/* -*- 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 #include #include "sbxconv.hxx" #include // Implementation SbxDecimal SbxDecimal::SbxDecimal() : mnRefCount(0) { setInt( 0 ); } SbxDecimal::SbxDecimal( const SbxDecimal& rDec ) : mnRefCount(0) { #ifdef _WIN32 maDec = rDec.maDec; #else (void)rDec; #endif } SbxDecimal::SbxDecimal ( const css::bridge::oleautomation::Decimal& rAutomationDec ) : mnRefCount(0) { #ifdef _WIN32 maDec.scale = rAutomationDec.Scale; maDec.sign = rAutomationDec.Sign; maDec.Lo32 = rAutomationDec.LowValue; maDec.Mid32 = rAutomationDec.MiddleValue; maDec.Hi32 = rAutomationDec.HighValue; #else (void)rAutomationDec; #endif } void SbxDecimal::fillAutomationDecimal ( css::bridge::oleautomation::Decimal& rAutomationDec ) { #ifdef _WIN32 rAutomationDec.Scale = maDec.scale; rAutomationDec.Sign = maDec.sign; rAutomationDec.LowValue = maDec.Lo32; rAutomationDec.MiddleValue = maDec.Mid32; rAutomationDec.HighValue = maDec.Hi32; #else (void)rAutomationDec; #endif } SbxDecimal::~SbxDecimal() { } void releaseDecimalPtr( SbxDecimal*& rpDecimal ) { if( rpDecimal ) { rpDecimal->mnRefCount--; if( rpDecimal->mnRefCount == 0 ) { delete rpDecimal; rpDecimal = nullptr; } } } #ifdef _WIN32 bool SbxDecimal::operator -= ( const SbxDecimal &r ) { HRESULT hResult = VarDecSub( &maDec, const_cast(&r.maDec), &maDec ); bool bRet = ( hResult == S_OK ); return bRet; } bool SbxDecimal::operator += ( const SbxDecimal &r ) { HRESULT hResult = VarDecAdd( &maDec, const_cast(&r.maDec), &maDec ); bool bRet = ( hResult == S_OK ); return bRet; } bool SbxDecimal::operator /= ( const SbxDecimal &r ) { HRESULT hResult = VarDecDiv( &maDec, const_cast(&r.maDec), &maDec ); bool bRet = ( hResult == S_OK ); return bRet; } bool SbxDecimal::operator *= ( const SbxDecimal &r ) { HRESULT hResult = VarDecMul( &maDec, const_cast(&r.maDec), &maDec ); bool bRet = ( hResult == S_OK ); return bRet; } bool SbxDecimal::neg() { HRESULT hResult = VarDecNeg( &maDec, &maDec ); bool bRet = ( hResult == S_OK ); return bRet; } bool SbxDecimal::isZero() const { SbxDecimal aZeroDec; aZeroDec.setLong( 0 ); bool bZero = CmpResult::EQ == compare( *this, aZeroDec ); return bZero; } SbxDecimal::CmpResult compare( const SbxDecimal &rLeft, const SbxDecimal &rRight ) { HRESULT hResult = VarDecCmp( const_cast(&rLeft.maDec), const_cast(&rRight.maDec) ); SbxDecimal::CmpResult eRes = static_cast(hResult); return eRes; } void SbxDecimal::setChar( sal_Unicode val ) { VarDecFromUI2( static_cast(val), &maDec ); } void SbxDecimal::setByte( sal_uInt8 val ) { VarDecFromUI1( val, &maDec ); } void SbxDecimal::setShort( sal_Int16 val ) { VarDecFromI2( static_cast(val), &maDec ); } void SbxDecimal::setLong( sal_Int32 val ) { VarDecFromI4( static_cast(val), &maDec ); } void SbxDecimal::setUShort( sal_uInt16 val ) { VarDecFromUI2( val, &maDec ); } void SbxDecimal::setULong( sal_uInt32 val ) { VarDecFromUI4( static_cast(val), &maDec ); } bool SbxDecimal::setSingle( float val ) { bool bRet = ( VarDecFromR4( val, &maDec ) == S_OK ); return bRet; } bool SbxDecimal::setDouble( double val ) { bool bRet = ( VarDecFromR8( val, &maDec ) == S_OK ); return bRet; } void SbxDecimal::setInt( int val ) { setLong( static_cast(val) ); } void SbxDecimal::setUInt( unsigned int val ) { setULong( static_cast(val) ); } bool SbxDecimal::setString( OUString* pOUString ) { assert(pOUString); static LCID nLANGID = MAKELANGID( LANG_ENGLISH, SUBLANG_ENGLISH_US ); // Convert delimiter sal_Unicode cDecimalSep; sal_Unicode cThousandSep; sal_Unicode cDecimalSepAlt; ImpGetIntntlSep( cDecimalSep, cThousandSep, cDecimalSepAlt ); bool bRet = false; HRESULT hResult; if( cDecimalSep != '.' || cThousandSep != ',' ) { int nLen = pOUString->getLength(); std::unique_ptr pBuffer(new sal_Unicode[nLen + 1]); pBuffer[nLen] = 0; const sal_Unicode* pSrc = pOUString->getStr(); for( int i = 0 ; i < nLen ; ++i ) { sal_Unicode c = pSrc[i]; if (c == cDecimalSep) c = '.'; else if (c == cThousandSep) c = ','; pBuffer[i] = c; } hResult = VarDecFromStr( o3tl::toW(pBuffer.get()), nLANGID, 0, &maDec ); } else { hResult = VarDecFromStr( o3tl::toW(pOUString->getStr()), nLANGID, 0, &maDec ); } bRet = ( hResult == S_OK ); return bRet; } bool SbxDecimal::getChar( sal_Unicode& rVal ) { USHORT n; bool bRet = ( VarUI2FromDec( &maDec, &n ) == S_OK ); if (bRet) { rVal = n; } return bRet; } bool SbxDecimal::getShort( sal_Int16& rVal ) { bool bRet = ( VarI2FromDec( &maDec, &rVal ) == S_OK ); return bRet; } bool SbxDecimal::getLong( sal_Int32& rVal ) { bool bRet = ( VarI4FromDec( &maDec, &rVal ) == S_OK ); return bRet; } bool SbxDecimal::getUShort( sal_uInt16& rVal ) { bool bRet = ( VarUI2FromDec( &maDec, &rVal ) == S_OK ); return bRet; } bool SbxDecimal::getULong( sal_uInt32& rVal ) { bool bRet = ( VarUI4FromDec( &maDec, &rVal ) == S_OK ); return bRet; } bool SbxDecimal::getSingle( float& rVal ) { bool bRet = ( VarR4FromDec( &maDec, &rVal ) == S_OK ); return bRet; } bool SbxDecimal::getDouble( double& rVal ) { bool bRet = ( VarR8FromDec( &maDec, &rVal ) == S_OK ); return bRet; } #else // !_WIN32 bool SbxDecimal::operator -= ( const SbxDecimal & ) { return false; } bool SbxDecimal::operator += ( const SbxDecimal & ) { return false; } bool SbxDecimal::operator /= ( const SbxDecimal & ) { return false; } bool SbxDecimal::operator *= ( const SbxDecimal & ) { return false; } bool SbxDecimal::neg() { return false; } bool SbxDecimal::isZero() const { return false; } SbxDecimal::CmpResult compare( SAL_UNUSED_PARAMETER const SbxDecimal &, SAL_UNUSED_PARAMETER const SbxDecimal & ) { return SbxDecimal::CmpResult::LT; } void SbxDecimal::setChar( SAL_UNUSED_PARAMETER sal_Unicode ) {} void SbxDecimal::setByte( SAL_UNUSED_PARAMETER sal_uInt8 ) {} void SbxDecimal::setShort( SAL_UNUSED_PARAMETER sal_Int16 ) {} void SbxDecimal::setLong( SAL_UNUSED_PARAMETER sal_Int32 ) {} void SbxDecimal::setUShort( SAL_UNUSED_PARAMETER sal_uInt16 ) {} void SbxDecimal::setULong( SAL_UNUSED_PARAMETER sal_uInt32 ) {} bool SbxDecimal::setSingle( SAL_UNUSED_PARAMETER float ) { return false; } bool SbxDecimal::setDouble( SAL_UNUSED_PARAMETER double ) { return false; } void SbxDecimal::setInt( SAL_UNUSED_PARAMETER int ) {} void SbxDecimal::setUInt( SAL_UNUSED_PARAMETER unsigned int ) {} bool SbxDecimal::setString( SAL_UNUSED_PARAMETER OUString* ) { return false; } bool SbxDecimal::getChar( SAL_UNUSED_PARAMETER sal_Unicode& ) { return false; } bool SbxDecimal::getShort( SAL_UNUSED_PARAMETER sal_Int16& ) { return false; } bool SbxDecimal::getLong( SAL_UNUSED_PARAMETER sal_Int32& ) { return false; } bool SbxDecimal::getUShort( SAL_UNUSED_PARAMETER sal_uInt16& ) { return false; } bool SbxDecimal::getULong( SAL_UNUSED_PARAMETER sal_uInt32& ) { return false; } bool SbxDecimal::getSingle( SAL_UNUSED_PARAMETER float& ) { return false; } bool SbxDecimal::getDouble( SAL_UNUSED_PARAMETER double& ) { return false; } #endif void SbxDecimal::getString( OUString& rString ) { #ifdef _WIN32 static LCID nLANGID = MAKELANGID( LANG_ENGLISH, SUBLANG_ENGLISH_US ); BSTR pBStr = nullptr; // VarBstrFromDec allocates new BSTR that needs to be released with SysFreeString HRESULT hResult = VarBstrFromDec( &maDec, nLANGID, 0, &pBStr ); if( hResult == S_OK ) { // Convert delimiter sal_Unicode cDecimalSep; sal_Unicode cThousandSep; sal_Unicode cDecimalSepAlt; ImpGetIntntlSep( cDecimalSep, cThousandSep, cDecimalSepAlt ); if( cDecimalSep != '.' || cThousandSep != ',' ) { sal_Unicode c; int i = 0; while( (c = pBStr[i]) != 0 ) { if( c == '.' ) pBStr[i] = cDecimalSep; else if( c == ',' ) pBStr[i] = cThousandSep; i++; } } rString = o3tl::toU( pBStr ); SysFreeString( pBStr ); } #else (void)rString; #endif } SbxDecimal* ImpCreateDecimal( SbxValues* p ) { if( !p ) return nullptr; SbxDecimal*& rpDecimal = p->pDecimal; if( rpDecimal == nullptr ) { rpDecimal = new SbxDecimal(); rpDecimal->addRef(); } return rpDecimal; } SbxDecimal* ImpGetDecimal( const SbxValues* p ) { SbxValues aTmp; SbxDecimal* pnDecRes; SbxDataType eType = p->eType; if( eType == SbxDECIMAL && p->pDecimal ) { pnDecRes = new SbxDecimal( *p->pDecimal ); pnDecRes->addRef(); return pnDecRes; } pnDecRes = new SbxDecimal(); pnDecRes->addRef(); start: switch( +eType ) { case SbxNULL: SbxBase::SetError( ERRCODE_BASIC_CONVERSION ); [[fallthrough]]; case SbxEMPTY: pnDecRes->setShort( 0 ); break; case SbxCHAR: pnDecRes->setChar( p->nChar ); break; case SbxBYTE: pnDecRes->setByte( p->nByte ); break; case SbxINTEGER: case SbxBOOL: pnDecRes->setInt( p->nInteger ); break; case SbxERROR: case SbxUSHORT: pnDecRes->setUShort( p->nUShort ); break; case SbxLONG: pnDecRes->setLong( p->nLong ); break; case SbxULONG: pnDecRes->setULong( p->nULong ); break; case SbxSINGLE: if( !pnDecRes->setSingle( p->nSingle ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); break; case SbxCURRENCY: { if( !pnDecRes->setDouble( ImpCurrencyToDouble( p->nInt64 ) ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); break; } case SbxSALINT64: { if( !pnDecRes->setDouble( static_cast(p->nInt64) ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); break; } case SbxSALUINT64: { if( !pnDecRes->setDouble( static_cast(p->uInt64) ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); break; } case SbxDATE: case SbxDOUBLE: { double dVal = p->nDouble; if( !pnDecRes->setDouble( dVal ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); break; } case SbxLPSTR: case SbxSTRING: case SbxBYREF | SbxSTRING: if ( p->pOUString ) pnDecRes->setString( p->pOUString ); break; case SbxOBJECT: { SbxValue* pVal = dynamic_cast( p->pObj ); if( pVal ) pnDecRes->setDecimal( pVal->GetDecimal() ); else { SbxBase::SetError( ERRCODE_BASIC_NO_OBJECT ); pnDecRes->setShort( 0 ); } break; } case SbxBYREF | SbxCHAR: pnDecRes->setChar( *p->pChar ); break; case SbxBYREF | SbxBYTE: pnDecRes->setByte( *p->pByte ); break; case SbxBYREF | SbxINTEGER: case SbxBYREF | SbxBOOL: pnDecRes->setInt( *p->pInteger ); break; case SbxBYREF | SbxLONG: pnDecRes->setLong( *p->pLong ); break; case SbxBYREF | SbxULONG: pnDecRes->setULong( *p->pULong ); break; case SbxBYREF | SbxERROR: case SbxBYREF | SbxUSHORT: pnDecRes->setUShort( *p->pUShort ); break; // from here on had to be tested case SbxBYREF | SbxSINGLE: aTmp.nSingle = *p->pSingle; goto ref; case SbxBYREF | SbxDATE: case SbxBYREF | SbxDOUBLE: aTmp.nDouble = *p->pDouble; goto ref; case SbxBYREF | SbxCURRENCY: case SbxBYREF | SbxSALINT64: aTmp.nInt64 = *p->pnInt64; goto ref; case SbxBYREF | SbxSALUINT64: aTmp.uInt64 = *p->puInt64; goto ref; ref: aTmp.eType = SbxDataType( p->eType & 0x0FFF ); p = &aTmp; goto start; default: SbxBase::SetError( ERRCODE_BASIC_CONVERSION ); pnDecRes->setShort( 0 ); } return pnDecRes; } void ImpPutDecimal( SbxValues* p, SbxDecimal* pDec ) { if( !pDec ) return; SbxValues aTmp; start: switch( +p->eType ) { // here had to be tested case SbxCHAR: aTmp.pChar = &p->nChar; goto direct; case SbxBYTE: aTmp.pByte = &p->nByte; goto direct; case SbxULONG: aTmp.pULong = &p->nULong; goto direct; case SbxERROR: case SbxUSHORT: aTmp.pUShort = &p->nUShort; goto direct; case SbxINTEGER: case SbxBOOL: aTmp.pInteger = &p->nInteger; goto direct; case SbxLONG: aTmp.pLong = &p->nLong; goto direct; case SbxCURRENCY: case SbxSALINT64: aTmp.pnInt64 = &p->nInt64; goto direct; case SbxSALUINT64: aTmp.puInt64 = &p->uInt64; goto direct; direct: aTmp.eType = SbxDataType( p->eType | SbxBYREF ); p = &aTmp; goto start; // from here on no longer case SbxDECIMAL: case SbxBYREF | SbxDECIMAL: { if( pDec != p->pDecimal ) { releaseDecimalPtr( p->pDecimal ); p->pDecimal = pDec; if( pDec ) pDec->addRef(); } break; } case SbxSINGLE: { float f(0.0); pDec->getSingle( f ); p->nSingle = f; break; } case SbxDATE: case SbxDOUBLE: { double d(0.0); pDec->getDouble( d ); p->nDouble = d; break; } case SbxLPSTR: case SbxSTRING: case SbxBYREF | SbxSTRING: if( !p->pOUString ) p->pOUString = new OUString; pDec->getString( *p->pOUString ); break; case SbxOBJECT: { SbxValue* pVal = dynamic_cast( p->pObj ); if( pVal ) pVal->PutDecimal( pDec ); else SbxBase::SetError( ERRCODE_BASIC_NO_OBJECT ); break; } case SbxBYREF | SbxCHAR: if( !pDec->getChar( *p->pChar ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pChar = 0; } break; case SbxBYREF | SbxBYTE: if( !pDec->getChar( *p->pChar ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pByte = 0; } break; case SbxBYREF | SbxINTEGER: case SbxBYREF | SbxBOOL: if( !pDec->getShort( *p->pInteger ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pInteger = 0; } break; case SbxBYREF | SbxERROR: case SbxBYREF | SbxUSHORT: if( !pDec->getUShort( *p->pUShort ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pUShort = 0; } break; case SbxBYREF | SbxLONG: if( !pDec->getLong( *p->pLong ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pLong = 0; } break; case SbxBYREF | SbxULONG: if( !pDec->getULong( *p->pULong ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pULong = 0; } break; case SbxBYREF | SbxCURRENCY: { double d(0.0); if( !pDec->getDouble( d ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pnInt64 = ImpDoubleToCurrency( d ); } break; case SbxBYREF | SbxSALINT64: { double d(0.0); if( !pDec->getDouble( d ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); else *p->pnInt64 = ImpDoubleToSalInt64( d ); } break; case SbxBYREF | SbxSALUINT64: { double d(0.0); if( !pDec->getDouble( d ) ) SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); else *p->puInt64 = ImpDoubleToSalUInt64( d ); } break; case SbxBYREF | SbxSINGLE: if( !pDec->getSingle( *p->pSingle ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pSingle = 0; } break; case SbxBYREF | SbxDATE: case SbxBYREF | SbxDOUBLE: if( !pDec->getDouble( *p->pDouble ) ) { SbxBase::SetError( ERRCODE_BASIC_MATH_OVERFLOW ); *p->pDouble = 0; } break; default: SbxBase::SetError( ERRCODE_BASIC_CONVERSION ); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */