/* -*- 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 "ObjectIdentifier.hxx" #include "macros.hxx" #include "TitleHelper.hxx" #include "ChartModelHelper.hxx" #include "AxisHelper.hxx" #include "servicenames_charttypes.hxx" #include "DiagramHelper.hxx" #include "AxisIndexDefines.hxx" #include #include #include #include #include #include #include #include #include namespace chart { using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Any; static const char m_aMultiClick[] = "MultiClick"; static const char m_aDragMethodEquals[] = "DragMethod="; static const char m_aDragParameterEquals[] = "DragParameter="; static const char m_aProtocol[] = "CID/"; static const OUString m_aPieSegmentDragMethodServiceName("PieSegmentDraging"); namespace { OUString lcl_createClassificationStringForType( ObjectType eObjectType , const OUString& rDragMethodServiceName , const OUString& rDragParameterString ) { OUStringBuffer aRet; switch( eObjectType ) { //these object types are all selected only after their parents was selected before case OBJECTTYPE_LEGEND_ENTRY: //parent is intended to be OBJECTTYPE_LEGEND case OBJECTTYPE_DATA_POINT: //parent is intended to be OBJECTTYPE_DATA_SERIES case OBJECTTYPE_DATA_LABEL: //parent is intended to be OBJECTTYPE_DATA_LABELS case OBJECTTYPE_DATA_ERRORS_X: //parent is intended to be OBJECTTYPE_DATA_ERRORS case OBJECTTYPE_DATA_ERRORS_Y: //parent is intended to be OBJECTTYPE_DATA_ERRORS case OBJECTTYPE_DATA_ERRORS_Z: //parent is intended to be OBJECTTYPE_DATA_ERRORS aRet=m_aMultiClick; default: ;//empty string } if( !rDragMethodServiceName.isEmpty() ) { if( !aRet.isEmpty() ) aRet.append(":"); aRet.append( m_aDragMethodEquals ); aRet.append( rDragMethodServiceName ); if( !rDragParameterString.isEmpty() ) { if( !aRet.isEmpty() ) aRet.append(":"); aRet.append( m_aDragParameterEquals ); aRet.append( rDragParameterString ); } } return aRet.makeStringAndClear(); } typedef ::comphelper::MakeMap< TitleHelper::eTitleType, OUString > tTitleMap; const tTitleMap& lcl_getTitleMap() { //maps the title type to the ParentParticle for that title static tTitleMap m_aTitleMap = tTitleMap ( TitleHelper::MAIN_TITLE, "" ) ( TitleHelper::SUB_TITLE, "D=0" ) ( TitleHelper::X_AXIS_TITLE, "D=0:CS=0:Axis=0,0" ) ( TitleHelper::Y_AXIS_TITLE, "D=0:CS=0:Axis=1,0" ) ( TitleHelper::Z_AXIS_TITLE, "D=0:CS=0:Axis=2,0" ) ( TitleHelper::SECONDARY_X_AXIS_TITLE, "D=0:CS=0:Axis=0,1" ) ( TitleHelper::SECONDARY_Y_AXIS_TITLE, "D=0:CS=0:Axis=1,1" ) ; return m_aTitleMap; } OUString lcl_getTitleParentParticle( TitleHelper::eTitleType aTitleType ) { OUString aRet; const tTitleMap& rMap = lcl_getTitleMap(); tTitleMap::const_iterator aIt( rMap.find( aTitleType ) ); if( aIt != rMap.end()) aRet = (*aIt).second; return aRet; } Reference lcl_getFirstStockChartType( const Reference< frame::XModel >& xChartModel ) { Reference< XDiagram > xDiagram( ChartModelHelper::findDiagram( xChartModel ) ); if(!xDiagram.is()) return 0; //iterate through all coordinate systems Reference< XCoordinateSystemContainer > xCooSysContainer( xDiagram, uno::UNO_QUERY ); if( !xCooSysContainer.is()) return 0; uno::Sequence< Reference< XCoordinateSystem > > aCooSysList( xCooSysContainer->getCoordinateSystems() ); for( sal_Int32 nCS = 0; nCS < aCooSysList.getLength(); ++nCS ) { //iterate through all chart types in the current coordinate system Reference< XChartTypeContainer > xChartTypeContainer( aCooSysList[nCS], uno::UNO_QUERY ); if( !xChartTypeContainer.is() ) continue; uno::Sequence< Reference< XChartType > > aChartTypeList( xChartTypeContainer->getChartTypes() ); for( sal_Int32 nT = 0; nT < aChartTypeList.getLength(); ++nT ) { Reference< XChartType > xChartType( aChartTypeList[nT] ); if(!xChartType.is()) continue; OUString aChartType = xChartType->getChartType(); if( aChartType.equalsIgnoreAsciiCase(CHART2_SERVICE_NAME_CHARTTYPE_CANDLESTICK) ) return xChartType; } } return 0; } OUString lcl_getIndexStringAfterString( const OUString& rString, const OUString& rSearchString ) { OUStringBuffer aRet; sal_Int32 nIndexStart = rString.lastIndexOf( rSearchString ); if( nIndexStart != -1 ) { nIndexStart += rSearchString.getLength(); sal_Int32 nIndexEnd = rString.getLength(); sal_Int32 nNextColon = rString.indexOf( ':', nIndexStart ); if( nNextColon != -1 ) nIndexEnd = nNextColon; aRet = rString.copy(nIndexStart,nIndexEnd-nIndexStart); } return aRet.makeStringAndClear(); } sal_Int32 lcl_StringToIndex( const OUString& rIndexString ) { sal_Int32 nRet = -1; if( !rIndexString.isEmpty() ) { nRet = rIndexString.toInt32(); if( nRet < -1 ) nRet = -1; } return nRet; } void lcl_parseCooSysIndices( sal_Int32& rnDiagram, sal_Int32& rnCooSys, const OUString& rString ) { rnDiagram = lcl_StringToIndex( lcl_getIndexStringAfterString( rString, "D=" ) ); rnCooSys = lcl_StringToIndex( lcl_getIndexStringAfterString( rString, "CS=" ) ); } void lcl_parseAxisIndices( sal_Int32& rnDimensionIndex, sal_Int32& rnAxisIndex, const OUString& rString ) { OUString aAxisIndexString = lcl_getIndexStringAfterString( rString, ":Axis=" ); sal_Int32 nCharacterIndex=0; rnDimensionIndex = lcl_StringToIndex( aAxisIndexString.getToken( 0, ',', nCharacterIndex ) ); rnAxisIndex = lcl_StringToIndex( aAxisIndexString.getToken( 0, ',', nCharacterIndex ) ); } void lcl_parseGridIndices( sal_Int32& rnSubGridIndex, const OUString& rString ) { rnSubGridIndex = -1; rnSubGridIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rString, ":SubGrid=" ) ); } void lcl_parseSeriesIndices( sal_Int32& rnChartTypeIndex, sal_Int32& rnSeriesIndex, sal_Int32& rnPointIndex, const OUString& rString ) { rnChartTypeIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rString, "CT=" ) ); rnSeriesIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rString, "Series=" ) ); rnPointIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rString, "Point=" ) ); } void lcl_getDiagramAndCooSys( const OUString& rObjectCID , const Reference< frame::XModel >& xChartModel , Reference< XDiagram >& xDiagram , Reference< XCoordinateSystem >& xCooSys ) { sal_Int32 nDiagramIndex = -1; sal_Int32 nCooSysIndex = -1; lcl_parseCooSysIndices( nDiagramIndex, nCooSysIndex, rObjectCID ); xDiagram = ChartModelHelper::findDiagram( xChartModel );//todo use nDiagramIndex when more than one diagram is possible in future if( !xDiagram.is() ) return; if( nCooSysIndex > -1 ) { Reference< XCoordinateSystemContainer > xCooSysContainer( xDiagram, uno::UNO_QUERY ); if( xCooSysContainer.is() ) { uno::Sequence< Reference< XCoordinateSystem > > aCooSysList( xCooSysContainer->getCoordinateSystems() ); if( nCooSysIndex < aCooSysList.getLength() ) xCooSys = aCooSysList[nCooSysIndex]; } } } } //anonymous namespace ObjectIdentifier::ObjectIdentifier() :m_aObjectCID( OUString() ) ,m_xAdditionalShape( 0 ) { } ObjectIdentifier::ObjectIdentifier( const OUString& rObjectCID ) :m_aObjectCID( rObjectCID ) ,m_xAdditionalShape( 0 ) { } ObjectIdentifier::ObjectIdentifier( const Reference< drawing::XShape >& rxShape ) :m_aObjectCID( OUString() ) ,m_xAdditionalShape( rxShape ) { } ObjectIdentifier::ObjectIdentifier( const Any& rAny ) :m_aObjectCID( OUString() ) ,m_xAdditionalShape( 0 ) { const uno::Type& rType = rAny.getValueType(); if ( rType == cppu::UnoType::get() ) { rAny >>= m_aObjectCID; } else if ( rType == cppu::UnoType< drawing::XShape >::get() ) { rAny >>= m_xAdditionalShape; } } ObjectIdentifier::~ObjectIdentifier() { } ObjectIdentifier::ObjectIdentifier( const ObjectIdentifier& rOID ) :m_aObjectCID( rOID.m_aObjectCID ) ,m_xAdditionalShape( rOID.m_xAdditionalShape ) { } ObjectIdentifier& ObjectIdentifier::operator=( const ObjectIdentifier& rOID ) { m_aObjectCID = rOID.m_aObjectCID; m_xAdditionalShape = rOID.m_xAdditionalShape; return *this; } bool ObjectIdentifier::operator==( const ObjectIdentifier& rOID ) const { if ( areIdenticalObjects( m_aObjectCID, rOID.m_aObjectCID ) && ( m_xAdditionalShape == rOID.m_xAdditionalShape ) ) { return true; } return false; } bool ObjectIdentifier::operator!=( const ObjectIdentifier& rOID ) const { return !operator==( rOID ); } bool ObjectIdentifier::operator<( const ObjectIdentifier& rOID ) const { bool bReturn = false; if ( !(m_aObjectCID.isEmpty() || rOID.m_aObjectCID.isEmpty()) ) { bReturn = ( m_aObjectCID.compareTo( rOID.m_aObjectCID ) < 0 ); } else if ( !m_aObjectCID.isEmpty() ) { bReturn = true; } else if ( !rOID.m_aObjectCID.isEmpty() ) { bReturn = false; } else if ( m_xAdditionalShape.is() && rOID.m_xAdditionalShape.is() ) { bReturn = ( m_xAdditionalShape < rOID.m_xAdditionalShape ); } return bReturn; } OUString ObjectIdentifier::createClassifiedIdentifierForObject( const Reference< uno::XInterface >& xObject , ChartModel& rModel) { OUString aRet; enum ObjectType eObjectType = OBJECTTYPE_UNKNOWN; OUString aObjectID; OUString aParentParticle; OUString aDragMethodServiceName; OUString aDragParameterString; try { //title Reference< XTitle > xTitle( xObject, uno::UNO_QUERY ); if( xTitle.is() ) { TitleHelper::eTitleType aTitleType; if( TitleHelper::getTitleType( aTitleType, xTitle, rModel ) ) { eObjectType = OBJECTTYPE_TITLE; aParentParticle = lcl_getTitleParentParticle( aTitleType ); aRet = ObjectIdentifier::createClassifiedIdentifierWithParent( eObjectType, aObjectID, aParentParticle, aDragMethodServiceName, aDragParameterString ); } return aRet; } //axis Reference< XAxis > xAxis( xObject, uno::UNO_QUERY ); if( xAxis.is() ) { Reference< XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( xAxis, rModel.getFirstDiagram() ) ); OUString aCooSysParticle( createParticleForCoordinateSystem( xCooSys, rModel ) ); sal_Int32 nDimensionIndex=-1; sal_Int32 nAxisIndex=-1; AxisHelper::getIndicesForAxis( xAxis, xCooSys, nDimensionIndex, nAxisIndex ); OUString aAxisParticle( createParticleForAxis( nDimensionIndex, nAxisIndex ) ); return createClassifiedIdentifierForParticles( aCooSysParticle, aAxisParticle ); } //legend Reference< XLegend > xLegend( xObject, uno::UNO_QUERY ); if( xLegend.is() ) { return createClassifiedIdentifierForParticle( createParticleForLegend( xLegend, rModel ) ); } //diagram Reference< XDiagram > xDiagram( xObject, uno::UNO_QUERY ); if( xDiagram.is() ) { return createClassifiedIdentifierForParticle( createParticleForDiagram( xDiagram, rModel ) ); } //todo //XDataSeries //CooSys //charttype //datapoint? //Gridproperties } catch(const uno::Exception& ex) { ASSERT_EXCEPTION( ex ); } if( eObjectType != OBJECTTYPE_UNKNOWN ) { aRet = ObjectIdentifier::createClassifiedIdentifierWithParent( eObjectType, aObjectID, aParentParticle, aDragMethodServiceName, aDragParameterString ); } else { OSL_FAIL("give object could not be identifed in createClassifiedIdentifierForObject"); } return aRet; } OUString ObjectIdentifier::createClassifiedIdentifierForObject( const Reference< uno::XInterface >& xObject , const Reference< frame::XModel >& xChartModel ) { OUString aRet; enum ObjectType eObjectType = OBJECTTYPE_UNKNOWN; OUString aObjectID; OUString aParentParticle; OUString aDragMethodServiceName; OUString aDragParameterString; try { //title Reference< XTitle > xTitle( xObject, uno::UNO_QUERY ); if( xTitle.is() ) { TitleHelper::eTitleType aTitleType; if( TitleHelper::getTitleType( aTitleType, xTitle, xChartModel ) ) { eObjectType = OBJECTTYPE_TITLE; aParentParticle = lcl_getTitleParentParticle( aTitleType ); aRet = ObjectIdentifier::createClassifiedIdentifierWithParent( eObjectType, aObjectID, aParentParticle, aDragMethodServiceName, aDragParameterString ); } return aRet; } //axis Reference< XAxis > xAxis( xObject, uno::UNO_QUERY ); if( xAxis.is() ) { Reference< XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( xAxis, ChartModelHelper::findDiagram( xChartModel ) ) ); OUString aCooSysParticle( createParticleForCoordinateSystem( xCooSys, xChartModel ) ); sal_Int32 nDimensionIndex=-1; sal_Int32 nAxisIndex=-1; AxisHelper::getIndicesForAxis( xAxis, xCooSys, nDimensionIndex, nAxisIndex ); OUString aAxisParticle( createParticleForAxis( nDimensionIndex, nAxisIndex ) ); return createClassifiedIdentifierForParticles( aCooSysParticle, aAxisParticle ); } //legend Reference< XLegend > xLegend( xObject, uno::UNO_QUERY ); if( xLegend.is() ) { return createClassifiedIdentifierForParticle( createParticleForLegend( xLegend, xChartModel ) ); } //diagram Reference< XDiagram > xDiagram( xObject, uno::UNO_QUERY ); if( xDiagram.is() ) { return createClassifiedIdentifierForParticle( createParticleForDiagram( xDiagram, xChartModel ) ); } //todo //XDataSeries //CooSys //charttype //datapoint? //Gridproperties } catch(const uno::Exception& ex) { ASSERT_EXCEPTION( ex ); } if( eObjectType != OBJECTTYPE_UNKNOWN ) { aRet = ObjectIdentifier::createClassifiedIdentifierWithParent( eObjectType, aObjectID, aParentParticle, aDragMethodServiceName, aDragParameterString ); } else { OSL_FAIL("give object could not be identifed in createClassifiedIdentifierForObject"); } return aRet; } OUString ObjectIdentifier::createClassifiedIdentifierForParticle( const OUString& rParticle ) { return ObjectIdentifier::createClassifiedIdentifierForParticles( rParticle, OUString() ); } OUString ObjectIdentifier::createClassifiedIdentifierForParticles( const OUString& rParentParticle , const OUString& rChildParticle , const OUString& rDragMethodServiceName , const OUString& rDragParameterString ) { ObjectType eObjectType( ObjectIdentifier::getObjectType( rChildParticle ) ); if( eObjectType == OBJECTTYPE_UNKNOWN ) eObjectType = ObjectIdentifier::getObjectType( rParentParticle ); OUStringBuffer aRet( m_aProtocol ); aRet.append( lcl_createClassificationStringForType( eObjectType, rDragMethodServiceName, rDragParameterString )); if(aRet.getLength() > (sal_Int32)strlen(m_aProtocol)) aRet.append("/"); if(!rParentParticle.isEmpty()) { aRet.append(rParentParticle); if( !rChildParticle.isEmpty() ) aRet.append(":"); } aRet.append(rChildParticle); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createParticleForDiagram( const Reference< XDiagram >& /*xDiagram*/ , ChartModel& /*xChartModel*/ ) { //todo: if more than one diagram is implemeted, add the correct diagram index here return OUString("D=0"); } OUString ObjectIdentifier::createParticleForDiagram( const Reference< XDiagram >& /*xDiagram*/ , const Reference< frame::XModel >& /*xChartModel*/ ) { //todo: if more than one diagram is implemeted, add the correct diagram index here return OUString("D=0"); } OUString ObjectIdentifier::createParticleForCoordinateSystem( const Reference< XCoordinateSystem >& xCooSys , ChartModel& rModel ) { OUStringBuffer aRet; Reference< XDiagram > xDiagram( rModel.getFirstDiagram() ); Reference< XCoordinateSystemContainer > xCooSysContainer( xDiagram, uno::UNO_QUERY ); if( xCooSysContainer.is() ) { sal_Int32 nCooSysIndex = 0; uno::Sequence< Reference< XCoordinateSystem > > aCooSysList( xCooSysContainer->getCoordinateSystems() ); for( ; nCooSysIndex < aCooSysList.getLength(); ++nCooSysIndex ) { Reference< XCoordinateSystem > xCurrentCooSys( aCooSysList[nCooSysIndex] ); if( xCooSys == xCurrentCooSys ) { aRet = ObjectIdentifier::createParticleForDiagram( xDiagram, rModel ); aRet.append(":CS="); aRet.append( OUString::number( nCooSysIndex ) ); break; } } } return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createParticleForCoordinateSystem( const Reference< XCoordinateSystem >& xCooSys , const Reference< frame::XModel >& xChartModel ) { OUStringBuffer aRet; Reference< XDiagram > xDiagram( ChartModelHelper::findDiagram( xChartModel ) ); Reference< XCoordinateSystemContainer > xCooSysContainer( xDiagram, uno::UNO_QUERY ); if( xCooSysContainer.is() ) { sal_Int32 nCooSysIndex = 0; uno::Sequence< Reference< XCoordinateSystem > > aCooSysList( xCooSysContainer->getCoordinateSystems() ); for( ; nCooSysIndex < aCooSysList.getLength(); ++nCooSysIndex ) { Reference< XCoordinateSystem > xCurrentCooSys( aCooSysList[nCooSysIndex] ); if( xCooSys == xCurrentCooSys ) { aRet = ObjectIdentifier::createParticleForDiagram( xDiagram, xChartModel ); aRet.append(":CS="); aRet.append( OUString::number( nCooSysIndex ) ); break; } } } return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createParticleForAxis( sal_Int32 nDimensionIndex , sal_Int32 nAxisIndex ) { OUStringBuffer aRet("Axis="); aRet.append( OUString::number( nDimensionIndex ) ); aRet.append(","); aRet.append( OUString::number( nAxisIndex ) ); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createParticleForGrid( sal_Int32 nDimensionIndex , sal_Int32 nAxisIndex ) { OUStringBuffer aRet("Axis="); aRet.append( OUString::number( nDimensionIndex ) ); aRet.append(","); aRet.append( OUString::number( nAxisIndex ) ); aRet.append( ":Grid=0" ); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createClassifiedIdentifierForGrid( const Reference< XAxis >& xAxis , const Reference< frame::XModel >& xChartModel , sal_Int32 nSubGridIndex ) { //-1: main grid, 0: first subgrid etc OUString aAxisCID( createClassifiedIdentifierForObject( xAxis, xChartModel ) ); OUString aGridCID( addChildParticle( aAxisCID , createChildParticleWithIndex( OBJECTTYPE_GRID, 0 ) ) ); if( nSubGridIndex >= 0 ) { aGridCID = addChildParticle( aGridCID , createChildParticleWithIndex( OBJECTTYPE_SUBGRID, 0 ) ); } return aGridCID; } OUString ObjectIdentifier::createParticleForSeries( sal_Int32 nDiagramIndex, sal_Int32 nCooSysIndex , sal_Int32 nChartTypeIndex, sal_Int32 nSeriesIndex ) { OUStringBuffer aRet; aRet.append("D="); aRet.append( OUString::number( nDiagramIndex ) ); aRet.append(":CS="); aRet.append( OUString::number( nCooSysIndex ) ); aRet.append(":CT="); aRet.append( OUString::number( nChartTypeIndex ) ); aRet.append(":"); aRet.append(getStringForType( OBJECTTYPE_DATA_SERIES )); aRet.append("="); aRet.append( OUString::number( nSeriesIndex ) ); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createParticleForLegend( const Reference< XLegend >& /*xLegend*/ , ChartModel& rModel ) { OUStringBuffer aRet; Reference< XDiagram > xDiagram( rModel.getFirstDiagram() ); //todo: if more than one diagram is implemeted, find the correct diagram which is owner of the given legend aRet.append( ObjectIdentifier::createParticleForDiagram( xDiagram, rModel ) ); aRet.append(":"); aRet.append(getStringForType( OBJECTTYPE_LEGEND )); aRet.append("="); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createParticleForLegend( const Reference< XLegend >& /*xLegend*/ , const Reference< frame::XModel >& xChartModel ) { OUStringBuffer aRet; Reference< XDiagram > xDiagram( ChartModelHelper::findDiagram( xChartModel ) ); //todo: if more than one diagram is implemeted, find the correct diagram which is owner of the given legend aRet.append( ObjectIdentifier::createParticleForDiagram( xDiagram, xChartModel ) ); aRet.append(":"); aRet.append(getStringForType( OBJECTTYPE_LEGEND )); aRet.append("="); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createClassifiedIdentifier( enum ObjectType eObjectType //e.g. OBJECTTYPE_DATA_SERIES , const OUString& rParticleID )//e.g. SeriesID { return createClassifiedIdentifierWithParent( eObjectType, rParticleID, OUString() ); } OUString ObjectIdentifier::createClassifiedIdentifierWithParent( enum ObjectType eObjectType //e.g. OBJECTTYPE_DATA_POINT or OBJECTTYPE_GRID , const OUString& rParticleID //e.g. Point Index or SubGrid Index , const OUString& rParentPartical //e.g. "Series=SeriesID" or "Grid=GridId" , const OUString& rDragMethodServiceName , const OUString& rDragParameterString ) //, bool bIsMultiClickObject ) //e.g. true { //e.g. "MultiClick/Series=2:Point=34" OUStringBuffer aRet( m_aProtocol ); aRet.append( lcl_createClassificationStringForType( eObjectType, rDragMethodServiceName, rDragParameterString )); if(aRet.getLength() > (sal_Int32)strlen(m_aProtocol)) aRet.append("/"); aRet.append(rParentPartical); if(!rParentPartical.isEmpty()) aRet.append(":"); aRet.append(getStringForType( eObjectType )); aRet.append("="); aRet.append(rParticleID); return aRet.makeStringAndClear(); } const OUString& ObjectIdentifier::getPieSegmentDragMethodServiceName() { return m_aPieSegmentDragMethodServiceName; } OUString ObjectIdentifier::createPieSegmentDragParameterString( sal_Int32 nOffsetPercent , const awt::Point& rMinimumPosition , const awt::Point& rMaximumPosition ) { OUStringBuffer aRet( OUString::number( nOffsetPercent ) ); aRet.append( ','); aRet.append( OUString::number( rMinimumPosition.X ) ); aRet.append( ','); aRet.append( OUString::number( rMinimumPosition.Y ) ); aRet.append( ','); aRet.append( OUString::number( rMaximumPosition.X ) ); aRet.append( ','); aRet.append( OUString::number( rMaximumPosition.Y ) ); return aRet.makeStringAndClear(); } bool ObjectIdentifier::parsePieSegmentDragParameterString( const OUString& rDragParameterString , sal_Int32& rOffsetPercent , awt::Point& rMinimumPosition , awt::Point& rMaximumPosition ) { sal_Int32 nCharacterIndex = 0; OUString aValueString( rDragParameterString.getToken( 0, ',', nCharacterIndex ) ); rOffsetPercent = aValueString.toInt32(); if( nCharacterIndex < 0 ) return false; aValueString = rDragParameterString.getToken( 0, ',', nCharacterIndex ); rMinimumPosition.X = aValueString.toInt32(); if( nCharacterIndex < 0 ) return false; aValueString = rDragParameterString.getToken( 0, ',', nCharacterIndex ); rMinimumPosition.Y = aValueString.toInt32(); if( nCharacterIndex < 0 ) return false; aValueString = rDragParameterString.getToken( 0, ',', nCharacterIndex ); rMaximumPosition.X = aValueString.toInt32(); if( nCharacterIndex < 0 ) return false; aValueString = rDragParameterString.getToken( 0, ',', nCharacterIndex ); rMaximumPosition.Y = aValueString.toInt32(); if( nCharacterIndex < 0 ) return false; return true; } OUString ObjectIdentifier::getDragMethodServiceName( const OUString& rCID ) { OUString aRet; sal_Int32 nIndexStart = rCID.indexOf( m_aDragMethodEquals ); if( nIndexStart != -1 ) { nIndexStart = rCID.indexOf( '=', nIndexStart ); if( nIndexStart != -1 ) { nIndexStart++; sal_Int32 nNextSlash = rCID.indexOf( '/', nIndexStart ); if( nNextSlash != -1 ) { sal_Int32 nIndexEnd = nNextSlash; sal_Int32 nNextColon = rCID.indexOf( ':', nIndexStart ); if( nNextColon < nNextSlash ) nIndexEnd = nNextColon; aRet = rCID.copy(nIndexStart,nIndexEnd-nIndexStart); } } } return aRet; } OUString ObjectIdentifier::getDragParameterString( const OUString& rCID ) { OUString aRet; sal_Int32 nIndexStart = rCID.indexOf( m_aDragParameterEquals ); if( nIndexStart != -1 ) { nIndexStart = rCID.indexOf( '=', nIndexStart ); if( nIndexStart != -1 ) { nIndexStart++; sal_Int32 nNextSlash = rCID.indexOf( '/', nIndexStart ); if( nNextSlash != -1 ) { sal_Int32 nIndexEnd = nNextSlash; sal_Int32 nNextColon = rCID.indexOf( ':', nIndexStart ); if( nNextColon < nNextSlash ) nIndexEnd = nNextColon; aRet = rCID.copy(nIndexStart,nIndexEnd-nIndexStart); } } } return aRet; } bool ObjectIdentifier::isDragableObject( const OUString& rClassifiedIdentifier ) { bool bReturn = false; ObjectType eObjectType = ObjectIdentifier::getObjectType( rClassifiedIdentifier ); switch( eObjectType ) { case OBJECTTYPE_TITLE: case OBJECTTYPE_LEGEND: case OBJECTTYPE_DIAGRAM: case OBJECTTYPE_DATA_CURVE_EQUATION: //case OBJECTTYPE_DIAGRAM_WALL: bReturn = true; break; default: OUString aDragMethodServiceName( ObjectIdentifier::getDragMethodServiceName( rClassifiedIdentifier ) ); bReturn = !aDragMethodServiceName.isEmpty(); break; } return bReturn; } bool ObjectIdentifier::isDragableObject() { bool bReturn = false; if ( isAutoGeneratedObject() ) { bReturn = isDragableObject( m_aObjectCID ); } else if ( isAdditionalShape() ) { bReturn = true; } return bReturn; } bool ObjectIdentifier::isRotateableObject( const OUString& rClassifiedIdentifier ) { bool bReturn = false; ObjectType eObjectType = ObjectIdentifier::getObjectType( rClassifiedIdentifier ); switch( eObjectType ) { case OBJECTTYPE_DIAGRAM: //case OBJECTTYPE_DIAGRAM_WALL: bReturn = true; break; default: bReturn = false; break; } return bReturn; } bool ObjectIdentifier::isMultiClickObject( const OUString& rClassifiedIdentifier ) { //the name of a shape is it's ClassifiedIdentifier //a MultiClickObject is an object that is selectable by more than one click only ; //before a MultiClickObject can be selected it is necessary that a named parent group object //was selected before; //!!!!! by definition the name of a MultiClickObject starts with "CID/MultiClick:" bool bRet = rClassifiedIdentifier.match( m_aMultiClick, strlen(m_aProtocol) ); return bRet; } bool ObjectIdentifier::areSiblings( const OUString& rCID1, const OUString& rCID2 ) { bool bRet=false; sal_Int32 nLastSign1 = rCID1.lastIndexOf( '=' ); sal_Int32 nLastSign2 = rCID2.lastIndexOf( '=' ); if( nLastSign1 == rCID1.indexOf( '=' ) )//CID cannot be sibling if only one "=" occurs bRet=false; else if( nLastSign2 == rCID2.indexOf( '=' ) )//CID cannot be sibling if only one "=" occurs bRet=false; else if( ObjectIdentifier::areIdenticalObjects( rCID1, rCID2 ) ) bRet=false; else { OUString aParent1( ObjectIdentifier::getFullParentParticle( rCID1 ) ); if( !aParent1.isEmpty() ) { OUString aParent2( ObjectIdentifier::getFullParentParticle( rCID2 ) ); bRet=aParent1.equals(aParent2); } //legend entries are special: if(!bRet) { if( OBJECTTYPE_LEGEND_ENTRY == getObjectType(rCID1) && OBJECTTYPE_LEGEND_ENTRY == getObjectType(rCID2) ) bRet = true; } } return bRet; } bool ObjectIdentifier::areIdenticalObjects( const OUString& rCID1, const OUString& rCID2 ) { if( rCID1.equals( rCID2 ) ) return true; //draggable pie or donut segments need special treatment, as their CIDs do change with offset { if( rCID1.indexOf( m_aPieSegmentDragMethodServiceName ) < 0 || rCID2.indexOf( m_aPieSegmentDragMethodServiceName ) < 0 ) return false; OUString aID1( ObjectIdentifier::getObjectID( rCID1 ) ); OUString aID2( ObjectIdentifier::getObjectID( rCID2 ) ); if( !aID1.isEmpty() && aID1.equals( aID2 ) ) return true; } return false; } OUString ObjectIdentifier::getStringForType( ObjectType eObjectType ) { OUString aRet; switch( eObjectType ) { case OBJECTTYPE_PAGE: aRet="Page"; break; case OBJECTTYPE_TITLE: aRet="Title"; break; case OBJECTTYPE_LEGEND: aRet="Legend"; break; case OBJECTTYPE_LEGEND_ENTRY: aRet="LegendEntry"; break; case OBJECTTYPE_DIAGRAM: aRet="D"; break; case OBJECTTYPE_DIAGRAM_WALL: aRet="DiagramWall"; break; case OBJECTTYPE_DIAGRAM_FLOOR: aRet="DiagramFloor"; break; case OBJECTTYPE_AXIS: aRet="Axis"; break; case OBJECTTYPE_AXIS_UNITLABEL: aRet="AxisUnitLabel"; break; case OBJECTTYPE_GRID: aRet="Grid"; break; case OBJECTTYPE_SUBGRID: aRet="SubGrid"; break; case OBJECTTYPE_DATA_SERIES: aRet="Series"; break; case OBJECTTYPE_DATA_POINT: aRet="Point"; break; case OBJECTTYPE_DATA_LABELS: aRet="DataLabels"; break; case OBJECTTYPE_DATA_LABEL: aRet="DataLabel"; break; case OBJECTTYPE_DATA_ERRORS_X: aRet="ErrorsX"; break; case OBJECTTYPE_DATA_ERRORS_Y: aRet="ErrorsY"; break; case OBJECTTYPE_DATA_ERRORS_Z: aRet="ErrorsZ"; break; case OBJECTTYPE_DATA_CURVE: aRet="Curve"; break; case OBJECTTYPE_DATA_CURVE_EQUATION: aRet="Equation"; break; case OBJECTTYPE_DATA_AVERAGE_LINE: aRet="Average"; break; case OBJECTTYPE_DATA_STOCK_RANGE: aRet="StockRange"; break; case OBJECTTYPE_DATA_STOCK_LOSS: aRet="StockLoss"; break; case OBJECTTYPE_DATA_STOCK_GAIN: aRet="StockGain"; break; default: //OBJECTTYPE_UNKNOWN ; } return aRet; } ObjectType ObjectIdentifier::getObjectType( const OUString& rCID ) { ObjectType eRet; sal_Int32 nLastSign = rCID.lastIndexOf( ':' );//last sign before the type string if(nLastSign==-1) nLastSign = rCID.lastIndexOf( '/' ); if(nLastSign==-1) { sal_Int32 nEndIndex = rCID.lastIndexOf( '=' ); if(nEndIndex==-1) return OBJECTTYPE_UNKNOWN; nLastSign = 0; } if( nLastSign>0 ) nLastSign++; if( rCID.match("Page",nLastSign) ) eRet = OBJECTTYPE_PAGE; else if( rCID.match("Title",nLastSign) ) eRet = OBJECTTYPE_TITLE; else if( rCID.match("LegendEntry",nLastSign) ) eRet = OBJECTTYPE_LEGEND_ENTRY; else if( rCID.match("Legend",nLastSign) ) eRet = OBJECTTYPE_LEGEND; else if( rCID.match("DiagramWall",nLastSign) ) eRet = OBJECTTYPE_DIAGRAM_WALL; else if( rCID.match("DiagramFloor",nLastSign) ) eRet = OBJECTTYPE_DIAGRAM_FLOOR; else if( rCID.match("D=",nLastSign) ) eRet = OBJECTTYPE_DIAGRAM; else if( rCID.match("AxisUnitLabel",nLastSign) ) eRet = OBJECTTYPE_AXIS_UNITLABEL; else if( rCID.match("Axis",nLastSign) ) eRet = OBJECTTYPE_AXIS; else if( rCID.match("Grid",nLastSign) ) eRet = OBJECTTYPE_GRID; else if( rCID.match("SubGrid",nLastSign) ) eRet = OBJECTTYPE_SUBGRID; else if( rCID.match("Series",nLastSign) ) eRet = OBJECTTYPE_DATA_SERIES; else if( rCID.match("Point",nLastSign) ) eRet = OBJECTTYPE_DATA_POINT; else if( rCID.match("DataLabels",nLastSign) ) eRet = OBJECTTYPE_DATA_LABELS; else if( rCID.match("DataLabel",nLastSign) ) eRet = OBJECTTYPE_DATA_LABEL; else if( rCID.match("ErrorsX",nLastSign) ) eRet = OBJECTTYPE_DATA_ERRORS_X; else if( rCID.match("ErrorsY",nLastSign) ) eRet = OBJECTTYPE_DATA_ERRORS_Y; else if( rCID.match("ErrorsZ",nLastSign) ) eRet = OBJECTTYPE_DATA_ERRORS_Z; else if( rCID.match("Curve",nLastSign) ) eRet = OBJECTTYPE_DATA_CURVE; else if( rCID.match("Equation",nLastSign) ) eRet = OBJECTTYPE_DATA_CURVE_EQUATION; else if( rCID.match("Average",nLastSign) ) eRet = OBJECTTYPE_DATA_AVERAGE_LINE; else if( rCID.match("StockRange",nLastSign) ) eRet = OBJECTTYPE_DATA_STOCK_RANGE; else if( rCID.match("StockLoss",nLastSign) ) eRet = OBJECTTYPE_DATA_STOCK_LOSS; else if( rCID.match("StockGain",nLastSign) ) eRet = OBJECTTYPE_DATA_STOCK_GAIN; else eRet = OBJECTTYPE_UNKNOWN; return eRet; } ObjectType ObjectIdentifier::getObjectType() { ObjectType eObjectType( OBJECTTYPE_UNKNOWN ); if ( isAutoGeneratedObject() ) { eObjectType = getObjectType( m_aObjectCID ); } else if ( isAdditionalShape() ) { eObjectType = OBJECTTYPE_SHAPE; } return eObjectType; } OUString ObjectIdentifier::createDataCurveCID( const OUString& rSeriesParticle , sal_Int32 nCurveIndex , bool bAverageLine ) { OUString aParticleID( OUString::number( nCurveIndex ) ); ObjectType eType = bAverageLine ? OBJECTTYPE_DATA_AVERAGE_LINE : OBJECTTYPE_DATA_CURVE; return createClassifiedIdentifierWithParent( eType, aParticleID, rSeriesParticle ); } OUString ObjectIdentifier::createDataCurveEquationCID( const OUString& rSeriesParticle , sal_Int32 nCurveIndex ) { OUString aParticleID( OUString::number( nCurveIndex ) ); return createClassifiedIdentifierWithParent( OBJECTTYPE_DATA_CURVE_EQUATION, aParticleID, rSeriesParticle ); } OUString ObjectIdentifier::addChildParticle( const OUString& rParticle, const OUString& rChildParticle ) { OUStringBuffer aRet(rParticle); if( !aRet.isEmpty() && !rChildParticle.isEmpty() ) aRet.append(":"); if( !rChildParticle.isEmpty() ) aRet.append(rChildParticle); return aRet.makeStringAndClear(); } OUString ObjectIdentifier::createChildParticleWithIndex( ObjectType eObjectType, sal_Int32 nIndex ) { OUStringBuffer aRet( getStringForType( eObjectType ) ); if( !aRet.isEmpty() ) { aRet.append("="); aRet.append(OUString::number(nIndex)); } return aRet.makeStringAndClear(); } sal_Int32 ObjectIdentifier::getIndexFromParticleOrCID( const OUString& rParticleOrCID ) { OUString aIndexString = lcl_getIndexStringAfterString( rParticleOrCID, "=" ); sal_Int32 nCharacterIndex=0; sal_Int32 nRet = lcl_StringToIndex( aIndexString.getToken( 0, ',', nCharacterIndex ) ); return nRet; } OUString ObjectIdentifier::createSeriesSubObjectStub( ObjectType eSubObjectType , const OUString& rSeriesParticle , const OUString& rDragMethodServiceName , const OUString& rDragParameterString ) { OUString aChildParticle( getStringForType( eSubObjectType ) ); aChildParticle+=("="); return createClassifiedIdentifierForParticles( rSeriesParticle, aChildParticle , rDragMethodServiceName, rDragParameterString ); } OUString ObjectIdentifier::createPointCID( const OUString& rPointCID_Stub, sal_Int32 nIndex ) { OUString aRet(rPointCID_Stub); return aRet+=OUString::number( nIndex ); } OUString ObjectIdentifier::getParticleID( const OUString& rCID ) { OUString aRet; sal_Int32 nLast = rCID.lastIndexOf('='); if(nLast>=0) aRet = rCID.copy(++nLast); return aRet; } OUString ObjectIdentifier::getFullParentParticle( const OUString& rCID ) { OUString aRet; sal_Int32 nStartPos = rCID.lastIndexOf('/'); if( nStartPos>=0 ) { nStartPos++; sal_Int32 nEndPos = rCID.lastIndexOf(':'); if( nEndPos>=0 && nStartPos < nEndPos ) { aRet = rCID.copy(nStartPos,nEndPos-nStartPos); } } return aRet; } OUString ObjectIdentifier::getObjectID( const OUString& rCID ) { OUString aRet; sal_Int32 nStartPos = rCID.lastIndexOf('/'); if( nStartPos>=0 ) { nStartPos++; sal_Int32 nEndPos = rCID.getLength(); aRet = rCID.copy(nStartPos,nEndPos-nStartPos); } return aRet; } bool ObjectIdentifier::isCID( const OUString& rName ) { return !rName.isEmpty() && rName.match( m_aProtocol ); } Reference< beans::XPropertySet > ObjectIdentifier::getObjectPropertySet( const OUString& rObjectCID, const Reference< chart2::XChartDocument >& xChartDocument ) { return ObjectIdentifier::getObjectPropertySet( rObjectCID, Reference< frame::XModel >( xChartDocument, uno::UNO_QUERY )); } Reference< beans::XPropertySet > ObjectIdentifier::getObjectPropertySet( const OUString& rObjectCID , const Reference< frame::XModel >& xChartModel ) { //return the model object that is indicated by rObjectCID if(rObjectCID.isEmpty()) return NULL; if(!xChartModel.is()) return NULL; Reference< beans::XPropertySet > xObjectProperties = NULL; try { ObjectType eObjectType = ObjectIdentifier::getObjectType( rObjectCID ); OUString aParticleID = ObjectIdentifier::getParticleID( rObjectCID ); Reference< XDiagram > xDiagram; Reference< XCoordinateSystem > xCooSys; lcl_getDiagramAndCooSys( rObjectCID, xChartModel, xDiagram, xCooSys ); switch(eObjectType) { case OBJECTTYPE_PAGE: { Reference< XChartDocument > xChartDocument( xChartModel, uno::UNO_QUERY ); if( xChartDocument.is()) xObjectProperties.set( xChartDocument->getPageBackground() ); } break; case OBJECTTYPE_TITLE: { TitleHelper::eTitleType aTitleType = getTitleTypeForCID( rObjectCID ); Reference< XTitle > xTitle( TitleHelper::getTitle( aTitleType, xChartModel ) ); xObjectProperties.set( xTitle, uno::UNO_QUERY ); } break; case OBJECTTYPE_LEGEND: { if( xDiagram.is() ) xObjectProperties.set( xDiagram->getLegend(), uno::UNO_QUERY ); } break; case OBJECTTYPE_LEGEND_ENTRY: break; case OBJECTTYPE_DIAGRAM: { xObjectProperties.set( xDiagram, uno::UNO_QUERY ); } break; case OBJECTTYPE_DIAGRAM_WALL: { if( xDiagram.is() ) xObjectProperties.set( xDiagram->getWall() ); } break; case OBJECTTYPE_DIAGRAM_FLOOR: { if( xDiagram.is() ) xObjectProperties.set( xDiagram->getFloor() ); } break; case OBJECTTYPE_AXIS: { sal_Int32 nDimensionIndex = -1; sal_Int32 nAxisIndex = -1; lcl_parseAxisIndices( nDimensionIndex, nAxisIndex, rObjectCID ); Reference< chart2::XAxis > xAxis( AxisHelper::getAxis( nDimensionIndex, nAxisIndex, xCooSys ) ); if( xAxis.is() ) xObjectProperties.set( xAxis, uno::UNO_QUERY ); } break; case OBJECTTYPE_AXIS_UNITLABEL: break; case OBJECTTYPE_GRID: case OBJECTTYPE_SUBGRID: { sal_Int32 nDimensionIndex = -1; sal_Int32 nAxisIndex = -1; lcl_parseAxisIndices( nDimensionIndex, nAxisIndex, rObjectCID ); sal_Int32 nSubGridIndex = -1; lcl_parseGridIndices( nSubGridIndex, rObjectCID ); xObjectProperties.set( AxisHelper::getGridProperties( xCooSys , nDimensionIndex, nAxisIndex, nSubGridIndex ) ); } break; case OBJECTTYPE_DATA_LABELS: case OBJECTTYPE_DATA_SERIES: { Reference< XDataSeries > xSeries( ObjectIdentifier::getDataSeriesForCID( rObjectCID, xChartModel ) ); if( xSeries.is() ) xObjectProperties = Reference< beans::XPropertySet >( xSeries, uno::UNO_QUERY ); break; } case OBJECTTYPE_DATA_LABEL: case OBJECTTYPE_DATA_POINT: { Reference< XDataSeries > xSeries( ObjectIdentifier::getDataSeriesForCID( rObjectCID, xChartModel ) ); if(xSeries.is()) { sal_Int32 nIndex = aParticleID.toInt32(); xObjectProperties = xSeries->getDataPointByIndex( nIndex ); } break; } case OBJECTTYPE_DATA_ERRORS_X: case OBJECTTYPE_DATA_ERRORS_Y: case OBJECTTYPE_DATA_ERRORS_Z: { Reference< XDataSeries > xSeries( ObjectIdentifier::getDataSeriesForCID( rObjectCID, xChartModel ) ); if(xSeries.is()) { Reference< beans::XPropertySet > xSeriesProp( xSeries, uno::UNO_QUERY ); Reference< beans::XPropertySet > xErrorBarProp; if( xSeriesProp.is() ) { OUString errorBar; if ( eObjectType == OBJECTTYPE_DATA_ERRORS_X) errorBar = CHART_UNONAME_ERRORBAR_X; else if (eObjectType == OBJECTTYPE_DATA_ERRORS_Y) errorBar = CHART_UNONAME_ERRORBAR_Y; else errorBar = "ErrorBarZ"; xSeriesProp->getPropertyValue( errorBar ) >>= xErrorBarProp; xObjectProperties = Reference< beans::XPropertySet >( xErrorBarProp, uno::UNO_QUERY ); } } break; } case OBJECTTYPE_DATA_AVERAGE_LINE: case OBJECTTYPE_DATA_CURVE: case OBJECTTYPE_DATA_CURVE_EQUATION: { Reference< XRegressionCurveContainer > xRegressionContainer( ObjectIdentifier::getDataSeriesForCID( rObjectCID, xChartModel ), uno::UNO_QUERY ); if(xRegressionContainer.is()) { sal_Int32 nIndex = aParticleID.toInt32(); uno::Sequence< Reference< XRegressionCurve > > aCurveList = xRegressionContainer->getRegressionCurves(); if( nIndex >= 0 && nIndex getEquationProperties()); else xObjectProperties.set( aCurveList[nIndex], uno::UNO_QUERY ); } } break; } case OBJECTTYPE_DATA_STOCK_RANGE: break; case OBJECTTYPE_DATA_STOCK_LOSS: { Reference xChartType( lcl_getFirstStockChartType( xChartModel ) ); Reference< beans::XPropertySet > xChartTypeProps( xChartType, uno::UNO_QUERY ); if(xChartTypeProps.is()) xChartTypeProps->getPropertyValue( "BlackDay" ) >>= xObjectProperties; } break; case OBJECTTYPE_DATA_STOCK_GAIN: { Reference xChartType( lcl_getFirstStockChartType( xChartModel ) ); Reference< beans::XPropertySet > xChartTypeProps( xChartType, uno::UNO_QUERY ); if(xChartTypeProps.is()) xChartTypeProps->getPropertyValue( "WhiteDay" ) >>= xObjectProperties; } break; default: //OBJECTTYPE_UNKNOWN break; } } catch(const uno::Exception& ex) { ASSERT_EXCEPTION( ex ); } return xObjectProperties; } Reference< XAxis > ObjectIdentifier::getAxisForCID( const OUString& rObjectCID , const Reference< frame::XModel >& xChartModel ) { Reference< XDiagram > xDiagram; Reference< XCoordinateSystem > xCooSys; lcl_getDiagramAndCooSys( rObjectCID, xChartModel, xDiagram, xCooSys ); sal_Int32 nDimensionIndex = -1; sal_Int32 nAxisIndex = -1; lcl_parseAxisIndices( nDimensionIndex, nAxisIndex, rObjectCID ); return AxisHelper::getAxis( nDimensionIndex, nAxisIndex, xCooSys ); } Reference< XDataSeries > ObjectIdentifier::getDataSeriesForCID( const OUString& rObjectCID , const Reference< frame::XModel >& xChartModel ) { Reference< XDataSeries > xSeries(NULL); Reference< XDiagram > xDiagram; Reference< XCoordinateSystem > xCooSys; lcl_getDiagramAndCooSys( rObjectCID, xChartModel, xDiagram, xCooSys ); sal_Int32 nChartTypeIndex = -1; sal_Int32 nSeriesIndex = -1; sal_Int32 nPointIndex = -1; lcl_parseSeriesIndices( nChartTypeIndex, nSeriesIndex, nPointIndex, rObjectCID ); Reference< XDataSeriesContainer > xDataSeriesContainer( DiagramHelper::getChartTypeByIndex( xDiagram, nChartTypeIndex ), uno::UNO_QUERY ); if( xDataSeriesContainer.is() ) { uno::Sequence< uno::Reference< XDataSeries > > aDataSeriesSeq( xDataSeriesContainer->getDataSeries() ); if( nSeriesIndex >= 0 && nSeriesIndex < aDataSeriesSeq.getLength() ) xSeries.set( aDataSeriesSeq[nSeriesIndex] ); } return xSeries; } Reference< XDiagram > ObjectIdentifier::getDiagramForCID( const OUString& rObjectCID , const uno::Reference< frame::XModel >& xChartModel ) { Reference< XDiagram > xDiagram; Reference< XCoordinateSystem > xCooSys; lcl_getDiagramAndCooSys( rObjectCID, xChartModel, xDiagram, xCooSys ); return xDiagram; } TitleHelper::eTitleType ObjectIdentifier::getTitleTypeForCID( const OUString& rCID ) { TitleHelper::eTitleType eRet( TitleHelper::MAIN_TITLE ); OUString aParentParticle = ObjectIdentifier::getFullParentParticle( rCID ); const tTitleMap& rMap = lcl_getTitleMap(); tTitleMap::const_iterator aIt( rMap.begin() ); for( ;aIt != rMap.end(); ++aIt ) { if( aParentParticle.equals( (*aIt).second ) ) { eRet = (*aIt).first; break; } } return eRet; } OUString ObjectIdentifier::getSeriesParticleFromCID( const OUString& rCID ) { sal_Int32 nDiagramIndex = -1; sal_Int32 nCooSysIndex = -1; lcl_parseCooSysIndices( nDiagramIndex, nCooSysIndex, rCID ); sal_Int32 nChartTypeIndex = -1; sal_Int32 nSeriesIndex = -1; sal_Int32 nPointIndex = -1; lcl_parseSeriesIndices( nChartTypeIndex, nSeriesIndex, nPointIndex, rCID ); return ObjectIdentifier::createParticleForSeries( nDiagramIndex, nCooSysIndex, nChartTypeIndex, nSeriesIndex ); } OUString ObjectIdentifier::getMovedSeriesCID( const OUString& rObjectCID, bool bForward ) { sal_Int32 nDiagramIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rObjectCID, "CID/D=" ) ); sal_Int32 nCooSysIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rObjectCID, "CS=" ) ); sal_Int32 nChartTypeIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rObjectCID, "CT=" ) ); sal_Int32 nSeriesIndex = lcl_StringToIndex( lcl_getIndexStringAfterString( rObjectCID, "Series=" ) ); if( bForward ) nSeriesIndex--; else nSeriesIndex++; OUString aRet = ObjectIdentifier::createParticleForSeries( nDiagramIndex, nCooSysIndex, nChartTypeIndex, nSeriesIndex ); return ObjectIdentifier::createClassifiedIdentifierForParticle( aRet ); } bool ObjectIdentifier::isValid() const { return ( isAutoGeneratedObject() || isAdditionalShape() ); } bool ObjectIdentifier::isAutoGeneratedObject() const { return ( !m_aObjectCID.isEmpty() ); } bool ObjectIdentifier::isAdditionalShape() const { return m_xAdditionalShape.is(); } Any ObjectIdentifier::getAny() const { Any aAny; if ( isAutoGeneratedObject() ) { aAny = uno::makeAny( getObjectCID() ); } else if ( isAdditionalShape() ) { aAny = uno::makeAny( getAdditionalShape() ); } return aAny; } } //namespace chart /* vim:set shiftwidth=4 softtabstop=4 expandtab: */