/* -*- 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 namespace oox::vml { using namespace ::com::sun::star; using namespace ::com::sun::star::awt; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::drawing; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::text; using namespace ::com::sun::star::uno; using ::oox::core::XmlFilterBase; namespace { /** Returns the textual representation of a numeric VML shape identifier. */ OUString lclGetShapeId( sal_Int32 nShapeId ) { // identifier consists of a literal NUL character, a lowercase 's', and the id static constexpr OUStringLiteral aStr = u"\0s"; return aStr + OUString::number( nShapeId ); } /** Returns the numeric VML shape identifier from its textual representation. */ sal_Int32 lclGetShapeId( std::u16string_view rShapeId ) { // identifier consists of a literal NUL character, a lowercase 's', and the id return ((rShapeId.size() >= 3) && (rShapeId[ 0 ] == '\0') && (rShapeId[ 1 ] == 's')) ? o3tl::toInt32(rShapeId.substr( 2 )) : -1; } } // namespace OleObjectInfo::OleObjectInfo( bool bDmlShape ) : mbAutoLoad( false ), mbDmlShape( bDmlShape ) { } void OleObjectInfo::setShapeId( sal_Int32 nShapeId ) { maShapeId = lclGetShapeId( nShapeId ); } ControlInfo::ControlInfo() : mbTextContentShape(false) { } void ControlInfo::setShapeId( sal_Int32 nShapeId ) { maShapeId = lclGetShapeId(nShapeId); } Drawing::Drawing( XmlFilterBase& rFilter, const Reference< XDrawPage >& rxDrawPage, DrawingType eType ) : mrFilter( rFilter ), mxDrawPage( rxDrawPage ), mxShapes( new ShapeContainer( *this ) ), meType( eType ) { OSL_ENSURE( mxDrawPage.is(), "Drawing::Drawing - missing UNO draw page" ); } Drawing::~Drawing() { } ::oox::ole::EmbeddedForm& Drawing::getControlForm() const { if (!mxCtrlForm) mxCtrlForm.reset( new ::oox::ole::EmbeddedForm( mrFilter.getModel(), mxDrawPage, mrFilter.getGraphicHelper() ) ); return *mxCtrlForm; } void Drawing::registerBlockId( sal_Int32 nBlockId ) { OSL_ENSURE( nBlockId > 0, "Drawing::registerBlockId - invalid block index" ); if( nBlockId > 0 ) { // lower_bound() returns iterator pointing to element equal to nBlockId, if existing BlockIdVector::iterator aIt = ::std::lower_bound( maBlockIds.begin(), maBlockIds.end(), nBlockId ); if( (aIt == maBlockIds.end()) || (nBlockId != *aIt) ) maBlockIds.insert( aIt, nBlockId ); } } void Drawing::registerOleObject( const OleObjectInfo& rOleObject ) { OSL_ENSURE( !rOleObject.maShapeId.isEmpty(), "Drawing::registerOleObject - missing OLE object shape id" ); OSL_ENSURE( maOleObjects.count( rOleObject.maShapeId ) == 0, "Drawing::registerOleObject - OLE object already registered" ); maOleObjects.emplace( rOleObject.maShapeId, rOleObject ); } void Drawing::registerControl( const ControlInfo& rControl ) { OSL_ENSURE( !rControl.maShapeId.isEmpty(), "Drawing::registerControl - missing form control shape id" ); OSL_ENSURE( !rControl.maName.isEmpty(), "Drawing::registerControl - missing form control name" ); OSL_ENSURE( maControls.count( rControl.maShapeId ) == 0, "Drawing::registerControl - form control already registered" ); maControls.emplace( rControl.maShapeId, rControl ); } void Drawing::finalizeFragmentImport() { mxShapes->finalizeFragmentImport(); } void Drawing::convertAndInsert() const { Reference< XShapes > xShapes( mxDrawPage ); mxShapes->convertAndInsert( xShapes ); // Group together form control radio buttons that are in the same groupBox std::map GroupBoxMap; std::map, tools::Rectangle> RadioButtonMap; for ( sal_Int32 i = 0; i < xShapes->getCount(); ++i ) { try { Reference< XControlShape > xCtrlShape( xShapes->getByIndex(i), UNO_QUERY ); if (!xCtrlShape.is()) continue; Reference< XControlModel > xCtrlModel( xCtrlShape->getControl(), UNO_SET_THROW ); Reference< XServiceInfo > xModelSI (xCtrlModel, UNO_QUERY_THROW ); Reference< XPropertySet > aProps( xCtrlModel, UNO_QUERY_THROW ); OUString sName; aProps->getPropertyValue(u"Name"_ustr) >>= sName; const ::Point aPoint( xCtrlShape->getPosition().X, xCtrlShape->getPosition().Y ); const ::Size aSize( xCtrlShape->getSize().Width, xCtrlShape->getSize().Height ); const tools::Rectangle aRect( aPoint, aSize ); if ( !sName.isEmpty() && xModelSI->supportsService(u"com.sun.star.awt.UnoControlGroupBoxModel"_ustr) ) { GroupBoxMap[sName] = aRect; } else if ( xModelSI->supportsService(u"com.sun.star.awt.UnoControlRadioButtonModel"_ustr) ) { OUString sGroupName; aProps->getPropertyValue(u"GroupName"_ustr) >>= sGroupName; // only Form Controls are affected by Group Boxes - see drawingfragment.cxx if ( sGroupName == "autoGroup_formControl" ) RadioButtonMap[aProps] = aRect; } } catch (uno::Exception&) { DBG_UNHANDLED_EXCEPTION("oox.vml"); } } for ( const auto& BoxItr : GroupBoxMap ) { const uno::Any aGroup( "autoGroup_" + BoxItr.first ); for ( auto RadioItr = RadioButtonMap.begin(); RadioItr != RadioButtonMap.end(); ) { if ( BoxItr.second.Contains(RadioItr->second) ) { RadioItr->first->setPropertyValue(u"GroupName"_ustr, aGroup ); // If conflict, first created GroupBox wins RadioItr = RadioButtonMap.erase(RadioItr); } else ++RadioItr; } } } sal_Int32 Drawing::getLocalShapeIndex( std::u16string_view rShapeId ) const { sal_Int32 nShapeId = lclGetShapeId( rShapeId ); if( nShapeId <= 0 ) return -1; /* Shapes in a drawing are counted per registered shape identifier blocks as stored in the o:idmap element. The contents of this element have been stored in our member maBlockIds. Each block represents 1024 shape identifiers, starting with identifier 1 for the block #0. This means, block #0 represents the identifiers 1-1024, block #1 represents the identifiers 1025-2048, and so on. The local shape index has to be calculated according to all blocks registered for this drawing. Example: Registered for this drawing are blocks #1 and #3 (shape identifiers 1025-2048 and 3073-4096). Shape identifier 1025 -> local shape index 1. Shape identifier 1026 -> local shape index 2. ... Shape identifier 2048 -> local shape index 1024. Shape identifier 3073 -> local shape index 1025. ... Shape identifier 4096 -> local shape index 2048. */ // get block id from shape id and find its index in the list of used blocks sal_Int32 nBlockId = (nShapeId - 1) / 1024; BlockIdVector::iterator aIt = ::std::lower_bound( maBlockIds.begin(), maBlockIds.end(), nBlockId ); sal_Int32 nIndex = static_cast< sal_Int32 >( aIt - maBlockIds.begin() ); // block id not found in set -> register it now (value of nIndex remains valid) if( (aIt == maBlockIds.end()) || (*aIt != nBlockId) ) maBlockIds.insert( aIt, nBlockId ); // get one-based offset of shape id in its block sal_Int32 nBlockOffset = (nShapeId - 1) % 1024 + 1; // calculate the local shape index return 1024 * nIndex + nBlockOffset; } const OleObjectInfo* Drawing::getOleObjectInfo( const OUString& rShapeId ) const { return ContainerHelper::getMapElement( maOleObjects, rShapeId ); } const ControlInfo* Drawing::getControlInfo( const OUString& rShapeId ) const { return ContainerHelper::getMapElement( maControls, rShapeId ); } Reference< XShape > Drawing::createAndInsertXShape( const OUString& rService, const Reference< XShapes >& rxShapes, const awt::Rectangle& rShapeRect ) const { OSL_ENSURE( !rService.isEmpty(), "Drawing::createAndInsertXShape - missing UNO shape service name" ); OSL_ENSURE( rxShapes.is(), "Drawing::createAndInsertXShape - missing XShapes container" ); Reference< XShape > xShape; if( !rService.isEmpty() && rxShapes.is() ) try { Reference< XMultiServiceFactory > xModelFactory( mrFilter.getModelFactory(), UNO_SET_THROW ); xShape.set( xModelFactory->createInstance( rService ), UNO_QUERY_THROW ); if ( rService != "com.sun.star.text.TextFrame" ) { // insert shape into passed shape collection (maybe drawpage or group shape) rxShapes->add( xShape ); xShape->setPosition( awt::Point( rShapeRect.X, rShapeRect.Y ) ); } else { Reference< XPropertySet > xPropSet( xShape, UNO_QUERY_THROW ); xPropSet->setPropertyValue( u"HoriOrient"_ustr, Any( HoriOrientation::NONE ) ); xPropSet->setPropertyValue( u"VertOrient"_ustr, Any( VertOrientation::NONE ) ); xPropSet->setPropertyValue( u"HoriOrientPosition"_ustr, Any( rShapeRect.X ) ); xPropSet->setPropertyValue( u"VertOrientPosition"_ustr, Any( rShapeRect.Y ) ); xPropSet->setPropertyValue( u"HoriOrientRelation"_ustr, Any( RelOrientation::FRAME ) ); xPropSet->setPropertyValue( u"VertOrientRelation"_ustr, Any( RelOrientation::FRAME ) ); } xShape->setSize( awt::Size( rShapeRect.Width, rShapeRect.Height ) ); } catch( const Exception& ) { TOOLS_WARN_EXCEPTION( "oox", "Drawing::createAndInsertXShape - error during shape object creation" ); } OSL_ENSURE( xShape.is(), "Drawing::createAndInsertXShape - cannot instantiate shape object" ); return xShape; } Reference< XShape > Drawing::createAndInsertXControlShape( const ::oox::ole::EmbeddedControl& rControl, const Reference< XShapes >& rxShapes, const awt::Rectangle& rShapeRect, sal_Int32& rnCtrlIndex ) const { Reference< XShape > xShape; try { // create control model and insert it into the form of the draw page Reference< XControlModel > xCtrlModel( getControlForm().convertAndInsert( rControl, rnCtrlIndex ), UNO_SET_THROW ); // create the control shape xShape = createAndInsertXShape( u"com.sun.star.drawing.ControlShape"_ustr, rxShapes, rShapeRect ); // set the control model at the shape Reference< XControlShape >( xShape, UNO_QUERY_THROW )->setControl( xCtrlModel ); } catch (Exception const&) { TOOLS_WARN_EXCEPTION("oox", "exception inserting Shape"); } return xShape; } bool Drawing::isShapeSupported( const ShapeBase& /*rShape*/ ) const { return true; } OUString Drawing::getShapeBaseName( const ShapeBase& /*rShape*/ ) const { return OUString(); } bool Drawing::convertClientAnchor( awt::Rectangle& /*orShapeRect*/, const OUString& /*rShapeAnchor*/ ) const { return false; } Reference< XShape > Drawing::createAndInsertClientXShape( const ShapeBase& /*rShape*/, const Reference< XShapes >& /*rxShapes*/, const awt::Rectangle& /*rShapeRect*/ ) const { return Reference< XShape >(); } void Drawing::notifyXShapeInserted( const Reference< XShape >& /*rxShape*/, const awt::Rectangle& /*rShapeRect*/, const ShapeBase& /*rShape*/, bool /*bGroupChild*/ ) { } } // namespace oox::vml /* vim:set shiftwidth=4 softtabstop=4 expandtab: */