/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sdpropls.hxx" #include #include "ximpshap.hxx" #include #include #include using namespace ::com::sun::star; using namespace ::xmloff::EnhancedCustomShapeToken; using namespace ::xmloff::token; constexpr OUStringLiteral XML_EMBEDDEDOBJECTGRAPHIC_URL_BASE = u"vnd.sun.star.GraphicObject:"; namespace { bool supportsText(XmlShapeType eShapeType) { return eShapeType != XmlShapeType::PresChartShape && eShapeType != XmlShapeType::PresOLE2Shape && eShapeType != XmlShapeType::DrawSheetShape && eShapeType != XmlShapeType::PresSheetShape && eShapeType != XmlShapeType::Draw3DSceneObject && eShapeType != XmlShapeType::Draw3DCubeObject && eShapeType != XmlShapeType::Draw3DSphereObject && eShapeType != XmlShapeType::Draw3DLatheObject && eShapeType != XmlShapeType::Draw3DExtrudeObject && eShapeType != XmlShapeType::DrawPageShape && eShapeType != XmlShapeType::PresPageShape && eShapeType != XmlShapeType::DrawGroupShape; } } constexpr OUString gsZIndex( u"ZOrder"_ustr ); constexpr OUStringLiteral gsPrintable( u"Printable" ); constexpr OUStringLiteral gsVisible( u"Visible" ); constexpr OUString gsModel( u"Model"_ustr ); constexpr OUStringLiteral gsStartShape( u"StartShape" ); constexpr OUStringLiteral gsEndShape( u"EndShape" ); constexpr OUString gsOnClick( u"OnClick"_ustr ); constexpr OUStringLiteral gsEventType( u"EventType" ); constexpr OUStringLiteral gsPresentation( u"Presentation" ); constexpr OUStringLiteral gsMacroName( u"MacroName" ); constexpr OUString gsScript( u"Script"_ustr ); constexpr OUStringLiteral gsLibrary( u"Library" ); constexpr OUStringLiteral gsClickAction( u"ClickAction" ); constexpr OUString gsBookmark( u"Bookmark"_ustr ); constexpr OUStringLiteral gsEffect( u"Effect" ); constexpr OUStringLiteral gsPlayFull( u"PlayFull" ); constexpr OUStringLiteral gsVerb( u"Verb" ); constexpr OUStringLiteral gsSoundURL( u"SoundURL" ); constexpr OUStringLiteral gsSpeed( u"Speed" ); constexpr OUStringLiteral gsStarBasic( u"StarBasic" ); constexpr OUStringLiteral gsHyperlink( u"Hyperlink" ); XMLShapeExport::XMLShapeExport(SvXMLExport& rExp, SvXMLExportPropertyMapper *pExtMapper ) : mrExport( rExp ), maCurrentShapesIter(maShapesInfos.end()), mbExportLayer( false ), // #88546# init to sal_False mbHandleProgressBar( false ) { // construct PropertySetMapper mxPropertySetMapper = CreateShapePropMapper( mrExport ); if( pExtMapper ) { rtl::Reference < SvXMLExportPropertyMapper > xExtMapper( pExtMapper ); mxPropertySetMapper->ChainExportMapper( xExtMapper ); } /* // chain text attributes xPropertySetMapper->ChainExportMapper(XMLTextParagraphExport::CreateParaExtPropMapper(rExp)); */ mrExport.GetAutoStylePool()->AddFamily( XmlStyleFamily::SD_GRAPHICS_ID, XML_STYLE_FAMILY_SD_GRAPHICS_NAME, GetPropertySetMapper(), XML_STYLE_FAMILY_SD_GRAPHICS_PREFIX); mrExport.GetAutoStylePool()->AddFamily( XmlStyleFamily::SD_PRESENTATION_ID, XML_STYLE_FAMILY_SD_PRESENTATION_NAME, GetPropertySetMapper(), XML_STYLE_FAMILY_SD_PRESENTATION_PREFIX); // create table export helper and let him add his families in time GetShapeTableExport(); } XMLShapeExport::~XMLShapeExport() { } // sj: replacing CustomShapes with standard objects that are also supported in OpenOffice.org format uno::Reference< drawing::XShape > XMLShapeExport::checkForCustomShapeReplacement( const uno::Reference< drawing::XShape >& xShape ) { uno::Reference< drawing::XShape > xCustomShapeReplacement; if( !( GetExport().getExportFlags() & SvXMLExportFlags::OASIS ) ) { OUString aType( xShape->getShapeType() ); if( aType == "com.sun.star.drawing.CustomShape" ) { uno::Reference< beans::XPropertySet > xSet( xShape, uno::UNO_QUERY ); if( xSet.is() ) { OUString aEngine; xSet->getPropertyValue("CustomShapeEngine") >>= aEngine; if ( aEngine.isEmpty() ) { aEngine = "com.sun.star.drawing.EnhancedCustomShapeEngine"; } uno::Reference< uno::XComponentContext > xContext( ::comphelper::getProcessComponentContext() ); if ( !aEngine.isEmpty() ) { uno::Sequence< beans::PropertyValue > aPropValues{ comphelper::makePropertyValue("CustomShape", xShape), comphelper::makePropertyValue("ForceGroupWithText", true) }; uno::Sequence< uno::Any > aArgument = { uno::Any(aPropValues) }; uno::Reference< uno::XInterface > xInterface( xContext->getServiceManager()->createInstanceWithArgumentsAndContext(aEngine, aArgument, xContext) ); if ( xInterface.is() ) { uno::Reference< drawing::XCustomShapeEngine > xCustomShapeEngine( uno::Reference< drawing::XCustomShapeEngine >( xInterface, uno::UNO_QUERY ) ); if ( xCustomShapeEngine.is() ) xCustomShapeReplacement = xCustomShapeEngine->render(); } } } } } return xCustomShapeReplacement; } // This method collects all automatic styles for the given XShape void XMLShapeExport::collectShapeAutoStyles(const uno::Reference< drawing::XShape >& xShape ) { if( maCurrentShapesIter == maShapesInfos.end() ) { OSL_FAIL( "XMLShapeExport::collectShapeAutoStyles(): no call to seekShapes()!" ); return; } sal_Int32 nZIndex = 0; uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if( xPropSet.is() ) xPropSet->getPropertyValue(gsZIndex) >>= nZIndex; ImplXMLShapeExportInfoVector& aShapeInfoVector = (*maCurrentShapesIter).second; if( static_cast(aShapeInfoVector.size()) <= nZIndex ) { OSL_FAIL( "XMLShapeExport::collectShapeAutoStyles(): no shape info allocated for a given shape" ); return; } ImplXMLShapeExportInfo& aShapeInfo = aShapeInfoVector[nZIndex]; uno::Reference< drawing::XShape > xCustomShapeReplacement = checkForCustomShapeReplacement( xShape ); if ( xCustomShapeReplacement.is() ) aShapeInfo.xCustomShapeReplacement = xCustomShapeReplacement; // first compute the shapes type ImpCalcShapeType(xShape, aShapeInfo.meShapeType); // #i118485# enabled XmlShapeType::DrawChartShape and XmlShapeType::DrawOLE2Shape // to have text const bool bObjSupportsText = supportsText(aShapeInfo.meShapeType); const bool bObjSupportsStyle = aShapeInfo.meShapeType != XmlShapeType::DrawGroupShape; bool bIsEmptyPresObj = false; if ( aShapeInfo.xCustomShapeReplacement.is() ) xPropSet.clear(); // prep text styles if( xPropSet.is() && bObjSupportsText ) { uno::Reference< text::XText > xText(xShape, uno::UNO_QUERY); if (xText.is()) { try { // tdf#153161: it seems that the call to XTextRange::getString flushes the changes // for some objects, that otherwise fail to get exported correctly. Maybe at some // point it would make sense to find a better place for more targeted flush. xText->getString(); } catch (uno::RuntimeException const&) { // E.g., SwXTextFrame that contains only a table will throw; this is not an error } uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); if( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName("IsEmptyPresentationObject") ) { uno::Any aAny = xPropSet->getPropertyValue("IsEmptyPresentationObject"); aAny >>= bIsEmptyPresObj; } if(!bIsEmptyPresObj) { GetExport().GetTextParagraphExport()->collectTextAutoStyles( xText ); } } } // compute the shape parent style if( xPropSet.is() ) { uno::Reference< beans::XPropertySetInfo > xPropertySetInfo( xPropSet->getPropertySetInfo() ); OUString aParentName; uno::Reference< style::XStyle > xStyle; if( bObjSupportsStyle ) { if( xPropertySetInfo.is() && xPropertySetInfo->hasPropertyByName("Style") ) xPropSet->getPropertyValue("Style") >>= xStyle; if(xStyle.is()) { // get family ID uno::Reference< beans::XPropertySet > xStylePropSet(xStyle, uno::UNO_QUERY); SAL_WARN_IF( !xStylePropSet.is(), "xmloff", "style without a XPropertySet?" ); try { if(xStylePropSet.is()) { OUString aFamilyName; xStylePropSet->getPropertyValue("Family") >>= aFamilyName; if( !aFamilyName.isEmpty() && aFamilyName != "graphics" ) aShapeInfo.mnFamily = XmlStyleFamily::SD_PRESENTATION_ID; } } catch(const beans::UnknownPropertyException&) { // Ignored. SAL_WARN( "xmloff", "XMLShapeExport::collectShapeAutoStyles: style has no 'Family' property"); } // get parent-style name if(XmlStyleFamily::SD_PRESENTATION_ID == aShapeInfo.mnFamily) { aParentName = msPresentationStylePrefix; } aParentName += xStyle->getName(); } } if (aParentName.isEmpty() && xPropertySetInfo->hasPropertyByName("TextBox") && xPropSet->getPropertyValue("TextBox").hasValue() && xPropSet->getPropertyValue("TextBox").get()) { // Shapes with a Writer TextBox always have a parent style. // If there would be none, then assign the default one. aParentName = "Frame"; } // filter propset std::vector< XMLPropertyState > aPropStates; sal_Int32 nCount = 0; if( !bIsEmptyPresObj || (aShapeInfo.meShapeType != XmlShapeType::PresPageShape) ) { aPropStates = GetPropertySetMapper()->Filter(mrExport, xPropSet); if (XmlShapeType::DrawControlShape == aShapeInfo.meShapeType) { // for control shapes, we additionally need the number format style (if any) uno::Reference< drawing::XControlShape > xControl(xShape, uno::UNO_QUERY); DBG_ASSERT(xControl.is(), "XMLShapeExport::collectShapeAutoStyles: ShapeType control, but no XControlShape!"); if (xControl.is()) { uno::Reference< beans::XPropertySet > xControlModel(xControl->getControl(), uno::UNO_QUERY); DBG_ASSERT(xControlModel.is(), "XMLShapeExport::collectShapeAutoStyles: no control model on the control shape!"); OUString sNumberStyle = mrExport.GetFormExport()->getControlNumberStyle(xControlModel); if (!sNumberStyle.isEmpty()) { sal_Int32 nIndex = GetPropertySetMapper()->getPropertySetMapper()->FindEntryIndex(CTF_SD_CONTROL_SHAPE_DATA_STYLE); // TODO : this retrieval of the index could be moved into the ctor, holding the index // as member, thus saving time. DBG_ASSERT(-1 != nIndex, "XMLShapeExport::collectShapeAutoStyles: could not obtain the index for our context id!"); XMLPropertyState aNewState(nIndex, uno::Any(sNumberStyle)); aPropStates.push_back(aNewState); } } } nCount = std::count_if(aPropStates.cbegin(), aPropStates.cend(), [](const XMLPropertyState& rProp) { return rProp.mnIndex != -1; }); } if(nCount == 0) { // no hard attributes, use parent style name for export aShapeInfo.msStyleName = aParentName; } else { // there are filtered properties -> hard attributes // try to find this style in AutoStylePool aShapeInfo.msStyleName = mrExport.GetAutoStylePool()->Find(aShapeInfo.mnFamily, aParentName, aPropStates); if(aShapeInfo.msStyleName.isEmpty()) { // Style did not exist, add it to AutoStalePool aShapeInfo.msStyleName = mrExport.GetAutoStylePool()->Add(aShapeInfo.mnFamily, aParentName, std::move(aPropStates)); } } // optionally generate auto style for text attributes if( (!bIsEmptyPresObj || (aShapeInfo.meShapeType != XmlShapeType::PresPageShape)) && bObjSupportsText ) { aPropStates = GetExport().GetTextParagraphExport()->GetParagraphPropertyMapper()->Filter(mrExport, xPropSet); // yet more additionally, we need to care for the ParaAdjust property if ( XmlShapeType::DrawControlShape == aShapeInfo.meShapeType ) { uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); uno::Reference< beans::XPropertyState > xPropState( xPropSet, uno::UNO_QUERY ); if ( xPropSetInfo.is() && xPropState.is() ) { // this is because: // * if controls shapes have a ParaAdjust property, then this is the Align property of the control model // * control models are allowed to have an Align of "void" // * the Default for control model's Align is TextAlign_LEFT // * defaults for style properties are not written, but we need to write the "left", // because we need to distinguish this "left" from the case where not align attribute // is present which means "void" if ( xPropSetInfo->hasPropertyByName( "ParaAdjust" ) && ( beans::PropertyState_DEFAULT_VALUE == xPropState->getPropertyState( "ParaAdjust" ) ) ) { sal_Int32 nIndex = GetExport().GetTextParagraphExport()->GetParagraphPropertyMapper()->getPropertySetMapper()->FindEntryIndex( CTF_SD_SHAPE_PARA_ADJUST ); // TODO : this retrieval of the index should be moved into the ctor, holding the index // as member, thus saving time. DBG_ASSERT(-1 != nIndex, "XMLShapeExport::collectShapeAutoStyles: could not obtain the index for the ParaAdjust context id!"); XMLPropertyState aAlignDefaultState(nIndex, xPropSet->getPropertyValue("ParaAdjust")); aPropStates.push_back( aAlignDefaultState ); } } } nCount = std::count_if(aPropStates.cbegin(), aPropStates.cend(), [](const XMLPropertyState& rProp) { return rProp.mnIndex != -1; }); if( nCount ) { aShapeInfo.msTextStyleName = mrExport.GetAutoStylePool()->Find( XmlStyleFamily::TEXT_PARAGRAPH, "", aPropStates ); if(aShapeInfo.msTextStyleName.isEmpty()) { // Style did not exist, add it to AutoStalePool aShapeInfo.msTextStyleName = mrExport.GetAutoStylePool()->Add(XmlStyleFamily::TEXT_PARAGRAPH, "", std::move(aPropStates)); } } } } // prepare animation information if needed if( mxAnimationsExporter.is() ) XMLAnimationsExporter::prepare( xShape ); // check for special shapes switch( aShapeInfo.meShapeType ) { case XmlShapeType::DrawConnectorShape: { uno::Reference< uno::XInterface > xConnection; // create shape ids for export later xPropSet->getPropertyValue( gsStartShape ) >>= xConnection; if( xConnection.is() ) mrExport.getInterfaceToIdentifierMapper().registerReference( xConnection ); xPropSet->getPropertyValue( gsEndShape ) >>= xConnection; if( xConnection.is() ) mrExport.getInterfaceToIdentifierMapper().registerReference( xConnection ); break; } case XmlShapeType::PresTableShape: case XmlShapeType::DrawTableShape: { try { uno::Reference< table::XColumnRowRange > xRange( xPropSet->getPropertyValue( gsModel ), uno::UNO_QUERY_THROW ); GetShapeTableExport()->collectTableAutoStyles( xRange ); } catch(const uno::Exception&) { DBG_UNHANDLED_EXCEPTION( "xmloff", "collecting auto styles for a table" ); } break; } default: break; } // check for shape collections (group shape or 3d scene) // and collect contained shapes style infos const uno::Reference< drawing::XShape >& xCollection = aShapeInfo.xCustomShapeReplacement.is() ? aShapeInfo.xCustomShapeReplacement : xShape; { uno::Reference< drawing::XShapes > xShapes( xCollection, uno::UNO_QUERY ); if( xShapes.is() ) { collectShapesAutoStyles( xShapes ); } } } namespace { class NewTextListsHelper { public: explicit NewTextListsHelper( SvXMLExport& rExp ) : mrExport( rExp ) { mrExport.GetTextParagraphExport()->PushNewTextListsHelper(); } ~NewTextListsHelper() { mrExport.GetTextParagraphExport()->PopTextListsHelper(); } private: SvXMLExport& mrExport; }; } // This method exports the given XShape void XMLShapeExport::exportShape(const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, css::awt::Point* pRefPoint /* = NULL */, comphelper::AttributeList* pAttrList /* = NULL */ ) { SAL_INFO("xmloff", xShape->getShapeType()); if( maCurrentShapesIter == maShapesInfos.end() ) { SAL_WARN( "xmloff", "XMLShapeExport::exportShape(): no auto styles where collected before export" ); return; } sal_Int32 nZIndex = 0; uno::Reference< beans::XPropertySet > xSet( xShape, uno::UNO_QUERY ); OUString sHyperlink; try { xSet->getPropertyValue(gsHyperlink) >>= sHyperlink; } catch (beans::UnknownPropertyException) { } std::unique_ptr< SvXMLElementExport > pHyperlinkElement; // Need to stash the attributes that are pre-loaded for the shape export // (otherwise they will become attributes of the draw:a element) uno::Reference xSaveAttribs( new comphelper::AttributeList(GetExport().GetAttrList())); GetExport().ClearAttrList(); if( xSet.is() && (GetExport().GetModelType() == SvtModuleOptions::EFactory::DRAW) ) { // export hyperlinks with . Currently only in draw since draw // does not support document events try { presentation::ClickAction eAction = presentation::ClickAction_NONE; xSet->getPropertyValue(gsOnClick) >>= eAction; if( (eAction == presentation::ClickAction_DOCUMENT) || (eAction == presentation::ClickAction_BOOKMARK) ) { OUString sURL; xSet->getPropertyValue(gsBookmark) >>= sURL; if( !sURL.isEmpty() ) { mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_HREF, sURL ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); pHyperlinkElement.reset( new SvXMLElementExport(mrExport, XML_NAMESPACE_DRAW, XML_A, true, true) ); } } } catch(const uno::Exception&) { TOOLS_WARN_EXCEPTION("xmloff", "XMLShapeExport::exportShape(): exception during hyperlink export"); } } else if (xSet.is() && !sHyperlink.isEmpty()) { mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_HREF, sHyperlink ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); pHyperlinkElement.reset( new SvXMLElementExport(mrExport, XML_NAMESPACE_DRAW, XML_A, true, true) ); } // re-add stashed attributes GetExport().AddAttributeList(xSaveAttribs); if( xSet.is() ) xSet->getPropertyValue(gsZIndex) >>= nZIndex; ImplXMLShapeExportInfoVector& aShapeInfoVector = (*maCurrentShapesIter).second; if( static_cast(aShapeInfoVector.size()) <= nZIndex ) { SAL_WARN( "xmloff", "XMLShapeExport::exportShape(): no shape info collected for a given shape" ); return; } NewTextListsHelper aNewTextListsHelper( mrExport ); const ImplXMLShapeExportInfo& aShapeInfo = aShapeInfoVector[nZIndex]; #ifdef DBG_UTIL // check if this is the correct ShapesInfo uno::Reference< container::XChild > xChild( xShape, uno::UNO_QUERY ); if( xChild.is() ) { uno::Reference< drawing::XShapes > xParent( xChild->getParent(), uno::UNO_QUERY ); SAL_WARN_IF( !xParent.is() && xParent.get() == (*maCurrentShapesIter).first.get(), "xmloff", "XMLShapeExport::exportShape(): Wrong call to XMLShapeExport::seekShapes()" ); } // first compute the shapes type { XmlShapeType eShapeType(XmlShapeType::NotYetSet); ImpCalcShapeType(xShape, eShapeType); SAL_WARN_IF( eShapeType != aShapeInfo.meShapeType, "xmloff", "exportShape callings do not correspond to collectShapeAutoStyles calls!: " << xShape->getShapeType() ); } #endif // collect animation information if needed if( mxAnimationsExporter.is() ) mxAnimationsExporter->collect( xShape, mrExport ); /* Export shapes name if he has one (#i51726#) Export of the shape name for text documents only if the OpenDocument file format is written - exceptions are group shapes. Note: Writer documents in OpenOffice.org file format doesn't contain any names for shapes, except for group shapes. */ { if ( ( GetExport().GetModelType() != SvtModuleOptions::EFactory::WRITER && GetExport().GetModelType() != SvtModuleOptions::EFactory::WRITERWEB && GetExport().GetModelType() != SvtModuleOptions::EFactory::WRITERGLOBAL ) || ( GetExport().getExportFlags() & SvXMLExportFlags::OASIS ) || aShapeInfo.meShapeType == XmlShapeType::DrawGroupShape || ( aShapeInfo.meShapeType == XmlShapeType::DrawCustomShape && aShapeInfo.xCustomShapeReplacement.is() ) ) { uno::Reference< container::XNamed > xNamed( xShape, uno::UNO_QUERY ); if( xNamed.is() ) { const OUString aName( xNamed->getName() ); if( !aName.isEmpty() ) mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_NAME, aName ); } } } // export style name if( !aShapeInfo.msStyleName.isEmpty() ) { if(XmlStyleFamily::SD_GRAPHICS_ID == aShapeInfo.mnFamily) mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_STYLE_NAME, mrExport.EncodeStyleName( aShapeInfo.msStyleName) ); else mrExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_STYLE_NAME, mrExport.EncodeStyleName( aShapeInfo.msStyleName) ); } // export text style name if( !aShapeInfo.msTextStyleName.isEmpty() ) { mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_TEXT_STYLE_NAME, aShapeInfo.msTextStyleName ); } // export shapes id if needed { uno::Reference< uno::XInterface > xRef( xShape, uno::UNO_QUERY ); const OUString& rShapeId = mrExport.getInterfaceToIdentifierMapper().getIdentifier( xRef ); if( !rShapeId.isEmpty() ) { mrExport.AddAttributeIdLegacy(XML_NAMESPACE_DRAW, rShapeId); } } // export layer information if( mbExportLayer ) { // check for group or scene shape and not export layer if this is one uno::Reference< drawing::XShapes > xShapes( xShape, uno::UNO_QUERY ); if( !xShapes.is() ) { try { uno::Reference< beans::XPropertySet > xProps( xShape, uno::UNO_QUERY ); OUString aLayerName; xProps->getPropertyValue("LayerName") >>= aLayerName; mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_LAYER, aLayerName ); } catch(const uno::Exception&) { DBG_UNHANDLED_EXCEPTION( "xmloff", "exporting layer name for shape" ); } } } // export draw:display (do not export in ODF 1.3 or older) if (xSet.is() && (mrExport.getSaneDefaultVersion() & SvtSaveOptions::ODFSVER_EXTENDED)) { if( aShapeInfo.meShapeType != XmlShapeType::DrawPageShape && aShapeInfo.meShapeType != XmlShapeType::PresPageShape && aShapeInfo.meShapeType != XmlShapeType::HandoutShape && aShapeInfo.meShapeType != XmlShapeType::DrawChartShape ) try { bool bVisible = true; bool bPrintable = true; xSet->getPropertyValue(gsVisible) >>= bVisible; xSet->getPropertyValue(gsPrintable) >>= bPrintable; XMLTokenEnum eDisplayToken = XML_TOKEN_INVALID; const unsigned short nDisplay = (bVisible ? 2 : 0) | (bPrintable ? 1 : 0); switch( nDisplay ) { case 0: eDisplayToken = XML_NONE; break; case 1: eDisplayToken = XML_PRINTER; break; case 2: eDisplayToken = XML_SCREEN; break; // case 3: eDisplayToken = XML_ALWAYS break; this is the default } if( eDisplayToken != XML_TOKEN_INVALID ) mrExport.AddAttribute(XML_NAMESPACE_DRAW_EXT, XML_DISPLAY, eDisplayToken ); } catch(const uno::Exception&) { DBG_UNHANDLED_EXCEPTION("xmloff.draw"); } } // #82003# test export count // #91587# ALWAYS increment since now ALL to be exported shapes are counted. if(mrExport.GetShapeExport()->IsHandleProgressBarEnabled()) { mrExport.GetProgressBarHelper()->Increment(); } onExport( xShape ); // export shape element switch(aShapeInfo.meShapeType) { case XmlShapeType::DrawRectangleShape: { ImpExportRectangleShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawEllipseShape: { ImpExportEllipseShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawLineShape: { ImpExportLineShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawPolyPolygonShape: // closed PolyPolygon case XmlShapeType::DrawPolyLineShape: // open PolyPolygon case XmlShapeType::DrawClosedBezierShape: // closed tools::PolyPolygon containing curves case XmlShapeType::DrawOpenBezierShape: // open tools::PolyPolygon containing curves { ImpExportPolygonShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawTextShape: case XmlShapeType::PresTitleTextShape: case XmlShapeType::PresOutlinerShape: case XmlShapeType::PresSubtitleShape: case XmlShapeType::PresNotesShape: case XmlShapeType::PresHeaderShape: case XmlShapeType::PresFooterShape: case XmlShapeType::PresSlideNumberShape: case XmlShapeType::PresDateTimeShape: { ImpExportTextBoxShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawGraphicObjectShape: case XmlShapeType::PresGraphicObjectShape: { ImpExportGraphicObjectShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawChartShape: case XmlShapeType::PresChartShape: { ImpExportChartShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint, pAttrList ); break; } case XmlShapeType::DrawControlShape: { ImpExportControlShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawConnectorShape: { ImpExportConnectorShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawMeasureShape: { ImpExportMeasureShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawOLE2Shape: case XmlShapeType::PresOLE2Shape: case XmlShapeType::DrawSheetShape: case XmlShapeType::PresSheetShape: { ImpExportOLE2Shape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::PresTableShape: case XmlShapeType::DrawTableShape: { ImpExportTableShape( xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawPageShape: case XmlShapeType::PresPageShape: case XmlShapeType::HandoutShape: { ImpExportPageShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawCaptionShape: { ImpExportCaptionShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::Draw3DCubeObject: case XmlShapeType::Draw3DSphereObject: case XmlShapeType::Draw3DLatheObject: case XmlShapeType::Draw3DExtrudeObject: { ImpExport3DShape(xShape, aShapeInfo.meShapeType); break; } case XmlShapeType::Draw3DSceneObject: { ImpExport3DSceneShape( xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawGroupShape: { // empty group ImpExportGroupShape( xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawFrameShape: { ImpExportFrameShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawAppletShape: { ImpExportAppletShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawPluginShape: { ImpExportPluginShape(xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::DrawCustomShape: { if ( aShapeInfo.xCustomShapeReplacement.is() ) ImpExportGroupShape( aShapeInfo.xCustomShapeReplacement, nFeatures, pRefPoint ); else ImpExportCustomShape( xShape, nFeatures, pRefPoint ); break; } case XmlShapeType::PresMediaShape: case XmlShapeType::DrawMediaShape: { ImpExportMediaShape( xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeType::PresOrgChartShape: case XmlShapeType::Unknown: case XmlShapeType::NotYetSet: default: { // this should never happen and is an error OSL_FAIL("XMLEXP: WriteShape: unknown or unexpected type of shape in export!"); break; } } pHyperlinkElement.reset(); // #97489# #97111# // if there was an error and no element for the shape was exported // we need to clear the attribute list or the attributes will be // set on the next exported element, which can result in corrupt // xml files due to duplicate attributes mrExport.CheckAttrList(); // asserts in non pro if we have attributes left mrExport.ClearAttrList(); // clears the attributes } // This method collects all automatic styles for the shapes inside the given XShapes collection void XMLShapeExport::collectShapesAutoStyles( const uno::Reference < drawing::XShapes >& xShapes ) { ShapesInfos::iterator aOldCurrentShapesIter = maCurrentShapesIter; seekShapes( xShapes ); uno::Reference< drawing::XShape > xShape; const sal_Int32 nShapeCount(xShapes->getCount()); for(sal_Int32 nShapeId = 0; nShapeId < nShapeCount; nShapeId++) { xShapes->getByIndex(nShapeId) >>= xShape; SAL_WARN_IF( !xShape.is(), "xmloff", "Shape without a XShape?" ); if(!xShape.is()) continue; collectShapeAutoStyles( xShape ); } maCurrentShapesIter = aOldCurrentShapesIter; } // This method exports all XShape inside the given XShapes collection void XMLShapeExport::exportShapes( const uno::Reference < drawing::XShapes >& xShapes, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, awt::Point* pRefPoint /* = NULL */ ) { ShapesInfos::iterator aOldCurrentShapesIter = maCurrentShapesIter; seekShapes( xShapes ); uno::Reference< drawing::XShape > xShape; const sal_Int32 nShapeCount(xShapes->getCount()); for(sal_Int32 nShapeId = 0; nShapeId < nShapeCount; nShapeId++) { xShapes->getByIndex(nShapeId) >>= xShape; SAL_WARN_IF( !xShape.is(), "xmloff", "Shape without a XShape?" ); if(!xShape.is()) continue; exportShape( xShape, nFeatures, pRefPoint ); } maCurrentShapesIter = aOldCurrentShapesIter; } namespace xmloff { void FixZOrder(uno::Reference const& xShapes, std::function const&)> const& rGetLayer) { uno::Reference const xShapes3(xShapes, uno::UNO_QUERY); assert(xShapes3.is()); if (!xShapes3.is()) { return; // only SvxDrawPage implements this } struct Layer { std::vector shapes; sal_Int32 nMin = SAL_MAX_INT32; sal_Int32 nMax = 0; }; std::vector layers; // shapes are sorted by ZOrder sal_Int32 const nCount(xShapes->getCount()); for (sal_Int32 i = 0; i < nCount; ++i) { uno::Reference const xShape(xShapes->getByIndex(i), uno::UNO_QUERY); if (!xShape.is()) { SAL_WARN("xmloff", "FixZOrder: null shape, cannot sort"); return; } unsigned int const nLayer(rGetLayer(xShape)); if (layers.size() <= nLayer) { layers.resize(nLayer + 1); } layers[nLayer].shapes.emplace_back(i); if (i < layers[nLayer].nMin) { layers[nLayer].nMin = i; } if (layers[nLayer].nMax < i) { layers[nLayer].nMax = i; } } std::erase_if(layers, [](Layer const& rLayer) { return rLayer.shapes.empty(); }); bool isSorted(true); for (size_t i = 1; i < layers.size(); ++i) { assert(layers[i].nMin != layers[i-1].nMax); // unique! if (layers[i].nMin < layers[i-1].nMax) { isSorted = false; break; } } if (isSorted) { return; // nothing to do } uno::Sequence aNewOrder(nCount); auto iterInsert(aNewOrder.getArray()); for (auto const& rLayer : layers) { assert(rLayer.nMin <= rLayer.nMax); // empty layers have been removed iterInsert = std::copy(rLayer.shapes.begin(), rLayer.shapes.end(), iterInsert); } try { xShapes3->sort(aNewOrder); } catch (uno::Exception const&) { SAL_WARN("xmloff", "FixZOrder: exception"); } } } // namespace xmloff void XMLShapeExport::seekShapes( const uno::Reference< drawing::XShapes >& xShapes ) noexcept { if( xShapes.is() ) { maCurrentShapesIter = maShapesInfos.find( xShapes ); if( maCurrentShapesIter == maShapesInfos.end() ) { auto itPair = maShapesInfos.emplace( xShapes, ImplXMLShapeExportInfoVector( static_cast(xShapes->getCount()) ) ); maCurrentShapesIter = itPair.first; SAL_WARN_IF( maCurrentShapesIter == maShapesInfos.end(), "xmloff", "XMLShapeExport::seekShapes(): insert into stl::map failed" ); } SAL_WARN_IF( (*maCurrentShapesIter).second.size() != static_cast(xShapes->getCount()), "xmloff", "XMLShapeExport::seekShapes(): XShapes size varied between calls" ); } else { maCurrentShapesIter = maShapesInfos.end(); } } void XMLShapeExport::exportAutoStyles() { // export all autostyle infos // ...for graphic { GetExport().GetAutoStylePool()->exportXML( XmlStyleFamily::SD_GRAPHICS_ID ); } // ...for presentation { GetExport().GetAutoStylePool()->exportXML( XmlStyleFamily::SD_PRESENTATION_ID ); } if( mxShapeTableExport.is() ) mxShapeTableExport->exportAutoStyles(); } /// returns the export property mapper for external chaining SvXMLExportPropertyMapper* XMLShapeExport::CreateShapePropMapper( SvXMLExport& rExport ) { rtl::Reference< XMLPropertyHandlerFactory > xFactory = new XMLSdPropHdlFactory( rExport.GetModel(), rExport ); rtl::Reference < XMLPropertySetMapper > xMapper = new XMLShapePropertySetMapper( xFactory, true ); rExport.GetTextParagraphExport(); // get or create text paragraph export SvXMLExportPropertyMapper* pResult = new XMLShapeExportPropertyMapper( xMapper, rExport ); // chain text attributes return pResult; } void XMLShapeExport::ImpCalcShapeType(const uno::Reference< drawing::XShape >& xShape, XmlShapeType& eShapeType) { // set in every case, so init here eShapeType = XmlShapeType::Unknown; if(!xShape.is()) return; OUString aType(xShape->getShapeType()); if(!aType.match("com.sun.star.")) return; if(aType.match("drawing.", 13)) { // drawing shapes if (aType.match("Rectangle", 21)) { eShapeType = XmlShapeType::DrawRectangleShape; } // #i72177# Note: Correcting CustomShape, CustomShape->Custom, len from 9 (was wrong anyways) to 6. // As can be seen at the other compares, the appendix "Shape" is left out of the comparison. else if(aType.match("Custom", 21)) { eShapeType = XmlShapeType::DrawCustomShape; } else if(aType.match("Ellipse", 21)) { eShapeType = XmlShapeType::DrawEllipseShape; } else if(aType.match("Control", 21)) { eShapeType = XmlShapeType::DrawControlShape; } else if(aType.match("Connector", 21)) { eShapeType = XmlShapeType::DrawConnectorShape; } else if(aType.match("Measure", 21)) { eShapeType = XmlShapeType::DrawMeasureShape; } else if(aType.match("Line", 21)) { eShapeType = XmlShapeType::DrawLineShape; } // #i72177# Note: This covers two types by purpose, PolyPolygonShape and PolyPolygonPathShape else if(aType.match("PolyPolygon", 21)) { eShapeType = XmlShapeType::DrawPolyPolygonShape; } // #i72177# Note: This covers two types by purpose, PolyLineShape and PolyLinePathShape else if(aType.match("PolyLine", 21)) { eShapeType = XmlShapeType::DrawPolyLineShape; } else if(aType.match("OpenBezier", 21)) { eShapeType = XmlShapeType::DrawOpenBezierShape; } else if(aType.match("ClosedBezier", 21)) { eShapeType = XmlShapeType::DrawClosedBezierShape; } // #i72177# FreeHand (opened and closed) now supports the types OpenFreeHandShape and // ClosedFreeHandShape respectively. Represent them as bezier shapes else if(aType.match("OpenFreeHand", 21)) { eShapeType = XmlShapeType::DrawOpenBezierShape; } else if(aType.match("ClosedFreeHand", 21)) { eShapeType = XmlShapeType::DrawClosedBezierShape; } else if(aType.match("GraphicObject", 21)) { eShapeType = XmlShapeType::DrawGraphicObjectShape; } else if(aType.match("Group", 21)) { eShapeType = XmlShapeType::DrawGroupShape; } else if(aType.match("Text", 21)) { eShapeType = XmlShapeType::DrawTextShape; } else if(aType.match("OLE2", 21)) { eShapeType = XmlShapeType::DrawOLE2Shape; // get info about presentation shape uno::Reference xPropSet(xShape, uno::UNO_QUERY); if(xPropSet.is()) { OUString sCLSID; if(xPropSet->getPropertyValue("CLSID") >>= sCLSID) { #if !ENABLE_WASM_STRIP_CHART // WASM_CHART change // TODO: With Chart extracted this cannot really happen since // no Chart could've been added at all if (sCLSID == mrExport.GetChartExport()->getChartCLSID() || #else if( #endif sCLSID == SvGlobalName( SO3_RPTCH_CLASSID ).GetHexName() ) { eShapeType = XmlShapeType::DrawChartShape; } else if (sCLSID == SvGlobalName( SO3_SC_CLASSID ).GetHexName() ) { eShapeType = XmlShapeType::DrawSheetShape; } else { // general OLE2 Object } } } } else if(aType.match("Page", 21)) { eShapeType = XmlShapeType::DrawPageShape; } else if(aType.match("Frame", 21)) { eShapeType = XmlShapeType::DrawFrameShape; } else if(aType.match("Caption", 21)) { eShapeType = XmlShapeType::DrawCaptionShape; } else if(aType.match("Plugin", 21)) { eShapeType = XmlShapeType::DrawPluginShape; } else if(aType.match("Applet", 21)) { eShapeType = XmlShapeType::DrawAppletShape; } else if(aType.match("MediaShape", 21)) { eShapeType = XmlShapeType::DrawMediaShape; } else if(aType.match("TableShape", 21)) { eShapeType = XmlShapeType::DrawTableShape; } // 3D shapes else if(aType.match("Scene", 21 + 7)) { eShapeType = XmlShapeType::Draw3DSceneObject; } else if(aType.match("Cube", 21 + 7)) { eShapeType = XmlShapeType::Draw3DCubeObject; } else if(aType.match("Sphere", 21 + 7)) { eShapeType = XmlShapeType::Draw3DSphereObject; } else if(aType.match("Lathe", 21 + 7)) { eShapeType = XmlShapeType::Draw3DLatheObject; } else if(aType.match("Extrude", 21 + 7)) { eShapeType = XmlShapeType::Draw3DExtrudeObject; } } else if(aType.match("presentation.", 13)) { // presentation shapes if (aType.match("TitleText", 26)) { eShapeType = XmlShapeType::PresTitleTextShape; } else if(aType.match("Outliner", 26)) { eShapeType = XmlShapeType::PresOutlinerShape; } else if(aType.match("Subtitle", 26)) { eShapeType = XmlShapeType::PresSubtitleShape; } else if(aType.match("GraphicObject", 26)) { eShapeType = XmlShapeType::PresGraphicObjectShape; } else if(aType.match("Page", 26)) { eShapeType = XmlShapeType::PresPageShape; } else if(aType.match("OLE2", 26)) { eShapeType = XmlShapeType::PresOLE2Shape; // get info about presentation shape uno::Reference xPropSet(xShape, uno::UNO_QUERY); if(xPropSet.is()) try { OUString sCLSID; if(xPropSet->getPropertyValue("CLSID") >>= sCLSID) { if( sCLSID == SvGlobalName( SO3_SC_CLASSID ).GetHexName() ) { eShapeType = XmlShapeType::PresSheetShape; } } } catch(const uno::Exception&) { SAL_WARN( "xmloff", "XMLShapeExport::ImpCalcShapeType(), expected ole shape to have the CLSID property?" ); } } else if(aType.match("Chart", 26)) { eShapeType = XmlShapeType::PresChartShape; } else if(aType.match("OrgChart", 26)) { eShapeType = XmlShapeType::PresOrgChartShape; } else if(aType.match("CalcShape", 26)) { eShapeType = XmlShapeType::PresSheetShape; } else if(aType.match("TableShape", 26)) { eShapeType = XmlShapeType::PresTableShape; } else if(aType.match("Notes", 26)) { eShapeType = XmlShapeType::PresNotesShape; } else if(aType.match("HandoutShape", 26)) { eShapeType = XmlShapeType::HandoutShape; } else if(aType.match("HeaderShape", 26)) { eShapeType = XmlShapeType::PresHeaderShape; } else if(aType.match("FooterShape", 26)) { eShapeType = XmlShapeType::PresFooterShape; } else if(aType.match("SlideNumberShape", 26)) { eShapeType = XmlShapeType::PresSlideNumberShape; } else if(aType.match("DateTimeShape", 26)) { eShapeType = XmlShapeType::PresDateTimeShape; } else if(aType.match("MediaShape", 26)) { eShapeType = XmlShapeType::PresMediaShape; } } } /** exports all user defined gluepoints */ void XMLShapeExport::ImpExportGluePoints( const uno::Reference< drawing::XShape >& xShape ) { uno::Reference< drawing::XGluePointsSupplier > xSupplier( xShape, uno::UNO_QUERY ); if( !xSupplier.is() ) return; uno::Reference< container::XIdentifierAccess > xGluePoints( xSupplier->getGluePoints(), uno::UNO_QUERY ); if( !xGluePoints.is() ) return; drawing::GluePoint2 aGluePoint; const uno::Sequence< sal_Int32 > aIdSequence( xGluePoints->getIdentifiers() ); for( const sal_Int32 nIdentifier : aIdSequence ) { if( (xGluePoints->getByIdentifier( nIdentifier ) >>= aGluePoint) && aGluePoint.IsUserDefined ) { // export only user defined gluepoints const OUString sId( OUString::number( nIdentifier ) ); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_ID, sId ); mrExport.GetMM100UnitConverter().convertMeasureToXML(msBuffer, aGluePoint.Position.X); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X, msBuffer.makeStringAndClear()); mrExport.GetMM100UnitConverter().convertMeasureToXML(msBuffer, aGluePoint.Position.Y); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y, msBuffer.makeStringAndClear()); if( !aGluePoint.IsRelative ) { SvXMLUnitConverter::convertEnum( msBuffer, aGluePoint.PositionAlignment, aXML_GlueAlignment_EnumMap ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_ALIGN, msBuffer.makeStringAndClear() ); } if( aGluePoint.Escape != drawing::EscapeDirection_SMART ) { SvXMLUnitConverter::convertEnum( msBuffer, aGluePoint.Escape, aXML_GlueEscapeDirection_EnumMap ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_ESCAPE_DIRECTION, msBuffer.makeStringAndClear() ); } SvXMLElementExport aEventsElemt(mrExport, XML_NAMESPACE_DRAW, XML_GLUE_POINT, true, true); } } } void XMLShapeExport::ImpExportSignatureLine(const uno::Reference& xShape) { uno::Reference xPropSet(xShape, uno::UNO_QUERY); bool bIsSignatureLine = false; xPropSet->getPropertyValue("IsSignatureLine") >>= bIsSignatureLine; if (!bIsSignatureLine) return; OUString aSignatureLineId; xPropSet->getPropertyValue("SignatureLineId") >>= aSignatureLineId; mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_ID, aSignatureLineId); OUString aSuggestedSignerName; xPropSet->getPropertyValue("SignatureLineSuggestedSignerName") >>= aSuggestedSignerName; if (!aSuggestedSignerName.isEmpty()) mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_SUGGESTED_SIGNER_NAME, aSuggestedSignerName); OUString aSuggestedSignerTitle; xPropSet->getPropertyValue("SignatureLineSuggestedSignerTitle") >>= aSuggestedSignerTitle; if (!aSuggestedSignerTitle.isEmpty()) mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_SUGGESTED_SIGNER_TITLE, aSuggestedSignerTitle); OUString aSuggestedSignerEmail; xPropSet->getPropertyValue("SignatureLineSuggestedSignerEmail") >>= aSuggestedSignerEmail; if (!aSuggestedSignerEmail.isEmpty()) mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_SUGGESTED_SIGNER_EMAIL, aSuggestedSignerEmail); OUString aSigningInstructions; xPropSet->getPropertyValue("SignatureLineSigningInstructions") >>= aSigningInstructions; if (!aSigningInstructions.isEmpty()) mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_SIGNING_INSTRUCTIONS, aSigningInstructions); bool bShowSignDate = false; xPropSet->getPropertyValue("SignatureLineShowSignDate") >>= bShowSignDate; mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_SHOW_SIGN_DATE, bShowSignDate ? XML_TRUE : XML_FALSE); bool bCanAddComment = false; xPropSet->getPropertyValue("SignatureLineCanAddComment") >>= bCanAddComment; mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_CAN_ADD_COMMENT, bCanAddComment ? XML_TRUE : XML_FALSE); SvXMLElementExport aSignatureLineElement(mrExport, XML_NAMESPACE_LO_EXT, XML_SIGNATURELINE, true, true); } void XMLShapeExport::ImpExportQRCode(const uno::Reference& xShape) { uno::Reference xPropSet(xShape, uno::UNO_QUERY); uno::Any aAny = xPropSet->getPropertyValue("BarCodeProperties"); css::drawing::BarCode aBarCode; if(!(aAny >>= aBarCode)) return; mrExport.AddAttribute(XML_NAMESPACE_OFFICE, XML_STRING_VALUE, aBarCode.Payload); /* Export QR Code as per customised schema, @see OpenDocument-schema-v1.3+libreoffice */ OUString temp; switch(aBarCode.ErrorCorrection){ case css::drawing::BarCodeErrorCorrection::LOW : temp = "low"; break; case css::drawing::BarCodeErrorCorrection::MEDIUM: temp = "medium"; break; case css::drawing::BarCodeErrorCorrection::QUARTILE: temp = "quartile"; break; case css::drawing::BarCodeErrorCorrection::HIGH: temp = "high"; break; } mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_QRCODE_ERROR_CORRECTION, temp); mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_QRCODE_BORDER, OUStringBuffer(20).append(aBarCode.Border).makeStringAndClear()); mrExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_QRCODE_TYPE, OUStringBuffer(20).append(aBarCode.Type).makeStringAndClear()); SvXMLElementExport aBarCodeElement(mrExport, XML_NAMESPACE_LO_EXT, XML_QRCODE, true, true); } void XMLShapeExport::ExportGraphicDefaults() { rtl::Reference aStEx(new XMLStyleExport(mrExport, mrExport.GetAutoStylePool().get())); // construct PropertySetMapper rtl::Reference< SvXMLExportPropertyMapper > xPropertySetMapper( CreateShapePropMapper( mrExport ) ); static_cast(xPropertySetMapper.get())->SetAutoStyles( false ); // chain text attributes xPropertySetMapper->ChainExportMapper(XMLTextParagraphExport::CreateParaExtPropMapper(mrExport)); // chain special Writer/text frame default attributes xPropertySetMapper->ChainExportMapper(XMLTextParagraphExport::CreateParaDefaultExtPropMapper(mrExport)); // write graphic family default style uno::Reference< lang::XMultiServiceFactory > xFact( mrExport.GetModel(), uno::UNO_QUERY ); if( !xFact.is() ) return; try { uno::Reference< beans::XPropertySet > xDefaults( xFact->createInstance("com.sun.star.drawing.Defaults"), uno::UNO_QUERY ); if( xDefaults.is() ) { aStEx->exportDefaultStyle( xDefaults, XML_STYLE_FAMILY_SD_GRAPHICS_NAME, xPropertySetMapper ); // write graphic styles (family name differs depending on the module) aStEx->exportStyleFamily("graphics", XML_STYLE_FAMILY_SD_GRAPHICS_NAME, xPropertySetMapper, false, XmlStyleFamily::SD_GRAPHICS_ID); aStEx->exportStyleFamily("GraphicStyles", XML_STYLE_FAMILY_SD_GRAPHICS_NAME, xPropertySetMapper, false, XmlStyleFamily::SD_GRAPHICS_ID); } } catch(const lang::ServiceNotRegisteredException&) { } } void XMLShapeExport::onExport( const css::uno::Reference < css::drawing::XShape >& ) { } const rtl::Reference< XMLTableExport >& XMLShapeExport::GetShapeTableExport() { if( !mxShapeTableExport.is() ) { rtl::Reference< XMLPropertyHandlerFactory > xFactory( new XMLSdPropHdlFactory( mrExport.GetModel(), mrExport ) ); rtl::Reference < XMLPropertySetMapper > xMapper( new XMLShapePropertySetMapper( xFactory, true ) ); mrExport.GetTextParagraphExport(); // get or create text paragraph export rtl::Reference< SvXMLExportPropertyMapper > xPropertySetMapper( new XMLShapeExportPropertyMapper( xMapper, mrExport ) ); mxShapeTableExport = new XMLTableExport( mrExport, xPropertySetMapper, xFactory ); } return mxShapeTableExport; } void XMLShapeExport::ImpExportNewTrans(const uno::Reference< beans::XPropertySet >& xPropSet, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { // get matrix ::basegfx::B2DHomMatrix aMatrix; ImpExportNewTrans_GetB2DHomMatrix(aMatrix, xPropSet); // decompose and correct about pRefPoint ::basegfx::B2DTuple aTRScale; double fTRShear(0.0); double fTRRotate(0.0); ::basegfx::B2DTuple aTRTranslate; ImpExportNewTrans_DecomposeAndRefPoint(aMatrix, aTRScale, fTRShear, fTRRotate, aTRTranslate, pRefPoint); // use features and write ImpExportNewTrans_FeaturesAndWrite(aTRScale, fTRShear, fTRRotate, aTRTranslate, nFeatures); } void XMLShapeExport::ImpExportNewTrans_GetB2DHomMatrix(::basegfx::B2DHomMatrix& rMatrix, const uno::Reference< beans::XPropertySet >& xPropSet) { /* Get , if it exist and if the document is exported into the OpenOffice.org file format. This property only exists at service css::text::Shape - the Writer UNO service for shapes. This code is needed, because the positioning attributes in the OpenOffice.org file format are given in horizontal left-to-right layout regardless the layout direction the shape is in. In the OASIS Open Office file format the positioning attributes are correctly given in the layout direction the shape is in. Thus, this code provides the conversion from the OASIS Open Office file format to the OpenOffice.org file format. (#i28749#) */ uno::Any aAny; if ( !( GetExport().getExportFlags() & SvXMLExportFlags::OASIS ) && xPropSet->getPropertySetInfo()->hasPropertyByName("TransformationInHoriL2R") ) { aAny = xPropSet->getPropertyValue("TransformationInHoriL2R"); } else { aAny = xPropSet->getPropertyValue("Transformation"); } drawing::HomogenMatrix3 aMatrix; aAny >>= aMatrix; rMatrix.set(0, 0, aMatrix.Line1.Column1); rMatrix.set(0, 1, aMatrix.Line1.Column2); rMatrix.set(0, 2, aMatrix.Line1.Column3); rMatrix.set(1, 0, aMatrix.Line2.Column1); rMatrix.set(1, 1, aMatrix.Line2.Column2); rMatrix.set(1, 2, aMatrix.Line2.Column3); // For this to be a valid 2D transform matrix, the last row must be [0,0,1] assert( aMatrix.Line3.Column1 == 0 ); assert( aMatrix.Line3.Column2 == 0 ); assert( aMatrix.Line3.Column3 == 1 ); } void XMLShapeExport::ImpExportNewTrans_DecomposeAndRefPoint(const ::basegfx::B2DHomMatrix& rMatrix, ::basegfx::B2DTuple& rTRScale, double& fTRShear, double& fTRRotate, ::basegfx::B2DTuple& rTRTranslate, css::awt::Point* pRefPoint) { // decompose matrix rMatrix.decompose(rTRScale, rTRTranslate, fTRRotate, fTRShear); // correct translation about pRefPoint if(pRefPoint) { rTRTranslate -= ::basegfx::B2DTuple(pRefPoint->X, pRefPoint->Y); } } void XMLShapeExport::ImpExportNewTrans_FeaturesAndWrite(::basegfx::B2DTuple const & rTRScale, double fTRShear, double fTRRotate, ::basegfx::B2DTuple const & rTRTranslate, const XMLShapeExportFlags nFeatures) { // always write Size (rTRScale) since this statement carries the union // of the object OUString aStr; OUStringBuffer sStringBuffer; ::basegfx::B2DTuple aTRScale(rTRScale); // svg: width if(!(nFeatures & XMLShapeExportFlags::WIDTH)) { aTRScale.setX(1.0); } else { if( aTRScale.getX() > 0.0 ) aTRScale.setX(aTRScale.getX() - 1.0); else if( aTRScale.getX() < 0.0 ) aTRScale.setX(aTRScale.getX() + 1.0); } mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, FRound(aTRScale.getX())); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_WIDTH, aStr); // svg: height if(!(nFeatures & XMLShapeExportFlags::HEIGHT)) { aTRScale.setY(1.0); } else { if( aTRScale.getY() > 0.0 ) aTRScale.setY(aTRScale.getY() - 1.0); else if( aTRScale.getY() < 0.0 ) aTRScale.setY(aTRScale.getY() + 1.0); } mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, FRound(aTRScale.getY())); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_HEIGHT, aStr); // decide if transformation is necessary bool bTransformationIsNecessary(fTRShear != 0.0 || fTRRotate != 0.0); if(bTransformationIsNecessary) { // write transformation, but WITHOUT scale which is exported as size above SdXMLImExTransform2D aTransform; aTransform.AddSkewX(atan(fTRShear)); // #i78696# // fTRRotate is mathematically correct, but due to the error // we export/import it mirrored. Since the API implementation is fixed and // uses the correctly oriented angle, it is necessary for compatibility to // mirror the angle here to stay at the old behaviour. There is a follow-up // task (#i78698#) to fix this in the next ODF FileFormat version aTransform.AddRotate(-fTRRotate); aTransform.AddTranslate(rTRTranslate); // does transformation need to be exported? if(aTransform.NeedsAction()) mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_TRANSFORM, aTransform.GetExportString(mrExport.GetMM100UnitConverter())); } else { // no shear, no rotate; just add object position to export and we are done if(nFeatures & XMLShapeExportFlags::X) { // svg: x mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, FRound(rTRTranslate.getX())); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X, aStr); } if(nFeatures & XMLShapeExportFlags::Y) { // svg: y mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, FRound(rTRTranslate.getY())); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y, aStr); } } } bool XMLShapeExport::ImpExportPresentationAttributes( const uno::Reference< beans::XPropertySet >& xPropSet, const OUString& rClass ) { bool bIsEmpty = false; // write presentation class entry mrExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_CLASS, rClass); if( xPropSet.is() ) { uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); // is empty pres. shape? if( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName("IsEmptyPresentationObject")) { xPropSet->getPropertyValue("IsEmptyPresentationObject") >>= bIsEmpty; if( bIsEmpty ) mrExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_PLACEHOLDER, XML_TRUE); } // is user-transformed? if( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName("IsPlaceholderDependent")) { bool bTemp = false; xPropSet->getPropertyValue("IsPlaceholderDependent") >>= bTemp; if(!bTemp) mrExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_USER_TRANSFORMED, XML_TRUE); } } return bIsEmpty; } void XMLShapeExport::ImpExportText( const uno::Reference< drawing::XShape >& xShape, TextPNS eExtensionNS ) { if (eExtensionNS == TextPNS::EXTENSION) { if ((mrExport.getSaneDefaultVersion() & SvtSaveOptions::ODFSVER_EXTENDED) == 0) { return; // do not export to ODF 1.1/1.2/1.3 } } uno::Reference< text::XText > xText( xShape, uno::UNO_QUERY ); if( xText.is() ) { uno::Reference< container::XEnumerationAccess > xEnumAccess( xShape, uno::UNO_QUERY ); if( xEnumAccess.is() && xEnumAccess->hasElements() ) mrExport.GetTextParagraphExport()->exportText( xText, false, true, eExtensionNS ); } } namespace { enum class Found { NONE = 0x0000, CLICKACTION = 0x0001, BOOKMARK = 0x0002, EFFECT = 0x0004, PLAYFULL = 0x0008, VERB = 0x0010, SOUNDURL = 0x0020, SPEED = 0x0040, CLICKEVENTTYPE = 0x0080, MACRO = 0x0100, LIBRARY = 0x0200, }; } namespace o3tl { template<> struct typed_flags : is_typed_flags {}; } void XMLShapeExport::ImpExportEvents( const uno::Reference< drawing::XShape >& xShape ) { uno::Reference< document::XEventsSupplier > xEventsSupplier( xShape, uno::UNO_QUERY ); if( !xEventsSupplier.is() ) return; uno::Reference< container::XNameAccess > xEvents = xEventsSupplier->getEvents(); SAL_WARN_IF( !xEvents.is(), "xmloff", "XEventsSupplier::getEvents() returned NULL" ); if( !xEvents.is() ) return; Found nFound = Found::NONE; OUString aClickEventType; presentation::ClickAction eClickAction = presentation::ClickAction_NONE; presentation::AnimationEffect eEffect = presentation::AnimationEffect_NONE; presentation::AnimationSpeed eSpeed = presentation::AnimationSpeed_SLOW; OUString aStrSoundURL; bool bPlayFull = false; sal_Int32 nVerb = 0; OUString aStrMacro; OUString aStrLibrary; OUString aStrBookmark; uno::Sequence< beans::PropertyValue > aClickProperties; if( xEvents->hasByName( gsOnClick ) && (xEvents->getByName( gsOnClick ) >>= aClickProperties) ) { for( const auto& rProperty : std::as_const(aClickProperties) ) { if( !( nFound & Found::CLICKEVENTTYPE ) && rProperty.Name == gsEventType ) { if( rProperty.Value >>= aClickEventType ) nFound |= Found::CLICKEVENTTYPE; } else if( !( nFound & Found::CLICKACTION ) && rProperty.Name == gsClickAction ) { if( rProperty.Value >>= eClickAction ) nFound |= Found::CLICKACTION; } else if( !( nFound & Found::MACRO ) && ( rProperty.Name == gsMacroName || rProperty.Name == gsScript ) ) { if( rProperty.Value >>= aStrMacro ) nFound |= Found::MACRO; } else if( !( nFound & Found::LIBRARY ) && rProperty.Name == gsLibrary ) { if( rProperty.Value >>= aStrLibrary ) nFound |= Found::LIBRARY; } else if( !( nFound & Found::EFFECT ) && rProperty.Name == gsEffect ) { if( rProperty.Value >>= eEffect ) nFound |= Found::EFFECT; } else if( !( nFound & Found::BOOKMARK ) && rProperty.Name == gsBookmark ) { if( rProperty.Value >>= aStrBookmark ) nFound |= Found::BOOKMARK; } else if( !( nFound & Found::SPEED ) && rProperty.Name == gsSpeed ) { if( rProperty.Value >>= eSpeed ) nFound |= Found::SPEED; } else if( !( nFound & Found::SOUNDURL ) && rProperty.Name == gsSoundURL ) { if( rProperty.Value >>= aStrSoundURL ) nFound |= Found::SOUNDURL; } else if( !( nFound & Found::PLAYFULL ) && rProperty.Name == gsPlayFull ) { if( rProperty.Value >>= bPlayFull ) nFound |= Found::PLAYFULL; } else if( !( nFound & Found::VERB ) && rProperty.Name == gsVerb ) { if( rProperty.Value >>= nVerb ) nFound |= Found::VERB; } } } // create the XML elements if( aClickEventType == gsPresentation ) { if( !(nFound & Found::CLICKACTION) || (eClickAction == presentation::ClickAction_NONE) ) return; SvXMLElementExport aEventsElemt(mrExport, XML_NAMESPACE_OFFICE, XML_EVENT_LISTENERS, true, true); enum XMLTokenEnum eStrAction; switch( eClickAction ) { case presentation::ClickAction_PREVPAGE: eStrAction = XML_PREVIOUS_PAGE; break; case presentation::ClickAction_NEXTPAGE: eStrAction = XML_NEXT_PAGE; break; case presentation::ClickAction_FIRSTPAGE: eStrAction = XML_FIRST_PAGE; break; case presentation::ClickAction_LASTPAGE: eStrAction = XML_LAST_PAGE; break; case presentation::ClickAction_INVISIBLE: eStrAction = XML_HIDE; break; case presentation::ClickAction_STOPPRESENTATION:eStrAction = XML_STOP; break; case presentation::ClickAction_PROGRAM: eStrAction = XML_EXECUTE; break; case presentation::ClickAction_BOOKMARK: eStrAction = XML_SHOW; break; case presentation::ClickAction_DOCUMENT: eStrAction = XML_SHOW; break; case presentation::ClickAction_MACRO: eStrAction = XML_EXECUTE_MACRO; break; case presentation::ClickAction_VERB: eStrAction = XML_VERB; break; case presentation::ClickAction_VANISH: eStrAction = XML_FADE_OUT; break; case presentation::ClickAction_SOUND: eStrAction = XML_SOUND; break; default: OSL_FAIL( "unknown presentation::ClickAction found!" ); eStrAction = XML_UNKNOWN; } OUString aEventQName( mrExport.GetNamespaceMap().GetQNameByKey( XML_NAMESPACE_DOM, "click" ) ); mrExport.AddAttribute( XML_NAMESPACE_SCRIPT, XML_EVENT_NAME, aEventQName ); mrExport.AddAttribute( XML_NAMESPACE_PRESENTATION, XML_ACTION, eStrAction ); if( eClickAction == presentation::ClickAction_VANISH ) { if( nFound & Found::EFFECT ) { XMLEffect eKind; XMLEffectDirection eDirection; sal_Int16 nStartScale; bool bIn; SdXMLImplSetEffect( eEffect, eKind, eDirection, nStartScale, bIn ); if( eKind != EK_none ) { SvXMLUnitConverter::convertEnum( msBuffer, eKind, aXML_AnimationEffect_EnumMap ); mrExport.AddAttribute( XML_NAMESPACE_PRESENTATION, XML_EFFECT, msBuffer.makeStringAndClear() ); } if( eDirection != ED_none ) { SvXMLUnitConverter::convertEnum( msBuffer, eDirection, aXML_AnimationDirection_EnumMap ); mrExport.AddAttribute( XML_NAMESPACE_PRESENTATION, XML_DIRECTION, msBuffer.makeStringAndClear() ); } if( nStartScale != -1 ) { ::sax::Converter::convertPercent( msBuffer, nStartScale ); mrExport.AddAttribute( XML_NAMESPACE_PRESENTATION, XML_START_SCALE, msBuffer.makeStringAndClear() ); } } if( nFound & Found::SPEED && eEffect != presentation::AnimationEffect_NONE ) { if( eSpeed != presentation::AnimationSpeed_MEDIUM ) { SvXMLUnitConverter::convertEnum( msBuffer, eSpeed, aXML_AnimationSpeed_EnumMap ); mrExport.AddAttribute( XML_NAMESPACE_PRESENTATION, XML_SPEED, msBuffer.makeStringAndClear() ); } } } if( eClickAction == presentation::ClickAction_PROGRAM || eClickAction == presentation::ClickAction_BOOKMARK || eClickAction == presentation::ClickAction_DOCUMENT ) { if( eClickAction == presentation::ClickAction_BOOKMARK ) msBuffer.append( '#' ); msBuffer.append( aStrBookmark ); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, GetExport().GetRelativeReference(msBuffer.makeStringAndClear()) ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONREQUEST ); } if( ( nFound & Found::VERB ) && eClickAction == presentation::ClickAction_VERB ) { msBuffer.append( nVerb ); mrExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_VERB, msBuffer.makeStringAndClear()); } SvXMLElementExport aEventElemt(mrExport, XML_NAMESPACE_PRESENTATION, XML_EVENT_LISTENER, true, true); if( eClickAction == presentation::ClickAction_VANISH || eClickAction == presentation::ClickAction_SOUND ) { if( ( nFound & Found::SOUNDURL ) && !aStrSoundURL.isEmpty() ) { mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, GetExport().GetRelativeReference(aStrSoundURL) ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_SHOW, XML_NEW ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONREQUEST ); if( nFound & Found::PLAYFULL && bPlayFull ) mrExport.AddAttribute( XML_NAMESPACE_PRESENTATION, XML_PLAY_FULL, XML_TRUE ); SvXMLElementExport aElem( mrExport, XML_NAMESPACE_PRESENTATION, XML_SOUND, true, true ); } } } else if( aClickEventType == gsStarBasic ) { if( nFound & Found::MACRO ) { SvXMLElementExport aEventsElemt(mrExport, XML_NAMESPACE_OFFICE, XML_EVENT_LISTENERS, true, true); mrExport.AddAttribute( XML_NAMESPACE_SCRIPT, XML_LANGUAGE, mrExport.GetNamespaceMap().GetQNameByKey( XML_NAMESPACE_OOO, "starbasic" ) ); OUString aEventQName( mrExport.GetNamespaceMap().GetQNameByKey( XML_NAMESPACE_DOM, "click" ) ); mrExport.AddAttribute( XML_NAMESPACE_SCRIPT, XML_EVENT_NAME, aEventQName ); if( nFound & Found::LIBRARY ) { const OUString& sLocation( GetXMLToken( (aStrLibrary.equalsIgnoreAsciiCase("StarOffice") || aStrLibrary.equalsIgnoreAsciiCase("application") ) ? XML_APPLICATION : XML_DOCUMENT ) ); mrExport.AddAttribute(XML_NAMESPACE_SCRIPT, XML_MACRO_NAME, sLocation + ":" + aStrMacro); } else { mrExport.AddAttribute( XML_NAMESPACE_SCRIPT, XML_MACRO_NAME, aStrMacro ); } SvXMLElementExport aEventElemt(mrExport, XML_NAMESPACE_SCRIPT, XML_EVENT_LISTENER, true, true); } } else if( aClickEventType == gsScript ) { if( nFound & Found::MACRO ) { SvXMLElementExport aEventsElemt(mrExport, XML_NAMESPACE_OFFICE, XML_EVENT_LISTENERS, true, true); mrExport.AddAttribute( XML_NAMESPACE_SCRIPT, XML_LANGUAGE, mrExport.GetNamespaceMap().GetQNameByKey( XML_NAMESPACE_OOO, GetXMLToken(XML_SCRIPT) ) ); OUString aEventQName( mrExport.GetNamespaceMap().GetQNameByKey( XML_NAMESPACE_DOM, "click" ) ); mrExport.AddAttribute( XML_NAMESPACE_SCRIPT, XML_EVENT_NAME, aEventQName ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_HREF, aStrMacro ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, "simple" ); SvXMLElementExport aEventElemt(mrExport, XML_NAMESPACE_SCRIPT, XML_EVENT_LISTENER, true, true); } } } /** #i68101# export shape Title and Description */ void XMLShapeExport::ImpExportDescription( const uno::Reference< drawing::XShape >& xShape ) { try { OUString aTitle; OUString aDescription; uno::Reference< beans::XPropertySet > xProps( xShape, uno::UNO_QUERY_THROW ); xProps->getPropertyValue("Title") >>= aTitle; xProps->getPropertyValue("Description") >>= aDescription; if(!aTitle.isEmpty()) { SvXMLElementExport aEventElemt(mrExport, XML_NAMESPACE_SVG, XML_TITLE, true, false); mrExport.Characters( aTitle ); } if(!aDescription.isEmpty()) { SvXMLElementExport aEventElemt(mrExport, XML_NAMESPACE_SVG, XML_DESC, true, false ); mrExport.Characters( aDescription ); } } catch( uno::Exception& ) { DBG_UNHANDLED_EXCEPTION( "xmloff", "exporting Title and/or Description for shape" ); } } void XMLShapeExport::ImpExportGroupShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { uno::Reference< drawing::XShapes > xShapes(xShape, uno::UNO_QUERY); if(!(xShapes.is() && xShapes->getCount())) return; // write group shape bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aPGR(mrExport, XML_NAMESPACE_DRAW, XML_G, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); // #89764# if export of position is suppressed for group shape, // positions of contained objects should be written relative to // the upper left edge of the group. awt::Point aUpperLeft; if(!(nFeatures & XMLShapeExportFlags::POSITION)) { nFeatures |= XMLShapeExportFlags::POSITION; aUpperLeft = xShape->getPosition(); pRefPoint = &aUpperLeft; } // write members exportShapes( xShapes, nFeatures, pRefPoint ); } void XMLShapeExport::ImpExportTextBoxShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // presentation attribute (if presentation) bool bIsPresShape(false); bool bIsEmptyPresObj(false); OUString aStr; switch(eShapeType) { case XmlShapeType::PresSubtitleShape: { aStr = GetXMLToken(XML_SUBTITLE); bIsPresShape = true; break; } case XmlShapeType::PresTitleTextShape: { aStr = GetXMLToken(XML_TITLE); bIsPresShape = true; break; } case XmlShapeType::PresOutlinerShape: { aStr = GetXMLToken(XML_PRESENTATION_OUTLINE); bIsPresShape = true; break; } case XmlShapeType::PresNotesShape: { aStr = GetXMLToken(XML_NOTES); bIsPresShape = true; break; } case XmlShapeType::PresHeaderShape: { aStr = GetXMLToken(XML_HEADER); bIsPresShape = true; break; } case XmlShapeType::PresFooterShape: { aStr = GetXMLToken(XML_FOOTER); bIsPresShape = true; break; } case XmlShapeType::PresSlideNumberShape: { aStr = GetXMLToken(XML_PAGE_NUMBER); bIsPresShape = true; break; } case XmlShapeType::PresDateTimeShape: { aStr = GetXMLToken(XML_DATE_TIME); bIsPresShape = true; break; } default: break; } // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); if(bIsPresShape) bIsEmptyPresObj = ImpExportPresentationAttributes( xPropSet, aStr ); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); // evtl. corner radius? sal_Int32 nCornerRadius(0); xPropSet->getPropertyValue("CornerRadius") >>= nCornerRadius; if(nCornerRadius) { OUStringBuffer sStringBuffer; mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nCornerRadius); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_CORNER_RADIUS, sStringBuffer.makeStringAndClear()); } { // write text-box SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_TEXT_BOX, true, true); if(!bIsEmptyPresObj) ImpExportText( xShape ); } ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); } void XMLShapeExport::ImpExportRectangleShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); // evtl. corner radius? sal_Int32 nCornerRadius(0); xPropSet->getPropertyValue("CornerRadius") >>= nCornerRadius; if(nCornerRadius) { OUStringBuffer sStringBuffer; mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nCornerRadius); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_CORNER_RADIUS, sStringBuffer.makeStringAndClear()); } // write rectangle bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_RECT, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportText( xShape ); } void XMLShapeExport::ImpExportLineShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; OUString aStr; OUStringBuffer sStringBuffer; awt::Point aStart(0,0); awt::Point aEnd(1,1); // #85920# use 'Geometry' to get the points of the line // since this slot take anchor pos into account. // get matrix ::basegfx::B2DHomMatrix aMatrix; ImpExportNewTrans_GetB2DHomMatrix(aMatrix, xPropSet); // decompose and correct about pRefPoint ::basegfx::B2DTuple aTRScale; double fTRShear(0.0); double fTRRotate(0.0); ::basegfx::B2DTuple aTRTranslate; ImpExportNewTrans_DecomposeAndRefPoint(aMatrix, aTRScale, fTRShear, fTRRotate, aTRTranslate, pRefPoint); // create base position awt::Point aBasePosition(FRound(aTRTranslate.getX()), FRound(aTRTranslate.getY())); if (xPropSet->getPropertySetInfo()->hasPropertyByName("Geometry")) { // get the two points uno::Any aAny(xPropSet->getPropertyValue("Geometry")); if (auto pSourcePolyPolygon = o3tl::tryAccess(aAny)) { if (pSourcePolyPolygon->getLength() > 0) { const drawing::PointSequence& rInnerSequence = (*pSourcePolyPolygon)[0]; if (rInnerSequence.hasElements()) { const awt::Point& rPoint = rInnerSequence[0]; aStart = awt::Point(rPoint.X + aBasePosition.X, rPoint.Y + aBasePosition.Y); } if (rInnerSequence.getLength() > 1) { const awt::Point& rPoint = rInnerSequence[1]; aEnd = awt::Point(rPoint.X + aBasePosition.X, rPoint.Y + aBasePosition.Y); } } } } if( nFeatures & XMLShapeExportFlags::X ) { // svg: x1 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aStart.X); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X1, aStr); } else { aEnd.X -= aStart.X; } if( nFeatures & XMLShapeExportFlags::Y ) { // svg: y1 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aStart.Y); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y1, aStr); } else { aEnd.Y -= aStart.Y; } // svg: x2 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aEnd.X); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X2, aStr); // svg: y2 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aEnd.Y); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y2, aStr); // write line bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_LINE, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportText( xShape ); } void XMLShapeExport::ImpExportEllipseShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // get size to decide between Circle and Ellipse awt::Size aSize = xShape->getSize(); sal_Int32 nRx((aSize.Width + 1) / 2); sal_Int32 nRy((aSize.Height + 1) / 2); bool bCircle(nRx == nRy); // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); drawing::CircleKind eKind = drawing::CircleKind_FULL; xPropSet->getPropertyValue("CircleKind") >>= eKind; if( eKind != drawing::CircleKind_FULL ) { OUStringBuffer sStringBuffer; sal_Int32 nStartAngle = 0; sal_Int32 nEndAngle = 0; xPropSet->getPropertyValue("CircleStartAngle") >>= nStartAngle; xPropSet->getPropertyValue("CircleEndAngle") >>= nEndAngle; const double dStartAngle = nStartAngle / 100.0; const double dEndAngle = nEndAngle / 100.0; // export circle kind SvXMLUnitConverter::convertEnum( sStringBuffer, eKind, aXML_CircleKind_EnumMap ); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_KIND, sStringBuffer.makeStringAndClear() ); // export start angle ::sax::Converter::convertDouble( sStringBuffer, dStartAngle ); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_START_ANGLE, sStringBuffer.makeStringAndClear() ); // export end angle ::sax::Converter::convertDouble( sStringBuffer, dEndAngle ); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_END_ANGLE, sStringBuffer.makeStringAndClear() ); } bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# // write ellipse or circle SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, bCircle ? XML_CIRCLE : XML_ELLIPSE, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportText( xShape ); } void XMLShapeExport::ImpExportPolygonShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; bool bBezier(eShapeType == XmlShapeType::DrawClosedBezierShape || eShapeType == XmlShapeType::DrawOpenBezierShape); // get matrix ::basegfx::B2DHomMatrix aMatrix; ImpExportNewTrans_GetB2DHomMatrix(aMatrix, xPropSet); // decompose and correct about pRefPoint ::basegfx::B2DTuple aTRScale; double fTRShear(0.0); double fTRRotate(0.0); ::basegfx::B2DTuple aTRTranslate; ImpExportNewTrans_DecomposeAndRefPoint(aMatrix, aTRScale, fTRShear, fTRRotate, aTRTranslate, pRefPoint); // use features and write ImpExportNewTrans_FeaturesAndWrite(aTRScale, fTRShear, fTRRotate, aTRTranslate, nFeatures); // create and export ViewBox awt::Size aSize(FRound(aTRScale.getX()), FRound(aTRScale.getY())); SdXMLImExViewBox aViewBox(0, 0, aSize.Width, aSize.Height); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_VIEWBOX, aViewBox.GetExportString()); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# // prepare name (with most used) enum ::xmloff::token::XMLTokenEnum eName(XML_PATH); uno::Any aAny( xPropSet->getPropertyValue("Geometry") ); basegfx::B2DPolyPolygon aPolyPolygon; // tdf#145240 the Any can contain PolyPolygonBezierCoords or PointSequenceSequence // (see OWN_ATTR_BASE_GEOMETRY in SvxShapePolyPolygon::getPropertyValueImpl), // so be more flexible in interpreting it. Try to access bezier first: { auto pSourcePolyPolygon = o3tl::tryAccess(aAny); if(pSourcePolyPolygon && pSourcePolyPolygon->Coordinates.getLength()) { aPolyPolygon = basegfx::utils::UnoPolyPolygonBezierCoordsToB2DPolyPolygon(*pSourcePolyPolygon); } } // if received no data, try to access point sequence second: if(0 == aPolyPolygon.count()) { auto pSourcePolyPolygon = o3tl::tryAccess(aAny); if(pSourcePolyPolygon) { aPolyPolygon = basegfx::utils::UnoPointSequenceSequenceToB2DPolyPolygon(*pSourcePolyPolygon); } } if(aPolyPolygon.count()) { if(!bBezier && !aPolyPolygon.areControlPointsUsed() && 1 == aPolyPolygon.count()) { // simple polygon shape, can be written as svg:points sequence const basegfx::B2DPolygon& aPolygon(aPolyPolygon.getB2DPolygon(0)); const OUString aPointString(basegfx::utils::exportToSvgPoints(aPolygon)); // write point array mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_POINTS, aPointString); // set name eName = aPolygon.isClosed() ? XML_POLYGON : XML_POLYLINE; } else { // complex polygon shape, write as svg:d const OUString aPolygonString( basegfx::utils::exportToSvgD( aPolyPolygon, true, // bUseRelativeCoordinates false, // bDetectQuadraticBeziers: not used in old, but maybe activated now true)); // bHandleRelativeNextPointCompatible // write point array mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_D, aPolygonString); } } // write object, but after attributes are added since this call will // consume all of these added attributes and the destructor will close the // scope. Also before text is added; this may add sub-scopes as needed SvXMLElementExport aOBJ( mrExport, XML_NAMESPACE_DRAW, eName, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportText( xShape ); } namespace { OUString getNameFromStreamURL(std::u16string_view rURL) { static constexpr std::u16string_view sPackageURL(u"vnd.sun.star.Package:"); OUString sResult; if (o3tl::starts_with(rURL, sPackageURL)) { std::u16string_view sRequestedName = rURL.substr(sPackageURL.size()); size_t nLastIndex = sRequestedName.rfind('/') + 1; if ((nLastIndex > 0) && (nLastIndex < sRequestedName.size())) sRequestedName = sRequestedName.substr(nLastIndex); nLastIndex = sRequestedName.rfind('.'); if (nLastIndex != std::u16string_view::npos) sRequestedName = sRequestedName.substr(0, nLastIndex); if (!sRequestedName.empty()) sResult = sRequestedName; } return sResult; } } // end anonymous namespace void XMLShapeExport::ImpExportGraphicObjectShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; bool bIsEmptyPresObj = false; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); if(eShapeType == XmlShapeType::PresGraphicObjectShape) bIsEmptyPresObj = ImpExportPresentationAttributes( xPropSet, GetXMLToken(XML_GRAPHIC) ); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); if (!bIsEmptyPresObj) { uno::Reference xGraphic; OUString sOutMimeType; { OUString aStreamURL; xPropSet->getPropertyValue("GraphicStreamURL") >>= aStreamURL; OUString sRequestedName = getNameFromStreamURL(aStreamURL); xPropSet->getPropertyValue("Graphic") >>= xGraphic; OUString sInternalURL; if (xGraphic.is()) sInternalURL = mrExport.AddEmbeddedXGraphic(xGraphic, sOutMimeType, sRequestedName); if (!sInternalURL.isEmpty()) { // apply possible changed stream URL to embedded image object if (!sRequestedName.isEmpty()) { OUString newStreamURL = "vnd.sun.star.Package:"; if (sInternalURL[0] == '#') { newStreamURL += sInternalURL.subView(1, sInternalURL.getLength() - 1); } else { newStreamURL += sInternalURL; } if (newStreamURL != aStreamURL) { xPropSet->setPropertyValue("GraphicStreamURL", uno::Any(newStreamURL)); } } mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, sInternalURL); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD); } } { if (GetExport().getSaneDefaultVersion() > SvtSaveOptions::ODFSVER_012) { if (sOutMimeType.isEmpty()) { GetExport().GetGraphicMimeTypeFromStream(xGraphic, sOutMimeType); } if (!sOutMimeType.isEmpty()) { // ODF 1.3 OFFICE-3943 GetExport().AddAttribute( SvtSaveOptions::ODFSVER_013 <= GetExport().getSaneDefaultVersion() ? XML_NAMESPACE_DRAW : XML_NAMESPACE_LO_EXT, "mime-type", sOutMimeType); } } SvXMLElementExport aElement(mrExport, XML_NAMESPACE_DRAW, XML_IMAGE, true, true); // optional office:binary-data if (xGraphic.is()) { mrExport.AddEmbeddedXGraphicAsBase64(xGraphic); } if (!bIsEmptyPresObj) ImpExportText(xShape); } //Resolves: fdo#62461 put preferred image first above, followed by //fallback here const bool bAddReplacementImages = officecfg::Office::Common::Save::Graphic::AddReplacementImages::get(); if( !bIsEmptyPresObj && bAddReplacementImages) { uno::Reference xReplacementGraphic; xPropSet->getPropertyValue("ReplacementGraphic") >>= xReplacementGraphic; // If there is no url, then the graphic is empty if (xReplacementGraphic.is()) { OUString aMimeType; const OUString aHref = mrExport.AddEmbeddedXGraphic(xReplacementGraphic, aMimeType); if (aMimeType.isEmpty()) mrExport.GetGraphicMimeTypeFromStream(xReplacementGraphic, aMimeType); if (!aHref.isEmpty()) { mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, aHref); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); } if (!aMimeType.isEmpty() && GetExport().getSaneDefaultVersion() > SvtSaveOptions::ODFSVER_012) { // ODF 1.3 OFFICE-3943 mrExport.AddAttribute( SvtSaveOptions::ODFSVER_013 <= GetExport().getSaneDefaultVersion() ? XML_NAMESPACE_DRAW : XML_NAMESPACE_LO_EXT, "mime-type", aMimeType); } SvXMLElementExport aElement(mrExport, XML_NAMESPACE_DRAW, XML_IMAGE, true, true); // optional office:binary-data mrExport.AddEmbeddedXGraphicAsBase64(xReplacementGraphic); } } } ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); // image map GetExport().GetImageMapExport().Export( xPropSet ); ImpExportDescription( xShape ); // #i68101# // Signature Line, QR Code - needs to be after the images! if (GetExport().getSaneDefaultVersion() & SvtSaveOptions::ODFSVER_EXTENDED) { ImpExportSignatureLine(xShape); ImpExportQRCode(xShape); } } void XMLShapeExport::ImpExportChartShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint, comphelper::AttributeList* pAttrList ) { ImpExportOLE2Shape( xShape, eShapeType, nFeatures, pRefPoint, pAttrList ); } void XMLShapeExport::ImpExportControlShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(xPropSet.is()) { // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); } uno::Reference< drawing::XControlShape > xControl( xShape, uno::UNO_QUERY ); SAL_WARN_IF( !xControl.is(), "xmloff", "Control shape is not supporting XControlShape" ); if( xControl.is() ) { uno::Reference< beans::XPropertySet > xControlModel( xControl->getControl(), uno::UNO_QUERY ); SAL_WARN_IF( !xControlModel.is(), "xmloff", "Control shape has not XControlModel" ); if( xControlModel.is() ) { OUString sControlId = mrExport.GetFormExport()->getControlId( xControlModel ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_CONTROL, sControlId ); } } bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_CONTROL, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# } void XMLShapeExport::ImpExportConnectorShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, awt::Point* pRefPoint /* = NULL */) { uno::Reference< beans::XPropertySet > xProps( xShape, uno::UNO_QUERY ); OUString aStr; OUStringBuffer sStringBuffer; // export connection kind drawing::ConnectorType eType = drawing::ConnectorType_STANDARD; uno::Any aAny = xProps->getPropertyValue("EdgeKind"); aAny >>= eType; if( eType != drawing::ConnectorType_STANDARD ) { SvXMLUnitConverter::convertEnum( sStringBuffer, eType, aXML_ConnectionKind_EnumMap ); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_TYPE, aStr); } // export line skew sal_Int32 nDelta1 = 0, nDelta2 = 0, nDelta3 = 0; aAny = xProps->getPropertyValue("EdgeLine1Delta"); aAny >>= nDelta1; aAny = xProps->getPropertyValue("EdgeLine2Delta"); aAny >>= nDelta2; aAny = xProps->getPropertyValue("EdgeLine3Delta"); aAny >>= nDelta3; if( nDelta1 != 0 || nDelta2 != 0 || nDelta3 != 0 ) { mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nDelta1); if( nDelta2 != 0 || nDelta3 != 0 ) { sStringBuffer.append( ' ' ); mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nDelta2); if( nDelta3 != 0 ) { sStringBuffer.append( ' ' ); mrExport.GetMM100UnitConverter().convertMeasureToXML( sStringBuffer, nDelta3); } } aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_LINE_SKEW, aStr); } // export start and end point awt::Point aStart(0,0); awt::Point aEnd(1,1); /* Get and , if they exist and if the document is exported into the OpenOffice.org file format. These properties only exist at service css::text::Shape - the Writer UNO service for shapes. This code is needed, because the positioning attributes in the OpenOffice.org file format are given in horizontal left-to-right layout regardless the layout direction the shape is in. In the OASIS Open Office file format the positioning attributes are correctly given in the layout direction the shape is in. Thus, this code provides the conversion from the OASIS Open Office file format to the OpenOffice.org file format. (#i36248#) */ if ( !( GetExport().getExportFlags() & SvXMLExportFlags::OASIS ) && xProps->getPropertySetInfo()->hasPropertyByName("StartPositionInHoriL2R") && xProps->getPropertySetInfo()->hasPropertyByName("EndPositionInHoriL2R") ) { xProps->getPropertyValue("StartPositionInHoriL2R") >>= aStart; xProps->getPropertyValue("EndPositionInHoriL2R") >>= aEnd; } else { xProps->getPropertyValue("StartPosition") >>= aStart; xProps->getPropertyValue("EndPosition") >>= aEnd; } if( pRefPoint ) { aStart.X -= pRefPoint->X; aStart.Y -= pRefPoint->Y; aEnd.X -= pRefPoint->X; aEnd.Y -= pRefPoint->Y; } if( nFeatures & XMLShapeExportFlags::X ) { // svg: x1 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aStart.X); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X1, aStr); } else { aEnd.X -= aStart.X; } if( nFeatures & XMLShapeExportFlags::Y ) { // svg: y1 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aStart.Y); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y1, aStr); } else { aEnd.Y -= aStart.Y; } // svg: x2 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aEnd.X); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X2, aStr); // svg: y2 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aEnd.Y); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y2, aStr); // #i39320# uno::Reference< uno::XInterface > xRefS; uno::Reference< uno::XInterface > xRefE; // export start connection xProps->getPropertyValue("StartShape") >>= xRefS; if( xRefS.is() ) { const OUString& rShapeId = mrExport.getInterfaceToIdentifierMapper().getIdentifier( xRefS ); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_START_SHAPE, rShapeId); aAny = xProps->getPropertyValue("StartGluePointIndex"); sal_Int32 nGluePointId = 0; if( aAny >>= nGluePointId ) { if( nGluePointId != -1 ) { mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_START_GLUE_POINT, OUString::number( nGluePointId )); } } } // export end connection xProps->getPropertyValue("EndShape") >>= xRefE; if( xRefE.is() ) { const OUString& rShapeId = mrExport.getInterfaceToIdentifierMapper().getIdentifier( xRefE ); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_END_SHAPE, rShapeId); aAny = xProps->getPropertyValue("EndGluePointIndex"); sal_Int32 nGluePointId = 0; if( aAny >>= nGluePointId ) { if( nGluePointId != -1 ) { mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_END_GLUE_POINT, OUString::number( nGluePointId )); } } } // get PolygonBezier aAny = xProps->getPropertyValue("PolyPolygonBezier"); auto pSourcePolyPolygon = o3tl::tryAccess(aAny); if(pSourcePolyPolygon && pSourcePolyPolygon->Coordinates.getLength()) { const basegfx::B2DPolyPolygon aPolyPolygon( basegfx::utils::UnoPolyPolygonBezierCoordsToB2DPolyPolygon( *pSourcePolyPolygon)); const OUString aPolygonString( basegfx::utils::exportToSvgD( aPolyPolygon, true, // bUseRelativeCoordinates false, // bDetectQuadraticBeziers: not used in old, but maybe activated now true)); // bHandleRelativeNextPointCompatible // write point array mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_D, aPolygonString); } // get matrix ::basegfx::B2DHomMatrix aMatrix; ImpExportNewTrans_GetB2DHomMatrix(aMatrix, xProps); // decompose and correct about pRefPoint ::basegfx::B2DTuple aTRScale; double fTRShear(0.0); double fTRRotate(0.0); ::basegfx::B2DTuple aTRTranslate; ImpExportNewTrans_DecomposeAndRefPoint(aMatrix, aTRScale, fTRShear, fTRRotate, aTRTranslate, pRefPoint); // fdo#49678: create and export ViewBox awt::Size aSize(FRound(aTRScale.getX()), FRound(aTRScale.getY())); SdXMLImExViewBox aViewBox(0, 0, aSize.Width, aSize.Height); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_VIEWBOX, aViewBox.GetExportString()); // write connector shape. Add Export later. bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_CONNECTOR, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportText( xShape ); } void XMLShapeExport::ImpExportMeasureShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, awt::Point const * pRefPoint /* = NULL */) { uno::Reference< beans::XPropertySet > xProps( xShape, uno::UNO_QUERY ); OUString aStr; OUStringBuffer sStringBuffer; // export start and end point awt::Point aStart(0,0); awt::Point aEnd(1,1); /* Get and , if they exist and if the document is exported into the OpenOffice.org file format. These properties only exist at service css::text::Shape - the Writer UNO service for shapes. This code is needed, because the positioning attributes in the OpenOffice.org file format are given in horizontal left-to-right layout regardless the layout direction the shape is in. In the OASIS Open Office file format the positioning attributes are correctly given in the layout direction the shape is in. Thus, this code provides the conversion from the OASIS Open Office file format to the OpenOffice.org file format. (#i36248#) */ if ( !( GetExport().getExportFlags() & SvXMLExportFlags::OASIS ) && xProps->getPropertySetInfo()->hasPropertyByName("StartPositionInHoriL2R") && xProps->getPropertySetInfo()->hasPropertyByName("EndPositionInHoriL2R") ) { xProps->getPropertyValue("StartPositionInHoriL2R") >>= aStart; xProps->getPropertyValue("EndPositionInHoriL2R") >>= aEnd; } else { xProps->getPropertyValue("StartPosition") >>= aStart; xProps->getPropertyValue("EndPosition") >>= aEnd; } if( pRefPoint ) { aStart.X -= pRefPoint->X; aStart.Y -= pRefPoint->Y; aEnd.X -= pRefPoint->X; aEnd.Y -= pRefPoint->Y; } if( nFeatures & XMLShapeExportFlags::X ) { // svg: x1 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aStart.X); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X1, aStr); } else { aEnd.X -= aStart.X; } if( nFeatures & XMLShapeExportFlags::Y ) { // svg: y1 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aStart.Y); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y1, aStr); } else { aEnd.Y -= aStart.Y; } // svg: x2 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aEnd.X); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_X2, aStr); // svg: y2 mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, aEnd.Y); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y2, aStr); // write measure shape bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_MEASURE, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); uno::Reference< text::XText > xText( xShape, uno::UNO_QUERY ); if( xText.is() ) mrExport.GetTextParagraphExport()->exportText( xText ); } void XMLShapeExport::ImpExportOLE2Shape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, awt::Point* pRefPoint /* = NULL */, comphelper::AttributeList* pAttrList /* = NULL */ ) { uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); uno::Reference< container::XNamed > xNamed(xShape, uno::UNO_QUERY); SAL_WARN_IF( !xPropSet.is() || !xNamed.is(), "xmloff", "ole shape is not implementing needed interfaces"); if(!(xPropSet.is() && xNamed.is())) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); bool bIsEmptyPresObj = false; // presentation settings if(eShapeType == XmlShapeType::PresOLE2Shape) bIsEmptyPresObj = ImpExportPresentationAttributes( xPropSet, GetXMLToken(XML_OBJECT) ); else if(eShapeType == XmlShapeType::PresChartShape) bIsEmptyPresObj = ImpExportPresentationAttributes( xPropSet, GetXMLToken(XML_CHART) ); else if(eShapeType == XmlShapeType::PresSheetShape) bIsEmptyPresObj = ImpExportPresentationAttributes( xPropSet, GetXMLToken(XML_TABLE) ); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# bool bExportEmbedded(mrExport.getExportFlags() & SvXMLExportFlags::EMBEDDED); OUString sPersistName; SvXMLElementExport aElement( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); if (!bIsEmptyPresObj) { if (pAttrList) { mrExport.AddAttributeList(pAttrList); } OUString sClassId; OUString sURL; bool bInternal = false; xPropSet->getPropertyValue("IsInternal") >>= bInternal; { if ( bInternal ) { // OOo internal links have no storage persistence, URL is stored in the XML file // the result LinkURL is empty in case the object is not a link xPropSet->getPropertyValue("LinkURL") >>= sURL; } xPropSet->getPropertyValue("PersistName") >>= sPersistName; if ( sURL.isEmpty() ) { if( !sPersistName.isEmpty() ) { sURL = "vnd.sun.star.EmbeddedObject:" + sPersistName; } } if( !bInternal ) xPropSet->getPropertyValue("CLSID") >>= sClassId; if( !sClassId.isEmpty() ) mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_CLASS_ID, sClassId ); if(!bExportEmbedded) { // xlink:href if( !sURL.isEmpty() ) { // #96717# in theorie, if we don't have a URL we shouldn't even // export this OLE shape. But practically it's too risky right now // to change this so we better dispose this on load sURL = mrExport.AddEmbeddedObject( sURL ); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, sURL ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); } else { // tdf#153179 Export the preview graphic of the object if the object is missing. uno::Reference xGraphic; xPropSet->getPropertyValue("Graphic") >>= xGraphic; if (xGraphic.is()) { OUString aMimeType; const OUString aHref = mrExport.AddEmbeddedXGraphic(xGraphic, aMimeType); if (aMimeType.isEmpty()) mrExport.GetGraphicMimeTypeFromStream(xGraphic, aMimeType); if (!aHref.isEmpty()) { mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, aHref); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD); } if (!aMimeType.isEmpty() && GetExport().getSaneDefaultVersion() > SvtSaveOptions::ODFSVER_012) { // ODF 1.3 OFFICE-3943 mrExport.AddAttribute(SvtSaveOptions::ODFSVER_013 <= GetExport().getSaneDefaultVersion() ? XML_NAMESPACE_DRAW : XML_NAMESPACE_LO_EXT, "mime-type", aMimeType); } SvXMLElementExport aImageElem(mrExport, XML_NAMESPACE_DRAW, XML_IMAGE, true, true); // optional office:binary-data mrExport.AddEmbeddedXGraphicAsBase64(xGraphic); ImpExportEvents(xShape); ImpExportGluePoints(xShape); ImpExportDescription(xShape); return; } } } } enum XMLTokenEnum eElem = sClassId.isEmpty() ? XML_OBJECT : XML_OBJECT_OLE ; SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, eElem, true, true ); // tdf#112547 export text as child of draw:object, where import expects it if (!bIsEmptyPresObj && supportsText(eShapeType)) { // #i118485# Add text export, the draw OLE shape allows text now ImpExportText( xShape, TextPNS::EXTENSION ); } if(bExportEmbedded && !bIsEmptyPresObj) { if(bInternal) { // embedded XML uno::Reference< lang::XComponent > xComp; xPropSet->getPropertyValue("Model") >>= xComp; SAL_WARN_IF( !xComp.is(), "xmloff", "no xModel for own OLE format" ); mrExport.ExportEmbeddedOwnObject( xComp ); } else { // embed as Base64 // this is an alien object ( currently MSOLE is the only supported type of such objects ) // in case it is not an OASIS format the object should be asked to store replacement image if possible OUString sURLRequest( sURL ); if ( !( mrExport.getExportFlags() & SvXMLExportFlags::OASIS ) ) sURLRequest += "?oasis=false"; mrExport.AddEmbeddedObjectAsBase64( sURLRequest ); } } } if( !bIsEmptyPresObj ) { OUString sURL = XML_EMBEDDEDOBJECTGRAPHIC_URL_BASE + sPersistName; if( !bExportEmbedded ) { sURL = GetExport().AddEmbeddedObject( sURL ); mrExport.AddAttribute(XML_NAMESPACE_XLINK, XML_HREF, sURL ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); } SvXMLElementExport aElem( GetExport(), XML_NAMESPACE_DRAW, XML_IMAGE, false, true ); if( bExportEmbedded ) GetExport().AddEmbeddedObjectAsBase64( sURL ); } ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportDescription( xShape ); // #i68101# } void XMLShapeExport::ImpExportPageShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, awt::Point* pRefPoint /* = NULL */) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // #86163# Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); // export page number used for this page uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); static constexpr OUString aPageNumberStr(u"PageNumber"_ustr); if( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName(aPageNumberStr)) { sal_Int32 nPageNumber = 0; xPropSet->getPropertyValue(aPageNumberStr) >>= nPageNumber; if( nPageNumber ) mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_PAGE_NUMBER, OUString::number(nPageNumber)); } // a presentation page shape, normally used on notes pages only. If // it is used not as presentation shape, it may have been created with // copy-paste exchange between draw and impress (this IS possible...) if(eShapeType == XmlShapeType::PresPageShape) { mrExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_CLASS, XML_PAGE); } // write Page shape bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_PAGE_THUMBNAIL, bCreateNewline, true); } void XMLShapeExport::ImpExportCaptionShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures /* = SEF_DEFAULT */, awt::Point* pRefPoint /* = NULL */) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); // evtl. corner radius? sal_Int32 nCornerRadius(0); xPropSet->getPropertyValue("CornerRadius") >>= nCornerRadius; if(nCornerRadius) { OUStringBuffer sStringBuffer; mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nCornerRadius); mrExport.AddAttribute(XML_NAMESPACE_DRAW, XML_CORNER_RADIUS, sStringBuffer.makeStringAndClear()); } awt::Point aCaptionPoint; xPropSet->getPropertyValue("CaptionPoint") >>= aCaptionPoint; mrExport.GetMM100UnitConverter().convertMeasureToXML(msBuffer, aCaptionPoint.X); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_CAPTION_POINT_X, msBuffer.makeStringAndClear() ); mrExport.GetMM100UnitConverter().convertMeasureToXML(msBuffer, aCaptionPoint.Y); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_CAPTION_POINT_Y, msBuffer.makeStringAndClear() ); // write Caption shape. Add export later. bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# bool bAnnotation( (nFeatures & XMLShapeExportFlags::ANNOTATION) == XMLShapeExportFlags::ANNOTATION ); SvXMLElementExport aObj( mrExport, (bAnnotation ? XML_NAMESPACE_OFFICE : XML_NAMESPACE_DRAW), (bAnnotation ? XML_ANNOTATION : XML_CAPTION), bCreateNewline, true ); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); if( bAnnotation ) mrExport.exportAnnotationMeta( xShape ); ImpExportText( xShape ); } void XMLShapeExport::ImpExportFrameShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); // export frame url OUString aStr; xPropSet->getPropertyValue("FrameURL") >>= aStr; mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_HREF, GetExport().GetRelativeReference(aStr) ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); // export name xPropSet->getPropertyValue("FrameName") >>= aStr; if( !aStr.isEmpty() ) mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_FRAME_NAME, aStr ); // write floating frame { SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_FLOATING_FRAME, true, true); } ImpExportDescription(xShape); } void XMLShapeExport::ImpExportAppletShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aElement( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); // export frame url OUString aStr; xPropSet->getPropertyValue("AppletCodeBase") >>= aStr; mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_HREF, GetExport().GetRelativeReference(aStr) ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); // export draw:applet-name xPropSet->getPropertyValue("AppletName") >>= aStr; if( !aStr.isEmpty() ) mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_APPLET_NAME, aStr ); // export draw:code xPropSet->getPropertyValue("AppletCode") >>= aStr; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_CODE, aStr ); // export draw:may-script bool bIsScript = false; xPropSet->getPropertyValue("AppletIsScript") >>= bIsScript; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_MAY_SCRIPT, bIsScript ? XML_TRUE : XML_FALSE ); { // write applet SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_APPLET, true, true); // export parameters uno::Sequence< beans::PropertyValue > aCommands; xPropSet->getPropertyValue("AppletCommands") >>= aCommands; for( const auto& rCommand : std::as_const(aCommands) ) { rCommand.Value >>= aStr; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, rCommand.Name ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_VALUE, aStr ); SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, XML_PARAM, false, true ); } } ImpExportDescription(xShape); } void XMLShapeExport::ImpExportPluginShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aElement( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); // export plugin url OUString aStr; xPropSet->getPropertyValue("PluginURL") >>= aStr; mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_HREF, GetExport().GetRelativeReference(aStr) ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); // export mime-type xPropSet->getPropertyValue("PluginMimeType") >>= aStr; if(!aStr.isEmpty()) mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_MIME_TYPE, aStr ); { // write plugin SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DRAW, XML_PLUGIN, true, true); // export parameters uno::Sequence< beans::PropertyValue > aCommands; xPropSet->getPropertyValue("PluginCommands") >>= aCommands; for( const auto& rCommand : std::as_const(aCommands) ) { rCommand.Value >>= aStr; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, rCommand.Name ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_VALUE, aStr ); SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, XML_PARAM, false, true ); } } ImpExportDescription(xShape); } static void lcl_CopyStream( uno::Reference const& xInStream, uno::Reference const& xTarget, OUString const& rPath, const OUString& rMimeType) { ::comphelper::LifecycleProxy proxy; uno::Reference const xStream( ::comphelper::OStorageHelper::GetStreamAtPackageURL(xTarget, rPath, embed::ElementModes::WRITE | embed::ElementModes::TRUNCATE, proxy)); uno::Reference const xOutStream( (xStream.is()) ? xStream->getOutputStream() : nullptr); if (!xOutStream.is()) { SAL_WARN("xmloff", "no output stream"); throw uno::Exception("no output stream",nullptr); } uno::Reference< beans::XPropertySet > const xStreamProps(xStream, uno::UNO_QUERY); if (xStreamProps.is()) { // this is NOT supported in FileSystemStorage xStreamProps->setPropertyValue("MediaType", uno::Any(rMimeType)); xStreamProps->setPropertyValue( // turn off compression "Compressed", uno::Any(false)); } ::comphelper::OStorageHelper::CopyInputToOutput(xInStream, xOutStream); xOutStream->closeOutput(); proxy.commitStorages(); } static OUString lcl_StoreMediaAndGetURL(SvXMLExport & rExport, uno::Reference const& xPropSet, OUString const& rURL, const OUString& rMimeType) { OUString urlPath; if (rURL.startsWithIgnoreAsciiCase("vnd.sun.star.Package:", &urlPath)) { try // video is embedded { uno::Reference const xTarget( rExport.GetTargetStorage(), uno::UNO_SET_THROW); uno::Reference xInStream; xPropSet->getPropertyValue("PrivateStream") >>= xInStream; if (!xInStream.is()) { SAL_WARN("xmloff", "no input stream"); return OUString(); } lcl_CopyStream(xInStream, xTarget, rURL, rMimeType); return urlPath; } catch (uno::Exception const&) { TOOLS_INFO_EXCEPTION("xmloff", "exception while storing embedded media"); } return OUString(); } else { return rExport.GetRelativeReference(rURL); // linked } } namespace { void ExportGraphicPreview(const uno::Reference& xGraphic, SvXMLExport& rExport, const std::u16string_view& rPrefix, const std::u16string_view& rExtension, const OUString& rMimeType) { const bool bExportEmbedded(rExport.getExportFlags() & SvXMLExportFlags::EMBEDDED); if( xGraphic.is() ) try { uno::Reference< uno::XComponentContext > xContext = rExport.getComponentContext(); uno::Reference< embed::XStorage > xPictureStorage; uno::Reference< embed::XStorage > xStorage; uno::Reference< io::XStream > xPictureStream; OUString sPictureName; if( bExportEmbedded ) { xPictureStream.set( xContext->getServiceManager()->createInstanceWithContext( "com.sun.star.comp.MemoryStream", xContext), uno::UNO_QUERY_THROW ); } else { xStorage.set( rExport.GetTargetStorage(), uno::UNO_SET_THROW ); xPictureStorage.set( xStorage->openStorageElement( "Pictures" , ::embed::ElementModes::READWRITE ), uno::UNO_SET_THROW ); sal_Int32 nIndex = 0; do { sPictureName = rPrefix + OUString::number( ++nIndex ) + rExtension; } while( xPictureStorage->hasByName( sPictureName ) ); xPictureStream.set( xPictureStorage->openStreamElement( sPictureName, ::embed::ElementModes::READWRITE ), uno::UNO_SET_THROW ); } uno::Reference< graphic::XGraphicProvider > xProvider( graphic::GraphicProvider::create(xContext) ); uno::Sequence< beans::PropertyValue > aArgs{ comphelper::makePropertyValue("MimeType", rMimeType ), comphelper::makePropertyValue("OutputStream", xPictureStream->getOutputStream()) }; xProvider->storeGraphic( xGraphic, aArgs ); if( xPictureStorage.is() ) { uno::Reference< embed::XTransactedObject > xTrans( xPictureStorage, uno::UNO_QUERY ); if( xTrans.is() ) xTrans->commit(); } if( !bExportEmbedded ) { OUString sURL = "Pictures/" + sPictureName; rExport.AddAttribute( XML_NAMESPACE_XLINK, XML_HREF, sURL ); rExport.AddAttribute( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); rExport.AddAttribute( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); rExport.AddAttribute( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); } SvXMLElementExport aElem( rExport, XML_NAMESPACE_DRAW, XML_IMAGE, false, true ); if( bExportEmbedded ) { uno::Reference< io::XSeekableInputStream > xSeekable( xPictureStream, uno::UNO_QUERY_THROW ); xSeekable->seek(0); XMLBase64Export aBase64Exp( rExport ); aBase64Exp.exportOfficeBinaryDataElement( uno::Reference < io::XInputStream >( xPictureStream, uno::UNO_QUERY_THROW ) ); } } catch( uno::Exception const & ) { DBG_UNHANDLED_EXCEPTION("xmloff.draw"); } } } void XMLShapeExport::ImpExportMediaShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); if(eShapeType == XmlShapeType::PresMediaShape) { (void)ImpExportPresentationAttributes( xPropSet, GetXMLToken(XML_OBJECT) ); } bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aElem( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); // export media url OUString aMediaURL; xPropSet->getPropertyValue("MediaURL") >>= aMediaURL; OUString sMimeType; xPropSet->getPropertyValue("MediaMimeType") >>= sMimeType; OUString const persistentURL = lcl_StoreMediaAndGetURL(GetExport(), xPropSet, aMediaURL, sMimeType); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_HREF, persistentURL ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_TYPE, XML_SIMPLE ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_SHOW, XML_EMBED ); mrExport.AddAttribute ( XML_NAMESPACE_XLINK, XML_ACTUATE, XML_ONLOAD ); // export mime-type mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_MIME_TYPE, sMimeType ); // write plugin auto pPluginOBJ = std::make_unique(mrExport, XML_NAMESPACE_DRAW, XML_PLUGIN, !( nFeatures & XMLShapeExportFlags::NO_WS ), true); // export parameters static constexpr OUString aFalseStr( u"false"_ustr ); static constexpr OUString aTrueStr( u"true"_ustr ); bool bLoop = false; static constexpr OUString aLoopStr( u"Loop"_ustr ); xPropSet->getPropertyValue( aLoopStr ) >>= bLoop; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, aLoopStr ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_VALUE, bLoop ? aTrueStr : aFalseStr ); delete new SvXMLElementExport( mrExport, XML_NAMESPACE_DRAW, XML_PARAM, false, true ); bool bMute = false; static constexpr OUString aMuteStr( u"Mute"_ustr ); xPropSet->getPropertyValue( aMuteStr ) >>= bMute; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, aMuteStr ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_VALUE, bMute ? aTrueStr : aFalseStr ); delete new SvXMLElementExport( mrExport, XML_NAMESPACE_DRAW, XML_PARAM, false, true ); sal_Int16 nVolumeDB = 0; xPropSet->getPropertyValue("VolumeDB") >>= nVolumeDB; mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, "VolumeDB" ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_VALUE, OUString::number( nVolumeDB ) ); delete new SvXMLElementExport( mrExport, XML_NAMESPACE_DRAW, XML_PARAM, false, true ); media::ZoomLevel eZoom; OUString aZoomValue; xPropSet->getPropertyValue("Zoom") >>= eZoom; switch( eZoom ) { case media::ZoomLevel_ZOOM_1_TO_4 : aZoomValue = "25%"; break; case media::ZoomLevel_ZOOM_1_TO_2 : aZoomValue = "50%"; break; case media::ZoomLevel_ORIGINAL : aZoomValue = "100%"; break; case media::ZoomLevel_ZOOM_2_TO_1 : aZoomValue = "200%"; break; case media::ZoomLevel_ZOOM_4_TO_1 : aZoomValue = "400%"; break; case media::ZoomLevel_FIT_TO_WINDOW: aZoomValue = "fit"; break; case media::ZoomLevel_FIT_TO_WINDOW_FIXED_ASPECT: aZoomValue = "fixedfit"; break; case media::ZoomLevel_FULLSCREEN : aZoomValue = "fullscreen"; break; default: break; } if( !aZoomValue.isEmpty() ) { mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, "Zoom" ); mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_VALUE, aZoomValue ); delete new SvXMLElementExport( mrExport, XML_NAMESPACE_DRAW, XML_PARAM, false, true ); } pPluginOBJ.reset(); uno::Reference xGraphic; xPropSet->getPropertyValue("Graphic") >>= xGraphic; Graphic aGraphic(xGraphic); if (!aGraphic.IsNone()) { // The media has a preview, export it. ExportGraphicPreview(xGraphic, mrExport, u"MediaPreview", u".png", "image/png"); } ImpExportDescription(xShape); } void XMLShapeExport::ImpExport3DSceneShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, awt::Point* pRefPoint) { uno::Reference< drawing::XShapes > xShapes(xShape, uno::UNO_QUERY); if(!(xShapes.is() && xShapes->getCount())) return; uno::Reference< beans::XPropertySet > xPropSet( xShape, uno::UNO_QUERY ); SAL_WARN_IF( !xPropSet.is(), "xmloff", "XMLShapeExport::ImpExport3DSceneShape can't export a scene without a propertyset" ); if( !xPropSet.is() ) return; // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); // 3d attributes export3DSceneAttributes( xPropSet ); // write 3DScene shape bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ( mrExport, XML_NAMESPACE_DR3D, XML_SCENE, bCreateNewline, true); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); // write 3DSceneLights export3DLamps( xPropSet ); // #89764# if export of position is suppressed for group shape, // positions of contained objects should be written relative to // the upper left edge of the group. awt::Point aUpperLeft; if(!(nFeatures & XMLShapeExportFlags::POSITION)) { nFeatures |= XMLShapeExportFlags::POSITION; aUpperLeft = xShape->getPosition(); pRefPoint = &aUpperLeft; } // write members exportShapes( xShapes, nFeatures, pRefPoint ); } void XMLShapeExport::ImpExport3DShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if(!xPropSet.is()) return; OUString aStr; OUStringBuffer sStringBuffer; // transformation (UNO_NAME_3D_TRANSFORM_MATRIX == "D3DTransformMatrix") uno::Any aAny = xPropSet->getPropertyValue("D3DTransformMatrix"); drawing::HomogenMatrix aHomMat; aAny >>= aHomMat; SdXMLImExTransform3D aTransform; aTransform.AddHomogenMatrix(aHomMat); if(aTransform.NeedsAction()) mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_TRANSFORM, aTransform.GetExportString(mrExport.GetMM100UnitConverter())); switch(eShapeType) { case XmlShapeType::Draw3DCubeObject: { // minEdge aAny = xPropSet->getPropertyValue("D3DPosition"); drawing::Position3D aPosition3D; aAny >>= aPosition3D; ::basegfx::B3DVector aPos3D(aPosition3D.PositionX, aPosition3D.PositionY, aPosition3D.PositionZ); // maxEdge aAny = xPropSet->getPropertyValue("D3DSize"); drawing::Direction3D aDirection3D; aAny >>= aDirection3D; ::basegfx::B3DVector aDir3D(aDirection3D.DirectionX, aDirection3D.DirectionY, aDirection3D.DirectionZ); // transform maxEdge from distance to pos aDir3D = aPos3D + aDir3D; // write minEdge if(aPos3D != ::basegfx::B3DVector(-2500.0, -2500.0, -2500.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aPos3D); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_MIN_EDGE, aStr); } // write maxEdge if(aDir3D != ::basegfx::B3DVector(2500.0, 2500.0, 2500.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aDir3D); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_MAX_EDGE, aStr); } // write 3DCube shape // #i123542# Do this *after* the attributes are added, else these will be lost since opening // the scope will clear the global attribute list at the exporter SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DR3D, XML_CUBE, true, true); break; } case XmlShapeType::Draw3DSphereObject: { // Center aAny = xPropSet->getPropertyValue("D3DPosition"); drawing::Position3D aPosition3D; aAny >>= aPosition3D; ::basegfx::B3DVector aPos3D(aPosition3D.PositionX, aPosition3D.PositionY, aPosition3D.PositionZ); // Size aAny = xPropSet->getPropertyValue("D3DSize"); drawing::Direction3D aDirection3D; aAny >>= aDirection3D; ::basegfx::B3DVector aDir3D(aDirection3D.DirectionX, aDirection3D.DirectionY, aDirection3D.DirectionZ); // write Center if(aPos3D != ::basegfx::B3DVector(0.0, 0.0, 0.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aPos3D); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_CENTER, aStr); } // write Size if(aDir3D != ::basegfx::B3DVector(5000.0, 5000.0, 5000.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aDir3D); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_SIZE, aStr); } // write 3DSphere shape // #i123542# Do this *after* the attributes are added, else these will be lost since opening // the scope will clear the global attribute list at the exporter SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DR3D, XML_SPHERE, true, true); break; } case XmlShapeType::Draw3DLatheObject: case XmlShapeType::Draw3DExtrudeObject: { // write special 3DLathe/3DExtrude attributes, get 3D tools::PolyPolygon as drawing::PolyPolygonShape3D aAny = xPropSet->getPropertyValue("D3DPolyPolygon3D"); drawing::PolyPolygonShape3D aUnoPolyPolygon3D; aAny >>= aUnoPolyPolygon3D; // convert to 3D PolyPolygon const basegfx::B3DPolyPolygon aPolyPolygon3D( basegfx::utils::UnoPolyPolygonShape3DToB3DPolyPolygon( aUnoPolyPolygon3D)); // convert to 2D tools::PolyPolygon using identity 3D transformation (just grep X and Y) const basegfx::B3DHomMatrix aB3DHomMatrixFor2DConversion; const basegfx::B2DPolyPolygon aPolyPolygon( basegfx::utils::createB2DPolyPolygonFromB3DPolyPolygon( aPolyPolygon3D, aB3DHomMatrixFor2DConversion)); // get 2D range of it const basegfx::B2DRange aPolyPolygonRange(aPolyPolygon.getB2DRange()); // export ViewBox SdXMLImExViewBox aViewBox( aPolyPolygonRange.getMinX(), aPolyPolygonRange.getMinY(), aPolyPolygonRange.getWidth(), aPolyPolygonRange.getHeight()); mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_VIEWBOX, aViewBox.GetExportString()); // prepare svg:d string const OUString aPolygonString( basegfx::utils::exportToSvgD( aPolyPolygon, true, // bUseRelativeCoordinates false, // bDetectQuadraticBeziers TTTT: not used in old, but maybe activated now true)); // bHandleRelativeNextPointCompatible // write point array mrExport.AddAttribute(XML_NAMESPACE_SVG, XML_D, aPolygonString); if(eShapeType == XmlShapeType::Draw3DLatheObject) { // write 3DLathe shape SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DR3D, XML_ROTATE, true, true); } else { // write 3DExtrude shape SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DR3D, XML_EXTRUDE, true, true); } break; } default: break; } } /** helper for chart that adds all attributes of a 3d scene element to the export */ void XMLShapeExport::export3DSceneAttributes( const css::uno::Reference< css::beans::XPropertySet >& xPropSet ) { OUString aStr; OUStringBuffer sStringBuffer; // world transformation (UNO_NAME_3D_TRANSFORM_MATRIX == "D3DTransformMatrix") uno::Any aAny = xPropSet->getPropertyValue("D3DTransformMatrix"); drawing::HomogenMatrix aHomMat; aAny >>= aHomMat; SdXMLImExTransform3D aTransform; aTransform.AddHomogenMatrix(aHomMat); if(aTransform.NeedsAction()) mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_TRANSFORM, aTransform.GetExportString(mrExport.GetMM100UnitConverter())); // VRP, VPN, VUP aAny = xPropSet->getPropertyValue("D3DCameraGeometry"); drawing::CameraGeometry aCamGeo; aAny >>= aCamGeo; ::basegfx::B3DVector aVRP(aCamGeo.vrp.PositionX, aCamGeo.vrp.PositionY, aCamGeo.vrp.PositionZ); if(aVRP != ::basegfx::B3DVector(0.0, 0.0, 1.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aVRP); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_VRP, aStr); } ::basegfx::B3DVector aVPN(aCamGeo.vpn.DirectionX, aCamGeo.vpn.DirectionY, aCamGeo.vpn.DirectionZ); if(aVPN != ::basegfx::B3DVector(0.0, 0.0, 1.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aVPN); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_VPN, aStr); } ::basegfx::B3DVector aVUP(aCamGeo.vup.DirectionX, aCamGeo.vup.DirectionY, aCamGeo.vup.DirectionZ); if(aVUP != ::basegfx::B3DVector(0.0, 1.0, 0.0)) // write only when not default { SvXMLUnitConverter::convertB3DVector(sStringBuffer, aVUP); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_VUP, aStr); } // projection "D3DScenePerspective" drawing::ProjectionMode aAny = xPropSet->getPropertyValue("D3DScenePerspective"); drawing::ProjectionMode aPrjMode; aAny >>= aPrjMode; if(aPrjMode == drawing::ProjectionMode_PARALLEL) aStr = GetXMLToken(XML_PARALLEL); else aStr = GetXMLToken(XML_PERSPECTIVE); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_PROJECTION, aStr); // distance aAny = xPropSet->getPropertyValue("D3DSceneDistance"); sal_Int32 nDistance = 0; aAny >>= nDistance; mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nDistance); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_DISTANCE, aStr); // focalLength aAny = xPropSet->getPropertyValue("D3DSceneFocalLength"); sal_Int32 nFocalLength = 0; aAny >>= nFocalLength; mrExport.GetMM100UnitConverter().convertMeasureToXML(sStringBuffer, nFocalLength); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_FOCAL_LENGTH, aStr); // shadowSlant aAny = xPropSet->getPropertyValue("D3DSceneShadowSlant"); sal_Int16 nShadowSlant = 0; aAny >>= nShadowSlant; mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_SHADOW_SLANT, OUString::number(static_cast(nShadowSlant))); // shadeMode aAny = xPropSet->getPropertyValue("D3DSceneShadeMode"); drawing::ShadeMode aShadeMode; if(aAny >>= aShadeMode) { if(aShadeMode == drawing::ShadeMode_FLAT) aStr = GetXMLToken(XML_FLAT); else if(aShadeMode == drawing::ShadeMode_PHONG) aStr = GetXMLToken(XML_PHONG); else if(aShadeMode == drawing::ShadeMode_SMOOTH) aStr = GetXMLToken(XML_GOURAUD); else aStr = GetXMLToken(XML_DRAFT); } else { // ShadeMode enum not there, write default aStr = GetXMLToken(XML_GOURAUD); } mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_SHADE_MODE, aStr); // ambientColor aAny = xPropSet->getPropertyValue("D3DSceneAmbientColor"); sal_Int32 nAmbientColor = 0; aAny >>= nAmbientColor; ::sax::Converter::convertColor(sStringBuffer, nAmbientColor); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_AMBIENT_COLOR, aStr); // lightingMode aAny = xPropSet->getPropertyValue("D3DSceneTwoSidedLighting"); bool bTwoSidedLighting = false; aAny >>= bTwoSidedLighting; ::sax::Converter::convertBool(sStringBuffer, bTwoSidedLighting); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_LIGHTING_MODE, aStr); } /** helper for chart that exports all lamps from the propertyset */ void XMLShapeExport::export3DLamps( const css::uno::Reference< css::beans::XPropertySet >& xPropSet ) { // write lamps 1..8 as content OUString aStr; OUStringBuffer sStringBuffer; static constexpr OUStringLiteral aColorPropName(u"D3DSceneLightColor"); static constexpr OUStringLiteral aDirectionPropName(u"D3DSceneLightDirection"); static constexpr OUStringLiteral aLightOnPropName(u"D3DSceneLightOn"); ::basegfx::B3DVector aLightDirection; drawing::Direction3D aLightDir; bool bLightOnOff = false; for(sal_Int32 nLamp = 1; nLamp <= 8; nLamp++) { OUString aIndexStr = OUString::number( nLamp ); // lightcolor OUString aPropName = aColorPropName + aIndexStr; sal_Int32 nLightColor = 0; xPropSet->getPropertyValue( aPropName ) >>= nLightColor; ::sax::Converter::convertColor(sStringBuffer, nLightColor); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_DIFFUSE_COLOR, aStr); // lightdirection aPropName = aDirectionPropName + aIndexStr; xPropSet->getPropertyValue(aPropName) >>= aLightDir; aLightDirection = ::basegfx::B3DVector(aLightDir.DirectionX, aLightDir.DirectionY, aLightDir.DirectionZ); SvXMLUnitConverter::convertB3DVector(sStringBuffer, aLightDirection); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_DIRECTION, aStr); // lighton aPropName = aLightOnPropName + aIndexStr; xPropSet->getPropertyValue(aPropName) >>= bLightOnOff; ::sax::Converter::convertBool(sStringBuffer, bLightOnOff); aStr = sStringBuffer.makeStringAndClear(); mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_ENABLED, aStr); // specular mrExport.AddAttribute(XML_NAMESPACE_DR3D, XML_SPECULAR, nLamp == 1 ? XML_TRUE : XML_FALSE); // write light entry SvXMLElementExport aOBJ(mrExport, XML_NAMESPACE_DR3D, XML_LIGHT, true, true); } } // using namespace css::io; // using namespace ::xmloff::EnhancedCustomShapeToken; static void ExportParameter( OUStringBuffer& rStrBuffer, const css::drawing::EnhancedCustomShapeParameter& rParameter ) { if ( !rStrBuffer.isEmpty() ) rStrBuffer.append( ' ' ); if ( rParameter.Value.getValueTypeClass() == uno::TypeClass_DOUBLE ) { double fNumber = 0.0; rParameter.Value >>= fNumber; ::rtl::math::doubleToUStringBuffer( rStrBuffer, fNumber, rtl_math_StringFormat_Automatic, rtl_math_DecimalPlaces_Max, '.', true ); } else { sal_Int32 nValue = 0; rParameter.Value >>= nValue; switch( rParameter.Type ) { case css::drawing::EnhancedCustomShapeParameterType::EQUATION : { rStrBuffer.append( "?f" + OUString::number( nValue ) ); } break; case css::drawing::EnhancedCustomShapeParameterType::ADJUSTMENT : { rStrBuffer.append( '$' ); rStrBuffer.append( nValue ); } break; case css::drawing::EnhancedCustomShapeParameterType::BOTTOM : rStrBuffer.append( GetXMLToken( XML_BOTTOM ) ); break; case css::drawing::EnhancedCustomShapeParameterType::RIGHT : rStrBuffer.append( GetXMLToken( XML_RIGHT ) ); break; case css::drawing::EnhancedCustomShapeParameterType::TOP : rStrBuffer.append( GetXMLToken( XML_TOP ) ); break; case css::drawing::EnhancedCustomShapeParameterType::LEFT : rStrBuffer.append( GetXMLToken( XML_LEFT ) ); break; case css::drawing::EnhancedCustomShapeParameterType::XSTRETCH : rStrBuffer.append( GetXMLToken( XML_XSTRETCH ) ); break; case css::drawing::EnhancedCustomShapeParameterType::YSTRETCH : rStrBuffer.append( GetXMLToken( XML_YSTRETCH ) ); break; case css::drawing::EnhancedCustomShapeParameterType::HASSTROKE : rStrBuffer.append( GetXMLToken( XML_HASSTROKE ) ); break; case css::drawing::EnhancedCustomShapeParameterType::HASFILL : rStrBuffer.append( GetXMLToken( XML_HASFILL ) ); break; case css::drawing::EnhancedCustomShapeParameterType::WIDTH : rStrBuffer.append( GetXMLToken( XML_WIDTH ) ); break; case css::drawing::EnhancedCustomShapeParameterType::HEIGHT : rStrBuffer.append( GetXMLToken( XML_HEIGHT ) ); break; case css::drawing::EnhancedCustomShapeParameterType::LOGWIDTH : rStrBuffer.append( GetXMLToken( XML_LOGWIDTH ) ); break; case css::drawing::EnhancedCustomShapeParameterType::LOGHEIGHT : rStrBuffer.append( GetXMLToken( XML_LOGHEIGHT ) ); break; default : rStrBuffer.append( nValue ); } } } static void ImpExportEquations( SvXMLExport& rExport, const uno::Sequence< OUString >& rEquations ) { sal_Int32 i; for ( i = 0; i < rEquations.getLength(); i++ ) { OUString aStr= "f" + OUString::number( i ); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_NAME, aStr ); aStr = rEquations[ i ]; sal_Int32 nIndex = 0; do { nIndex = aStr.indexOf( '?', nIndex ); if ( nIndex != -1 ) { aStr = OUString::Concat(aStr.subView(0, nIndex + 1)) + "f" + aStr.subView(nIndex + 1, aStr.getLength() - nIndex - 1); nIndex++; } } while( nIndex != -1 ); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_FORMULA, aStr ); SvXMLElementExport aOBJ( rExport, XML_NAMESPACE_DRAW, XML_EQUATION, true, true ); } } static void ImpExportHandles( SvXMLExport& rExport, const uno::Sequence< beans::PropertyValues >& rHandles ) { if ( !rHandles.hasElements() ) return; OUString aStr; OUStringBuffer aStrBuffer; for ( const uno::Sequence< beans::PropertyValue >& rPropSeq : rHandles ) { bool bPosition = false; for ( const beans::PropertyValue& rPropVal : rPropSeq ) { switch( EASGet( rPropVal.Name ) ) { case EAS_Position : { css::drawing::EnhancedCustomShapeParameterPair aPosition; if ( rPropVal.Value >>= aPosition ) { ExportParameter( aStrBuffer, aPosition.First ); ExportParameter( aStrBuffer, aPosition.Second ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_POSITION, aStr ); bPosition = true; } } break; case EAS_MirroredX : { bool bMirroredX; if ( rPropVal.Value >>= bMirroredX ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_MIRROR_HORIZONTAL, bMirroredX ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_MirroredY : { bool bMirroredY; if ( rPropVal.Value >>= bMirroredY ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_MIRROR_VERTICAL, bMirroredY ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_Switched : { bool bSwitched; if ( rPropVal.Value >>= bSwitched ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_SWITCHED, bSwitched ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_Polar : { css::drawing::EnhancedCustomShapeParameterPair aPolar; if ( rPropVal.Value >>= aPolar ) { ExportParameter( aStrBuffer, aPolar.First ); ExportParameter( aStrBuffer, aPolar.Second ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_POLAR, aStr ); } } break; case EAS_RadiusRangeMinimum : { css::drawing::EnhancedCustomShapeParameter aRadiusRangeMinimum; if ( rPropVal.Value >>= aRadiusRangeMinimum ) { ExportParameter( aStrBuffer, aRadiusRangeMinimum ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_RADIUS_RANGE_MINIMUM, aStr ); } } break; case EAS_RadiusRangeMaximum : { css::drawing::EnhancedCustomShapeParameter aRadiusRangeMaximum; if ( rPropVal.Value >>= aRadiusRangeMaximum ) { ExportParameter( aStrBuffer, aRadiusRangeMaximum ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_RADIUS_RANGE_MAXIMUM, aStr ); } } break; case EAS_RangeXMinimum : { css::drawing::EnhancedCustomShapeParameter aXRangeMinimum; if ( rPropVal.Value >>= aXRangeMinimum ) { ExportParameter( aStrBuffer, aXRangeMinimum ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_RANGE_X_MINIMUM, aStr ); } } break; case EAS_RangeXMaximum : { css::drawing::EnhancedCustomShapeParameter aXRangeMaximum; if ( rPropVal.Value >>= aXRangeMaximum ) { ExportParameter( aStrBuffer, aXRangeMaximum ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_RANGE_X_MAXIMUM, aStr ); } } break; case EAS_RangeYMinimum : { css::drawing::EnhancedCustomShapeParameter aYRangeMinimum; if ( rPropVal.Value >>= aYRangeMinimum ) { ExportParameter( aStrBuffer, aYRangeMinimum ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_RANGE_Y_MINIMUM, aStr ); } } break; case EAS_RangeYMaximum : { css::drawing::EnhancedCustomShapeParameter aYRangeMaximum; if ( rPropVal.Value >>= aYRangeMaximum ) { ExportParameter( aStrBuffer, aYRangeMaximum ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_HANDLE_RANGE_Y_MAXIMUM, aStr ); } } break; default: break; } } if ( bPosition ) SvXMLElementExport aOBJ( rExport, XML_NAMESPACE_DRAW, XML_HANDLE, true, true ); else rExport.ClearAttrList(); } } static void ImpExportEnhancedPath( SvXMLExport& rExport, const uno::Sequence< css::drawing::EnhancedCustomShapeParameterPair >& rCoordinates, const uno::Sequence< css::drawing::EnhancedCustomShapeSegment >& rSegments, bool bExtended = false ) { OUString aStr; OUStringBuffer aStrBuffer; bool bNeedExtended = false; sal_Int32 i, j, k, l; sal_Int32 nCoords = rCoordinates.getLength(); sal_Int32 nSegments = rSegments.getLength(); bool bSimpleSegments = nSegments == 0; if ( bSimpleSegments ) nSegments = 4; for ( j = i = 0; j < nSegments; j++ ) { css::drawing::EnhancedCustomShapeSegment aSegment; if ( bSimpleSegments ) { // if there are not enough segments we will default them switch( j ) { case 0 : { aSegment.Count = 1; aSegment.Command = css::drawing::EnhancedCustomShapeSegmentCommand::MOVETO; } break; case 1 : { aSegment.Count = static_cast(std::min( nCoords - 1, sal_Int32(32767) )); aSegment.Command = css::drawing::EnhancedCustomShapeSegmentCommand::LINETO; } break; case 2 : { aSegment.Count = 1; aSegment.Command = css::drawing::EnhancedCustomShapeSegmentCommand::CLOSESUBPATH; } break; case 3 : { aSegment.Count = 1; aSegment.Command = css::drawing::EnhancedCustomShapeSegmentCommand::ENDSUBPATH; } break; } } else aSegment = rSegments[ j ]; if ( !aStrBuffer.isEmpty() ) aStrBuffer.append( ' ' ); sal_Int32 nParameter = 0; switch( aSegment.Command ) { case css::drawing::EnhancedCustomShapeSegmentCommand::CLOSESUBPATH : aStrBuffer.append( 'Z' ); break; case css::drawing::EnhancedCustomShapeSegmentCommand::ENDSUBPATH : aStrBuffer.append( 'N' ); break; case css::drawing::EnhancedCustomShapeSegmentCommand::NOFILL : aStrBuffer.append( 'F' ); break; case css::drawing::EnhancedCustomShapeSegmentCommand::NOSTROKE : aStrBuffer.append( 'S' ); break; case css::drawing::EnhancedCustomShapeSegmentCommand::MOVETO : aStrBuffer.append( 'M' ); nParameter = 1; break; case css::drawing::EnhancedCustomShapeSegmentCommand::LINETO : aStrBuffer.append( 'L' ); nParameter = 1; break; case css::drawing::EnhancedCustomShapeSegmentCommand::CURVETO : aStrBuffer.append( 'C' ); nParameter = 3; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ANGLEELLIPSETO : aStrBuffer.append( 'T' ); nParameter = 3; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ANGLEELLIPSE : aStrBuffer.append( 'U' ); nParameter = 3; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ARCTO : aStrBuffer.append( 'A' ); nParameter = 4; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ARC : aStrBuffer.append( 'B' ); nParameter = 4; break; case css::drawing::EnhancedCustomShapeSegmentCommand::CLOCKWISEARCTO : aStrBuffer.append( 'W' ); nParameter = 4; break; case css::drawing::EnhancedCustomShapeSegmentCommand::CLOCKWISEARC : aStrBuffer.append( 'V' ); nParameter = 4; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ELLIPTICALQUADRANTX : aStrBuffer.append( 'X' ); nParameter = 1; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ELLIPTICALQUADRANTY : aStrBuffer.append( 'Y' ); nParameter = 1; break; case css::drawing::EnhancedCustomShapeSegmentCommand::QUADRATICCURVETO : aStrBuffer.append( 'Q' ); nParameter = 2; break; case css::drawing::EnhancedCustomShapeSegmentCommand::ARCANGLETO : if ( bExtended ) { aStrBuffer.append( 'G' ); nParameter = 2; } else { aStrBuffer.setLength( aStrBuffer.getLength() - 1); bNeedExtended = true; i += 2; } break; case css::drawing::EnhancedCustomShapeSegmentCommand::DARKEN : if ( bExtended ) aStrBuffer.append( 'H' ); else bNeedExtended = true; break; case css::drawing::EnhancedCustomShapeSegmentCommand::DARKENLESS : if ( bExtended ) aStrBuffer.append( 'I' ); else bNeedExtended = true; break; case css::drawing::EnhancedCustomShapeSegmentCommand::LIGHTEN : if ( bExtended ) aStrBuffer.append( 'J' ); else bNeedExtended = true; break; case css::drawing::EnhancedCustomShapeSegmentCommand::LIGHTENLESS : if ( bExtended ) aStrBuffer.append( 'K' ); else bNeedExtended = true; break; default : // ups, seems to be something wrong { aSegment.Count = 1; aSegment.Command = css::drawing::EnhancedCustomShapeSegmentCommand::LINETO; } break; } if ( nParameter ) { for ( k = 0; k < aSegment.Count; k++ ) { if ( ( i + nParameter ) <= nCoords ) { for ( l = 0; l < nParameter; l++ ) { ExportParameter( aStrBuffer, rCoordinates[ i ].First ); ExportParameter( aStrBuffer, rCoordinates[ i++ ].Second ); } } else { j = nSegments; // error -> exiting break; } } } } aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( bExtended ? XML_NAMESPACE_DRAW_EXT : XML_NAMESPACE_DRAW, XML_ENHANCED_PATH, aStr ); if (!bExtended && bNeedExtended && (rExport.getSaneDefaultVersion() & SvtSaveOptions::ODFSVER_EXTENDED)) ImpExportEnhancedPath( rExport, rCoordinates, rSegments, true ); } static void ImpExportEnhancedGeometry( SvXMLExport& rExport, const uno::Reference< beans::XPropertySet >& xPropSet ) { bool bEquations = false; uno::Sequence< OUString > aEquations; bool bHandles = false; uno::Sequence< beans::PropertyValues > aHandles; uno::Sequence< css::drawing::EnhancedCustomShapeSegment > aSegments; uno::Sequence< css::drawing::EnhancedCustomShapeParameterPair > aCoordinates; uno::Sequence< css::drawing::EnhancedCustomShapeAdjustmentValue > aAdjustmentValues; OUString aStr; OUStringBuffer aStrBuffer; double fTextRotateAngle(0.0); double fTextPreRotateAngle(0.0); // will be consolidated with fTextRotateAngle at the end SvXMLUnitConverter& rUnitConverter = rExport.GetMM100UnitConverter(); uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); // geometry static constexpr OUString sCustomShapeGeometry( u"CustomShapeGeometry"_ustr ); if ( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName( sCustomShapeGeometry ) ) { uno::Any aGeoPropSet( xPropSet->getPropertyValue( sCustomShapeGeometry ) ); uno::Sequence< beans::PropertyValue > aGeoPropSeq; if ( aGeoPropSet >>= aGeoPropSeq ) { bool bCoordinates = false; OUString aCustomShapeType( "non-primitive" ); for ( const beans::PropertyValue& rGeoProp : std::as_const(aGeoPropSeq) ) { switch( EASGet( rGeoProp.Name ) ) { case EAS_Type : { rGeoProp.Value >>= aCustomShapeType; } break; case EAS_MirroredX : { bool bMirroredX; if ( rGeoProp.Value >>= bMirroredX ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_MIRROR_HORIZONTAL, bMirroredX ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_MirroredY : { bool bMirroredY; if ( rGeoProp.Value >>= bMirroredY ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_MIRROR_VERTICAL, bMirroredY ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_ViewBox : { awt::Rectangle aRect; if ( rGeoProp.Value >>= aRect ) { SdXMLImExViewBox aViewBox( aRect.X, aRect.Y, aRect.Width, aRect.Height ); rExport.AddAttribute( XML_NAMESPACE_SVG, XML_VIEWBOX, aViewBox.GetExportString() ); } } break; case EAS_TextPreRotateAngle : { rGeoProp.Value >>= fTextPreRotateAngle; } break; case EAS_TextRotateAngle : { rGeoProp.Value >>= fTextRotateAngle; } break; case EAS_Extrusion : { uno::Sequence< beans::PropertyValue > aExtrusionPropSeq; if ( rGeoProp.Value >>= aExtrusionPropSeq ) { bool bSkewValuesProvided = false; for ( const beans::PropertyValue& rProp : std::as_const(aExtrusionPropSeq) ) { switch( EASGet( rProp.Name ) ) { case EAS_Extrusion : { bool bExtrusionOn; if ( rProp.Value >>= bExtrusionOn ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION, bExtrusionOn ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_Brightness : { double fExtrusionBrightness = 0; if ( rProp.Value >>= fExtrusionBrightness ) { ::sax::Converter::convertDouble( aStrBuffer, fExtrusionBrightness, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_BRIGHTNESS, aStr ); } } break; case EAS_Depth : { css::drawing::EnhancedCustomShapeParameterPair aDepthParaPair; if ( rProp.Value >>= aDepthParaPair ) { double fDepth = 0; if ( aDepthParaPair.First.Value >>= fDepth ) { rExport.GetMM100UnitConverter().convertDouble( aStrBuffer, fDepth ); ExportParameter( aStrBuffer, aDepthParaPair.Second ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_DEPTH, aStr ); } } } break; case EAS_Diffusion : { double fExtrusionDiffusion = 0; if ( rProp.Value >>= fExtrusionDiffusion ) { ::sax::Converter::convertDouble( aStrBuffer, fExtrusionDiffusion, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_DIFFUSION, aStr ); } } break; case EAS_NumberOfLineSegments : { sal_Int32 nExtrusionNumberOfLineSegments = 0; if ( rProp.Value >>= nExtrusionNumberOfLineSegments ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_NUMBER_OF_LINE_SEGMENTS, OUString::number( nExtrusionNumberOfLineSegments ) ); } break; case EAS_LightFace : { bool bExtrusionLightFace; if ( rProp.Value >>= bExtrusionLightFace ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_LIGHT_FACE, bExtrusionLightFace ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_FirstLightHarsh : { bool bExtrusionFirstLightHarsh; if ( rProp.Value >>= bExtrusionFirstLightHarsh ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_FIRST_LIGHT_HARSH, bExtrusionFirstLightHarsh ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_SecondLightHarsh : { bool bExtrusionSecondLightHarsh; if ( rProp.Value >>= bExtrusionSecondLightHarsh ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SECOND_LIGHT_HARSH, bExtrusionSecondLightHarsh ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_FirstLightLevel : { double fExtrusionFirstLightLevel = 0; if ( rProp.Value >>= fExtrusionFirstLightLevel ) { ::sax::Converter::convertDouble( aStrBuffer, fExtrusionFirstLightLevel, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_FIRST_LIGHT_LEVEL, aStr ); } } break; case EAS_SecondLightLevel : { double fExtrusionSecondLightLevel = 0; if ( rProp.Value >>= fExtrusionSecondLightLevel ) { ::sax::Converter::convertDouble( aStrBuffer, fExtrusionSecondLightLevel, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SECOND_LIGHT_LEVEL, aStr ); } } break; case EAS_FirstLightDirection : { drawing::Direction3D aExtrusionFirstLightDirection; if ( rProp.Value >>= aExtrusionFirstLightDirection ) { ::basegfx::B3DVector aVec3D( aExtrusionFirstLightDirection.DirectionX, aExtrusionFirstLightDirection.DirectionY, aExtrusionFirstLightDirection.DirectionZ ); SvXMLUnitConverter::convertB3DVector( aStrBuffer, aVec3D ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_FIRST_LIGHT_DIRECTION, aStr ); } } break; case EAS_SecondLightDirection : { drawing::Direction3D aExtrusionSecondLightDirection; if ( rProp.Value >>= aExtrusionSecondLightDirection ) { ::basegfx::B3DVector aVec3D( aExtrusionSecondLightDirection.DirectionX, aExtrusionSecondLightDirection.DirectionY, aExtrusionSecondLightDirection.DirectionZ ); SvXMLUnitConverter::convertB3DVector( aStrBuffer, aVec3D ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SECOND_LIGHT_DIRECTION, aStr ); } } break; case EAS_Metal : { bool bExtrusionMetal; if ( rProp.Value >>= bExtrusionMetal ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_METAL, bExtrusionMetal ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_MetalType : { // export only if ODF extensions are enabled sal_Int16 eMetalType; if (rProp.Value >>= eMetalType) { SvtSaveOptions::ODFSaneDefaultVersion eVersion = rExport.getSaneDefaultVersion(); if (eVersion > SvtSaveOptions::ODFSVER_013 && (eVersion & SvtSaveOptions::ODFSVER_EXTENDED)) { if (eMetalType == drawing::EnhancedCustomShapeMetalType::MetalMSCompatible) aStr = "loext:MetalMSCompatible"; else aStr = "draw:MetalODF"; rExport.AddAttribute(XML_NAMESPACE_LO_EXT, XML_EXTRUSION_METAL_TYPE, aStr); } } } break; case EAS_ShadeMode : { // shadeMode drawing::ShadeMode eShadeMode; if( rProp.Value >>= eShadeMode ) { if( eShadeMode == drawing::ShadeMode_FLAT ) aStr = GetXMLToken( XML_FLAT ); else if( eShadeMode == drawing::ShadeMode_PHONG ) aStr = GetXMLToken( XML_PHONG ); else if( eShadeMode == drawing::ShadeMode_SMOOTH ) aStr = GetXMLToken( XML_GOURAUD ); else aStr = GetXMLToken( XML_DRAFT ); } else { // ShadeMode enum not there, write default aStr = GetXMLToken( XML_FLAT); } rExport.AddAttribute( XML_NAMESPACE_DR3D, XML_SHADE_MODE, aStr ); } break; case EAS_RotateAngle : { css::drawing::EnhancedCustomShapeParameterPair aRotateAngleParaPair; if ( rProp.Value >>= aRotateAngleParaPair ) { ExportParameter( aStrBuffer, aRotateAngleParaPair.First ); ExportParameter( aStrBuffer, aRotateAngleParaPair.Second ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_ROTATION_ANGLE, aStr ); } } break; case EAS_RotationCenter : { drawing::Direction3D aExtrusionRotationCenter; if ( rProp.Value >>= aExtrusionRotationCenter ) { ::basegfx::B3DVector aVec3D( aExtrusionRotationCenter.DirectionX, aExtrusionRotationCenter.DirectionY, aExtrusionRotationCenter.DirectionZ ); SvXMLUnitConverter::convertB3DVector( aStrBuffer, aVec3D ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_ROTATION_CENTER, aStr ); } } break; case EAS_Shininess : { double fExtrusionShininess = 0; if ( rProp.Value >>= fExtrusionShininess ) { ::sax::Converter::convertDouble( aStrBuffer, fExtrusionShininess, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SHININESS, aStr ); } } break; case EAS_Skew : { css::drawing::EnhancedCustomShapeParameterPair aSkewParaPair; if ( rProp.Value >>= aSkewParaPair ) { bSkewValuesProvided = true; ExportParameter( aStrBuffer, aSkewParaPair.First ); ExportParameter( aStrBuffer, aSkewParaPair.Second ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SKEW, aStr ); } } break; case EAS_Specularity : { double fExtrusionSpecularity = 0; if ( rProp.Value >>= fExtrusionSpecularity ) { SvtSaveOptions::ODFSaneDefaultVersion eVersion = rExport.getSaneDefaultVersion(); if (fExtrusionSpecularity > 100.0 && eVersion >= SvtSaveOptions::ODFSVER_012 && (eVersion & SvtSaveOptions::ODFSVER_EXTENDED)) { // tdf#147580 write values > 100% in loext ::sax::Converter::convertDouble( aStrBuffer, fExtrusionSpecularity, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_LO_EXT, XML_EXTRUSION_SPECULARITY_LOEXT, aStr ); } // tdf#147580 ODF 1 allows arbitrary percent, later versions not if (eVersion >= SvtSaveOptions::ODFSVER_012) { fExtrusionSpecularity = std::clamp(fExtrusionSpecularity, 0.0, 100.0); } ::sax::Converter::convertDouble( aStrBuffer, fExtrusionSpecularity, false, util::MeasureUnit::PERCENT, util::MeasureUnit::PERCENT); aStrBuffer.append( '%' ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SPECULARITY, aStr ); } } break; case EAS_ProjectionMode : { drawing::ProjectionMode eProjectionMode; if ( rProp.Value >>= eProjectionMode ) rExport.AddAttribute( XML_NAMESPACE_DR3D, XML_PROJECTION, eProjectionMode == drawing::ProjectionMode_PARALLEL ? GetXMLToken( XML_PARALLEL ) : GetXMLToken( XML_PERSPECTIVE ) ); } break; case EAS_ViewPoint : { drawing::Position3D aExtrusionViewPoint; if ( rProp.Value >>= aExtrusionViewPoint ) { rUnitConverter.convertPosition3D( aStrBuffer, aExtrusionViewPoint ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_VIEWPOINT, aStr ); } } break; case EAS_Origin : { css::drawing::EnhancedCustomShapeParameterPair aOriginParaPair; if ( rProp.Value >>= aOriginParaPair ) { ExportParameter( aStrBuffer, aOriginParaPair.First ); ExportParameter( aStrBuffer, aOriginParaPair.Second ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_ORIGIN, aStr ); } } break; case EAS_Color : { bool bExtrusionColor; if ( rProp.Value >>= bExtrusionColor ) { rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_COLOR, bExtrusionColor ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } } break; default: break; } } // tdf#141301: no specific skew values provided if (!bSkewValuesProvided) { // so we need to export default values explicitly rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_SKEW, "50 -135"); } } } break; case EAS_TextPath : { uno::Sequence< beans::PropertyValue > aTextPathPropSeq; if ( rGeoProp.Value >>= aTextPathPropSeq ) { for ( const beans::PropertyValue& rProp : std::as_const(aTextPathPropSeq) ) { switch( EASGet( rProp.Name ) ) { case EAS_TextPath : { bool bTextPathOn; if ( rProp.Value >>= bTextPathOn ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_PATH, bTextPathOn ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_TextPathMode : { css::drawing::EnhancedCustomShapeTextPathMode eTextPathMode; if ( rProp.Value >>= eTextPathMode ) { switch ( eTextPathMode ) { case css::drawing::EnhancedCustomShapeTextPathMode_NORMAL: aStr = GetXMLToken( XML_NORMAL ); break; case css::drawing::EnhancedCustomShapeTextPathMode_PATH : aStr = GetXMLToken( XML_PATH ); break; case css::drawing::EnhancedCustomShapeTextPathMode_SHAPE : aStr = GetXMLToken( XML_SHAPE ); break; default: break; } if ( !aStr.isEmpty() ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_PATH_MODE, aStr ); } } break; case EAS_ScaleX : { bool bScaleX; if ( rProp.Value >>= bScaleX ) { aStr = bScaleX ? GetXMLToken( XML_SHAPE ) : GetXMLToken( XML_PATH ); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_PATH_SCALE, aStr ); } } break; case EAS_SameLetterHeights : { bool bSameLetterHeights; if ( rProp.Value >>= bSameLetterHeights ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_PATH_SAME_LETTER_HEIGHTS, bSameLetterHeights ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; default: break; } } } } break; case EAS_Path : { uno::Sequence< beans::PropertyValue > aPathPropSeq; if ( rGeoProp.Value >>= aPathPropSeq ) { for ( const beans::PropertyValue& rProp : std::as_const(aPathPropSeq) ) { switch( EASGet( rProp.Name ) ) { case EAS_SubViewSize: { // export draw:sub-view-size (do not export in ODF 1.3 or older) if ((rExport.getSaneDefaultVersion() & SvtSaveOptions::ODFSVER_EXTENDED) == 0) { continue; } uno::Sequence< awt::Size > aSubViewSizes; rProp.Value >>= aSubViewSizes; for ( int nIdx = 0; nIdx < aSubViewSizes.getLength(); nIdx++ ) { if ( nIdx ) aStrBuffer.append(' '); aStrBuffer.append( aSubViewSizes[nIdx].Width ); aStrBuffer.append(' '); aStrBuffer.append( aSubViewSizes[nIdx].Height ); } aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW_EXT, XML_SUB_VIEW_SIZE, aStr ); } break; case EAS_ExtrusionAllowed : { bool bExtrusionAllowed; if ( rProp.Value >>= bExtrusionAllowed ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_EXTRUSION_ALLOWED, bExtrusionAllowed ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_ConcentricGradientFillAllowed : { bool bConcentricGradientFillAllowed; if ( rProp.Value >>= bConcentricGradientFillAllowed ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_CONCENTRIC_GRADIENT_FILL_ALLOWED, bConcentricGradientFillAllowed ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_TextPathAllowed : { bool bTextPathAllowed; if ( rProp.Value >>= bTextPathAllowed ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_PATH_ALLOWED, bTextPathAllowed ? GetXMLToken( XML_TRUE ) : GetXMLToken( XML_FALSE ) ); } break; case EAS_GluePoints : { css::uno::Sequence< css::drawing::EnhancedCustomShapeParameterPair> aGluePoints; if ( rProp.Value >>= aGluePoints ) { if ( aGluePoints.hasElements() ) { for( const auto& rGluePoint : std::as_const(aGluePoints) ) { ExportParameter( aStrBuffer, rGluePoint.First ); ExportParameter( aStrBuffer, rGluePoint.Second ); } aStr = aStrBuffer.makeStringAndClear(); } rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_GLUE_POINTS, aStr ); } } break; case EAS_GluePointType : { sal_Int16 nGluePointType = sal_Int16(); if ( rProp.Value >>= nGluePointType ) { switch ( nGluePointType ) { case css::drawing::EnhancedCustomShapeGluePointType::NONE : aStr = GetXMLToken( XML_NONE ); break; case css::drawing::EnhancedCustomShapeGluePointType::SEGMENTS : aStr = GetXMLToken( XML_SEGMENTS ); break; case css::drawing::EnhancedCustomShapeGluePointType::RECT : aStr = GetXMLToken( XML_RECTANGLE ); break; } if ( !aStr.isEmpty() ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_GLUE_POINT_TYPE, aStr ); } } break; case EAS_Coordinates : { bCoordinates = ( rProp.Value >>= aCoordinates ); } break; case EAS_Segments : { rProp.Value >>= aSegments; } break; case EAS_StretchX : { sal_Int32 nStretchPoint = 0; if ( rProp.Value >>= nStretchPoint ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_PATH_STRETCHPOINT_X, OUString::number( nStretchPoint ) ); } break; case EAS_StretchY : { sal_Int32 nStretchPoint = 0; if ( rProp.Value >>= nStretchPoint ) rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_PATH_STRETCHPOINT_Y, OUString::number( nStretchPoint ) ); } break; case EAS_TextFrames : { css::uno::Sequence< css::drawing::EnhancedCustomShapeTextFrame > aPathTextFrames; if ( rProp.Value >>= aPathTextFrames ) { if ( aPathTextFrames.hasElements() ) { for ( const auto& rPathTextFrame : std::as_const(aPathTextFrames) ) { ExportParameter( aStrBuffer, rPathTextFrame.TopLeft.First ); ExportParameter( aStrBuffer, rPathTextFrame.TopLeft.Second ); ExportParameter( aStrBuffer, rPathTextFrame.BottomRight.First ); ExportParameter( aStrBuffer, rPathTextFrame.BottomRight.Second ); } aStr = aStrBuffer.makeStringAndClear(); } rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_AREAS, aStr ); } } break; default: break; } } } } break; case EAS_Equations : { bEquations = ( rGeoProp.Value >>= aEquations ); } break; case EAS_Handles : { bHandles = ( rGeoProp.Value >>= aHandles ); } break; case EAS_AdjustmentValues : { rGeoProp.Value >>= aAdjustmentValues; } break; default: break; } } // for // ToDo: Where is TextPreRotateAngle still used? We cannot save it in ODF. fTextRotateAngle += fTextPreRotateAngle; // Workaround for writing-mode bt-lr and tb-rl90 in ODF strict, // otherwise loext:writing-mode is used in style export. if (!(rExport.getSaneDefaultVersion() & SvtSaveOptions::ODFSVER_EXTENDED)) { if (xPropSetInfo->hasPropertyByName(u"WritingMode"_ustr)) { sal_Int16 nDirection = -1; xPropSet->getPropertyValue(u"WritingMode"_ustr) >>= nDirection; if (nDirection == text::WritingMode2::TB_RL90) fTextRotateAngle -= 90; else if (nDirection == text::WritingMode2::BT_LR) fTextRotateAngle -= 270; } } if (fTextRotateAngle != 0) { ::sax::Converter::convertDouble( aStrBuffer, fTextRotateAngle ); aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TEXT_ROTATE_ANGLE, aStr ); } rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_TYPE, aCustomShapeType ); // adjustments sal_Int32 nAdjustmentValues = aAdjustmentValues.getLength(); if ( nAdjustmentValues ) { sal_Int32 i, nValue = 0; for ( i = 0; i < nAdjustmentValues; i++ ) { if ( i ) aStrBuffer.append( ' ' ); const css::drawing::EnhancedCustomShapeAdjustmentValue& rAdj = aAdjustmentValues[ i ]; if ( rAdj.State == beans::PropertyState_DIRECT_VALUE ) { if ( rAdj.Value.getValueTypeClass() == uno::TypeClass_DOUBLE ) { double fValue = 0.0; rAdj.Value >>= fValue; ::sax::Converter::convertDouble(aStrBuffer, fValue); } else { rAdj.Value >>= nValue; aStrBuffer.append(nValue); } } else { // this should not be, but better than setting nothing aStrBuffer.append("0"); } } aStr = aStrBuffer.makeStringAndClear(); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_MODIFIERS, aStr ); } if ( bCoordinates ) ImpExportEnhancedPath( rExport, aCoordinates, aSegments ); } } SvXMLElementExport aOBJ( rExport, XML_NAMESPACE_DRAW, XML_ENHANCED_GEOMETRY, true, true ); if ( bEquations ) ImpExportEquations( rExport, aEquations ); if ( bHandles ) ImpExportHandles( rExport, aHandles ); } void XMLShapeExport::ImpExportCustomShape( const uno::Reference< drawing::XShape >& xShape, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint ) { const uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); if ( !xPropSet.is() ) return; uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); // Transformation ImpExportNewTrans( xPropSet, nFeatures, pRefPoint ); if ( xPropSetInfo.is() ) { OUString aStr; if ( xPropSetInfo->hasPropertyByName( "CustomShapeEngine" ) ) { uno::Any aEngine( xPropSet->getPropertyValue( "CustomShapeEngine" ) ); if ( ( aEngine >>= aStr ) && !aStr.isEmpty() ) mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_ENGINE, aStr ); } if ( xPropSetInfo->hasPropertyByName( "CustomShapeData" ) ) { uno::Any aData( xPropSet->getPropertyValue( "CustomShapeData" ) ); if ( ( aData >>= aStr ) && !aStr.isEmpty() ) mrExport.AddAttribute( XML_NAMESPACE_DRAW, XML_DATA, aStr ); } } bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); // #86116#/#92210# SvXMLElementExport aOBJ( mrExport, XML_NAMESPACE_DRAW, XML_CUSTOM_SHAPE, bCreateNewline, true ); ImpExportDescription( xShape ); // #i68101# ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportText( xShape ); ImpExportEnhancedGeometry( mrExport, xPropSet ); } void XMLShapeExport::ImpExportTableShape( const uno::Reference< drawing::XShape >& xShape, XmlShapeType eShapeType, XMLShapeExportFlags nFeatures, css::awt::Point* pRefPoint ) { uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); uno::Reference< container::XNamed > xNamed(xShape, uno::UNO_QUERY); SAL_WARN_IF( !xPropSet.is() || !xNamed.is(), "xmloff", "xmloff::XMLShapeExport::ImpExportTableShape(), table shape is not implementing needed interfaces"); if(!(xPropSet.is() && xNamed.is())) return; try { // Transformation ImpExportNewTrans(xPropSet, nFeatures, pRefPoint); bool bIsEmptyPresObj = false; // presentation settings if(eShapeType == XmlShapeType::PresTableShape) bIsEmptyPresObj = ImpExportPresentationAttributes( xPropSet, GetXMLToken(XML_TABLE) ); const bool bCreateNewline( (nFeatures & XMLShapeExportFlags::NO_WS) == XMLShapeExportFlags::NONE ); SvXMLElementExport aElement( mrExport, XML_NAMESPACE_DRAW, XML_FRAME, bCreateNewline, true ); // do not export in ODF 1.1 or older if (mrExport.getSaneDefaultVersion() >= SvtSaveOptions::ODFSVER_012) { if( !bIsEmptyPresObj ) { uno::Reference< container::XNamed > xTemplate( xPropSet->getPropertyValue("TableTemplate"), uno::UNO_QUERY ); if( xTemplate.is() ) { const OUString sTemplate( xTemplate->getName() ); if( !sTemplate.isEmpty() ) { mrExport.AddAttribute(XML_NAMESPACE_TABLE, XML_TEMPLATE_NAME, sTemplate ); for( const XMLPropertyMapEntry* pEntry = &aXMLTableShapeAttributes[0]; !pEntry->IsEnd(); pEntry++ ) { try { bool bBool = false; xPropSet->getPropertyValue( pEntry->getApiName() ) >>= bBool; if( bBool ) mrExport.AddAttribute(pEntry->mnNameSpace, pEntry->meXMLName, XML_TRUE ); } catch( uno::Exception& ) { DBG_UNHANDLED_EXCEPTION("xmloff.draw"); } } } } uno::Reference< table::XColumnRowRange > xRange( xPropSet->getPropertyValue( gsModel ), uno::UNO_QUERY_THROW ); GetShapeTableExport()->exportTable( xRange ); } } if( !bIsEmptyPresObj ) { uno::Reference< graphic::XGraphic > xGraphic( xPropSet->getPropertyValue("ReplacementGraphic"), uno::UNO_QUERY ); ExportGraphicPreview(xGraphic, mrExport, u"TablePreview", u".svm", "image/x-vclgraphic"); } ImpExportEvents( xShape ); ImpExportGluePoints( xShape ); ImpExportDescription( xShape ); // #i68101# } catch( uno::Exception const & ) { DBG_UNHANDLED_EXCEPTION("xmloff.draw"); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */