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// Copyright 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/basictypes.h"
#include "base/containers/hash_tables.h"
#include "base/memory/ref_counted.h"
#include "base/memory/scoped_ptr.h"
#include "base/observer_list.h"
#include "base/time/time.h"
#include "cc/animation/animation_events.h"
#include "cc/animation/layer_animation_event_observer.h"
#include "cc/base/cc_export.h"
#include "cc/base/scoped_ptr_vector.h"
#include "ui/gfx/geometry/scroll_offset.h"
#include "ui/gfx/transform.h"
namespace gfx {
class BoxF;
class Transform;
namespace cc {
class Animation;
class AnimationDelegate;
class AnimationRegistrar;
class FilterOperations;
class KeyframeValueList;
class LayerAnimationValueObserver;
class LayerAnimationValueProvider;
class CC_EXPORT LayerAnimationController
: public base::RefCounted<LayerAnimationController> {
static scoped_refptr<LayerAnimationController> Create(int id);
int id() const { return id_; }
void AddAnimation(scoped_ptr<Animation> animation);
void PauseAnimation(int animation_id, base::TimeDelta time_offset);
void RemoveAnimation(int animation_id);
void RemoveAnimation(int animation_id,
Animation::TargetProperty target_property);
void AbortAnimations(Animation::TargetProperty target_property);
// Ensures that the list of active animations on the main thread and the impl
// thread are kept in sync. This function does not take ownership of the impl
// thread controller. This method is virtual for testing.
virtual void PushAnimationUpdatesTo(
LayerAnimationController* controller_impl);
void Animate(base::TimeTicks monotonic_time);
void AccumulatePropertyUpdates(base::TimeTicks monotonic_time,
AnimationEventsVector* events);
void UpdateState(bool start_ready_animations,
AnimationEventsVector* events);
// Make animations affect active observers if and only if they affect
// pending observers. Any animations that no longer affect any observers
// are deleted.
void ActivateAnimations();
// Returns the active animation animating the given property that is either
// running, or is next to run, if such an animation exists.
Animation* GetAnimation(Animation::TargetProperty target_property) const;
// Returns the active animation for the given unique animation id.
Animation* GetAnimationById(int animation_id) const;
// Returns true if there are any animations that have neither finished nor
// aborted.
bool HasActiveAnimation() const;
// Returns true if there are any animations at all to process.
bool has_any_animation() const { return !animations_.empty(); }
// Returns true if there is an animation currently animating the given
// property, or if there is an animation scheduled to animate this property in
// the future.
bool IsAnimatingProperty(Animation::TargetProperty target_property) const;
void SetAnimationRegistrar(AnimationRegistrar* registrar);
AnimationRegistrar* animation_registrar() { return registrar_; }
void NotifyAnimationStarted(const AnimationEvent& event);
void NotifyAnimationFinished(const AnimationEvent& event);
void NotifyAnimationAborted(const AnimationEvent& event);
void NotifyAnimationPropertyUpdate(const AnimationEvent& event);
void AddValueObserver(LayerAnimationValueObserver* observer);
void RemoveValueObserver(LayerAnimationValueObserver* observer);
void AddEventObserver(LayerAnimationEventObserver* observer);
void RemoveEventObserver(LayerAnimationEventObserver* observer);
void set_value_provider(LayerAnimationValueProvider* provider) {
value_provider_ = provider;
void remove_value_provider(LayerAnimationValueProvider* provider) {
if (value_provider_ == provider)
value_provider_ = nullptr;
void set_layer_animation_delegate(AnimationDelegate* delegate) {
layer_animation_delegate_ = delegate;
void remove_layer_animation_delegate(AnimationDelegate* delegate) {
if (layer_animation_delegate_ == delegate)
layer_animation_delegate_ = nullptr;
bool HasFilterAnimationThatInflatesBounds() const;
bool HasTransformAnimationThatInflatesBounds() const;
bool HasAnimationThatInflatesBounds() const {
return HasTransformAnimationThatInflatesBounds() ||
bool FilterAnimationBoundsForBox(const gfx::BoxF& box,
gfx::BoxF* bounds) const;
bool TransformAnimationBoundsForBox(const gfx::BoxF& box,
gfx::BoxF* bounds) const;
bool HasAnimationThatAffectsScale() const;
bool HasOnlyTranslationTransforms() const;
bool AnimationsPreserveAxisAlignment() const;
// Sets |start_scale| to the maximum of starting animation scale along any
// dimension at any destination in active animations. Returns false if the
// starting scale cannot be computed.
bool AnimationStartScale(float* start_scale) const;
// Sets |max_scale| to the maximum scale along any dimension at any
// destination in active animations. Returns false if the maximum scale cannot
// be computed.
bool MaximumTargetScale(float* max_scale) const;
// When a scroll animation is removed on the main thread, its compositor
// thread counterpart continues producing scroll deltas until activation.
// These scroll deltas need to be cleared at activation, so that the active
// layer's scroll offset matches the offset provided by the main thread
// rather than a combination of this offset and scroll deltas produced by
// the removed animation. This is to provide the illusion of synchronicity to
// JS that simultaneously removes an animation and sets the scroll offset.
bool scroll_offset_animation_was_interrupted() const {
return scroll_offset_animation_was_interrupted_;
bool needs_to_start_animations_for_testing() {
return needs_to_start_animations_;
friend class base::RefCounted<LayerAnimationController>;
explicit LayerAnimationController(int id);
virtual ~LayerAnimationController();
typedef base::hash_set<int> TargetProperties;
void PushNewAnimationsToImplThread(
LayerAnimationController* controller_impl) const;
void RemoveAnimationsCompletedOnMainThread(
LayerAnimationController* controller_impl) const;
void PushPropertiesToImplThread(LayerAnimationController* controller_impl);
void StartAnimations(base::TimeTicks monotonic_time);
void PromoteStartedAnimations(base::TimeTicks monotonic_time,
AnimationEventsVector* events);
void MarkFinishedAnimations(base::TimeTicks monotonic_time);
void MarkAnimationsForDeletion(base::TimeTicks monotonic_time,
AnimationEventsVector* events);
void PurgeAnimationsMarkedForDeletion();
void TickAnimations(base::TimeTicks monotonic_time);
void UpdateActivation(UpdateActivationType type);
void NotifyObserversOpacityAnimated(float opacity,
bool notify_active_observers,
bool notify_pending_observers);
void NotifyObserversTransformAnimated(const gfx::Transform& transform,
bool notify_active_observers,
bool notify_pending_observers);
void NotifyObserversFilterAnimated(const FilterOperations& filter,
bool notify_active_observers,
bool notify_pending_observers);
void NotifyObserversScrollOffsetAnimated(
const gfx::ScrollOffset& scroll_offset,
bool notify_active_observers,
bool notify_pending_observers);
void NotifyObserversAnimationWaitingForDeletion();
bool HasValueObserver();
bool HasActiveValueObserver();
AnimationRegistrar* registrar_;
int id_;
ScopedPtrVector<Animation> animations_;
// This is used to ensure that we don't spam the registrar.
bool is_active_;
base::TimeTicks last_tick_time_;
base::ObserverList<LayerAnimationValueObserver> value_observers_;
base::ObserverList<LayerAnimationEventObserver> event_observers_;
LayerAnimationValueProvider* value_provider_;
AnimationDelegate* layer_animation_delegate_;
// Only try to start animations when new animations are added or when the
// previous attempt at starting animations failed to start all animations.
bool needs_to_start_animations_;
bool scroll_offset_animation_was_interrupted_;
} // namespace cc