bench/TimerData.cpp - platform/external/skia - Git at Google


 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "TimerData.h"

 #include "BenchTimer.h"
 #include <limits>

 using namespace std;

 TimerData::TimerData(const SkString& perIterTimeFormat, const SkString& normalTimeFormat)
 : fWallStr(" msecs = ")
 , fTruncatedWallStr(" Wmsecs = ")
 , fCpuStr(" cmsecs = ")
 , fTruncatedCpuStr(" Cmsecs = ")
 , fGpuStr(" gmsecs = ")
 , fWallSum(0.0)
 , fWallMin((numeric_limits<double>::max)()) // Extra parens to make the windows build work, due to
                                             // 'max' macro
 , fTruncatedWallSum(0.0)
 , fTruncatedWallMin((numeric_limits<double>::max)())
 , fCpuSum(0.0)
 , fCpuMin((numeric_limits<double>::max)())
 , fTruncatedCpuSum(0.0)
 , fTruncatedCpuMin((numeric_limits<double>::max)())
 , fGpuSum(0.0)
 , fGpuMin((numeric_limits<double>::max)())
 , fPerIterTimeFormat(perIterTimeFormat)
 , fNormalTimeFormat(normalTimeFormat)
 {}

 static double Min(double a, double b) {
     return (a < b) ? a : b;
 }

 void TimerData::appendTimes(BenchTimer* timer, bool last) {
     SkASSERT(timer != NULL);
     SkString formatString(fPerIterTimeFormat);
     if (!last) {
         formatString.append(",");
     }
     const char* format = formatString.c_str();
     fWallStr.appendf(format, timer->fWall);
     fCpuStr.appendf(format, timer->fCpu);
     fTruncatedWallStr.appendf(format, timer->fTruncatedWall);
     fTruncatedCpuStr.appendf(format, timer->fTruncatedCpu);
     fGpuStr.appendf(format, timer->fGpu);

     // Store the minimum values. We do not need to special case the first time since we initialized
     // to max double.
     fWallMin = Min(fWallMin, timer->fWall);
     fCpuMin  = Min(fCpuMin,  timer->fCpu);
     fTruncatedWallMin = Min(fTruncatedWallMin, timer->fTruncatedWall);
     fTruncatedCpuMin  = Min(fTruncatedCpuMin,  timer->fTruncatedCpu);
     fGpuMin  = Min(fGpuMin,  timer->fGpu);

     // Tally the sum of each timer type.
     fWallSum += timer->fWall;
     fCpuSum += timer->fCpu;
     fTruncatedWallSum += timer->fTruncatedWall;
     fTruncatedCpuSum += timer->fTruncatedCpu;
     fGpuSum += timer->fGpu;

 }

 SkString TimerData::getResult(bool logPerIter, bool printMin, int repeatDraw,
                               const char *configName, bool showWallTime, bool showTruncatedWallTime,
                               bool showCpuTime, bool showTruncatedCpuTime, bool showGpuTime) {
     // output each repeat (no average) if logPerIter is set,
     // otherwise output only the average
     if (!logPerIter) {
         const char* format = fNormalTimeFormat.c_str();
         fWallStr.set(" msecs = ");
         fWallStr.appendf(format, printMin ? fWallMin : fWallSum / repeatDraw);
         fCpuStr.set(" cmsecs = ");
         fCpuStr.appendf(format, printMin ? fCpuMin : fCpuSum / repeatDraw);
         fTruncatedWallStr.set(" Wmsecs = ");
         fTruncatedWallStr.appendf(format,
                                   printMin ? fTruncatedWallMin : fTruncatedWallSum / repeatDraw);
         fTruncatedCpuStr.set(" Cmsecs = ");
         fTruncatedCpuStr.appendf(format,
                                  printMin ? fTruncatedCpuMin : fTruncatedCpuSum / repeatDraw);
         fGpuStr.set(" gmsecs = ");
         fGpuStr.appendf(format, printMin ? fGpuMin : fGpuSum / repeatDraw);
     }
     SkString str;
     str.printf("  %4s:", configName);
     if (showWallTime) {
         str += fWallStr;
     }
     if (showTruncatedWallTime) {
         str += fTruncatedWallStr;
     }
     if (showCpuTime) {
         str += fCpuStr;
     }
     if (showTruncatedCpuTime) {
         str += fTruncatedCpuStr;
     }
     if (showGpuTime && fGpuSum > 0) {
         str += fGpuStr;
     }
     return str;
 }

	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "TimerData.h"

	#include "BenchTimer.h"
	#include <limits>

	using namespace std;

	TimerData::TimerData(const SkString& perIterTimeFormat, const SkString& normalTimeFormat)
	: fWallStr(" msecs = ")
	, fTruncatedWallStr(" Wmsecs = ")
	, fCpuStr(" cmsecs = ")
	, fTruncatedCpuStr(" Cmsecs = ")
	, fGpuStr(" gmsecs = ")
	, fWallSum(0.0)
	, fWallMin((numeric_limits<double>::max)()) // Extra parens to make the windows build work, due to
	// 'max' macro
	, fTruncatedWallSum(0.0)
	, fTruncatedWallMin((numeric_limits<double>::max)())
	, fCpuSum(0.0)
	, fCpuMin((numeric_limits<double>::max)())
	, fTruncatedCpuSum(0.0)
	, fTruncatedCpuMin((numeric_limits<double>::max)())
	, fGpuSum(0.0)
	, fGpuMin((numeric_limits<double>::max)())
	, fPerIterTimeFormat(perIterTimeFormat)
	, fNormalTimeFormat(normalTimeFormat)
	{}

	static double Min(double a, double b) {
	return (a < b) ? a : b;
	}

	void TimerData::appendTimes(BenchTimer* timer, bool last) {
	SkASSERT(timer != NULL);
	SkString formatString(fPerIterTimeFormat);
	if (!last) {
	formatString.append(",");
	}
	const char* format = formatString.c_str();
	fWallStr.appendf(format, timer->fWall);
	fCpuStr.appendf(format, timer->fCpu);
	fTruncatedWallStr.appendf(format, timer->fTruncatedWall);
	fTruncatedCpuStr.appendf(format, timer->fTruncatedCpu);
	fGpuStr.appendf(format, timer->fGpu);

	// Store the minimum values. We do not need to special case the first time since we initialized
	// to max double.
	fWallMin = Min(fWallMin, timer->fWall);
	fCpuMin = Min(fCpuMin, timer->fCpu);
	fTruncatedWallMin = Min(fTruncatedWallMin, timer->fTruncatedWall);
	fTruncatedCpuMin = Min(fTruncatedCpuMin, timer->fTruncatedCpu);
	fGpuMin = Min(fGpuMin, timer->fGpu);

	// Tally the sum of each timer type.
	fWallSum += timer->fWall;
	fCpuSum += timer->fCpu;
	fTruncatedWallSum += timer->fTruncatedWall;
	fTruncatedCpuSum += timer->fTruncatedCpu;
	fGpuSum += timer->fGpu;

	}

	SkString TimerData::getResult(bool logPerIter, bool printMin, int repeatDraw,
	const char *configName, bool showWallTime, bool showTruncatedWallTime,
	bool showCpuTime, bool showTruncatedCpuTime, bool showGpuTime) {
	// output each repeat (no average) if logPerIter is set,
	// otherwise output only the average
	if (!logPerIter) {
	const char* format = fNormalTimeFormat.c_str();
	fWallStr.set(" msecs = ");
	fWallStr.appendf(format, printMin ? fWallMin : fWallSum / repeatDraw);
	fCpuStr.set(" cmsecs = ");
	fCpuStr.appendf(format, printMin ? fCpuMin : fCpuSum / repeatDraw);
	fTruncatedWallStr.set(" Wmsecs = ");
	fTruncatedWallStr.appendf(format,
	printMin ? fTruncatedWallMin : fTruncatedWallSum / repeatDraw);
	fTruncatedCpuStr.set(" Cmsecs = ");
	fTruncatedCpuStr.appendf(format,
	printMin ? fTruncatedCpuMin : fTruncatedCpuSum / repeatDraw);
	fGpuStr.set(" gmsecs = ");
	fGpuStr.appendf(format, printMin ? fGpuMin : fGpuSum / repeatDraw);
	}
	SkString str;
	str.printf(" %4s:", configName);
	if (showWallTime) {
	str += fWallStr;
	}
	if (showTruncatedWallTime) {
	str += fTruncatedWallStr;
	}
	if (showCpuTime) {
	str += fCpuStr;
	}
	if (showTruncatedCpuTime) {
	str += fTruncatedCpuStr;
	}
	if (showGpuTime && fGpuSum > 0) {
	str += fGpuStr;
	}
	return str;
	}