/* -*- 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 "vbachart.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "vbachartobject.hxx" #include "vbarange.hxx" #include "vbacharttitle.hxx" #include "vbaaxes.hxx" #include #include using namespace ::com::sun::star; using namespace ::ooo::vba; using namespace ::ooo::vba::excel::XlChartType; using namespace ::ooo::vba::excel::XlRowCol; using namespace ::ooo::vba::excel::XlAxisType; using namespace ::ooo::vba::excel::XlAxisGroup; constexpr OUStringLiteral CHART_NAME(u"Name"); // #TODO move this constant to vbaseries.[ch]xx ( when it exists ) constexpr OUStringLiteral DEFAULTSERIESPREFIX(u"Series"); constexpr OUString DATAROWSOURCE(u"DataRowSource"_ustr); constexpr OUString UPDOWN(u"UpDown"_ustr); constexpr OUString VOLUME(u"Volume"_ustr); constexpr OUString LINES(u"Lines"_ustr); constexpr OUString SPLINETYPE(u"SplineType"_ustr); constexpr OUString SYMBOLTYPE(u"SymbolType"_ustr); constexpr OUString DEEP(u"Deep"_ustr); constexpr OUString SOLIDTYPE(u"SolidType"_ustr); constexpr OUString VERTICAL(u"Vertical"_ustr); constexpr OUString PERCENT(u"Percent"_ustr); constexpr OUString STACKED(u"Stacked"_ustr); constexpr OUString DIM3D(u"Dim3D"_ustr); constexpr OUString HASMAINTITLE(u"HasMainTitle"_ustr); constexpr OUString HASLEGEND(u"HasLegend"_ustr); ScVbaChart::ScVbaChart( const css::uno::Reference< ov::XHelperInterface >& _xParent, const css::uno::Reference< css::uno::XComponentContext >& _xContext, const css::uno::Reference< css::lang::XComponent >& _xChartComponent, css::uno::Reference< css::table::XTableChart > _xTableChart ) : ChartImpl_BASE( _xParent, _xContext ), mxTableChart(std::move( _xTableChart )) { mxChartDocument.set( _xChartComponent, uno::UNO_QUERY_THROW ) ; // #TODO is it possible that the XPropertySet interface is not set // code in setPlotBy seems to indicate that this is possible? but // additionally there is no check in most of the places where it is used // ( and therefore could possibly be NULL ) // I'm going to let it throw for the moment ( npower ) mxDiagramPropertySet.set( mxChartDocument->getDiagram(), uno::UNO_QUERY_THROW ); mxChartPropertySet.set( _xChartComponent, uno::UNO_QUERY_THROW ) ; } OUString SAL_CALL ScVbaChart::getName() { OUString sName; uno::Reference< beans::XPropertySet > xProps( mxChartDocument, uno::UNO_QUERY_THROW ); try { xProps->getPropertyValue( CHART_NAME ) >>= sName; } catch( const uno::Exception & ) // swallow exceptions { } return sName; } uno::Any SAL_CALL ScVbaChart::SeriesCollection(const uno::Any&) { return uno::Any(); } ::sal_Int32 SAL_CALL ScVbaChart::getChartType() { sal_Int32 nChartType = -1; try { OUString sDiagramType = mxChartDocument->getDiagram()->getDiagramType(); if ( sDiagramType == "com.sun.star.chart.AreaDiagram" ) { if (is3D()) { nChartType = getStackedType(xl3DAreaStacked, xl3DAreaStacked100, xl3DArea); } else { nChartType = getStackedType(xlAreaStacked, xlAreaStacked100, xlArea); } } else if ( sDiagramType == "com.sun.star.chart.PieDiagram" ) { if (is3D()) nChartType = xl3DPie; else nChartType = xlPie; /*TODO XlChartType xlPieExploded, XlChartType xlPieOfPie */ } else if ( sDiagramType == "com.sun.star.chart.BarDiagram" ) { sal_Int32 nSolidType = chart::ChartSolidType::RECTANGULAR_SOLID; if (mxDiagramPropertySet->getPropertySetInfo()->hasPropertyByName(SOLIDTYPE)) { //in 2D diagrams 'SolidType' may not be set if (is3D()) mxDiagramPropertySet->getPropertyValue(SOLIDTYPE) >>= nSolidType; } switch (nSolidType) { case chart::ChartSolidType::CONE: nChartType = getSolidType(xlConeCol, xlConeColStacked, xlConeColStacked100, xlConeColClustered, xlConeBarStacked, xlConeBarStacked100, xlConeBarClustered); break; case chart::ChartSolidType::CYLINDER: nChartType = getSolidType(xlCylinderCol, xlCylinderColStacked, xlCylinderColStacked100, xlCylinderColClustered, xlCylinderBarStacked, xlCylinderBarStacked100, xlCylinderBarClustered); break; case chart::ChartSolidType::PYRAMID: nChartType = getSolidType(xlPyramidCol, xlPyramidColStacked, xlPyramidColStacked100, xlPyramidColClustered, xlPyramidBarStacked, xlPyramidBarStacked100, xlPyramidBarClustered); break; default: // RECTANGULAR_SOLID if (is3D()) { nChartType = getSolidType(xl3DColumn, xl3DColumnStacked, xl3DColumnStacked100, xl3DColumnClustered, xl3DBarStacked, xl3DBarStacked100, xl3DBarClustered); } else { nChartType = getSolidType(xlColumnClustered, xlColumnStacked, xlColumnStacked100, xlColumnClustered, xlBarStacked, xlBarStacked100, xlBarClustered); } break; } } else if ( sDiagramType == "com.sun.star.chart.StockDiagram" ) { bool bVolume = false; mxDiagramPropertySet->getPropertyValue(VOLUME) >>= bVolume; if (bVolume) { nChartType = getStockUpDownValue(xlStockVOHLC, xlStockVHLC); } else { nChartType = getStockUpDownValue(xlStockOHLC, xlStockHLC); } } else if ( sDiagramType == "com.sun.star.chart.XYDiagram" ) { bool bHasLines = false; mxDiagramPropertySet->getPropertyValue(LINES) >>= bHasLines; sal_Int32 nSplineType = 0; mxDiagramPropertySet->getPropertyValue(SPLINETYPE) >>= nSplineType; if (nSplineType == 1) { nChartType = getMarkerType(xlXYScatterSmooth, xlXYScatterSmoothNoMarkers); } else if (bHasLines) { nChartType = getMarkerType(xlXYScatterLines, xlXYScatterLinesNoMarkers); } else { nChartType = xlXYScatter; } } else if ( sDiagramType == "com.sun.star.chart.LineDiagram" ) { if (is3D()) { nChartType = xl3DLine; } else if (hasMarkers()) { nChartType = getStackedType(xlLineMarkersStacked, xlLineMarkersStacked100, xlLineMarkers); } else { nChartType = getStackedType(xlLineStacked, xlLineStacked100, xlLine); } } else if ( sDiagramType == "com.sun.star.chart.DonutDiagram" ) { nChartType = xlDoughnut; // TODO DoughnutExploded ?? } else if ( sDiagramType == "com.sun.star.chart.NetDiagram" ) { nChartType = getMarkerType(xlRadarMarkers, xlRadar); } } catch ( const uno::Exception& ) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } return nChartType; } void SAL_CALL ScVbaChart::setChartType( ::sal_Int32 _nChartType ) { try { switch (_nChartType) { case xlColumnClustered: case xlColumnStacked: case xlColumnStacked100: case xl3DColumnClustered: case xl3DColumnStacked: case xl3DColumnStacked100: case xl3DColumn: case xlBarClustered: case xlBarStacked: case xlBarStacked100: case xl3DBarClustered: case xl3DBarStacked: case xl3DBarStacked100: case xlConeColClustered: case xlConeColStacked: case xlConeColStacked100: case xlConeBarClustered: case xlConeBarStacked: case xlConeBarStacked100: case xlConeCol: case xlPyramidColClustered: case xlPyramidColStacked: case xlPyramidColStacked100: case xlPyramidBarClustered: case xlPyramidBarStacked: case xlPyramidBarStacked100: case xlPyramidCol: case xlCylinderColClustered: case xlCylinderColStacked: case xlCylinderColStacked100: case xlCylinderBarClustered: case xlCylinderBarStacked: case xlCylinderBarStacked100: case xlCylinderCol: case xlSurface: // not possible case xlSurfaceWireframe: case xlSurfaceTopView: case xlSurfaceTopViewWireframe: setDiagram( u"com.sun.star.chart.BarDiagram"_ustr); break; case xlLine: case xl3DLine: case xlLineStacked: case xlLineStacked100: case xlLineMarkers: case xlLineMarkersStacked: case xlLineMarkersStacked100: setDiagram( u"com.sun.star.chart.LineDiagram"_ustr); break; case xl3DArea: case xlArea: case xlAreaStacked: case xlAreaStacked100: case xl3DAreaStacked: case xl3DAreaStacked100: setDiagram( u"com.sun.star.chart.AreaDiagram"_ustr ); break; case xlDoughnut: case xlDoughnutExploded: setDiagram( u"com.sun.star.chart.DonutDiagram"_ustr ); break; case xlStockHLC: case xlStockOHLC: case xlStockVHLC: case xlStockVOHLC: setDiagram( u"com.sun.star.chart.StockDiagram"_ustr); mxDiagramPropertySet->setPropertyValue( UPDOWN, uno::Any((_nChartType == xlStockOHLC) || (_nChartType == xlStockVOHLC))); mxDiagramPropertySet->setPropertyValue( VOLUME, uno::Any((_nChartType == xlStockVHLC) || (_nChartType == xlStockVOHLC))); break; case xlPieOfPie: // not possible case xlPieExploded: // SegmentOffset on ChartDataPointProperties -> get from XDiagram //How does Excel do this? case xl3DPieExploded: case xl3DPie: case xlPie: case xlBarOfPie: // not possible (Zoom pie) setDiagram( u"com.sun.star.chart.PieDiagram"_ustr); break; case xlRadar: case xlRadarMarkers: case xlRadarFilled: setDiagram( u"com.sun.star.chart.NetDiagram"_ustr); break; case xlXYScatter: case xlBubble: // not possible case xlBubble3DEffect: // not possible case xlXYScatterLines: case xlXYScatterLinesNoMarkers: case xlXYScatterSmooth: case xlXYScatterSmoothNoMarkers: setDiagram( u"com.sun.star.chart.XYDiagram"_ustr); switch(_nChartType) { case xlXYScatter: case xlBubble: // not possible case xlBubble3DEffect: // not possible mxDiagramPropertySet->setPropertyValue(LINES, uno::Any( false )); break; case xlXYScatterLines: case xlXYScatterLinesNoMarkers: mxDiagramPropertySet->setPropertyValue(LINES, uno::Any( true )); break; case xlXYScatterSmooth: case xlXYScatterSmoothNoMarkers: mxDiagramPropertySet->setPropertyValue(SPLINETYPE, uno::Any( sal_Int32(1))); break; default: break; } break; default: throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_CONVERSION), OUString() ); } switch (_nChartType) { case xlLineMarkers: case xlLineMarkersStacked: case xlLineMarkersStacked100: case xlRadarMarkers: case xlXYScatterLines: case xlXYScatterSmooth: case xlXYScatter: case xlBubble: // not possible case xlBubble3DEffect: // not possible mxDiagramPropertySet->setPropertyValue(SYMBOLTYPE, uno::Any( chart::ChartSymbolType::AUTO)); break; default: if (mxDiagramPropertySet->getPropertySetInfo()->hasPropertyByName(SYMBOLTYPE)) { mxDiagramPropertySet->setPropertyValue(SYMBOLTYPE, uno::Any(chart::ChartSymbolType::NONE)); } break; } switch (_nChartType) { case xlConeCol: case xlPyramidCol: case xlCylinderCol: case xl3DColumn: case xlSurface: // not possible case xlSurfaceWireframe: case xlSurfaceTopView: case xlSurfaceTopViewWireframe: mxDiagramPropertySet->setPropertyValue(DEEP,uno::Any( true )); break; default: if (mxDiagramPropertySet->getPropertySetInfo()->hasPropertyByName(DEEP)) { mxDiagramPropertySet->setPropertyValue(DEEP, uno::Any( false)); } break; } switch (_nChartType) { case xlConeColClustered: case xlConeColStacked: case xlConeColStacked100: case xlConeBarClustered: case xlConeBarStacked: case xlConeBarStacked100: case xlConeCol: mxDiagramPropertySet->setPropertyValue(SOLIDTYPE, uno::Any(chart::ChartSolidType::CONE)); break; case xlPyramidColClustered: case xlPyramidColStacked: case xlPyramidColStacked100: case xlPyramidBarClustered: case xlPyramidBarStacked: case xlPyramidBarStacked100: case xlPyramidCol: mxDiagramPropertySet->setPropertyValue(SOLIDTYPE, uno::Any(chart::ChartSolidType::PYRAMID)); break; case xlCylinderColClustered: case xlCylinderColStacked: case xlCylinderColStacked100: case xlCylinderBarClustered: case xlCylinderBarStacked: case xlCylinderBarStacked100: case xlCylinderCol: mxDiagramPropertySet->setPropertyValue(SOLIDTYPE, uno::Any(chart::ChartSolidType::CYLINDER)); break; default: if (mxDiagramPropertySet->getPropertySetInfo()->hasPropertyByName(SOLIDTYPE)) { mxDiagramPropertySet->setPropertyValue(SOLIDTYPE, uno::Any(chart::ChartSolidType::RECTANGULAR_SOLID)); } break; } switch ( _nChartType) { case xlConeCol: case xlConeColClustered: case xlConeColStacked: case xlConeColStacked100: case xlPyramidColClustered: case xlPyramidColStacked: case xlPyramidColStacked100: case xlCylinderColClustered: case xlCylinderColStacked: case xlCylinderColStacked100: case xlColumnClustered: case xlColumnStacked: case xlColumnStacked100: case xl3DColumnClustered: case xl3DColumnStacked: case xl3DColumnStacked100: case xlSurface: // not possible case xlSurfaceWireframe: case xlSurfaceTopView: case xlSurfaceTopViewWireframe: mxDiagramPropertySet->setPropertyValue(VERTICAL, uno::Any( true)); break; default: if (mxDiagramPropertySet->getPropertySetInfo()->hasPropertyByName(VERTICAL)) { mxDiagramPropertySet->setPropertyValue(VERTICAL, uno::Any(false)); } break; } switch (_nChartType) { case xlColumnStacked: case xl3DColumnStacked: case xlBarStacked: case xl3DBarStacked: case xlLineStacked: case xlLineMarkersStacked: case xlAreaStacked: case xl3DAreaStacked: case xlCylinderColStacked: case xlCylinderBarStacked: case xlConeColStacked: case xlConeBarStacked: case xlPyramidColStacked: case xlPyramidBarStacked: mxDiagramPropertySet->setPropertyValue(PERCENT, uno::Any( false )); mxDiagramPropertySet->setPropertyValue(STACKED, uno::Any( true )); break; case xlPyramidColStacked100: case xlPyramidBarStacked100: case xlConeColStacked100: case xlConeBarStacked100: case xlCylinderBarStacked100: case xlCylinderColStacked100: case xl3DAreaStacked100: case xlLineMarkersStacked100: case xlAreaStacked100: case xlLineStacked100: case xl3DBarStacked100: case xlBarStacked100: case xl3DColumnStacked100: case xlColumnStacked100: mxDiagramPropertySet->setPropertyValue(STACKED, uno::Any( true)); mxDiagramPropertySet->setPropertyValue(PERCENT, uno::Any( true )); break; default: mxDiagramPropertySet->setPropertyValue(PERCENT, uno::Any( false)); mxDiagramPropertySet->setPropertyValue(STACKED, uno::Any( false)); break; } switch (_nChartType) { case xl3DArea: case xl3DAreaStacked: case xl3DAreaStacked100: case xl3DBarClustered: case xl3DBarStacked: case xl3DBarStacked100: case xl3DColumn: case xl3DColumnClustered: case xl3DColumnStacked: case xl3DColumnStacked100: case xl3DLine: case xl3DPie: case xl3DPieExploded: case xlConeColClustered: case xlConeColStacked: case xlConeColStacked100: case xlConeBarClustered: case xlConeBarStacked: case xlConeBarStacked100: case xlConeCol: case xlPyramidColClustered: case xlPyramidColStacked: case xlPyramidColStacked100: case xlPyramidBarClustered: case xlPyramidBarStacked: case xlPyramidBarStacked100: case xlPyramidCol: case xlCylinderColClustered: case xlCylinderColStacked: case xlCylinderColStacked100: case xlCylinderBarClustered: case xlCylinderBarStacked: case xlCylinderBarStacked100: case xlCylinderCol: mxDiagramPropertySet->setPropertyValue(DIM3D, uno::Any( true)); break; default: if (mxDiagramPropertySet->getPropertySetInfo()->hasPropertyByName(DIM3D)) { mxDiagramPropertySet->setPropertyValue(DIM3D, uno::Any( false)); } break; } } catch ( const uno::Exception& ) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } void SAL_CALL ScVbaChart::Activate() { // #TODO how are Chart sheets handled ( I know we don't even consider // them in the worksheets/sheets collections ), but...??? // note: in vba for excel the parent of a Chart sheet is a workbook, // e.g. 'ThisWorkbook' uno::Reference< XHelperInterface > xParent( getParent() ); ScVbaChartObject* pChartObj = static_cast< ScVbaChartObject* >( xParent.get() ); if ( !pChartObj ) throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), u"no ChartObject as parent"_ustr ); pChartObj->Activate(); } void SAL_CALL ScVbaChart::setSourceData( const css::uno::Reference< ::ooo::vba::excel::XRange >& _xCalcRange, const css::uno::Any& _aPlotBy ) { try { table::CellRangeAddress aSingleRangeAddress; uno::Reference< sheet::XCellRangeAddressable > xAddressable( _xCalcRange->getCellRange(), uno::UNO_QUERY_THROW ); aSingleRangeAddress = xAddressable->getRangeAddress(); mxTableChart->setRanges({ aSingleRangeAddress } ); bool bsetRowHeaders = false; bool bsetColumnHeaders = false; ScVbaRange* pRange = static_cast< ScVbaRange* >( _xCalcRange.get() ); if ( pRange ) { ScDocument& rDoc = pRange->getScDocument(); bsetRowHeaders = rDoc.HasRowHeader( static_cast< SCCOL >( aSingleRangeAddress.StartColumn ), static_cast< SCROW >( aSingleRangeAddress.StartRow ), static_cast< SCCOL >( aSingleRangeAddress.EndColumn ), static_cast< SCROW >( aSingleRangeAddress.EndRow ), static_cast< SCTAB >( aSingleRangeAddress.Sheet ) ); bsetColumnHeaders = rDoc.HasColHeader( static_cast< SCCOL >( aSingleRangeAddress.StartColumn ), static_cast< SCROW >( aSingleRangeAddress.StartRow ), static_cast< SCCOL >( aSingleRangeAddress.EndColumn ), static_cast< SCROW >( aSingleRangeAddress.EndRow ), static_cast< SCTAB >( aSingleRangeAddress.Sheet )); } mxTableChart->setHasRowHeaders(bsetRowHeaders); mxTableChart->setHasColumnHeaders(bsetColumnHeaders); if ((!bsetColumnHeaders) || (!bsetRowHeaders)) { uno::Reference< chart::XChartDataArray > xChartDataArray( mxChartDocument->getData(), uno::UNO_QUERY_THROW ); if (!bsetColumnHeaders) { xChartDataArray->setColumnDescriptions( getDefaultSeriesDescriptions(xChartDataArray->getColumnDescriptions().getLength() )); } if (!bsetRowHeaders) { xChartDataArray->setRowDescriptions(getDefaultSeriesDescriptions(xChartDataArray->getRowDescriptions().getLength() )); } } if ( _aPlotBy.hasValue() ) { sal_Int32 nVal = 0; _aPlotBy >>= nVal; setPlotBy( nVal ); } else { sal_Int32 nRows = aSingleRangeAddress.EndRow - aSingleRangeAddress.StartRow; sal_Int32 nCols = aSingleRangeAddress.EndColumn - aSingleRangeAddress.StartColumn; // AutoDetect emulation if ( nRows > nCols ) setPlotBy( xlColumns ); else if ( nRows <= nCols ) setPlotBy( xlRows ); } } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } uno::Sequence< OUString > ScVbaChart::getDefaultSeriesDescriptions( sal_Int32 _nCount ) { uno::Sequence< OUString > sDescriptions ( _nCount ); std::generate_n(sDescriptions.getArray(), _nCount, [i = 1]() mutable -> OUString { return DEFAULTSERIESPREFIX + OUString::number(i++); }); return sDescriptions; } void ScVbaChart::setDefaultChartType() { setChartType( xlColumnClustered ); } void ScVbaChart::setPlotBy( ::sal_Int32 _nPlotBy ) { try { if ( !mxDiagramPropertySet.is() ) setDefaultChartType(); switch (_nPlotBy) { case xlRows: mxDiagramPropertySet->setPropertyValue( DATAROWSOURCE, uno::Any( chart::ChartDataRowSource_ROWS ) ); break; case xlColumns: mxDiagramPropertySet->setPropertyValue( DATAROWSOURCE, uno::Any( chart::ChartDataRowSource_COLUMNS) ); break; default: throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } ::sal_Int32 SAL_CALL ScVbaChart::getPlotBy( ) { try { chart::ChartDataRowSource aChartDataRowSource; mxDiagramPropertySet->getPropertyValue(DATAROWSOURCE) >>= aChartDataRowSource; if (aChartDataRowSource == chart::ChartDataRowSource_COLUMNS) { return xlColumns; } else { return xlRows; } } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } void ScVbaChart::setDiagram( const OUString& _sDiagramType ) { try { uno::Reference< lang::XMultiServiceFactory > xMSF( mxChartDocument, uno::UNO_QUERY_THROW ); uno::Reference< chart::XDiagram > xDiagram( xMSF->createInstance( _sDiagramType ), uno::UNO_QUERY_THROW ); mxChartDocument->setDiagram( xDiagram ); mxDiagramPropertySet.set( xDiagram, uno::UNO_QUERY_THROW ); } catch ( const uno::Exception& ) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } // #TODO find out why we have Location/getLocation? there is afaik no // Location property, just a Location function for the Chart object sal_Int32 SAL_CALL ScVbaChart::Location() { return getLocation(); } sal_Int32 SAL_CALL ScVbaChart::getLocation() { return -1; } void SAL_CALL ScVbaChart::setLocation( ::sal_Int32 /*where*/, const css::uno::Any& /*Name*/ ) { // Helper api just stubs out the code // #TODO come back and make sense out of this // String sheetName = null; // // if ((name != null) && name instanceof String) { // sheetName = (String) name; // } // XSpreadsheetDocument xShDoc = (XSpreadsheetDocument) UnoRuntime.queryInterface( XSpreadsheetDocument.class,getXModel() ); // com.sun.star.sheet.XSpreadsheets xSheets = xShDoc.Sheets(); // // switch (where) { // case ClLocationType.clLocationAsObject_value: //{ // // if (sheetName == null) { // DebugHelper.writeInfo("Can't embed in Chart without knowing SheetName"); // return; // } // // try { // Any any = (Any) xSheets.getByName(sheetName); // chartSheet = (XSpreadsheet) any.getObject(); // // // chartSheet = (XSpreadsheet) xSheets.getByName( sheetName ); // } catch (NoSuchElementException e) { // // TODO Auto-generated catch block // e.printStackTrace(); // // return; // } catch (WrappedTargetException e) { // // TODO Auto-generated catch block // e.printStackTrace(); // // return; // } catch (java.lang.Exception e) { // e.printStackTrace(); // } // // XTableChartsSupplier xTCS = (XTableChartsSupplier) UnoRuntime.queryInterface( XTableChartsSupplier.class, chartSheet); // XTableCharts xTableCharts = xTCS.getCharts(); // XIndexAccess xIA = (XIndexAccess) UnoRuntime.queryInterface( XIndexAccess.class, xTableCharts); // int numCharts = xIA.getCount(); // chartName = "Chart " + (numCharts + 1); // // //} // break; // // case ClLocationType.clLocationAsNewSheet_value: // case ClLocationType.clLocationAutomatic_value:default: //{ // chartName = "Chart 1"; // Since it's a new sheet, it's the first on it... // // XIndexAccess xSheetIA = (XIndexAccess) UnoRuntime.queryInterface( XIndexAccess.class, xSheets); // // short newSheetNum = (short) (xSheetIA.getCount() + 1); // // if (sheetName == null){ // sheetName = "ChartSheet " + newSheetNum; // Why not? // } // // DPK TODO : Probably should use Sheets to create this! // xSheets.insertNewByName(sheetName, newSheetNum); // // try { // chartSheet = // (XSpreadsheet) xSheets.getByName(sheetName); // } catch (NoSuchElementException e) { // // TODO Auto-generated catch block // e.printStackTrace(); // // return; // } catch (WrappedTargetException e) { // // TODO Auto-generated catch block // e.printStackTrace(); // // return; // } // // //} // break; // } // // // Last thing should be a call to createChartForReal(), one of them // // should succeed. // createChartForReal(); } sal_Bool SAL_CALL ScVbaChart::getHasTitle( ) { bool bHasTitle = false; try { mxChartPropertySet->getPropertyValue(HASMAINTITLE) >>= bHasTitle; } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } return bHasTitle; } void SAL_CALL ScVbaChart::setHasTitle( sal_Bool bTitle ) { try { mxChartPropertySet->setPropertyValue(HASMAINTITLE, uno::Any( bTitle )); } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } sal_Bool SAL_CALL ScVbaChart::getHasLegend( ) { bool bHasLegend = false; try { mxChartPropertySet->getPropertyValue(HASLEGEND) >>= bHasLegend; } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } return bHasLegend; } void SAL_CALL ScVbaChart::setHasLegend( sal_Bool bLegend ) { try { mxChartPropertySet->setPropertyValue(HASLEGEND, uno::Any(bLegend)); } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } uno::Reference< excel::XChartTitle > SAL_CALL ScVbaChart::getChartTitle( ) { uno::Reference< drawing::XShape > xTitleShape = mxChartDocument->getTitle(); // #TODO check parent return new ScVbaChartTitle(this, mxContext, xTitleShape); } uno::Any SAL_CALL ScVbaChart::Axes( const uno::Any& Type, const uno::Any& AxisGroup ) { // mmm chart probably is the parent, #TODO check parent uno::Reference< excel::XAxes > xAxes = new ScVbaAxes( this, mxContext, this ); if ( !Type.hasValue() ) return uno::Any( xAxes ); return xAxes->Item( Type, AxisGroup ); } bool ScVbaChart::is3D() { // #TODO perhaps provide limited Debughelper functionality bool is3d = false; mxDiagramPropertySet->getPropertyValue(DIM3D) >>= is3d; return is3d; } sal_Int32 ScVbaChart::getStackedType( sal_Int32 _nStacked, sal_Int32 _n100PercentStacked, sal_Int32 _nUnStacked ) { // #TODO perhaps provide limited Debughelper functionality if (isStacked()) { if (is100PercentStacked()) return _n100PercentStacked; else return _nStacked; } else return _nUnStacked; } bool ScVbaChart::isStacked() { // #TODO perhaps provide limited Debughelper functionality bool bStacked = false; mxDiagramPropertySet->getPropertyValue(STACKED) >>= bStacked; return bStacked; } bool ScVbaChart::is100PercentStacked() { // #TODO perhaps provide limited Debughelper functionality bool b100Percent = false; mxDiagramPropertySet->getPropertyValue(PERCENT) >>= b100Percent; return b100Percent; } sal_Int32 ScVbaChart::getSolidType(sal_Int32 _nDeep, sal_Int32 _nVertiStacked, sal_Int32 _nVerti100PercentStacked, sal_Int32 _nVertiUnStacked, sal_Int32 _nHoriStacked, sal_Int32 _nHori100PercentStacked, sal_Int32 _nHoriUnStacked) { try { bool bIsVertical = true; mxDiagramPropertySet->getPropertyValue(VERTICAL) >>= bIsVertical; bool bIsDeep = false; mxDiagramPropertySet->getPropertyValue(DEEP) >>= bIsDeep; if (bIsDeep) { return _nDeep; } else { if (bIsVertical) { return getStackedType(_nVertiStacked, _nVerti100PercentStacked, _nVertiUnStacked); } else { return getStackedType(_nHoriStacked, _nHori100PercentStacked, _nHoriUnStacked); } } } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } sal_Int32 ScVbaChart::getStockUpDownValue(sal_Int32 _nUpDown, sal_Int32 _nNotUpDown) { try { bool bUpDown = false; mxDiagramPropertySet->getPropertyValue(UPDOWN) >>= bUpDown; if (bUpDown) { return _nUpDown; } else { return _nNotUpDown; } } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } } bool ScVbaChart::hasMarkers() { bool bHasMarkers = false; try { sal_Int32 nSymbol=0; mxDiagramPropertySet->getPropertyValue(SYMBOLTYPE) >>= nSymbol; bHasMarkers = nSymbol != chart::ChartSymbolType::NONE; } catch (const uno::Exception&) { throw script::BasicErrorException( OUString(), uno::Reference< uno::XInterface >(), sal_uInt32(ERRCODE_BASIC_METHOD_FAILED), OUString() ); } return bHasMarkers; } sal_Int32 ScVbaChart::getMarkerType(sal_Int32 _nWithMarkers, sal_Int32 _nWithoutMarkers) { if (hasMarkers()) return _nWithMarkers; return _nWithoutMarkers; } void ScVbaChart::assignDiagramAttributes() { xAxisXSupplier.set( mxDiagramPropertySet, uno::UNO_QUERY_THROW ); xAxisYSupplier.set( mxDiagramPropertySet, uno::UNO_QUERY_THROW ); xAxisZSupplier.set( mxDiagramPropertySet, uno::UNO_QUERY_THROW ); xTwoAxisXSupplier.set( mxDiagramPropertySet, uno::UNO_QUERY_THROW ); xTwoAxisYSupplier.set( mxDiagramPropertySet, uno::UNO_QUERY_THROW ); } uno::Reference< beans::XPropertySet > ScVbaChart::getAxisPropertySet(sal_Int32 _nAxisType, sal_Int32 _nAxisGroup) { assignDiagramAttributes(); uno::Reference< beans::XPropertySet > xAxisProps; switch(_nAxisType) { case xlCategory: if (_nAxisGroup == xlPrimary) { xAxisProps = xAxisXSupplier->getXAxis(); } else if (_nAxisGroup == xlSecondary) { xAxisProps = xTwoAxisXSupplier->getSecondaryXAxis(); } break; case xlSeriesAxis: xAxisProps = xAxisZSupplier->getZAxis(); break; case xlValue: if (_nAxisGroup == xlPrimary) xAxisProps = xAxisYSupplier->getYAxis(); else if (_nAxisGroup == xlSecondary) xAxisProps = xTwoAxisYSupplier->getSecondaryYAxis(); break; default: return xAxisProps; } return xAxisProps; } OUString ScVbaChart::getServiceImplName() { return u"ScVbaChart"_ustr; } uno::Sequence< OUString > ScVbaChart::getServiceNames() { static uno::Sequence< OUString > const aServiceNames { u"ooo.vba.excel.Chart"_ustr }; return aServiceNames; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */