X-Git-Url: http://review.tizen.org/git/?a=blobdiff_plain;f=dali%2Finternal%2Fevent%2Fanimation%2Fanimation-impl.cpp;h=b7cc8995b0dd1132253a826b0596fb94af045243;hb=77de4c4ae763aeb42c5bf02be9191ab0694b48a1;hp=01facf38d8e4fd252f589a7f4498ce2e5a2d2200;hpb=67593fbee6dcf86321aafa892136082237ccbc09;p=platform%2Fcore%2Fuifw%2Fdali-core.git diff --git a/dali/internal/event/animation/animation-impl.cpp b/dali/internal/event/animation/animation-impl.cpp index 01facf3..b7cc899 100644 --- a/dali/internal/event/animation/animation-impl.cpp +++ b/dali/internal/event/animation/animation-impl.cpp @@ -1,5 +1,5 @@ /* - * Copyright (c) 2014 Samsung Electronics Co., Ltd. + * Copyright (c) 2017 Samsung Electronics Co., Ltd. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. @@ -17,23 +17,25 @@ // CLASS HEADER #include +#include + +// EXTERNAL INCLUDES // INTERNAL INCLUDES -#include -#include +#include #include #include #include #include #include -#include #include #include +#include #include #include #include #include -#include +#include #include using Dali::Internal::SceneGraph::UpdateManager; @@ -78,6 +80,7 @@ TypeAction action3( mType, ACTION_PAUSE, &Animation::DoAction ); const Dali::Animation::EndAction DEFAULT_END_ACTION( Dali::Animation::Bake ); const Dali::Animation::EndAction DEFAULT_DISCONNECT_ACTION( Dali::Animation::BakeFinal ); const Dali::Animation::Interpolation DEFAULT_INTERPOLATION( Dali::Animation::Linear ); +const Dali::AlphaFunction DEFAULT_ALPHA_FUNCTION( Dali::AlphaFunction::DEFAULT ); } // anon namespace @@ -86,36 +89,48 @@ AnimationPtr Animation::New(float durationSeconds) { Stage* stage = Stage::GetCurrent(); - AnimationPlaylist& playlist = stage->GetAnimationPlaylist(); - - if( durationSeconds < 0.0f ) + if( stage ) { - DALI_LOG_WARNING("duration should be greater than 0.0f.\n"); - durationSeconds = 0.0f; - } + AnimationPlaylist& playlist = stage->GetAnimationPlaylist(); + + if( durationSeconds < 0.0f ) + { + DALI_LOG_WARNING("duration should be greater than 0.0f.\n"); + durationSeconds = 0.0f; + } - AnimationPtr animation = new Animation( *stage, playlist, durationSeconds, DEFAULT_END_ACTION, DEFAULT_DISCONNECT_ACTION, Dali::AlphaFunctions::Linear ); + AnimationPtr animation = new Animation( *stage, playlist, durationSeconds, DEFAULT_END_ACTION, DEFAULT_DISCONNECT_ACTION, DEFAULT_ALPHA_FUNCTION ); - // Second-phase construction - animation->Initialize(); + // Second-phase construction + animation->Initialize(); - return animation; + return animation; + } + else + { + return NULL; + } } Animation::Animation( EventThreadServices& eventThreadServices, AnimationPlaylist& playlist, float durationSeconds, EndAction endAction, EndAction disconnectAction, AlphaFunction defaultAlpha ) -: mEventThreadServices( eventThreadServices ), +: mAnimation( NULL ), + mEventThreadServices( eventThreadServices ), mPlaylist( playlist ), - mAnimation( NULL ), - mNotificationCount( 0 ), - mFinishedCallback( NULL ), - mFinishedCallbackObject( NULL ), + mFinishedSignal(), + mConnectors(), + mConnectorTargetValues(), + mPlayRange( Vector2(0.0f,1.0f)), mDurationSeconds( durationSeconds ), mSpeedFactor(1.0f), - mIsLooping( false ), - mPlayRange( Vector2(0.0f,1.0f)), + mNotificationCount( 0 ), + mLoopCount(1), + mCurrentLoop(0), mEndAction( endAction ), mDisconnectAction( disconnectAction ), - mDefaultAlpha( defaultAlpha ) + mDefaultAlpha( defaultAlpha ), + mState(Dali::Animation::STOPPED), + mProgressReachedMarker( 0.0f ), + mDelaySeconds( 0.0f ) { } @@ -147,14 +162,10 @@ void Animation::CreateSceneObject() { DALI_ASSERT_DEBUG( mAnimation == NULL ); - // Create a new animation, temporarily owned - SceneGraph::Animation* animation = SceneGraph::Animation::New( mDurationSeconds, mSpeedFactor, mPlayRange, mIsLooping, mEndAction, mDisconnectAction ); - - // Keep a const pointer to the animation. - mAnimation = animation; - - // Transfer animation ownership to the update manager through a message - AddAnimationMessage( mEventThreadServices.GetUpdateManager(), animation ); + // Create a new animation, Keep a const pointer to the animation. + mAnimation = SceneGraph::Animation::New( mDurationSeconds, mSpeedFactor, mPlayRange, mLoopCount, mEndAction, mDisconnectAction ); + OwnerPointer< SceneGraph::Animation > transferOwnership( const_cast< SceneGraph::Animation* >( mAnimation ) ); + AddAnimationMessage( mEventThreadServices.GetUpdateManager(), transferOwnership ); } void Animation::DestroySceneObject() @@ -182,25 +193,50 @@ void Animation::SetDuration(float seconds) SetDurationMessage( mEventThreadServices, *mAnimation, seconds ); } +void Animation::SetProgressNotification( float progress ) +{ + // mAnimation is being used in a separate thread; queue a message to set the value + mProgressReachedMarker = progress; +} + +float Animation::GetProgressNotification() +{ + return mProgressReachedMarker; +} + float Animation::GetDuration() const { // This is not animatable; the cached value is up-to-date. return mDurationSeconds; } -void Animation::SetLooping(bool looping) +void Animation::SetLooping(bool on) +{ + SetLoopCount( on ? 0 : 1 ); +} + +void Animation::SetLoopCount(int count) { // Cache for public getters - mIsLooping = looping; + mLoopCount = count; // mAnimation is being used in a separate thread; queue a message to set the value - SetLoopingMessage( mEventThreadServices, *mAnimation, looping ); + SetLoopingMessage( mEventThreadServices, *mAnimation, mLoopCount ); +} + +int Animation::GetLoopCount() +{ + return mLoopCount; +} + +int Animation::GetCurrentLoop() +{ + return mCurrentLoop; } bool Animation::IsLooping() const { - // This is not animatable; the cached value is up-to-date. - return mIsLooping; + return mLoopCount != 1; } void Animation::SetEndAction(EndAction action) @@ -238,6 +274,12 @@ void Animation::Play() // Update the current playlist mPlaylist.OnPlay( *this ); + mState = Dali::Animation::PLAYING; + + NotifyObjects(); + + SendFinalProgressNotificationMessage(); + // mAnimation is being used in a separate thread; queue a Play message PlayAnimationMessage( mEventThreadServices, *mAnimation ); } @@ -249,19 +291,54 @@ void Animation::PlayFrom( float progress ) // Update the current playlist mPlaylist.OnPlay( *this ); + mState = Dali::Animation::PLAYING; + + NotifyObjects(); + + SendFinalProgressNotificationMessage(); + // mAnimation is being used in a separate thread; queue a Play message PlayAnimationFromMessage( mEventThreadServices, *mAnimation, progress ); } } +void Animation::PlayAfter( float delaySeconds ) +{ + // The negative delay means play immediately. + delaySeconds = std::max( 0.f, delaySeconds ); + + mDelaySeconds = delaySeconds; + + // Update the current playlist + mPlaylist.OnPlay( *this ); + + mState = Dali::Animation::PLAYING; + + NotifyObjects(); + + SendFinalProgressNotificationMessage(); + + // mAnimation is being used in a separate thread; queue a message to set the value + PlayAfterMessage( mEventThreadServices, *mAnimation, delaySeconds ); +} + void Animation::Pause() { + mState = Dali::Animation::PAUSED; + // mAnimation is being used in a separate thread; queue a Pause message PauseAnimationMessage( mEventThreadServices, *mAnimation ); } +Dali::Animation::State Animation::GetState() const +{ + return mState; +} + void Animation::Stop() { + mState = Dali::Animation::STOPPED; + // mAnimation is being used in a separate thread; queue a Stop message StopAnimationMessage( mEventThreadServices.GetUpdateManager(), *mAnimation ); } @@ -273,6 +350,9 @@ void Animation::Clear() // Remove all the connectors mConnectors.Clear(); + // Reset the connector target values + mConnectorTargetValues.clear(); + // Replace the old scene-object with a new one DestroySceneObject(); CreateSceneObject(); @@ -286,26 +366,45 @@ void Animation::Clear() void Animation::AnimateBy(Property& target, Property::Value& relativeValue) { - AnimateBy(target, relativeValue, AlphaFunctions::Default, mDurationSeconds); + AnimateBy(target, relativeValue, mDefaultAlpha, TimePeriod(mDurationSeconds)); } void Animation::AnimateBy(Property& target, Property::Value& relativeValue, AlphaFunction alpha) { - AnimateBy(target, relativeValue, alpha, mDurationSeconds); + AnimateBy(target, relativeValue, alpha, TimePeriod(mDurationSeconds)); } void Animation::AnimateBy(Property& target, Property::Value& relativeValue, TimePeriod period) { - AnimateBy(target, relativeValue, AlphaFunctions::Default, period); + AnimateBy(target, relativeValue, mDefaultAlpha, period); } void Animation::AnimateBy(Property& target, Property::Value& relativeValue, AlphaFunction alpha, TimePeriod period) { - Object& object = dynamic_cast( GetImplementation(target.object) ); + Object& object = GetImplementation(target.object); + const Property::Type targetType = object.GetPropertyType(target.propertyIndex); + const Property::Type destinationType = relativeValue.GetType(); - ExtendDuration( period ); + if ( object.GetPropertyComponentIndex( target.propertyIndex ) != Property::INVALID_COMPONENT_INDEX ) + { + DALI_ASSERT_ALWAYS(Property::FLOAT == destinationType && "Animated value and Property type don't match"); + } + else + { + DALI_ASSERT_ALWAYS(targetType == destinationType && "Animated value and Property type don't match"); + } - switch ( relativeValue.GetType() ) + ExtendDuration(period); + + // Store data to later notify the object that its property is being animated + ConnectorTargetValues connectorPair; + connectorPair.targetValue = relativeValue; + connectorPair.connectorIndex = mConnectors.Count(); + connectorPair.timePeriod = period; + connectorPair.animatorType = Animation::BY; + mConnectorTargetValues.push_back( connectorPair ); + + switch ( targetType ) { case Property::BOOLEAN: { @@ -318,17 +417,6 @@ void Animation::AnimateBy(Property& target, Property::Value& relativeValue, Alph break; } - case Property::FLOAT: - { - AddAnimatorConnector( AnimatorConnector::New( object, - target.propertyIndex, - target.componentIndex, - new AnimateByFloat(relativeValue.Get()), - alpha, - period ) ); - break; - } - case Property::INTEGER: { AddAnimatorConnector( AnimatorConnector::New( object, @@ -340,6 +428,17 @@ void Animation::AnimateBy(Property& target, Property::Value& relativeValue, Alph break; } + case Property::FLOAT: + { + AddAnimatorConnector( AnimatorConnector::New( object, + target.propertyIndex, + target.componentIndex, + new AnimateByFloat(relativeValue.Get()), + alpha, + period ) ); + break; + } + case Property::VECTOR2: { AddAnimatorConnector( AnimatorConnector::New( object, @@ -387,50 +486,60 @@ void Animation::AnimateBy(Property& target, Property::Value& relativeValue, Alph } default: - DALI_ASSERT_ALWAYS( false && "Property type enumeration out of bounds" ); // should never come here - break; + { + // non animatable types handled already + } } } void Animation::AnimateTo(Property& target, Property::Value& destinationValue) { - AnimateTo(target, destinationValue, AlphaFunctions::Default, mDurationSeconds); + AnimateTo(target, destinationValue, mDefaultAlpha, TimePeriod(mDurationSeconds)); } void Animation::AnimateTo(Property& target, Property::Value& destinationValue, AlphaFunction alpha) { - AnimateTo(target, destinationValue, alpha, mDurationSeconds); + AnimateTo(target, destinationValue, alpha, TimePeriod(mDurationSeconds)); } void Animation::AnimateTo(Property& target, Property::Value& destinationValue, TimePeriod period) { - AnimateTo(target, destinationValue, AlphaFunctions::Default, period); + AnimateTo(target, destinationValue, mDefaultAlpha, period); } void Animation::AnimateTo(Property& target, Property::Value& destinationValue, AlphaFunction alpha, TimePeriod period) { - Object& object = dynamic_cast( GetImplementation(target.object) ); + Object& object = GetImplementation(target.object); AnimateTo( object, target.propertyIndex, target.componentIndex, destinationValue, alpha, period ); } void Animation::AnimateTo(Object& targetObject, Property::Index targetPropertyIndex, int componentIndex, Property::Value& destinationValue, AlphaFunction alpha, TimePeriod period) { - Property::Type type = targetObject.GetPropertyType(targetPropertyIndex); - if(componentIndex != Property::INVALID_COMPONENT_INDEX) + Property::Type targetType = targetObject.GetPropertyType(targetPropertyIndex); + if( componentIndex != Property::INVALID_COMPONENT_INDEX ) { - if( type == Property::VECTOR2 - || type == Property::VECTOR3 - || type == Property::VECTOR4 ) + if( ( targetType == Property::VECTOR2 ) || + ( targetType == Property::VECTOR3 ) || + ( targetType == Property::VECTOR4 ) ) { - type = Property::FLOAT; + targetType = Property::FLOAT; } } - DALI_ASSERT_ALWAYS( type == destinationValue.GetType() && "DestinationValue does not match Target Property type" ); + const Property::Type destinationType = destinationValue.GetType(); + DALI_ASSERT_ALWAYS( targetType == destinationType && "Animated value and Property type don't match" ); ExtendDuration( period ); - switch (destinationValue.GetType()) + // Store data to later notify the object that its property is being animated + ConnectorTargetValues connectorPair; + connectorPair.targetValue = destinationValue; + connectorPair.connectorIndex = mConnectors.Count(); + connectorPair.timePeriod = period; + connectorPair.animatorType = Animation::TO; + mConnectorTargetValues.push_back( connectorPair ); + + switch ( destinationType ) { case Property::BOOLEAN: { @@ -443,17 +552,6 @@ void Animation::AnimateTo(Object& targetObject, Property::Index targetPropertyIn break; } - case Property::FLOAT: - { - AddAnimatorConnector( AnimatorConnector::New( targetObject, - targetPropertyIndex, - componentIndex, - new AnimateToFloat( destinationValue.Get() ), - alpha, - period ) ); - break; - } - case Property::INTEGER: { AddAnimatorConnector( AnimatorConnector::New( targetObject, @@ -465,6 +563,17 @@ void Animation::AnimateTo(Object& targetObject, Property::Index targetPropertyIn break; } + case Property::FLOAT: + { + AddAnimatorConnector( AnimatorConnector::New( targetObject, + targetPropertyIndex, + componentIndex, + new AnimateToFloat( destinationValue.Get() ), + alpha, + period ) ); + break; + } + case Property::VECTOR2: { AddAnimatorConnector( AnimatorConnector::New( targetObject, @@ -478,17 +587,6 @@ void Animation::AnimateTo(Object& targetObject, Property::Index targetPropertyIn case Property::VECTOR3: { - if ( Dali::Actor::Property::SIZE == targetPropertyIndex ) - { - // Test whether this is actually an Actor - Actor* maybeActor = dynamic_cast( &targetObject ); - if ( maybeActor ) - { - // Notify the actor that its size is being animated - maybeActor->NotifySizeAnimation( *this, destinationValue.Get() ); - } - } - AddAnimatorConnector( AnimatorConnector::New( targetObject, targetPropertyIndex, componentIndex, @@ -521,19 +619,20 @@ void Animation::AnimateTo(Object& targetObject, Property::Index targetPropertyIn } default: - DALI_ASSERT_ALWAYS( false && "Property type enumeration out of bounds" ); // should never come here - break; + { + // non animatable types handled already + } } } void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames) { - AnimateBetween(target, keyFrames, mDefaultAlpha, mDurationSeconds, DEFAULT_INTERPOLATION ); + AnimateBetween(target, keyFrames, mDefaultAlpha, TimePeriod(mDurationSeconds), DEFAULT_INTERPOLATION ); } void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, Interpolation interpolation ) { - AnimateBetween(target, keyFrames, mDefaultAlpha, mDurationSeconds, interpolation ); + AnimateBetween(target, keyFrames, mDefaultAlpha, TimePeriod(mDurationSeconds), interpolation ); } void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, TimePeriod period) @@ -548,12 +647,12 @@ void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, Time void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, AlphaFunction alpha) { - AnimateBetween(target, keyFrames, alpha, mDurationSeconds, DEFAULT_INTERPOLATION); + AnimateBetween(target, keyFrames, alpha, TimePeriod(mDurationSeconds), DEFAULT_INTERPOLATION); } void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, AlphaFunction alpha, Interpolation interpolation) { - AnimateBetween(target, keyFrames, alpha, mDurationSeconds, interpolation); + AnimateBetween(target, keyFrames, alpha, TimePeriod(mDurationSeconds), interpolation); } void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, AlphaFunction alpha, TimePeriod period) @@ -563,10 +662,18 @@ void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, Alph void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, AlphaFunction alpha, TimePeriod period, Interpolation interpolation) { - Object& object = dynamic_cast( GetImplementation(target.object) ); + Object& object = GetImplementation( target.object ); ExtendDuration( period ); + // Store data to later notify the object that its property is being animated + ConnectorTargetValues connectorPair; + connectorPair.targetValue = keyFrames.GetLastKeyFrameValue(); + connectorPair.connectorIndex = mConnectors.Count(); + connectorPair.timePeriod = period; + connectorPair.animatorType = BETWEEN; + mConnectorTargetValues.push_back( connectorPair ); + switch(keyFrames.GetType()) { case Dali::Property::BOOLEAN: @@ -583,20 +690,6 @@ void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, Alph break; } - case Dali::Property::FLOAT: - { - const KeyFrameNumber* kf; - GetSpecialization(keyFrames, kf); - KeyFrameNumberPtr kfCopy = KeyFrameNumber::Clone(*kf); - AddAnimatorConnector( AnimatorConnector::New( object, - target.propertyIndex, - target.componentIndex, - new KeyFrameNumberFunctor(kfCopy,interpolation), - alpha, - period ) ); - break; - } - case Dali::Property::INTEGER: { const KeyFrameInteger* kf; @@ -611,6 +704,20 @@ void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, Alph break; } + case Dali::Property::FLOAT: + { + const KeyFrameNumber* kf; + GetSpecialization(keyFrames, kf); + KeyFrameNumberPtr kfCopy = KeyFrameNumber::Clone(*kf); + AddAnimatorConnector( AnimatorConnector::New( object, + target.propertyIndex, + target.componentIndex, + new KeyFrameNumberFunctor(kfCopy,interpolation), + alpha, + period ) ); + break; + } + case Dali::Property::VECTOR2: { const KeyFrameVector2* kf; @@ -667,23 +774,29 @@ void Animation::AnimateBetween(Property target, const KeyFrames& keyFrames, Alph break; } - default: // not all property types are animateable - break; + default: + { + // non animatable types handled by keyframes + } } } bool Animation::HasFinished() { bool hasFinished(false); - const int playCount(mAnimation->GetPlayCount()); + const int playedCount(mAnimation->GetPlayedCount()); // If the play count has been incremented, then another notification is required - if (playCount > mNotificationCount) + mCurrentLoop = mAnimation->GetCurrentLoop(); + + if (playedCount > mNotificationCount) { // Note that only one signal is emitted, if the animation has been played repeatedly - mNotificationCount = playCount; + mNotificationCount = playedCount; hasFinished = true; + + mState = Dali::Animation::STOPPED; } return hasFinished; @@ -694,6 +807,11 @@ Dali::Animation::AnimationSignalType& Animation::FinishedSignal() return mFinishedSignal; } +Dali::Animation::AnimationSignalType& Animation::ProgressReachedSignal() +{ + return mProgressReachedSignal; +} + void Animation::EmitSignalFinish() { if ( !mFinishedSignal.Empty() ) @@ -701,20 +819,23 @@ void Animation::EmitSignalFinish() Dali::Animation handle( this ); mFinishedSignal.Emit( handle ); } +} - // This callback is used internally, to avoid the overhead of using a signal. - if ( mFinishedCallback ) +void Animation::EmitSignalProgressReached() +{ + if ( !mProgressReachedSignal.Empty() ) { - mFinishedCallback( mFinishedCallbackObject ); + Dali::Animation handle( this ); + mProgressReachedSignal.Emit( handle ); } } bool Animation::DoConnectSignal( BaseObject* object, ConnectionTrackerInterface* tracker, const std::string& signalName, FunctorDelegate* functor ) { bool connected( true ); - Animation* animation = dynamic_cast(object); + Animation* animation = static_cast< Animation* >(object); // TypeRegistry guarantees that this is the correct type. - if ( 0 == strcmp( signalName.c_str(), SIGNAL_FINISHED ) ) + if( 0 == signalName.compare( SIGNAL_FINISHED ) ) { animation->FinishedSignal().Connect( tracker, functor ); } @@ -727,12 +848,6 @@ bool Animation::DoConnectSignal( BaseObject* object, ConnectionTrackerInterface* return connected; } -void Animation::SetFinishedCallback( FinishedCallback callback, Object* object ) -{ - mFinishedCallback = callback; - mFinishedCallbackObject = object; -} - void Animation::AddAnimatorConnector( AnimatorConnectorBase* connector ) { DALI_ASSERT_DEBUG( NULL != connector ); @@ -744,12 +859,12 @@ void Animation::AddAnimatorConnector( AnimatorConnectorBase* connector ) void Animation::Animate( Actor& actor, const Path& path, const Vector3& forward ) { - Animate( actor, path, forward, mDefaultAlpha, TimePeriod(0.0f,GetDuration()) ); + Animate( actor, path, forward, mDefaultAlpha, TimePeriod(mDurationSeconds) ); } void Animation::Animate( Actor& actor, const Path& path, const Vector3& forward, AlphaFunction alpha ) { - Animate( actor, path, forward, alpha, TimePeriod(0.0f,GetDuration()) ); + Animate( actor, path, forward, alpha, TimePeriod(mDurationSeconds) ); } void Animation::Animate( Actor& actor, const Path& path, const Vector3& forward, TimePeriod period ) @@ -792,7 +907,7 @@ void Animation::Show(Actor& actor, float delaySeconds) Dali::Actor::Property::VISIBLE, Property::INVALID_COMPONENT_INDEX, new AnimateToBoolean(SHOW_VALUE), - AlphaFunctions::Default, + mDefaultAlpha, TimePeriod(delaySeconds, 0.0f/*immediate*/) ) ); } @@ -804,33 +919,33 @@ void Animation::Hide(Actor& actor, float delaySeconds) Dali::Actor::Property::VISIBLE, Property::INVALID_COMPONENT_INDEX, new AnimateToBoolean(HIDE_VALUE), - AlphaFunctions::Default, + mDefaultAlpha, TimePeriod(delaySeconds, 0.0f/*immediate*/) ) ); } -bool Animation::DoAction( BaseObject* object, const std::string& actionName, const std::vector& attributes ) +bool Animation::DoAction( BaseObject* object, const std::string& actionName, const Property::Map& attributes ) { bool done = false; Animation* animation = dynamic_cast( object ); if( animation ) { - if( 0 == strcmp( actionName.c_str(), ACTION_PLAY ) ) + if( 0 == actionName.compare( ACTION_PLAY ) ) { - if( attributes.size() > 0 ) + if( Property::Value* value = attributes.Find("duration", Property::FLOAT) ) { - animation->SetDuration( attributes[0].Get() ); + animation->SetDuration( value->Get() ); } animation->Play(); done = true; } - else if( 0 == strcmp( actionName.c_str(), ACTION_STOP ) ) + else if( 0 == actionName.compare( ACTION_STOP ) ) { animation->Stop(); done = true; } - else if( 0 == strcmp( actionName.c_str(), ACTION_PAUSE ) ) + else if( 0 == actionName.compare( ACTION_PAUSE ) ) { animation->Pause(); done = true; @@ -908,6 +1023,43 @@ Vector2 Animation::GetPlayRange() const return mPlayRange; } +bool Animation::CompareConnectorEndTimes( const Animation::ConnectorTargetValues& lhs, const Animation::ConnectorTargetValues& rhs ) +{ + return ( ( lhs.timePeriod.delaySeconds + lhs.timePeriod.durationSeconds ) < ( rhs.timePeriod.delaySeconds + rhs.timePeriod.durationSeconds ) ); +} + +void Animation::NotifyObjects() +{ + if( mEndAction != EndAction::Discard ) // If the animation is discarded, then we do not want to change the target values + { + // Sort according to end time with earlier end times coming first, if the end time is the same, then the connectors are not moved + std::stable_sort( mConnectorTargetValues.begin(), mConnectorTargetValues.end(), CompareConnectorEndTimes ); + + // Loop through all connector target values sorted by increasing end time + ConnectorTargetValuesContainer::const_iterator iter = mConnectorTargetValues.begin(); + const ConnectorTargetValuesContainer::const_iterator endIter = mConnectorTargetValues.end(); + for( ; iter != endIter; ++iter ) + { + AnimatorConnectorBase* connector = mConnectors[ iter->connectorIndex ]; + + Object* object = connector->GetObject(); + if( object ) + { + object->NotifyPropertyAnimation( *this, connector->GetPropertyIndex(), iter->targetValue, iter->animatorType ); + } + } + } +} + + +void Animation::SendFinalProgressNotificationMessage() +{ + if ( mProgressReachedMarker > 0.0f ) + { + float progressMarkerSeconds = mDurationSeconds * mProgressReachedMarker; + SetProgressNotificationMessage( mEventThreadServices, *mAnimation, progressMarkerSeconds ); + } +} } // namespace Internal