/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Sequence; using ::com::sun::star::lang::XServiceName; using ::com::sun::star::beans::XPropertySet; using ::com::sun::star::uno::Exception; namespace { OUString lcl_getServiceNameForType(SvxChartRegress eType) { OUString aServiceName; switch( eType ) { case SvxChartRegress::Linear: aServiceName = "com.sun.star.chart2.LinearRegressionCurve"; break; case SvxChartRegress::Log: aServiceName = "com.sun.star.chart2.LogarithmicRegressionCurve"; break; case SvxChartRegress::Exp: aServiceName = "com.sun.star.chart2.ExponentialRegressionCurve"; break; case SvxChartRegress::Power: aServiceName = "com.sun.star.chart2.PotentialRegressionCurve"; break; case SvxChartRegress::Polynomial: aServiceName = "com.sun.star.chart2.PolynomialRegressionCurve"; break; case SvxChartRegress::MovingAverage: aServiceName = "com.sun.star.chart2.MovingAverageRegressionCurve"; break; default: OSL_FAIL("unknown regression curve type - use linear instead"); aServiceName = "com.sun.star.chart2.LinearRegressionCurve"; break; } return aServiceName; } } // anonymous namespace namespace chart { rtl::Reference< RegressionCurveModel > RegressionCurveHelper::createMeanValueLine() { return new MeanValueRegressionCurve; } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::createRegressionCurveByServiceName( std::u16string_view aServiceName ) { rtl::Reference< RegressionCurveModel > xResult; // todo: use factory methods with service name if( aServiceName == u"com.sun.star.chart2.LinearRegressionCurve" ) { xResult.set( new LinearRegressionCurve ); } else if( aServiceName == u"com.sun.star.chart2.LogarithmicRegressionCurve" ) { xResult.set( new LogarithmicRegressionCurve ); } else if( aServiceName == u"com.sun.star.chart2.ExponentialRegressionCurve" ) { xResult.set( new ExponentialRegressionCurve ); } else if( aServiceName == u"com.sun.star.chart2.PotentialRegressionCurve" ) { xResult.set( new PotentialRegressionCurve ); } else if( aServiceName == u"com.sun.star.chart2.PolynomialRegressionCurve" ) { xResult.set( new PolynomialRegressionCurve ); } else if( aServiceName == u"com.sun.star.chart2.MovingAverageRegressionCurve" ) { xResult.set( new MovingAverageRegressionCurve ); } return xResult; } rtl::Reference< RegressionCurveCalculator > RegressionCurveHelper::createRegressionCurveCalculatorByServiceName( std::u16string_view aServiceName ) { rtl::Reference< RegressionCurveCalculator > xResult; // todo: use factory methods with service name if( aServiceName == u"com.sun.star.chart2.MeanValueRegressionCurve" ) { xResult.set( new MeanValueRegressionCurveCalculator() ); } if( aServiceName == u"com.sun.star.chart2.LinearRegressionCurve" ) { xResult.set( new LinearRegressionCurveCalculator() ); } else if( aServiceName == u"com.sun.star.chart2.LogarithmicRegressionCurve" ) { xResult.set( new LogarithmicRegressionCurveCalculator() ); } else if( aServiceName == u"com.sun.star.chart2.ExponentialRegressionCurve" ) { xResult.set( new ExponentialRegressionCurveCalculator() ); } else if( aServiceName == u"com.sun.star.chart2.PotentialRegressionCurve" ) { xResult.set( new PotentialRegressionCurveCalculator() ); } else if( aServiceName == u"com.sun.star.chart2.PolynomialRegressionCurve" ) { xResult.set( new PolynomialRegressionCurveCalculator() ); } else if( aServiceName == u"com.sun.star.chart2.MovingAverageRegressionCurve" ) { xResult.set( new MovingAverageRegressionCurveCalculator() ); } return xResult; } void RegressionCurveHelper::initializeCurveCalculator( const Reference< XRegressionCurveCalculator > & xOutCurveCalculator, const Reference< data::XDataSource > & xSource, bool bUseXValuesIfAvailable /* = true */ ) { if( ! (xOutCurveCalculator.is() && xSource.is() )) return; Sequence< double > aXValues, aYValues; bool bXValuesFound = false, bYValuesFound = false; Sequence< Reference< data::XLabeledDataSequence > > aDataSeqs( xSource->getDataSequences()); sal_Int32 i = 0; for( i=0; ! (bXValuesFound && bYValuesFound) && i xSeq( aDataSeqs[i]->getValues()); Reference< XPropertySet > xProp( xSeq, uno::UNO_QUERY_THROW ); OUString aRole; if( xProp->getPropertyValue( "Role" ) >>= aRole ) { if( bUseXValuesIfAvailable && !bXValuesFound && aRole == "values-x" ) { aXValues = DataSequenceToDoubleSequence( xSeq ); bXValuesFound = true; } else if( !bYValuesFound && aRole == "values-y" ) { aYValues = DataSequenceToDoubleSequence( xSeq ); bYValuesFound = true; } } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } if( ! bXValuesFound && bYValuesFound ) { // initialize with 1, 2, ... //first category (index 0) matches with real number 1.0 aXValues.realloc( aYValues.getLength()); auto pXValues = aXValues.getArray(); for( i=0; irecalculateRegression( aXValues, aYValues ); } void RegressionCurveHelper::initializeCurveCalculator( const Reference< XRegressionCurveCalculator > & xOutCurveCalculator, const rtl::Reference< ::chart::DataSeries > & xSeries, const rtl::Reference<::chart::ChartModel> & xModel ) { sal_Int32 nAxisType = ChartTypeHelper::getAxisType( ChartModelHelper::getChartTypeOfSeries( xModel, xSeries ), 0 ); // x-axis initializeCurveCalculator( xOutCurveCalculator, xSeries, (nAxisType == AxisType::REALNUMBER) ); } bool RegressionCurveHelper::hasMeanValueLine( const uno::Reference< XRegressionCurveContainer > & xRegCnt ) { if( !xRegCnt.is()) return false; try { const uno::Sequence< uno::Reference< XRegressionCurve > > aCurves( xRegCnt->getRegressionCurves()); for( uno::Reference< XRegressionCurve > const & curve : aCurves ) { if( isMeanValueLine( curve )) return true; } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return false; } bool RegressionCurveHelper::hasMeanValueLine( const rtl::Reference< DataSeries > & xRegCnt ) { if( !xRegCnt.is()) return false; try { for( rtl::Reference< RegressionCurveModel > const & curve : xRegCnt->getRegressionCurves2() ) { if( isMeanValueLine( curve )) return true; } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return false; } bool RegressionCurveHelper::isMeanValueLine( const uno::Reference< chart2::XRegressionCurve > & xRegCurve ) { uno::Reference< XServiceName > xServName( xRegCurve, uno::UNO_QUERY ); return xServName.is() && xServName->getServiceName() == "com.sun.star.chart2.MeanValueRegressionCurve"; } bool RegressionCurveHelper::isMeanValueLine( const rtl::Reference< RegressionCurveModel > & xRegCurve ) { return xRegCurve.is() && xRegCurve->getServiceName() == "com.sun.star.chart2.MeanValueRegressionCurve"; } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::getMeanValueLine( const uno::Reference< chart2::XRegressionCurveContainer > & xRegCnt ) { if( xRegCnt.is()) { try { const uno::Sequence< uno::Reference< XRegressionCurve > > aCurves( xRegCnt->getRegressionCurves()); for( uno::Reference< XRegressionCurve > const & curve : aCurves ) { if( isMeanValueLine( curve )) return dynamic_cast(curve.get()); } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return nullptr; } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::getMeanValueLine( const rtl::Reference< DataSeries > & xRegCnt ) { if( xRegCnt.is()) { try { for( rtl::Reference< RegressionCurveModel > const & curve : xRegCnt->getRegressionCurves2() ) { if( isMeanValueLine( curve )) return curve; } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return nullptr; } void RegressionCurveHelper::addMeanValueLine( uno::Reference< XRegressionCurveContainer > const & xRegCnt, const uno::Reference< XPropertySet > & xSeriesProp ) { if( !xRegCnt.is() || ::chart::RegressionCurveHelper::hasMeanValueLine( xRegCnt ) ) return; // todo: use a valid context uno::Reference< XRegressionCurve > xCurve( createMeanValueLine() ); xRegCnt->addRegressionCurve( xCurve ); if( xSeriesProp.is()) { uno::Reference< XPropertySet > xProp( xCurve, uno::UNO_QUERY ); if( xProp.is()) { xProp->setPropertyValue( "LineColor", xSeriesProp->getPropertyValue( "Color")); } } } void RegressionCurveHelper::addMeanValueLine( rtl::Reference< DataSeries > const & xRegCnt, const uno::Reference< XPropertySet > & xSeriesProp ) { if( !xRegCnt.is() || ::chart::RegressionCurveHelper::hasMeanValueLine( xRegCnt ) ) return; // todo: use a valid context rtl::Reference< RegressionCurveModel > xCurve( createMeanValueLine() ); xRegCnt->addRegressionCurve( xCurve ); if( xSeriesProp.is()) { xCurve->setPropertyValue( "LineColor", xSeriesProp->getPropertyValue( "Color")); } } void RegressionCurveHelper::removeMeanValueLine( Reference< XRegressionCurveContainer > const & xRegCnt ) { if( !xRegCnt.is()) return; try { const Sequence< Reference< XRegressionCurve > > aCurves( xRegCnt->getRegressionCurves()); for( Reference< XRegressionCurve > const & curve : aCurves ) { if( isMeanValueLine( curve )) { xRegCnt->removeRegressionCurve( curve ); // attention: the iterator i has become invalid now // note: assume that there is only one mean-value curve // to remove multiple mean-value curves remove the break break; } } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } void RegressionCurveHelper::removeMeanValueLine( rtl::Reference< DataSeries > const & xRegCnt ) { if( !xRegCnt.is()) return; try { for( rtl::Reference< RegressionCurveModel > const & curve : xRegCnt->getRegressionCurves2() ) { if( isMeanValueLine( curve )) { xRegCnt->removeRegressionCurve( curve ); // attention: the iterator i has become invalid now // note: assume that there is only one mean-value curve // to remove multiple mean-value curves remove the break break; } } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::addRegressionCurve( SvxChartRegress eType, uno::Reference< XRegressionCurveContainer > const & xRegressionCurveContainer, const uno::Reference< beans::XPropertySet >& xPropertySource, const uno::Reference< beans::XPropertySet >& xEquationProperties ) { rtl::Reference< RegressionCurveModel > xCurve; if( !xRegressionCurveContainer.is() ) return xCurve; if( eType == SvxChartRegress::NONE ) { OSL_FAIL("don't create a regression curve of type none"); return xCurve; } OUString aServiceName( lcl_getServiceNameForType( eType )); if( !aServiceName.isEmpty()) { // todo: use a valid context xCurve = createRegressionCurveByServiceName( aServiceName ); if( xEquationProperties.is()) xCurve->setEquationProperties( xEquationProperties ); if( xPropertySource.is()) comphelper::copyProperties( xPropertySource, xCurve ); else { uno::Reference< XPropertySet > xSeriesProp( xRegressionCurveContainer, uno::UNO_QUERY ); if( xSeriesProp.is()) { xCurve->setPropertyValue( "LineColor", xSeriesProp->getPropertyValue( "Color")); } } } xRegressionCurveContainer->addRegressionCurve( xCurve ); return xCurve; } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::addRegressionCurve( SvxChartRegress eType, rtl::Reference< DataSeries > const & xRegressionCurveContainer, const uno::Reference< beans::XPropertySet >& xPropertySource, const uno::Reference< beans::XPropertySet >& xEquationProperties ) { rtl::Reference< RegressionCurveModel > xCurve; if( !xRegressionCurveContainer.is() ) return xCurve; if( eType == SvxChartRegress::NONE ) { OSL_FAIL("don't create a regression curve of type none"); return xCurve; } OUString aServiceName( lcl_getServiceNameForType( eType )); if( !aServiceName.isEmpty()) { // todo: use a valid context xCurve = createRegressionCurveByServiceName( aServiceName ); if( xEquationProperties.is()) xCurve->setEquationProperties( xEquationProperties ); if( xPropertySource.is()) comphelper::copyProperties( xPropertySource, xCurve ); else { xCurve->setPropertyValue( "LineColor", xRegressionCurveContainer->getPropertyValue( "Color")); } } xRegressionCurveContainer->addRegressionCurve( xCurve ); return xCurve; } /** removes all regression curves that are not of type mean value and returns true, if anything was removed */ bool RegressionCurveHelper::removeAllExceptMeanValueLine( rtl::Reference< DataSeries > const & xRegCnt ) { if( !xRegCnt.is()) return false; bool bRemovedSomething = false; try { std::vector< rtl::Reference< RegressionCurveModel > > aCurvesToDelete; for( rtl::Reference< RegressionCurveModel > const & curve : xRegCnt->getRegressionCurves2() ) { if( ! isMeanValueLine( curve )) { aCurvesToDelete.push_back( curve ); } } for (auto const& curveToDelete : aCurvesToDelete) { xRegCnt->removeRegressionCurve(curveToDelete); bRemovedSomething = true; } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return bRemovedSomething; } void RegressionCurveHelper::removeEquations( rtl::Reference< DataSeries > const & xRegCnt ) { if( !xRegCnt.is()) return; try { for( rtl::Reference< RegressionCurveModel > const & curve : xRegCnt->getRegressionCurves2() ) { if( !isMeanValueLine( curve ) ) { uno::Reference< beans::XPropertySet > xEqProp( curve->getEquationProperties() ) ; if( xEqProp.is()) { xEqProp->setPropertyValue( "ShowEquation", uno::Any( false )); xEqProp->setPropertyValue( "XName", uno::Any( OUString("x") )); xEqProp->setPropertyValue( "YName", uno::Any( OUString("f(x) ") )); xEqProp->setPropertyValue( "ShowCorrelationCoefficient", uno::Any( false )); } } } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::changeRegressionCurveType( SvxChartRegress eType, uno::Reference< XRegressionCurveContainer > const & xRegressionCurveContainer, uno::Reference< XRegressionCurve > const & xRegressionCurve ) { xRegressionCurveContainer->removeRegressionCurve( xRegressionCurve ); return RegressionCurveHelper::addRegressionCurve( eType, xRegressionCurveContainer, uno::Reference< beans::XPropertySet >( xRegressionCurve, uno::UNO_QUERY ), xRegressionCurve->getEquationProperties()); } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::getFirstCurveNotMeanValueLine( const Reference< XRegressionCurveContainer > & xRegCnt ) { if( !xRegCnt.is()) return nullptr; try { const uno::Sequence< uno::Reference< chart2::XRegressionCurve > > aCurves( xRegCnt->getRegressionCurves()); for( uno::Reference< chart2::XRegressionCurve > const & curve : aCurves ) { if( ! isMeanValueLine( curve )) { return dynamic_cast(curve.get()); } } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return nullptr; } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::getFirstCurveNotMeanValueLine( const rtl::Reference< DataSeries > & xRegCnt ) { if( !xRegCnt.is()) return nullptr; try { for( rtl::Reference< RegressionCurveModel > const & curve : xRegCnt->getRegressionCurves2() ) { if( ! isMeanValueLine( curve )) { return curve; } } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return nullptr; } rtl::Reference< RegressionCurveModel > RegressionCurveHelper::getRegressionCurveAtIndex( const rtl::Reference< DataSeries >& xCurveContainer, sal_Int32 aIndex ) { if( !xCurveContainer.is()) return nullptr; try { const std::vector< rtl::Reference< RegressionCurveModel > > aCurves(xCurveContainer->getRegressionCurves2()); if(0 <= aIndex && o3tl::make_unsigned(aIndex) < aCurves.size()) { if(!isMeanValueLine(aCurves[aIndex])) return aCurves[aIndex]; } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return nullptr; } SvxChartRegress RegressionCurveHelper::getRegressionType( const Reference< XRegressionCurve > & xCurve ) { SvxChartRegress eResult = SvxChartRegress::Unknown; try { Reference< lang::XServiceName > xServName( xCurve, uno::UNO_QUERY ); if( xServName.is()) { OUString aServiceName( xServName->getServiceName() ); if( aServiceName == "com.sun.star.chart2.LinearRegressionCurve" ) { eResult = SvxChartRegress::Linear; } else if( aServiceName == "com.sun.star.chart2.LogarithmicRegressionCurve" ) { eResult = SvxChartRegress::Log; } else if( aServiceName == "com.sun.star.chart2.ExponentialRegressionCurve" ) { eResult = SvxChartRegress::Exp; } else if( aServiceName == "com.sun.star.chart2.PotentialRegressionCurve" ) { eResult = SvxChartRegress::Power; } else if( aServiceName == "com.sun.star.chart2.MeanValueRegressionCurve" ) { eResult = SvxChartRegress::MeanValue; } else if( aServiceName == "com.sun.star.chart2.PolynomialRegressionCurve" ) { eResult = SvxChartRegress::Polynomial; } else if( aServiceName == "com.sun.star.chart2.MovingAverageRegressionCurve" ) { eResult = SvxChartRegress::MovingAverage; } } } catch( const Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2" ); } return eResult; } SvxChartRegress RegressionCurveHelper::getFirstRegressTypeNotMeanValueLine( const Reference< XRegressionCurveContainer > & xRegCnt ) { SvxChartRegress eResult = SvxChartRegress::NONE; if( xRegCnt.is()) { const Sequence< Reference< XRegressionCurve > > aCurves( xRegCnt->getRegressionCurves()); for( Reference< XRegressionCurve > const & curve : aCurves ) { SvxChartRegress eType = getRegressionType( curve ); if( eType != SvxChartRegress::MeanValue && eType != SvxChartRegress::Unknown ) { eResult = eType; break; } } } return eResult; } OUString RegressionCurveHelper::getUINameForRegressionCurve( const Reference< XRegressionCurve >& xRegressionCurve ) { OUString aResult = getRegressionCurveSpecificName(xRegressionCurve); if (aResult.isEmpty()) { aResult = getRegressionCurveGenericName(xRegressionCurve); if (!aResult.isEmpty()) { aResult += " (%SERIESNAME)"; } } return aResult; } OUString RegressionCurveHelper::getRegressionCurveGenericName(const Reference< XRegressionCurve >& xRegressionCurve) { OUString aResult; if(!xRegressionCurve.is()) return aResult; Reference< lang::XServiceName > xServiceName( xRegressionCurve, uno::UNO_QUERY ); if(!xServiceName.is()) return aResult; OUString aServiceName(xServiceName->getServiceName()); if( aServiceName == "com.sun.star.chart2.MeanValueRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_MEAN); } else if( aServiceName == "com.sun.star.chart2.LinearRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_LINEAR); } else if( aServiceName == "com.sun.star.chart2.LogarithmicRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_LOG); } else if( aServiceName == "com.sun.star.chart2.ExponentialRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_EXP); } else if( aServiceName == "com.sun.star.chart2.PotentialRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_POWER); } else if( aServiceName == "com.sun.star.chart2.PolynomialRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_POLYNOMIAL); } else if( aServiceName == "com.sun.star.chart2.MovingAverageRegressionCurve" ) { aResult = SchResId(STR_REGRESSION_MOVING_AVERAGE); } return aResult; } OUString RegressionCurveHelper::getRegressionCurveSpecificName(const Reference< XRegressionCurve >& xRegressionCurve) { OUString aResult; if(!xRegressionCurve.is()) return aResult; Reference xProperties( xRegressionCurve, uno::UNO_QUERY ); if(!xProperties.is()) return aResult; xProperties->getPropertyValue("CurveName") >>= aResult; return aResult; } OUString RegressionCurveHelper::getRegressionCurveName( const Reference< XRegressionCurve >& xRegressionCurve ) { OUString aResult = getRegressionCurveSpecificName(xRegressionCurve); if (aResult.isEmpty()) return getRegressionCurveGenericName(xRegressionCurve); return aResult; } void RegressionCurveHelper::resetEquationPosition( const Reference< chart2::XRegressionCurve > & xCurve ) { if( !xCurve.is()) return; try { static constexpr OUString aPosPropertyName( u"RelativePosition"_ustr ); Reference< beans::XPropertySet > xEqProp( xCurve->getEquationProperties()); // since m233: , uno::UNO_SET_THROW ); if( xEqProp->getPropertyValue( aPosPropertyName ).hasValue()) xEqProp->setPropertyValue( aPosPropertyName, uno::Any()); } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2" ); } } sal_Int32 RegressionCurveHelper::getRegressionCurveIndex( const rtl::Reference< DataSeries >& xContainer, const rtl::Reference< RegressionCurveModel >& xCurve ) { if( xContainer.is()) { const std::vector< rtl::Reference< RegressionCurveModel > > & aCurves( xContainer->getRegressionCurves2()); for( std::size_t i = 0; i < aCurves.size(); ++i ) { if( xCurve == aCurves[i] ) return i; } } return -1; } bool RegressionCurveHelper::hasEquation( const Reference< chart2::XRegressionCurve > & xCurve ) { bool bHasEquation = false; if( xCurve.is()) { uno::Reference< beans::XPropertySet > xEquationProp( xCurve->getEquationProperties()); if( xEquationProp.is()) { bool bShowEquation = false; bool bShowCoefficient = false; xEquationProp->getPropertyValue( "ShowEquation") >>= bShowEquation; xEquationProp->getPropertyValue( "ShowCorrelationCoefficient") >>= bShowCoefficient; bHasEquation = bShowEquation || bShowCoefficient; } } return bHasEquation; } bool RegressionCurveHelper::MayHaveCorrelationCoefficient( const Reference< chart2::XRegressionCurve > & xCurve ) { bool bMayHaveCorrelationCoefficient = true; if( xCurve.is()) { uno::Reference< beans::XPropertySet > xEquationProp( xCurve->getEquationProperties() ); if( xEquationProp.is() ) { xEquationProp->getPropertyValue( "MayHaveCorrelationCoefficient") >>= bMayHaveCorrelationCoefficient; } } return bMayHaveCorrelationCoefficient; } } //namespace chart /* vim:set shiftwidth=4 softtabstop=4 expandtab: */