tools/VisualBench/TimingStateMachine.h - platform/external/skia.git - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef TimingStateMachine_DEFINED
 #define TimingStateMachine_DEFINED

 #include "Benchmark.h"
 #include "SkTArray.h"
 #include "Timer.h"

 class SkCanvas;

 /*
  * Manages a timer via a state machine.  Can be used by modules to time benchmarks
  *
  * Clients call nextFrame, and must handle any requests from the timing state machine, specifically
  * to reset.  When kTimingFinished_ParentEvents is returned, then lastMeasurement() will return the
  * timing and loops() will return the number of loops used to time.
  *
  * A client may continue timing the same benchmark indefinitely.  To advance to the next
  * benchmark, the client should call nextBenchmark.
  */
 class TimingStateMachine {
 public:
     TimingStateMachine();

     enum ParentEvents {
         kReset_ParentEvents,
         kTiming_ParentEvents,
         kTimingFinished_ParentEvents,// This implies parent can read lastMeasurement() and must
                                      // reset
     };

     ParentEvents nextFrame(bool preWarmBetweenSamples);

     /*
      * The caller should call this when they are ready to move to the next benchmark.
      */
     void nextBenchmark();

     /*
      * When TimingStateMachine returns kTimingFinished_ParentEvents, then the owner can call
      * lastMeasurement() to get the time
      */
     double lastMeasurement() const { return fLastMeasurement; }

     int loops() const { return fLoops; }

 private:
     enum State {
         kPreWarm_State,
         kTiming_State,
     };
     enum InnerState {
         kTuning_InnerState,
         kTiming_InnerState,
     };

     int fCurrentFrame;
     int fLoops;
     double fLastMeasurement;
     double fStartTime;
     State fState;
     InnerState fInnerState;
 };

 #endif
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef TimingStateMachine_DEFINED
	#define TimingStateMachine_DEFINED

	#include "Benchmark.h"
	#include "SkTArray.h"
	#include "Timer.h"

	class SkCanvas;

	/*
	* Manages a timer via a state machine. Can be used by modules to time benchmarks
	*
	* Clients call nextFrame, and must handle any requests from the timing state machine, specifically
	* to reset. When kTimingFinished_ParentEvents is returned, then lastMeasurement() will return the
	* timing and loops() will return the number of loops used to time.
	*
	* A client may continue timing the same benchmark indefinitely. To advance to the next
	* benchmark, the client should call nextBenchmark.
	*/
	class TimingStateMachine {
	public:
	TimingStateMachine();

	enum ParentEvents {
	kReset_ParentEvents,
	kTiming_ParentEvents,
	kTimingFinished_ParentEvents,// This implies parent can read lastMeasurement() and must
	// reset
	};

	ParentEvents nextFrame(bool preWarmBetweenSamples);

	/*
	* The caller should call this when they are ready to move to the next benchmark.
	*/
	void nextBenchmark();

	/*
	* When TimingStateMachine returns kTimingFinished_ParentEvents, then the owner can call
	* lastMeasurement() to get the time
	*/
	double lastMeasurement() const { return fLastMeasurement; }

	int loops() const { return fLoops; }

	private:
	enum State {
	kPreWarm_State,
	kTiming_State,
	};
	enum InnerState {
	kTuning_InnerState,
	kTiming_InnerState,
	};

	int fCurrentFrame;
	int fLoops;
	double fLastMeasurement;
	double fStartTime;
	State fState;
	InnerState fInnerState;
	};

	#endif