bench/btl/generic_bench/timers/x86_timer.hh - mirror - Git at Google

 //=====================================================
 // File   :  x86_timer.hh
 // Author :  L. Plagne <laurent.plagne@edf.fr)>
 // Copyright (C) EDF R&D,  mar d�c 3 18:59:35 CET 2002
 //=====================================================
 //
 // This program is free software; you can redistribute it and/or
 // modify it under the terms of the GNU General Public License
 // as published by the Free Software Foundation; either version 2
 // of the License, or (at your option) any later version.
 //
 // This program is distributed in the hope that it will be useful,
 // but WITHOUT ANY WARRANTY; without even the implied warranty of
 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 // GNU General Public License for more details.
 // You should have received a copy of the GNU General Public License
 // along with this program; if not, write to the Free Software
 // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
 //
 #ifndef _X86_TIMER_HH
 #define _X86_TIMER_HH

 #include <sys/time.h>
 #include <sys/resource.h>
 #include <unistd.h>
 #include <sys/times.h>
 // #include "system_time.h"
 #define u32 unsigned int
 #include <asm/msr.h>
 #include "utilities.h"
 #include <map>
 #include <fstream>
 #include <string>
 #include <iostream>

 // frequence de la becanne en Hz
 // #define FREQUENCY 648000000
 // #define FREQUENCY 1400000000
 #define FREQUENCY 1695000000

 using namespace std;

 class X86_Timer {
  public:
   X86_Timer(void) : _frequency(FREQUENCY), _nb_sample(0) { MESSAGE("X86_Timer Default Ctor"); }

   inline void start(void) { rdtsc(_click_start.n32[0], _click_start.n32[1]); }

   inline void stop(void) { rdtsc(_click_stop.n32[0], _click_stop.n32[1]); }

   inline double frequency(void) { return _frequency; }

   double get_elapsed_time_in_second(void) { return (_click_stop.n64 - _click_start.n64) / double(FREQUENCY); }

   unsigned long long get_click(void) { return (_click_stop.n64 - _click_start.n64); }

   inline void find_frequency(void) {
     time_t initial, final;
     int dummy = 2;

     initial = time(0);
     start();
     do {
       dummy += 2;
     } while (time(0) == initial);
     // On est au debut d'un cycle d'une seconde !!!
     initial = time(0);
     start();
     do {
       dummy += 2;
     } while (time(0) == initial);
     final = time(0);
     stop();
     //    INFOS("fine grained time : "<<  get_elapsed_time_in_second());
     //  INFOS("coarse grained time : "<<  final-initial);
     _frequency = _frequency * get_elapsed_time_in_second() / double(final - initial);
     ///  INFOS("CPU frequency : "<<  _frequency);
   }

   void add_get_click(void) {
     _nb_sample++;
     _counted_clicks[get_click()]++;
     fill_history_clicks();
   }

   void dump_statistics(string filemane) {
     ofstream outfile(filemane.c_str(), ios::out);

     std::map<unsigned long long, unsigned long long>::iterator itr;
     for (itr = _counted_clicks.begin(); itr != _counted_clicks.end(); itr++) {
       outfile << (*itr).first << "  " << (*itr).second << endl;
     }

     outfile.close();
   }

   void dump_history(string filemane) {
     ofstream outfile(filemane.c_str(), ios::out);

     for (int i = 0; i < _history_mean_clicks.size(); i++) {
       outfile << i << " " << _history_mean_clicks[i] << " " << _history_shortest_clicks[i] << " "
               << _history_most_occured_clicks[i] << endl;
     }

     outfile.close();
   }

   double get_mean_clicks(void) {
     std::map<unsigned long long, unsigned long long>::iterator itr;

     unsigned long long mean_clicks = 0;

     for (itr = _counted_clicks.begin(); itr != _counted_clicks.end(); itr++) {
       mean_clicks += (*itr).second * (*itr).first;
     }

     return mean_clicks / double(_nb_sample);
   }

   double get_shortest_clicks(void) { return double((*_counted_clicks.begin()).first); }

   void fill_history_clicks(void) {
     _history_mean_clicks.push_back(get_mean_clicks());
     _history_shortest_clicks.push_back(get_shortest_clicks());
     _history_most_occured_clicks.push_back(get_most_occured_clicks());
   }

   double get_most_occured_clicks(void) {
     unsigned long long moc = 0;
     unsigned long long max_occurence = 0;

     std::map<unsigned long long, unsigned long long>::iterator itr;

     for (itr = _counted_clicks.begin(); itr != _counted_clicks.end(); itr++) {
       if (max_occurence <= (*itr).second) {
         max_occurence = (*itr).second;
         moc = (*itr).first;
       }
     }

     return double(moc);
   }

   void clear(void) {
     _counted_clicks.clear();

     _history_mean_clicks.clear();
     _history_shortest_clicks.clear();
     _history_most_occured_clicks.clear();

     _nb_sample = 0;
   }

  private:
   union {
     unsigned long int n32[2];
     unsigned long long n64;
   } _click_start;

   union {
     unsigned long int n32[2];
     unsigned long long n64;
   } _click_stop;

   double _frequency;

   map<unsigned long long, unsigned long long> _counted_clicks;

   vector<double> _history_mean_clicks;
   vector<double> _history_shortest_clicks;
   vector<double> _history_most_occured_clicks;

   unsigned long long _nb_sample;
 };

 #endif
	//=====================================================
	// File : x86_timer.hh
	// Author : L. Plagne <laurent.plagne@edf.fr)>
	// Copyright (C) EDF R&D, mar d�c 3 18:59:35 CET 2002
	//=====================================================
	//
	// This program is free software; you can redistribute it and/or
	// modify it under the terms of the GNU General Public License
	// as published by the Free Software Foundation; either version 2
	// of the License, or (at your option) any later version.
	//
	// This program is distributed in the hope that it will be useful,
	// but WITHOUT ANY WARRANTY; without even the implied warranty of
	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	// GNU General Public License for more details.
	// You should have received a copy of the GNU General Public License
	// along with this program; if not, write to the Free Software
	// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	//
	#ifndef _X86_TIMER_HH
	#define _X86_TIMER_HH

	#include <sys/time.h>
	#include <sys/resource.h>
	#include <unistd.h>
	#include <sys/times.h>
	// #include "system_time.h"
	#define u32 unsigned int
	#include <asm/msr.h>
	#include "utilities.h"
	#include <map>
	#include <fstream>
	#include <string>
	#include <iostream>

	// frequence de la becanne en Hz
	// #define FREQUENCY 648000000
	// #define FREQUENCY 1400000000
	#define FREQUENCY 1695000000

	using namespace std;

	class X86_Timer {
	public:
	X86_Timer(void) : _frequency(FREQUENCY), _nb_sample(0) { MESSAGE("X86_Timer Default Ctor"); }

	inline void start(void) { rdtsc(_click_start.n32[0], _click_start.n32[1]); }

	inline void stop(void) { rdtsc(_click_stop.n32[0], _click_stop.n32[1]); }

	inline double frequency(void) { return _frequency; }

	double get_elapsed_time_in_second(void) { return (_click_stop.n64 - _click_start.n64) / double(FREQUENCY); }

	unsigned long long get_click(void) { return (_click_stop.n64 - _click_start.n64); }

	inline void find_frequency(void) {
	time_t initial, final;
	int dummy = 2;

	initial = time(0);
	start();
	do {
	dummy += 2;
	} while (time(0) == initial);
	// On est au debut d'un cycle d'une seconde !!!
	initial = time(0);
	start();
	do {
	dummy += 2;
	} while (time(0) == initial);
	final = time(0);
	stop();
	// INFOS("fine grained time : "<< get_elapsed_time_in_second());
	// INFOS("coarse grained time : "<< final-initial);
	_frequency = _frequency * get_elapsed_time_in_second() / double(final - initial);
	/// INFOS("CPU frequency : "<< _frequency);
	}

	void add_get_click(void) {
	_nb_sample++;
	_counted_clicks[get_click()]++;
	fill_history_clicks();
	}

	void dump_statistics(string filemane) {
	ofstream outfile(filemane.c_str(), ios::out);

	std::map<unsigned long long, unsigned long long>::iterator itr;
	for (itr = _counted_clicks.begin(); itr != _counted_clicks.end(); itr++) {
	outfile << (itr).first << " " << (itr).second << endl;
	}

	outfile.close();
	}

	void dump_history(string filemane) {
	ofstream outfile(filemane.c_str(), ios::out);

	for (int i = 0; i < _history_mean_clicks.size(); i++) {
	outfile << i << " " << _history_mean_clicks[i] << " " << _history_shortest_clicks[i] << " "
	<< _history_most_occured_clicks[i] << endl;
	}

	outfile.close();
	}

	double get_mean_clicks(void) {
	std::map<unsigned long long, unsigned long long>::iterator itr;

	unsigned long long mean_clicks = 0;

	for (itr = _counted_clicks.begin(); itr != _counted_clicks.end(); itr++) {
	mean_clicks += (itr).second (*itr).first;
	}

	return mean_clicks / double(_nb_sample);
	}

	double get_shortest_clicks(void) { return double((*_counted_clicks.begin()).first); }

	void fill_history_clicks(void) {
	_history_mean_clicks.push_back(get_mean_clicks());
	_history_shortest_clicks.push_back(get_shortest_clicks());
	_history_most_occured_clicks.push_back(get_most_occured_clicks());
	}

	double get_most_occured_clicks(void) {
	unsigned long long moc = 0;
	unsigned long long max_occurence = 0;

	std::map<unsigned long long, unsigned long long>::iterator itr;

	for (itr = _counted_clicks.begin(); itr != _counted_clicks.end(); itr++) {
	if (max_occurence <= (*itr).second) {
	max_occurence = (*itr).second;
	moc = (*itr).first;
	}
	}

	return double(moc);
	}

	void clear(void) {
	_counted_clicks.clear();

	_history_mean_clicks.clear();
	_history_shortest_clicks.clear();
	_history_most_occured_clicks.clear();

	_nb_sample = 0;
	}

	private:
	union {
	unsigned long int n32[2];
	unsigned long long n64;
	} _click_start;

	union {
	unsigned long int n32[2];
	unsigned long long n64;
	} _click_stop;

	double _frequency;

	map<unsigned long long, unsigned long long> _counted_clicks;

	vector<double> _history_mean_clicks;
	vector<double> _history_shortest_clicks;
	vector<double> _history_most_occured_clicks;

	unsigned long long _nb_sample;
	};

	#endif