/* -*- 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 "SchXMLAxisContext.hxx" #include "SchXMLChartContext.hxx" #include "SchXMLTools.hxx" #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 ::xmloff::token; using namespace com::sun::star; using com::sun::star::uno::Reference; const SvXMLEnumMapEntry aXMLAxisDimensionMap[] = { { XML_X, SCH_XML_AXIS_X }, { XML_Y, SCH_XML_AXIS_Y }, { XML_Z, SCH_XML_AXIS_Z }, { XML_TOKEN_INVALID, SchXMLAxisDimension(0) } }; const SvXMLEnumMapEntry aXMLAxisTypeMap[] = { { XML_AUTO, css::chart::ChartAxisType::AUTOMATIC }, { XML_TEXT, css::chart::ChartAxisType::CATEGORY }, { XML_DATE, css::chart::ChartAxisType::DATE }, { XML_TOKEN_INVALID, 0 } }; namespace { class SchXMLCategoriesContext : public SvXMLImportContext { private: OUString& mrAddress; public: SchXMLCategoriesContext( SvXMLImport& rImport, OUString& rAddress ); virtual void SAL_CALL startFastElement( sal_Int32 nElement, const css::uno::Reference< css::xml::sax::XFastAttributeList >& xAttrList ) override; }; class DateScaleContext : public SvXMLImportContext { public: DateScaleContext( SvXMLImport& rImport, const Reference< beans::XPropertySet >& rAxisProps ); virtual void SAL_CALL startFastElement( sal_Int32 nElement, const css::uno::Reference< css::xml::sax::XFastAttributeList >& xAttrList ) override; private: Reference< beans::XPropertySet > m_xAxisProps; }; } SchXMLAxisContext::SchXMLAxisContext( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, Reference< chart::XDiagram > const & xDiagram, std::vector< SchXMLAxis >& rAxes, OUString & rCategoriesAddress, bool bAddMissingXAxisForNetCharts, bool bAdaptWrongPercentScaleValues, bool bAdaptXAxisOrientationForOld2DBarCharts, bool& rbAxisPositionAttributeImported ) : SvXMLImportContext( rImport ), m_rImportHelper( rImpHelper ), m_xDiagram( xDiagram ), m_rAxes( rAxes ), m_rCategoriesAddress( rCategoriesAddress ), m_nAxisType(chart::ChartAxisType::AUTOMATIC), m_bAxisTypeImported(false), m_bDateScaleImported(false), m_bAddMissingXAxisForNetCharts( bAddMissingXAxisForNetCharts ), m_bAdaptWrongPercentScaleValues( bAdaptWrongPercentScaleValues ), m_bAdaptXAxisOrientationForOld2DBarCharts( bAdaptXAxisOrientationForOld2DBarCharts ), m_rbAxisPositionAttributeImported( rbAxisPositionAttributeImported ) { } SchXMLAxisContext::~SchXMLAxisContext() {} static Reference< chart::XAxis > lcl_getChartAxis(const SchXMLAxis& rCurrentAxis, const Reference< chart::XDiagram >& rDiagram ) { Reference< chart::XAxis > xAxis; Reference< chart::XAxisSupplier > xAxisSuppl( rDiagram, uno::UNO_QUERY ); if( !xAxisSuppl.is() ) return xAxis; if( rCurrentAxis.nAxisIndex == 0 ) xAxis = xAxisSuppl->getAxis(rCurrentAxis.eDimension); else xAxis = xAxisSuppl->getSecondaryAxis(rCurrentAxis.eDimension); return xAxis; } /* returns a shape for the current axis's title. The property "Has...AxisTitle" is set to "True" to get the shape */ Reference< drawing::XShape > SchXMLAxisContext::getTitleShape() const { Reference< drawing::XShape > xResult; Reference< beans::XPropertySet > xDiaProp( m_rImportHelper.GetChartDocument()->getDiagram(), uno::UNO_QUERY ); Reference< chart::XAxis > xAxis( lcl_getChartAxis( m_aCurrentAxis, m_xDiagram ) ); if( !xDiaProp.is() || !xAxis.is() ) return xResult; OUString aPropName; switch( m_aCurrentAxis.eDimension ) { case SCH_XML_AXIS_X: if( m_aCurrentAxis.nAxisIndex == 0 ) aPropName = "HasXAxisTitle"; else aPropName = "HasSecondaryXAxisTitle"; break; case SCH_XML_AXIS_Y: if( m_aCurrentAxis.nAxisIndex == 0 ) aPropName = "HasYAxisTitle"; else aPropName = "HasSecondaryYAxisTitle"; break; case SCH_XML_AXIS_Z: aPropName = "HasZAxisTitle"; break; case SCH_XML_AXIS_UNDEF: SAL_INFO("xmloff.chart", "Invalid axis" ); break; } xDiaProp->setPropertyValue( aPropName, uno::Any(true) ); xResult.set( xAxis->getAxisTitle(), uno::UNO_QUERY ); return xResult; } void SchXMLAxisContext::CreateGrid( const OUString& sAutoStyleName, bool bIsMajor ) { Reference< beans::XPropertySet > xDiaProp( m_rImportHelper.GetChartDocument()->getDiagram(), uno::UNO_QUERY ); Reference< chart::XAxis > xAxis( lcl_getChartAxis( m_aCurrentAxis, m_xDiagram ) ); if( !xDiaProp.is() || !xAxis.is() ) return; OUString aPropName; switch( m_aCurrentAxis.eDimension ) { case SCH_XML_AXIS_X: if( bIsMajor ) aPropName = "HasXAxisGrid"; else aPropName = "HasXAxisHelpGrid"; break; case SCH_XML_AXIS_Y: if( bIsMajor ) aPropName = "HasYAxisGrid"; else aPropName = "HasYAxisHelpGrid"; break; case SCH_XML_AXIS_Z: if( bIsMajor ) aPropName = "HasZAxisGrid"; else aPropName = "HasZAxisHelpGrid"; break; case SCH_XML_AXIS_UNDEF: SAL_INFO("xmloff.chart", "Invalid axis" ); break; } xDiaProp->setPropertyValue( aPropName, uno::Any(true) ); Reference< beans::XPropertySet > xGridProp; if( bIsMajor ) xGridProp = xAxis->getMajorGrid(); else xGridProp = xAxis->getMinorGrid(); // set properties if( xGridProp.is()) { // the line color is black as default, in the model it is a light gray xGridProp->setPropertyValue(u"LineColor"_ustr, uno::Any( COL_BLACK )); if (!sAutoStyleName.isEmpty()) m_rImportHelper.FillAutoStyle(sAutoStyleName, xGridProp); } } void SchXMLAxisContext::startFastElement( sal_Int32 /*nElement*/, const css::uno::Reference< css::xml::sax::XFastAttributeList >& xAttrList ) { // parse attributes for( auto& aIter : sax_fastparser::castToFastAttributeList(xAttrList) ) { switch(aIter.getToken()) { case XML_ELEMENT(CHART, XML_DIMENSION): { SchXMLAxisDimension nEnumVal; if( SvXMLUnitConverter::convertEnum( nEnumVal, aIter.toView(), aXMLAxisDimensionMap )) m_aCurrentAxis.eDimension = nEnumVal; } break; case XML_ELEMENT(CHART, XML_NAME): m_aCurrentAxis.aName = aIter.toString(); break; case XML_ELEMENT(CHART, XML_AXIS_TYPE): case XML_ELEMENT(CHART_EXT, XML_AXIS_TYPE): sal_uInt16 nEnumVal; if( SvXMLUnitConverter::convertEnum( nEnumVal, aIter.toView(), aXMLAxisTypeMap )) { m_nAxisType = nEnumVal; m_bAxisTypeImported = true; } break; case XML_ELEMENT(CHART, XML_STYLE_NAME): m_aAutoStyleName = aIter.toString(); break; default: XMLOFF_WARN_UNKNOWN("xmloff", aIter); } } // check for number of axes with same dimension m_aCurrentAxis.nAxisIndex = 0; sal_Int32 nNumOfAxes = m_rAxes.size(); for( sal_Int32 nCurrent = 0; nCurrent < nNumOfAxes; nCurrent++ ) { if( m_rAxes[ nCurrent ].eDimension == m_aCurrentAxis.eDimension ) m_aCurrentAxis.nAxisIndex++; } CreateAxis(); } namespace { Reference< chart2::XAxis > lcl_getAxis( const Reference< frame::XModel >& xChartModel, sal_Int32 nDimensionIndex, sal_Int32 nAxisIndex ) { Reference< chart2::XAxis > xAxis; try { Reference< chart2::XChartDocument > xChart2Document( xChartModel, uno::UNO_QUERY ); if( xChart2Document.is() ) { Reference< chart2::XDiagram > xDiagram( xChart2Document->getFirstDiagram()); Reference< chart2::XCoordinateSystemContainer > xCooSysCnt( xDiagram, uno::UNO_QUERY_THROW ); uno::Sequence< Reference< chart2::XCoordinateSystem > > aCooSysSeq( xCooSysCnt->getCoordinateSystems()); sal_Int32 nCooSysIndex = 0; if( nCooSysIndex < aCooSysSeq.getLength() ) { Reference< chart2::XCoordinateSystem > xCooSys( aCooSysSeq[nCooSysIndex] ); if( xCooSys.is() && nDimensionIndex < xCooSys->getDimension() ) { const sal_Int32 nMaxAxisIndex = xCooSys->getMaximumAxisIndexByDimension(nDimensionIndex); if( nAxisIndex <= nMaxAxisIndex ) xAxis = xCooSys->getAxisByDimension( nDimensionIndex, nAxisIndex ); } } } } catch( uno::Exception & ) { SAL_INFO("xmloff.chart", "Couldn't get axis" ); } return xAxis; } bool lcl_divideBy100( uno::Any& rDoubleAny ) { bool bChanged = false; double fValue=0.0; if( (rDoubleAny>>=fValue) && (fValue!=0.0) ) { fValue/=100.0; rDoubleAny <<= fValue; bChanged = true; } return bChanged; } bool lcl_AdaptWrongPercentScaleValues(chart2::ScaleData& rScaleData) { bool bChanged = lcl_divideBy100( rScaleData.Minimum ); bChanged = lcl_divideBy100( rScaleData.Maximum ) || bChanged; bChanged = lcl_divideBy100( rScaleData.Origin ) || bChanged; bChanged = lcl_divideBy100( rScaleData.IncrementData.Distance ) || bChanged; return bChanged; } }//end anonymous namespace void SchXMLAxisContext::CreateAxis() { m_rAxes.push_back( m_aCurrentAxis ); Reference< beans::XPropertySet > xDiaProp( m_rImportHelper.GetChartDocument()->getDiagram(), uno::UNO_QUERY ); if( !xDiaProp.is() ) return; OUString aPropName; switch( m_aCurrentAxis.eDimension ) { case SCH_XML_AXIS_X: if( m_aCurrentAxis.nAxisIndex == 0 ) aPropName = "HasXAxis"; else aPropName = "HasSecondaryXAxis"; break; case SCH_XML_AXIS_Y: if( m_aCurrentAxis.nAxisIndex == 0 ) aPropName = "HasYAxis"; else aPropName = "HasSecondaryYAxis"; break; case SCH_XML_AXIS_Z: if( m_aCurrentAxis.nAxisIndex == 0 ) aPropName = "HasZAxis"; break; case SCH_XML_AXIS_UNDEF: SAL_INFO("xmloff.chart", "Invalid axis" ); break; } try { xDiaProp->setPropertyValue( aPropName, uno::Any(true) ); } catch( beans::UnknownPropertyException & ) { SAL_INFO("xmloff.chart", "Couldn't turn on axis" ); } if( m_aCurrentAxis.eDimension==SCH_XML_AXIS_Z ) { bool bSettingZAxisSucceeded = false; try { xDiaProp->getPropertyValue( aPropName ) >>= bSettingZAxisSucceeded; } catch( beans::UnknownPropertyException & ) { SAL_INFO("xmloff.chart", "Couldn't turn on z axis" ); } if( !bSettingZAxisSucceeded ) return; } m_xAxisProps.set( lcl_getChartAxis( m_aCurrentAxis, m_xDiagram ), uno::UNO_QUERY ); if( m_bAddMissingXAxisForNetCharts && m_aCurrentAxis.eDimension==SCH_XML_AXIS_Y && m_aCurrentAxis.nAxisIndex==0 ) { try { xDiaProp->setPropertyValue(u"HasXAxis"_ustr, uno::Any(true) ); } catch( beans::UnknownPropertyException & ) { SAL_INFO("xmloff.chart", "Couldn't turn on x axis" ); } } // set properties if( !m_xAxisProps.is()) return; uno::Any aTrueBool( uno::Any( true )); uno::Any aFalseBool( uno::Any( false )); // #i109879# the line color is black as default, in the model it is a light gray m_xAxisProps->setPropertyValue(u"LineColor"_ustr, uno::Any( COL_BLACK )); m_xAxisProps->setPropertyValue(u"DisplayLabels"_ustr, aFalseBool ); // Compatibility option: starting from LibreOffice 5.1 the rotated // layout is preferred to staggering for axis labels. // So the import default value for having compatibility with ODF // documents created with earlier LibreOffice versions is `true`. if( GetImport().getGeneratorVersion() != SvXMLImport::ProductVersionUnknown ) m_xAxisProps->setPropertyValue(u"TryStaggeringFirst"_ustr, aTrueBool ); // #88077# AutoOrigin 'on' is default m_xAxisProps->setPropertyValue(u"AutoOrigin"_ustr, aTrueBool ); if( m_bAxisTypeImported ) m_xAxisProps->setPropertyValue(u"AxisType"_ustr, uno::Any(m_nAxisType) ); if( !m_aAutoStyleName.isEmpty()) { const SvXMLStylesContext* pStylesCtxt = m_rImportHelper.GetAutoStylesContext(); if (pStylesCtxt) { SvXMLStyleContext* pStyle = const_cast(pStylesCtxt->FindStyleChildContext(SchXMLImportHelper::GetChartFamilyID(), m_aAutoStyleName)); if (XMLPropStyleContext * pPropStyleContext = dynamic_cast(pStyle)) { pPropStyleContext->FillPropertySet(m_xAxisProps); if( m_bAdaptWrongPercentScaleValues && m_aCurrentAxis.eDimension==SCH_XML_AXIS_Y ) { //set scale data of added x axis back to default Reference< chart2::XAxis > xAxis( lcl_getAxis( GetImport().GetModel(), m_aCurrentAxis.eDimension, m_aCurrentAxis.nAxisIndex ) ); if( xAxis.is() ) { chart2::ScaleData aScaleData( xAxis->getScaleData()); if( lcl_AdaptWrongPercentScaleValues(aScaleData) ) xAxis->setScaleData( aScaleData ); } } if( m_bAddMissingXAxisForNetCharts ) { //copy style from y axis to added x axis: Reference< chart::XAxisSupplier > xAxisSuppl( xDiaProp, uno::UNO_QUERY ); if( xAxisSuppl.is() ) { Reference< beans::XPropertySet > xXAxisProp( xAxisSuppl->getAxis(0), uno::UNO_QUERY ); pPropStyleContext->FillPropertySet(xXAxisProp); } //set scale data of added x axis back to default Reference< chart2::XAxis > xAxis( lcl_getAxis( GetImport().GetModel(), 0 /*nDimensionIndex*/, 0 /*nAxisIndex*/ ) ); if( xAxis.is() ) { chart2::ScaleData aScaleData; aScaleData.AxisType = chart2::AxisType::CATEGORY; aScaleData.Orientation = chart2::AxisOrientation_MATHEMATICAL; xAxis->setScaleData( aScaleData ); } //set line style of added x axis to invisible Reference< beans::XPropertySet > xNewAxisProp( xAxis, uno::UNO_QUERY ); if( xNewAxisProp.is() ) { xNewAxisProp->setPropertyValue(u"LineStyle"_ustr , uno::Any(drawing::LineStyle_NONE)); } } if( m_bAdaptXAxisOrientationForOld2DBarCharts && m_aCurrentAxis.eDimension == SCH_XML_AXIS_X ) { bool bIs3DChart = false; if( xDiaProp.is() && ( xDiaProp->getPropertyValue(u"Dim3D"_ustr) >>= bIs3DChart ) && !bIs3DChart ) { Reference< chart2::XChartDocument > xChart2Document( GetImport().GetModel(), uno::UNO_QUERY ); if( xChart2Document.is() ) { Reference< chart2::XCoordinateSystemContainer > xCooSysCnt( xChart2Document->getFirstDiagram(), uno::UNO_QUERY ); if( xCooSysCnt.is() ) { uno::Sequence< Reference< chart2::XCoordinateSystem > > aCooSysSeq( xCooSysCnt->getCoordinateSystems() ); if( aCooSysSeq.hasElements() ) { bool bSwapXandYAxis = false; Reference< chart2::XCoordinateSystem > xCooSys( aCooSysSeq[0] ); Reference< beans::XPropertySet > xCooSysProp( xCooSys, uno::UNO_QUERY ); if( xCooSysProp.is() && ( xCooSysProp->getPropertyValue(u"SwapXAndYAxis"_ustr) >>= bSwapXandYAxis ) && bSwapXandYAxis ) { Reference< chart2::XAxis > xAxis = xCooSys->getAxisByDimension( 0, m_aCurrentAxis.nAxisIndex ); if( xAxis.is() ) { chart2::ScaleData aScaleData = xAxis->getScaleData(); aScaleData.Orientation = chart2::AxisOrientation_REVERSE; xAxis->setScaleData( aScaleData ); } } } } } } } m_rbAxisPositionAttributeImported = m_rbAxisPositionAttributeImported || SchXMLTools::getPropertyFromContext( u"CrossoverPosition", pPropStyleContext, pStylesCtxt ).hasValue(); } } } if (m_aCurrentAxis.eDimension != SCH_XML_AXIS_X) return; Reference xAxis(lcl_getAxis(GetImport().GetModel(), m_aCurrentAxis.eDimension, m_aCurrentAxis.nAxisIndex)); if (!xAxis.is()) return; chart2::ScaleData aScaleData(xAxis->getScaleData()); bool bIs3DChart = false; double fMajorOrigin = -1; OUString sChartType = m_xDiagram->getDiagramType(); if ((xDiaProp->getPropertyValue(u"Dim3D"_ustr) >>= bIs3DChart) && bIs3DChart && (sChartType == "com.sun.star.chart.BarDiagram" || sChartType == "com.sun.star.chart.StockDiagram")) { aScaleData.ShiftedCategoryPosition = true; xAxis->setScaleData(aScaleData); } else if ((m_xAxisProps->getPropertyValue(u"MajorOrigin"_ustr) >>= fMajorOrigin) && (rtl::math::approxEqual(fMajorOrigin, 0.0) || rtl::math::approxEqual(fMajorOrigin, 0.5))) { aScaleData.ShiftedCategoryPosition = rtl::math::approxEqual(fMajorOrigin, 0.5); xAxis->setScaleData(aScaleData); m_xAxisProps->setPropertyValue(u"MajorOrigin"_ustr, uno::Any()); } } void SchXMLAxisContext::SetAxisTitle() { if( m_aCurrentAxis.maTitle.empty() ) return; Reference< chart::XAxis > xAxis( lcl_getChartAxis( m_aCurrentAxis, m_xDiagram ) ); if( !xAxis.is() ) return; if (m_aCurrentAxis.maTitle.back().first.isEmpty() && m_aCurrentAxis.maTitle.back().second == OUStringChar(u'\x0D')) m_aCurrentAxis.maTitle.pop_back(); // remove last end of paragraph break SchXMLTools::importFormattedText(GetImport(), m_aCurrentAxis.maTitle, xAxis->getAxisTitle()); } css::uno::Reference< css::xml::sax::XFastContextHandler > SchXMLAxisContext::createFastChildContext( sal_Int32 nElement, const css::uno::Reference< css::xml::sax::XFastAttributeList >& xAttrList ) { switch( nElement ) { case XML_ELEMENT(CHART, XML_TITLE): { return new SchXMLTitleContext( m_rImportHelper, GetImport(), m_aCurrentAxis.maTitle, getTitleShape() ); } break; case XML_ELEMENT(CHART, XML_CATEGORIES): m_aCurrentAxis.bHasCategories = true; return new SchXMLCategoriesContext( GetImport(), m_rCategoriesAddress ); break; case XML_ELEMENT(CHART, XML_DATE_SCALE): case XML_ELEMENT(CHART_EXT, XML_DATE_SCALE): m_bDateScaleImported = true; return new DateScaleContext( GetImport(), m_xAxisProps ); case XML_ELEMENT(CHART, XML_GRID): { bool bIsMajor = true; // default value for class is "major" OUString sAutoStyleName; for( auto& aIter : sax_fastparser::castToFastAttributeList(xAttrList) ) { switch (aIter.getToken()) { case XML_ELEMENT(CHART, XML_CLASS): if( IsXMLToken( aIter, XML_MINOR ) ) bIsMajor = false; break; case XML_ELEMENT(CHART, XML_STYLE_NAME): sAutoStyleName = aIter.toString(); break; default: XMLOFF_WARN_UNKNOWN("xmloff", aIter); } } CreateGrid( sAutoStyleName, bIsMajor ); // don't create a context => use default context. grid elements are empty } break; default: XMLOFF_WARN_UNKNOWN_ELEMENT("xmloff", nElement); break; } return nullptr; } void SchXMLAxisContext::endFastElement(sal_Int32 ) { if( !m_bDateScaleImported && m_nAxisType==chart::ChartAxisType::AUTOMATIC ) { Reference< chart2::XAxis > xAxis( lcl_getAxis( GetImport().GetModel(), m_aCurrentAxis.eDimension, m_aCurrentAxis.nAxisIndex ) ); if( xAxis.is() ) { chart2::ScaleData aScaleData( xAxis->getScaleData()); aScaleData.AutoDateAxis = false;//different default for older documents xAxis->setScaleData( aScaleData ); } } SetAxisTitle(); } namespace { Reference< chart2::XAxis > lcl_getAxis( const Reference< chart2::XCoordinateSystem >& rCooSys, sal_Int32 nDimensionIndex, sal_Int32 nAxisIndex ) { Reference< chart2::XAxis > xAxis; try { xAxis = rCooSys->getAxisByDimension( nDimensionIndex, nAxisIndex ); } catch( uno::Exception & ) { } return xAxis; } } // anonymous namespace void SchXMLAxisContext::CorrectAxisPositions( const Reference< chart2::XChartDocument >& xNewDoc, std::u16string_view rChartTypeServiceName, std::u16string_view rODFVersionOfFile, bool bAxisPositionAttributeImported ) { if( !(rODFVersionOfFile.empty() || rODFVersionOfFile == u"1.0" || rODFVersionOfFile == u"1.1" || ( rODFVersionOfFile == u"1.2" && !bAxisPositionAttributeImported )) ) return; try { Reference< chart2::XCoordinateSystemContainer > xCooSysCnt( xNewDoc->getFirstDiagram(), uno::UNO_QUERY_THROW ); uno::Sequence< Reference< chart2::XCoordinateSystem > > aCooSysSeq( xCooSysCnt->getCoordinateSystems()); if( aCooSysSeq.hasElements() ) { Reference< chart2::XCoordinateSystem > xCooSys( aCooSysSeq[0] ); if( xCooSys.is() ) { Reference< chart2::XAxis > xMainXAxis = lcl_getAxis( xCooSys, 0, 0 ); Reference< chart2::XAxis > xMainYAxis = lcl_getAxis( xCooSys, 1, 0 ); //Reference< chart2::XAxis > xMajorZAxis = lcl_getAxis( xCooSys, 2, 0 ); Reference< chart2::XAxis > xSecondaryXAxis = lcl_getAxis( xCooSys, 0, 1 ); Reference< chart2::XAxis > xSecondaryYAxis = lcl_getAxis( xCooSys, 1, 1 ); Reference< beans::XPropertySet > xMainXAxisProp( xMainXAxis, uno::UNO_QUERY ); Reference< beans::XPropertySet > xMainYAxisProp( xMainYAxis, uno::UNO_QUERY ); Reference< beans::XPropertySet > xSecondaryXAxisProp( xSecondaryXAxis, uno::UNO_QUERY ); Reference< beans::XPropertySet > xSecondaryYAxisProp( xSecondaryYAxis, uno::UNO_QUERY ); if( xMainXAxisProp.is() && xMainYAxisProp.is() ) { chart2::ScaleData aMainXScale = xMainXAxis->getScaleData(); if( rChartTypeServiceName == u"com.sun.star.chart2.ScatterChartType" ) { xMainYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_VALUE) ); double fCrossoverValue = 0.0; aMainXScale.Origin >>= fCrossoverValue; xMainYAxisProp->setPropertyValue(u"CrossoverValue"_ustr , uno::Any( fCrossoverValue ) ); if( aMainXScale.Orientation == chart2::AxisOrientation_REVERSE ) { xMainYAxisProp->setPropertyValue(u"LabelPosition"_ustr , uno::Any( css::chart::ChartAxisLabelPosition_OUTSIDE_END) ); xMainYAxisProp->setPropertyValue(u"MarkPosition"_ustr , uno::Any( css::chart::ChartAxisMarkPosition_AT_LABELS) ); if( xSecondaryYAxisProp.is() ) xSecondaryYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_START) ); } else { xMainYAxisProp->setPropertyValue(u"LabelPosition"_ustr , uno::Any( css::chart::ChartAxisLabelPosition_OUTSIDE_START) ); xMainYAxisProp->setPropertyValue(u"MarkPosition"_ustr , uno::Any( css::chart::ChartAxisMarkPosition_AT_LABELS) ); if( xSecondaryYAxisProp.is() ) xSecondaryYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_END) ); } } else { if( aMainXScale.Orientation == chart2::AxisOrientation_REVERSE ) { xMainYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_END) ); if( xSecondaryYAxisProp.is() ) xSecondaryYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_START) ); } else { xMainYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_START) ); if( xSecondaryYAxisProp.is() ) xSecondaryYAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_END) ); } } chart2::ScaleData aMainYScale = xMainYAxis->getScaleData(); xMainXAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_VALUE) ); double fCrossoverValue = 0.0; aMainYScale.Origin >>= fCrossoverValue; xMainXAxisProp->setPropertyValue(u"CrossoverValue"_ustr , uno::Any( fCrossoverValue ) ); if( aMainYScale.Orientation == chart2::AxisOrientation_REVERSE ) { xMainXAxisProp->setPropertyValue(u"LabelPosition"_ustr , uno::Any( css::chart::ChartAxisLabelPosition_OUTSIDE_END) ); xMainXAxisProp->setPropertyValue(u"MarkPosition"_ustr , uno::Any( css::chart::ChartAxisMarkPosition_AT_LABELS) ); if( xSecondaryXAxisProp.is() ) xSecondaryXAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_START) ); } else { xMainXAxisProp->setPropertyValue(u"LabelPosition"_ustr , uno::Any( css::chart::ChartAxisLabelPosition_OUTSIDE_START) ); xMainXAxisProp->setPropertyValue(u"MarkPosition"_ustr , uno::Any( css::chart::ChartAxisMarkPosition_AT_LABELS) ); if( xSecondaryXAxisProp.is() ) xSecondaryXAxisProp->setPropertyValue(u"CrossoverPosition"_ustr , uno::Any( css::chart::ChartAxisPosition_END) ); } } } } } catch( uno::Exception & ) { } } SchXMLCategoriesContext::SchXMLCategoriesContext( SvXMLImport& rImport, OUString& rAddress ) : SvXMLImportContext( rImport ), mrAddress( rAddress ) { } void SchXMLCategoriesContext::startFastElement( sal_Int32 /*nElement*/, const css::uno::Reference< css::xml::sax::XFastAttributeList >& xAttrList ) { for( auto& aIter : sax_fastparser::castToFastAttributeList(xAttrList) ) { if( aIter.getToken() == XML_ELEMENT(TABLE, XML_CELL_RANGE_ADDRESS) ) mrAddress = aIter.toString(); else XMLOFF_WARN_UNKNOWN("xmloff", aIter); } } DateScaleContext::DateScaleContext( SvXMLImport& rImport, const Reference< beans::XPropertySet >& rAxisProps ) : SvXMLImportContext( rImport ), m_xAxisProps( rAxisProps ) { } namespace { sal_Int32 lcl_getTimeUnit( const sax_fastparser::FastAttributeList::FastAttributeIter& rValue ) { sal_Int32 nTimeUnit = css::chart::TimeUnit::DAY; if( IsXMLToken( rValue, XML_DAYS ) ) nTimeUnit = css::chart::TimeUnit::DAY; else if( IsXMLToken( rValue, XML_MONTHS ) ) nTimeUnit = css::chart::TimeUnit::MONTH; else if( IsXMLToken( rValue, XML_YEARS ) ) nTimeUnit = css::chart::TimeUnit::YEAR; return nTimeUnit; } } void DateScaleContext::startFastElement( sal_Int32 /*nElement*/, const css::uno::Reference< css::xml::sax::XFastAttributeList >& xAttrList ) { if( !m_xAxisProps.is() ) return; // parse attributes bool bSetNewIncrement=false; chart::TimeIncrement aIncrement; m_xAxisProps->getPropertyValue(u"TimeIncrement"_ustr) >>= aIncrement; for( auto& aIter : sax_fastparser::castToFastAttributeList(xAttrList) ) { switch( aIter.getToken() ) { case XML_ELEMENT(CHART, XML_BASE_TIME_UNIT): { aIncrement.TimeResolution <<= lcl_getTimeUnit(aIter); bSetNewIncrement = true; } break; case XML_ELEMENT(CHART, XML_MAJOR_INTERVAL_VALUE): { chart::TimeInterval aInterval(1,0); aIncrement.MajorTimeInterval >>= aInterval; ::sax::Converter::convertNumber( aInterval.Number, aIter.toView() ); aIncrement.MajorTimeInterval <<= aInterval; bSetNewIncrement = true; } break; case XML_ELEMENT(CHART, XML_MAJOR_INTERVAL_UNIT): { chart::TimeInterval aInterval(1,0); aIncrement.MajorTimeInterval >>= aInterval; aInterval.TimeUnit = lcl_getTimeUnit(aIter); aIncrement.MajorTimeInterval <<= aInterval; bSetNewIncrement = true; } break; case XML_ELEMENT(CHART, XML_MINOR_INTERVAL_VALUE): { chart::TimeInterval aInterval(1,0); aIncrement.MinorTimeInterval >>= aInterval; ::sax::Converter::convertNumber( aInterval.Number, aIter.toView() ); aIncrement.MinorTimeInterval <<= aInterval; bSetNewIncrement = true; } break; case XML_ELEMENT(CHART, XML_MINOR_INTERVAL_UNIT): { chart::TimeInterval aInterval(1,0); aIncrement.MinorTimeInterval >>= aInterval; aInterval.TimeUnit = lcl_getTimeUnit(aIter); aIncrement.MinorTimeInterval <<= aInterval; bSetNewIncrement = true; } break; default: XMLOFF_WARN_UNKNOWN("xmloff", aIter); } } if( bSetNewIncrement ) m_xAxisProps->setPropertyValue(u"TimeIncrement"_ustr, uno::Any( aIncrement ) ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */