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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_xmloff.hxx" #include "SchXMLSeries2Context.hxx" #include "SchXMLPlotAreaContext.hxx" #include "SchXMLSeriesHelper.hxx" #include "SchXMLTools.hxx" #include "PropertyMap.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include // header for define DBG_ERROR1 #include #include #include "xmloff/xmlnmspe.hxx" #include #ifndef _XMLOFF_NMSPMAP_HX #include #endif #include "SchXMLImport.hxx" // header for class XMLPropStyleContext #include #include #include using namespace ::com::sun::star; using namespace ::xmloff::token; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Sequence; using ::rtl::OUString; using ::rtl::OUStringBuffer; // ================================================================================ namespace { class SchXMLDomain2Context : public SvXMLImportContext { private: SchXMLImportHelper& mrImportHelper; ::std::vector< OUString > & mrAddresses; public: SchXMLDomain2Context( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, sal_uInt16 nPrefix, const rtl::OUString& rLocalName, ::std::vector< OUString > & rAddresses ); virtual ~SchXMLDomain2Context(); virtual void StartElement( const Reference< xml::sax::XAttributeList >& xAttrList ); }; SchXMLDomain2Context::SchXMLDomain2Context( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, sal_uInt16 nPrefix, const rtl::OUString& rLocalName, ::std::vector< ::rtl::OUString > & rAddresses ) : SvXMLImportContext( rImport, nPrefix, rLocalName ), mrImportHelper( rImpHelper ), mrAddresses( rAddresses ) { } SchXMLDomain2Context::~SchXMLDomain2Context() { } void SchXMLDomain2Context::StartElement( const uno::Reference< xml::sax::XAttributeList >& xAttrList ) { sal_Int16 nAttrCount = xAttrList.is()? xAttrList->getLength(): 0; for( sal_Int16 i = 0; i < nAttrCount; i++ ) { rtl::OUString sAttrName = xAttrList->getNameByIndex( i ); rtl::OUString aLocalName; sal_uInt16 nPrefix = GetImport().GetNamespaceMap().GetKeyByAttrName( sAttrName, &aLocalName ); if( nPrefix == XML_NAMESPACE_TABLE && IsXMLToken( aLocalName, XML_CELL_RANGE_ADDRESS ) ) { Reference< chart2::XChartDocument > xNewDoc( GetImport().GetModel(), uno::UNO_QUERY ); mrAddresses.push_back( xAttrList->getValueByIndex( i )); } } } void lcl_setAutomaticSymbolSize( const uno::Reference< beans::XPropertySet >& xSeriesOrPointProp, const SvXMLImport& rImport ) { awt::Size aSymbolSize(140,140);//old default for standard sized charts 7cm height double fScale = 1; uno::Reference< chart::XChartDocument > xChartDoc( rImport.GetModel(), uno::UNO_QUERY ); if( xChartDoc.is() ) { uno::Reference< beans::XPropertySet > xLegendProp( xChartDoc->getLegend(), uno::UNO_QUERY ); chart::ChartLegendPosition aLegendPosition = chart::ChartLegendPosition_NONE; if( xLegendProp.is() && (xLegendProp->getPropertyValue( OUString( RTL_CONSTASCII_USTRINGPARAM( "Alignment" ))) >>= aLegendPosition) && chart::ChartLegendPosition_NONE != aLegendPosition ) { double fFontHeight = 6.0; if( xLegendProp->getPropertyValue( OUString( RTL_CONSTASCII_USTRINGPARAM( "CharHeight" ))) >>= fFontHeight ) fScale = 0.75*fFontHeight/6.0; } else { uno::Reference< embed::XVisualObject > xVisualObject( rImport.GetModel(), uno::UNO_QUERY ); if( xVisualObject.is() ) { awt::Size aPageSize( xVisualObject->getVisualAreaSize( embed::Aspects::MSOLE_CONTENT ) ); fScale = aPageSize.Height/7000.0; } } if( fScale>0 ) { aSymbolSize.Height = static_cast( fScale * aSymbolSize.Height ); aSymbolSize.Width = aSymbolSize.Height; } } xSeriesOrPointProp->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("SymbolSize")),uno::makeAny( aSymbolSize )); } void lcl_setSymbolSizeIfNeeded( const uno::Reference< beans::XPropertySet >& xSeriesOrPointProp, const SvXMLImport& rImport ) { if( !xSeriesOrPointProp.is() ) return; sal_Int32 nSymbolType = chart::ChartSymbolType::NONE; if( xSeriesOrPointProp.is() && ( xSeriesOrPointProp->getPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("SymbolType"))) >>= nSymbolType) ) { if(chart::ChartSymbolType::NONE!=nSymbolType) { if( chart::ChartSymbolType::BITMAPURL==nSymbolType ) { //set special size for graphics to indicate to use the bitmap size itself xSeriesOrPointProp->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("SymbolSize")),uno::makeAny( awt::Size(-1,-1) )); } else { lcl_setAutomaticSymbolSize( xSeriesOrPointProp, rImport ); } } } } void lcl_resetSymbolSizeForPointsIfNecessary( const uno::Reference< beans::XPropertySet >& xPointProp, const SvXMLImport& rImport , const XMLPropStyleContext * pPropStyleContext, const SvXMLStylesContext* pStylesCtxt ) { uno::Any aASymbolSize( SchXMLTools::getPropertyFromContext( ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("SymbolSize")), pPropStyleContext, pStylesCtxt ) ); if( !aASymbolSize.hasValue() ) lcl_setSymbolSizeIfNeeded( xPointProp, rImport ); } void lcl_insertErrorBarLSequencesToMap( tSchXMLLSequencesPerIndex & rInOutMap, const uno::Reference< beans::XPropertySet > & xSeriesProp, bool bYError = true ) { Reference< chart2::data::XDataSource > xErrorBarSource; const OUString aPropName( bYError ? ::rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "ErrorBarY" )) : ::rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "ErrorBarX" ))); if( ( xSeriesProp->getPropertyValue( aPropName ) >>= xErrorBarSource ) && xErrorBarSource.is() ) { Sequence< Reference< chart2::data::XLabeledDataSequence > > aLSequences( xErrorBarSource->getDataSequences()); for( sal_Int32 nIndex = 0; nIndex < aLSequences.getLength(); ++nIndex ) { // use "0" as data index. This is ok, as it is not used for error bars rInOutMap.insert( tSchXMLLSequencesPerIndex::value_type( tSchXMLIndexWithPart( 0, SCH_XML_PART_ERROR_BARS ), aLSequences[ nIndex ] )); } } } Reference< chart2::data::XLabeledDataSequence > lcl_createAndAddSequenceToSeries( const rtl::OUString& rRole , const rtl::OUString& rRange , const Reference< chart2::XChartDocument >& xChartDoc , const Reference< chart2::XDataSeries >& xSeries ) { Reference< chart2::data::XLabeledDataSequence > xLabeledSeq; Reference< chart2::data::XDataSource > xSeriesSource( xSeries,uno::UNO_QUERY ); Reference< chart2::data::XDataSink > xSeriesSink( xSeries, uno::UNO_QUERY ); if( !(rRange.getLength() && xChartDoc.is() && xSeriesSource.is() && xSeriesSink.is()) ) return xLabeledSeq; // create a new sequence xLabeledSeq = SchXMLTools::GetNewLabeledDataSequence(); // set values at the new sequence Reference< chart2::data::XDataSequence > xSeq = SchXMLTools::CreateDataSequence( rRange, xChartDoc ); Reference< beans::XPropertySet > xSeqProp( xSeq, uno::UNO_QUERY ); if( xSeqProp.is()) xSeqProp->setPropertyValue(OUString::createFromAscii("Role"), uno::makeAny( rRole)); xLabeledSeq->setValues( xSeq ); // add new sequence to data series / push to front to have the correct sequence order if charttype is changed afterwards Sequence< Reference< chart2::data::XLabeledDataSequence > > aOldSeq( xSeriesSource->getDataSequences()); sal_Int32 nOldCount = aOldSeq.getLength(); Sequence< Reference< chart2::data::XLabeledDataSequence > > aNewSeq( nOldCount + 1 ); aNewSeq[0]=xLabeledSeq; for( sal_Int32 nN=0; nNsetData( aNewSeq ); return xLabeledSeq; } } // anonymous namespace // ================================================================================ SchXMLSeries2Context::SchXMLSeries2Context( SchXMLImportHelper& rImpHelper, SvXMLImport& rImport, const rtl::OUString& rLocalName, const Reference< chart2::XChartDocument > & xNewDoc, std::vector< SchXMLAxis >& rAxes, ::std::list< DataRowPointStyle >& rStyleList, sal_Int32 nSeriesIndex, sal_Bool bStockHasVolume, GlobalSeriesImportInfo& rGlobalSeriesImportInfo, const OUString & aGlobalChartTypeName, tSchXMLLSequencesPerIndex & rLSequencesPerIndex, bool& rGlobalChartTypeUsedBySeries, const awt::Size & rChartSize ) : SvXMLImportContext( rImport, XML_NAMESPACE_CHART, rLocalName ), mrImportHelper( rImpHelper ), mxNewDoc( xNewDoc ), mrAxes( rAxes ), mrStyleList( rStyleList ), m_xSeries(0), mnSeriesIndex( nSeriesIndex ), mnDataPointIndex( 0 ), m_bStockHasVolume( bStockHasVolume ), m_rGlobalSeriesImportInfo(rGlobalSeriesImportInfo), mpAttachedAxis( NULL ), maGlobalChartTypeName( aGlobalChartTypeName ), maSeriesChartTypeName( aGlobalChartTypeName ), m_bHasDomainContext(false), mrLSequencesPerIndex( rLSequencesPerIndex ), mrGlobalChartTypeUsedBySeries( rGlobalChartTypeUsedBySeries ), mbSymbolSizeIsMissingInFile(false), maChartSize( rChartSize ) { if( 0 == aGlobalChartTypeName.reverseCompareToAsciiL( RTL_CONSTASCII_STRINGPARAM( "com.sun.star.chart2.DonutChartType" ) ) ) { maSeriesChartTypeName = ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("com.sun.star.chart2.PieChartType" )); maGlobalChartTypeName = maSeriesChartTypeName; } } SchXMLSeries2Context::~SchXMLSeries2Context() { OSL_ASSERT( maPostponedSequences.empty()); } void SchXMLSeries2Context::StartElement( const uno::Reference< xml::sax::XAttributeList >& xAttrList ) { // parse attributes sal_Int16 nAttrCount = xAttrList.is()? xAttrList->getLength(): 0; const SvXMLTokenMap& rAttrTokenMap = mrImportHelper.GetSeriesAttrTokenMap(); mnAttachedAxis = 1; bool bHasRange = false; bool bHasLabelRange = false; for( sal_Int16 i = 0; i < nAttrCount; i++ ) { rtl::OUString sAttrName = xAttrList->getNameByIndex( i ); rtl::OUString aLocalName; rtl::OUString aValue = xAttrList->getValueByIndex( i ); sal_uInt16 nPrefix = GetImport().GetNamespaceMap().GetKeyByAttrName( sAttrName, &aLocalName ); switch( rAttrTokenMap.Get( nPrefix, aLocalName )) { case XML_TOK_SERIES_CELL_RANGE: m_aSeriesRange = aValue; bHasRange = true; break; case XML_TOK_SERIES_LABEL_ADDRESS: m_aSeriesLabelRange = aValue; bHasLabelRange = true; break; case XML_TOK_SERIES_ATTACHED_AXIS: { sal_Int32 nNumOfAxes = mrAxes.size(); for( sal_Int32 nCurrent = 0; nCurrent < nNumOfAxes; nCurrent++ ) { if( aValue.equals( mrAxes[ nCurrent ].aName ) && mrAxes[ nCurrent ].eDimension == SCH_XML_AXIS_Y ) { mpAttachedAxis = &( mrAxes[ nCurrent ] ); } } } break; case XML_TOK_SERIES_STYLE_NAME: msAutoStyleName = aValue; break; case XML_TOK_SERIES_CHART_CLASS: { OUString aClassName; sal_uInt16 nClassPrefix = GetImport().GetNamespaceMap().GetKeyByAttrName( aValue, &aClassName ); if( XML_NAMESPACE_CHART == nClassPrefix ) maSeriesChartTypeName = SchXMLTools::GetChartTypeByClassName( aClassName, false /* bUseOldNames */ ); if( ! maSeriesChartTypeName.getLength()) maSeriesChartTypeName = aClassName; } break; } } if( mpAttachedAxis ) { if( mpAttachedAxis->nAxisIndex > 0 ) { // secondary axis => property has to be set (primary is default) mnAttachedAxis = 2; } } try { OSL_ASSERT( mxNewDoc.is()); if( m_rGlobalSeriesImportInfo.rbAllRangeAddressesAvailable && ! bHasRange ) m_rGlobalSeriesImportInfo.rbAllRangeAddressesAvailable = sal_False; bool bIsCandleStick = maGlobalChartTypeName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("com.sun.star.chart2.CandleStickChartType")); if( maSeriesChartTypeName.getLength() ) { bIsCandleStick = maSeriesChartTypeName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("com.sun.star.chart2.CandleStickChartType")); } else { if( bIsCandleStick && m_bStockHasVolume && mnSeriesIndex == 0 ) { maSeriesChartTypeName = OUString::createFromAscii( "com.sun.star.chart2.ColumnChartType" ); bIsCandleStick = false; } else { maSeriesChartTypeName = maGlobalChartTypeName; } } if( ! mrGlobalChartTypeUsedBySeries ) mrGlobalChartTypeUsedBySeries = (maSeriesChartTypeName.equals( maGlobalChartTypeName )); sal_Int32 nCoordinateSystemIndex = 0;//so far we can only import one coordinate system m_xSeries.set( mrImportHelper.GetNewDataSeries( mxNewDoc, nCoordinateSystemIndex, maSeriesChartTypeName, ! mrGlobalChartTypeUsedBySeries )); Reference< chart2::data::XLabeledDataSequence > xLabeledSeq( SchXMLTools::GetNewLabeledDataSequence()); if( bIsCandleStick ) { // set default color for range-line to black (before applying styles) Reference< beans::XPropertySet > xSeriesProp( m_xSeries, uno::UNO_QUERY ); if( xSeriesProp.is()) xSeriesProp->setPropertyValue( ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Color")), uno::makeAny( sal_Int32( 0x000000 ))); // black } else if( maSeriesChartTypeName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("com.sun.star.chart2.PieChartType"))) { //@todo: this property should be saved Reference< beans::XPropertySet > xSeriesProp( m_xSeries, uno::UNO_QUERY ); if( xSeriesProp.is()) xSeriesProp->setPropertyValue( ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("VaryColorsByPoint")), uno::makeAny( true )); } // values Reference< chart2::data::XDataSequence > xSeq; if( bHasRange && m_aSeriesRange.getLength() ) xSeq = SchXMLTools::CreateDataSequence( m_aSeriesRange, mxNewDoc ); Reference< beans::XPropertySet > xSeqProp( xSeq, uno::UNO_QUERY ); if( xSeqProp.is()) { OUString aMainRole( OUString::createFromAscii("values-y") ); if( maSeriesChartTypeName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("com.sun.star.chart2.BubbleChartType") ) ) aMainRole = OUString::createFromAscii("values-size"); xSeqProp->setPropertyValue(OUString::createFromAscii("Role"), uno::makeAny( aMainRole )); } xLabeledSeq->setValues( xSeq ); // register for setting local data if external data provider is not present maPostponedSequences.insert( tSchXMLLSequencesPerIndex::value_type( tSchXMLIndexWithPart( m_rGlobalSeriesImportInfo.nCurrentDataIndex, SCH_XML_PART_VALUES ), xLabeledSeq )); // label if( bHasLabelRange && m_aSeriesLabelRange.getLength() ) { Reference< chart2::data::XDataSequence > xLabelSequence = SchXMLTools::CreateDataSequence( m_aSeriesLabelRange, mxNewDoc ); xLabeledSeq->setLabel( xLabelSequence ); } // Note: Even if we have no label, we have to register the label // for creation, because internal data always has labels. If // they don't exist in the original, auto-generated labels are // used for the internal data. maPostponedSequences.insert( tSchXMLLSequencesPerIndex::value_type( tSchXMLIndexWithPart( m_rGlobalSeriesImportInfo.nCurrentDataIndex, SCH_XML_PART_LABEL ), xLabeledSeq )); Sequence< Reference< chart2::data::XLabeledDataSequence > > aSeq( &xLabeledSeq, 1 ); Reference< chart2::data::XDataSink > xSink( m_xSeries, uno::UNO_QUERY_THROW ); xSink->setData( aSeq ); } catch( uno::Exception & ex ) { (void)ex; // avoid warning for pro build OSL_ENSURE( false, ::rtl::OUStringToOString( ::rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "Exception caught. Type: " )) + ::rtl::OUString::createFromAscii( typeid( ex ).name()) + ::rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( ", Message: " )) + ex.Message, RTL_TEXTENCODING_ASCII_US ).getStr()); } //init mbSymbolSizeIsMissingInFile: try { if( msAutoStyleName.getLength() ) { const SvXMLStylesContext* pStylesCtxt = mrImportHelper.GetAutoStylesContext(); if( pStylesCtxt ) { const SvXMLStyleContext* pStyle = pStylesCtxt->FindStyleChildContext( mrImportHelper.GetChartFamilyID(), msAutoStyleName ); const XMLPropStyleContext* pPropStyleContext = dynamic_cast< const XMLPropStyleContext * >( pStyle ); uno::Any aASymbolSize( SchXMLTools::getPropertyFromContext( ::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("SymbolSize")) , pPropStyleContext, pStylesCtxt ) ); mbSymbolSizeIsMissingInFile = !aASymbolSize.hasValue(); } } } catch( uno::Exception & ex ) { (void)ex; // avoid warning for pro build } } struct DomainInfo { DomainInfo( const rtl::OUString& rRole, const rtl::OUString& rRange, sal_Int32 nIndex ) : aRole(rRole), aRange(rRange), nIndexForLocalData(nIndex) {} rtl::OUString aRole; rtl::OUString aRange; sal_Int32 nIndexForLocalData; }; void SchXMLSeries2Context::EndElement() { // special handling for different chart types. This is necessary as the // roles are not yet saved in the file format sal_Int32 nDomainCount = maDomainAddresses.size(); bool bIsScatterChart = maSeriesChartTypeName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("com.sun.star.chart2.ScatterChartType")); bool bIsBubbleChart = maSeriesChartTypeName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("com.sun.star.chart2.BubbleChartType")); bool bDeleteSeries = false; std::vector< DomainInfo > aDomainInfos; //different handling for different chart types necessary if( bIsScatterChart || ( nDomainCount==1 && !bIsBubbleChart ) ) { DomainInfo aDomainInfo( OUString::createFromAscii("values-x"), m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress, m_rGlobalSeriesImportInfo.nFirstFirstDomainIndex ) ; bool bCreateXValues = true; if( !maDomainAddresses.empty() ) { if( !m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress.getLength() ) { m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress = maDomainAddresses.front(); m_rGlobalSeriesImportInfo.nFirstFirstDomainIndex = m_rGlobalSeriesImportInfo.nCurrentDataIndex; } aDomainInfo.aRange = maDomainAddresses.front(); aDomainInfo.nIndexForLocalData = m_rGlobalSeriesImportInfo.nCurrentDataIndex; m_rGlobalSeriesImportInfo.nCurrentDataIndex++; } else if( !m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress.getLength() && !m_bHasDomainContext && mnSeriesIndex==0 ) { if( SchXMLTools::isDocumentGeneratedWithOpenOfficeOlderThan2_3( GetImport().GetModel() ) ) //wrong old chart files: { //for xy charts the first series needs to have a domain //if this by error iss not the case the first series is taken s x values //needed for wrong files created while having an addin (e.g. BoxPlot) m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress = m_aSeriesRange; m_rGlobalSeriesImportInfo.nFirstFirstDomainIndex = m_rGlobalSeriesImportInfo.nCurrentDataIndex++; bDeleteSeries = true; bCreateXValues = false;//they will be created for the next series } } if( bCreateXValues ) aDomainInfos.push_back( aDomainInfo ); } else if( bIsBubbleChart ) { if( nDomainCount>1 ) { DomainInfo aDomainInfo( OUString::createFromAscii("values-x"), maDomainAddresses[1], m_rGlobalSeriesImportInfo.nCurrentDataIndex ) ; if( !m_rGlobalSeriesImportInfo.aFirstSecondDomainAddress.getLength() ) { //for bubble chart the second domain contains the x values which should become an index smaller than y values for own data table //->so second first m_rGlobalSeriesImportInfo.aFirstSecondDomainAddress = maDomainAddresses[1]; m_rGlobalSeriesImportInfo.nFirstSecondDomainIndex = m_rGlobalSeriesImportInfo.nCurrentDataIndex; } aDomainInfos.push_back( aDomainInfo ); m_rGlobalSeriesImportInfo.nCurrentDataIndex++; } else if( m_rGlobalSeriesImportInfo.aFirstSecondDomainAddress.getLength() ) { DomainInfo aDomainInfo( OUString::createFromAscii("values-x"), m_rGlobalSeriesImportInfo.aFirstSecondDomainAddress, m_rGlobalSeriesImportInfo.nFirstSecondDomainIndex ) ; aDomainInfos.push_back( aDomainInfo ); } if( nDomainCount>0) { DomainInfo aDomainInfo( OUString::createFromAscii("values-y"), maDomainAddresses.front(), m_rGlobalSeriesImportInfo.nCurrentDataIndex ) ; if( !m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress.getLength() ) { m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress = maDomainAddresses.front(); m_rGlobalSeriesImportInfo.nFirstFirstDomainIndex = m_rGlobalSeriesImportInfo.nCurrentDataIndex; } aDomainInfos.push_back( aDomainInfo ); m_rGlobalSeriesImportInfo.nCurrentDataIndex++; } else if( m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress.getLength() ) { DomainInfo aDomainInfo( OUString::createFromAscii("values-y"), m_rGlobalSeriesImportInfo.aFirstFirstDomainAddress, m_rGlobalSeriesImportInfo.nFirstFirstDomainIndex ) ; aDomainInfos.push_back( aDomainInfo ); } } if( bDeleteSeries ) { //delete created series SchXMLImportHelper::DeleteDataSeries( m_xSeries, Reference< chart2::XChartDocument >( GetImport().GetModel(), uno::UNO_QUERY ) ); } else { //add style if( msAutoStyleName.getLength() || mnAttachedAxis != 1 ) { DataRowPointStyle aStyle( DataRowPointStyle::DATA_SERIES, m_xSeries, -1, 1, msAutoStyleName, mnAttachedAxis ); aStyle.mbSymbolSizeForSeriesIsMissingInFile=mbSymbolSizeIsMissingInFile; mrStyleList.push_back( aStyle ); } } for( std::vector< DomainInfo >::reverse_iterator aIt( aDomainInfos.rbegin() ); aIt!= aDomainInfos.rend(); ++aIt ) { DomainInfo aDomainInfo( *aIt ); Reference< chart2::data::XLabeledDataSequence > xLabeledSeq = lcl_createAndAddSequenceToSeries( aDomainInfo.aRole, aDomainInfo.aRange, mxNewDoc, m_xSeries ); if( xLabeledSeq.is() ) { // register for setting local data if external data provider is not present mrLSequencesPerIndex.insert( tSchXMLLSequencesPerIndex::value_type( tSchXMLIndexWithPart( aDomainInfo.nIndexForLocalData, SCH_XML_PART_VALUES ), xLabeledSeq )); } } if( !bDeleteSeries ) { for( tSchXMLLSequencesPerIndex::const_iterator aIt( maPostponedSequences.begin()); aIt != maPostponedSequences.end(); ++aIt ) { sal_Int32 nNewIndex = aIt->first.first + nDomainCount; mrLSequencesPerIndex.insert( tSchXMLLSequencesPerIndex::value_type( tSchXMLIndexWithPart( nNewIndex, aIt->first.second ), aIt->second )); } m_rGlobalSeriesImportInfo.nCurrentDataIndex++; } maPostponedSequences.clear(); } SvXMLImportContext* SchXMLSeries2Context::CreateChildContext( sal_uInt16 nPrefix, const rtl::OUString& rLocalName, const uno::Reference< xml::sax::XAttributeList >& ) { SvXMLImportContext* pContext = 0; const SvXMLTokenMap& rTokenMap = mrImportHelper.GetSeriesElemTokenMap(); switch( rTokenMap.Get( nPrefix, rLocalName )) { case XML_TOK_SERIES_DOMAIN: if( m_xSeries.is()) { m_bHasDomainContext = true; pContext = new SchXMLDomain2Context( mrImportHelper, GetImport(), nPrefix, rLocalName, maDomainAddresses ); } break; case XML_TOK_SERIES_MEAN_VALUE_LINE: pContext = new SchXMLStatisticsObjectContext( mrImportHelper, GetImport(), nPrefix, rLocalName, mrStyleList, m_xSeries, SchXMLStatisticsObjectContext::CONTEXT_TYPE_MEAN_VALUE_LINE, maChartSize ); break; case XML_TOK_SERIES_REGRESSION_CURVE: pContext = new SchXMLStatisticsObjectContext( mrImportHelper, GetImport(), nPrefix, rLocalName, mrStyleList, m_xSeries, SchXMLStatisticsObjectContext::CONTEXT_TYPE_REGRESSION_CURVE, maChartSize ); break; case XML_TOK_SERIES_ERROR_INDICATOR: pContext = new SchXMLStatisticsObjectContext( mrImportHelper, GetImport(), nPrefix, rLocalName, mrStyleList, m_xSeries, SchXMLStatisticsObjectContext::CONTEXT_TYPE_ERROR_INDICATOR, maChartSize ); break; case XML_TOK_SERIES_DATA_POINT: pContext = new SchXMLDataPointContext( mrImportHelper, GetImport(), rLocalName, mrStyleList, m_xSeries, mnDataPointIndex, mbSymbolSizeIsMissingInFile ); break; default: pContext = new SvXMLImportContext( GetImport(), nPrefix, rLocalName ); } return pContext; } //static void SchXMLSeries2Context::initSeriesPropertySets( SeriesDefaultsAndStyles& rSeriesDefaultsAndStyles , const uno::Reference< frame::XModel >& xChartModel ) { ::std::list< DataRowPointStyle >::iterator iStyle; // iterate over series first and remind propertysets in map // new api <-> old api wrapper ::std::map< Reference< chart2::XDataSeries >, Reference< beans::XPropertySet > > aSeriesMap; for( iStyle = rSeriesDefaultsAndStyles.maSeriesStyleList.begin(); iStyle != rSeriesDefaultsAndStyles.maSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType != DataRowPointStyle::DATA_SERIES ) continue; if( !iStyle->m_xOldAPISeries.is() ) iStyle->m_xOldAPISeries = SchXMLSeriesHelper::createOldAPISeriesPropertySet( iStyle->m_xSeries, xChartModel ); aSeriesMap[iStyle->m_xSeries] = iStyle->m_xOldAPISeries; } //initialize m_xOldAPISeries for all other styles also for( iStyle = rSeriesDefaultsAndStyles.maSeriesStyleList.begin(); iStyle != rSeriesDefaultsAndStyles.maSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType == DataRowPointStyle::DATA_SERIES ) continue; iStyle->m_xOldAPISeries = aSeriesMap[iStyle->m_xSeries]; } } //static void SchXMLSeries2Context::setDefaultsToSeries( SeriesDefaultsAndStyles& rSeriesDefaultsAndStyles ) { ::std::list< DataRowPointStyle >::iterator iStyle; // iterate over series // call initSeriesPropertySets first for( iStyle = rSeriesDefaultsAndStyles.maSeriesStyleList.begin(); iStyle != rSeriesDefaultsAndStyles.maSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType != DataRowPointStyle::DATA_SERIES ) continue; try { uno::Reference< beans::XPropertySet > xSeries( iStyle->m_xOldAPISeries ); if( !xSeries.is() ) continue; if( rSeriesDefaultsAndStyles.maSymbolTypeDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("SymbolType")),rSeriesDefaultsAndStyles.maSymbolTypeDefault); if( rSeriesDefaultsAndStyles.maDataCaptionDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("DataCaption")),rSeriesDefaultsAndStyles.maDataCaptionDefault); if( rSeriesDefaultsAndStyles.maErrorIndicatorDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("ErrorIndicator")),rSeriesDefaultsAndStyles.maErrorIndicatorDefault); if( rSeriesDefaultsAndStyles.maErrorCategoryDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("ErrorCategory")),rSeriesDefaultsAndStyles.maErrorCategoryDefault); if( rSeriesDefaultsAndStyles.maConstantErrorLowDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("ConstantErrorLow")),rSeriesDefaultsAndStyles.maConstantErrorLowDefault); if( rSeriesDefaultsAndStyles.maConstantErrorHighDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("ConstantErrorHigh")),rSeriesDefaultsAndStyles.maConstantErrorHighDefault); if( rSeriesDefaultsAndStyles.maPercentageErrorDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("PercentageError")),rSeriesDefaultsAndStyles.maPercentageErrorDefault); if( rSeriesDefaultsAndStyles.maErrorMarginDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("ErrorMargin")),rSeriesDefaultsAndStyles.maErrorMarginDefault); if( rSeriesDefaultsAndStyles.maMeanValueDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("MeanValue")),rSeriesDefaultsAndStyles.maMeanValueDefault); if( rSeriesDefaultsAndStyles.maRegressionCurvesDefault.hasValue() ) xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("RegressionCurves")),rSeriesDefaultsAndStyles.maRegressionCurvesDefault); } catch( uno::Exception & ) { //end of series reached } } } //static void SchXMLSeries2Context::setStylesToSeries( SeriesDefaultsAndStyles& rSeriesDefaultsAndStyles , const SvXMLStylesContext* pStylesCtxt , const SvXMLStyleContext*& rpStyle , ::rtl::OUString& rCurrStyleName , SchXMLImportHelper& rImportHelper , const SvXMLImport& rImport , bool bIsStockChart , tSchXMLLSequencesPerIndex & rInOutLSequencesPerIndex ) { ::std::list< DataRowPointStyle >::iterator iStyle; // iterate over series for( iStyle = rSeriesDefaultsAndStyles.maSeriesStyleList.begin(); iStyle != rSeriesDefaultsAndStyles.maSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType == DataRowPointStyle::DATA_SERIES ) { try { uno::Reference< beans::XPropertySet > xSeriesProp( iStyle->m_xOldAPISeries ); if( !xSeriesProp.is() ) continue; if( iStyle->mnAttachedAxis != 1 ) { xSeriesProp->setPropertyValue( rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "Axis" )) , uno::makeAny(chart::ChartAxisAssign::SECONDARY_Y) ); } if( (iStyle->msStyleName).getLength()) { if( ! rCurrStyleName.equals( iStyle->msStyleName )) { rCurrStyleName = iStyle->msStyleName; rpStyle = pStylesCtxt->FindStyleChildContext( rImportHelper.GetChartFamilyID(), rCurrStyleName ); } //set style to series // note: SvXMLStyleContext::FillPropertySet is not const XMLPropStyleContext * pPropStyleContext = const_cast< XMLPropStyleContext * >( dynamic_cast< const XMLPropStyleContext * >( rpStyle )); if( pPropStyleContext ) { // error bar style must be set before the other error // bar properties (which may be alphabetically before // this property) bool bHasErrorBarRangesFromData = false; { const ::rtl::OUString aErrorBarStylePropName( RTL_CONSTASCII_USTRINGPARAM("ErrorBarStyle")); uno::Any aErrorBarStyle( SchXMLTools::getPropertyFromContext( aErrorBarStylePropName, pPropStyleContext, pStylesCtxt )); if( aErrorBarStyle.hasValue()) { xSeriesProp->setPropertyValue( aErrorBarStylePropName, aErrorBarStyle ); sal_Int32 eEBStyle = chart::ErrorBarStyle::NONE; bHasErrorBarRangesFromData = ( ( aErrorBarStyle >>= eEBStyle ) && eEBStyle == chart::ErrorBarStyle::FROM_DATA ); } } //don't set the style to the min max line series of a stock chart //otherwise the min max line properties gets overwritten and the series becomes invisible typically bool bIsMinMaxSeries = false; if( bIsStockChart ) { if( SchXMLSeriesHelper::isCandleStickSeries( iStyle->m_xSeries , uno::Reference< frame::XModel >( rImportHelper.GetChartDocument(), uno::UNO_QUERY ) ) ) bIsMinMaxSeries = true; } if( !bIsMinMaxSeries ) { pPropStyleContext->FillPropertySet( xSeriesProp ); if( iStyle->mbSymbolSizeForSeriesIsMissingInFile ) lcl_setSymbolSizeIfNeeded( xSeriesProp, rImport ); if( bHasErrorBarRangesFromData ) lcl_insertErrorBarLSequencesToMap( rInOutLSequencesPerIndex, xSeriesProp ); } } } } catch( uno::Exception & rEx ) { (void)rEx; // avoid warning for pro build DBG_ERROR1( "Exception caught during setting styles to series: %s", OUStringToOString( rEx.Message, RTL_TEXTENCODING_ASCII_US ).getStr() ); } } } } // static void SchXMLSeries2Context::setStylesToStatisticsObjects( SeriesDefaultsAndStyles& rSeriesDefaultsAndStyles , const SvXMLStylesContext* pStylesCtxt , const SvXMLStyleContext*& rpStyle , ::rtl::OUString& rCurrStyleName ) { ::std::list< DataRowPointStyle >::iterator iStyle; // iterate over regession etc for( iStyle = rSeriesDefaultsAndStyles.maSeriesStyleList.begin(); iStyle != rSeriesDefaultsAndStyles.maSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType == DataRowPointStyle::REGRESSION || iStyle->meType == DataRowPointStyle::ERROR_INDICATOR || iStyle->meType == DataRowPointStyle::MEAN_VALUE ) { try { uno::Reference< beans::XPropertySet > xSeriesProp( iStyle->m_xOldAPISeries ); if( !xSeriesProp.is() ) continue; if( (iStyle->msStyleName).getLength()) { if( ! rCurrStyleName.equals( iStyle->msStyleName )) { rCurrStyleName = iStyle->msStyleName; rpStyle = pStylesCtxt->FindStyleChildContext( SchXMLImportHelper::GetChartFamilyID(), rCurrStyleName ); } // note: SvXMLStyleContext::FillPropertySet is not const XMLPropStyleContext * pPropStyleContext = const_cast< XMLPropStyleContext * >( dynamic_cast< const XMLPropStyleContext * >( rpStyle )); if( pPropStyleContext ) { Reference< beans::XPropertySet > xStatPropSet; switch( iStyle->meType ) { case DataRowPointStyle::MEAN_VALUE: xSeriesProp->getPropertyValue( OUString( RTL_CONSTASCII_USTRINGPARAM( "DataMeanValueProperties" ))) >>= xStatPropSet; break; case DataRowPointStyle::REGRESSION: xSeriesProp->getPropertyValue( OUString( RTL_CONSTASCII_USTRINGPARAM( "DataRegressionProperties" ))) >>= xStatPropSet; break; case DataRowPointStyle::ERROR_INDICATOR: xSeriesProp->getPropertyValue( OUString( RTL_CONSTASCII_USTRINGPARAM( "DataErrorProperties" ))) >>= xStatPropSet; break; default: break; } if( xStatPropSet.is()) pPropStyleContext->FillPropertySet( xStatPropSet ); } } // set equation properties at a regression curve // note: this must be done after setting the regression // properties at the old API, otherwise the curve itself does // not exist here if( iStyle->meType == DataRowPointStyle::REGRESSION && iStyle->m_xEquationProperties.is()) { OSL_ASSERT( iStyle->m_xSeries.is()); Reference< chart2::XRegressionCurve > xRegCurve( SchXMLTools::getRegressionCurve( iStyle->m_xSeries )); if( xRegCurve.is()) xRegCurve->setEquationProperties( iStyle->m_xEquationProperties ); } } catch( uno::Exception & rEx ) { (void)rEx; // avoid warning for pro build DBG_ERROR1( "Exception caught during setting styles to series: %s", OUStringToOString( rEx.Message, RTL_TEXTENCODING_ASCII_US ).getStr() ); } } } } //static void SchXMLSeries2Context::setStylesToDataPoints( SeriesDefaultsAndStyles& rSeriesDefaultsAndStyles , const SvXMLStylesContext* pStylesCtxt , const SvXMLStyleContext*& rpStyle , ::rtl::OUString& rCurrStyleName , SchXMLImportHelper& rImportHelper , const SvXMLImport& rImport , bool bIsStockChart, bool bIsDonutChart, bool bSwitchOffLinesForScatter ) { ::std::list< DataRowPointStyle >::iterator iStyle; for( iStyle = rSeriesDefaultsAndStyles.maSeriesStyleList.begin(); iStyle != rSeriesDefaultsAndStyles.maSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType != DataRowPointStyle::DATA_POINT ) continue; if( iStyle->m_nPointIndex == -1 ) continue; //ignore datapoint properties for stock charts //... todo ... if( bIsStockChart ) { if( SchXMLSeriesHelper::isCandleStickSeries( iStyle->m_xSeries, uno::Reference< frame::XModel >( rImportHelper.GetChartDocument(), uno::UNO_QUERY ) ) ) continue; } // data point style for( sal_Int32 i = 0; i < iStyle->m_nPointRepeat; i++ ) { try { uno::Reference< beans::XPropertySet > xSeriesProp( iStyle->m_xOldAPISeries ); if(!xSeriesProp.is()) continue; uno::Reference< beans::XPropertySet > xPointProp( SchXMLSeriesHelper::createOldAPIDataPointPropertySet( iStyle->m_xSeries, iStyle->m_nPointIndex + i , uno::Reference< frame::XModel >( rImportHelper.GetChartDocument(), uno::UNO_QUERY ) ) ); if( !xPointProp.is() ) continue; if( bIsDonutChart ) { //set special series styles for donut charts first if( !rCurrStyleName.equals( iStyle->msSeriesStyleNameForDonuts ) ) { rCurrStyleName = iStyle->msSeriesStyleNameForDonuts; rpStyle = pStylesCtxt->FindStyleChildContext( rImportHelper.GetChartFamilyID(), rCurrStyleName ); } // note: SvXMLStyleContext::FillPropertySet is not const XMLPropStyleContext * pPropStyleContext = const_cast< XMLPropStyleContext * >( dynamic_cast< const XMLPropStyleContext * >( rpStyle )); if( pPropStyleContext ) pPropStyleContext->FillPropertySet( xPointProp ); } try { //need to set this explicitely here for old files as the new api does not support this property fully anymore if( bSwitchOffLinesForScatter ) xPointProp->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Lines")),uno::makeAny(sal_False)); } catch( uno::Exception & rEx ) { (void)rEx; // avoid warning for pro build } if( !rCurrStyleName.equals( iStyle->msStyleName ) ) { rCurrStyleName = iStyle->msStyleName; rpStyle = pStylesCtxt->FindStyleChildContext( rImportHelper.GetChartFamilyID(), rCurrStyleName ); } // note: SvXMLStyleContext::FillPropertySet is not const XMLPropStyleContext * pPropStyleContext = const_cast< XMLPropStyleContext * >( dynamic_cast< const XMLPropStyleContext * >( rpStyle )); if( pPropStyleContext ) { pPropStyleContext->FillPropertySet( xPointProp ); if( iStyle->mbSymbolSizeForSeriesIsMissingInFile ) lcl_resetSymbolSizeForPointsIfNecessary( xPointProp, rImport, pPropStyleContext, pStylesCtxt ); } } catch( uno::Exception & rEx ) { (void)rEx; // avoid warning for pro build DBG_ERROR1( "Exception caught during setting styles to data points: %s", OUStringToOString( rEx.Message, RTL_TEXTENCODING_ASCII_US ).getStr() ); } } } // styles iterator } //static void SchXMLSeries2Context::switchSeriesLinesOff( ::std::list< DataRowPointStyle >& rSeriesStyleList ) { ::std::list< DataRowPointStyle >::iterator iStyle; // iterate over series for( iStyle = rSeriesStyleList.begin(); iStyle != rSeriesStyleList.end(); iStyle++ ) { if( iStyle->meType != DataRowPointStyle::DATA_SERIES ) continue; try { uno::Reference< beans::XPropertySet > xSeries( iStyle->m_xOldAPISeries ); if( !xSeries.is() ) continue; xSeries->setPropertyValue(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Lines")),uno::makeAny(sal_False)); } catch( uno::Exception & ) { //end of series reached } } }