ui/compositor/layer_animation_sequence.h - platform/external/chromium_org - Git at Google

 // Copyright (c) 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.

 #ifndef UI_COMPOSITOR_LAYER_ANIMATION_SEQUENCE_H_
 #define UI_COMPOSITOR_LAYER_ANIMATION_SEQUENCE_H_

 #include <vector>

 #include "base/gtest_prod_util.h"
 #include "base/memory/linked_ptr.h"
 #include "base/memory/weak_ptr.h"
 #include "base/observer_list.h"
 #include "base/time/time.h"
 #include "ui/compositor/compositor_export.h"
 #include "ui/compositor/layer_animation_element.h"

 namespace ui {

 class LayerAnimationDelegate;
 class LayerAnimationObserver;

 // Contains a collection of layer animation elements to be played one after
 // another. Although it has a similar interface to LayerAnimationElement, it is
 // not a LayerAnimationElement (i.e., it is not permitted to have a sequence in
 // a sequence). Sequences own their elements, and sequences are themselves owned
 // by a LayerAnimator.
 //
 // TODO(vollick) Create a 'blended' sequence for transitioning between
 // sequences.
 // TODO(vollick) Eventually, the LayerAnimator will switch to a model where new
 // work is scheduled rather than calling methods directly. This should make it
 // impossible for temporary pointers to running animations to go stale. When
 // this happens, there will be no need for LayerAnimationSequences to support
 // weak pointers.
 class COMPOSITOR_EXPORT LayerAnimationSequence
     : public base::SupportsWeakPtr<LayerAnimationSequence> {
  public:
   LayerAnimationSequence();
   // Takes ownership of the given element and adds it to the sequence.
   explicit LayerAnimationSequence(LayerAnimationElement* element);
   virtual ~LayerAnimationSequence();

   // Sets the start time for the animation. This must be called before the
   // first call to {Start, IsFinished}. Once the animation is finished, this
   // must be called again in order to restart the animation.
   void set_start_time(base::TimeTicks start_time) { start_time_ = start_time; }
   base::TimeTicks start_time() const { return start_time_; }

   // Sets a flag indicating that this sequence will start together with other
   // sequences, and at least one of the sequences in this group has a threaded
   // first element.
   void set_waiting_for_group_start(bool waiting) {
     waiting_for_group_start_ = waiting;
   }
   bool waiting_for_group_start() { return waiting_for_group_start_; }

   // This must be called before the first call to Progress. If starting the
   // animation involves dispatching to another thread, then this will proceed
   // with that dispatch, ultimately resulting in the animation getting an
   // effective start time (the time the animation starts on the other thread).
   void Start(LayerAnimationDelegate* delegate);

   // Updates the delegate to the appropriate value for |now|. Requests a
   // redraw if it is required.
   void Progress(base::TimeTicks now, LayerAnimationDelegate* delegate);

   // Returns true if calling Progress now, with the given time, will finish
   // the animation.
   bool IsFinished(base::TimeTicks time);

   // Updates the delegate to the end of the animation; if this sequence is
   // cyclic, updates the delegate to the end of one cycle of the sequence.
   void ProgressToEnd(LayerAnimationDelegate* delegate);

   // Sets the target value to the value that would have been set had
   // the sequence completed. Does nothing if the sequence is cyclic.
   void GetTargetValue(LayerAnimationElement::TargetValue* target) const;

   // Aborts the given animation.
   void Abort(LayerAnimationDelegate* delegate);

   // All properties modified by the sequence.
   LayerAnimationElement::AnimatableProperties properties() const {
     return properties_;
   }

   // Adds an element to the sequence. The sequences takes ownership of this
   // element.
   void AddElement(LayerAnimationElement* element);

   // Sequences can be looped indefinitely.
   void set_is_cyclic(bool is_cyclic) { is_cyclic_ = is_cyclic; }
   bool is_cyclic() const { return is_cyclic_; }

   // Returns true if this sequence has at least one element conflicting with a
   // property in |other|.
   bool HasConflictingProperty(
       LayerAnimationElement::AnimatableProperties other) const;

   // Returns true if the first element animates on the compositor thread.
   bool IsFirstElementThreaded() const;

   // Used to identify groups of sequences that are supposed to start together.
   // Once started, used to identify the sequence that owns a particular
   // threaded animation.
   int animation_group_id() const { return animation_group_id_; }
   void set_animation_group_id(int id) { animation_group_id_ = id; }

   // These functions are used for adding or removing observers from the observer
   // list. The observers are notified when animations end.
   void AddObserver(LayerAnimationObserver* observer);
   void RemoveObserver(LayerAnimationObserver* observer);

   // Called when a threaded animation is actually started.
   void OnThreadedAnimationStarted(const cc::AnimationEvent& event);

   // Called when the animator schedules this sequence.
   void OnScheduled();

   // Called when the animator is destroyed.
   void OnAnimatorDestroyed();

   // The last_progressed_fraction of the element most recently progressed by
   // by this sequence. Returns 0.0 if no elements have been progressed.
   double last_progressed_fraction() const { return last_progressed_fraction_; }

   size_t size() const;

   LayerAnimationElement* FirstElement() const;

  private:
   friend class LayerAnimatorTestController;

   typedef std::vector<linked_ptr<LayerAnimationElement> > Elements;

   FRIEND_TEST_ALL_PREFIXES(LayerAnimatorTest,
                            ObserverReleasedBeforeAnimationSequenceEnds);

   // Notifies the observers that this sequence has been scheduled.
   void NotifyScheduled();

   // Notifies the observers that this sequence has ended.
   void NotifyEnded();

   // Notifies the observers that this sequence has been aborted.
   void NotifyAborted();

   // The currently animating element.
   LayerAnimationElement* CurrentElement() const;

   // The union of all the properties modified by all elements in the sequence.
   LayerAnimationElement::AnimatableProperties properties_;

   // The elements in the sequence.
   Elements elements_;

   // True if the sequence should be looped forever.
   bool is_cyclic_;

   // These are used when animating to efficiently find the next element.
   size_t last_element_;
   base::TimeTicks last_start_;

   // The start time of the current run of the sequence.
   base::TimeTicks start_time_;

   // True if this sequence will start together with other sequences, and at
   // least one of the sequences in this group has a threaded first element.
   bool waiting_for_group_start_;

   // Identifies groups of sequences that are supposed to start together.
   // Also used to identify the owner of a particular threaded animation; any
   // in-progress threaded animation owned by this sequence will have this
   // group id.
   int animation_group_id_;

   // These parties are notified when layer animations end.
   ObserverList<LayerAnimationObserver> observers_;

   // Tracks the last_progressed_fraction() of the most recently progressed
   // element.
   double last_progressed_fraction_;

   base::WeakPtrFactory<LayerAnimationSequence> weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(LayerAnimationSequence);
 };

 }  // namespace ui

 #endif  // UI_COMPOSITOR_LAYER_ANIMATION_SEQUENCE_H_
	// Copyright (c) 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.

	#ifndef UI_COMPOSITOR_LAYER_ANIMATION_SEQUENCE_H_
	#define UI_COMPOSITOR_LAYER_ANIMATION_SEQUENCE_H_

	#include <vector>

	#include "base/gtest_prod_util.h"
	#include "base/memory/linked_ptr.h"
	#include "base/memory/weak_ptr.h"
	#include "base/observer_list.h"
	#include "base/time/time.h"
	#include "ui/compositor/compositor_export.h"
	#include "ui/compositor/layer_animation_element.h"

	namespace ui {

	class LayerAnimationDelegate;
	class LayerAnimationObserver;

	// Contains a collection of layer animation elements to be played one after
	// another. Although it has a similar interface to LayerAnimationElement, it is
	// not a LayerAnimationElement (i.e., it is not permitted to have a sequence in
	// a sequence). Sequences own their elements, and sequences are themselves owned
	// by a LayerAnimator.
	//
	// TODO(vollick) Create a 'blended' sequence for transitioning between
	// sequences.
	// TODO(vollick) Eventually, the LayerAnimator will switch to a model where new
	// work is scheduled rather than calling methods directly. This should make it
	// impossible for temporary pointers to running animations to go stale. When
	// this happens, there will be no need for LayerAnimationSequences to support
	// weak pointers.
	class COMPOSITOR_EXPORT LayerAnimationSequence
	: public base::SupportsWeakPtr<LayerAnimationSequence> {
	public:
	LayerAnimationSequence();
	// Takes ownership of the given element and adds it to the sequence.
	explicit LayerAnimationSequence(LayerAnimationElement* element);
	virtual ~LayerAnimationSequence();

	// Sets the start time for the animation. This must be called before the
	// first call to {Start, IsFinished}. Once the animation is finished, this
	// must be called again in order to restart the animation.
	void set_start_time(base::TimeTicks start_time) { start_time_ = start_time; }
	base::TimeTicks start_time() const { return start_time_; }

	// Sets a flag indicating that this sequence will start together with other
	// sequences, and at least one of the sequences in this group has a threaded
	// first element.
	void set_waiting_for_group_start(bool waiting) {
	waiting_for_group_start_ = waiting;
	}
	bool waiting_for_group_start() { return waiting_for_group_start_; }

	// This must be called before the first call to Progress. If starting the
	// animation involves dispatching to another thread, then this will proceed
	// with that dispatch, ultimately resulting in the animation getting an
	// effective start time (the time the animation starts on the other thread).
	void Start(LayerAnimationDelegate* delegate);

	// Updates the delegate to the appropriate value for \|now\|. Requests a
	// redraw if it is required.
	void Progress(base::TimeTicks now, LayerAnimationDelegate* delegate);

	// Returns true if calling Progress now, with the given time, will finish
	// the animation.
	bool IsFinished(base::TimeTicks time);

	// Updates the delegate to the end of the animation; if this sequence is
	// cyclic, updates the delegate to the end of one cycle of the sequence.
	void ProgressToEnd(LayerAnimationDelegate* delegate);

	// Sets the target value to the value that would have been set had
	// the sequence completed. Does nothing if the sequence is cyclic.
	void GetTargetValue(LayerAnimationElement::TargetValue* target) const;

	// Aborts the given animation.
	void Abort(LayerAnimationDelegate* delegate);

	// All properties modified by the sequence.
	LayerAnimationElement::AnimatableProperties properties() const {
	return properties_;
	}

	// Adds an element to the sequence. The sequences takes ownership of this
	// element.
	void AddElement(LayerAnimationElement* element);

	// Sequences can be looped indefinitely.
	void set_is_cyclic(bool is_cyclic) { is_cyclic_ = is_cyclic; }
	bool is_cyclic() const { return is_cyclic_; }

	// Returns true if this sequence has at least one element conflicting with a
	// property in \|other\|.
	bool HasConflictingProperty(
	LayerAnimationElement::AnimatableProperties other) const;

	// Returns true if the first element animates on the compositor thread.
	bool IsFirstElementThreaded() const;

	// Used to identify groups of sequences that are supposed to start together.
	// Once started, used to identify the sequence that owns a particular
	// threaded animation.
	int animation_group_id() const { return animation_group_id_; }
	void set_animation_group_id(int id) { animation_group_id_ = id; }

	// These functions are used for adding or removing observers from the observer
	// list. The observers are notified when animations end.
	void AddObserver(LayerAnimationObserver* observer);
	void RemoveObserver(LayerAnimationObserver* observer);

	// Called when a threaded animation is actually started.
	void OnThreadedAnimationStarted(const cc::AnimationEvent& event);

	// Called when the animator schedules this sequence.
	void OnScheduled();

	// Called when the animator is destroyed.
	void OnAnimatorDestroyed();

	// The last_progressed_fraction of the element most recently progressed by
	// by this sequence. Returns 0.0 if no elements have been progressed.
	double last_progressed_fraction() const { return last_progressed_fraction_; }

	size_t size() const;

	LayerAnimationElement* FirstElement() const;

	private:
	friend class LayerAnimatorTestController;

	typedef std::vector<linked_ptr<LayerAnimationElement> > Elements;

	FRIEND_TEST_ALL_PREFIXES(LayerAnimatorTest,
	ObserverReleasedBeforeAnimationSequenceEnds);

	// Notifies the observers that this sequence has been scheduled.
	void NotifyScheduled();

	// Notifies the observers that this sequence has ended.
	void NotifyEnded();

	// Notifies the observers that this sequence has been aborted.
	void NotifyAborted();

	// The currently animating element.
	LayerAnimationElement* CurrentElement() const;

	// The union of all the properties modified by all elements in the sequence.
	LayerAnimationElement::AnimatableProperties properties_;

	// The elements in the sequence.
	Elements elements_;

	// True if the sequence should be looped forever.
	bool is_cyclic_;

	// These are used when animating to efficiently find the next element.
	size_t last_element_;
	base::TimeTicks last_start_;

	// The start time of the current run of the sequence.
	base::TimeTicks start_time_;

	// True if this sequence will start together with other sequences, and at
	// least one of the sequences in this group has a threaded first element.
	bool waiting_for_group_start_;

	// Identifies groups of sequences that are supposed to start together.
	// Also used to identify the owner of a particular threaded animation; any
	// in-progress threaded animation owned by this sequence will have this
	// group id.
	int animation_group_id_;

	// These parties are notified when layer animations end.
	ObserverList<LayerAnimationObserver> observers_;

	// Tracks the last_progressed_fraction() of the most recently progressed
	// element.
	double last_progressed_fraction_;

	base::WeakPtrFactory<LayerAnimationSequence> weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(LayerAnimationSequence);
	};

	} // namespace ui

	#endif // UI_COMPOSITOR_LAYER_ANIMATION_SEQUENCE_H_