/************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ #include "analysis.hxx" #include #include #include #include #include #include #include #include "analysis.hrc" #include "bessel.hxx" #define ADDIN_SERVICE "com.sun.star.sheet.AddIn" #define MY_SERVICE "com.sun.star.sheet.addin.Analysis" #define MY_IMPLNAME "com.sun.star.sheet.addin.AnalysisImpl" using namespace ::rtl; using namespace ::com::sun::star; //------------------------------------------------------------------ // // entry points for service registration / instantiation // //------------------------------------------------------------------ extern "C" { void SAL_CALL component_getImplementationEnvironment( const sal_Char** ppEnvTypeName, uno_Environment** /*ppEnv*/ ) { *ppEnvTypeName = CPPU_CURRENT_LANGUAGE_BINDING_NAME; } void* SAL_CALL component_getFactory( const sal_Char* pImplName, void* pServiceManager, void* /*pRegistryKey*/ ) { void* pRet = 0; if( pServiceManager && STRING::createFromAscii( pImplName ) == AnalysisAddIn::getImplementationName_Static() ) { REF( lang::XSingleServiceFactory ) xFactory( cppu::createOneInstanceFactory( reinterpret_cast< lang::XMultiServiceFactory* >( pServiceManager ), AnalysisAddIn::getImplementationName_Static(), AnalysisAddIn_CreateInstance, AnalysisAddIn::getSupportedServiceNames_Static() ) ); if( xFactory.is() ) { xFactory->acquire(); pRet = xFactory.get(); } } return pRet; } } // extern C //------------------------------------------------------------------------ // // "normal" service implementation // //------------------------------------------------------------------------ ResMgr& AnalysisAddIn::GetResMgr( void ) THROWDEF_RTE { if( !pResMgr ) { InitData(); // try to get resource manager if( !pResMgr ) THROW_RTE; } return *pResMgr; } STRING AnalysisAddIn::GetDisplFuncStr( sal_uInt16 nFuncNum ) THROWDEF_RTE { return String( AnalysisRscStrLoader( RID_ANALYSIS_FUNCTION_NAMES, nFuncNum, GetResMgr() ).GetString() ); } class AnalysisResourcePublisher : public Resource { public: AnalysisResourcePublisher( const AnalysisResId& rId ) : Resource( rId ) {} sal_Bool IsAvailableRes( const ResId& rId ) const { return Resource::IsAvailableRes( rId ); } void FreeResource() { Resource::FreeResource(); } }; class AnalysisFuncRes : public Resource { public: AnalysisFuncRes( ResId& rRes, ResMgr& rResMgr, sal_uInt16 nInd, STRING& rRet ); }; AnalysisFuncRes::AnalysisFuncRes( ResId& rRes, ResMgr& rResMgr, sal_uInt16 nInd, STRING& rRet ) : Resource( rRes ) { rRet = String( AnalysisResId( nInd, rResMgr ) ); FreeResource(); } STRING AnalysisAddIn::GetFuncDescrStr( sal_uInt16 nResId, sal_uInt16 nStrIndex ) THROWDEF_RTE { STRING aRet; AnalysisResourcePublisher aResPubl( AnalysisResId( RID_ANALYSIS_FUNCTION_DESCRIPTIONS, GetResMgr() ) ); AnalysisResId aRes( nResId, GetResMgr() ); aRes.SetRT( RSC_RESOURCE ); if( aResPubl.IsAvailableRes( aRes ) ) { AnalysisFuncRes aSubRes( aRes, GetResMgr(), nStrIndex, aRet ); } aResPubl.FreeResource(); return aRet; } void AnalysisAddIn::InitData( void ) { if( pResMgr ) delete pResMgr; OString aModName( "analysis" ); pResMgr = ResMgr::CreateResMgr( ( const sal_Char* ) aModName, aFuncLoc ); if( pFD ) delete pFD; if( pResMgr ) pFD = new FuncDataList( *pResMgr ); else pFD = NULL; if( pDefLocales ) { delete pDefLocales; pDefLocales = NULL; } } AnalysisAddIn::AnalysisAddIn( const uno::Reference< lang::XMultiServiceFactory >& xServiceFact ) : pDefLocales( NULL ), pFD( NULL ), pFactDoubles( NULL ), pCDL( NULL ), pResMgr( NULL ), aAnyConv( xServiceFact ) { } AnalysisAddIn::~AnalysisAddIn() { if( pFD ) delete pFD; if( pFactDoubles ) delete[] pFactDoubles; if( pCDL ) delete pCDL; // if( pResMgr ) no delete, because _all_ resource managers are deleted _before_ this dtor is called // delete pResMgr; if( pDefLocales ) delete[] pDefLocales; } sal_Int32 AnalysisAddIn::getDateMode( const uno::Reference< beans::XPropertySet >& xPropSet, const uno::Any& rAny ) throw( uno::RuntimeException, lang::IllegalArgumentException ) { sal_Int32 nMode = aAnyConv.getInt32( xPropSet, rAny, 0 ); if( (nMode < 0) || (nMode > 4) ) throw lang::IllegalArgumentException(); return nMode; } //----------------------------------------------------------------------------- #define MAXFACTDOUBLE 300 double AnalysisAddIn::FactDouble( sal_Int32 nNum ) THROWDEF_RTE_IAE { if( nNum < 0 || nNum > MAXFACTDOUBLE ) THROW_IAE; if( !pFactDoubles ) { pFactDoubles = new double[ MAXFACTDOUBLE + 1 ]; pFactDoubles[ 0 ] = 1.0; // by default double fOdd = 1.0; double fEven = 2.0; pFactDoubles[ 1 ] = fOdd; pFactDoubles[ 2 ] = fEven; sal_Bool bOdd = sal_True; for( sal_uInt16 nCnt = 3 ; nCnt <= MAXFACTDOUBLE ; nCnt++ ) { if( bOdd ) { fOdd *= nCnt; pFactDoubles[ nCnt ] = fOdd; } else { fEven *= nCnt; pFactDoubles[ nCnt ] = fEven; } bOdd = !bOdd; } } return pFactDoubles[ nNum ]; } STRING AnalysisAddIn::getImplementationName_Static() { return STRFROMASCII( MY_IMPLNAME ); } SEQ( STRING ) AnalysisAddIn::getSupportedServiceNames_Static() { SEQ( STRING ) aRet(2); STRING* pArray = aRet.getArray(); pArray[0] = STRFROMASCII( ADDIN_SERVICE ); pArray[1] = STRFROMASCII( MY_SERVICE ); return aRet; } REF( uno::XInterface ) SAL_CALL AnalysisAddIn_CreateInstance( const uno::Reference< lang::XMultiServiceFactory >& xServiceFact ) { static uno::Reference< uno::XInterface > xInst = (cppu::OWeakObject*) new AnalysisAddIn( xServiceFact ); return xInst; } // XServiceName STRING SAL_CALL AnalysisAddIn::getServiceName() THROWDEF_RTE { // name of specific AddIn service return STRFROMASCII( MY_SERVICE ); } // XServiceInfo STRING SAL_CALL AnalysisAddIn::getImplementationName() THROWDEF_RTE { return getImplementationName_Static(); } sal_Bool SAL_CALL AnalysisAddIn::supportsService( const STRING& aName ) THROWDEF_RTE { return aName.compareToAscii( ADDIN_SERVICE ) == 0 || aName.compareToAscii( MY_SERVICE ) == 0; } SEQ( STRING ) SAL_CALL AnalysisAddIn::getSupportedServiceNames() THROWDEF_RTE { return getSupportedServiceNames_Static(); } // XLocalizable void SAL_CALL AnalysisAddIn::setLocale( const lang::Locale& eLocale ) THROWDEF_RTE { aFuncLoc = eLocale; InitData(); // change of locale invalidates resources! } lang::Locale SAL_CALL AnalysisAddIn::getLocale() THROWDEF_RTE { return aFuncLoc; } // XAddIn STRING SAL_CALL AnalysisAddIn::getProgrammaticFuntionName( const STRING& ) THROWDEF_RTE { // not used by calc // (but should be implemented for other uses of the AddIn service) return STRING(); } STRING SAL_CALL AnalysisAddIn::getDisplayFunctionName( const STRING& aProgrammaticName ) THROWDEF_RTE { STRING aRet; const FuncData* p = pFD->Get( aProgrammaticName ); if( p ) { aRet = GetDisplFuncStr( p->GetUINameID() ); if( p->IsDouble() ) aRet += STRFROMANSI( "_ADD" ); } else { aRet = STRFROMANSI( "UNKNOWNFUNC_" ); aRet += aProgrammaticName; } return aRet; } STRING SAL_CALL AnalysisAddIn::getFunctionDescription( const STRING& aProgrammaticName ) THROWDEF_RTE { STRING aRet; const FuncData* p = pFD->Get( aProgrammaticName ); if( p ) aRet = GetFuncDescrStr( p->GetDescrID(), 1 ); return aRet; } STRING SAL_CALL AnalysisAddIn::getDisplayArgumentName( const STRING& aName, sal_Int32 nArg ) THROWDEF_RTE { STRING aRet; const FuncData* p = pFD->Get( aName ); if( p && nArg <= 0xFFFF ) { sal_uInt16 nStr = p->GetStrIndex( sal_uInt16( nArg ) ); if( nStr /*&& nStr < 4*/ ) aRet = GetFuncDescrStr( p->GetDescrID(), nStr ); else aRet = STRFROMANSI( "internal" ); } return aRet; } STRING SAL_CALL AnalysisAddIn::getArgumentDescription( const STRING& aName, sal_Int32 nArg ) THROWDEF_RTE { STRING aRet; const FuncData* p = pFD->Get( aName ); if( p && nArg <= 0xFFFF ) { sal_uInt16 nStr = p->GetStrIndex( sal_uInt16( nArg ) ); if( nStr /*&& nStr < 4*/ ) aRet = GetFuncDescrStr( p->GetDescrID(), nStr + 1 ); else aRet = STRFROMANSI( "for internal use only" ); } return aRet; } static const char* pDefCatName = "Add-In"; STRING SAL_CALL AnalysisAddIn::getProgrammaticCategoryName( const STRING& aName ) THROWDEF_RTE { // return non-translated strings // return STRFROMASCII( "Add-In" ); const FuncData* p = pFD->Get( aName ); STRING aRet; if( p ) { const sal_Char* pStr; switch( p->GetCategory() ) { case FDCat_DateTime: pStr = "Date&Time"; break; case FDCat_Finance: pStr = "Financial"; break; case FDCat_Inf: pStr = "Information"; break; case FDCat_Math: pStr = "Mathematical"; break; case FDCat_Tech: pStr = "Technical"; break; default: pStr = pDefCatName; break; } aRet = STRFROMASCII( pStr ); } else aRet = STRFROMASCII( pDefCatName ); return aRet; } STRING SAL_CALL AnalysisAddIn::getDisplayCategoryName( const STRING& aProgrammaticFunctionName ) THROWDEF_RTE { // return translated strings, not used for predefined categories // return STRFROMASCII( "Add-In" ); const FuncData* p = pFD->Get( aProgrammaticFunctionName ); STRING aRet; if( p ) { const sal_Char* pStr; switch( p->GetCategory() ) { case FDCat_DateTime: pStr = "Date&Time"; break; case FDCat_Finance: pStr = "Financial"; break; case FDCat_Inf: pStr = "Information"; break; case FDCat_Math: pStr = "Mathematical"; break; case FDCat_Tech: pStr = "Technical"; break; default: pStr = pDefCatName; break; } aRet = STRFROMASCII( pStr ); } else aRet = STRFROMASCII( pDefCatName ); return aRet; } static const sal_Char* pLang[] = { "de", "en" }; static const sal_Char* pCoun[] = { "DE", "US" }; static const sal_uInt32 nNumOfLoc = sizeof( pLang ) / sizeof( sal_Char* ); void AnalysisAddIn::InitDefLocales( void ) { pDefLocales = new CSS::lang::Locale[ nNumOfLoc ]; for( sal_uInt32 n = 0 ; n < nNumOfLoc ; n++ ) { pDefLocales[ n ].Language = STRING::createFromAscii( pLang[ n ] ); pDefLocales[ n ].Country = STRING::createFromAscii( pCoun[ n ] ); } } inline const CSS::lang::Locale& AnalysisAddIn::GetLocale( sal_uInt32 nInd ) { if( !pDefLocales ) InitDefLocales(); if( nInd < sizeof( pLang ) ) return pDefLocales[ nInd ]; else return aFuncLoc; } SEQofLocName SAL_CALL AnalysisAddIn::getCompatibilityNames( const STRING& aProgrammaticName ) THROWDEF_RTE { const FuncData* p = pFD->Get( aProgrammaticName ); if( !p ) return SEQofLocName( 0 ); const StringList& r = p->GetCompNameList(); sal_uInt32 nCount = r.Count(); SEQofLocName aRet( nCount ); CSS::sheet::LocalizedName* pArray = aRet.getArray(); for( sal_uInt32 n = 0 ; n < nCount ; n++ ) { pArray[ n ] = CSS::sheet::LocalizedName( GetLocale( n ), *r.Get( n ) ); } return aRet; } // XAnalysis /*double SAL_CALL AnalysisAddIn::get_Test( constREFXPS&, sal_Int32 nMode, double f1, double f2, double f3 ) THROWDEF_RTE { return _Test( nMode, f1, f2, f3 ); }*/ /** * Workday */ sal_Int32 SAL_CALL AnalysisAddIn::getWorkday( constREFXPS& xOptions, sal_Int32 nDate, sal_Int32 nDays, const ANY& aHDay ) THROWDEF_RTE_IAE { if( !nDays ) return nDate; sal_Int32 nNullDate = GetNullDate( xOptions ); SortedIndividualInt32List aSrtLst; aSrtLst.InsertHolidayList( aAnyConv, xOptions, aHDay, nNullDate, sal_False ); sal_Int32 nActDate = nDate + nNullDate; if( nDays > 0 ) { if( GetDayOfWeek( nActDate ) == 5 ) // when starting on Saturday, assuming we're starting on Sunday to get the jump over the weekend nActDate++; while( nDays ) { nActDate++; if( GetDayOfWeek( nActDate ) < 5 ) { if( !aSrtLst.Find( nActDate ) ) nDays--; } else nActDate++; // jump over weekend } } else { if( GetDayOfWeek( nActDate ) == 6 ) // when starting on Sunday, assuming we're starting on Saturday to get the jump over the weekend nActDate--; while( nDays ) { nActDate--; if( GetDayOfWeek( nActDate ) < 5 ) { if( !aSrtLst.Find( nActDate ) ) nDays++; } else nActDate--; // jump over weekend } } return nActDate - nNullDate; } /** * Yearfrac */ double SAL_CALL AnalysisAddIn::getYearfrac( constREFXPS& xOpt, sal_Int32 nStartDate, sal_Int32 nEndDate, const ANY& rMode ) THROWDEF_RTE_IAE { double fRet = GetYearFrac( xOpt, nStartDate, nEndDate, getDateMode( xOpt, rMode ) ); RETURN_FINITE( fRet ); } sal_Int32 SAL_CALL AnalysisAddIn::getEdate( constREFXPS& xOpt, sal_Int32 nStartDate, sal_Int32 nMonths ) THROWDEF_RTE_IAE { sal_Int32 nNullDate = GetNullDate( xOpt ); ScaDate aDate( nNullDate, nStartDate, 5 ); aDate.addMonths( nMonths ); return aDate.getDate( nNullDate ); } sal_Int32 SAL_CALL AnalysisAddIn::getWeeknum( constREFXPS& xOpt, sal_Int32 nDate, sal_Int32 nMode ) THROWDEF_RTE_IAE { nDate += GetNullDate( xOpt ); sal_uInt16 nDay, nMonth, nYear; DaysToDate( nDate, nDay, nMonth, nYear ); sal_Int32 nFirstInYear = DateToDays( 1, 1, nYear ); sal_uInt16 nFirstDayInYear = GetDayOfWeek( nFirstInYear ); return ( nDate - nFirstInYear + ( ( nMode == 1 )? ( nFirstDayInYear + 1 ) % 7 : nFirstDayInYear ) ) / 7 + 1; } sal_Int32 SAL_CALL AnalysisAddIn::getEomonth( constREFXPS& xOpt, sal_Int32 nDate, sal_Int32 nMonths ) THROWDEF_RTE_IAE { sal_Int32 nNullDate = GetNullDate( xOpt ); nDate += nNullDate; sal_uInt16 nDay, nMonth, nYear; DaysToDate( nDate, nDay, nMonth, nYear ); sal_Int32 nNewMonth = nMonth + nMonths; if( nNewMonth > 12 ) { nYear = sal::static_int_cast( nYear + ( nNewMonth / 12 ) ); nNewMonth %= 12; } else if( nNewMonth < 1 ) { nNewMonth = -nNewMonth; nYear = sal::static_int_cast( nYear - ( nNewMonth / 12 ) ); nYear--; nNewMonth %= 12; nNewMonth = 12 - nNewMonth; } return DateToDays( DaysInMonth( sal_uInt16( nNewMonth ), nYear ), sal_uInt16( nNewMonth ), nYear ) - nNullDate; } sal_Int32 SAL_CALL AnalysisAddIn::getNetworkdays( constREFXPS& xOpt, sal_Int32 nStartDate, sal_Int32 nEndDate, const ANY& aHDay ) THROWDEF_RTE_IAE { sal_Int32 nNullDate = GetNullDate( xOpt ); SortedIndividualInt32List aSrtLst; aSrtLst.InsertHolidayList( aAnyConv, xOpt, aHDay, nNullDate, sal_False ); sal_Int32 nActDate = nStartDate + nNullDate; sal_Int32 nStopDate = nEndDate + nNullDate; sal_Int32 nCnt = 0; if( nActDate <= nStopDate ) { while( nActDate <= nStopDate ) { if( GetDayOfWeek( nActDate ) < 5 && !aSrtLst.Find( nActDate ) ) nCnt++; nActDate++; } } else { while( nActDate >= nStopDate ) { if( GetDayOfWeek( nActDate ) < 5 && !aSrtLst.Find( nActDate ) ) nCnt--; nActDate--; } } return nCnt; } sal_Int32 SAL_CALL AnalysisAddIn::getIseven( sal_Int32 nVal ) THROWDEF_RTE_IAE { return ( nVal & 0x00000001 )? 0 : 1; } sal_Int32 SAL_CALL AnalysisAddIn::getIsodd( sal_Int32 nVal ) THROWDEF_RTE_IAE { return ( nVal & 0x00000001 )? 1 : 0; } double SAL_CALL AnalysisAddIn::getMultinomial( constREFXPS& xOpt, const SEQSEQ( sal_Int32 )& aVLst, const SEQ( uno::Any )& aOptVLst ) THROWDEF_RTE_IAE { ScaDoubleListGE0 aValList; aValList.Append( aVLst ); aValList.Append( aAnyConv, xOpt, aOptVLst ); if( aValList.Count() == 0 ) return 0.0; sal_Int32 nZ = 0; double fN = 1.0; for( const double *p = aValList.First(); p; p = aValList.Next() ) { double fInt = (*p >= 0.0) ? rtl::math::approxFloor( *p ) : rtl::math::approxCeil( *p ); if ( fInt < 0.0 || fInt > 170.0 ) THROW_IAE; sal_Int32 n = static_cast< sal_Int32 >( fInt ); if( n > 0 ) { nZ += n; fN *= Fak( n ); } } if( nZ > 170 ) THROW_IAE; double fRet = Fak( nZ ) / fN; RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getSeriessum( double fX, double fN, double fM, const SEQSEQ( double )& aCoeffList ) THROWDEF_RTE_IAE { double fRet = 0.0; // #i32269# 0^0 is undefined, Excel returns #NUM! error if( fX == 0.0 && fN == 0 ) THROW_RTE; if( fX != 0.0 ) { sal_Int32 n1, n2; sal_Int32 nE1 = aCoeffList.getLength(); sal_Int32 nE2; //sal_Int32 nZ = 0; for( n1 = 0 ; n1 < nE1 ; n1++ ) { const SEQ( double )& rList = aCoeffList[ n1 ]; nE2 = rList.getLength(); const double* pList = rList.getConstArray(); for( n2 = 0 ; n2 < nE2 ; n2++ ) { fRet += pList[ n2 ] * pow( fX, fN ); fN += fM; } } } RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getQuotient( double fNum, double fDenom ) THROWDEF_RTE_IAE { double fRet; if( (fNum < 0) != (fDenom < 0) ) fRet = ::rtl::math::approxCeil( fNum / fDenom ); else fRet = ::rtl::math::approxFloor( fNum / fDenom ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getMround( double fNum, double fMult ) THROWDEF_RTE_IAE { if( fMult == 0.0 ) return fMult; double fRet = fMult * ::rtl::math::round( fNum / fMult ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getSqrtpi( double fNum ) THROWDEF_RTE_IAE { double fRet = sqrt( fNum * PI ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getRandbetween( double fMin, double fMax ) THROWDEF_RTE_IAE { fMin = ::rtl::math::round( fMin, 0, rtl_math_RoundingMode_Up ); fMax = ::rtl::math::round( fMax, 0, rtl_math_RoundingMode_Up ); if( fMin > fMax ) THROW_IAE; // fMax -> range double fRet = fMax - fMin + 1.0; fRet *= rand(); fRet /= (RAND_MAX + 1.0); fRet += fMin; fRet = floor( fRet ); // simple floor is sufficient here RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getGcd( constREFXPS& xOpt, const SEQSEQ( double )& aVLst, const SEQ( uno::Any )& aOptVLst ) THROWDEF_RTE_IAE { ScaDoubleListGT0 aValList; aValList.Append( aVLst ); aValList.Append( aAnyConv, xOpt, aOptVLst ); if( aValList.Count() == 0 ) return 0.0; const double* p = aValList.First(); double f = *p; p = aValList.Next(); while( p ) { f = GetGcd( *p, f ); p = aValList.Next(); } RETURN_FINITE( f ); } double SAL_CALL AnalysisAddIn::getLcm( constREFXPS& xOpt, const SEQSEQ( double )& aVLst, const SEQ( uno::Any )& aOptVLst ) THROWDEF_RTE_IAE { ScaDoubleListGE0 aValList; aValList.Append( aVLst ); aValList.Append( aAnyConv, xOpt, aOptVLst ); if( aValList.Count() == 0 ) return 0.0; const double* p = aValList.First(); double f = *p; if( f == 0.0 ) return f; p = aValList.Next(); while( p ) { double fTmp = *p; if( f == 0.0 ) return f; else f = fTmp * f / GetGcd( fTmp, f ); p = aValList.Next(); } RETURN_FINITE( f ); } double SAL_CALL AnalysisAddIn::getBesseli( double fNum, sal_Int32 nOrder ) THROWDEF_RTE_IAE_NCE { double fRet = sca::analysis::BesselI( fNum, nOrder ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getBesselj( double fNum, sal_Int32 nOrder ) THROWDEF_RTE_IAE_NCE { double fRet = sca::analysis::BesselJ( fNum, nOrder ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getBesselk( double fNum, sal_Int32 nOrder ) THROWDEF_RTE_IAE_NCE { if( nOrder < 0 || fNum <= 0.0 ) THROW_IAE; double fRet = sca::analysis::BesselK( fNum, nOrder ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getBessely( double fNum, sal_Int32 nOrder ) THROWDEF_RTE_IAE_NCE { if( nOrder < 0 || fNum <= 0.0 ) THROW_IAE; // return yn( nOrder, fNum ); double fRet = sca::analysis::BesselY( fNum, nOrder ); RETURN_FINITE( fRet ); } const double SCA_MAX2 = 511.0; // min. val for binary numbers (9 bits + sign) const double SCA_MIN2 = -SCA_MAX2-1.0; // min. val for binary numbers (9 bits + sign) const double SCA_MAX8 = 536870911.0; // max. val for octal numbers (29 bits + sign) const double SCA_MIN8 = -SCA_MAX8-1.0; // min. val for octal numbers (29 bits + sign) const double SCA_MAX16 = 549755813888.0; // max. val for hexadecimal numbers (39 bits + sign) const double SCA_MIN16 = -SCA_MAX16-1.0; // min. val for hexadecimal numbers (39 bits + sign) const sal_Int32 SCA_MAXPLACES = 10; // max. number of places STRING SAL_CALL AnalysisAddIn::getBin2Oct( constREFXPS& xOpt, const STRING& aNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { double fVal = ConvertToDec( aNum, 2, SCA_MAXPLACES ); sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fVal, SCA_MIN8, SCA_MAX8, 8, nPlaces, SCA_MAXPLACES, bUsePlaces ); } double SAL_CALL AnalysisAddIn::getBin2Dec( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = ConvertToDec( aNum, 2, SCA_MAXPLACES ); RETURN_FINITE( fRet ); } STRING SAL_CALL AnalysisAddIn::getBin2Hex( constREFXPS& xOpt, const STRING& aNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { double fVal = ConvertToDec( aNum, 2, SCA_MAXPLACES ); sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fVal, SCA_MIN16, SCA_MAX16, 16, nPlaces, SCA_MAXPLACES, bUsePlaces ); } STRING SAL_CALL AnalysisAddIn::getOct2Bin( constREFXPS& xOpt, const STRING& aNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { double fVal = ConvertToDec( aNum, 8, SCA_MAXPLACES ); sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fVal, SCA_MIN2, SCA_MAX2, 2, nPlaces, SCA_MAXPLACES, bUsePlaces ); } double SAL_CALL AnalysisAddIn::getOct2Dec( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = ConvertToDec( aNum, 8, SCA_MAXPLACES ); RETURN_FINITE( fRet ); } STRING SAL_CALL AnalysisAddIn::getOct2Hex( constREFXPS& xOpt, const STRING& aNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { double fVal = ConvertToDec( aNum, 8, SCA_MAXPLACES ); sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fVal, SCA_MIN16, SCA_MAX16, 16, nPlaces, SCA_MAXPLACES, bUsePlaces ); } STRING SAL_CALL AnalysisAddIn::getDec2Bin( constREFXPS& xOpt, sal_Int32 nNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( nNum, SCA_MIN2, SCA_MAX2, 2, nPlaces, SCA_MAXPLACES, bUsePlaces ); } STRING SAL_CALL AnalysisAddIn::getDec2Oct( constREFXPS& xOpt, sal_Int32 nNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( nNum, SCA_MIN8, SCA_MAX8, 8, nPlaces, SCA_MAXPLACES, bUsePlaces ); } STRING SAL_CALL AnalysisAddIn::getDec2Hex( constREFXPS& xOpt, double fNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fNum, SCA_MIN16, SCA_MAX16, 16, nPlaces, SCA_MAXPLACES, bUsePlaces ); } STRING SAL_CALL AnalysisAddIn::getHex2Bin( constREFXPS& xOpt, const STRING& aNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { double fVal = ConvertToDec( aNum, 16, SCA_MAXPLACES ); sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fVal, SCA_MIN2, SCA_MAX2, 2, nPlaces, SCA_MAXPLACES, bUsePlaces ); } double SAL_CALL AnalysisAddIn::getHex2Dec( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = ConvertToDec( aNum, 16, SCA_MAXPLACES ); RETURN_FINITE( fRet ); } STRING SAL_CALL AnalysisAddIn::getHex2Oct( constREFXPS& xOpt, const STRING& aNum, const ANY& rPlaces ) THROWDEF_RTE_IAE { double fVal = ConvertToDec( aNum, 16, SCA_MAXPLACES ); sal_Int32 nPlaces = 0; sal_Bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces ); return ConvertFromDec( fVal, SCA_MIN8, SCA_MAX8, 8, nPlaces, SCA_MAXPLACES, bUsePlaces ); } sal_Int32 SAL_CALL AnalysisAddIn::getDelta( constREFXPS& xOpt, double fNum1, const ANY& rNum2 ) THROWDEF_RTE_IAE { return fNum1 == aAnyConv.getDouble( xOpt, rNum2, 0.0 ); } double SAL_CALL AnalysisAddIn::getErf( constREFXPS& xOpt, double fLL, const ANY& rUL ) THROWDEF_RTE_IAE { double fUL, fRet; sal_Bool bContainsValue = aAnyConv.getDouble( fUL, xOpt, rUL ); fRet = bContainsValue ? (Erf( fUL ) - Erf( fLL )) : Erf( fLL ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getErfc( double f ) THROWDEF_RTE_IAE { double fRet = Erfc( f ); RETURN_FINITE( fRet ); } sal_Int32 SAL_CALL AnalysisAddIn::getGestep( constREFXPS& xOpt, double fNum, const ANY& rStep ) THROWDEF_RTE_IAE { return fNum >= aAnyConv.getDouble( xOpt, rStep, 0.0 ); } double SAL_CALL AnalysisAddIn::getFactdouble( sal_Int32 nNum ) THROWDEF_RTE_IAE { double fRet = FactDouble( nNum ); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getImabs( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = Complex( aNum ).Abs(); RETURN_FINITE( fRet ); } double SAL_CALL AnalysisAddIn::getImaginary( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = Complex( aNum ).Imag(); RETURN_FINITE( fRet ); } STRING SAL_CALL AnalysisAddIn::getImpower( const STRING& aNum, double f ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Power( f ); return z.GetString(); } double SAL_CALL AnalysisAddIn::getImargument( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = Complex( aNum ).Arg(); RETURN_FINITE( fRet ); } STRING SAL_CALL AnalysisAddIn::getImcos( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Cos(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImdiv( const STRING& aDivid, const STRING& aDivis ) THROWDEF_RTE_IAE { Complex z( aDivid ); z.Div( Complex( aDivis ) ); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImexp( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Exp(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImconjugate( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Conjugate(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImln( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Ln(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImlog10( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Log10(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImlog2( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Log2(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImproduct( constREFXPS&, const SEQSEQ( STRING )& aNum1, const SEQ( uno::Any )& aNL ) THROWDEF_RTE_IAE { ComplexList z_list; z_list.Append( aNum1, AH_IgnoreEmpty ); z_list.Append( aNL, AH_IgnoreEmpty ); const Complex* p = z_list.First(); if( !p ) return Complex( 0 ).GetString(); Complex z( *p ); for( p = z_list.Next() ; p ; p = z_list.Next() ) z.Mult( *p ); return z.GetString(); } double SAL_CALL AnalysisAddIn::getImreal( const STRING& aNum ) THROWDEF_RTE_IAE { double fRet = Complex( aNum ).Real(); RETURN_FINITE( fRet ); } STRING SAL_CALL AnalysisAddIn::getImsin( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); z.Sin(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImsub( const STRING& aNum1, const STRING& aNum2 ) THROWDEF_RTE_IAE { Complex z( aNum1 ); z.Sub( Complex( aNum2 ) ); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImsum( constREFXPS&, const SEQSEQ( STRING )& aNum1, const SEQ( CSS::uno::Any )& aFollowingPars ) THROWDEF_RTE_IAE { ComplexList z_list; z_list.Append( aNum1, AH_IgnoreEmpty ); z_list.Append( aFollowingPars, AH_IgnoreEmpty ); const Complex* p = z_list.First(); if( !p ) return Complex( 0 ).GetString(); Complex z( *p ); for( p = z_list.Next() ; p ; p = z_list.Next() ) z.Add( *p ); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getImsqrt( const STRING& aNum ) THROWDEF_RTE_IAE { Complex z( aNum ); // z.Power( 0.5 ); z.Sqrt(); return z.GetString(); } STRING SAL_CALL AnalysisAddIn::getComplex( double fR, double fI, const ANY& rSuff ) THROWDEF_RTE_IAE { sal_Bool bi; switch( rSuff.getValueTypeClass() ) { case uno::TypeClass_VOID: bi = sal_True; break; case uno::TypeClass_STRING: { const STRING* pSuff = ( const STRING* ) rSuff.getValue(); bi = pSuff->compareToAscii( "i" ) == 0 || pSuff->getLength() == 0; if( !bi && pSuff->compareToAscii( "j" ) != 0 ) THROW_IAE; } break; default: THROW_IAE; } return Complex( fR, fI, bi ? 'i' : 'j' ).GetString(); } double SAL_CALL AnalysisAddIn::getConvert( double f, const STRING& aFU, const STRING& aTU ) THROWDEF_RTE_IAE { if( !pCDL ) pCDL = new ConvertDataList(); double fRet = pCDL->Convert( f, aFU, aTU ); RETURN_FINITE( fRet ); }