/************************************************************************* * * $RCSfile: shapeexport.cxx,v $ * * $Revision: 1.43 $ * * last change: $Author: dvo $ $Date: 2001-10-25 20:57:02 $ * * The Contents of this file are made available subject to the terms of * either of the following licenses * * - GNU Lesser General Public License Version 2.1 * - Sun Industry Standards Source License Version 1.1 * * Sun Microsystems Inc., October, 2000 * * GNU Lesser General Public License Version 2.1 * ============================================= * Copyright 2000 by Sun Microsystems, Inc. * 901 San Antonio Road, Palo Alto, CA 94303, USA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * * * Sun Industry Standards Source License Version 1.1 * ================================================= * The contents of this file are subject to the Sun Industry Standards * Source License Version 1.1 (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.openoffice.org/license.html. * * Software provided under this License is provided on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, * WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS, * MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING. * See the License for the specific provisions governing your rights and * obligations concerning the Software. * * The Initial Developer of the Original Code is: Sun Microsystems, Inc. * * Copyright: 2000 by Sun Microsystems, Inc. * * All Rights Reserved. * * Contributor(s): _______________________________________ * * ************************************************************************/ #ifndef _COM_SUN_STAR_CONTAINER_XCHILD_HPP_ #include #endif #ifndef _COM_SUN_STAR_TEXT_XTEXT_HPP_ #include #endif #ifndef _COM_SUN_STAR_CHART_XCHARTDOCUMENT_HPP_ #include #endif #ifndef _COM_SUN_STAR_DRAWING_XCONTROLSHAPE_HPP_ #include #endif #ifndef _COM_SUN_STAR_STYLE_XSTYLE_HPP_ #include #endif #ifndef _XMLOFF_PROPERTYSETMERGER_HXX_ #include "PropertySetMerger.hxx" #endif #ifndef _XMLOFF_SHAPEEXPORT_HXX #include "shapeexport.hxx" #endif #ifndef _SDPROPLS_HXX #include "sdpropls.hxx" #endif #ifndef _SDXMLEXP_IMPL_HXX #include "sdxmlexp_impl.hxx" #endif #ifndef _XMLOFF_FAMILIES_HXX_ #include "families.hxx" #endif #ifndef _TOOLS_DEBUG_HXX #include #endif #ifndef _XMLOFF_CONTEXTID_HXX_ #include "contextid.hxx" #endif #ifndef _XMLOFF_XMLTOKEN_HXX #include "xmltoken.hxx" #endif #ifndef _STRING_HXX //autogen #include #endif #ifndef _SOT_CLSIDS_HXX #include #endif #ifndef _GLOBNAME_HXX #include #endif #include "xmlnmspe.hxx" using namespace ::rtl; using namespace ::com::sun::star; using namespace ::xmloff::token; ////////////////////////////////////////////////////////////////////////////// XMLShapeExport::XMLShapeExport(SvXMLExport& rExp, SvXMLExportPropertyMapper *pExtMapper ) : rExport( rExp ), // #88546# init to FALSE mbHandleProgressBar( sal_False ), mnNextUniqueShapeId(1), mbExportLayer( sal_False ), msZIndex( RTL_CONSTASCII_USTRINGPARAM("ZOrder") ), msEmptyPres( RTL_CONSTASCII_USTRINGPARAM("IsEmptyPresentationObject") ), msModel( RTL_CONSTASCII_USTRINGPARAM("Model") ), msStartShape( RTL_CONSTASCII_USTRINGPARAM("StartShape") ), msEndShape( RTL_CONSTASCII_USTRINGPARAM("EndShape") ), msOnClick( RTL_CONSTASCII_USTRINGPARAM("OnClick") ), msEventType( RTL_CONSTASCII_USTRINGPARAM("EventType") ), msPresentation( RTL_CONSTASCII_USTRINGPARAM("Presentation") ), msMacroName( RTL_CONSTASCII_USTRINGPARAM("MacroName") ), msLibrary( RTL_CONSTASCII_USTRINGPARAM("Library") ), msClickAction( RTL_CONSTASCII_USTRINGPARAM("ClickAction") ), msBookmark( RTL_CONSTASCII_USTRINGPARAM("Bookmark") ), msEffect( RTL_CONSTASCII_USTRINGPARAM("Effect") ), msPlayFull( RTL_CONSTASCII_USTRINGPARAM("PlayFull") ), msVerb( RTL_CONSTASCII_USTRINGPARAM("Verb") ), msSoundURL( RTL_CONSTASCII_USTRINGPARAM("SoundURL") ), msSpeed( RTL_CONSTASCII_USTRINGPARAM("Speed") ), msStarBasic( RTL_CONSTASCII_USTRINGPARAM("StarBasic") ) { // construct PropertyHandlerFactory xSdPropHdlFactory = new XMLSdPropHdlFactory( rExport.GetModel() ); // construct PropertySetMapper xPropertySetMapper = CreateShapePropMapper( rExport ); if( pExtMapper ) { UniReference < SvXMLExportPropertyMapper > xExtMapper( pExtMapper ); xPropertySetMapper->ChainExportMapper( xExtMapper ); } /* // chain text attributes xPropertySetMapper->ChainExportMapper(XMLTextParagraphExport::CreateParaExtPropMapper(rExp)); */ rExport.GetAutoStylePool()->AddFamily( XML_STYLE_FAMILY_SD_GRAPHICS_ID, OUString(RTL_CONSTASCII_USTRINGPARAM(XML_STYLE_FAMILY_SD_GRAPHICS_NAME)), GetPropertySetMapper(), OUString(RTL_CONSTASCII_USTRINGPARAM(XML_STYLE_FAMILY_SD_GRAPHICS_PREFIX))); rExport.GetAutoStylePool()->AddFamily( XML_STYLE_FAMILY_SD_PRESENTATION_ID, OUString(RTL_CONSTASCII_USTRINGPARAM(XML_STYLE_FAMILY_SD_PRESENTATION_NAME)), GetPropertySetMapper(), OUString(RTL_CONSTASCII_USTRINGPARAM(XML_STYLE_FAMILY_SD_PRESENTATION_PREFIX))); maCurrentInfo = maShapeInfos.end(); } /////////////////////////////////////////////////////////////////////// XMLShapeExport::~XMLShapeExport() { } /////////////////////////////////////////////////////////////////////// // This method collects all automatic styles for the given XShape void XMLShapeExport::collectShapeAutoStyles(const uno::Reference< drawing::XShape >& xShape) { if( maCurrentShapesIter == maShapesInfos.end() ) { DBG_ERROR( "XMLShapeExport::collectShapeAutoStyles(): no call to seekShapes()!" ); return; } sal_Int32 nZIndex = 0; uno::Reference< beans::XPropertySet > xSet( xShape, uno::UNO_QUERY ); if( xSet.is() ) xSet->getPropertyValue(msZIndex) >>= nZIndex; ImplXMLShapeExportInfo& aShapeInfo = (*maCurrentShapesIter).second[nZIndex]; // ----------------------------- // first compute the shapes type // ----------------------------- ImpCalcShapeType(xShape, aShapeInfo.meShapeType); const sal_Bool bObjSupportsText = // aShapeInfo.meShapeType != XmlShapeTypeDrawControlShape && aShapeInfo.meShapeType != XmlShapeTypeDrawChartShape && aShapeInfo.meShapeType != XmlShapeTypePresChartShape && aShapeInfo.meShapeType != XmlShapeTypeDrawOLE2Shape && aShapeInfo.meShapeType != XmlShapeTypePresOLE2Shape && aShapeInfo.meShapeType != XmlShapeTypeDraw3DSceneObject && aShapeInfo.meShapeType != XmlShapeTypeDraw3DCubeObject && aShapeInfo.meShapeType != XmlShapeTypeDraw3DSphereObject && aShapeInfo.meShapeType != XmlShapeTypeDraw3DLatheObject && aShapeInfo.meShapeType != XmlShapeTypeDraw3DExtrudeObject; sal_Bool bIsEmptyPresObj = sal_False; uno::Reference< beans::XPropertySet > xPropSet(xShape, uno::UNO_QUERY); // ---------------- // prep text styles // ---------------- if( xPropSet.is() && bObjSupportsText ) { uno::Reference< text::XText > xText(xShape, uno::UNO_QUERY); if(xText.is()) { uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); if( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName(msEmptyPres) ) { uno::Any aAny = xPropSet->getPropertyValue(msEmptyPres); aAny >>= bIsEmptyPresObj; } if(!bIsEmptyPresObj) { GetExport().GetTextParagraphExport()->collectTextAutoStyles( xText ); } } } // ------------------------------ // compute the shape parent style // ------------------------------ if(xPropSet.is()) { uno::Reference< beans::XPropertySetInfo > xPropSetInfo( xPropSet->getPropertySetInfo() ); OUString aParentName; uno::Reference< style::XStyle > xStyle; if( xPropSetInfo.is() && xPropSetInfo->hasPropertyByName( OUString(RTL_CONSTASCII_USTRINGPARAM("Style"))) ) xPropSet->getPropertyValue(OUString(RTL_CONSTASCII_USTRINGPARAM("Style"))) >>= xStyle; if(xStyle.is()) { // get family ID uno::Reference< beans::XPropertySet > xStylePropSet(xStyle, uno::UNO_QUERY); DBG_ASSERT( xStylePropSet.is(), "style without a XPropertySet?" ); if(xStylePropSet.is()) { OUString aFamilyName; xStylePropSet->getPropertyValue(OUString(RTL_CONSTASCII_USTRINGPARAM("Family"))) >>= aFamilyName; if(aFamilyName.getLength() && aFamilyName.equals(OUString(RTL_CONSTASCII_USTRINGPARAM("presentation")))) aShapeInfo.mnFamily = XML_STYLE_FAMILY_SD_PRESENTATION_ID; } // get parent-style name if(XML_STYLE_FAMILY_SD_PRESENTATION_ID == aShapeInfo.mnFamily) { aParentName = msPresentationStylePrefix; } aParentName += xStyle->getName(); } // filter propset std::vector< XMLPropertyState > xPropStates; sal_Int32 nCount = 0; if( !bIsEmptyPresObj && (aShapeInfo.meShapeType != XmlShapeTypeDrawChartShape) && (aShapeInfo.meShapeType != XmlShapeTypeDrawTableShape) && (aShapeInfo.meShapeType != XmlShapeTypePresChartShape) && (aShapeInfo.meShapeType != XmlShapeTypePresTableShape) ) { xPropStates = GetPropertySetMapper()->Filter( xPropSet ); if (XmlShapeTypeDrawControlShape == 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!"); ::rtl::OUString sNumberStyle = rExport.GetFormExport()->getControlNumberStyle(xControlModel); if (0 != sNumberStyle.getLength()) { sal_Int32 nIndex = GetPropertySetMapper()->getPropertySetMapper()->FindEntryIndex(CTF_SD_CONTROL_SHAPE_DATA_STYLE); // 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 our context id!"); XMLPropertyState aNewState(nIndex, uno::makeAny(sNumberStyle)); xPropStates.push_back(aNewState); } } } std::vector< XMLPropertyState >::iterator aIter = xPropStates.begin(); std::vector< XMLPropertyState >::iterator aEnd = xPropStates.end(); while( aIter != aEnd ) { if( aIter->mnIndex != -1 ) nCount++; aIter++; } } 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 = rExport.GetAutoStylePool()->Find(aShapeInfo.mnFamily, aParentName, xPropStates); if(!aShapeInfo.msStyleName.getLength()) { // Style did not exist, add it to AutoStalePool aShapeInfo.msStyleName = rExport.GetAutoStylePool()->Add(aShapeInfo.mnFamily, aParentName, xPropStates); } } // optionaly generate auto style for text attributes if( !bIsEmptyPresObj && bObjSupportsText ) { xPropStates = GetExport().GetTextParagraphExport()->GetParagraphPropertyMapper()->Filter( xPropSet ); nCount = 0; std::vector< XMLPropertyState >::iterator aIter = xPropStates.begin(); std::vector< XMLPropertyState >::iterator aEnd = xPropStates.end(); while( aIter != aEnd ) { if( aIter->mnIndex != -1 ) nCount++; aIter++; } if( nCount ) { const OUString aEmpty; aShapeInfo.msTextStyleName = rExport.GetAutoStylePool()->Find( XML_STYLE_FAMILY_TEXT_PARAGRAPH, aEmpty, xPropStates ); if(!aShapeInfo.msTextStyleName.getLength()) { // Style did not exist, add it to AutoStalePool aShapeInfo.msTextStyleName = rExport.GetAutoStylePool()->Add(XML_STYLE_FAMILY_TEXT_PARAGRAPH, aEmpty, xPropStates); } } } } // ------------------- // check for connector // ------------------- if( aShapeInfo.meShapeType == XmlShapeTypeDrawConnectorShape ) { uno::Reference< drawing::XShape > xConnection; // create shape ids for export later if( xPropSet->getPropertyValue( msStartShape ) >>= xConnection ) { createShapeId( xConnection ); } if( xPropSet->getPropertyValue( msEndShape ) >>= xConnection ) { createShapeId( xConnection ); } } maShapeInfos.push_back( aShapeInfo ); maCurrentInfo = maShapeInfos.begin(); // ----------------------------------------------------- // check for shape collections (group shape or 3d scene) // and collect contained shapes style infos // ----------------------------------------------------- { uno::Reference< drawing::XShapes > xShapes( xShape, uno::UNO_QUERY ); if( xShapes.is() ) { collectShapesAutoStyles( xShapes ); } } } /////////////////////////////////////////////////////////////////////// // This method exports the given XShape void XMLShapeExport::exportShape(const uno::Reference< drawing::XShape >& xShape, sal_Int32 nFeatures /* = SEF_DEFAULT */, com::sun::star::awt::Point* pRefPoint /* = NULL */ ) { if( maCurrentShapesIter == maShapesInfos.end() ) { DBG_ERROR( "XMLShapeExport::exportShape(): no auto styles where collected before export" ); return; } sal_Int32 nZIndex = 0; uno::Reference< beans::XPropertySet > xSet( xShape, uno::UNO_QUERY ); if( xSet.is() ) xSet->getPropertyValue(msZIndex) >>= nZIndex; const ImplXMLShapeExportInfo& aShapeInfo = (*maCurrentShapesIter).second[nZIndex]; #ifndef PRODUCT // --------------------------------------- // 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 ); DBG_ASSERT( xParent.is() && xParent.get() == (*maCurrentShapesIter).first.get(), "XMLShapeExport::exportShape(): Wrong call to XMLShapeExport::seekShapes()" ); } // ----------------------------- // first compute the shapes type // ----------------------------- { XmlShapeType eShapeType(XmlShapeTypeNotYetSet); ImpCalcShapeType(xShape, eShapeType); DBG_ASSERT( eShapeType == aShapeInfo.meShapeType, "exportShape callings do not correspond to collectShapeAutoStyles calls!" ); } #endif // ---------------------------------------- // collect animation informations if needed // ---------------------------------------- if( mxAnimationsExporter.is() ) mxAnimationsExporter->collect( xShape ); // ------------------------------- // export shapes name if he has one // ------------------------------- { uno::Reference< container::XNamed > xNamed( xShape, uno::UNO_QUERY ); if( xNamed.is() ) { const OUString aName( xNamed->getName() ); if( aName.getLength() ) rExport.AddAttribute(XML_NAMESPACE_DRAW, XML_NAME, aName ); } } // ------------------ // export style name // ------------------ if( aShapeInfo.msStyleName.getLength() != 0 ) { if(XML_STYLE_FAMILY_SD_GRAPHICS_ID == aShapeInfo.mnFamily) rExport.AddAttribute(XML_NAMESPACE_DRAW, XML_STYLE_NAME, aShapeInfo.msStyleName); else rExport.AddAttribute(XML_NAMESPACE_PRESENTATION, XML_STYLE_NAME, aShapeInfo.msStyleName); } // ------------------ // export text style name // ------------------ if( aShapeInfo.msTextStyleName.getLength() != 0 ) { rExport.AddAttribute(XML_NAMESPACE_DRAW, XML_TEXT_STYLE_NAME, aShapeInfo.msTextStyleName); } // -------------------------- // export shapes id if needed // -------------------------- { const sal_Int32 nShapeId = getShapeId( xShape ); if( nShapeId != -1 ) { const OUString sId( OUString::valueOf( nShapeId ) ); rExport.AddAttribute(XML_NAMESPACE_DRAW, XML_ID, sId ); } } // -------------------------- // export layer information // -------------------------- if( IsLayerExportEnabled() ) { // 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( OUString::createFromAscii( "LayerName" ) ) >>= aLayerName; rExport.AddAttribute(XML_NAMESPACE_DRAW, XML_LAYER, aLayerName ); } catch( uno::Exception e ) { DBG_ERROR( "could not export layer name for shape!" ); } } } // #82003# test export count // #91587# ALWAYS increment since now ALL to be exported shapes are counted. if(rExport.GetShapeExport()->IsHandleProgressBarEnabled()) { rExport.GetProgressBarHelper()->Increment(); } // -------------------- // export shape element // -------------------- switch(aShapeInfo.meShapeType) { case XmlShapeTypeDrawRectangleShape: { ImpExportRectangleShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawEllipseShape: { ImpExportEllipseShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawLineShape: { ImpExportLineShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawPolyPolygonShape: // closed PolyPolygon case XmlShapeTypeDrawPolyLineShape: // open PolyPolygon case XmlShapeTypeDrawClosedBezierShape: // closed PolyPolygon containing curves case XmlShapeTypeDrawOpenBezierShape: // open PolyPolygon containing curves { ImpExportPolygonShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawTextShape: case XmlShapeTypePresTitleTextShape: case XmlShapeTypePresOutlinerShape: case XmlShapeTypePresSubtitleShape: case XmlShapeTypePresNotesShape: { ImpExportTextBoxShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawGraphicObjectShape: case XmlShapeTypePresGraphicObjectShape: { ImpExportGraphicObjectShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawChartShape: case XmlShapeTypePresChartShape: { ImpExportChartShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawTableShape: case XmlShapeTypePresTableShape: { ImpExportSpreadsheetShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawControlShape: { ImpExportControlShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawConnectorShape: { ImpExportConnectorShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawMeasureShape: { ImpExportMeasureShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawOLE2Shape: case XmlShapeTypePresOLE2Shape: { ImpExportOLE2Shape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawPageShape: case XmlShapeTypePresPageShape: case XmlShapeTypeHandoutShape: { ImpExportPageShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawCaptionShape: { ImpExportCaptionShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDraw3DCubeObject: case XmlShapeTypeDraw3DSphereObject: case XmlShapeTypeDraw3DLatheObject: case XmlShapeTypeDraw3DExtrudeObject: { ImpExport3DShape(xShape, aShapeInfo.meShapeType); break; } case XmlShapeTypeDraw3DSceneObject: { ImpExport3DSceneShape( xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawGroupShape: { // empty group ImpExportGroupShape( xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawFrameShape: { ImpExportFrameShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawAppletShape: { ImpExportAppletShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypeDrawPluginShape: { ImpExportPluginShape(xShape, aShapeInfo.meShapeType, nFeatures, pRefPoint ); break; } case XmlShapeTypePresOrgChartShape: case XmlShapeTypeUnknown: case XmlShapeTypeNotYetSet: default: { // this should never happen and is an error DBG_ERROR("XMLEXP: WriteShape: unknown or unexpected type of shape in export!"); break; } } } /////////////////////////////////////////////////////////////////////// // 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; DBG_ASSERT( xShape.is(), "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, sal_Int32 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; DBG_ASSERT( xShape.is(), "Shape without a XShape?" ); if(!xShape.is()) continue; exportShape( xShape, nFeatures, pRefPoint ); } maCurrentShapesIter = aOldCurrentShapesIter; } /////////////////////////////////////////////////////////////////////// void XMLShapeExport::seekShapes( const uno::Reference< drawing::XShapes >& xShapes ) throw() { if( xShapes.is() ) { maCurrentShapesIter = maShapesInfos.find( xShapes ); if( maCurrentShapesIter == maShapesInfos.end() ) { ImplXMLShapeExportInfoVector aNewInfoVector; aNewInfoVector.resize( (ShapesInfos::size_type) xShapes->getCount() ); maShapesInfos[ xShapes ] = aNewInfoVector; maCurrentShapesIter = maShapesInfos.find( xShapes ); DBG_ASSERT( maCurrentShapesIter != maShapesInfos.end(), "XMLShapeExport::seekShapes(): insert into stl::map failed" ); } DBG_ASSERT( (*maCurrentShapesIter).second.size() == (ShapesInfos::size_type)xShapes->getCount(), "XMLShapeExport::seekShapes(): XShapes size varied between calls" ); } else { maCurrentShapesIter = maShapesInfos.end(); } } /////////////////////////////////////////////////////////////////////// void XMLShapeExport::exportAutoStyles() { // export all autostyle infos // ...for graphic // if(IsFamilyGraphicUsed()) { GetExport().GetAutoStylePool()->exportXML( XML_STYLE_FAMILY_SD_GRAPHICS_ID #if SUPD < 650 , GetExport().GetDocHandler(), GetExport().GetMM100UnitConverter(), GetExport().GetNamespaceMap() #endif ); } // ...for presentation // if(IsFamilyPresentationUsed()) { GetExport().GetAutoStylePool()->exportXML( XML_STYLE_FAMILY_SD_PRESENTATION_ID #if SUPD < 650 , GetExport().GetDocHandler(), GetExport().GetMM100UnitConverter(), GetExport().GetNamespaceMap() #endif ); } } /////////////////////////////////////////////////////////////////////// /** creates a unique id for this shape, this id is saved and exported with this shape later with the exportShape method. Its ok to call this twice with the same shape */ void XMLShapeExport::createShapeId( const uno::Reference < drawing::XShape >& xShape ) { ShapeIdsMap::iterator aId( maShapeIds.find( xShape ) ); if( aId == maShapeIds.end() ) maShapeIds[xShape] = mnNextUniqueShapeId++; } /////////////////////////////////////////////////////////////////////// /** returns the unique id for this shape. It returns -1 if the was no createShapeId call for this shape yet. */ sal_Int32 XMLShapeExport::getShapeId( const uno::Reference < drawing::XShape >& xShape ) { ShapeIdsMap::iterator aId( maShapeIds.find( xShape ) ); if( aId != maShapeIds.end() ) return (*aId).second; return -1; } /////////////////////////////////////////////////////////////////////// /// returns the export property mapper for external chaining SvXMLExportPropertyMapper* XMLShapeExport::CreateShapePropMapper( SvXMLExport& rExport ) { UniReference< XMLPropertyHandlerFactory > xFactory = new XMLSdPropHdlFactory( rExport.GetModel() ); UniReference < XMLPropertySetMapper > xMapper = new XMLShapePropertySetMapper( xFactory ); SvXMLExportPropertyMapper* pResult = new XMLShapeExportPropertyMapper( xMapper, (XMLTextListAutoStylePool*)&rExport.GetTextParagraphExport()->GetListAutoStylePool(), rExport ); ((XMLShapeExportPropertyMapper*)pResult)->SetAutoStyles( sal_True ); // chain text attributes return pResult; } /////////////////////////////////////////////////////////////////////// void XMLShapeExport::ImpCalcShapeType(const uno::Reference< drawing::XShape >& xShape, XmlShapeType& eShapeType) { // set in every case, so init here eShapeType = XmlShapeTypeUnknown; uno::Reference< drawing::XShapeDescriptor > xShapeDescriptor(xShape, uno::UNO_QUERY); if(xShapeDescriptor.is()) { String aType((OUString)xShapeDescriptor->getShapeType()); if(aType.EqualsAscii((const sal_Char*)"com.sun.star.", 0, 13)) { if(aType.EqualsAscii("drawing.", 13, 8)) { // drawing shapes if (aType.EqualsAscii("Rectangle", 21, 9)) { eShapeType = XmlShapeTypeDrawRectangleShape; } else if(aType.EqualsAscii("Ellipse", 21, 7)) { eShapeType = XmlShapeTypeDrawEllipseShape; } else if(aType.EqualsAscii("Control", 21, 7)) { eShapeType = XmlShapeTypeDrawControlShape; } else if(aType.EqualsAscii("Connector", 21, 9)) { eShapeType = XmlShapeTypeDrawConnectorShape; } else if(aType.EqualsAscii("Measure", 21, 7)) { eShapeType = XmlShapeTypeDrawMeasureShape; } else if(aType.EqualsAscii("Line", 21, 4)) { eShapeType = XmlShapeTypeDrawLineShape; } else if(aType.EqualsAscii("PolyPolygon", 21, 11)) { eShapeType = XmlShapeTypeDrawPolyPolygonShape; } else if(aType.EqualsAscii("PolyLine", 21, 8)) { eShapeType = XmlShapeTypeDrawPolyLineShape; } else if(aType.EqualsAscii("OpenBezier", 21, 10)) { eShapeType = XmlShapeTypeDrawOpenBezierShape; } else if(aType.EqualsAscii("ClosedBezier", 21, 12)) { eShapeType = XmlShapeTypeDrawClosedBezierShape; } else if(aType.EqualsAscii("GraphicObject", 21, 13)) { eShapeType = XmlShapeTypeDrawGraphicObjectShape; } else if(aType.EqualsAscii("Group", 21, 5)) { eShapeType = XmlShapeTypeDrawGroupShape; } else if(aType.EqualsAscii("Text", 21, 4)) { eShapeType = XmlShapeTypeDrawTextShape; } else if(aType.EqualsAscii("OLE2", 21, 4)) { eShapeType = XmlShapeTypeDrawOLE2Shape; // get info about presentation shape uno::Reference xPropSet(xShape, uno::UNO_QUERY); if(xPropSet.is()) { uno::Any aAny; aAny = xPropSet->getPropertyValue(OUString(RTL_CONSTASCII_USTRINGPARAM("CLSID"))); rtl::OUString sCLSID; if (aAny >>= sCLSID) { if (sCLSID.equals(rExport.GetChartExport()->getChartCLSID())) { eShapeType = XmlShapeTypeDrawChartShape; } else if (sCLSID.equals(rtl::OUString( SvGlobalName( SO3_SC_CLASSID ).GetHexName()))) { eShapeType = XmlShapeTypeDrawTableShape; } else { // general OLE2 Object } } /* uno::Reference xObjectInfo; if(aAny >>= xObjectInfo) { if(xObjectInfo->supportsService(OUString(RTL_CONSTASCII_USTRINGPARAM ("com.sun.star.chart.ChartDocument")))) { eShapeType = XmlShapeTypeDrawChartShape; } else if(xObjectInfo->supportsService(OUString(RTL_CONSTASCII_USTRINGPARAM ("com.sun.star.sheet.SpreadsheetDocument")))) { eShapeType = XmlShapeTypeDrawTableShape; } else { // general OLE2 Object } }*/ } } else if(aType.EqualsAscii("Page", 21, 4)) { eShapeType = XmlShapeTypeDrawPageShape; } else if(aType.EqualsAscii("Frame", 21, 5)) { eShapeType = XmlShapeTypeDrawFrameShape; } else if(aType.EqualsAscii("Caption", 21, 7)) { eShapeType = XmlShapeTypeDrawCaptionShape; } else if(aType.EqualsAscii("Plugin", 21, 6)) { eShapeType = XmlShapeTypeDrawPluginShape; } else if(aType.EqualsAscii("Applet", 21, 6)) { eShapeType = XmlShapeTypeDrawAppletShape; } // 3D shapes else if(aType.EqualsAscii("Scene", 21 + 7, 5)) { eShapeType = XmlShapeTypeDraw3DSceneObject; } else if(aType.EqualsAscii("Cube", 21 + 7, 4)) { eShapeType = XmlShapeTypeDraw3DCubeObject; } else if(aType.EqualsAscii("Sphere", 21 + 7, 6)) { eShapeType = XmlShapeTypeDraw3DSphereObject; } else if(aType.EqualsAscii("Lathe", 21 + 7, 5)) { eShapeType = XmlShapeTypeDraw3DLatheObject; } else if(aType.EqualsAscii("Extrude", 21 + 7, 7)) { eShapeType = XmlShapeTypeDraw3DExtrudeObject; } } else if(aType.EqualsAscii("presentation.", 13, 13)) { // presentation shapes if (aType.EqualsAscii("TitleText", 26, 9)) { eShapeType = XmlShapeTypePresTitleTextShape; } else if(aType.EqualsAscii("Outliner", 26, 8)) { eShapeType = XmlShapeTypePresOutlinerShape; } else if(aType.EqualsAscii("Subtitle", 26, 8)) { eShapeType = XmlShapeTypePresSubtitleShape; } else if(aType.EqualsAscii("GraphicObject", 26, 13)) { eShapeType = XmlShapeTypePresGraphicObjectShape; } else if(aType.EqualsAscii("Page", 26, 4)) { eShapeType = XmlShapeTypePresPageShape; } else if(aType.EqualsAscii("OLE2", 26, 4)) { eShapeType = XmlShapeTypePresOLE2Shape; } else if(aType.EqualsAscii("Chart", 26, 5)) { eShapeType = XmlShapeTypePresChartShape; } else if(aType.EqualsAscii("Table", 26, 5)) { eShapeType = XmlShapeTypePresTableShape; } else if(aType.EqualsAscii("OrgChart", 26, 8)) { eShapeType = XmlShapeTypePresOrgChartShape; } else if(aType.EqualsAscii("Notes", 26, 5)) { eShapeType = XmlShapeTypePresNotesShape; } else if(aType.EqualsAscii("HandoutShape", 26, 12)) { eShapeType = XmlShapeTypeHandoutShape; } } } } } /////////////////////////////////////////////////////////////////////// #ifndef _COM_SUN_STAR_DRAWING_XGLUEPOINTSSUPPLIER_HPP_ #include #endif #ifndef _COM_SUN_STAR_CONTAINER_XIDENTIFIERACCESS_HPP_ #include #endif #ifndef _COM_SUN_STAR_DRAWING_GLUEPOINT2_HPP_ #include #endif #ifndef _COM_SUN_STAR_DRAWING_ALIGNMENT_HPP_ #include #endif #ifndef _COM_SUN_STAR_DRAWING_ESCAPEDIRECTION_HPP_ #include #endif #ifndef _XMLOFF_XMLUCONV_HXX #include "xmluconv.hxx" #endif #include "xmlnmspe.hxx" extern SvXMLEnumMapEntry aXML_GlueAlignment_EnumMap[]; extern SvXMLEnumMapEntry aXML_GlueEscapeDirection_EnumMap[]; /** exports all user defined glue points */ 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; uno::Sequence< sal_Int32 > aIdSequence( xGluePoints->getIdentifiers() ); const sal_Int32 nCount = aIdSequence.getLength(); for( sal_Int32 nIndex = 0; nIndex < nCount; nIndex++ ) { const sal_Int32 nIdentifier = aIdSequence[nIndex]; if( (xGluePoints->getByIdentifier( nIdentifier ) >>= aGluePoint) && aGluePoint.IsUserDefined ) { // export only user defined glue points const OUString sId( OUString::valueOf( nIdentifier ) ); rExport.AddAttribute(XML_NAMESPACE_DRAW, XML_ID, sId ); rExport.GetMM100UnitConverter().convertMeasure(msBuffer, aGluePoint.Position.X); rExport.AddAttribute(XML_NAMESPACE_SVG, XML_X, msBuffer.makeStringAndClear()); rExport.GetMM100UnitConverter().convertMeasure(msBuffer, aGluePoint.Position.Y); rExport.AddAttribute(XML_NAMESPACE_SVG, XML_Y, msBuffer.makeStringAndClear()); if( !aGluePoint.IsRelative ) { SvXMLUnitConverter::convertEnum( msBuffer, aGluePoint.PositionAlignment, aXML_GlueAlignment_EnumMap ); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_ALIGN, msBuffer.makeStringAndClear() ); } if( aGluePoint.Escape != drawing::EscapeDirection_SMART ) { SvXMLUnitConverter::convertEnum( msBuffer, aGluePoint.Escape, aXML_GlueEscapeDirection_EnumMap ); rExport.AddAttribute( XML_NAMESPACE_DRAW, XML_ESCAPE_DIRECTION, msBuffer.makeStringAndClear() ); } SvXMLElementExport aEventsElemt(rExport, XML_NAMESPACE_DRAW, XML_GLUE_POINT, sal_True, sal_True); } } }