANT and create a VT_I2 // Clear(); V_VT(this) = VT_I2; V_I2(this) = sSrc; } return *this; } // Assign a long creating either VT_I4 VARIANT, a VT_ERROR VARIANT // or a VT_BOOL VARIANT (VT_I4 is the default) // inline auto_var& auto_var::operator=(long lSrc) throw(_com_error) { if (V_VT(this) == VT_I4) { V_I4(this) = lSrc; } else if (V_VT(this) == VT_ERROR) { V_ERROR(this) = lSrc; } else if (V_VT(this) == VT_BOOL) { V_BOOL(this) = (lSrc ? VARIANT_TRUE : VARIANT_FALSE); } else { // Clear the VARIANT and create a VT_I4 // Clear(); V_VT(this) = VT_I4; V_I4(this) = lSrc; } return *this; } // Assign a float creating a VT_R4 VARIANT // inline auto_var& auto_var::operator=(float fltSrc) throw(_com_error) { if (V_VT(this) != VT_R4) { // Clear the VARIANT and create a VT_R4 // Clear(); V_VT(this) = VT_R4; } V_R4(this) = fltSrc; return *this; } // Assign a double creating either a VT_R8 VARIANT, or a VT_DATE // VARIANT (VT_R8 is the default) // inline auto_var& auto_var::operator=(double dblSrc) throw(_com_error) { if (V_VT(this) == VT_R8) { V_R8(this) = dblSrc; } else if(V_VT(this) == VT_DATE) { V_DATE(this) == dblSrc; } else { // Clear the VARIANT and create a VT_R8 // Clear(); V_VT(this) = VT_R8; V_R8(this) = dblSrc; } return *this; } // Assign a CY creating a VT_CY VARIANT // inline auto_var& auto_var::operator=(const CY& cySrc) throw(_com_error) { if (V_VT(this) != VT_CY) { // Clear the VARIANT and create a VT_CY // Clear(); V_VT(this) = VT_CY; } V_CY(this) = cySrc; return *this; } // Assign a const _bstr_t& creating a VT_BSTR VARIANT // inline auto_var& auto_var::operator=(const _bstr_t& bstrSrc) throw(_com_error) { // Clear the VARIANT (This will SysFreeString() any previous occupant) // Clear(); V_VT(this) = VT_BSTR; if (!bstrSrc) { V_BSTR(this) = NULL; } else { BSTR bstr = static_cast(bstrSrc); V_BSTR(this) = ::SysAllocStringByteLen(reinterpret_cast(bstr), ::SysStringByteLen(bstr)); if (V_BSTR(this) == NULL) { _com_issue_error(E_OUTOFMEMORY); } } return *this; } // Assign a const wchar_t* creating a VT_BSTR VARIANT // inline auto_var& auto_var::operator=(const wchar_t* pSrc) throw(_com_error) { // Clear the VARIANT (This will SysFreeString() any previous occupant) // Clear(); V_VT(this) = VT_BSTR; if (pSrc == NULL) { V_BSTR(this) = NULL; } else { V_BSTR(this) = ::SysAllocString(pSrc); if (V_BSTR(this) == NULL) { _com_issue_error(E_OUTOFMEMORY); } } return *this; } // Assign a const char* creating a VT_BSTR VARIANT // inline auto_var& auto_var::operator=(const char* pSrc) throw(_com_error) { // Clear the VARIANT (This will SysFreeString() any previous occupant) // Clear(); V_VT(this) = VT_BSTR; V_BSTR(this) = _com_util::ConvertStringToBSTR(pSrc); if (V_BSTR(this) == NULL && pSrc != NULL) { _com_issue_error(E_OUTOFMEMORY); } return *this; } // Assign an IDispatch* creating a VT_DISPATCH VARIANT // inline auto_var& auto_var::operator=(IDispatch* pSrc) throw(_com_error) { // Clear the VARIANT (This will Release() any previous occupant) // Clear(); V_VT(this) = VT_DISPATCH; V_DISPATCH(this) = pSrc; // Need the AddRef() as VariantClear() calls Release() // V_DISPATCH(this)->AddRef(); return *this; } // Assign a bool creating a VT_BOOL VARIANT // inline auto_var& auto_var::operator=(bool bSrc) throw(_com_error) { if (V_VT(this) != VT_BOOL) { // Clear the VARIANT and create a VT_BOOL // Clear(); V_VT(this) = VT_BOOL; } V_BOOL(this) = (bSrc ? VARIANT_TRUE : VARIANT_FALSE); return *this; } // Assign an IUnknown* creating a VT_UNKNOWN VARIANT // inline auto_var& auto_var::operator=(IUnknown* pSrc) throw(_com_error) { // Clear VARIANT (This will Release() any previous occupant) // Clear(); V_VT(this) = VT_UNKNOWN; V_UNKNOWN(this) = pSrc; // Need the AddRef() as VariantClear() calls Release() // V_UNKNOWN(this)->AddRef(); return *this; } // Assign a DECIMAL creating a VT_DECIMAL VARIANT // inline auto_var& auto_var::operator=(const DECIMAL& decSrc) throw(_com_error) { if (V_VT(this) != VT_DECIMAL) { // Clear the VARIANT // Clear(); } // Order is important here! Setting V_DECIMAL wipes out the entire VARIANT V_DECIMAL(this) = decSrc; V_VT(this) = VT_DECIMAL; return *this; } // Assign a BTYE (unsigned char) creating a VT_UI1 VARIANT // inline auto_var& auto_var::operator=(BYTE bSrc) throw(_com_error) { if (V_VT(this) != VT_UI1) { // Clear the VARIANT and create a VT_UI1 // Clear(); V_VT(this) = VT_UI1; } V_UI1(this) = bSrc; return *this; } ////////////////////////////////////////////////////////////////////////////////////////// // // Comparison operations // ////////////////////////////////////////////////////////////////////////////////////////// // Compare a auto_var against a const VARIANT& for equality // inline bool auto_var::operator==(const VARIANT& varSrc) const throw() { return *this == &varSrc; } // Compare a auto_var against a const VARIANT* for equality // inline bool auto_var::operator==(const VARIANT* pSrc) const throw() { if (this == pSrc) { return true; } // // Variants not equal if types don't match // if (V_VT(this) != V_VT(pSrc)) { return false; } // // Check type specific values // switch (V_VT(this)) { case VT_EMPTY: case VT_NULL: return true; case VT_I2: return V_I2(this) == V_I2(pSrc); case VT_I4: return V_I4(this) == V_I4(pSrc); case VT_R4: return V_R4(this) == V_R4(pSrc); case VT_R8: return V_R8(this) == V_R8(pSrc); case VT_CY: return memcmp(&(V_CY(this)), &(V_CY(pSrc)), sizeof(CY)) == 0; case VT_DATE: return V_DATE(this) == V_DATE(pSrc); case VT_BSTR: return (::SysStringByteLen(V_BSTR(this)) == ::SysStringByteLen(V_BSTR(pSrc))) && (memcmp(V_BSTR(this), V_BSTR(pSrc), ::SysStringByteLen(V_BSTR(this))) == 0); case VT_DISPATCH: return V_DISPATCH(this) == V_DISPATCH(pSrc); case VT_ERROR: return V_ERROR(this) == V_ERROR(pSrc); case VT_BOOL: return V_BOOL(this) == V_BOOL(pSrc); case VT_UNKNOWN: return V_UNKNOWN(this) == V_UNKNOWN(pSrc); case VT_DECIMAL: return memcmp(&(V_DECIMAL(this)), &(V_DECIMAL(pSrc)), sizeof(DECIMAL)) == 0; case VT_UI1: return V_UI1(this) == V_UI1(pSrc); default: _com_issue_error(E_INVALIDARG); // fall through } return false; } // Compare a auto_var against a const VARIANT& for in-equality // inline bool auto_var::operator!=(const VARIANT& varSrc) const throw() { return !(*this == &varSrc); } // Compare a auto_var against a const VARIANT* for in-equality // inline bool auto_var::operator!=(const VARIANT* pSrc) const throw() { return !(*this == pSrc); } ////////////////////////////////////////////////////////////////////////////////////////// // // Low-level operations // ////////////////////////////////////////////////////////////////////////////////////////// // Clear the auto_var // inline void auto_var::Clear() throw(_com_error) { _com_util::CheckError(::VariantClear(this)); } inline void auto_var::Attach(VARIANT& varSrc) throw(_com_error) { // // Free up previous VARIANT // Clear(); // // Give control of data to auto_var // memcpy(this, &varSrc, sizeof(varSrc)); V_VT(&varSrc) = VT_EMPTY; } inline VARIANT auto_var::Detach() throw(_com_error) { VARIANT varResult = *this; V_VT(this) = VT_EMPTY; return varResult; } // Change the type and contents of this auto_var to the type vartype and // contents of pSrc // inline void auto_var::ChangeType(VARTYPE vartype, const auto_var* pSrc) throw(_com_error) { // // If pDest is NULL, convert type in place // if (pSrc == NULL) { pSrc = this; } if ((this != pSrc) || (vartype != V_VT(this))) { _com_util::CheckError(::VariantChangeType(static_cast(this), const_cast(static_cast(pSrc)), 0, vartype)); } } inline void auto_var::SetString(const char* pSrc) throw(_com_error) { // // Free up previous VARIANT // Clear(); V_VT(this) = VT_BSTR; V_BSTR(this) = _com_util::ConvertStringToBSTR(pSrc); if (V_BSTR(this) == NULL && pSrc != NULL) { _com_issue_error(E_OUTOFMEMORY); } } ////////////////////////////////////////////////////////////////////////////////////////// // // Destructor // ////////////////////////////////////////////////////////////////////////////////////////// inline auto_var::~auto_var() throw(_com_error) { _com_util::CheckError(::VariantClear(this)); }