| Quellcodebibliothek Statistik Leitseite products/sources/formale Sprachen/C/LibreOffice/slideshow/source/engine/shapes/ (Office von Apache Version 25.8.3.2©) Datei vom 5.10.2025 mit Größe 52 kB |
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Quelle drawshape.cxx Sprache: C |
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/* -*- 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 <comphelper/diagnose_ex.hxx> #include <sal/log.hxx> #include <com/sun/star/beans/XPropertySet.hpp> #include <o3tl/safeint.hxx> #include <utility> #include <vcl/metaact.hxx> #include <vcl/gdimtf.hxx> #include <vcl/graph.hxx> #include <basegfx/numeric/ftools.hxx> #include <com/sun/star/drawing/TextAnimationKind.hpp> #include <comphelper/scopeguard.hxx> #include <algorithm> #include <iterator> #include <functional> #include "drawshapesubsetting.hxx" #include "drawshape.hxx" #include <eventqueue.hxx> #include <wakeupevent.hxx> #include <subsettableshapemanager.hxx> #include "intrinsicanimationactivity.hxx" #include <tools.hxx> #include "gdimtftools.hxx" #include "drawinglayeranimation.hxx" using namespace ::com::sun::star; namespace slideshow::internal { // Private methods GDIMetaFileSharedPtr const & DrawShape::forceScrollTextMetaFile() { if ((mnCurrMtfLoadFlags & MTF_LOAD_SCROLL_TEXT_MTF) != MTF_LOAD_SCROLL_TEXT_MTF) { // reload with added flags: mnCurrMtfLoadFlags |= MTF_LOAD_SCROLL_TEXT_MTF; mpCurrMtf = getMetaFile(uno::Reference<lang::XComponent>(mxShape, uno::UNO_QUERY), mxPage, mnCurrMtfLoadFlags, mxComponentContext); if (!mpCurrMtf) mpCurrMtf = std::make_shared<GDIMetaFile>(); // TODO(F1): Currently, the scroll metafile will // never contain any verbose text comments. Thus, // can only display the full mtf content, no // subsets. maSubsetting.reset( mpCurrMtf ); // adapt maBounds. the requested scroll text metafile // will typically have dimension different from the // actual shape ::basegfx::B2DRectangle aScrollRect, aPaintRect; ENSURE_OR_THROW( getRectanglesFromScrollMtf( aScrollRect, aPaintRect, mpCurrMtf ), "DrawShape::forceScrollTextMetaFile(): Could " "not extract scroll anim rectangles from mtf" ); // take the larger one of the two rectangles (that // should be the bound rect of the retrieved // metafile) if( aScrollRect.isInside( aPaintRect ) ) maBounds = aScrollRect; else maBounds = aPaintRect; } return mpCurrMtf; } void DrawShape::updateStateIds() const { // Update the states, we've just redrawn or created a new // attribute layer. if( mpAttributeLayer ) { mnAttributeTransformationState = mpAttributeLayer->getTransformationState(); mnAttributeClipState = mpAttributeLayer->getClipState(); mnAttributeAlphaState = mpAttributeLayer->getAlphaState(); mnAttributePositionState = mpAttributeLayer->getPositionState(); mnAttributeContentState = mpAttributeLayer->getContentState(); mnAttributeVisibilityState = mpAttributeLayer->getVisibilityState(); } } ViewShape::RenderArgs DrawShape::getViewRenderArgs() const { return ViewShape::RenderArgs( maBounds, getUpdateArea(), getBounds(), getActualUnitShapeBounds(), mpAttributeLayer, maSubsetting.getActiveSubsets(), mnPriority); } bool DrawShape::implRender( UpdateFlags nUpdateFlags ) const { SAL_INFO( "slideshow", "::presentation::internal::DrawShape::implRender()" ); SAL_INFO( "slideshow", "::presentation::internal::DrawShape: 0x" << std::hex << this ); // will perform the update now, clear update-enforcing // flags mbForceUpdate = false; mbAttributeLayerRevoked = false; ENSURE_OR_RETURN_FALSE( !maViewShapes.empty(), "DrawShape::implRender(): render called on DrawShape without views" ); if( maBounds.isEmpty() ) { // zero-sized shapes are effectively invisible, // thus, we save us the rendering... return true; } // redraw all view shapes, by calling their update() method ViewShape::RenderArgs renderArgs( getViewRenderArgs() ); bool bVisible = isVisible(); if( o3tl::make_unsigned(::std::count_if( maViewShapes.begin(), maViewShapes.end(), [this, &bVisible, &renderArgs, &nUpdateFlags] ( const ViewShapeSharedPtr& pShape ) { return pShape->update( this->mpCurrMtf, renderArgs, nUpdateFlags, bVisible ); } )) != maViewShapes.size() ) { // at least one of the ViewShape::update() calls did return // false - update failed on at least one ViewLayer return false; } // successfully redrawn - update state IDs to detect next changes updateStateIds(); return true; } UpdateFlags DrawShape::getUpdateFlags() const { // default: update nothing, unless ShapeAttributeStack // tells us below, or if the attribute layer was revoked UpdateFlags nUpdateFlags(UpdateFlags::NONE); // possibly the whole shape content changed if( mbAttributeLayerRevoked ) nUpdateFlags = UpdateFlags::Content; // determine what has to be updated // do we have an attribute layer? if( mpAttributeLayer ) { // Prevent nUpdateFlags to be modified when the shape is not // visible, except when it just was hidden. if (mpAttributeLayer->getVisibility() || mpAttributeLayer->getVisibilityState() != mnAttributeVisibilityState ) { if (mpAttributeLayer->getVisibilityState() != mnAttributeVisibilityState ) { // Change of the visibility state is mapped to // content change because when the visibility // changes then usually a sprite is shown or hidden // and the background under has to be painted once. nUpdateFlags |= UpdateFlags::Content; } // TODO(P1): This can be done without conditional branching. // See HAKMEM. if( mpAttributeLayer->getPositionState() != mnAttributePositionState ) { nUpdateFlags |= UpdateFlags::Position; } if( mpAttributeLayer->getAlphaState() != mnAttributeAlphaState ) { nUpdateFlags |= UpdateFlags::Alpha; } if( mpAttributeLayer->getClipState() != mnAttributeClipState ) { nUpdateFlags |= UpdateFlags::Clip; } if( mpAttributeLayer->getTransformationState() != mnAttributeTransformationState ) { nUpdateFlags |= UpdateFlags::Transformation; } if( mpAttributeLayer->getContentState() != mnAttributeContentState ) { nUpdateFlags |= UpdateFlags::Content; } } } return nUpdateFlags; } ::basegfx::B2DRectangle DrawShape::getActualUnitShapeBounds() const { ENSURE_OR_THROW( !maViewShapes.empty(), "DrawShape::getActualUnitShapeBounds(): called on DrawShape without views" ); const VectorOfDocTreeNodes& rSubsets( maSubsetting.getActiveSubsets() ); const ::basegfx::B2DRectangle aDefaultBounds( 0.0,0.0,1.0,1.0 ); // perform the cheapest check first if( rSubsets.empty() ) { // if subset contains the whole shape, no need to call // the somewhat expensive bound calculation, since as // long as the subset is empty, this branch will be // taken. return aDefaultBounds; } else { OSL_ENSURE( rSubsets.size() != 1 || !rSubsets.front().isEmpty(), "DrawShape::getActualUnitShapeBounds() expects a " "_non-empty_ subset vector for a subsetted shape!" ); // are the cached bounds still valid? if( !maCurrentShapeUnitBounds ) { // no, (re)generate them // ===================== // setup cached values to defaults (might fail to // retrieve true bounds below) maCurrentShapeUnitBounds = aDefaultBounds; // TODO(P2): the subset of the master shape (that from // which the subsets are subtracted) changes // relatively often (every time a subset shape is // added or removed). Maybe we should exclude it here, // always assuming full bounds? ::cppcanvas::CanvasSharedPtr pDestinationCanvas( maViewShapes.front()->getViewLayer()->getCanvas() ); // TODO(Q2): Although this _is_ currently // view-agnostic, it might not stay like // that. Maybe this method should again be moved // to the ViewShape ::cppcanvas::RendererSharedPtr pRenderer( maViewShapes.front()->getRenderer( pDestinationCanvas, mpCurrMtf, mpAttributeLayer ) ); // If we cannot not prefetch, be defensive and assume // full shape size if( pRenderer ) { // temporarily, switch total transformation to identity // (need the bounds in the [0,1]x[0,1] unit coordinate // system. ::basegfx::B2DHomMatrix aEmptyTransformation; ::basegfx::B2DHomMatrix aOldTransform( pDestinationCanvas->getTransformation() ); pDestinationCanvas->setTransformation( aEmptyTransformation ); pRenderer->setTransformation( aEmptyTransformation ); // restore old transformation when leaving the scope const ::comphelper::ScopeGuard aGuard( [&pDestinationCanvas, &aOldTransform]() { return pDestinationCanvas->setTransformation( aOldTransform ); } ); // retrieve bounds for subset of whole metafile ::basegfx::B2DRange aTotalBounds; // cannot use ::boost::bind, ::basegfx::B2DRange::expand() // is overloaded. for( const auto& rDocTreeNode : rSubsets ) aTotalBounds.expand( pRenderer->getSubsetArea( rDocTreeNode.getStartIndex(), rDocTreeNode.getEndIndex() ) ); OSL_ENSURE( aTotalBounds.getMinX() >= -0.1 && aTotalBounds.getMinY() >= -0.1 && aTotalBounds.getMaxX() <= 1.1 && aTotalBounds.getMaxY() <= 1.1, "DrawShape::getActualUnitShapeBounds(): bounds noticeably larger than original s // really make sure no shape appears larger than its // original bounds (there _are_ some pathologic cases, // especially when imported from PPT, that have // e.g. obscenely large polygon bounds) aTotalBounds.intersect( ::basegfx::B2DRange( 0.0, 0.0, 1.0, 1.0 )); maCurrentShapeUnitBounds = aTotalBounds; } } return *maCurrentShapeUnitBounds; } } DrawShape::DrawShape( const uno::Reference< drawing::XShape >& xShape, const uno::Reference< drawing::XDrawPage >& xContainingPage, double nPrio, bool bForeignSource, const SlideShowContext& rContext ) : mxShape( xShape ), mxPage( xContainingPage ), maAnimationFrames(), // empty, we don't have no intrinsic animation mnCurrFrame(0), mpGraphicLoader(), mpCurrMtf(), mnCurrMtfLoadFlags( bForeignSource ? MTF_LOAD_FOREIGN_SOURCE : MTF_LOAD_NONE ), maCurrentShapeUnitBounds(), mnPriority( nPrio ), // TODO(F1): When ZOrder someday becomes usable: make this ( getAPIShape maBounds( getAPIShapeBounds( xShape ) ), mpAttributeLayer(), mpIntrinsicAnimationActivity(), mnAttributeTransformationState(0), mnAttributeClipState(0), mnAttributeAlphaState(0), mnAttributePositionState(0), mnAttributeContentState(0), mnAttributeVisibilityState(0), maViewShapes(), mxComponentContext( rContext.mxComponentContext ), maHyperlinkIndices(), maHyperlinkRegions(), maSubsetting(), mnIsAnimatedCount(0), mnAnimationLoopCount(0), mbIsVisible( true ), mbForceUpdate( false ), mbAttributeLayerRevoked( false ), mbDrawingLayerAnim( false ), mbContainsPageField( false ) { ENSURE_OR_THROW( mxShape.is(), "DrawShape::DrawShape(): Invalid XShape" ); ENSURE_OR_THROW( mxPage.is(), "DrawShape::DrawShape(): Invalid containing page" ); // check for drawing layer animations: drawing::TextAnimationKind eKind = drawing::TextAnimationKind_NONE; uno::Reference<beans::XPropertySet> xPropSet( mxShape, uno::UNO_QUERY ); if( xPropSet.is() ) getPropertyValue( eKind, xPropSet, u"TextAnimationKind"_ustr ); mbDrawingLayerAnim = (eKind != drawing::TextAnimationKind_NONE); // must NOT be called from within initializer list, uses // state from mnCurrMtfLoadFlags! mpCurrMtf = getMetaFile(uno::Reference<lang::XComponent>(xShape, uno::UNO_QUERY), xContainingPage, mnCurrMtfLoadFlags, mxComponentContext ); if (!mpCurrMtf) mpCurrMtf = std::make_shared<GDIMetaFile>(); maSubsetting.reset( mpCurrMtf ); prepareHyperlinkIndices(); if(mbContainsPageField && !maBounds.isEmpty()) { // tdf#150402 Use mbContainsPageField that gets set in prepareHyperlinkIndices // which has to be run anyways, so this will cause no harm in execution speed. // It lets us detect the potential error case that a PageField is contained in // the Text of the Shape. That is a hint that maBounds contains the wrong Range // and needs to be corrected. The correct size is in the PrefSize of the metafile. // For more background information please refer to tdf#150402, Comment 16. const double fWidthDiff(fabs(mpCurrMtf->GetPrefSize().Width() - maBounds.getWidth())) const double fHeightDiff(fabs(mpCurrMtf->GetPrefSize().Height() - maBounds.getHeight( if(fWidthDiff > 1.0 || fHeightDiff > 1.0) { maBounds = basegfx::B2DRange( maBounds.getMinX(), maBounds.getMinY(), maBounds.getMinX() + mpCurrMtf->GetPrefSize().Width(), maBounds.getMinY() + mpCurrMtf->GetPrefSize().Height()); } } } DrawShape::DrawShape( const uno::Reference< drawing::XShape >& xShape, uno::Reference< drawing::XDrawPage > xContainingPage, double nPrio, std::shared_ptr<Graphic> pGraphic, const SlideShowContext& rContext ) : mxShape( xShape ), mxPage(std::move( xContainingPage )), maAnimationFrames(), mnCurrFrame(0), mpGraphicLoader(), mpCurrMtf(), mnCurrMtfLoadFlags( MTF_LOAD_NONE ), maCurrentShapeUnitBounds(), mnPriority( nPrio ), // TODO(F1): When ZOrder someday becomes usable: make this ( getAPIShape maBounds( getAPIShapeBounds( xShape ) ), mpAttributeLayer(), mpIntrinsicAnimationActivity(), mnAttributeTransformationState(0), mnAttributeClipState(0), mnAttributeAlphaState(0), mnAttributePositionState(0), mnAttributeContentState(0), mnAttributeVisibilityState(0), maViewShapes(), mxComponentContext( rContext.mxComponentContext ), maHyperlinkIndices(), maHyperlinkRegions(), maSubsetting(), mnIsAnimatedCount(0), mnAnimationLoopCount(0), mbIsVisible( true ), mbForceUpdate( false ), mbAttributeLayerRevoked( false ), mbDrawingLayerAnim( false ), mbContainsPageField( false ) { ENSURE_OR_THROW( pGraphic->IsAnimated(), "DrawShape::DrawShape(): Graphic is no animation" ); ::Animation aAnimation(pGraphic->GetAnimation()); const Size aAnimSize(aAnimation.GetDisplaySizePixel()); tools::Long nBitmapPixels = aAnimSize.getWidth() * aAnimSize.getHeight(); tools::Long nFramesToLoad = aAnimation.Count(); // if the Animation is bigger then 5 million pixels, we do not load the // whole animation now. if (nBitmapPixels * aAnimation.Count() > 5000000) { nFramesToLoad = 5000000 / nBitmapPixels; if (nFramesToLoad < 10) nFramesToLoad = 10; } mpGraphicLoader = ::std::make_unique<DelayedGraphicLoader>(pGraphic); getSomeAnimationFramesFromGraphic(nFramesToLoad); ENSURE_OR_THROW( !maAnimationFrames.empty() && maAnimationFrames.front().mpMtf, "DrawShape::DrawShape(): " ); mpCurrMtf = maAnimationFrames.front().mpMtf; ENSURE_OR_THROW( mxShape.is(), "DrawShape::DrawShape(): Invalid XShape" ); ENSURE_OR_THROW( mxPage.is(), "DrawShape::DrawShape(): Invalid containing page" ); ENSURE_OR_THROW( mpCurrMtf, "DrawShape::DrawShape(): Invalid metafile" ); } DrawShape::DrawShape( const DrawShape& rSrc, const DocTreeNode& rTreeNode, double nPrio ) : mxShape( rSrc.mxShape ), mxPage( rSrc.mxPage ), maAnimationFrames(), // don't copy animations for subsets, // only the current frame! mnCurrFrame(0), mpGraphicLoader(), mpCurrMtf( rSrc.mpCurrMtf ), mnCurrMtfLoadFlags( rSrc.mnCurrMtfLoadFlags ), maCurrentShapeUnitBounds(), mnPriority( nPrio ), maBounds( rSrc.maBounds ), mpAttributeLayer(), mpIntrinsicAnimationActivity(), mnAttributeTransformationState(0), mnAttributeClipState(0), mnAttributeAlphaState(0), mnAttributePositionState(0), mnAttributeContentState(0), mnAttributeVisibilityState(0), maViewShapes(), mxComponentContext( rSrc.mxComponentContext ), maHyperlinkIndices(), maHyperlinkRegions(), maSubsetting( rTreeNode, mpCurrMtf ), mnIsAnimatedCount(0), mnAnimationLoopCount(0), mbIsVisible( rSrc.mbIsVisible ), mbForceUpdate( false ), mbAttributeLayerRevoked( false ), mbDrawingLayerAnim( false ), mbContainsPageField( false ) { ENSURE_OR_THROW( mxShape.is(), "DrawShape::DrawShape(): Invalid XShape" ); ENSURE_OR_THROW( mpCurrMtf, "DrawShape::DrawShape(): Invalid metafile" ); // xxx todo: currently not implemented for subsetted shapes; // would mean modifying set of hyperlink regions when // subsetting text portions. N.B.: there's already an // issue for this #i72828# } // Public methods DrawShapeSharedPtr DrawShape::create( const uno::Reference< drawing::XShape >& xShape, const uno::Reference< drawing::XDrawPage >& xContainingPage, double nPrio, bool bForeignSource, const SlideShowContext& rContext ) { DrawShapeSharedPtr pShape( new DrawShape(xShape, xContainingPage, nPrio, bForeignSource, rContext) ); if( pShape->hasIntrinsicAnimation() ) { OSL_ASSERT( pShape->maAnimationFrames.empty() ); if( pShape->getNumberOfTreeNodes( DocTreeNode::NodeType::LogicalParagraph) > 0 ) { pShape->mpIntrinsicAnimationActivity = createDrawingLayerAnimActivity( rContext, pShape); } } if( pShape->hasHyperlinks() ) rContext.mpSubsettableShapeManager->addHyperlinkArea( pShape ); return pShape; } DrawShapeSharedPtr DrawShape::create( const uno::Reference< drawing::XShape >& xShape, const uno::Reference< drawing::XDrawPage >& xContainingPage, double nPrio, std::shared_ptr<Graphic> pGraphic, const SlideShowContext& rContext ) { DrawShapeSharedPtr pShape( new DrawShape(xShape, xContainingPage, nPrio, std::move(pGraphic), rContext) ); if( pShape->hasIntrinsicAnimation() ) { OSL_ASSERT( !pShape->maAnimationFrames.empty() ); std::vector<double> aTimeout; std::transform( pShape->maAnimationFrames.begin(), pShape->maAnimationFrames.end(), std::back_insert_iterator< std::vector<double> >( aTimeout ), std::mem_fn(&MtfAnimationFrame::getDuration) ); WakeupEventSharedPtr pWakeupEvent = std::make_shared<WakeupEvent>( rContext.mrEventQueue.getTimer(), rContext.mrActivitiesQueue ); ActivitySharedPtr pActivity = createIntrinsicAnimationActivity( rContext, pShape, pWakeupEvent, std::move(aTimeout), pShape->mnAnimationLoopCount); pWakeupEvent->setActivity( pActivity ); pShape->mpIntrinsicAnimationActivity = pActivity; } OSL_ENSURE( !pShape->hasHyperlinks(), "DrawShape::create(): graphic-only shapes must not have hyperlinks!" ); return pShape; } DrawShape::~DrawShape() { try { // dispose intrinsic animation activity, else, it will // linger forever ActivitySharedPtr pActivity( mpIntrinsicAnimationActivity.lock() ); if( pActivity ) pActivity->dispose(); } catch (uno::Exception const &) { DBG_UNHANDLED_EXCEPTION("slideshow"); } } uno::Reference< drawing::XShape > DrawShape::getXShape() const { return mxShape; } void DrawShape::addViewLayer( const ViewLayerSharedPtr& rNewLayer, bool bRedrawLayer ) { // already added? if( ::std::any_of( maViewShapes.begin(), maViewShapes.end(), [&rNewLayer] ( const ViewShapeSharedPtr& pShape ) { return rNewLayer == pShape->getViewLayer(); } ) ) { // yes, nothing to do return; } ViewShapeSharedPtr pNewShape = std::make_shared<ViewShape>( rNewLayer ); maViewShapes.push_back( pNewShape ); // pass on animation state if( mnIsAnimatedCount ) { for( int i=0; i<mnIsAnimatedCount; ++i ) pNewShape->enterAnimationMode(); } // render the Shape on the newly added ViewLayer if( bRedrawLayer ) { pNewShape->update( mpCurrMtf, getViewRenderArgs(), UpdateFlags::Force, isVisible() ); } } bool DrawShape::removeViewLayer( const ViewLayerSharedPtr& rLayer ) { const ViewShapeVector::iterator aEnd( maViewShapes.end() ); OSL_ENSURE( ::std::count_if(maViewShapes.begin(), aEnd, [&rLayer] ( const ViewShapeSharedPtr& pShape ) { return rLayer == pShape->getViewLayer(); } ) < 2, "DrawShape::removeViewLayer(): Duplicate ViewLayer entries!" ); // TODO : needed for the moment since ANDROID doesn't know size_t return from std::erase_if #if defined ANDROID ViewShapeVector::iterator aIter; if( (aIter=::std::remove_if( maViewShapes.begin(), aEnd, [&rLayer] ( const ViewShapeSharedPtr& pShape ) { return rLayer == pShape->getViewLayer(); } ) ) == aEnd ) { // view layer seemingly was not added, failed return false; } // actually erase from container maViewShapes.erase( aIter, aEnd ); return true; #else size_t nb = std::erase_if(maViewShapes, [&rLayer] ( const ViewShapeSharedPtr& pShape ) { return rLayer == pShape->getViewLayer(); } ); // if nb == 0, it means view shape seemingly was not added, failed return (nb != 0); #endif } void DrawShape::clearAllViewLayers() { maViewShapes.clear(); } bool DrawShape::update() const { if( mbForceUpdate ) { return render(); } else { return implRender( getUpdateFlags() ); } } bool DrawShape::render() const { // force redraw. Have to also pass on the update flags, // because e.g. content update (regeneration of the // metafile renderer) is normally not performed. A simple // UpdateFlags::Force would only paint the metafile in its // old state. return implRender( UpdateFlags::Force | getUpdateFlags() ); } bool DrawShape::isContentChanged() const { return mbForceUpdate || getUpdateFlags() != UpdateFlags::NONE; } ::basegfx::B2DRectangle DrawShape::getBounds() const { // little optimization: for non-modified shapes, we don't // create an ShapeAttributeStack, and therefore also don't // have to check it. return getShapePosSize( maBounds, mpAttributeLayer ); } ::basegfx::B2DRectangle DrawShape::getDomBounds() const { return maBounds; } ::basegfx::B2DRectangle DrawShape::getUpdateArea() const { ::basegfx::B2DRectangle aBounds; // an already empty shape bound need no further // treatment. In fact, any changes applied below would // actually remove the special empty state, thus, don't // change! if( !maBounds.isEmpty() ) { basegfx::B2DRectangle aUnitBounds(0.0,0.0,1.0,1.0); if( !maViewShapes.empty() ) aUnitBounds = getActualUnitShapeBounds(); if( !aUnitBounds.isEmpty() ) { if( mpAttributeLayer ) { // calc actual shape area (in user coordinate // space) from the transformation as given by the // shape attribute layer aBounds = getShapeUpdateArea( aUnitBounds, getShapeTransformation( getBounds(), mpAttributeLayer ), mpAttributeLayer ); } else { // no attribute layer, thus, the true shape bounds // can be directly derived from the XShape bound // attribute aBounds = getShapeUpdateArea( aUnitBounds, maBounds ); } if( !maViewShapes.empty() ) { // determine border needed for antialiasing the shape ::basegfx::B2DSize aAABorder(0.0,0.0); // for every view, get AA border and 'expand' aAABorder // appropriately. for( const auto& rViewShape : maViewShapes ) { const ::basegfx::B2DSize rShapeBorder( rViewShape->getAntialiasingBorder() ); aAABorder.setWidth( ::std::max( rShapeBorder.getWidth(), aAABorder.getWidth() ) ); aAABorder.setHeight( ::std::max( rShapeBorder.getHeight(), aAABorder.getHeight() ) ); } // add calculated AA border to aBounds aBounds = ::basegfx::B2DRectangle( aBounds.getMinX() - aAABorder.getWidth(), aBounds.getMinY() - aAABorder.getHeight(), aBounds.getMaxX() + aAABorder.getWidth(), aBounds.getMaxY() + aAABorder.getHeight() ); } } } return aBounds; } bool DrawShape::isVisible() const { bool bIsVisible( mbIsVisible ); if( mpAttributeLayer ) { // check whether visibility and alpha are not default // (mpAttributeLayer->isVisibilityValid() returns true // then): bVisible becomes true, if shape visibility // is on and alpha is not 0.0 (fully transparent) if( mpAttributeLayer->isVisibilityValid() ) bIsVisible = mpAttributeLayer->getVisibility(); // only touch bIsVisible, if the shape is still // visible - if getVisibility already made us // invisible, no alpha value will make us appear // again. if( bIsVisible && mpAttributeLayer->isAlphaValid() ) bIsVisible = !::basegfx::fTools::equalZero( mpAttributeLayer->getAlpha() ); } return bIsVisible; } double DrawShape::getPriority() const { return mnPriority; } bool DrawShape::isBackgroundDetached() const { return mnIsAnimatedCount > 0; } bool DrawShape::hasIntrinsicAnimation() const { return (!maAnimationFrames.empty() || mbDrawingLayerAnim); } void DrawShape::setIntrinsicAnimationFrame( ::std::size_t nCurrFrame ) { ENSURE_OR_RETURN_VOID( nCurrFrame < maAnimationFrames.size(), "DrawShape::setIntrinsicAnimationFrame(): frame index out of bounds" ); // Load 1 more frame if needed. (make sure the current frame is loaded) if (mpGraphicLoader) getSomeAnimationFramesFromGraphic(1, nCurrFrame); if( mnCurrFrame != nCurrFrame ) { mnCurrFrame = nCurrFrame; mpCurrMtf = maAnimationFrames[ mnCurrFrame ].mpMtf; mbForceUpdate = true; } } // hyperlink support void DrawShape::prepareHyperlinkIndices() const { if ( !maHyperlinkIndices.empty()) { maHyperlinkIndices.clear(); maHyperlinkRegions.clear(); } sal_Int32 nIndex = 0; for ( MetaAction * pCurrAct = mpCurrMtf->FirstAction(); pCurrAct != nullptr; pCurrAct = mpCurrMtf->NextAction() ) { if (pCurrAct->GetType() == MetaActionType::COMMENT) { MetaCommentAction * pAct = static_cast<MetaCommentAction *>(pCurrAct); // skip comment if not a special XTEXT comment if (pAct->GetComment().equalsIgnoreAsciiCase("FIELD_SEQ_BEGIN") && // e.g. date field doesn't have data! // currently assuming that only url field, this is // somehow fragile! xxx todo if possible pAct->GetData() != nullptr && pAct->GetDataSize() > 0) { if (!maHyperlinkIndices.empty() && maHyperlinkIndices.back().second == -1) { SAL_WARN( "slideshow", "### pending FIELD_SEQ_END!" ); maHyperlinkIndices.pop_back(); maHyperlinkRegions.pop_back(); } maHyperlinkIndices.emplace_back( nIndex + 1, -1 /* to be filled below */ ); maHyperlinkRegions.emplace_back( basegfx::B2DRectangle(), OUString( reinterpret_cast<sal_Unicode const*>( pAct->GetData()), pAct->GetDataSize() / sizeof(sal_Unicode) ) ); } else if (pAct->GetComment().equalsIgnoreAsciiCase("FIELD_SEQ_END") && // pending end is expected: !maHyperlinkIndices.empty() && maHyperlinkIndices.back().second == -1) { maHyperlinkIndices.back().second = nIndex; } else if (pAct->GetComment().equalsIgnoreAsciiCase("FIELD_SEQ_BEGIN;PageField")) { mbContainsPageField = true; } ++nIndex; } else nIndex += getNextActionOffset(pCurrAct); } if (!maHyperlinkIndices.empty() && maHyperlinkIndices.back().second == -1) { SAL_WARN( "slideshow", "### pending FIELD_SEQ_END!" ); maHyperlinkIndices.pop_back(); maHyperlinkRegions.pop_back(); } OSL_ASSERT( maHyperlinkIndices.size() == maHyperlinkRegions.size()); } bool DrawShape::hasHyperlinks() const { return ! maHyperlinkRegions.empty(); } HyperlinkArea::HyperlinkRegions DrawShape::getHyperlinkRegions() const { OSL_ASSERT( !maViewShapes.empty() ); if( !isVisible() ) return HyperlinkArea::HyperlinkRegions(); // late init, determine regions: if( !maHyperlinkRegions.empty() && !maViewShapes.empty() && // region already inited? maHyperlinkRegions.front().first.getWidth() == 0 && maHyperlinkRegions.front().first.getHeight() == 0 && maHyperlinkRegions.size() == maHyperlinkIndices.size() ) { // TODO(Q2): Although this _is_ currently // view-agnostic, it might not stay like that. ViewShapeSharedPtr const& pViewShape = maViewShapes.front(); cppcanvas::CanvasSharedPtr const pCanvas( pViewShape->getViewLayer()->getCanvas() ); // reuse Renderer of first view shape: cppcanvas::RendererSharedPtr const pRenderer( pViewShape->getRenderer( pCanvas, mpCurrMtf, mpAttributeLayer ) ); OSL_ASSERT( pRenderer ); if (pRenderer) { basegfx::B2DHomMatrix const aOldTransform( pCanvas->getTransformation() ); basegfx::B2DHomMatrix aTransform; pCanvas->setTransformation( aTransform /* empty */ ); ::cppcanvas::Canvas* pTmpCanvas = pCanvas.get(); comphelper::ScopeGuard const resetOldTransformation( [&aOldTransform, &pTmpCanvas]() { return pTmpCanvas->setTransformation( aOldTransform ); } ); aTransform.scale( maBounds.getWidth(), maBounds.getHeight() ); pRenderer->setTransformation( aTransform ); pRenderer->setClip(); for( std::size_t pos = maHyperlinkRegions.size(); pos--; ) { // get region: HyperlinkIndexPair const& rIndices = maHyperlinkIndices[pos]; basegfx::B2DRectangle const region( pRenderer->getSubsetArea( rIndices.first, rIndices.second )); maHyperlinkRegions[pos].first = region; } } } // shift shape-relative hyperlink regions to // slide-absolute position HyperlinkRegions aTranslatedRegions; // increase capacity to same size as the container for // shape-relative hyperlink regions to avoid reallocation aTranslatedRegions.reserve( maHyperlinkRegions.size() ); const basegfx::B2DPoint aOffset(getBounds().getMinimum()); for( const auto& cp : maHyperlinkRegions ) { basegfx::B2DRange const& relRegion( cp.first ); aTranslatedRegions.emplace_back( basegfx::B2DRange( relRegion.getMinimum() + aOffset, relRegion.getMaximum() + aOffset), cp.second ); } return aTranslatedRegions; } double DrawShape::getHyperlinkPriority() const { return getPriority(); } // AnimatableShape methods void DrawShape::enterAnimationMode() { OSL_ENSURE( !maViewShapes.empty(), "DrawShape::enterAnimationMode(): called on DrawShape without views" ); if( mnIsAnimatedCount == 0 ) { // notify all ViewShapes, by calling their enterAnimationMode method. // We're now entering animation mode for( const auto& rViewShape : maViewShapes ) rViewShape->enterAnimationMode(); } ++mnIsAnimatedCount; } void DrawShape::leaveAnimationMode() { OSL_ENSURE( !maViewShapes.empty(), "DrawShape::leaveAnimationMode(): called on DrawShape without views" ); --mnIsAnimatedCount; if( mnIsAnimatedCount == 0 ) { // notify all ViewShapes, by calling their leaveAnimationMode method. // we're now leaving animation mode for( const auto& rViewShape : maViewShapes ) rViewShape->leaveAnimationMode(); } } // AttributableShape methods ShapeAttributeLayerSharedPtr DrawShape::createAttributeLayer() { // create new layer, with last as its new child mpAttributeLayer = std::make_shared<ShapeAttributeLayer>( mpAttributeLayer ); // Update the local state ids to reflect those of the new layer. updateStateIds(); return mpAttributeLayer; } bool DrawShape::revokeAttributeLayer( const ShapeAttributeLayerSharedPtr& rLayer { if( !mpAttributeLayer ) return false; // no layers if( mpAttributeLayer == rLayer ) { // it's the toplevel layer mpAttributeLayer = mpAttributeLayer->getChildLayer(); // force content redraw, all state variables have // possibly changed mbAttributeLayerRevoked = true; return true; } else { // pass on to the layer, to try its children return mpAttributeLayer->revokeChildLayer( rLayer ); } } ShapeAttributeLayerSharedPtr DrawShape::getTopmostAttributeLayer() const { return mpAttributeLayer; } void DrawShape::setVisibility( bool bVisible ) { if( mbIsVisible != bVisible ) { mbIsVisible = bVisible; mbForceUpdate = true; } } const DocTreeNodeSupplier& DrawShape::getTreeNodeSupplier() const { return *this; } DocTreeNodeSupplier& DrawShape::getTreeNodeSupplier() { return *this; } DocTreeNode DrawShape::getSubsetNode() const { // forward to delegate return maSubsetting.getSubsetNode(); } AttributableShapeSharedPtr DrawShape::getSubset( const DocTreeNode& rTreeNode ) co { // forward to delegate return maSubsetting.getSubsetShape( rTreeNode ); } bool DrawShape::createSubset( AttributableShapeSharedPtr& o_rSubset, const DocTreeNode& rTreeNode ) { // subset shape already created for this DocTreeNode? AttributableShapeSharedPtr pSubset( maSubsetting.getSubsetShape( rTreeNode ) ); // when true, this method has created a new subset // DrawShape bool bNewlyCreated( false ); if( pSubset ) { o_rSubset = std::move(pSubset); // reusing existing subset } else { // not yet created, init entry o_rSubset.reset( new DrawShape( *this, rTreeNode, // TODO(Q3): That's a // hack. We assume // that start and end // index will always // be less than 65535 mnPriority + rTreeNode.getStartIndex()/double(SAL_MAX_INT16) )); bNewlyCreated = true; // subset newly created } // always register shape at DrawShapeSubsetting, to keep // refcount up-to-date maSubsetting.addSubsetShape( o_rSubset ); // flush bounds cache maCurrentShapeUnitBounds.reset(); return bNewlyCreated; } bool DrawShape::revokeSubset( const AttributableShapeSharedPtr& rShape ) { // flush bounds cache maCurrentShapeUnitBounds.reset(); // forward to delegate if( maSubsetting.revokeSubsetShape( rShape ) ) { // force redraw, our content has possibly changed (as // one of the subsets now display within our shape // again). mbForceUpdate = true; // #i47428# TEMP FIX: synchronize visibility of subset // with parent. // TODO(F3): Remove here, and implement // TEXT_ONLY/BACKGROUND_ONLY with the proverbial // additional level of indirection: create a // persistent subset, containing all text/only the // background respectively. From _that_ object, // generate the temporary character subset shapes. const ShapeAttributeLayerSharedPtr xAttrLayer( rShape->getTopmostAttributeLayer() ); if( xAttrLayer && xAttrLayer->isVisibilityValid() && xAttrLayer->getVisibility() != isVisible() ) { const bool bVisibility( xAttrLayer->getVisibility() ); // visibilities differ - adjust ours, then if( mpAttributeLayer ) mpAttributeLayer->setVisibility( bVisibility ); else mbIsVisible = bVisibility; } // END TEMP FIX return true; } return false; } sal_Int32 DrawShape::getNumberOfTreeNodes( DocTreeNode::NodeType eNodeType ) const // t { return maSubsetting.getNumberOfTreeNodes( eNodeType ); } DocTreeNode DrawShape::getTreeNode( sal_Int32 nNodeIndex, DocTreeNode::NodeType eNodeType ) const // throw ShapeLoadFailedException { if ( hasHyperlinks()) { prepareHyperlinkIndices(); } return maSubsetting.getTreeNode( nNodeIndex, eNodeType ); } sal_Int32 DrawShape::getNumberOfSubsetTreeNodes ( const DocTreeNode& rParentNode, DocTreeNode::NodeType eNodeType ) const // throw ShapeLoadFailedException { return maSubsetting.getNumberOfSubsetTreeNodes( rParentNode, eNodeType ); } DocTreeNode DrawShape::getSubsetTreeNode( const DocTreeNode& rParentNode, sal_Int32 nNodeIndex, DocTreeNode::NodeType eNodeType ) const // throw ShapeLoadFailedException { return maSubsetting.getSubsetTreeNode( rParentNode, nNodeIndex, eNodeType ); } void DrawShape::getSomeAnimationFramesFromGraphic(::std::size_t nFrameCount, ::std::size_t nLastToLoad /* = 0*/) { OSL_ASSERT(mpGraphicLoader); //load nFrameCount frames or to nLastToLoad ::std::size_t nFramesToLoad = nFrameCount; if (nLastToLoad > mpGraphicLoader->mnLoadedFrames + nFrameCount) nFramesToLoad = nLastToLoad - mpGraphicLoader->mnLoadedFrames; getAnimationFromGraphic(maAnimationFrames, mnAnimationLoopCount, mpGraphicLoader->mpGraphic, mpGraphicLoader->mpVDev, mpGraphicLoader->mpVDevMask, mpGraphicLoader->mnLoadedFrames, nFramesToLoad); // If the Animation is fully loaded, no need to load anymore. if (mpGraphicLoader->mnLoadedFrames >= maAnimationFrames.size()) { mpGraphicLoader.reset(); } } DelayedGraphicLoader::DelayedGraphicLoader(std::shared_ptr<Graphic> pGraphic) : mpGraphic(std::move(pGraphic)) , mpVDevMask(DeviceFormat::WITHOUT_ALPHA) { } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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2026-04-02