diff options
author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
---|---|---|
committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
commit | 940b4d1848e8c70ab7642901a68594e8016caffc (patch) | |
tree | eb72f344ee6c3d9b80a7ecc079ea79e9fba8676d /extensions/test/ole/AxTestComponents/Basic.cpp | |
parent | Initial commit. (diff) | |
download | libreoffice-upstream.tar.xz libreoffice-upstream.zip |
Adding upstream version 1:7.0.4.upstream/1%7.0.4upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | extensions/test/ole/AxTestComponents/Basic.cpp | 1356 |
1 files changed, 1356 insertions, 0 deletions
diff --git a/extensions/test/ole/AxTestComponents/Basic.cpp b/extensions/test/ole/AxTestComponents/Basic.cpp new file mode 100644 index 000000000..8aad56e8a --- /dev/null +++ b/extensions/test/ole/AxTestComponents/Basic.cpp @@ -0,0 +1,1356 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + +#include "stdafx.h" +#include "Basic.h" + + + +// CBasic +CBasic::CBasic(): m_cPrpByte(0),m_nPrpShort(0),m_lPrpLong(0),m_fPrpFloat(0), m_dPrpDouble(0),m_PrpArray(0), +m_safearray(NULL), m_bool(VARIANT_FALSE), +m_arByte(0), m_arShort(0), m_arLong(0), m_arString(0), m_arVariant(0), m_arFloat(0), +m_arDouble(0), m_arObject(0), m_arByteDim2(0), m_date(0.), m_scode(0) + +{ + memset(&m_cy, 0, sizeof(CY)); + memset(&m_decimal, 0, sizeof(DECIMAL)); +} + +CBasic::~CBasic() +{ + SafeArrayDestroy(m_safearray); + SafeArrayDestroy(m_arByte); + SafeArrayDestroy(m_arShort); + SafeArrayDestroy(m_arLong); + SafeArrayDestroy(m_arString); + SafeArrayDestroy(m_arVariant); + SafeArrayDestroy(m_arFloat); + SafeArrayDestroy(m_arDouble); + SafeArrayDestroy(m_arObject); + SafeArrayDestroy(m_arByteDim2); + +} +STDMETHODIMP CBasic::inBool(VARIANT_BOOL val) +{ + m_bool = val; + return S_OK; +} +STDMETHODIMP CBasic::inByte(unsigned char val) +{ + m_byte = val; + return S_OK; +} + +STDMETHODIMP CBasic::inShort(short val) +{ + m_short = val; + return S_OK; +} + +STDMETHODIMP CBasic::inLong(long val) +{ + m_long = val; + return S_OK; +} + +STDMETHODIMP CBasic::inString(BSTR val) +{ + m_bstr = val; + return S_OK; +} + +STDMETHODIMP CBasic::inFloat(float val) +{ + m_float = val; + return S_OK; +} + +STDMETHODIMP CBasic::inDouble(double val) +{ + m_double = val; + + CComVariant varDest; + CComVariant varSource(val); + HRESULT hr = VariantChangeType(&varDest, &varSource, 0, VT_BSTR); + return S_OK; +} + +STDMETHODIMP CBasic::inVariant(VARIANT val) +{ + m_var1 = val; + return S_OK; +} + +STDMETHODIMP CBasic::inArray(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_safearray))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, &m_safearray))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::inObject(IDispatch *val) +{ + m_obj = val; + return S_OK; +} + +STDMETHODIMP CBasic::inoutBool(VARIANT_BOOL* val) +{ + VARIANT_BOOL aBool = *val; + *val = m_bool; + m_bool = aBool; + return S_OK; +} + + +STDMETHODIMP CBasic::inoutByte(unsigned char* val) +{ + unsigned char aByte = *val; + *val = m_byte; + m_byte = aByte; + return S_OK; +} + +STDMETHODIMP CBasic::inoutShort(short *val) +{ + short aShort = *val; + *val = m_short; + m_short = aShort; + return S_OK; +} + +STDMETHODIMP CBasic::inoutLong(long *val) +{ + long aLong = *val; + *val = m_long; + m_long = aLong; + return S_OK; +} + +STDMETHODIMP CBasic::inoutString(BSTR *val) +{ + CComBSTR aStr = *val; + HRESULT hr = S_OK; + if (FAILED( hr = m_bstr.CopyTo(val))) + return hr; + m_bstr = aStr; + return S_OK; +} + +STDMETHODIMP CBasic::inoutFloat(float *val) +{ + float aFloat = *val; + *val = m_float; + m_float = aFloat; + return S_OK; +} + +STDMETHODIMP CBasic::inoutDouble(double *val) +{ + double aDouble = *val; + *val = m_double; + m_double = aDouble; + return S_OK; +} + +STDMETHODIMP CBasic::inoutVariant(VARIANT *val) +{ + CComVariant aVar = *val; + HRESULT hr = S_OK; + if (FAILED(hr = VariantCopy(val, &m_var1))) + return hr; + m_var1 = aVar; + return S_OK; +} + +/* The array contains VARIANT according to IDL. + If the VARIANTs contain strings then we append "out" to each string. +*/ +STDMETHODIMP CBasic::inoutArray(LPSAFEARRAY *val) +{ + SAFEARRAY* aAr = NULL; + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayCopy(*val, &aAr))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_safearray, val))) + return hr; + if (FAILED(hr = SafeArrayCopy(aAr, & m_safearray))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::inoutObject(IDispatch **val) +{ + CComPtr<IDispatch> disp = *val; + if (*val) + (*val)->Release(); + *val = m_obj; + if (*val) + (*val)->AddRef(); + m_obj = disp; + return S_OK; +} + + +STDMETHODIMP CBasic::outBool(VARIANT_BOOL* val) +{ + *val = m_bool; + return S_OK; +} + +STDMETHODIMP CBasic::outByte(unsigned char *val) +{ + *val= m_byte; + return S_OK; +} + +STDMETHODIMP CBasic::outShort(short *val) +{ + *val= m_short; + return S_OK; +} + +STDMETHODIMP CBasic::outLong(long *val) +{ + *val= m_long; + return S_OK; +} + +STDMETHODIMP CBasic::outString(BSTR *val) +{ + *val= SysAllocString(m_bstr); + return S_OK; +} + +STDMETHODIMP CBasic::outFloat(float *val) +{ + *val= m_float; + return S_OK; +} + +STDMETHODIMP CBasic::outDouble(double *val) +{ + *val= m_double; + return S_OK; +} + +STDMETHODIMP CBasic::outVariant(VARIANT *val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = VariantCopy(val, &m_var1))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::outArray(LPSAFEARRAY *val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayCopy(m_safearray, val))) + return false; + return S_OK; +} + +STDMETHODIMP CBasic::outObject(IDispatch* *val) +{ + *val = m_obj; + if (m_obj) + (*val)->AddRef(); + + return S_OK; +} + + +STDMETHODIMP CBasic::get_prpBool(VARIANT_BOOL* pVal) +{ + if (!pVal) return E_POINTER; + *pVal = m_bool; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpBool(VARIANT_BOOL val) +{ + m_bool = val; + return S_OK; +} + + +STDMETHODIMP CBasic::get_prpByte(unsigned char *pVal) +{ + if( !pVal) + return E_POINTER; + *pVal= m_cPrpByte; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpByte(unsigned char newVal) +{ + m_cPrpByte= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpShort(short *pVal) +{ + if( !pVal) + return E_POINTER; + *pVal= m_nPrpShort; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpShort(short newVal) +{ + m_nPrpShort= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpLong(long *pVal) +{ + if( !pVal) + return E_POINTER; + *pVal= m_lPrpLong; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpLong(long newVal) +{ + m_lPrpLong= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpString(BSTR *pVal) +{ + if( !pVal) + return E_POINTER; + m_bstrPrpString.CopyTo( pVal ); + return S_OK; +} + +STDMETHODIMP CBasic::put_prpString(BSTR newVal) +{ + m_bstrPrpString= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpFloat(float *pVal) +{ + if( !pVal) + return E_POINTER; + *pVal= m_fPrpFloat; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpFloat(float newVal) +{ + m_fPrpFloat= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpDouble(double *pVal) +{ + if( !pVal) + return E_POINTER; + *pVal= m_dPrpDouble; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpDouble(double newVal) +{ + m_dPrpDouble= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpVariant(VARIANT *pVal) +{ + if( !pVal) + return E_POINTER; + HRESULT hr = S_OK; + if (FAILED(hr = VariantCopy( pVal, &m_PropVariant))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::put_prpVariant(VARIANT newVal) +{ + m_PropVariant= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpArray(LPSAFEARRAY *pVal) +{ + if( !pVal) + return E_POINTER; + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayCopy( m_PrpArray, pVal))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::put_prpArray(LPSAFEARRAY newVal) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy( m_PrpArray))) + return hr; + if (FAILED(hr = SafeArrayCopy( newVal, &m_PrpArray))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::get_prpObject(IDispatch **pVal) +{ + if( !pVal) + return E_POINTER; + *pVal= m_PrpObject; + if( *pVal != NULL) + (*pVal)->AddRef(); + return S_OK; +} + +STDMETHODIMP CBasic::put_prpObject(IDispatch *newVal) +{ + m_PrpObject= newVal; + return S_OK; +} + +STDMETHODIMP CBasic::mixed1( + /* [out][in] */ unsigned char *aChar, + /* [out][in] */ float *aFloat, + /* [out][in] */ VARIANT *aVar) + +{ + HRESULT hr= S_OK; + inoutByte(aChar); + inoutFloat(aFloat); + inoutVariant(aVar); + return hr; +} + + + + +// VT_UI1 + +STDMETHODIMP CBasic::inSequenceLong(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arLong))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arLong))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::inSequenceByte( LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arByte))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arByte))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::inSequenceShort(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arShort))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arShort))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::inSequenceString(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arString))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arString))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::inSequenceFloat(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arFloat))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arFloat))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::inSequenceDouble(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arDouble))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arDouble))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::inSequenceObject(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arObject))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arObject))) + return hr; + return hr; +} + +void CBasic::printArray( LPSAFEARRAY val, BSTR message, VARTYPE type) +{ + + HRESULT hr= S_OK; + USES_CONVERSION; + long lbound=0; + long ubound= 0; + hr= SafeArrayGetLBound( val, 1, &lbound); + hr= SafeArrayGetUBound( val, 1, &ubound); + long length= ubound - lbound +1; + + CComVariant varElement; + char buf[1024]; + sprintf( buf,"%s", W2A(message)); + + for( long i= 0; i < length ; i++) + { + char tmp[1024]; + long data=0; + CComVariant var; + switch( type) + { + case VT_UI1: + case VT_I2: + case VT_I4: + case VT_ERROR: + hr= SafeArrayGetElement( val, &i, (void*)&data); + sprintf( tmp, "%ld \n", *(long*)&data); + break; + case VT_BSTR: + hr= SafeArrayGetElement( val, &i, (void*)&data); + sprintf( tmp, "%S \n", (BSTR)data); + break; + case VT_VARIANT: + hr= SafeArrayGetElement( val, &i, &var); + sprintf( tmp, "%x \n", var.byref); + break; + case VT_R4: + hr= SafeArrayGetElement( val, &i, (void*)&data); + sprintf( tmp, "%f \n", *(float*) &data); + break; + case VT_R8: ; + hr= SafeArrayGetElement( val, &i, (void*)&data); + sprintf( tmp, "%f \n", *(double*) &data); + break; + case VT_DISPATCH: + // we assume the objects are instances of this component and have the + // property prpString set. + hr= SafeArrayGetElement( val, &i, (void*)&data); + IDispatch* pdisp= ( IDispatch*) data; + CComDispatchDriver driver( pdisp); + CComVariant var; + if( pdisp) + { + driver.GetPropertyByName(L"prpString", &var); + sprintf( tmp, "%x : %S \n", *(long*)&data, var.bstrVal); + } + else + sprintf( tmp, "%x\n", *(long*)&data); + } + + strcat( buf, tmp); + } + MessageBox( NULL, _T(A2T(buf)), _T("AxTestComponents.Basic"), MB_OK); + +} +// V_ERROR OLECHAR VARIANT VT_UI1 + +STDMETHODIMP CBasic::outSequenceByte(LPSAFEARRAY* val) +{ + HRESULT hr= S_OK; + hr = SafeArrayCopy(m_arByte, val); + return hr; +} + +STDMETHODIMP CBasic::outSequenceShort(LPSAFEARRAY* val) +{ + HRESULT hr= S_OK; + hr = SafeArrayCopy(m_arShort, val); + return hr; +} + +STDMETHODIMP CBasic::outSequenceLong(LPSAFEARRAY* val) +{ + HRESULT hr= S_OK; + hr = SafeArrayCopy(m_arLong, val); + return hr; +} + +STDMETHODIMP CBasic::outSequenceString(LPSAFEARRAY* val) +{ + HRESULT hr= S_OK; + hr = SafeArrayCopy(m_arString, val); + return hr; +} + +STDMETHODIMP CBasic::outSequenceFloat(LPSAFEARRAY* val) +{ + HRESULT hr= S_OK; + hr = SafeArrayCopy(m_arFloat, val); + return hr; +} + +STDMETHODIMP CBasic::outSequenceDouble(LPSAFEARRAY* val) +{ + HRESULT hr= S_OK; + hr = SafeArrayCopy(m_arDouble, val); + return hr; +} + +STDMETHODIMP CBasic::outSequenceObject(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + hr = SafeArrayCopy(m_arObject, val); + return S_OK; +} + +STDMETHODIMP CBasic::inoutSequenceByte(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arByte, val))) + return hr; + m_arByte = arTemp; + return hr; +} + +STDMETHODIMP CBasic::inoutSequenceShort(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arShort, val))) + return hr; + m_arShort = arTemp; + return hr; +} + +STDMETHODIMP CBasic::inoutSequenceLong(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arLong, val))) + return hr; + m_arLong = arTemp; + return hr; +} + +STDMETHODIMP CBasic::inoutSequenceString(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arString, val))) + return hr; + m_arString = arTemp; + return hr; +} + +STDMETHODIMP CBasic::inoutSequenceFloat(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arFloat, val))) + return hr; + m_arFloat = arTemp; + return hr; +} + +STDMETHODIMP CBasic::inoutSequenceDouble(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arDouble, val))) + return hr; + m_arDouble = arTemp; + return hr; +} + +STDMETHODIMP CBasic::inoutSequenceObject(LPSAFEARRAY* val) +{ + HRESULT hr = S_OK; + SAFEARRAY *arTemp = NULL; + if (FAILED(hr = SafeArrayCopy(*val, &arTemp))) + return hr; + if (FAILED(hr = SafeArrayCopy(m_arObject, val))) + return hr; + m_arObject = arTemp; + return hr; +} + +// 2-dimensional Array +STDMETHODIMP CBasic::inMulDimArrayLong(LPSAFEARRAY val) +{ + printMulArray( val, VT_I4); + return S_OK; +} +// 2-dimensional Array +STDMETHODIMP CBasic::inMulDimArrayVariant(LPSAFEARRAY val) +{ + printMulArray( val, VT_VARIANT); + return S_OK; +} +// 3-dimensional Array +STDMETHODIMP CBasic::inMulDimArrayLong2(LPSAFEARRAY val) +{ + printMulArray( val, VT_I4); + return S_OK; +} +// 3-dimensional Array +STDMETHODIMP CBasic::inMulDimArrayVariant2(LPSAFEARRAY val) +{ + return S_OK; +} + + +STDMETHODIMP CBasic::inMulDimArrayByte(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arByteDim2))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arByteDim2))) + return hr; + return hr; +} +// 3-dimensionales array +STDMETHODIMP CBasic::inMulDimArrayByte2(LPSAFEARRAY val) +{ + + // TODO: Add your implementation code here + //printMulArray( val, VT_UI1); + return S_OK; +} + +// supports 2 and 3 dimensional SAFEARRAY with elements of long or VARIANT +void CBasic::printMulArray( SAFEARRAY* val, VARTYPE type) +{ + HRESULT hr= S_OK; + UINT dims= SafeArrayGetDim( val); + long lbound1; + long ubound1; + long lbound2; + long ubound2; + long lbound3; + long ubound3; + long length1; + long length2; + + char buff[4096]; + buff[0]=0; + + if( dims == 2) + { + hr= SafeArrayGetLBound( val, 1, &lbound1); + hr= SafeArrayGetUBound( val, 1, &ubound1); + length1= ubound1 - lbound1 +1; + + hr= SafeArrayGetLBound( val, 2, &lbound2); + hr= SafeArrayGetUBound( val, 2, &ubound2); + length2= ubound2 - lbound2 + 1; + char tmpBuf[1024]; + tmpBuf[0]=0; + long index[2]; + for( long i= 0; i< length2; i++) + { + for( long j= 0; j<length1; j++) + { + index[0]= j; + index[1]= i; + long longVal; + CComVariant var; + switch( type) + { + case VT_I4: + hr= SafeArrayGetElement( val, index, &longVal); + sprintf( tmpBuf, "(%ld,%ld): %ld\n", index[1], index[0], longVal); + break; + case VT_UI1: + hr= SafeArrayGetElement( val, index, &longVal); + sprintf( tmpBuf, "(%ld,%ld): %d\n", index[1], index[0], (unsigned char)longVal); + break; + case VT_VARIANT: + hr= SafeArrayGetElement( val, index, &var ); + sprintf( tmpBuf, "(%ld,%ld): %d (vartype %d)\n", index[1], index[0], var.byref, var.vt); + break; + } + strcat( buff,tmpBuf); + } + + } + + + } + else if( dims == 3 ) + { + hr= SafeArrayGetLBound( val, 1, &lbound1); + hr= SafeArrayGetUBound( val, 1, &ubound1); + length1= ubound1 - lbound1 +1; + + hr= SafeArrayGetLBound( val, 2, &lbound2); + hr= SafeArrayGetUBound( val, 2, &ubound2); + length2= ubound2 - lbound2 + 1; + + hr= SafeArrayGetLBound( val, 3, &lbound3); + hr= SafeArrayGetUBound( val, 3, &ubound3); + long length3= ubound3 - lbound3 +1; + char tmpBuf[1024]; + tmpBuf[0]=0; + long index[3]; + for( long i= 0; i< length3; i++) + { + for( long j= 0; j<length2; j++) + { + for( long k= 0; k<length1; k++) + { + index[0]= k; + index[1]= j; + index[2]= i; + long longVal; + CComVariant var; + switch( type) + { + case VT_I4: + hr= SafeArrayGetElement( val, index, &longVal); + sprintf( tmpBuf, "(%ld,%ld,%ld): %ld\n", index[2], index[1], index[0], longVal); + break; + case VT_UI1: + hr= SafeArrayGetElement( val, index, &longVal); + sprintf( tmpBuf, "(%ld,%ld,%ld): %d\n", index[2], index[1], index[0], (unsigned char)longVal); + break; + + case VT_VARIANT: + hr= SafeArrayGetElement( val, index, &var ); + sprintf( tmpBuf, "(%ld,%ld,%ld): %d (vartype %d)\n", index[2], index[1], index[0], var.byref, var.vt); + break; + } + strcat( buff,tmpBuf); + } + } + + } + + } + + MessageBox( NULL, A2T( buff), _T("AxTestControl.Basic"), MB_OK); + + +} + + + + +STDMETHODIMP CBasic::outMore(long* val1, long* val2) +{ + // TODO: Add your implementation code here + *val1= 111; + *val2= 112; + return S_OK; +} +// If an optional parameter was not provided then the respective member will +// not be set +STDMETHODIMP CBasic::optional1(/*[in]*/ long val1, /*[in, optional]*/ VARIANT* val2) +{ + m_long = val1; + if (val2->vt != VT_ERROR) + m_var1 = *val2; + return S_OK; +} + +STDMETHODIMP CBasic::optional2(/*[out]*/ long* val1,/*[out, optional]*/ VARIANT* val2) +{ + HRESULT hr = S_OK; + *val1 = m_long; + + if (val2->vt != VT_ERROR) + hr = VariantCopy(val2, & m_var1); + return hr; +} + +STDMETHODIMP CBasic::optional3(/*[in, optional]*/ VARIANT* val1,/*[in, optional]*/ VARIANT* val2) +{ + //if (val1->vt != VT_ERROR) + m_var1 = *val1; + + //if (val2->vt != VT_ERROR) + m_var2 = *val2; + return S_OK; +} + +STDMETHODIMP CBasic::optional4(/*[in, out, optional]*/ VARIANT* val1, + /*[in, out, optional]*/ VARIANT* val2) +{ + HRESULT hr = S_OK; + //return the previously set in values + if (val1->vt != VT_ERROR) + { + CComVariant var1(*val1); + if (FAILED(hr = VariantCopy(val1, & m_var1))) + return hr; + m_var1 = var1; + } + if (val2->vt != VT_ERROR) + { + CComVariant var2(*val2); + if (FAILED(hr = VariantCopy(val2, & m_var2))) + return hr; + m_var2 = var2; + } + return hr; +} + +STDMETHODIMP CBasic::optional5(/*[out, optional]*/ VARIANT* val1, + /*[out, optional]*/ VARIANT* val2) +{ + HRESULT hr = S_OK; + if (FAILED(hr = VariantCopy(val1, &m_var1))) + return hr; + if (FAILED(hr = VariantCopy(val2, &m_var2))) + return hr; + return hr; +} + +STDMETHODIMP CBasic::defaultvalue1(/*[in, defaultvalue(10)]*/ long val1, + /*[in, defaultvalue(3.14)]*/ double* val2, + // /*[in, defaultvalue(10)]*/ VARIANT val3, + /*[in, defaultvalue(100)]*/ VARIANT* val4) +{ + m_long = val1; + m_double = *val2; +// m_var1 = val3; + m_var2 = *val4; + return S_OK; +} +STDMETHODIMP CBasic::defaultvalue2(/*[in, out, defaultvalue(10)]*/ long* val1, + /*[in, out, defaultvalue(3.14)]*/ double* val2, + // /*[in, out, defaultvalue(10)]*/ VARIANT* val3, + /*[in, out, defaultvalue(100)]*/ VARIANT* val4) +{ + HRESULT hr = S_OK; + long aLong = *val1; + double aDouble = *val2; +// CComVariant var1(*val3); + CComVariant var2(*val4); + *val1 = m_long; + *val2 = m_double; + //if (FAILED(hr = VariantCopy(val3, &m_var1))) + // return hr; + if (FAILED(hr = VariantCopy(val4, &m_var2))) + return hr; + m_long = aLong; + m_double = aDouble; +// m_var1 = var1; + m_var2 = var2; + return hr; +} +/* val2 contains the variable argument list. If no such arguments are supplied + then the safearray is invalid. SafeArrayCopy then returns E_INVALIDARG +*/ +STDMETHODIMP CBasic::varargfunc1(/*[in]*/ long val1,/*[in]*/ LPSAFEARRAY val2) +{ + m_long = val1; + + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_safearray))) + return hr; + if (FAILED(hr = SafeArrayCopy(val2, & m_safearray))) + { + if (hr != E_INVALIDARG) + return hr; + } + return S_OK; +} + +STDMETHODIMP CBasic::varargfunc2(/*[out]*/ long* val1, /*[out]*/ SAFEARRAY ** val2) +{ + *val1 = m_long; + HRESULT hr = SafeArrayCopy(m_safearray, val2); + return hr; +} + +STDMETHODIMP CBasic::inSequenceByteDim2(LPSAFEARRAY val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = SafeArrayDestroy(m_arByteDim2))) + return hr; + if (FAILED(hr = SafeArrayCopy(val, & m_arByteDim2))) + return hr; + return hr; +} + + +STDMETHODIMP CBasic::inCurrency(CY val) +{ + m_cy = val; + return S_OK; +} + +STDMETHODIMP CBasic::outCurrency(CY* val) +{ + *val = m_cy; + return S_OK; +} + +STDMETHODIMP CBasic::inoutCurrency(CY* val) +{ + CY tmp = *val; + *val = m_cy; + m_cy = tmp; + return S_OK; +} + +STDMETHODIMP CBasic::inDate(DATE val) +{ + m_date = val; + return S_OK; +} + +STDMETHODIMP CBasic::outDate(DATE* val) +{ + *val = m_date; + return S_OK; +} + +STDMETHODIMP CBasic::inoutDate(DATE* val) +{ + DATE tmp = *val; + *val = m_date; + m_date = tmp; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpCurrency(CY* pVal) +{ + *pVal = m_cy; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpCurrency(CY newVal) +{ + m_cy = newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpDate(DATE* pVal) +{ + *pVal = m_date; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpDate(DATE newVal) +{ + m_date = newVal; + return S_OK; +} + +//VT_I4 DECIMAL_NEG //tagVARIANT DISPATCH_PROPERTYPUT +STDMETHODIMP CBasic::inDecimal(DECIMAL val) +{ + m_decimal = val; + return S_OK; +} + +STDMETHODIMP CBasic::outDecimal(DECIMAL* val) +{ + * val = m_decimal; + return S_OK; +} + +STDMETHODIMP CBasic::inoutDecimal(DECIMAL* val) +{ + DECIMAL tmp; + tmp = * val; + * val = m_decimal; + m_decimal = tmp; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpDecimal(DECIMAL* pVal) +{ + * pVal = m_decimal; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpDecimal(DECIMAL newVal) +{ + m_decimal = newVal; + return S_OK; +} + +STDMETHODIMP CBasic::inSCode(SCODE val) +{ + m_scode = val; + return S_OK; +} + +STDMETHODIMP CBasic::outScode(SCODE* val) +{ + * val = m_scode; + return S_OK; +} + +STDMETHODIMP CBasic::inoutSCode(SCODE* val) +{ + SCODE tmp = *val; + * val = m_scode; + m_scode = tmp; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpSCode(SCODE* pVal) +{ + * pVal = m_scode; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpSCode(SCODE newVal) +{ + m_scode = newVal; + return S_OK; +} + +STDMETHODIMP CBasic::inrefLong(LONG* val) +{ + m_long = * val; + return S_OK; +} + +STDMETHODIMP CBasic::inrefVariant(VARIANT* val) +{ + HRESULT hr = S_OK; + if (FAILED(hr = VariantCopy( & m_var1, val))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::inrefDecimal(DECIMAL* val) +{ + m_decimal = * val; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpRefLong(long* pVal) +{ + *pVal = m_long; + return S_OK; +} + +STDMETHODIMP CBasic::putref_prpRefLong(long* newVal) +{ + m_long = * newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prprefVariant(VARIANT* pVal) +{ + HRESULT hr = S_OK; + hr = VariantCopy(pVal, & m_var1); + return hr; +} + +STDMETHODIMP CBasic::putref_prprefVariant(VARIANT* newVal) +{ + m_var1 = * newVal; + return S_OK; +} + +STDMETHODIMP CBasic::get_prprefDecimal(DECIMAL* pVal) +{ + * pVal = m_decimal; + return S_OK; +} + +STDMETHODIMP CBasic::putref_prprefDecimal(DECIMAL* newVal) +{ + m_decimal = *newVal; + return S_OK; +} + + +STDMETHODIMP CBasic::optional6(VARIANT* val1, VARIANT* val2, VARIANT* val3, VARIANT* val4) +{ + HRESULT hr = S_OK; + if (FAILED(hr = m_var1.Copy(val1))) + return hr; + if (FAILED(hr = m_var2.Copy(val2))) + return hr; + if (FAILED(hr = m_var3.Copy(val3))) + return hr; + if (FAILED(hr = m_var4.Copy(val4))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::optional7(VARIANT* val1, VARIANT* val2, VARIANT* val3, VARIANT* val4) +{ + HRESULT hr = S_OK; + if (FAILED(hr = VariantCopy(val1, & m_var1))) + return hr; + if (FAILED(hr = VariantCopy(val2, & m_var2))) + return hr; + if (FAILED(hr = VariantCopy(val3, & m_var3))) + return hr; + if (FAILED(hr = VariantCopy(val4, & m_var4))) + return hr; + + return S_OK; +} + +STDMETHODIMP CBasic::get_prpMultiArg1(VARIANT* val1, VARIANT* val2, VARIANT* pVal) +{ + HRESULT hr = S_OK; + CComVariant tmp1(*val1); + CComVariant tmp2(*val2); + + if (FAILED(hr = VariantCopy(val1, & m_var1))) + return hr; + if (FAILED(hr = VariantCopy(val2, & m_var2))) + return hr; + m_var1 = tmp1; + m_var2 = tmp2; + if (FAILED(hr = VariantCopy(pVal, & m_var3))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpMultiArg1(VARIANT* val1, VARIANT* val2, VARIANT* newVal) +{ + HRESULT hr = S_OK; + CComVariant tmp1( * val1); + CComVariant tmp2( * val2); + + if (FAILED(hr = VariantCopy(val1, & m_var1))) + return hr; + if (FAILED(hr = VariantCopy(val2, & m_var2))) + return hr; + m_var1 = tmp1; + m_var2 = tmp2; + + m_var3 = *newVal; + return S_OK; +} + +// tagVARIANT DISPATCH_PROPERTYPUT DISPID_PROPERTYPUT VARIANTARG LOCALE_USER_DEFAULT + +STDMETHODIMP CBasic::get_prpMultiArg2(VARIANT val1, VARIANT* pVal) +{ + HRESULT hr = S_OK; + m_var1 = val1; + + if (FAILED(hr = VariantCopy(pVal, & m_var2))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpMultiArg2(VARIANT val1, VARIANT newVal) +{ + m_var1 = val1; + m_var2 = newVal; + return S_OK; +} + +// returns the values set by prpMultiArg2 +STDMETHODIMP CBasic::prpMultiArg2GetValues(VARIANT* val1, VARIANT* valProperty) +{ + HRESULT hr = S_OK; + if (FAILED(VariantCopy(val1, & m_var1))) + return hr; + if (FAILED(VariantCopy(valProperty, & m_var2))) + return hr; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpMultiArg3(LONG* val1, LONG* pVal) +{ + long aLong = *val1; + *val1 = m_long; + m_long = aLong; + + * pVal = m_long2; + return S_OK; +} + +STDMETHODIMP CBasic::put_prpMultiArg3(LONG* val1, LONG newVal) +{ + long aLong = *val1; + *val1 = m_long; + m_long = aLong; + + m_long2 = newVal; + return S_OK; +} + +STDMETHODIMP CBasic::inUnknown(IUnknown* val) +{ + m_unknown = val; + + return S_OK; +} + +STDMETHODIMP CBasic::outUnknown(IUnknown** val) +{ + m_unknown.CopyTo(val); + return S_OK; +} + +STDMETHODIMP CBasic::inoutUnknown(IUnknown** val) +{ + CComPtr<IUnknown> tmp = *val; + m_unknown.CopyTo(val); + m_unknown = tmp; + return S_OK; +} + +STDMETHODIMP CBasic::get_prpUnknown(IUnknown** pVal) +{ + m_prpUnknown.CopyTo(pVal); + return S_OK; +} + +STDMETHODIMP CBasic::put_prpUnknown(IUnknown* newVal) +{ + m_prpUnknown = newVal; + return S_OK; +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |