cc/scheduler/scheduler_state_machine.h - chromium/src.git - Git at Google

 // Copyright 2011 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 CC_SCHEDULER_SCHEDULER_STATE_MACHINE_H_
 #define CC_SCHEDULER_SCHEDULER_STATE_MACHINE_H_

 #include <string>

 #include "base/basictypes.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/time/time.h"
 #include "cc/base/cc_export.h"
 #include "cc/output/begin_frame_args.h"
 #include "cc/scheduler/draw_swap_readback_result.h"
 #include "cc/scheduler/scheduler_settings.h"

 namespace base {
 class Value;
 }

 namespace cc {

 // The SchedulerStateMachine decides how to coordinate main thread activites
 // like painting/running javascript with rendering and input activities on the
 // impl thread.
 //
 // The state machine tracks internal state but is also influenced by external
 // state.  Internal state includes things like whether a frame has been
 // requested, while external state includes things like the current time being
 // near to the vblank time.
 //
 // The scheduler seperates "what to do next" from the updating of its internal
 // state to make testing cleaner.
 class CC_EXPORT SchedulerStateMachine {
  public:
   // settings must be valid for the lifetime of this class.
   explicit SchedulerStateMachine(const SchedulerSettings& settings);

   enum OutputSurfaceState {
     OUTPUT_SURFACE_ACTIVE,
     OUTPUT_SURFACE_LOST,
     OUTPUT_SURFACE_CREATING,
     OUTPUT_SURFACE_WAITING_FOR_FIRST_COMMIT,
     OUTPUT_SURFACE_WAITING_FOR_FIRST_ACTIVATION,
   };
   static const char* OutputSurfaceStateToString(OutputSurfaceState state);

   // Note: BeginImplFrameState will always cycle through all the states in
   // order. Whether or not it actually waits or draws, it will at least try to
   // wait in BEGIN_IMPL_FRAME_STATE_INSIDE_BEGIN_FRAME and try to draw in
   // BEGIN_IMPL_FRAME_STATE_INSIDE_DEADLINE
   enum BeginImplFrameState {
     BEGIN_IMPL_FRAME_STATE_IDLE,
     BEGIN_IMPL_FRAME_STATE_BEGIN_FRAME_STARTING,
     BEGIN_IMPL_FRAME_STATE_INSIDE_BEGIN_FRAME,
     BEGIN_IMPL_FRAME_STATE_INSIDE_DEADLINE,
   };
   static const char* BeginImplFrameStateToString(BeginImplFrameState state);

   enum CommitState {
     COMMIT_STATE_IDLE,
     COMMIT_STATE_BEGIN_MAIN_FRAME_SENT,
     COMMIT_STATE_BEGIN_MAIN_FRAME_STARTED,
     COMMIT_STATE_READY_TO_COMMIT,
     COMMIT_STATE_WAITING_FOR_ACTIVATION,
     COMMIT_STATE_WAITING_FOR_FIRST_DRAW,
   };
   static const char* CommitStateToString(CommitState state);

   enum SynchronousReadbackState {
     READBACK_STATE_IDLE,
     READBACK_STATE_NEEDS_BEGIN_MAIN_FRAME,
     READBACK_STATE_WAITING_FOR_COMMIT,
     READBACK_STATE_WAITING_FOR_ACTIVATION,
     READBACK_STATE_WAITING_FOR_DRAW_AND_READBACK,
     READBACK_STATE_WAITING_FOR_REPLACEMENT_COMMIT,
     READBACK_STATE_WAITING_FOR_REPLACEMENT_ACTIVATION,
   };
   static const char* SynchronousReadbackStateToString(
       SynchronousReadbackState state);

   enum ForcedRedrawOnTimeoutState {
     FORCED_REDRAW_STATE_IDLE,
     FORCED_REDRAW_STATE_WAITING_FOR_COMMIT,
     FORCED_REDRAW_STATE_WAITING_FOR_ACTIVATION,
     FORCED_REDRAW_STATE_WAITING_FOR_DRAW,
   };
   static const char* ForcedRedrawOnTimeoutStateToString(
       ForcedRedrawOnTimeoutState state);

   bool CommitPending() const {
     return commit_state_ == COMMIT_STATE_BEGIN_MAIN_FRAME_SENT ||
            commit_state_ == COMMIT_STATE_BEGIN_MAIN_FRAME_STARTED ||
            commit_state_ == COMMIT_STATE_READY_TO_COMMIT;
   }
   CommitState commit_state() const { return commit_state_; }

   bool RedrawPending() const { return needs_redraw_; }
   bool ManageTilesPending() const { return needs_manage_tiles_; }

   enum Action {
     ACTION_NONE,
     ACTION_ANIMATE,
     ACTION_SEND_BEGIN_MAIN_FRAME,
     ACTION_COMMIT,
     ACTION_UPDATE_VISIBLE_TILES,
     ACTION_ACTIVATE_PENDING_TREE,
     ACTION_DRAW_AND_SWAP_IF_POSSIBLE,
     ACTION_DRAW_AND_SWAP_FORCED,
     ACTION_DRAW_AND_SWAP_ABORT,
     ACTION_DRAW_AND_READBACK,
     ACTION_BEGIN_OUTPUT_SURFACE_CREATION,
     ACTION_MANAGE_TILES,
   };
   static const char* ActionToString(Action action);

   scoped_ptr<base::Value> AsValue() const;

   Action NextAction() const;
   void UpdateState(Action action);

   void CheckInvariants();

   // Indicates whether the impl thread needs a BeginImplFrame callback in order
   // to make progress.
   bool BeginFrameNeeded() const;

   // Indicates that we need to independently poll for new state and actions
   // because we can't expect a BeginImplFrame. This is mostly used to avoid
   // drawing repeat frames with the synchronous compositor without dropping
   // necessary actions on the floor.
   bool ShouldPollForAnticipatedDrawTriggers() const;

   // Indicates that the system has entered and left a BeginImplFrame callback.
   // The scheduler will not draw more than once in a given BeginImplFrame
   // callback nor send more than one BeginMainFrame message.
   void OnBeginImplFrame(const BeginFrameArgs& args);
   void OnBeginImplFrameDeadlinePending();
   void OnBeginImplFrameDeadline();
   void OnBeginImplFrameIdle();
   bool ShouldTriggerBeginImplFrameDeadlineEarly() const;
   BeginImplFrameState begin_impl_frame_state() const {
     return begin_impl_frame_state_;
   }

   // If the main thread didn't manage to produce a new frame in time for the
   // impl thread to draw, it is in a high latency mode.
   bool MainThreadIsInHighLatencyMode() const;

   // PollForAnticipatedDrawTriggers is used by the synchronous compositor to
   // avoid requesting BeginImplFrames when we won't actually draw but still
   // need to advance our state at vsync intervals.
   void DidEnterPollForAnticipatedDrawTriggers();
   void DidLeavePollForAnticipatedDrawTriggers();
   bool inside_poll_for_anticipated_draw_triggers() const {
     return inside_poll_for_anticipated_draw_triggers_;
   }

   // Indicates whether the LayerTreeHostImpl is visible.
   void SetVisible(bool visible);

   // Indicates that a redraw is required, either due to the impl tree changing
   // or the screen being damaged and simply needing redisplay.
   void SetNeedsRedraw();
   bool needs_redraw() const { return needs_redraw_; }

   void SetNeedsAnimate();
   bool needs_animate() const { return needs_animate_; }

   // Indicates that manage-tiles is required. This guarantees another
   // ManageTiles will occur shortly (even if no redraw is required).
   void SetNeedsManageTiles();

   // Sets how many swaps can be pending to the OutputSurface.
   void SetMaxSwapsPending(int max);

   // If the scheduler attempted to draw and swap, this provides feedback
   // regarding whether or not the swap actually occured. We might skip the
   // swap when there is not damage, for example.
   void DidSwapBuffers();

   // Indicates whether a redraw is required because we are currently rendering
   // with a low resolution or checkerboarded tile.
   void SetSwapUsedIncompleteTile(bool used_incomplete_tile);

   // Notification from the OutputSurface that a swap has been consumed.
   void DidSwapBuffersComplete();

   // Indicates whether to prioritize animation smoothness over new content
   // activation.
   void SetSmoothnessTakesPriority(bool smoothness_takes_priority);
   bool smoothness_takes_priority() const { return smoothness_takes_priority_; }

   // Indicates whether ACTION_DRAW_AND_SWAP_IF_POSSIBLE drew to the screen.
   void DidDrawIfPossibleCompleted(DrawSwapReadbackResult::DrawResult result);

   // Indicates that a new commit flow needs to be performed, either to pull
   // updates from the main thread to the impl, or to push deltas from the impl
   // thread to main.
   void SetNeedsCommit();

   // As SetNeedsCommit(), but ensures the BeginMainFrame will be sent even
   // if we are not visible.  After this call we expect to go through
   // the forced commit flow and then return to waiting for a non-forced
   // BeginMainFrame to finish.
   void SetNeedsForcedCommitForReadback();

   // Call this only in response to receiving an ACTION_SEND_BEGIN_MAIN_FRAME
   // from NextAction.
   // Indicates that all painting is complete.
   void NotifyReadyToCommit();

   // Call this only in response to receiving an ACTION_SEND_BEGIN_MAIN_FRAME
   // from NextAction if the client rejects the BeginMainFrame message.
   // If did_handle is false, then another commit will be retried soon.
   void BeginMainFrameAborted(bool did_handle);

   // Set that we can create the first OutputSurface and start the scheduler.
   void SetCanStart() { can_start_ = true; }

   void SetSkipNextBeginMainFrameToReduceLatency();

   // Indicates whether drawing would, at this time, make sense.
   // CanDraw can be used to suppress flashes or checkerboarding
   // when such behavior would be undesirable.
   void SetCanDraw(bool can);

   // Indicates that scheduled BeginMainFrame is started.
   void NotifyBeginMainFrameStarted();

   // Indicates that the pending tree is ready for activation.
   void NotifyReadyToActivate();

   bool has_pending_tree() const { return has_pending_tree_; }
   bool active_tree_needs_first_draw() const {
     return active_tree_needs_first_draw_;
   }

   void DidManageTiles();
   void DidLoseOutputSurface();
   void DidCreateAndInitializeOutputSurface();
   bool HasInitializedOutputSurface() const;

   // True if we need to abort draws to make forward progress.
   bool PendingDrawsShouldBeAborted() const;

   bool SupportsProactiveBeginFrame() const;

   void SetContinuousPainting(bool continuous_painting) {
     continuous_painting_ = continuous_painting;
   }

  protected:
   bool BeginFrameNeededToAnimateOrDraw() const;
   bool ProactiveBeginFrameWanted() const;

   // True if we need to force activations to make forward progress.
   bool PendingActivationsShouldBeForced() const;

   bool ShouldAnimate() const;
   bool ShouldBeginOutputSurfaceCreation() const;
   bool ShouldDrawForced() const;
   bool ShouldDraw() const;
   bool ShouldActivatePendingTree() const;
   bool ShouldUpdateVisibleTiles() const;
   bool ShouldSendBeginMainFrame() const;
   bool ShouldCommit() const;
   bool ShouldManageTiles() const;

   void AdvanceCurrentFrameNumber();
   bool HasSentBeginMainFrameThisFrame() const;
   bool HasUpdatedVisibleTilesThisFrame() const;
   bool HasSwappedThisFrame() const;

   void UpdateStateOnCommit(bool commit_was_aborted);
   void UpdateStateOnActivation();
   void UpdateStateOnDraw(bool did_request_swap);
   void UpdateStateOnManageTiles();

   const SchedulerSettings settings_;

   OutputSurfaceState output_surface_state_;
   BeginImplFrameState begin_impl_frame_state_;
   CommitState commit_state_;
   ForcedRedrawOnTimeoutState forced_redraw_state_;
   SynchronousReadbackState readback_state_;

   BeginFrameArgs begin_impl_frame_args_;

   int commit_count_;
   int current_frame_number_;
   int last_frame_number_animate_performed_;
   int last_frame_number_swap_performed_;
   int last_frame_number_begin_main_frame_sent_;
   int last_frame_number_update_visible_tiles_was_called_;

   // manage_tiles_funnel_ is "filled" each time ManageTiles is called
   // and "drained" on each BeginImplFrame. If the funnel gets too full,
   // we start throttling ACTION_MANAGE_TILES such that we average one
   // ManageTile per BeginImplFrame.
   int manage_tiles_funnel_;
   int consecutive_checkerboard_animations_;
   int max_pending_swaps_;
   int pending_swaps_;
   bool needs_redraw_;
   bool needs_animate_;
   bool needs_manage_tiles_;
   bool swap_used_incomplete_tile_;
   bool needs_commit_;
   bool inside_poll_for_anticipated_draw_triggers_;
   bool visible_;
   bool can_start_;
   bool can_draw_;
   bool has_pending_tree_;
   bool pending_tree_is_ready_for_activation_;
   bool active_tree_needs_first_draw_;
   bool did_create_and_initialize_first_output_surface_;
   bool smoothness_takes_priority_;
   bool skip_next_begin_main_frame_to_reduce_latency_;
   bool skip_begin_main_frame_to_reduce_latency_;
   bool continuous_painting_;
   bool needs_back_to_back_readback_;

  private:
   DISALLOW_COPY_AND_ASSIGN(SchedulerStateMachine);
 };

 }  // namespace cc

 #endif  // CC_SCHEDULER_SCHEDULER_STATE_MACHINE_H_
	// Copyright 2011 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 CC_SCHEDULER_SCHEDULER_STATE_MACHINE_H_
	#define CC_SCHEDULER_SCHEDULER_STATE_MACHINE_H_

	#include <string>

	#include "base/basictypes.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/time/time.h"
	#include "cc/base/cc_export.h"
	#include "cc/output/begin_frame_args.h"
	#include "cc/scheduler/draw_swap_readback_result.h"
	#include "cc/scheduler/scheduler_settings.h"

	namespace base {
	class Value;
	}

	namespace cc {

	// The SchedulerStateMachine decides how to coordinate main thread activites
	// like painting/running javascript with rendering and input activities on the
	// impl thread.
	//
	// The state machine tracks internal state but is also influenced by external
	// state. Internal state includes things like whether a frame has been
	// requested, while external state includes things like the current time being
	// near to the vblank time.
	//
	// The scheduler seperates "what to do next" from the updating of its internal
	// state to make testing cleaner.
	class CC_EXPORT SchedulerStateMachine {
	public:
	// settings must be valid for the lifetime of this class.
	explicit SchedulerStateMachine(const SchedulerSettings& settings);

	enum OutputSurfaceState {
	OUTPUT_SURFACE_ACTIVE,
	OUTPUT_SURFACE_LOST,
	OUTPUT_SURFACE_CREATING,
	OUTPUT_SURFACE_WAITING_FOR_FIRST_COMMIT,
	OUTPUT_SURFACE_WAITING_FOR_FIRST_ACTIVATION,
	};
	static const char* OutputSurfaceStateToString(OutputSurfaceState state);

	// Note: BeginImplFrameState will always cycle through all the states in
	// order. Whether or not it actually waits or draws, it will at least try to
	// wait in BEGIN_IMPL_FRAME_STATE_INSIDE_BEGIN_FRAME and try to draw in
	// BEGIN_IMPL_FRAME_STATE_INSIDE_DEADLINE
	enum BeginImplFrameState {
	BEGIN_IMPL_FRAME_STATE_IDLE,
	BEGIN_IMPL_FRAME_STATE_BEGIN_FRAME_STARTING,
	BEGIN_IMPL_FRAME_STATE_INSIDE_BEGIN_FRAME,
	BEGIN_IMPL_FRAME_STATE_INSIDE_DEADLINE,
	};
	static const char* BeginImplFrameStateToString(BeginImplFrameState state);

	enum CommitState {
	COMMIT_STATE_IDLE,
	COMMIT_STATE_BEGIN_MAIN_FRAME_SENT,
	COMMIT_STATE_BEGIN_MAIN_FRAME_STARTED,
	COMMIT_STATE_READY_TO_COMMIT,
	COMMIT_STATE_WAITING_FOR_ACTIVATION,
	COMMIT_STATE_WAITING_FOR_FIRST_DRAW,
	};
	static const char* CommitStateToString(CommitState state);

	enum SynchronousReadbackState {
	READBACK_STATE_IDLE,
	READBACK_STATE_NEEDS_BEGIN_MAIN_FRAME,
	READBACK_STATE_WAITING_FOR_COMMIT,
	READBACK_STATE_WAITING_FOR_ACTIVATION,
	READBACK_STATE_WAITING_FOR_DRAW_AND_READBACK,
	READBACK_STATE_WAITING_FOR_REPLACEMENT_COMMIT,
	READBACK_STATE_WAITING_FOR_REPLACEMENT_ACTIVATION,
	};
	static const char* SynchronousReadbackStateToString(
	SynchronousReadbackState state);

	enum ForcedRedrawOnTimeoutState {
	FORCED_REDRAW_STATE_IDLE,
	FORCED_REDRAW_STATE_WAITING_FOR_COMMIT,
	FORCED_REDRAW_STATE_WAITING_FOR_ACTIVATION,
	FORCED_REDRAW_STATE_WAITING_FOR_DRAW,
	};
	static const char* ForcedRedrawOnTimeoutStateToString(
	ForcedRedrawOnTimeoutState state);

	bool CommitPending() const {
	return commit_state_ == COMMIT_STATE_BEGIN_MAIN_FRAME_SENT \|\|
	commit_state_ == COMMIT_STATE_BEGIN_MAIN_FRAME_STARTED \|\|
	commit_state_ == COMMIT_STATE_READY_TO_COMMIT;
	}
	CommitState commit_state() const { return commit_state_; }

	bool RedrawPending() const { return needs_redraw_; }
	bool ManageTilesPending() const { return needs_manage_tiles_; }

	enum Action {
	ACTION_NONE,
	ACTION_ANIMATE,
	ACTION_SEND_BEGIN_MAIN_FRAME,
	ACTION_COMMIT,
	ACTION_UPDATE_VISIBLE_TILES,
	ACTION_ACTIVATE_PENDING_TREE,
	ACTION_DRAW_AND_SWAP_IF_POSSIBLE,
	ACTION_DRAW_AND_SWAP_FORCED,
	ACTION_DRAW_AND_SWAP_ABORT,
	ACTION_DRAW_AND_READBACK,
	ACTION_BEGIN_OUTPUT_SURFACE_CREATION,
	ACTION_MANAGE_TILES,
	};
	static const char* ActionToString(Action action);

	scoped_ptr<base::Value> AsValue() const;

	Action NextAction() const;
	void UpdateState(Action action);

	void CheckInvariants();

	// Indicates whether the impl thread needs a BeginImplFrame callback in order
	// to make progress.
	bool BeginFrameNeeded() const;

	// Indicates that we need to independently poll for new state and actions
	// because we can't expect a BeginImplFrame. This is mostly used to avoid
	// drawing repeat frames with the synchronous compositor without dropping
	// necessary actions on the floor.
	bool ShouldPollForAnticipatedDrawTriggers() const;

	// Indicates that the system has entered and left a BeginImplFrame callback.
	// The scheduler will not draw more than once in a given BeginImplFrame
	// callback nor send more than one BeginMainFrame message.
	void OnBeginImplFrame(const BeginFrameArgs& args);
	void OnBeginImplFrameDeadlinePending();
	void OnBeginImplFrameDeadline();
	void OnBeginImplFrameIdle();
	bool ShouldTriggerBeginImplFrameDeadlineEarly() const;
	BeginImplFrameState begin_impl_frame_state() const {
	return begin_impl_frame_state_;
	}

	// If the main thread didn't manage to produce a new frame in time for the
	// impl thread to draw, it is in a high latency mode.
	bool MainThreadIsInHighLatencyMode() const;

	// PollForAnticipatedDrawTriggers is used by the synchronous compositor to
	// avoid requesting BeginImplFrames when we won't actually draw but still
	// need to advance our state at vsync intervals.
	void DidEnterPollForAnticipatedDrawTriggers();
	void DidLeavePollForAnticipatedDrawTriggers();
	bool inside_poll_for_anticipated_draw_triggers() const {
	return inside_poll_for_anticipated_draw_triggers_;
	}

	// Indicates whether the LayerTreeHostImpl is visible.
	void SetVisible(bool visible);

	// Indicates that a redraw is required, either due to the impl tree changing
	// or the screen being damaged and simply needing redisplay.
	void SetNeedsRedraw();
	bool needs_redraw() const { return needs_redraw_; }

	void SetNeedsAnimate();
	bool needs_animate() const { return needs_animate_; }

	// Indicates that manage-tiles is required. This guarantees another
	// ManageTiles will occur shortly (even if no redraw is required).
	void SetNeedsManageTiles();

	// Sets how many swaps can be pending to the OutputSurface.
	void SetMaxSwapsPending(int max);

	// If the scheduler attempted to draw and swap, this provides feedback
	// regarding whether or not the swap actually occured. We might skip the
	// swap when there is not damage, for example.
	void DidSwapBuffers();

	// Indicates whether a redraw is required because we are currently rendering
	// with a low resolution or checkerboarded tile.
	void SetSwapUsedIncompleteTile(bool used_incomplete_tile);

	// Notification from the OutputSurface that a swap has been consumed.
	void DidSwapBuffersComplete();

	// Indicates whether to prioritize animation smoothness over new content
	// activation.
	void SetSmoothnessTakesPriority(bool smoothness_takes_priority);
	bool smoothness_takes_priority() const { return smoothness_takes_priority_; }

	// Indicates whether ACTION_DRAW_AND_SWAP_IF_POSSIBLE drew to the screen.
	void DidDrawIfPossibleCompleted(DrawSwapReadbackResult::DrawResult result);

	// Indicates that a new commit flow needs to be performed, either to pull
	// updates from the main thread to the impl, or to push deltas from the impl
	// thread to main.
	void SetNeedsCommit();

	// As SetNeedsCommit(), but ensures the BeginMainFrame will be sent even
	// if we are not visible. After this call we expect to go through
	// the forced commit flow and then return to waiting for a non-forced
	// BeginMainFrame to finish.
	void SetNeedsForcedCommitForReadback();

	// Call this only in response to receiving an ACTION_SEND_BEGIN_MAIN_FRAME
	// from NextAction.
	// Indicates that all painting is complete.
	void NotifyReadyToCommit();

	// Call this only in response to receiving an ACTION_SEND_BEGIN_MAIN_FRAME
	// from NextAction if the client rejects the BeginMainFrame message.
	// If did_handle is false, then another commit will be retried soon.
	void BeginMainFrameAborted(bool did_handle);

	// Set that we can create the first OutputSurface and start the scheduler.
	void SetCanStart() { can_start_ = true; }

	void SetSkipNextBeginMainFrameToReduceLatency();

	// Indicates whether drawing would, at this time, make sense.
	// CanDraw can be used to suppress flashes or checkerboarding
	// when such behavior would be undesirable.
	void SetCanDraw(bool can);

	// Indicates that scheduled BeginMainFrame is started.
	void NotifyBeginMainFrameStarted();

	// Indicates that the pending tree is ready for activation.
	void NotifyReadyToActivate();

	bool has_pending_tree() const { return has_pending_tree_; }
	bool active_tree_needs_first_draw() const {
	return active_tree_needs_first_draw_;
	}

	void DidManageTiles();
	void DidLoseOutputSurface();
	void DidCreateAndInitializeOutputSurface();
	bool HasInitializedOutputSurface() const;

	// True if we need to abort draws to make forward progress.
	bool PendingDrawsShouldBeAborted() const;

	bool SupportsProactiveBeginFrame() const;

	void SetContinuousPainting(bool continuous_painting) {
	continuous_painting_ = continuous_painting;
	}

	protected:
	bool BeginFrameNeededToAnimateOrDraw() const;
	bool ProactiveBeginFrameWanted() const;

	// True if we need to force activations to make forward progress.
	bool PendingActivationsShouldBeForced() const;

	bool ShouldAnimate() const;
	bool ShouldBeginOutputSurfaceCreation() const;
	bool ShouldDrawForced() const;
	bool ShouldDraw() const;
	bool ShouldActivatePendingTree() const;
	bool ShouldUpdateVisibleTiles() const;
	bool ShouldSendBeginMainFrame() const;
	bool ShouldCommit() const;
	bool ShouldManageTiles() const;

	void AdvanceCurrentFrameNumber();
	bool HasSentBeginMainFrameThisFrame() const;
	bool HasUpdatedVisibleTilesThisFrame() const;
	bool HasSwappedThisFrame() const;

	void UpdateStateOnCommit(bool commit_was_aborted);
	void UpdateStateOnActivation();
	void UpdateStateOnDraw(bool did_request_swap);
	void UpdateStateOnManageTiles();

	const SchedulerSettings settings_;

	OutputSurfaceState output_surface_state_;
	BeginImplFrameState begin_impl_frame_state_;
	CommitState commit_state_;
	ForcedRedrawOnTimeoutState forced_redraw_state_;
	SynchronousReadbackState readback_state_;

	BeginFrameArgs begin_impl_frame_args_;

	int commit_count_;
	int current_frame_number_;
	int last_frame_number_animate_performed_;
	int last_frame_number_swap_performed_;
	int last_frame_number_begin_main_frame_sent_;
	int last_frame_number_update_visible_tiles_was_called_;

	// manage_tiles_funnel_ is "filled" each time ManageTiles is called
	// and "drained" on each BeginImplFrame. If the funnel gets too full,
	// we start throttling ACTION_MANAGE_TILES such that we average one
	// ManageTile per BeginImplFrame.
	int manage_tiles_funnel_;
	int consecutive_checkerboard_animations_;
	int max_pending_swaps_;
	int pending_swaps_;
	bool needs_redraw_;
	bool needs_animate_;
	bool needs_manage_tiles_;
	bool swap_used_incomplete_tile_;
	bool needs_commit_;
	bool inside_poll_for_anticipated_draw_triggers_;
	bool visible_;
	bool can_start_;
	bool can_draw_;
	bool has_pending_tree_;
	bool pending_tree_is_ready_for_activation_;
	bool active_tree_needs_first_draw_;
	bool did_create_and_initialize_first_output_surface_;
	bool smoothness_takes_priority_;
	bool skip_next_begin_main_frame_to_reduce_latency_;
	bool skip_begin_main_frame_to_reduce_latency_;
	bool continuous_painting_;
	bool needs_back_to_back_readback_;

	private:
	DISALLOW_COPY_AND_ASSIGN(SchedulerStateMachine);
	};

	} // namespace cc

	#endif // CC_SCHEDULER_SCHEDULER_STATE_MACHINE_H_