Click here to Skip to main content
Click here to Skip to main content
 
Add your own
alternative version

Easy Profiler - Compile-time Profiler for C++

, 14 Nov 2009 Apache
Easily instrument your code, visualize, interpret results, track optimization, compare and decide.
Deploy.zip
Collector
Collector.dll
Collector.lib
Observer
Chart Provider.dll
CLRAdapter.dll
Collector.dll
Observer.exe
Misc.zip
Easy Profiler.chm
Ressources
analyze.ico
analyzeExport16.ico
Book1.xlsx
ChartDesign.ico
chartDesign16.ico
ChartFormat16.ico
compare.ico
compare16.ico
Export.ico
Export16.ico
fonts.ico
front.png
Home.ico
Outlook.ico
Project1.ico
SmallButtons.ico
Support.ico
Support16.ico
TREE.ico
Source.zip
Chart Provider
app.ico
Chart Provider.vcproj.STANDARD.Administrateur.user
Release
CLRAdapter
CLRAdapter.def
CLRAdapter.vcproj.STANDARD.Administrateur.user
Release
res
Profiler.vcproj.STANDARD.Administrateur.user
Release
Back
Observer.vcproj.STANDARD.Administrateur.user
Release
res
analyze.bmp
analyzeExport16.bmp
buttons.bmp
ChartDesign.bmp
chartDesign16.bmp
ChartDesignLarge.bmp
ChartFormat.bmp
ChartFormatLarge.bmp
ChartLayout.bmp
ChartLayoutLarge.bmp
ChartMenu.bmp
compare.bmp
Copie de main.bmp
Export.bmp
Export16.bmp
filelarge.bmp
filesmall.bmp
main.bmp
nav_large.bmp
nav_large_hc.bmp
Observer.ico
ObserverDoc.ico
pages.bmp
pages_hc.bmp
pages_small.bmp
pages_small_hc.bmp
Project3.ico
Project4.ico
Project6.ico
Support.bmp
Support16.bmp
Toolbar.bmp
Toolbar256.bmp
treeSmall.bmp
WriteFont.bmp
writelarge.bmp
writesmall.bmp
TipOfTheDay
xHTML
Output
Chart Provider.dll
CLRAdapter.dll
CLRAdapter.lib
Collector.dll
Collector.lib
Observer.exe
Setup
Setup.vdproj
/********************************************************************
    File:	        TestSession	
    Creation Date:	2009/11/01
	
	Author: 	    Ahmed Charfeddine
					info@potatosoftware.com

	License:        Copyright [2009] [Potato software]

					Licensed under the Apache License, Version 2.0 (the "License");
					you may not use this file except in compliance with the License.
					You may obtain a copy of the License at

							http://www.apache.org/licenses/LICENSE-2.0

					Unless required by applicable law or agreed to in writing, software
					distributed under the License is distributed on an "AS IS" BASIS,
					WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
					See the License for the specific language governing permissions and
					limitations under the License.
    
	Note :	  		
*********************************************************************/
#include "StdAfx.h"
#include "TestSession.h"


CTest::CTest( std::string sessionName )
{
	//
	SYSTEMTIME st;
	GetSystemTime(&st);

	char* pTimeBuffer=new char[255];
	sprintf_s(pTimeBuffer,255,"%.2d%.2d%.2d%.2d%.2d%.2d",st.wYear,st.wMonth,st.wDay,st.wHour,st.wMinute,st.wSecond);
	std::string timeDate(pTimeBuffer);
	delete pTimeBuffer;

	char* pDescBuffer=new char[255];
	sprintf_s(pDescBuffer,255,"testDate :%.2d/%.2d/%.2d %.2d:%.2d:%.2d",st.wYear,st.wMonth,st.wDay,st.wHour,st.wMinute,st.wSecond);
	std::string description(pDescBuffer);
	delete pDescBuffer;

	//CTest(sessionName,timeDate);

	this->sessionName=sessionName;
	this->dateTime=timeDate;
	this->description=description;
	this->bIsCompressionMode=false;	
}


CTest::CTest(std::string sessionName,std::string dateTime,std::string description)
{
	this->sessionName=sessionName;
	this->dateTime=dateTime;
	this->description=description;
	this->bIsCompressionMode=false;
}
double CTest::GetElapsedTime()
{
	LARGE_INTEGER	curCounter;
	ZeroMemory(&curCounter, sizeof(curCounter));
	QueryPerformanceCounter (&curCounter);
	//
	__int64			m_ElapsedTime=(curCounter.QuadPart  - m_StartCounter.QuadPart );

	return (static_cast<double>(m_ElapsedTime) / static_cast<double>(m_QPFrequency.QuadPart));
}

void CTest::initTest()
{
	ZeroMemory(&m_QPFrequency, sizeof(m_QPFrequency));
	ZeroMemory(&m_StartCounter,sizeof(m_StartCounter));
	QueryPerformanceFrequency(&m_QPFrequency);
	QueryPerformanceCounter (&m_StartCounter);
}

void CTest::flush( char* regionName,char* outputDirectory,char outputType )
{
	if (bIsCompressionMode)
	{
		NotifyEvent(GetElapsedTime());
	}
	std::string xmlFilePath;

	if(outputType=='s')
		xmlFilePath=std::string(outputDirectory)+"/"+std::string(regionName)+" "+dateTime+".xml";
	else
		xmlFilePath=std::string(outputDirectory)+"/"+std::string(regionName)+".xml";

	XMLNode xMainNode;

	if(outputType=='s'){
		//
		XMLNode global=XMLNode::createXMLTopNode("xml",TRUE);
		global.addAttribute("version","1.0");
		xMainNode=global.addChild("profilingData");
	}
	else
		xMainNode=XMLNode::openFileHelper(xmlFilePath.c_str(),"profilingData");
		

	XMLNode xSessionNode=xMainNode.addChild("test");
	xSessionNode.addAttribute("regionName",sessionName.c_str());
	xSessionNode.addAttribute("dateTime",dateTime.c_str());
	xSessionNode.addAttribute("description",description.c_str());
	xSessionNode.addAttribute("highPerformance",bIsCompressionMode ? "true" : "false");

	//Flush sub-blocs :
	std::map<std::string,CTask*>::const_iterator _it=tasksMap.begin();
	for (; _it != tasksMap.end(); ++_it) {
		CTask* pSubBloc=_it->second;
		std::string subBlocName=_it->first;
		//
		XMLNode xSubBloc=xSessionNode.addChild("task");

		xSubBloc.addAttribute("name",subBlocName.c_str());
		pSubBloc->flush(xSubBloc);
	}

	//Flushing main-blocs :
	std::map<std::string,CActivity*>::const_iterator it=activitiesMap.begin();
	for (; it != activitiesMap.end(); ++it) {
		CActivity* pBloc=it->second;
		std::string blocName=it->first;
		//
		XMLNode xMainBloc=xSessionNode.addChild("activity");

		xMainBloc.addAttribute("name",blocName.c_str());
		pBloc->flush(xMainBloc);
	}

	//Flush workers :
	for (workerMapT::iterator workersIt=workersMap.begin();workersIt!=workersMap.end();workersIt++)
	{
		CWorker* pWorker=workersIt->second;
		XMLNode xWorkerNode=xSessionNode.addChild("worker");

		xWorkerNode.addAttribute("name",pWorker->getName().c_str());
		xWorkerNode.addAttribute("threadID",CUtilities::GetFormattedDWORD(pWorker->getThreadID()).c_str());

		pWorker->flushToXML(xWorkerNode);
	}

	xMainNode.writeToFile(xmlFilePath.c_str());
}

void CTest::beginActivity( std::string blocName )
{
	CActivity* pNewBloc=new CActivity(blocName,GetElapsedTime());
	pNewBloc->setParentTest(this);
	activitiesMap[blocName]=pNewBloc;
	//
	if (bIsCompressionMode)
	{
		NotifyEvent(GetElapsedTime());
	}
}

void CTest::endActivity( std::string blocName )
{
	activitiesMap[blocName]->endMainBloc(GetElapsedTime());
	if (bIsCompressionMode)
	{
		NotifyEvent(GetElapsedTime());
	}
}

void CTest::insertCheckPoint( std::string blocName,std::string pointName )
{
	activitiesMap[blocName]->insertPoint(pointName,GetElapsedTime());
	if (bIsCompressionMode)
	{
		NotifyEvent(GetElapsedTime());
	}
}

void CTest::beginTask( std::string subBlocName )
{
	if (tasksMap.find(subBlocName)==tasksMap.end())
	{
		CTask* pSubBloc=new CTask(subBlocName,GetElapsedTime());
		pSubBloc->setParentTest(this);
		tasksMap[subBlocName]=pSubBloc;
	}
	else
		tasksMap[subBlocName]->Start(GetElapsedTime());
}

void CTest::endTask( std::string subBlocName )
{
	/*
	double d=GetElapsedTime();
	::MessageBoxA(NULL,CUtilities::GetFormattedTime(d).c_str(),NULL,MB_OK);*/

	tasksMap[subBlocName]->Stop(GetElapsedTime());
}

CTest* CTest::createFromXML( XMLNode& xSession )
{
	std::string sessionName=xSession.getAttribute("regionName");
	std::string dateTime=xSession.getAttribute("dateTime");
	std::string description=xSession.getAttribute("description");
	CTest* pSession=new CTest(sessionName,dateTime,description);

	//
	int nSubBlocs=xSession.nChildNode("task");
	int it=0;

	for (int i=0;i<nSubBlocs;i++)
	{
		XMLNode xSubBloc=xSession.getChildNode("task",&it);

		CTask* pSubBloc=CTask::createFromXMLNode(xSubBloc,pSession);
		pSubBloc->setParentTest(pSession);
		pSession->tasksMap[pSubBloc->getName()]=pSubBloc;
		//
	}


	int nMainBlocs=xSession.nChildNode("activity");
	int _it=0;

	for (int i=0;i<nMainBlocs;i++)
	{
		XMLNode xMainBloc=xSession.getChildNode("activity",&_it);

		CActivity* pMainBloc=CActivity::createFromXML(xMainBloc,pSession);
		pMainBloc->setParentTest(pSession);
		pSession->activitiesMap[pMainBloc->getName()]=pMainBloc;
		//
	}

	int nWorkers=xSession.nChildNode("worker");
	int __it=0;

	for (int i=0;i<nWorkers;i++)
	{
		XMLNode xWorkerNode=xSession.getChildNode("worker",&__it);

		CWorker* pWorker=CWorker::createFromXMLNode(xWorkerNode,pSession);
		pWorker->setParentTest(pSession);
		pSession->workersMap[pWorker->getName()]=pWorker;
		//
	}

	return pSession;
}

std::string CTest::getName()
{
	return sessionName;
}

activityMapT& CTest::getActivitiesMap()
{
	return activitiesMap;
}

taskMapT& CTest::getTasksMap()
{
	return tasksMap;
}

bool CTest::containsActivity( CActivity* pSearchedMainBloc )
{
	activityMapT::const_iterator it=activitiesMap.begin();
	for (; it != activitiesMap.end(); ++it) {
		if(pSearchedMainBloc==it->second)
			return true;
	}
	return false;
}

bool CTest::containsTask( CTask* pSearchedSubBloc )
{
	taskMapT::const_iterator it=tasksMap.begin();
	for (; it != tasksMap.end(); ++it) {
		if(pSearchedSubBloc==it->second)
			return true;
	}
	return false;
}

CFeature* CTest::getFeatureByName( std::string featureName )
{
	activityMapT::const_iterator it=activitiesMap.find(featureName);
	if (it!=activitiesMap.end())
	{
		CActivity* pActivity=it->second;
		return pActivity;
	}

	taskMapT::const_iterator it2=tasksMap.find(featureName);
	if (it2!=tasksMap.end())
	{
		CTask* pTask=it2->second;
		return pTask;
	}

	workerMapT::const_iterator it3=workersMap.find(featureName);
	if (it3!=workersMap.end())
	{
		CWorker* pWorker=it3->second;
		return pWorker;
	}

	return NULL;
}

std::string CTest::getDateTime()
{
	return dateTime;
}

std::string CTest::getDescription()
{
	return description;
}

CTest::~CTest( void )
{
	//
}

void CTest::runWorker( char* workerName )
{
	if (workersMap.find(workerName)==workersMap.end())
	{
		DWORD dwThreadID=GetCurrentThreadId();
		//Create a new worker reference.
		CWorker* pWorker=new CWorker(workerName,dwThreadID);
		pWorker->setParentTest(this);
		//add first run :
		pWorker->Start(GetElapsedTime());
		//add it to map :
		workersMap[workerName]=pWorker;
	}
	else
		workersMap[workerName]->Start(GetElapsedTime());//creating a new run
}

void CTest::pauseWorker( char* workerName )
{
	if (workersMap.find(workerName)==workersMap.end())
	{
		DWORD dwThreadID=GetCurrentThreadId();
		//Create a new worker reference.
		CWorker* pWorker=new CWorker(workerName,dwThreadID);
		pWorker->setParentTest(this);
		//add it to map :
		workersMap[workerName]=pWorker;
	}
	else
		workersMap[workerName]->Stop(GetElapsedTime());//creating a new run
}

workerMapT& CTest::getWorkersMap()
{
	return workersMap;
}

bool CTest::getIsCompressionMode()
{
	return bIsCompressionMode;
}

void CTest::setCompressionMode()
{
	bIsCompressionMode=true;
}

void CTest::setTestsFile( CTestsFile* pTestsFile )
{
	this->pTestsFile=pTestsFile;
}

CTestsFile* CTest::GetTestsFile()
{
	return pTestsFile;
}

void CTest::setDescription( std::string description )
{
	this->description=description;
}

By viewing downloads associated with this article you agree to the Terms of Service and the article's licence.

If a file you wish to view isn't highlighted, and is a text file (not binary), please let us know and we'll add colourisation support for it.

License

This article, along with any associated source code and files, is licensed under The Apache License, Version 2.0

Share

About the Author

Ahmed Charfeddine
Technical Lead
Tunisia Tunisia
Services:
http://www.pushframework.com/?page_id=890
Follow on   Twitter

| Advertise | Privacy | Terms of Use | Mobile
Web01 | 2.8.150123.1 | Last Updated 14 Nov 2009
Article Copyright 2009 by Ahmed Charfeddine
Everything else Copyright © CodeProject, 1999-2015
Layout: fixed | fluid