bench/SkBenchmark.h - platform/external/skia - Gitiles


 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #ifndef SkBenchmark_DEFINED
 #define SkBenchmark_DEFINED

 #include "SkRefCnt.h"
 #include "SkPoint.h"
 #include "SkTDict.h"
 #include "SkTRegistry.h"

 #define DEF_BENCH(code) \
 static SkBenchmark* SK_MACRO_APPEND_LINE(F_)(void* p) { code; } \
 static BenchRegistry SK_MACRO_APPEND_LINE(R_)(SK_MACRO_APPEND_LINE(F_));

 /*
  *  With the above macros, you can register benches as follows (at the bottom
  *  of your .cpp)
  *
  *  DEF_BENCH(new MyBenchmark(p, ...))
  *  DEF_BENCH(new MyBenchmark(p, ...))
  *  DEF_BENCH(new MyBenchmark(p, ...))
  */


 #ifdef SK_DEBUG
     #define SkBENCHLOOP(n) 1
 #else
     #define SkBENCHLOOP(n) n
 #endif

 class SkCanvas;
 class SkPaint;

 class SkTriState {
 public:
     enum State {
         kDefault,
         kTrue,
         kFalse
     };
 };

 class SkBenchmark : public SkRefCnt {
 public:
     SK_DECLARE_INST_COUNT(SkBenchmark)

     SkBenchmark(void* defineDict);

     const char* getName();
     SkIPoint getSize();

     // Call before draw, allows the benchmark to do setup work outside of the
     // timer. When a benchmark is repeatedly drawn, this should be called once
     // before the initial draw.
     void preDraw();

     void draw(SkCanvas*);

     // Call after draw, allows the benchmark to do cleanup work outside of the
     // timer. When a benchmark is repeatedly drawn, this is only called once
     // after the last draw.
     void postDraw();

     void setForceAlpha(int alpha) {
         fForceAlpha = alpha;
     }

     void setForceAA(bool aa) {
         fForceAA = aa;
     }

     void setForceFilter(bool filter) {
         fForceFilter = filter;
     }

     void setDither(SkTriState::State state) {
         fDither = state;
     }

     void setStrokeWidth(SkScalar width) {
       strokeWidth = width;
       fHasStrokeWidth = true;
     }

     SkScalar getStrokeWidth() {
       return strokeWidth;
     }

     bool hasStrokeWidth() {
       return fHasStrokeWidth;
     }

     /** If true; the benchmark does rendering; if false, the benchmark
         doesn't, and so need not be re-run in every different rendering
         mode. */
     bool isRendering() {
         return fIsRendering;
     }

     const char* findDefine(const char* key) const;
     bool findDefine32(const char* key, int32_t* value) const;
     bool findDefineScalar(const char* key, SkScalar* value) const;

     /** Assign masks for paint-flags. These will be applied when setupPaint()
      *  is called.
      *
      *  Performs the following on the paint:
      *      uint32_t flags = paint.getFlags();
      *      flags &= ~clearMask;
      *      flags |= orMask;
      *      paint.setFlags(flags);
      */
     void setPaintMasks(uint32_t orMask, uint32_t clearMask) {
         fOrMask = orMask;
         fClearMask = clearMask;
     }

     float getDurationScale() { return this->onGetDurationScale(); }

 protected:
     virtual void setupPaint(SkPaint* paint);

     virtual const char* onGetName() = 0;
     virtual void onPreDraw() {}
     virtual void onDraw(SkCanvas*) = 0;
     virtual void onPostDraw() {}
     // the caller will scale the computed duration by this value. It allows a
     // slow bench to run fewer inner loops, but return the corresponding scale
     // so that its reported duration can be compared against other benches.
     // e.g.
     //      if I run 10x slower, I can run 1/10 the number of inner-loops, but
     //      return 10.0 for my durationScale, so I "report" the honest duration.
     virtual float onGetDurationScale() { return 1; }

     virtual SkIPoint onGetSize();
     /// Defaults to true.
     bool    fIsRendering;

 private:
     const SkTDict<const char*>* fDict;
     int     fForceAlpha;
     bool    fForceAA;
     bool    fForceFilter;
     SkTriState::State  fDither;
     bool    fHasStrokeWidth;
     SkScalar strokeWidth;
     uint32_t    fOrMask, fClearMask;

     typedef SkRefCnt INHERITED;
 };

 typedef SkTRegistry<SkBenchmark*, void*> BenchRegistry;

 #endif

	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#ifndef SkBenchmark_DEFINED
	#define SkBenchmark_DEFINED

	#include "SkRefCnt.h"
	#include "SkPoint.h"
	#include "SkTDict.h"
	#include "SkTRegistry.h"

	#define DEF_BENCH(code) \
	static SkBenchmark* SK_MACRO_APPEND_LINE(F_)(void* p) { code; } \
	static BenchRegistry SK_MACRO_APPEND_LINE(R_)(SK_MACRO_APPEND_LINE(F_));

	/*
	* With the above macros, you can register benches as follows (at the bottom
	* of your .cpp)
	*
	* DEF_BENCH(new MyBenchmark(p, ...))
	* DEF_BENCH(new MyBenchmark(p, ...))
	* DEF_BENCH(new MyBenchmark(p, ...))
	*/


	#ifdef SK_DEBUG
	#define SkBENCHLOOP(n) 1
	#else
	#define SkBENCHLOOP(n) n
	#endif

	class SkCanvas;
	class SkPaint;

	class SkTriState {
	public:
	enum State {
	kDefault,
	kTrue,
	kFalse
	};
	};

	class SkBenchmark : public SkRefCnt {
	public:
	SK_DECLARE_INST_COUNT(SkBenchmark)

	SkBenchmark(void* defineDict);

	const char* getName();
	SkIPoint getSize();

	// Call before draw, allows the benchmark to do setup work outside of the
	// timer. When a benchmark is repeatedly drawn, this should be called once
	// before the initial draw.
	void preDraw();

	void draw(SkCanvas*);

	// Call after draw, allows the benchmark to do cleanup work outside of the
	// timer. When a benchmark is repeatedly drawn, this is only called once
	// after the last draw.
	void postDraw();

	void setForceAlpha(int alpha) {
	fForceAlpha = alpha;
	}

	void setForceAA(bool aa) {
	fForceAA = aa;
	}

	void setForceFilter(bool filter) {
	fForceFilter = filter;
	}

	void setDither(SkTriState::State state) {
	fDither = state;
	}

	void setStrokeWidth(SkScalar width) {
	strokeWidth = width;
	fHasStrokeWidth = true;
	}

	SkScalar getStrokeWidth() {
	return strokeWidth;
	}

	bool hasStrokeWidth() {
	return fHasStrokeWidth;
	}

	/** If true; the benchmark does rendering; if false, the benchmark
	doesn't, and so need not be re-run in every different rendering
	mode. */
	bool isRendering() {
	return fIsRendering;
	}

	const char* findDefine(const char* key) const;
	bool findDefine32(const char* key, int32_t* value) const;
	bool findDefineScalar(const char* key, SkScalar* value) const;

	/** Assign masks for paint-flags. These will be applied when setupPaint()
	* is called.
	*
	* Performs the following on the paint:
	* uint32_t flags = paint.getFlags();
	* flags &= ~clearMask;
	* flags \|= orMask;
	* paint.setFlags(flags);
	*/
	void setPaintMasks(uint32_t orMask, uint32_t clearMask) {
	fOrMask = orMask;
	fClearMask = clearMask;
	}

	float getDurationScale() { return this->onGetDurationScale(); }

	protected:
	virtual void setupPaint(SkPaint* paint);

	virtual const char* onGetName() = 0;
	virtual void onPreDraw() {}
	virtual void onDraw(SkCanvas*) = 0;
	virtual void onPostDraw() {}
	// the caller will scale the computed duration by this value. It allows a
	// slow bench to run fewer inner loops, but return the corresponding scale
	// so that its reported duration can be compared against other benches.
	// e.g.
	// if I run 10x slower, I can run 1/10 the number of inner-loops, but
	// return 10.0 for my durationScale, so I "report" the honest duration.
	virtual float onGetDurationScale() { return 1; }

	virtual SkIPoint onGetSize();
	/// Defaults to true.
	bool fIsRendering;

	private:
	const SkTDict<const char> fDict;
	int fForceAlpha;
	bool fForceAA;
	bool fForceFilter;
	SkTriState::State fDither;
	bool fHasStrokeWidth;
	SkScalar strokeWidth;
	uint32_t fOrMask, fClearMask;

	typedef SkRefCnt INHERITED;
	};

	typedef SkTRegistry<SkBenchmark, void> BenchRegistry;

	#endif