/* -*- 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 namespace toolkit { using ::com::sun::star::uno::XComponentContext; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::XInterface; using ::com::sun::star::uno::UNO_QUERY; using ::com::sun::star::uno::UNO_QUERY_THROW; using ::com::sun::star::uno::Exception; using ::com::sun::star::uno::RuntimeException; using ::com::sun::star::uno::Any; using ::com::sun::star::uno::Sequence; using ::com::sun::star::lang::EventObject; using ::com::sun::star::container::ContainerEvent; using ::com::sun::star::awt::XAnimatedImages; using ::com::sun::star::awt::Size; using ::com::sun::star::graphic::XGraphicProvider; using ::com::sun::star::beans::XPropertySet; using ::com::sun::star::graphic::XGraphic; namespace ImageScaleMode = ::com::sun::star::awt::ImageScaleMode; //= AnimatedImagesPeer_Data namespace { struct CachedImage { OUString sImageURL; mutable Reference< XGraphic > xGraphic; CachedImage() :sImageURL() ,xGraphic() { } explicit CachedImage( OUString const& i_imageURL ) :sImageURL( i_imageURL ) ,xGraphic() { } }; } struct AnimatedImagesPeer_Data { AnimatedImagesPeer& rAntiImpl; ::std::vector< ::std::vector< CachedImage > > aCachedImageSets; explicit AnimatedImagesPeer_Data( AnimatedImagesPeer& i_antiImpl ) :rAntiImpl( i_antiImpl ) ,aCachedImageSets() { } }; //= helper namespace { OUString lcl_getHighContrastURL( OUString const& i_imageURL ) { INetURLObject aURL( i_imageURL ); if ( aURL.GetProtocol() != INetProtocol::PrivSoffice ) { OSL_VERIFY( aURL.insertName( "sifr", false, 0 ) ); return aURL.GetMainURL( INetURLObject::DecodeMechanism::NONE ); } // the private: scheme is not considered to be hierarchical by INetURLObject, so manually insert the // segment const sal_Int32 separatorPos = i_imageURL.indexOf( '/' ); ENSURE_OR_RETURN( separatorPos != -1, "lcl_getHighContrastURL: unsupported URL scheme - cannot automatically determine HC version!", i_imageURL ); OUStringBuffer composer; composer.append( std::u16string_view(i_imageURL).substr(0, separatorPos) ); composer.append( "/sifr" ); composer.append( std::u16string_view(i_imageURL).substr(separatorPos) ); return composer.makeStringAndClear(); } bool lcl_ensureImage_throw( Reference< XGraphicProvider > const& i_graphicProvider, const bool i_isHighContrast, const CachedImage& i_cachedImage ) { if ( !i_cachedImage.xGraphic.is() ) { ::comphelper::NamedValueCollection aMediaProperties; if ( i_isHighContrast ) { // try (to find) the high-contrast version of the graphic first aMediaProperties.put( "URL", lcl_getHighContrastURL( i_cachedImage.sImageURL ) ); i_cachedImage.xGraphic = i_graphicProvider->queryGraphic( aMediaProperties.getPropertyValues() ); } if ( !i_cachedImage.xGraphic.is() ) { aMediaProperties.put( "URL", i_cachedImage.sImageURL ); i_cachedImage.xGraphic = i_graphicProvider->queryGraphic( aMediaProperties.getPropertyValues() ); } } return i_cachedImage.xGraphic.is(); } Size lcl_getGraphicSizePixel( Reference< XGraphic > const& i_graphic ) { Size aSizePixel; try { if ( i_graphic.is() ) { const Reference< XPropertySet > xGraphicProps( i_graphic, UNO_QUERY_THROW ); OSL_VERIFY( xGraphicProps->getPropertyValue("SizePixel") >>= aSizePixel ); } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("toolkit"); } return aSizePixel; } void lcl_init( Sequence< OUString > const& i_imageURLs, ::std::vector< CachedImage >& o_images ) { o_images.resize(0); size_t count = size_t( i_imageURLs.getLength() ); o_images.reserve( count ); for ( const auto& rImageURL : i_imageURLs ) { o_images.emplace_back( rImageURL ); } } void lcl_updateImageList_nothrow( AnimatedImagesPeer_Data& i_data ) { VclPtr pThrobber = i_data.rAntiImpl.GetAsDynamic(); if ( !pThrobber ) return; try { // collect the image sizes of the different image sets const Reference< XComponentContext > xContext( ::comphelper::getProcessComponentContext() ); const Reference< XGraphicProvider > xGraphicProvider( css::graphic::GraphicProvider::create(xContext) ); const bool isHighContrast = pThrobber->GetSettings().GetStyleSettings().GetHighContrastMode(); sal_Int32 nPreferredSet = -1; const size_t nImageSetCount = i_data.aCachedImageSets.size(); if ( nImageSetCount < 2 ) { nPreferredSet = sal_Int32( nImageSetCount ) - 1; } else { ::std::vector< Size > aImageSizes( nImageSetCount ); for ( size_t nImageSet = 0; nImageSet < nImageSetCount; ++nImageSet ) { ::std::vector< CachedImage > const& rImageSet( i_data.aCachedImageSets[ nImageSet ] ); if ( ( rImageSet.empty() ) || ( !lcl_ensureImage_throw( xGraphicProvider, isHighContrast, rImageSet[0] ) ) ) { aImageSizes[ nImageSet ] = Size( SAL_MAX_INT32, SAL_MAX_INT32 ); } else { aImageSizes[ nImageSet ] = lcl_getGraphicSizePixel( rImageSet[0].xGraphic ); } } // find the set with the smallest difference between window size and image size const ::Size aWindowSizePixel = pThrobber->GetSizePixel(); long nMinimalDistance = ::std::numeric_limits< long >::max(); for ( ::std::vector< Size >::const_iterator check = aImageSizes.begin(); check != aImageSizes.end(); ++check ) { if ( ( check->Width > aWindowSizePixel.Width() ) || ( check->Height > aWindowSizePixel.Height() ) ) // do not use an image set which doesn't fit into the window continue; const sal_Int64 distance = ( aWindowSizePixel.Width() - check->Width ) * ( aWindowSizePixel.Width() - check->Width ) + ( aWindowSizePixel.Height() - check->Height ) * ( aWindowSizePixel.Height() - check->Height ); if ( distance < nMinimalDistance ) { nMinimalDistance = distance; nPreferredSet = check - aImageSizes.begin(); } } } // found a set? std::vector< Image > aImages; if ( ( nPreferredSet >= 0 ) && ( o3tl::make_unsigned( nPreferredSet ) < nImageSetCount ) ) { // => set the images ::std::vector< CachedImage > const& rImageSet( i_data.aCachedImageSets[ nPreferredSet ] ); aImages.resize( rImageSet.size() ); sal_Int32 imageIndex = 0; for ( const auto& rCachedImage : rImageSet ) { lcl_ensureImage_throw( xGraphicProvider, isHighContrast, rCachedImage ); aImages[ imageIndex++ ] = Image(rCachedImage.xGraphic); } } pThrobber->setImageList( aImages ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("toolkit"); } } void lcl_updateImageList_nothrow( AnimatedImagesPeer_Data& i_data, const Reference< XAnimatedImages >& i_images ) { try { const sal_Int32 nImageSetCount = i_images->getImageSetCount(); i_data.aCachedImageSets.resize(0); for ( sal_Int32 set = 0; set < nImageSetCount; ++set ) { const Sequence< OUString > aImageURLs( i_images->getImageSet( set ) ); ::std::vector< CachedImage > aImages; lcl_init( aImageURLs, aImages ); i_data.aCachedImageSets.push_back( aImages ); } lcl_updateImageList_nothrow( i_data ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("toolkit"); } } } //= AnimatedImagesPeer AnimatedImagesPeer::AnimatedImagesPeer() :AnimatedImagesPeer_Base() ,m_xData( new AnimatedImagesPeer_Data( *this ) ) { } AnimatedImagesPeer::~AnimatedImagesPeer() { } void SAL_CALL AnimatedImagesPeer::startAnimation() { SolarMutexGuard aGuard; VclPtr pThrobber = GetAsDynamic(); if (pThrobber) pThrobber->start(); } void SAL_CALL AnimatedImagesPeer::stopAnimation() { SolarMutexGuard aGuard; VclPtr pThrobber = GetAsDynamic(); if (pThrobber) pThrobber->stop(); } sal_Bool SAL_CALL AnimatedImagesPeer::isAnimationRunning() { SolarMutexGuard aGuard; VclPtr pThrobber = GetAsDynamic(); if (pThrobber) return pThrobber->isRunning(); return false; } void SAL_CALL AnimatedImagesPeer::setProperty( const OUString& i_propertyName, const Any& i_value ) { SolarMutexGuard aGuard; VclPtr pThrobber = GetAsDynamic(); if ( pThrobber ) { VCLXWindow::setProperty( i_propertyName, i_value ); return; } const sal_uInt16 nPropertyId = GetPropertyId( i_propertyName ); switch ( nPropertyId ) { case BASEPROPERTY_STEP_TIME: { sal_Int32 nStepTime( 0 ); if ( i_value >>= nStepTime ) pThrobber->setStepTime( nStepTime ); break; } case BASEPROPERTY_AUTO_REPEAT: { bool bRepeat( true ); if ( i_value >>= bRepeat ) pThrobber->setRepeat( bRepeat ); break; } case BASEPROPERTY_IMAGE_SCALE_MODE: { sal_Int16 nScaleMode( ImageScaleMode::ANISOTROPIC ); VclPtr pImageControl = GetAsDynamic< ImageControl >(); if ( pImageControl && ( i_value >>= nScaleMode ) ) pImageControl->SetScaleMode( nScaleMode ); } break; default: AnimatedImagesPeer_Base::setProperty( i_propertyName, i_value ); break; } } Any SAL_CALL AnimatedImagesPeer::getProperty( const OUString& i_propertyName ) { SolarMutexGuard aGuard; Any aReturn; VclPtr pThrobber = GetAsDynamic(); if ( !pThrobber ) return VCLXWindow::getProperty( i_propertyName ); const sal_uInt16 nPropertyId = GetPropertyId( i_propertyName ); switch ( nPropertyId ) { case BASEPROPERTY_STEP_TIME: aReturn <<= pThrobber->getStepTime(); break; case BASEPROPERTY_AUTO_REPEAT: aReturn <<= pThrobber->getRepeat(); break; case BASEPROPERTY_IMAGE_SCALE_MODE: { VclPtr pImageControl = GetAsDynamic(); aReturn <<= ( pImageControl ? pImageControl->GetScaleMode() : ImageScaleMode::ANISOTROPIC ); } break; default: aReturn = AnimatedImagesPeer_Base::getProperty( i_propertyName ); break; } return aReturn; } void AnimatedImagesPeer::ProcessWindowEvent( const VclWindowEvent& i_windowEvent ) { if ( i_windowEvent.GetId() == VclEventId::WindowResize ) { lcl_updateImageList_nothrow( *m_xData ); } AnimatedImagesPeer_Base::ProcessWindowEvent( i_windowEvent ); } void AnimatedImagesPeer::impl_updateImages_nolck( const Reference< XInterface >& i_animatedImages ) { SolarMutexGuard aGuard; lcl_updateImageList_nothrow( *m_xData, Reference< XAnimatedImages >( i_animatedImages, UNO_QUERY_THROW ) ); } void SAL_CALL AnimatedImagesPeer::elementInserted( const ContainerEvent& i_event ) { SolarMutexGuard aGuard; Reference< XAnimatedImages > xAnimatedImages( i_event.Source, UNO_QUERY_THROW ); sal_Int32 nPosition(0); OSL_VERIFY( i_event.Accessor >>= nPosition ); size_t position = size_t( nPosition ); if ( position > m_xData->aCachedImageSets.size() ) { OSL_ENSURE( false, "AnimatedImagesPeer::elementInserted: illegal accessor/index!" ); lcl_updateImageList_nothrow( *m_xData, xAnimatedImages ); } Sequence< OUString > aImageURLs; OSL_VERIFY( i_event.Element >>= aImageURLs ); ::std::vector< CachedImage > aImages; lcl_init( aImageURLs, aImages ); m_xData->aCachedImageSets.insert( m_xData->aCachedImageSets.begin() + position, aImages ); lcl_updateImageList_nothrow( *m_xData ); } void SAL_CALL AnimatedImagesPeer::elementRemoved( const ContainerEvent& i_event ) { SolarMutexGuard aGuard; Reference< XAnimatedImages > xAnimatedImages( i_event.Source, UNO_QUERY_THROW ); sal_Int32 nPosition(0); OSL_VERIFY( i_event.Accessor >>= nPosition ); size_t position = size_t( nPosition ); if ( position >= m_xData->aCachedImageSets.size() ) { OSL_ENSURE( false, "AnimatedImagesPeer::elementRemoved: illegal accessor/index!" ); lcl_updateImageList_nothrow( *m_xData, xAnimatedImages ); } m_xData->aCachedImageSets.erase( m_xData->aCachedImageSets.begin() + position ); lcl_updateImageList_nothrow( *m_xData ); } void SAL_CALL AnimatedImagesPeer::elementReplaced( const ContainerEvent& i_event ) { SolarMutexGuard aGuard; Reference< XAnimatedImages > xAnimatedImages( i_event.Source, UNO_QUERY_THROW ); sal_Int32 nPosition(0); OSL_VERIFY( i_event.Accessor >>= nPosition ); size_t position = size_t( nPosition ); if ( position >= m_xData->aCachedImageSets.size() ) { OSL_ENSURE( false, "AnimatedImagesPeer::elementReplaced: illegal accessor/index!" ); lcl_updateImageList_nothrow( *m_xData, xAnimatedImages ); } Sequence< OUString > aImageURLs; OSL_VERIFY( i_event.Element >>= aImageURLs ); ::std::vector< CachedImage > aImages; lcl_init( aImageURLs, aImages ); m_xData->aCachedImageSets[ position ] = aImages; lcl_updateImageList_nothrow( *m_xData ); } void SAL_CALL AnimatedImagesPeer::disposing( const EventObject& i_event ) { VCLXWindow::disposing( i_event ); } void SAL_CALL AnimatedImagesPeer::modified( const EventObject& i_event ) { impl_updateImages_nolck( i_event.Source ); } void SAL_CALL AnimatedImagesPeer::dispose( ) { AnimatedImagesPeer_Base::dispose(); SolarMutexGuard aGuard; m_xData->aCachedImageSets.resize(0); } } // namespace toolkit /* vim:set shiftwidth=4 softtabstop=4 expandtab: */