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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_extensions.hxx" #pragma warning(disable: 4917) #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star::lang; using namespace com::sun::star::uno; using namespace com::sun::star::script; using namespace com::sun::star::bridge; using namespace com::sun::star::bridge::ModelDependent; using namespace cppu; using namespace rtl; HRESULT doTest(); bool incrementMultidimensionalIndex( sal_Int32 dimensions, const sal_Int32 * parDimensionLengths, sal_Int32 * parMultidimensionalIndex); int __cdecl _tmain( int /*argc*/, _TCHAR * /*argv[]*/ ) { HRESULT hr; if( FAILED( hr=CoInitialize(NULL))) { _tprintf(_T("CoInitialize failed \n")); return -1; } if( FAILED(hr=doTest())) { _com_error err( hr); const TCHAR * errMsg= err.ErrorMessage(); MessageBox( NULL, errMsg, "Test failed", MB_ICONERROR); } CoUninitialize(); return 0; } HRESULT doTest() { HRESULT hr= S_OK; long j = 0; SAFEARRAY* par; CComDispatchDriver disp; CComVariant result; CComVariant param1; CComPtr spUnkFactory; if( SUCCEEDED( spUnkFactory.CoCreateInstance(L"com.sun.star.ServiceManager"))) { disp= spUnkFactory; param1= L"oletest.OleTest"; disp.Invoke1( L"createInstance", ¶m1, &result); disp= result.pdispVal; // disp contains now oletest.OleTest // one dimensional array par= SafeArrayCreateVector( VT_UI1, 0, 5); unsigned char arbyte[]= { 1,2,3,4,5}; for(long i= 0; i < 5;i++) hr= SafeArrayPutElement( par, &i, &arbyte[i]); result.Clear(); param1.vt= VT_ARRAY| VT_UI1; param1.byref= par; disp.Invoke1(L"methodByte", ¶m1, &result); SafeArrayDestroy( par); // two dimensional array SAFEARRAYBOUND bounds[2]; // least significant dimension first, Dimension 1 bounds[0].cElements= 3; bounds[0].lLbound= 0; // Dimension 2 bounds[1].cElements= 2; bounds[1].lLbound= 0; par= SafeArrayCreate( VT_I4, 2, bounds ); long uBound1; long uBound2; hr= SafeArrayGetUBound( par, 1, &uBound1); hr= SafeArrayGetUBound( par, 2, &uBound2); long index2[2]; memset( index2, 0, 2 * sizeof( long) ); long dimLengths[]={3,2}; long data; do { data= index2[1] * 3 + index2[0] +1; hr= SafeArrayPutElement( par, index2, &data); }while( incrementMultidimensionalIndex( 2, dimLengths, index2) ); long* pdata; long (*dataL)[2][3]; hr= SafeArrayAccessData( par, (void**)&pdata); dataL= (long(*)[2][3])pdata; for (long i= 0; i < 2; i ++) { for(long j= 0; j < 3; j++) data= (*dataL)[i][j]; } hr= SafeArrayUnaccessData(par); result.Clear(); param1.vt= VT_ARRAY | VT_I4; param1.byref= par; disp.Invoke1(L"methodSequence", ¶m1, &result); SAFEARRAY* arRet= result.parray; for(long i= 0; i < 2 ; i++) { CComVariant varx; varx.Clear(); hr= SafeArrayGetElement( arRet, &i, &varx); SAFEARRAY* ari= varx.parray; for( j= 0; j < 3; j++) { CComVariant varj; varj.Clear(); hr= SafeArrayGetElement( ari, &j, &varj); } } SafeArrayDestroy( par); } return hr; } // left index is least significant bool incrementMultidimensionalIndex( sal_Int32 dimensions, const sal_Int32 * parDimensionLengths, sal_Int32 * parMultidimensionalIndex) { if( dimensions < 1) return sal_False; bool ret= sal_True; bool carry= sal_True; // to get into the while loop sal_Int32 currentDimension= 0; //most significant is 1 while( carry) { parMultidimensionalIndex[ currentDimension ]++; // if carryover, set index to 0 and handle carry on a level above if( parMultidimensionalIndex[ currentDimension] > (parDimensionLengths[ currentDimension] - 1)) parMultidimensionalIndex[ currentDimension]= 0; else carry= sal_False; currentDimension ++; // if dimensions drops below 1 and carry is set than then all indices are 0 again // this is signalled by returning sal_False if( currentDimension > dimensions - 1 && carry) { carry= sal_False; ret= sal_False; } } return ret; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */