/* -*- 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 "PresenterCanvas.hxx" #include "CanvasUpdateRequester.hxx" #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::uno; namespace sd::presenter { //===== PresenterCustomSprite ================================================= /** Wrapper around a sprite that is displayed on a PresenterCanvas. */ namespace { typedef comphelper::WeakComponentImplHelper < css::rendering::XCustomSprite > PresenterCustomSpriteInterfaceBase; class PresenterCustomSprite final : public PresenterCustomSpriteInterfaceBase { public: PresenterCustomSprite ( const rtl::Reference& rpCanvas, const Reference& rxSprite, const Reference& rxBaseWindow); PresenterCustomSprite(const PresenterCustomSprite&) = delete; PresenterCustomSprite& operator=(const PresenterCustomSprite&) = delete; virtual void disposing(std::unique_lock&) override; // XSprite virtual void SAL_CALL setAlpha (double nAlpha) override; virtual void SAL_CALL move (const geometry::RealPoint2D& rNewPos, const rendering::ViewState& rViewState, const rendering::RenderState& rRenderState) override; virtual void SAL_CALL transform (const geometry::AffineMatrix2D& rTransformation) override; virtual void SAL_CALL clip (const Reference& rClip) override; virtual void SAL_CALL setPriority (double nPriority) override; virtual void SAL_CALL show() override; virtual void SAL_CALL hide() override; // XCustomSprite virtual Reference SAL_CALL getContentCanvas() override; private: rtl::Reference mpCanvas; Reference mxSprite; Reference mxBaseWindow; geometry::RealPoint2D maPosition; /// @throws css::lang::DisposedException void ThrowIfDisposed(); }; } //===== PresenterCanvas ======================================================= PresenterCanvas::PresenterCanvas ( const Reference& rxUpdateCanvas, const Reference& rxUpdateWindow, const Reference& rxSharedCanvas, const Reference& rxSharedWindow, const Reference& rxWindow) : mxUpdateCanvas(rxUpdateCanvas), mxUpdateWindow(rxUpdateWindow), mxSharedCanvas(rxSharedCanvas), mxSharedWindow(rxSharedWindow), mxWindow(rxWindow), mbOffsetUpdatePending(true) { if (mxWindow.is()) mxWindow->addWindowListener(this); if (mxUpdateCanvas.is()) { m_pUpdateRequester = CanvasUpdateRequester::Instance(mxUpdateCanvas); } } PresenterCanvas::~PresenterCanvas() { } void PresenterCanvas::disposing(std::unique_lock&) { if (mxWindow.is()) { mxWindow->removeWindowListener(this); mxWindow.clear(); } } //----- XCanvas --------------------------------------------------------------- void SAL_CALL PresenterCanvas::clear() { ThrowIfDisposed(); // ToDo: Clear the area covered by the child window. A simple forward // would clear the whole shared canvas. } void SAL_CALL PresenterCanvas::drawPoint ( const css::geometry::RealPoint2D& aPoint, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); mxSharedCanvas->drawPoint(aPoint,MergeViewState(aViewState),aRenderState); } void SAL_CALL PresenterCanvas::drawLine ( const css::geometry::RealPoint2D& aStartPoint, const css::geometry::RealPoint2D& aEndPoint, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); mxSharedCanvas->drawLine(aStartPoint,aEndPoint,MergeViewState(aViewState),aRenderState); } void SAL_CALL PresenterCanvas::drawBezier ( const css::geometry::RealBezierSegment2D& aBezierSegment, const css::geometry::RealPoint2D& aEndPoint, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); mxSharedCanvas->drawBezier(aBezierSegment,aEndPoint,MergeViewState(aViewState),aRenderState); } css::uno::Reference SAL_CALL PresenterCanvas::drawPolyPolygon ( const css::uno::Reference< css::rendering::XPolyPolygon2D >& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); return mxSharedCanvas->drawPolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState); } css::uno::Reference SAL_CALL PresenterCanvas::strokePolyPolygon ( const css::uno::Reference< css::rendering::XPolyPolygon2D >& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, const css::rendering::StrokeAttributes& aStrokeAttributes) { ThrowIfDisposed(); return mxSharedCanvas->strokePolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState, aStrokeAttributes); } css::uno::Reference SAL_CALL PresenterCanvas::strokeTexturedPolyPolygon ( const css::uno::Reference< css::rendering::XPolyPolygon2D >& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, const css::uno::Sequence< css::rendering::Texture >& aTextures, const css::rendering::StrokeAttributes& aStrokeAttributes) { ThrowIfDisposed(); return mxSharedCanvas->strokeTexturedPolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState, aTextures, aStrokeAttributes); } css::uno::Reference SAL_CALL PresenterCanvas::strokeTextureMappedPolyPolygon( const css::uno::Reference& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, const css::uno::Sequence& aTextures, const css::uno::Reference& xMapping, const css::rendering::StrokeAttributes& aStrokeAttributes) { ThrowIfDisposed(); return mxSharedCanvas->strokeTextureMappedPolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState, aTextures, xMapping, aStrokeAttributes); } css::uno::Reference SAL_CALL PresenterCanvas::queryStrokeShapes( const css::uno::Reference& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, const css::rendering::StrokeAttributes& aStrokeAttributes) { ThrowIfDisposed(); return mxSharedCanvas->queryStrokeShapes( xPolyPolygon, MergeViewState(aViewState), aRenderState, aStrokeAttributes); } css::uno::Reference SAL_CALL PresenterCanvas::fillPolyPolygon( const css::uno::Reference& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); return mxSharedCanvas->fillPolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState); } css::uno::Reference SAL_CALL PresenterCanvas::fillTexturedPolyPolygon( const css::uno::Reference& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, const css::uno::Sequence& xTextures) { ThrowIfDisposed(); return mxSharedCanvas->fillTexturedPolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState, xTextures); } css::uno::Reference SAL_CALL PresenterCanvas::fillTextureMappedPolyPolygon( const css::uno::Reference< css::rendering::XPolyPolygon2D >& xPolyPolygon, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, const css::uno::Sequence< css::rendering::Texture >& xTextures, const css::uno::Reference< css::geometry::XMapping2D >& xMapping) { ThrowIfDisposed(); return mxSharedCanvas->fillTextureMappedPolyPolygon( xPolyPolygon, MergeViewState(aViewState), aRenderState, xTextures, xMapping); } css::uno::Reference SAL_CALL PresenterCanvas::createFont( const css::rendering::FontRequest& aFontRequest, const css::uno::Sequence< css::beans::PropertyValue >& aExtraFontProperties, const css::geometry::Matrix2D& aFontMatrix) { ThrowIfDisposed(); return mxSharedCanvas->createFont( aFontRequest, aExtraFontProperties, aFontMatrix); } css::uno::Sequence SAL_CALL PresenterCanvas::queryAvailableFonts( const css::rendering::FontInfo& aFilter, const css::uno::Sequence< css::beans::PropertyValue >& aFontProperties) { ThrowIfDisposed(); return mxSharedCanvas->queryAvailableFonts(aFilter, aFontProperties); } css::uno::Reference SAL_CALL PresenterCanvas::drawText( const css::rendering::StringContext& aText, const css::uno::Reference< css::rendering::XCanvasFont >& xFont, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState, ::sal_Int8 nTextDirection) { ThrowIfDisposed(); return mxSharedCanvas->drawText( aText, xFont, MergeViewState(aViewState), aRenderState, nTextDirection); } css::uno::Reference SAL_CALL PresenterCanvas::drawTextLayout( const css::uno::Reference< css::rendering::XTextLayout >& xLayoutetText, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); return mxSharedCanvas->drawTextLayout( xLayoutetText, MergeViewState(aViewState), aRenderState); } css::uno::Reference SAL_CALL PresenterCanvas::drawBitmap( const css::uno::Reference< css::rendering::XBitmap >& xBitmap, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); return mxSharedCanvas->drawBitmap( xBitmap, MergeViewState(aViewState), aRenderState); } css::uno::Reference SAL_CALL PresenterCanvas::drawBitmapModulated( const css::uno::Reference< css::rendering::XBitmap>& xBitmap, const css::rendering::ViewState& aViewState, const css::rendering::RenderState& aRenderState) { ThrowIfDisposed(); return mxSharedCanvas->drawBitmapModulated( xBitmap, MergeViewState(aViewState), aRenderState); } css::uno::Reference SAL_CALL PresenterCanvas::getDevice() { ThrowIfDisposed(); return mxSharedCanvas->getDevice(); } //----- XSpriteCanvas --------------------------------------------------------- Reference SAL_CALL PresenterCanvas::createSpriteFromAnimation ( const css::uno::Reference& rAnimation) { ThrowIfDisposed(); Reference xSpriteCanvas (mxSharedCanvas, UNO_QUERY); if (xSpriteCanvas.is()) return xSpriteCanvas->createSpriteFromAnimation(rAnimation); else return nullptr; } Reference SAL_CALL PresenterCanvas::createSpriteFromBitmaps ( const css::uno::Sequence< css::uno::Reference< css::rendering::XBitmap > >& rAnimationBitmaps, ::sal_Int8 nInterpolationMode) { ThrowIfDisposed(); Reference xSpriteCanvas (mxSharedCanvas, UNO_QUERY); if (xSpriteCanvas.is()) return xSpriteCanvas->createSpriteFromBitmaps(rAnimationBitmaps, nInterpolationMode); else return nullptr; } Reference SAL_CALL PresenterCanvas::createCustomSprite ( const css::geometry::RealSize2D& rSpriteSize) { ThrowIfDisposed(); Reference xSpriteCanvas (mxSharedCanvas, UNO_QUERY); if (xSpriteCanvas.is()) return new PresenterCustomSprite( this, xSpriteCanvas->createCustomSprite(rSpriteSize), mxSharedWindow); else if (mxUpdateCanvas.is()) return new PresenterCustomSprite( this, mxUpdateCanvas->createCustomSprite(rSpriteSize), mxUpdateWindow); else return nullptr; } Reference SAL_CALL PresenterCanvas::createClonedSprite ( const css::uno::Reference< css::rendering::XSprite >& rxOriginal) { ThrowIfDisposed(); Reference xSpriteCanvas (mxSharedCanvas, UNO_QUERY); if (xSpriteCanvas.is()) return xSpriteCanvas->createClonedSprite(rxOriginal); if (mxUpdateCanvas.is()) return mxUpdateCanvas->createClonedSprite(rxOriginal); return nullptr; } sal_Bool SAL_CALL PresenterCanvas::updateScreen (sal_Bool bUpdateAll) { ThrowIfDisposed(); mbOffsetUpdatePending = true; if (m_pUpdateRequester != nullptr) { m_pUpdateRequester->RequestUpdate(bUpdateAll); return true; } else { return false; } } //----- XEventListener -------------------------------------------------------- void SAL_CALL PresenterCanvas::disposing (const css::lang::EventObject& rEvent) { ThrowIfDisposed(); if (rEvent.Source == mxWindow) mxWindow = nullptr; } //----- XWindowListener ------------------------------------------------------- void SAL_CALL PresenterCanvas::windowResized (const css::awt::WindowEvent&) { ThrowIfDisposed(); mbOffsetUpdatePending = true; } void SAL_CALL PresenterCanvas::windowMoved (const css::awt::WindowEvent&) { ThrowIfDisposed(); mbOffsetUpdatePending = true; } void SAL_CALL PresenterCanvas::windowShown (const css::lang::EventObject&) { ThrowIfDisposed(); mbOffsetUpdatePending = true; } void SAL_CALL PresenterCanvas::windowHidden (const css::lang::EventObject&) { ThrowIfDisposed(); } //----- XBitmap --------------------------------------------------------------- geometry::IntegerSize2D SAL_CALL PresenterCanvas::getSize() { ThrowIfDisposed(); if (mxWindow.is()) { const awt::Rectangle aWindowBox (mxWindow->getPosSize()); return geometry::IntegerSize2D(aWindowBox.Width, aWindowBox.Height); } else return geometry::IntegerSize2D(0,0); } sal_Bool SAL_CALL PresenterCanvas::hasAlpha() { Reference xBitmap (mxSharedCanvas, UNO_QUERY); if (xBitmap.is()) return xBitmap->hasAlpha(); else return false; } Reference SAL_CALL PresenterCanvas::getScaledBitmap( const css::geometry::RealSize2D&, sal_Bool) { ThrowIfDisposed(); // Not implemented. return nullptr; } rendering::ViewState PresenterCanvas::MergeViewState ( const rendering::ViewState& rViewState) { // Make sure the offset is up-to-date. if (mbOffsetUpdatePending) maOffset = GetOffset(mxSharedWindow); return MergeViewState(rViewState, maOffset); } css::rendering::ViewState PresenterCanvas::MergeViewState ( const css::rendering::ViewState& rViewState, const css::awt::Point& rOffset) { // Early rejects. if ( ! mxSharedCanvas.is()) return rViewState; Reference xDevice (mxSharedCanvas->getDevice()); if ( ! xDevice.is()) return rViewState; // Create a modifiable copy of the given view state. rendering::ViewState aViewState (rViewState); // Prepare the local clip rectangle. ::basegfx::B2DRectangle aWindowRange (GetClipRectangle(aViewState.AffineTransform, rOffset)); // Adapt the offset of the view state. aViewState.AffineTransform.m02 += rOffset.X; aViewState.AffineTransform.m12 += rOffset.Y; // Adapt the clip polygon. if ( ! aViewState.Clip.is()) { // Cancel out the later multiplication with the view state // transformation. aViewState.Clip = ::basegfx::unotools::xPolyPolygonFromB2DPolyPolygon( xDevice, ::basegfx::B2DPolyPolygon(::basegfx::utils::createPolygonFromRect(aWindowRange))); } else { // Have to compute the intersection of the given clipping polygon in // the view state and the local clip rectangle. // Clip the view state clipping polygon against the local clip rectangle. const ::basegfx::B2DPolyPolygon aClipPolygon ( ::basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D( aViewState.Clip)); const ::basegfx::B2DPolyPolygon aClippedClipPolygon ( ::basegfx::utils::clipPolyPolygonOnRange( aClipPolygon, aWindowRange, true, /* bInside */ false /* bStroke */)); aViewState.Clip = ::basegfx::unotools::xPolyPolygonFromB2DPolyPolygon( xDevice, aClippedClipPolygon); } return aViewState; } awt::Point PresenterCanvas::GetOffset (const Reference& rxBaseWindow) { mbOffsetUpdatePending = false; if (mxWindow.is() && rxBaseWindow.is()) { VclPtr pWindow = VCLUnoHelper::GetWindow(mxWindow); VclPtr pSharedWindow = VCLUnoHelper::GetWindow(rxBaseWindow); if (pWindow && pSharedWindow) { ::tools::Rectangle aBox = pWindow->GetWindowExtentsRelative(pSharedWindow); // Calculate offset of this canvas with respect to the shared // canvas. return awt::Point(aBox.Left(), aBox.Top()); } } return awt::Point(0, 0); } ::basegfx::B2DRectangle PresenterCanvas::GetClipRectangle ( const css::geometry::AffineMatrix2D& rViewTransform, const awt::Point& rOffset) { VclPtr pWindow = VCLUnoHelper::GetWindow(mxWindow); if (!pWindow) return ::basegfx::B2DRectangle(); VclPtr pSharedWindow = VCLUnoHelper::GetWindow(mxSharedWindow); if (!pSharedWindow) return ::basegfx::B2DRectangle(); // Get the bounding box of the window and create a range in the // coordinate system of the child window. // Use the window extents. ::tools::Rectangle aLocalClip = pWindow->GetWindowExtentsRelative(pSharedWindow); // The local clip rectangle is used to clip the view state clipping // polygon. ::basegfx::B2DRectangle aWindowRectangle ( aLocalClip.Left() - rOffset.X, aLocalClip.Top() - rOffset.Y, aLocalClip.Right() - rOffset.X + 1, aLocalClip.Bottom() - rOffset.Y + 1); // Calculate the inverted view state transformation to cancel out a // later transformation of the local clip polygon with the view state // transformation. ::basegfx::B2DHomMatrix aInvertedViewStateTransformation; ::basegfx::unotools::homMatrixFromAffineMatrix( aInvertedViewStateTransformation, rViewTransform); if (aInvertedViewStateTransformation.invert()) { // Cancel out the later multiplication with the view state // transformation. aWindowRectangle.transform(aInvertedViewStateTransformation); } return aWindowRectangle; } Reference PresenterCanvas::UpdateSpriteClip ( const Reference& rxOriginalClip, const geometry::RealPoint2D& rLocation) { // Check used resources and just return the original clip when not // every one of them is available. if ( ! mxWindow.is()) return rxOriginalClip; Reference xDevice (mxSharedCanvas->getDevice()); if ( ! xDevice.is()) return rxOriginalClip; // Determine the bounds of the clip rectangle (the window border) in the // coordinate system of the sprite. const awt::Rectangle aWindowBox (mxWindow->getPosSize()); const double nMinX (-rLocation.X); const double nMinY (-rLocation.Y); const double nMaxX (aWindowBox.Width-rLocation.X); const double nMaxY (aWindowBox.Height-rLocation.Y); // Create a clip polygon. Reference xPolygon; if (rxOriginalClip.is()) { // Combine the original clip with the window clip. const ::basegfx::B2DPolyPolygon aOriginalClip ( ::basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D(rxOriginalClip)); ::basegfx::B2DRectangle aWindowRange (nMinX, nMinY, nMaxX, nMaxY); const ::basegfx::B2DPolyPolygon aClippedClipPolygon ( ::basegfx::utils::clipPolyPolygonOnRange( aOriginalClip, aWindowRange, true, /* bInside */ false /* bStroke */)); xPolygon = ::basegfx::unotools::xPolyPolygonFromB2DPolyPolygon( xDevice, aClippedClipPolygon); } else { // Create a new clip polygon from the window clip rectangle. Sequence > aPoints { { { nMinX,nMinY }, { nMaxX,nMinY }, { nMaxX,nMaxY }, { nMinX,nMaxY } } }; Reference xLinePolygon( xDevice->createCompatibleLinePolyPolygon(aPoints)); if (xLinePolygon.is()) xLinePolygon->setClosed(0, true); xPolygon = xLinePolygon; } return xPolygon; } void PresenterCanvas::ThrowIfDisposed() { if (m_bDisposed || ! mxSharedCanvas.is()) { throw lang::DisposedException ("PresenterCanvas object has already been disposed", static_cast(this)); } } //===== PresenterCustomSprite ================================================= PresenterCustomSprite::PresenterCustomSprite ( const rtl::Reference& rpCanvas, const Reference& rxSprite, const Reference& rxBaseWindow) : mpCanvas(rpCanvas), mxSprite(rxSprite), mxBaseWindow(rxBaseWindow), maPosition(0,0) { } void PresenterCustomSprite::disposing(std::unique_lock&) { Reference xComponent (mxSprite, UNO_QUERY); mxSprite = nullptr; if (xComponent.is()) xComponent->dispose(); mpCanvas.clear(); } //----- XSprite --------------------------------------------------------------- void SAL_CALL PresenterCustomSprite::setAlpha (const double nAlpha) { ThrowIfDisposed(); mxSprite->setAlpha(nAlpha); } void SAL_CALL PresenterCustomSprite::move ( const geometry::RealPoint2D& rNewPos, const rendering::ViewState& rViewState, const rendering::RenderState& rRenderState) { ThrowIfDisposed(); maPosition = rNewPos; mxSprite->move( rNewPos, mpCanvas->MergeViewState(rViewState, mpCanvas->GetOffset(mxBaseWindow)), rRenderState); // Clip sprite against window bounds. This call is necessary because // sprite clipping is done in the coordinate system of the sprite. // Therefore, after each change of the sprites location the window // bounds have to be transformed into the sprites coordinate system. clip(nullptr); } void SAL_CALL PresenterCustomSprite::transform (const geometry::AffineMatrix2D& rTransformation) { ThrowIfDisposed(); mxSprite->transform(rTransformation); } void SAL_CALL PresenterCustomSprite::clip (const Reference& rxClip) { ThrowIfDisposed(); // The clip region is expected in the coordinate system of the sprite. // UpdateSpriteClip() integrates the window bounds, transformed into the // sprites coordinate system, with the given clip. mxSprite->clip(mpCanvas->UpdateSpriteClip(rxClip, maPosition)); } void SAL_CALL PresenterCustomSprite::setPriority (const double nPriority) { ThrowIfDisposed(); mxSprite->setPriority(nPriority); } void SAL_CALL PresenterCustomSprite::show() { ThrowIfDisposed(); mxSprite->show(); } void SAL_CALL PresenterCustomSprite::hide() { ThrowIfDisposed(); mxSprite->hide(); } //----- XCustomSprite --------------------------------------------------------- Reference PresenterCustomSprite::getContentCanvas() { ThrowIfDisposed(); return mxSprite->getContentCanvas(); } void PresenterCustomSprite::ThrowIfDisposed() { if (m_bDisposed || ! mxSprite.is()) { throw lang::DisposedException ("PresenterCustomSprite object has already been disposed", static_cast(this)); } } } // end of namespace ::sd::presenter /* vim:set shiftwidth=4 softtabstop=4 expandtab: */