/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace com::sun::star::uno { class XComponentContext; } namespace com::sun::star::beans { struct NamedValue; } using ::osl::Mutex; using ::osl::Guard; using ::comphelper::OInterfaceContainerHelper2; using ::comphelper::OInterfaceIteratorHelper2; using ::com::sun::star::uno::Any; using ::com::sun::star::uno::UNO_QUERY; using ::com::sun::star::uno::XInterface; using ::com::sun::star::uno::Sequence; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::WeakReference; using ::com::sun::star::uno::XComponentContext; using ::com::sun::star::uno::Exception; using ::com::sun::star::uno::XWeak; using ::com::sun::star::uno::Type; using ::com::sun::star::uno::Any; using ::com::sun::star::lang::IllegalArgumentException; using ::com::sun::star::lang::XServiceInfo; using ::com::sun::star::lang::XTypeProvider; using ::com::sun::star::container::NoSuchElementException; using ::com::sun::star::container::ElementExistException; using ::com::sun::star::container::XEnumeration; using ::com::sun::star::container::XEnumerationAccess; using ::com::sun::star::beans::NamedValue; using ::com::sun::star::util::XCloneable; using ::com::sun::star::lang::XUnoTunnel; using ::com::sun::star::util::XChangesNotifier; using ::com::sun::star::util::XChangesListener; using ::com::sun::star::util::ElementChange; using ::com::sun::star::util::ChangesEvent; using ::cppu::OWeakObject; using namespace ::com::sun::star::animations; using namespace ::com::sun::star::animations::AnimationNodeType; namespace animcore { namespace { class AnimationNodeBase : public XAnimateMotion, public XAnimateColor, public XTransitionFilter, public XAnimateSet, public XAnimateTransform, public XParallelTimeContainer, public XIterateContainer, public XServiceInfo, public XTypeProvider, public XAudio, public XCommand, public XCloneable, public XChangesNotifier, public XUnoTunnel, public OWeakObject { public: // our first, last and only protection from multi-threads! Mutex maMutex; }; class AnimationNode : public AnimationNodeBase { public: explicit AnimationNode(sal_Int16 nNodeType); explicit AnimationNode(const AnimationNode& rNode); // XInterface virtual Any SAL_CALL queryInterface( const Type& aType ) override; virtual void SAL_CALL acquire() throw () override; virtual void SAL_CALL release() throw () override; // XTypeProvider virtual Sequence< Type > SAL_CALL getTypes() override; virtual Sequence< sal_Int8 > SAL_CALL getImplementationId() override; // XServiceInfo OUString SAL_CALL getImplementationName() override; Sequence< OUString > SAL_CALL getSupportedServiceNames() override; sal_Bool SAL_CALL supportsService(const OUString& ServiceName) override; // XChild virtual Reference< XInterface > SAL_CALL getParent() override; virtual void SAL_CALL setParent( const Reference< XInterface >& Parent ) override; // XCloneable virtual Reference< XCloneable > SAL_CALL createClone() override; // XAnimationNode virtual sal_Int16 SAL_CALL getType() override; virtual Any SAL_CALL getBegin() override; virtual void SAL_CALL setBegin( const Any& _begin ) override; virtual Any SAL_CALL getDuration() override; virtual void SAL_CALL setDuration( const Any& _duration ) override; virtual Any SAL_CALL getEnd() override; virtual void SAL_CALL setEnd( const Any& _end ) override; virtual Any SAL_CALL getEndSync() override; virtual void SAL_CALL setEndSync( const Any& _endsync ) override; virtual Any SAL_CALL getRepeatCount() override; virtual void SAL_CALL setRepeatCount( const Any& _repeatcount ) override; virtual Any SAL_CALL getRepeatDuration() override; virtual void SAL_CALL setRepeatDuration( const Any& _repeatduration ) override; virtual sal_Int16 SAL_CALL getFill() override; virtual void SAL_CALL setFill( sal_Int16 _fill ) override; virtual sal_Int16 SAL_CALL getFillDefault() override; virtual void SAL_CALL setFillDefault( sal_Int16 _filldefault ) override; virtual sal_Int16 SAL_CALL getRestart() override; virtual void SAL_CALL setRestart( sal_Int16 _restart ) override; virtual sal_Int16 SAL_CALL getRestartDefault() override; virtual void SAL_CALL setRestartDefault( sal_Int16 _restartdefault ) override; virtual double SAL_CALL getAcceleration() override; virtual void SAL_CALL setAcceleration( double _acceleration ) override; virtual double SAL_CALL getDecelerate() override; virtual void SAL_CALL setDecelerate( double _decelerate ) override; virtual sal_Bool SAL_CALL getAutoReverse() override; virtual void SAL_CALL setAutoReverse( sal_Bool _autoreverse ) override; virtual Sequence< NamedValue > SAL_CALL getUserData() override; virtual void SAL_CALL setUserData( const Sequence< NamedValue >& _userdata ) override; // XAnimate virtual Any SAL_CALL getTarget() override; virtual void SAL_CALL setTarget( const Any& _target ) override; virtual sal_Int16 SAL_CALL getSubItem() override; virtual void SAL_CALL setSubItem( sal_Int16 _subitem ) override; virtual OUString SAL_CALL getAttributeName() override; virtual void SAL_CALL setAttributeName( const OUString& _attribute ) override; virtual Sequence< Any > SAL_CALL getValues() override; virtual void SAL_CALL setValues( const Sequence< Any >& _values ) override; virtual Sequence< double > SAL_CALL getKeyTimes() override; virtual void SAL_CALL setKeyTimes( const Sequence< double >& _keytimes ) override; virtual sal_Int16 SAL_CALL getValueType() override; virtual void SAL_CALL setValueType( sal_Int16 _valuetype ) override; virtual sal_Int16 SAL_CALL getCalcMode() override; virtual void SAL_CALL setCalcMode( sal_Int16 _calcmode ) override; virtual sal_Bool SAL_CALL getAccumulate() override; virtual void SAL_CALL setAccumulate( sal_Bool _accumulate ) override; virtual sal_Int16 SAL_CALL getAdditive() override; virtual void SAL_CALL setAdditive( sal_Int16 _additive ) override; virtual Any SAL_CALL getFrom() override; virtual void SAL_CALL setFrom( const Any& _from ) override; virtual Any SAL_CALL getTo() override; virtual void SAL_CALL setTo( const Any& _to ) override; virtual Any SAL_CALL getBy() override; virtual void SAL_CALL setBy( const Any& _by ) override; virtual Sequence< TimeFilterPair > SAL_CALL getTimeFilter() override; virtual void SAL_CALL setTimeFilter( const Sequence< TimeFilterPair >& _timefilter ) override; virtual OUString SAL_CALL getFormula() override; virtual void SAL_CALL setFormula( const OUString& _formula ) override; // XAnimateColor virtual sal_Int16 SAL_CALL getColorInterpolation() override; virtual void SAL_CALL setColorInterpolation( sal_Int16 _colorspace ) override; virtual sal_Bool SAL_CALL getDirection() override; virtual void SAL_CALL setDirection( sal_Bool _direction ) override; // XAnimateMotion virtual Any SAL_CALL getPath() override; virtual void SAL_CALL setPath( const Any& _path ) override; virtual Any SAL_CALL getOrigin() override; virtual void SAL_CALL setOrigin( const Any& _origin ) override; // XAnimateTransform virtual sal_Int16 SAL_CALL getTransformType() override; virtual void SAL_CALL setTransformType( sal_Int16 _transformtype ) override; // XTransitionFilter virtual sal_Int16 SAL_CALL getTransition() override; virtual void SAL_CALL setTransition( sal_Int16 _transition ) override; virtual sal_Int16 SAL_CALL getSubtype() override; virtual void SAL_CALL setSubtype( sal_Int16 _subtype ) override; virtual sal_Bool SAL_CALL getMode() override; virtual void SAL_CALL setMode( sal_Bool _mode ) override; virtual sal_Int32 SAL_CALL getFadeColor() override; virtual void SAL_CALL setFadeColor( sal_Int32 _fadecolor ) override; // XAudio virtual Any SAL_CALL getSource() override; virtual void SAL_CALL setSource( const Any& _source ) override; virtual double SAL_CALL getVolume() override; virtual void SAL_CALL setVolume( double _volume ) override; // XCommand - the following two shadowed by animate, unfortunately // virtual Any SAL_CALL getTarget() throw (RuntimeException); // virtual void SAL_CALL setTarget( const Any& _target ) throw (RuntimeException); virtual sal_Int16 SAL_CALL getCommand() override; virtual void SAL_CALL setCommand( sal_Int16 _command ) override; virtual Any SAL_CALL getParameter() override; virtual void SAL_CALL setParameter( const Any& _parameter ) override; // XElementAccess virtual Type SAL_CALL getElementType() override; virtual sal_Bool SAL_CALL hasElements() override; // XEnumerationAccess virtual Reference< XEnumeration > SAL_CALL createEnumeration() override; // XTimeContainer virtual Reference< XAnimationNode > SAL_CALL insertBefore( const Reference< XAnimationNode >& newChild, const Reference< XAnimationNode >& refChild ) override; virtual Reference< XAnimationNode > SAL_CALL insertAfter( const Reference< XAnimationNode >& newChild, const Reference< XAnimationNode >& refChild ) override; virtual Reference< XAnimationNode > SAL_CALL replaceChild( const Reference< XAnimationNode >& newChild, const Reference< XAnimationNode >& oldChild ) override; virtual Reference< XAnimationNode > SAL_CALL removeChild( const Reference< XAnimationNode >& oldChild ) override; virtual Reference< XAnimationNode > SAL_CALL appendChild( const Reference< XAnimationNode >& newChild ) override; // XIterateContainer virtual sal_Int16 SAL_CALL getIterateType() override; virtual void SAL_CALL setIterateType( sal_Int16 _iteratetype ) override; virtual double SAL_CALL getIterateInterval() override; virtual void SAL_CALL setIterateInterval( double _iterateinterval ) override; // XChangesNotifier virtual void SAL_CALL addChangesListener( const Reference< XChangesListener >& aListener ) override; virtual void SAL_CALL removeChangesListener( const Reference< XChangesListener >& aListener ) override; // XUnoTunnel virtual ::sal_Int64 SAL_CALL getSomething( const Sequence< ::sal_Int8 >& aIdentifier ) override; static const Sequence< sal_Int8 > & getUnoTunnelId(); void fireChangeListener(); private: OInterfaceContainerHelper2 maChangeListener; static void initTypeProvider( sal_Int16 nNodeType ) throw(); const sal_Int16 mnNodeType; // for XTypeProvider static std::array*, 12> mpTypes; // attributes for the XAnimationNode interface implementation Any maBegin, maDuration, maEnd, maEndSync, maRepeatCount, maRepeatDuration; sal_Int16 mnFill, mnFillDefault, mnRestart, mnRestartDefault; double mfAcceleration, mfDecelerate; bool mbAutoReverse; Sequence< NamedValue > maUserData; // parent interface for XChild interface implementation WeakReference mxParent; AnimationNode* mpParent; // attributes for XAnimate Any maTarget; OUString maAttributeName, maFormula; Sequence< Any > maValues; Sequence< double > maKeyTimes; sal_Int16 mnValueType, mnSubItem; sal_Int16 mnCalcMode, mnAdditive; bool mbAccumulate; Any maFrom, maTo, maBy; Sequence< TimeFilterPair > maTimeFilter; // attributes for XAnimateColor sal_Int16 mnColorSpace; bool mbDirection; // attributes for XAnimateMotion Any maPath, maOrigin; // attributes for XAnimateTransform sal_Int16 mnTransformType; // attributes for XTransitionFilter sal_Int16 mnTransition; sal_Int16 mnSubtype; bool mbMode; sal_Int32 mnFadeColor; // XAudio double mfVolume; // XCommand sal_Int16 mnCommand; Any maParameter; // XIterateContainer sal_Int16 mnIterateType; double mfIterateInterval; /** sorted list of child nodes for XTimeContainer*/ std::vector< Reference< XAnimationNode > > maChildren; }; class TimeContainerEnumeration : public ::cppu::WeakImplHelper< XEnumeration > { public: explicit TimeContainerEnumeration( const std::vector< Reference< XAnimationNode > > &rChildren ); // Methods virtual sal_Bool SAL_CALL hasMoreElements() override; virtual Any SAL_CALL nextElement( ) override; private: /** sorted list of child nodes */ std::vector< Reference< XAnimationNode > > maChildren; /** current iteration position */ std::vector< Reference< XAnimationNode > >::iterator maIter; /** our first, last and only protection from multi-threads! */ Mutex maMutex; }; } TimeContainerEnumeration::TimeContainerEnumeration( const std::vector< Reference< XAnimationNode > > &rChildren ) : maChildren( rChildren ) { maIter = maChildren.begin(); } // Methods sal_Bool SAL_CALL TimeContainerEnumeration::hasMoreElements() { Guard< Mutex > aGuard( maMutex ); return maIter != maChildren.end(); } Any SAL_CALL TimeContainerEnumeration::nextElement() { Guard< Mutex > aGuard( maMutex ); if( maIter == maChildren.end() ) throw NoSuchElementException(); return Any( *maIter++ ); } std::array*, 12> AnimationNode::mpTypes = { nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr }; AnimationNode::AnimationNode( sal_Int16 nNodeType ) : maChangeListener(maMutex), mnNodeType( nNodeType ), mnFill( AnimationFill::DEFAULT ), mnFillDefault( AnimationFill::INHERIT ), mnRestart( AnimationRestart:: DEFAULT ), mnRestartDefault( AnimationRestart:: INHERIT ), mfAcceleration( 0.0 ), mfDecelerate( 0.0 ), mbAutoReverse( false ), mpParent(nullptr), mnValueType( 0 ), mnSubItem( 0 ), mnCalcMode( (nNodeType == AnimationNodeType::ANIMATEMOTION) ? AnimationCalcMode::PACED : AnimationCalcMode::LINEAR), mnAdditive(AnimationAdditiveMode::REPLACE), mbAccumulate(false), mnColorSpace( AnimationColorSpace::RGB ), mbDirection( true ), mnTransformType( AnimationTransformType::TRANSLATE ), mnTransition(TransitionType::BARWIPE), mnSubtype(TransitionSubType::DEFAULT), mbMode(true), mnFadeColor(0), mfVolume(1.0), mnCommand(0), mnIterateType( css::presentation::ShapeAnimationSubType::AS_WHOLE ), mfIterateInterval(0.0) { assert(nNodeType < int(mpTypes.size())); } AnimationNode::AnimationNode( const AnimationNode& rNode ) : AnimationNodeBase(), maChangeListener(maMutex), mnNodeType( rNode.mnNodeType ), // attributes for the XAnimationNode interface implementation maBegin( rNode.maBegin ), maDuration( rNode.maDuration ), maEnd( rNode.maEnd ), maEndSync( rNode.maEndSync ), maRepeatCount( rNode.maRepeatCount ), maRepeatDuration( rNode.maRepeatDuration ), mnFill( rNode.mnFill ), mnFillDefault( rNode.mnFillDefault ), mnRestart( rNode.mnRestart ), mnRestartDefault( rNode.mnRestartDefault ), mfAcceleration( rNode.mfAcceleration ), mfDecelerate( rNode.mfDecelerate ), mbAutoReverse( rNode.mbAutoReverse ), maUserData( rNode.maUserData ), mpParent(nullptr), // attributes for XAnimate maTarget( rNode.maTarget ), maAttributeName( rNode.maAttributeName ), maFormula( rNode.maFormula ), maValues( rNode.maValues ), maKeyTimes( rNode.maKeyTimes ), mnValueType( rNode.mnValueType ), mnSubItem( rNode.mnSubItem ), mnCalcMode( rNode.mnCalcMode ), mnAdditive( rNode.mnAdditive ), mbAccumulate( rNode.mbAccumulate ), maFrom( rNode.maFrom ), maTo( rNode.maTo ), maBy( rNode.maBy ), maTimeFilter( rNode.maTimeFilter ), // attributes for XAnimateColor mnColorSpace( rNode.mnColorSpace ), mbDirection( rNode.mbDirection ), // attributes for XAnimateMotion maPath( rNode.maPath ), maOrigin( rNode.maOrigin ), // attributes for XAnimateTransform mnTransformType( rNode.mnTransformType ), // attributes for XTransitionFilter mnTransition( rNode.mnTransition ), mnSubtype( rNode.mnSubtype ), mbMode( rNode.mbMode ), mnFadeColor( rNode.mnFadeColor ), // XAudio mfVolume( rNode.mfVolume ), // XCommand mnCommand( rNode.mnCommand ), maParameter( rNode.maParameter ), // XIterateContainer mnIterateType( rNode.mnIterateType ), mfIterateInterval( rNode.mfIterateInterval ) { } static Sequence getSupportedServiceNames_PAR() { return { "com.sun.star.animations.ParallelTimeContainer" }; } static OUString getImplementationName_PAR() { return "animcore::ParallelTimeContainer"; } static Sequence getSupportedServiceNames_SEQ() { return { "com.sun.star.animations.SequenceTimeContainer" }; } static OUString getImplementationName_SEQ() { return "animcore::SequenceTimeContainer"; } static Sequence getSupportedServiceNames_ITERATE() { return { "com.sun.star.animations.IterateContainer" }; } static OUString getImplementationName_ITERATE() { return "animcore::IterateContainer"; } static Sequence getSupportedServiceNames_ANIMATE() { return { "com.sun.star.animations.Animate" }; } static OUString getImplementationName_ANIMATE() { return "animcore::Animate"; } static Sequence getSupportedServiceNames_SET() { return { "com.sun.star.animations.AnimateSet" }; } static OUString getImplementationName_SET() { return "animcore::AnimateSet"; } static Sequence getSupportedServiceNames_ANIMATECOLOR() { return { "com.sun.star.animations.AnimateColor" }; } static OUString getImplementationName_ANIMATECOLOR() { return "animcore::AnimateColor"; } static Sequence getSupportedServiceNames_ANIMATEMOTION() { return { "com.sun.star.animations.AnimateMotion" }; } static OUString getImplementationName_ANIMATEMOTION() { return "animcore::AnimateMotion"; } static Sequence getSupportedServiceNames_ANIMATETRANSFORM() { return { "com.sun.star.animations.AnimateTransform" }; } static OUString getImplementationName_ANIMATETRANSFORM() { return "animcore::AnimateTransform"; } static Sequence getSupportedServiceNames_TRANSITIONFILTER() { return { "com.sun.star.animations.TransitionFilter" }; } static OUString getImplementationName_TRANSITIONFILTER() { return "animcore::TransitionFilter"; } static Sequence getSupportedServiceNames_AUDIO() { return { "com.sun.star.animations.Audio" }; } static OUString getImplementationName_AUDIO() { return "animcore::Audio"; } static Sequence getSupportedServiceNames_COMMAND() { return { "com.sun.star.animations.Command" }; } static OUString getImplementationName_COMMAND() { return "animcore::Command"; } // XInterface Any SAL_CALL AnimationNode::queryInterface( const Type& aType ) { Any aRet( ::cppu::queryInterface( aType, static_cast< XServiceInfo * >( this ), static_cast< XTypeProvider * >( this ), static_cast< XChild * >( static_cast< XTimeContainer * >( static_cast< XIterateContainer * >(this) ) ), static_cast< XCloneable* >( this ), static_cast< XAnimationNode* >( static_cast< XTimeContainer * >( static_cast< XIterateContainer * >(this) ) ), static_cast< XInterface* >(static_cast< OWeakObject * >(this)), static_cast< XWeak* >(static_cast< OWeakObject * >(this)), static_cast< XChangesNotifier* >( this ), static_cast< XUnoTunnel* >( this ) ) ); if(!aRet.hasValue()) { switch( mnNodeType ) { case AnimationNodeType::PAR: aRet = ::cppu::queryInterface( aType, static_cast< XParallelTimeContainer * >( this ), static_cast< XTimeContainer * >( static_cast< XIterateContainer * >(this) ), static_cast< XEnumerationAccess * >( this ), static_cast< XElementAccess * >( this ) ); break; case AnimationNodeType::SEQ: aRet = ::cppu::queryInterface( aType, static_cast< XTimeContainer * >( static_cast< XIterateContainer * >(this) ), static_cast< XEnumerationAccess * >( this ), static_cast< XElementAccess * >( this ) ); break; case AnimationNodeType::ITERATE: aRet = ::cppu::queryInterface( aType, static_cast< XTimeContainer * >( static_cast< XIterateContainer * >(this) ), static_cast< XIterateContainer * >( this ), static_cast< XEnumerationAccess * >( this ), static_cast< XElementAccess * >( this ) ); break; case AnimationNodeType::ANIMATE: aRet = ::cppu::queryInterface( aType, static_cast< XAnimate * >( static_cast< XAnimateMotion * >(this) ) ); break; case AnimationNodeType::ANIMATEMOTION: aRet = ::cppu::queryInterface( aType, static_cast< XAnimate * >( static_cast< XAnimateMotion * >(this) ), static_cast< XAnimateMotion * >( this ) ); break; case AnimationNodeType::ANIMATECOLOR: aRet = ::cppu::queryInterface( aType, static_cast< XAnimate * >( static_cast< XAnimateColor * >(this) ), static_cast< XAnimateColor * >( this ) ); break; case AnimationNodeType::SET: aRet = ::cppu::queryInterface( aType, static_cast< XAnimate * >( static_cast< XAnimateSet * >(this) ), static_cast< XAnimateSet * >( this ) ); break; case AnimationNodeType::ANIMATETRANSFORM: aRet = ::cppu::queryInterface( aType, static_cast< XAnimate * >( static_cast< XAnimateTransform * >(this) ), static_cast< XAnimateTransform * >( this ) ); break; case AnimationNodeType::AUDIO: aRet = ::cppu::queryInterface(aType, static_cast< XAudio * >(this) ); break; case AnimationNodeType::COMMAND: aRet = ::cppu::queryInterface( aType, static_cast< XCommand * >(this) ); break; case AnimationNodeType::TRANSITIONFILTER: aRet = ::cppu::queryInterface( aType, static_cast< XAnimate * >( static_cast< XTransitionFilter * >(this) ), static_cast< XTransitionFilter * >( this ) ); break; } } return aRet.hasValue() ? aRet : OWeakObject::queryInterface( aType ); } void AnimationNode::initTypeProvider( sal_Int16 nNodeType ) throw() { ::osl::MutexGuard aGuard( ::osl::Mutex::getGlobalMutex() ); if( mpTypes[nNodeType] ) return; static constexpr std::array type_numbers = { 7, // CUSTOM 9, // PAR 9, // SEQ 9, // ITERATE 8, // ANIMATE 8, // SET 8, // ANIMATEMOTION 8, // ANIMATECOLOR 8, // ANIMATETRANSFORM 8, // TRANSITIONFILTER 8, // AUDIO 8, // COMMAND }; // collect types Sequence< Type > * types = new Sequence< Type >( type_numbers[nNodeType] ); Type * pTypeAr = types->getArray(); sal_Int32 nPos = 0; pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); switch( nNodeType ) { case AnimationNodeType::PAR: case AnimationNodeType::SEQ: pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::ITERATE: pTypeAr[nPos++] = cppu::UnoType::get(); pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::ANIMATE: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::ANIMATEMOTION: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::ANIMATECOLOR: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::ANIMATETRANSFORM: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::SET: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::TRANSITIONFILTER: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::AUDIO: pTypeAr[nPos++] = cppu::UnoType::get(); break; case AnimationNodeType::COMMAND: pTypeAr[nPos++] = cppu::UnoType::get(); break; } mpTypes[nNodeType] = types; } Sequence< Type > AnimationNode::getTypes() { if (! mpTypes[mnNodeType]) initTypeProvider(mnNodeType); return *mpTypes[mnNodeType]; } Sequence< sal_Int8 > AnimationNode::getImplementationId() { return css::uno::Sequence(); } // XInterface void SAL_CALL AnimationNode::acquire( ) throw () { OWeakObject::acquire(); } // XInterface void SAL_CALL AnimationNode::release( ) throw () { OWeakObject::release(); } // XServiceInfo OUString AnimationNode::getImplementationName() { switch( mnNodeType ) { case AnimationNodeType::PAR: return getImplementationName_PAR(); case AnimationNodeType::SEQ: return getImplementationName_SEQ(); case AnimationNodeType::ITERATE: return getImplementationName_ITERATE(); case AnimationNodeType::SET: return getImplementationName_SET(); case AnimationNodeType::ANIMATECOLOR: return getImplementationName_ANIMATECOLOR(); case AnimationNodeType::ANIMATEMOTION: return getImplementationName_ANIMATEMOTION(); case AnimationNodeType::TRANSITIONFILTER: return getImplementationName_TRANSITIONFILTER(); case AnimationNodeType::ANIMATETRANSFORM: return getImplementationName_ANIMATETRANSFORM(); case AnimationNodeType::AUDIO: return getImplementationName_AUDIO(); case AnimationNodeType::COMMAND: return getImplementationName_COMMAND(); case AnimationNodeType::ANIMATE: default: return getImplementationName_ANIMATE(); } } // XServiceInfo sal_Bool AnimationNode::supportsService(const OUString& ServiceName) { return cppu::supportsService(this, ServiceName); } // XServiceInfo Sequence< OUString > AnimationNode::getSupportedServiceNames() { switch( mnNodeType ) { case AnimationNodeType::PAR: return getSupportedServiceNames_PAR(); case AnimationNodeType::SEQ: return getSupportedServiceNames_SEQ(); case AnimationNodeType::ITERATE: return getSupportedServiceNames_ITERATE(); case AnimationNodeType::SET: return getSupportedServiceNames_SET(); case AnimationNodeType::ANIMATECOLOR: return getSupportedServiceNames_ANIMATECOLOR(); case AnimationNodeType::ANIMATEMOTION: return getSupportedServiceNames_ANIMATEMOTION(); case AnimationNodeType::TRANSITIONFILTER: return getSupportedServiceNames_TRANSITIONFILTER(); case AnimationNodeType::ANIMATETRANSFORM: return getSupportedServiceNames_ANIMATETRANSFORM(); case AnimationNodeType::AUDIO: return getSupportedServiceNames_AUDIO(); case AnimationNodeType::COMMAND: return getSupportedServiceNames_COMMAND(); case AnimationNodeType::ANIMATE: default: return getSupportedServiceNames_ANIMATE(); } } // XAnimationNode sal_Int16 SAL_CALL AnimationNode::getType() { Guard< Mutex > aGuard( maMutex ); return mnNodeType; } // XAnimationNode Any SAL_CALL AnimationNode::getBegin() { Guard< Mutex > aGuard( maMutex ); return maBegin; } // XAnimationNode void SAL_CALL AnimationNode::setBegin( const Any& _begin ) { Guard< Mutex > aGuard( maMutex ); if( _begin != maBegin ) { maBegin = _begin; fireChangeListener(); } } // XAnimationNode Any SAL_CALL AnimationNode::getDuration() { Guard< Mutex > aGuard( maMutex ); return maDuration; } // XAnimationNode void SAL_CALL AnimationNode::setDuration( const Any& _duration ) { Guard< Mutex > aGuard( maMutex ); if( _duration != maDuration ) { maDuration = _duration; fireChangeListener(); } } // XAnimationNode Any SAL_CALL AnimationNode::getEnd() { Guard< Mutex > aGuard( maMutex ); return maEnd; } // XAnimationNode void SAL_CALL AnimationNode::setEnd( const Any& _end ) { Guard< Mutex > aGuard( maMutex ); if( _end != maEnd ) { maEnd = _end; fireChangeListener(); } } // XAnimationNode Any SAL_CALL AnimationNode::getEndSync() { Guard< Mutex > aGuard( maMutex ); return maEndSync; } // XAnimationNode void SAL_CALL AnimationNode::setEndSync( const Any& _endsync ) { Guard< Mutex > aGuard( maMutex ); if( _endsync != maEndSync ) { maEndSync = _endsync; fireChangeListener(); } } // XAnimationNode Any SAL_CALL AnimationNode::getRepeatCount() { Guard< Mutex > aGuard( maMutex ); return maRepeatCount; } // XAnimationNode void SAL_CALL AnimationNode::setRepeatCount( const Any& _repeatcount ) { Guard< Mutex > aGuard( maMutex ); if( _repeatcount != maRepeatCount ) { maRepeatCount = _repeatcount; fireChangeListener(); } } // XAnimationNode Any SAL_CALL AnimationNode::getRepeatDuration() { Guard< Mutex > aGuard( maMutex ); return maRepeatDuration; } // XAnimationNode void SAL_CALL AnimationNode::setRepeatDuration( const Any& _repeatduration ) { Guard< Mutex > aGuard( maMutex ); if( _repeatduration != maRepeatDuration ) { maRepeatDuration = _repeatduration; fireChangeListener(); } } // XAnimationNode sal_Int16 SAL_CALL AnimationNode::getFill() { Guard< Mutex > aGuard( maMutex ); return mnFill; } // XAnimationNode void SAL_CALL AnimationNode::setFill( sal_Int16 _fill ) { Guard< Mutex > aGuard( maMutex ); if( _fill != mnFill ) { mnFill = _fill; fireChangeListener(); } } // XAnimationNode sal_Int16 SAL_CALL AnimationNode::getFillDefault() { Guard< Mutex > aGuard( maMutex ); return mnFillDefault; } // XAnimationNode void SAL_CALL AnimationNode::setFillDefault( sal_Int16 _filldefault ) { Guard< Mutex > aGuard( maMutex ); if( _filldefault != mnFillDefault ) { mnFillDefault = _filldefault; fireChangeListener(); } } // XAnimationNode sal_Int16 SAL_CALL AnimationNode::getRestart() { Guard< Mutex > aGuard( maMutex ); return mnRestart; } // XAnimationNode void SAL_CALL AnimationNode::setRestart( sal_Int16 _restart ) { Guard< Mutex > aGuard( maMutex ); if( _restart != mnRestart ) { mnRestart = _restart; fireChangeListener(); } } // XAnimationNode sal_Int16 SAL_CALL AnimationNode::getRestartDefault() { Guard< Mutex > aGuard( maMutex ); return mnRestartDefault; } // XAnimationNode void SAL_CALL AnimationNode::setRestartDefault( sal_Int16 _restartdefault ) { Guard< Mutex > aGuard( maMutex ); if( _restartdefault != mnRestartDefault ) { mnRestartDefault = _restartdefault; fireChangeListener(); } } // XAnimationNode double SAL_CALL AnimationNode::getAcceleration() { Guard< Mutex > aGuard( maMutex ); return mfAcceleration; } // XAnimationNode void SAL_CALL AnimationNode::setAcceleration( double _acceleration ) { Guard< Mutex > aGuard( maMutex ); if( _acceleration != mfAcceleration ) { mfAcceleration = _acceleration; fireChangeListener(); } } // XAnimationNode double SAL_CALL AnimationNode::getDecelerate() { Guard< Mutex > aGuard( maMutex ); return mfDecelerate; } // XAnimationNode void SAL_CALL AnimationNode::setDecelerate( double _decelerate ) { Guard< Mutex > aGuard( maMutex ); if( _decelerate != mfDecelerate ) { mfDecelerate = _decelerate; fireChangeListener(); } } // XAnimationNode sal_Bool SAL_CALL AnimationNode::getAutoReverse() { Guard< Mutex > aGuard( maMutex ); return mbAutoReverse; } // XAnimationNode void SAL_CALL AnimationNode::setAutoReverse( sal_Bool _autoreverse ) { Guard< Mutex > aGuard( maMutex ); if( bool(_autoreverse) != mbAutoReverse ) { mbAutoReverse = _autoreverse; fireChangeListener(); } } Sequence< NamedValue > SAL_CALL AnimationNode::getUserData() { Guard< Mutex > aGuard( maMutex ); return maUserData; } void SAL_CALL AnimationNode::setUserData( const Sequence< NamedValue >& _userdata ) { Guard< Mutex > aGuard( maMutex ); maUserData = _userdata; fireChangeListener(); } // XChild Reference< XInterface > SAL_CALL AnimationNode::getParent() { Guard< Mutex > aGuard( maMutex ); return mxParent.get(); } // XChild void SAL_CALL AnimationNode::setParent( const Reference< XInterface >& Parent ) { Guard< Mutex > aGuard( maMutex ); if( Parent != mxParent.get() ) { mxParent = Parent; mpParent = nullptr; Reference< XUnoTunnel > xTunnel( mxParent.get(), UNO_QUERY ); if( xTunnel.is() ) mpParent = reinterpret_cast< AnimationNode* >( sal::static_int_cast< sal_IntPtr >(xTunnel->getSomething( getUnoTunnelId() ))); fireChangeListener(); } } // XCloneable Reference< XCloneable > SAL_CALL AnimationNode::createClone() { Guard< Mutex > aGuard( maMutex ); Reference< XCloneable > xNewNode; try { xNewNode = new AnimationNode( *this ); if( !maChildren.empty() ) { Reference< XTimeContainer > xContainer( xNewNode, UNO_QUERY ); if( xContainer.is() ) { for (auto const& child : maChildren) { Reference< XCloneable > xCloneable(child, UNO_QUERY ); if( xCloneable.is() ) try { Reference< XAnimationNode > xNewChildNode( xCloneable->createClone(), UNO_QUERY ); if( xNewChildNode.is() ) xContainer->appendChild( xNewChildNode ); } catch(const Exception&) { SAL_INFO("animations", "animations::AnimationNode::createClone(), exception caught!"); } } } } } catch(const Exception&) { SAL_INFO("animations", "animations::AnimationNode::createClone(), exception caught!"); } return xNewNode; } // XAnimate Any SAL_CALL AnimationNode::getTarget() { Guard< Mutex > aGuard( maMutex ); return maTarget; } // XAnimate void SAL_CALL AnimationNode::setTarget( const Any& _target ) { Guard< Mutex > aGuard( maMutex ); if( _target != maTarget ) { maTarget= _target; fireChangeListener(); } } // XAnimate OUString SAL_CALL AnimationNode::getAttributeName() { Guard< Mutex > aGuard( maMutex ); return maAttributeName; } // XAnimate void SAL_CALL AnimationNode::setAttributeName( const OUString& _attribute ) { Guard< Mutex > aGuard( maMutex ); if( _attribute != maAttributeName ) { maAttributeName = _attribute; fireChangeListener(); } } // XAnimate Sequence< Any > SAL_CALL AnimationNode::getValues() { Guard< Mutex > aGuard( maMutex ); return maValues; } // XAnimate void SAL_CALL AnimationNode::setValues( const Sequence< Any >& _values ) { Guard< Mutex > aGuard( maMutex ); maValues = _values; fireChangeListener(); } // XAnimate sal_Int16 SAL_CALL AnimationNode::getSubItem() { Guard< Mutex > aGuard( maMutex ); return mnSubItem; } // XAnimate void SAL_CALL AnimationNode::setSubItem( sal_Int16 _subitem ) { Guard< Mutex > aGuard( maMutex ); if( _subitem != mnSubItem ) { mnSubItem = _subitem; fireChangeListener(); } } // XAnimate Sequence< double > SAL_CALL AnimationNode::getKeyTimes() { Guard< Mutex > aGuard( maMutex ); return maKeyTimes; } // XAnimate void SAL_CALL AnimationNode::setKeyTimes( const Sequence< double >& _keytimes ) { Guard< Mutex > aGuard( maMutex ); maKeyTimes = _keytimes; fireChangeListener(); } // XAnimate sal_Int16 SAL_CALL AnimationNode::getValueType() { Guard< Mutex > aGuard( maMutex ); return mnValueType; } void SAL_CALL AnimationNode::setValueType( sal_Int16 _valuetype ) { Guard< Mutex > aGuard( maMutex ); if( _valuetype != mnValueType ) { mnValueType = _valuetype; fireChangeListener(); } } // XAnimate sal_Int16 SAL_CALL AnimationNode::getCalcMode() { Guard< Mutex > aGuard( maMutex ); return mnCalcMode; } // XAnimate void SAL_CALL AnimationNode::setCalcMode( sal_Int16 _calcmode ) { Guard< Mutex > aGuard( maMutex ); if( _calcmode != mnCalcMode ) { mnCalcMode = _calcmode; fireChangeListener(); } } // XAnimate sal_Bool SAL_CALL AnimationNode::getAccumulate() { Guard< Mutex > aGuard( maMutex ); return mbAccumulate; } // XAnimate void SAL_CALL AnimationNode::setAccumulate( sal_Bool _accumulate ) { Guard< Mutex > aGuard( maMutex ); if( bool(_accumulate) != mbAccumulate ) { mbAccumulate = _accumulate; fireChangeListener(); } } // XAnimate sal_Int16 SAL_CALL AnimationNode::getAdditive() { Guard< Mutex > aGuard( maMutex ); return mnAdditive; } // XAnimate void SAL_CALL AnimationNode::setAdditive( sal_Int16 _additive ) { Guard< Mutex > aGuard( maMutex ); if( _additive != mnAdditive ) { mnAdditive = _additive; fireChangeListener(); } } // XAnimate Any SAL_CALL AnimationNode::getFrom() { Guard< Mutex > aGuard( maMutex ); return maFrom; } // XAnimate void SAL_CALL AnimationNode::setFrom( const Any& _from ) { Guard< Mutex > aGuard( maMutex ); if( _from != maFrom ) { maFrom = _from; fireChangeListener(); } } // XAnimate Any SAL_CALL AnimationNode::getTo() { Guard< Mutex > aGuard( maMutex ); return maTo; } // XAnimate void SAL_CALL AnimationNode::setTo( const Any& _to ) { Guard< Mutex > aGuard( maMutex ); if( _to != maTo ) { maTo = _to; fireChangeListener(); } } // XAnimate Any SAL_CALL AnimationNode::getBy() { Guard< Mutex > aGuard( maMutex ); return maBy; } // XAnimate void SAL_CALL AnimationNode::setBy( const Any& _by ) { Guard< Mutex > aGuard( maMutex ); if( _by != maBy ) { maBy = _by; fireChangeListener(); } } // XAnimate Sequence< TimeFilterPair > SAL_CALL AnimationNode::getTimeFilter() { Guard< Mutex > aGuard( maMutex ); return maTimeFilter; } // XAnimate void SAL_CALL AnimationNode::setTimeFilter( const Sequence< TimeFilterPair >& _timefilter ) { Guard< Mutex > aGuard( maMutex ); maTimeFilter = _timefilter; fireChangeListener(); } OUString SAL_CALL AnimationNode::getFormula() { Guard< Mutex > aGuard( maMutex ); return maFormula; } void SAL_CALL AnimationNode::setFormula( const OUString& _formula ) { Guard< Mutex > aGuard( maMutex ); if( _formula != maFormula ) { maFormula = _formula; fireChangeListener(); } } // XAnimateColor sal_Int16 SAL_CALL AnimationNode::getColorInterpolation() { Guard< Mutex > aGuard( maMutex ); return mnColorSpace; } // XAnimateColor void SAL_CALL AnimationNode::setColorInterpolation( sal_Int16 _colorspace ) { Guard< Mutex > aGuard( maMutex ); if( _colorspace != mnColorSpace ) { mnColorSpace = _colorspace; fireChangeListener(); } } // XAnimateColor sal_Bool SAL_CALL AnimationNode::getDirection() { Guard< Mutex > aGuard( maMutex ); return mbDirection; } // XAnimateColor void SAL_CALL AnimationNode::setDirection( sal_Bool _direction ) { Guard< Mutex > aGuard( maMutex ); if( bool(_direction) != mbDirection ) { mbDirection = _direction; fireChangeListener(); } } // XAnimateMotion Any SAL_CALL AnimationNode::getPath() { Guard< Mutex > aGuard( maMutex ); return maPath; } // XAnimateMotion void SAL_CALL AnimationNode::setPath( const Any& _path ) { Guard< Mutex > aGuard( maMutex ); maPath = _path; fireChangeListener(); } // XAnimateMotion Any SAL_CALL AnimationNode::getOrigin() { Guard< Mutex > aGuard( maMutex ); return maOrigin; } // XAnimateMotion void SAL_CALL AnimationNode::setOrigin( const Any& _origin ) { Guard< Mutex > aGuard( maMutex ); maOrigin = _origin; fireChangeListener(); } // XAnimateTransform sal_Int16 SAL_CALL AnimationNode::getTransformType() { Guard< Mutex > aGuard( maMutex ); return mnTransformType; } // XAnimateTransform void SAL_CALL AnimationNode::setTransformType( sal_Int16 _transformtype ) { Guard< Mutex > aGuard( maMutex ); if( _transformtype != mnTransformType ) { mnTransformType = _transformtype; fireChangeListener(); } } // XTransitionFilter sal_Int16 SAL_CALL AnimationNode::getTransition() { Guard< Mutex > aGuard( maMutex ); return mnTransition; } // XTransitionFilter void SAL_CALL AnimationNode::setTransition( sal_Int16 _transition ) { Guard< Mutex > aGuard( maMutex ); if( _transition != mnTransition ) { mnTransition = _transition; fireChangeListener(); } } // XTransitionFilter sal_Int16 SAL_CALL AnimationNode::getSubtype() { Guard< Mutex > aGuard( maMutex ); return mnSubtype; } // XTransitionFilter void SAL_CALL AnimationNode::setSubtype( sal_Int16 _subtype ) { Guard< Mutex > aGuard( maMutex ); if( _subtype != mnSubtype ) { mnSubtype = _subtype; fireChangeListener(); } } // XTransitionFilter sal_Bool SAL_CALL AnimationNode::getMode() { Guard< Mutex > aGuard( maMutex ); return mbMode; } // XTransitionFilter void SAL_CALL AnimationNode::setMode( sal_Bool _mode ) { Guard< Mutex > aGuard( maMutex ); if( bool(_mode) != mbMode ) { mbMode = _mode; fireChangeListener(); } } // XTransitionFilter sal_Int32 SAL_CALL AnimationNode::getFadeColor() { Guard< Mutex > aGuard( maMutex ); return mnFadeColor; } // XTransitionFilter void SAL_CALL AnimationNode::setFadeColor( sal_Int32 _fadecolor ) { Guard< Mutex > aGuard( maMutex ); if( _fadecolor != mnFadeColor ) { mnFadeColor = _fadecolor; fireChangeListener(); } } // XAudio Any SAL_CALL AnimationNode::getSource() { Guard< Mutex > aGuard( maMutex ); return maTarget; } // XAudio void SAL_CALL AnimationNode::setSource( const Any& _source ) { Guard< Mutex > aGuard( maMutex ); maTarget = _source; fireChangeListener(); } // XAudio double SAL_CALL AnimationNode::getVolume() { Guard< Mutex > aGuard( maMutex ); return mfVolume; } // XAudio void SAL_CALL AnimationNode::setVolume( double _volume ) { Guard< Mutex > aGuard( maMutex ); if( _volume != mfVolume ) { mfVolume = _volume; fireChangeListener(); } } // XCommand sal_Int16 SAL_CALL AnimationNode::getCommand() { Guard< Mutex > aGuard( maMutex ); return mnCommand; } // XCommand void SAL_CALL AnimationNode::setCommand( sal_Int16 _command ) { Guard< Mutex > aGuard( maMutex ); if( _command != mnCommand ) { mnCommand = _command; fireChangeListener(); } } // XCommand Any SAL_CALL AnimationNode::getParameter() { Guard< Mutex > aGuard( maMutex ); return maParameter; } // XCommand void SAL_CALL AnimationNode::setParameter( const Any& _parameter ) { Guard< Mutex > aGuard( maMutex ); maParameter = _parameter; fireChangeListener(); } // XElementAccess Type SAL_CALL AnimationNode::getElementType() { return cppu::UnoType::get(); } // XElementAccess sal_Bool SAL_CALL AnimationNode::hasElements() { Guard< Mutex > aGuard( maMutex ); return !maChildren.empty(); } // XEnumerationAccess Reference< XEnumeration > SAL_CALL AnimationNode::createEnumeration() { Guard< Mutex > aGuard( maMutex ); return new TimeContainerEnumeration( maChildren); } // XTimeContainer Reference< XAnimationNode > SAL_CALL AnimationNode::insertBefore( const Reference< XAnimationNode >& newChild, const Reference< XAnimationNode >& refChild ) { Guard< Mutex > aGuard( maMutex ); if( !newChild.is() || !refChild.is() ) throw IllegalArgumentException(); if( std::find(maChildren.begin(), maChildren.end(), newChild) != maChildren.end() ) throw ElementExistException(); auto before = std::find(maChildren.begin(), maChildren.end(), refChild); if( before == maChildren.end() ) throw NoSuchElementException(); maChildren.insert( before, newChild ); Reference< XInterface > xThis( static_cast< OWeakObject * >(this) ); newChild->setParent( xThis ); return newChild; } // XTimeContainer Reference< XAnimationNode > SAL_CALL AnimationNode::insertAfter( const Reference< XAnimationNode >& newChild, const Reference< XAnimationNode >& refChild ) { Guard< Mutex > aGuard( maMutex ); if( !newChild.is() || !refChild.is() ) throw IllegalArgumentException(); if( std::find(maChildren.begin(), maChildren.end(), newChild) != maChildren.end() ) throw ElementExistException(); auto before = std::find(maChildren.begin(), maChildren.end(), refChild); if( before == maChildren.end() ) throw NoSuchElementException(); ++before; if( before != maChildren.end() ) maChildren.insert( before, newChild ); else maChildren.push_back( newChild ); Reference< XInterface > xThis( static_cast< OWeakObject * >(this) ); newChild->setParent( xThis ); return newChild; } // XTimeContainer Reference< XAnimationNode > SAL_CALL AnimationNode::replaceChild( const Reference< XAnimationNode >& newChild, const Reference< XAnimationNode >& oldChild ) { Guard< Mutex > aGuard( maMutex ); if( !newChild.is() || !oldChild.is() ) throw IllegalArgumentException(); if( std::find(maChildren.begin(), maChildren.end(), newChild) != maChildren.end() ) throw ElementExistException(); auto replace = std::find(maChildren.begin(), maChildren.end(), oldChild); if( replace == maChildren.end() ) throw NoSuchElementException(); oldChild->setParent( Reference< XInterface >() ); (*replace) = newChild; Reference< XInterface > xThis( static_cast< OWeakObject * >(this) ); newChild->setParent( xThis ); return newChild; } // XTimeContainer Reference< XAnimationNode > SAL_CALL AnimationNode::removeChild( const Reference< XAnimationNode >& oldChild ) { Guard< Mutex > aGuard( maMutex ); if( !oldChild.is() ) throw IllegalArgumentException(); auto old = std::find(maChildren.begin(), maChildren.end(), oldChild); if( old == maChildren.end() ) throw NoSuchElementException(); oldChild->setParent( Reference< XInterface >() ); maChildren.erase( old ); return oldChild; } // XTimeContainer Reference< XAnimationNode > SAL_CALL AnimationNode::appendChild( const Reference< XAnimationNode >& newChild ) { Guard< Mutex > aGuard( maMutex ); if( !newChild.is() ) throw IllegalArgumentException(); if( std::find(maChildren.begin(), maChildren.end(), newChild) != maChildren.end() ) throw ElementExistException(); Reference< XInterface > xThis( static_cast< OWeakObject * >(this) ); Reference< XInterface > xChild( newChild ); if( xThis == xChild ) throw IllegalArgumentException(); maChildren.push_back( newChild ); newChild->setParent( xThis ); return newChild; } // XIterateContainer sal_Int16 SAL_CALL AnimationNode::getIterateType() { Guard< Mutex > aGuard( maMutex ); return mnIterateType; } // XIterateContainer void SAL_CALL AnimationNode::setIterateType( sal_Int16 _iteratetype ) { Guard< Mutex > aGuard( maMutex ); if( _iteratetype != mnIterateType ) { mnIterateType = _iteratetype; fireChangeListener(); } } // XIterateContainer double SAL_CALL AnimationNode::getIterateInterval() { Guard< Mutex > aGuard( maMutex ); return mfIterateInterval; } // XIterateContainer void SAL_CALL AnimationNode::setIterateInterval( double _iterateinterval ) { Guard< Mutex > aGuard( maMutex ); if( _iterateinterval != mfIterateInterval ) { mfIterateInterval = _iterateinterval; fireChangeListener(); } } // XChangesNotifier void SAL_CALL AnimationNode::addChangesListener( const Reference< XChangesListener >& aListener ) { maChangeListener.addInterface( aListener ); } // XChangesNotifier void SAL_CALL AnimationNode::removeChangesListener( const Reference< XChangesListener >& aListener ) { maChangeListener.removeInterface(aListener); } // XUnoTunnel ::sal_Int64 SAL_CALL AnimationNode::getSomething( const Sequence< ::sal_Int8 >& rId ) { if( isUnoTunnelId(rId) ) { return sal::static_int_cast< sal_Int64 >(reinterpret_cast< sal_IntPtr >(this)); } else { return 0; } } namespace { class theAnimationNodeUnoTunnelId : public rtl::Static< UnoTunnelIdInit, theAnimationNodeUnoTunnelId > {}; } const css::uno::Sequence< sal_Int8 > & AnimationNode::getUnoTunnelId() { return theAnimationNodeUnoTunnelId::get().getSeq(); } void AnimationNode::fireChangeListener() { Guard< Mutex > aGuard( maMutex ); OInterfaceIteratorHelper2 aIterator( maChangeListener ); if( aIterator.hasMoreElements() ) { Reference< XInterface > xSource( static_cast(this), UNO_QUERY ); Sequence< ElementChange > aChanges; const ChangesEvent aEvent( xSource, Any( mxParent.get() ), aChanges ); while( aIterator.hasMoreElements() ) { Reference< XChangesListener > xListener( aIterator.next(), UNO_QUERY ); if( xListener.is() ) xListener->changesOccurred( aEvent ); } } //fdo#69645 use WeakReference of mxParent to test if mpParent is still valid if (mpParent) { Reference xGuard(mxParent); if (xGuard.is()) mpParent->fireChangeListener(); } } } // namespace animcore extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_ParallelTimeContainer_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(PAR)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_SequenceTimeContainer_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(SEQ)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_IterateContainer_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(ITERATE)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_Animate_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(ANIMATE)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_AnimateSet_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(SET)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_AnimateColor_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(ANIMATECOLOR)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_AnimateMotion_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(ANIMATEMOTION)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_AnimateTransform_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(ANIMATETRANSFORM)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_TransitionFilter_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(TRANSITIONFILTER)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_Audio_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(AUDIO)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* com_sun_star_animations_Command_get_implementation(css::uno::XComponentContext*, css::uno::Sequence const &) { return cppu::acquire(new animcore::AnimationNode(COMMAND)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */