| Quellcodebibliothek Statistik Leitseite products/sources/formale Sprachen/C/LibreOffice/chart2/source/model/template/ (Office von Apache Version 25.8.3.2©) Datei vom 5.10.2025 mit Größe 13 kB |
|
Quelle DataInterpreter.cxx Sprache: C |
|||||||||||||||
|
/* -*- 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 <DataInterpreter.hxx> #include <DataSeries.hxx> #include <DataSource.hxx> #include <DataSeriesHelper.hxx> #include <CommonConverters.hxx> #include <com/sun/star/beans/XPropertySet.hpp> #include <cppuhelper/supportsservice.hxx> #include <comphelper/diagnose_ex.hxx> #include <algorithm> #include <cstddef> using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Sequence; #ifdef DEBUG_CHART2_TEMPLATE namespace { void lcl_ShowDataSource( const Reference< data::XDataSource > & xSource ); } #endif namespace chart { DataInterpreter::DataInterpreter() {} DataInterpreter::~DataInterpreter() {} // ____ XDataInterpreter ____ InterpretedData DataInterpreter::interpretDataSource( const Reference< data::XDataSource >& xSource, const Sequence< beans::PropertyValue >& aArguments, const std::vector< rtl::Reference< DataSeries > >& aSeriesToReUse ) { if( ! xSource.is()) return InterpretedData(); #ifdef DEBUG_CHART2_TEMPLATE lcl_ShowDataSource( xSource ); #endif std::vector< uno::Reference< chart2::data::XLabeledDataSequence > > aData = getDataSequence uno::Reference< chart2::data::XLabeledDataSequence > xCategories; std::vector< uno::Reference< chart2::data::XLabeledDataSequence > > aSequencesVec; // check if we should use categories bool bHasCategories( HasCategories( aArguments, aData )); // parse data bool bCategoriesUsed = false; for( uno::Reference< chart2::data::XLabeledDataSequence > const & labeledData : aData ) { try { if( bHasCategories && ! bCategoriesUsed ) { xCategories = labeledData; if( xCategories.is()) SetRole( xCategories->getValues(), u"categories"_ustr); bCategoriesUsed = true; } else { aSequencesVec.push_back( labeledData ); if( labeledData.is()) SetRole( labeledData->getValues(), u"values-y"_ustr); } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } // create DataSeries std::size_t nSeriesIndex = 0; std::vector< rtl::Reference< DataSeries > > aSeriesVec; aSeriesVec.reserve( aSequencesVec.size()); for (auto const& elem : aSequencesVec) { std::vector< uno::Reference< chart2::data::XLabeledDataSequence > > aNewData { elem }; rtl::Reference< DataSeries > xSeries; if( nSeriesIndex < aSeriesToReUse.size()) xSeries = aSeriesToReUse[nSeriesIndex]; else xSeries = new DataSeries; assert( xSeries.is() ); xSeries->setData( aNewData ); aSeriesVec.push_back( xSeries ); ++nSeriesIndex; } return { { std::move(aSeriesVec) }, xCategories }; } InterpretedData DataInterpreter::reinterpretDataSeries( const InterpretedData& aInterpretedData ) { InterpretedData aResult( aInterpretedData ); sal_Int32 i=0; std::vector< rtl::Reference< DataSeries > > aSeries( FlattenSequence( aInterpretedData.Seri const sal_Int32 nCount = aSeries.size(); for( ; i<nCount; ++i ) { try { std::vector< uno::Reference< data::XLabeledDataSequence > > aNewSequences; // values-y uno::Reference< data::XLabeledDataSequence > xValuesY = DataSeriesHelper::getDataSequenceByRole( aSeries[i], u"values-y"_ustr ); // re-use values-... as values-y if( ! xValuesY.is()) { xValuesY = DataSeriesHelper::getDataSequenceByRole( aSeries[i], u"values"_ustr, true ); if( xValuesY.is()) SetRole( xValuesY->getValues(), u"values-y"_ustr); } if( xValuesY.is()) { aNewSequences = { xValuesY }; } const std::vector< uno::Reference< data::XLabeledDataSequence > > & aSeqs = aSeries[i]->ge if( aSeqs.size() != aNewSequences.size() ) { #ifdef DEBUG_CHART2_TEMPLATE sal_Int32 j=0; for( ; j<aSeqs.(); ++j ) { assert( aSeqs[j] == xValuesY && "All sequences should be used" ); } #endif aSeries[i]->setData( aNewSequences ); } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return aResult; } // criterion: all series must have exactly one data::XLabeledDataSequence bool DataInterpreter::isDataCompatible( const InterpretedData& aInterpretedData ) { const std::vector< rtl::Reference< DataSeries > > aSeries( FlattenSequence( aInterpretedData for( rtl::Reference< DataSeries > const & i : aSeries ) { try { if( i->getDataSequences2().size() != 1 ) return false; } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return true; } namespace { struct lcl_LabeledSequenceEquals { explicit lcl_LabeledSequenceEquals( const Reference< data::XLabeledDataSequence > & x m_bHasLabels ( false ), m_bHasValues ( false ) { if( !xLSeqToCmp.is()) return; Reference< data::XDataSequence > xSeq( xLSeqToCmp->getValues()); if( xSeq.is()) { m_bHasValues = true; m_aValuesRangeRep = xSeq->getSourceRangeRepresentation(); } xSeq.set( xLSeqToCmp->getLabel()); if( xSeq.is()) { m_bHasLabels = true; m_aLabelRangeRep = xSeq->getSourceRangeRepresentation(); } } bool operator() ( const Reference< data::XLabeledDataSequence > & xSeq ) { if( ! xSeq.is()) return false; Reference< data::XDataSequence > xSeqValues( xSeq->getValues() ); Reference< data::XDataSequence > xSeqLabels( xSeq->getLabel() ); bool bHasValues = xSeqValues.is(); bool bHasLabels = xSeqLabels.is(); return ( ( (m_bHasValues == bHasValues) && (!bHasValues || m_aValuesRangeRep == xSeqValues->getSourceRangeRepresentation()) ) && ( (m_bHasLabels == bHasLabels) && (!bHasLabels || m_aLabelRangeRep == xSeqLabels->getSourceRangeRepresentation()) ) ); } private: bool m_bHasLabels; bool m_bHasValues; OUString m_aValuesRangeRep; OUString m_aLabelRangeRep; }; } // anonymous namespace rtl::Reference< DataSource > DataInterpreter::mergeInterpretedData( const InterpretedData& aInterpretedData ) { std::vector< Reference< data::XLabeledDataSequence > > aResultVec; aResultVec.reserve( aInterpretedData.Series.size() + 1 // categories ); if( aInterpretedData.Categories.is()) aResultVec.push_back( aInterpretedData.Categories ); const std::vector< rtl::Reference< DataSeries > > aSeries = FlattenSequence( aInterpretedData for( rtl::Reference< DataSeries > const & dataSeries : aSeries ) { try { // add all sequences of data series for( uno::Reference< data::XLabeledDataSequence > const & xAdd : dataSeries->getDataSeq { // only add if sequence is not yet in the result if( none_of( aResultVec.begin(), aResultVec.end(), lcl_LabeledSequenceEquals( xAdd )) ) { aResultVec.push_back( xAdd ); } } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return new DataSource(aResultVec); } uno::Any DataInterpreter::getChartTypeSpecificData( const OUString & ) { return uno::Any(); } // convenience methods OUString DataInterpreter::GetRole( const Reference< data::XDataSequence > & xSeq ) { OUString aResult; if( ! xSeq.is()) return aResult; try { Reference< beans::XPropertySet > xProp( xSeq, uno::UNO_QUERY_THROW ); xProp->getPropertyValue( u"Role"_ustr) >>= aResult; } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return aResult; } void DataInterpreter::SetRole( const Reference< data::XDataSequence > & xSeq, const OUS { if( ! xSeq.is()) return; try { Reference< beans::XPropertySet > xProp( xSeq, uno::UNO_QUERY_THROW ); xProp->setPropertyValue( u"Role"_ustr, uno::Any( rRole )); } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } uno::Any DataInterpreter::GetProperty( const Sequence< beans::PropertyValue > & aArguments, std::u16string_view rName ) { for( sal_Int32 i=aArguments.getLength(); i--; ) { if( aArguments[i].Name == rName ) return aArguments[i].Value; } return uno::Any(); } bool DataInterpreter::HasCategories( const Sequence< beans::PropertyValue > & rArguments, const std::vector< uno::Reference< chart2::data::XLabeledDataSequence > > & rData ) { bool bHasCategories = false; if( rArguments.hasElements() ) GetProperty( rArguments, u"HasCategories" ) >>= bHasCategories; for( std::size_t nLSeqIdx=0; ! bHasCategories && nLSeqIdx<rData.size(); ++nLSeqIdx ) bHasCategories = ( rData[nLSeqIdx].is() && GetRole( rData[nLSeqIdx]->getValues() ) == "categ return bHasCategories; } bool DataInterpreter::UseCategoriesAsX( const Sequence< beans::PropertyValue > & rArg { bool bUseCategoriesAsX = true; if( rArguments.hasElements() ) GetProperty( rArguments, u"UseCategoriesAsX" ) >>= bUseCategoriesAsX; return bUseCategoriesAsX; } OUString SAL_CALL DataInterpreter::getImplementationName() { return u"com.sun.star.comp.chart2.DataInterpreter"_ustr; } sal_Bool SAL_CALL DataInterpreter::supportsService( const OUString& rServiceName ) { return cppu::supportsService(this, rServiceName); } css::uno::Sequence< OUString > SAL_CALL DataInterpreter::getSupportedServiceNames() { return { u"com.sun.star.chart2.DataInterpreter"_ustr }; } std::vector< uno::Reference< chart2::data::XLabeledDataSequence > > DataInterpreter::getD const css::uno::Reference< css::chart2::data::XDataSource >& xSource) { std::vector< uno::Reference< chart2::data::XLabeledDataSequence > > aData; for (const Reference< data::XLabeledDataSequence > & rLDS : xSource->getDataSequences() { aData.push_back(rLDS); } return aData; } } // namespace chart #ifdef DEBUG_CHART2_TEMPLATE namespace { void lcl_ShowDataSource( const Reference< data::XDataSource > & xSource ) { if( ! xSource.is()) return; SAL_INFO("chart2", "DataSource in DataInterpreter:" ); Sequence< Reference< data::XLabeledDataSequence > > aSequences( xSource->getDataSequences() Reference< beans::XPropertySet > xProp; OUString aId; const sal_Int32 nMax = aSequences.getLength(); for( sal_Int32 k = 0; k < nMax; ++k ) { if( aSequences[k].is()) { OUString aSourceRepr(u" if( aSequences[k]->getValues().is()) aSourceRepr = aSequences[k]->getValues()->getSourceRangeRepresentation(); xProp.set( aSequences[k]->getValues(), uno::UNO_QUERY ); if( xProp.is() && ( xProp->getPropertyValue( "Role") >>= aId )) { SAL_INFO("chart2", " << k << "> Role: " << aId << ", Source: "<< aSourceRepr); } else { SAL_INFO("chart2", " << k << "> unknown Role, Source: " << aSourceRepr ); } aSourceRepr = u" if( aSequences[k]->getLabel().is()) aSourceRepr = aSequences[k]->getLabel()->getSourceRangeRepresentation(); xProp.set( aSequences[k]->getLabel(), uno::UNO_QUERY ); if( xProp.is() && ( xProp->getPropertyValue( "Role") >>= aId )) { SAL_INFO("chart2", " << k << "> Role: " << aId << ", Source: " << aSourceRepr ); } else { SAL_INFO("chart2", " << k << "> unknown Role, Source: " << aSourceRepr ); } } } } } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */
¤ Dauer der Verarbeitung: 0.5 Sekunden ¤*© Formatika GbR, Deutschland |
|
||||||||||||||
2026-04-02