lemon/time_measure.h
author deba
Fri, 14 Oct 2005 10:52:15 +0000
changeset 1721 c0f5e8401373
parent 1435 8e85e6bbefdf
child 1780 9f052750753f
permissions -rw-r--r--
Named parameter for heap and cross ref
It needs some redesign
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/* -*- C++ -*-
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 * lemon/time_measure.h - Part of LEMON, a generic C++ optimization library
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 *
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 * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#ifndef LEMON_TIME_MEASURE_H
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#define LEMON_TIME_MEASURE_H
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///\ingroup misc
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///\file
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///\brief Tools for measuring cpu usage
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#include <sys/time.h>
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#include <sys/times.h>
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#include <fstream>
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#include <iostream>
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#include <unistd.h>
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namespace lemon {
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  /// \addtogroup misc
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  /// @{
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  /// A class to store (cpu)time instances.
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  /// This class stores five time values.
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  /// - a real time
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  /// - a user cpu time
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  /// - a system cpu time
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  /// - a user cpu time of children
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  /// - a system cpu time of children
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  ///
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  /// TimeStamp's can be added to or substracted from each other and
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  /// they can be pushed to a stream.
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  ///
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  /// In most cases, perhaps \ref Timer class is what you want to use instead.
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  ///
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  ///\author Alpar Juttner
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  class TimeStamp
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  {
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    struct rtms 
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    {
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      double tms_utime;
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      double tms_stime;
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      double tms_cutime;
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      double tms_cstime;
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      rtms() {}
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      rtms(tms ts) : tms_utime(ts.tms_utime), tms_stime(ts.tms_stime),
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		     tms_cutime(ts.tms_cutime), tms_cstime(ts.tms_cstime) {}
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    };
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    rtms ts;
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    double real_time;
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    rtms &getTms() {return ts;}
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    const rtms &getTms() const {return ts;}
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  public:
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    ///Read the current time values of the process
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    void stamp()
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    {
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      timeval tv;
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      tms _ts;
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      times(&_ts);
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      gettimeofday(&tv, 0);real_time=tv.tv_sec+double(tv.tv_usec)/1e6;
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      ts=_ts;
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    }
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    /// Constructor initializing with zero
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    TimeStamp()
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    { ts.tms_utime=ts.tms_stime=ts.tms_cutime=ts.tms_cstime=0; real_time=0;}
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    ///Constructor initializing with the current time values of the process
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    TimeStamp(void *) { stamp();}
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    ///\e
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    TimeStamp &operator+=(const TimeStamp &b)
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    {
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      ts.tms_utime+=b.ts.tms_utime;
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      ts.tms_stime+=b.ts.tms_stime;
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      ts.tms_cutime+=b.ts.tms_cutime;
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      ts.tms_cstime+=b.ts.tms_cstime;
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      real_time+=b.real_time;
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      return *this;
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    }
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    ///\e
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    TimeStamp operator+(const TimeStamp &b) const
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    {
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      TimeStamp t(*this);
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      return t+=b;
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    }
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    ///\e
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    TimeStamp &operator-=(const TimeStamp &b)
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    {
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      ts.tms_utime-=b.ts.tms_utime;
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      ts.tms_stime-=b.ts.tms_stime;
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      ts.tms_cutime-=b.ts.tms_cutime;
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      ts.tms_cstime-=b.ts.tms_cstime;
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      real_time-=b.real_time;
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      return *this;
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    }
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    ///\e
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    TimeStamp operator-(const TimeStamp &b) const
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    {
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      TimeStamp t(*this);
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      return t-=b;
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    }
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    ///\e
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    ///\bug operator * and / gives rounded values!
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    TimeStamp &operator*=(double b)
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    {
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      ts.tms_utime*=b;
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      ts.tms_stime*=b;
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      ts.tms_cutime*=b;
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      ts.tms_cstime*=b;
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      real_time*=b;
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      return *this;
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    }
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    ///\e
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    TimeStamp operator*(double b) const
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    {
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      TimeStamp t(*this);
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      return t*=b;
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    }
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    friend TimeStamp operator*(double b,const TimeStamp &t);
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    ///\e
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    TimeStamp &operator/=(double b)
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    {
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      ts.tms_utime/=b;
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      ts.tms_stime/=b;
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      ts.tms_cutime/=b;
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      ts.tms_cstime/=b;
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      real_time/=b;
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      return *this;
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    }
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    ///\e
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    TimeStamp operator/(double b) const
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    {
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      TimeStamp t(*this);
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      return t/=b;
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    }
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    ///The time ellapsed since the last call of stamp()
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    TimeStamp ellapsed() const
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    {
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      TimeStamp t(NULL);
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      return t-*this;
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    }
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    friend std::ostream& operator<<(std::ostream& os,const TimeStamp &t);
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    ///Gives back the user time of the process
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    double userTime() const
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    {
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      return double(ts.tms_utime)/sysconf(_SC_CLK_TCK);
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    }
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    ///Gives back the system time of the process
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    double systemTime() const
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    {
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      return double(ts.tms_stime)/sysconf(_SC_CLK_TCK);
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    }
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    ///Gives back the user time of the process' children
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    double cUserTime() const
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    {
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      return double(ts.tms_cutime)/sysconf(_SC_CLK_TCK);
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    }
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    ///Gives back the user time of the process' children
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    double cSystemTime() const
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    {
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      return double(ts.tms_cstime)/sysconf(_SC_CLK_TCK);
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    }
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    ///Gives back the real time of the process
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    double realTime() const {return real_time;}
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  };
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  TimeStamp operator*(double b,const TimeStamp &t) 
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  {
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    return t*b;
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  }
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  ///Class measuring the cpu time and real time usage of the process
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  ///Class measuring the cpu time and real time usage of the process.
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  ///It is quite easy-to-use, here is a short example.
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  ///\code
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  ///#include<lemon/time_measure.h>
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  ///#include<iostream>
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  ///
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  ///int main()
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  ///{
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  ///
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  ///  ...
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  ///
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  ///  Timer T;
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  ///  doSomething();
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  ///  std::cout << T << '\n';
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  ///  T.reset();
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  ///  doSomethingElse();
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  ///  std::cout << T << '\n';
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  ///
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  ///  ...
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  ///
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  ///}
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  ///\endcode
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  ///
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  ///\todo This shouldn't be Unix (Linux) specific.
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  ///
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  ///\author Alpar Juttner
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  class Timer
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  {
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    TimeStamp start_time;
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    void _reset() {start_time.stamp();}
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  public: 
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    ///Constructor. It starts with zero time counters
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    Timer() {_reset();}
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    ///Computes the ellapsed time
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    ///This conversion computes the ellapsed time
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    ///since the construction of \c t or since
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    ///the last \c t.reset().
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    operator TimeStamp () const
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    {
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      TimeStamp t;
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      t.stamp();
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      return t-start_time;
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    }
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    ///Resets the time counters
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    ///Resets the time counters
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    ///
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    void reset()
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    {
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      _reset();
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    }
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    ///Gives back the ellapsed user time of the process
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    double userTime() const
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    {
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      return operator TimeStamp().userTime();
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    }
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    ///Gives back the ellapsed system time of the process
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    double systemTime() const
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    {
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      return operator TimeStamp().systemTime();
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    }
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    ///Gives back the ellapsed user time of the process' children
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    double cUserTime() const
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    {
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      return operator TimeStamp().cUserTime();
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    }
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    ///Gives back the ellapsed user time of the process' children
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    double cSystemTime() const
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    {
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      return operator TimeStamp().cSystemTime();
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    }
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    ///Gives back the ellapsed real time of the process
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    double realTime() const
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    {
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      return operator TimeStamp().realTime();
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    }
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  };
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  ///Prints the time counters
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  ///Prints the time counters in the following form:
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  ///
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  /// <tt>u: XX.XXs s: XX.XXs cu: XX.XXs cs: XX.XXs real: XX.XXs</tt>
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  ///
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  /// where the values are the
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  /// \li \c u: user cpu time,
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  /// \li \c s: system cpu time,
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  /// \li \c cu: user cpu time of children,
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  /// \li \c cs: system cpu time of children,
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  /// \li \c real: real time.
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  /// \relates TimeStamp
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  inline std::ostream& operator<<(std::ostream& os,const TimeStamp &t)
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  {
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    long cls = sysconf(_SC_CLK_TCK);
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    os << "u: " << double(t.getTms().tms_utime)/cls <<
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      "s, s: " << double(t.getTms().tms_stime)/cls <<
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      "s, cu: " << double(t.getTms().tms_cutime)/cls <<
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      "s, cs: " << double(t.getTms().tms_cstime)/cls <<
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      "s, real: " << t.realTime() << "s";
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    return os;
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  }
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  ///Tool to measure the running time more exactly.
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  ///This function calls \c f several times and returns the average
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  ///running time. The number of the executions will be choosen in such a way
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  ///that the full running time will be roughly between \c min_time
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  ///and <tt>2*min_time</tt>.
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  ///\param f the function object to be measured.
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  ///\param min_time the minimum total running time.
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  ///\retval num if it is not \c NULL, then *num will contain the actual
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  ///        number of execution of \c f.
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  ///\retval full_time if it is not \c NULL, then *full_time
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  ///        will contain the actual
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  ///        total running time.
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  ///\return The average running time of \c f.
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  template<class F>
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  TimeStamp runningTimeTest(F &f,double min_time=10,int *num = NULL,
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			TimeStamp *full_time=NULL)
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  {
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    Timer t;
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    TimeStamp full;
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    int total=0;
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    for(int tn=1;tn < 1<<24; tn*=2) {
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      for(;total<tn;total++) f();
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      full=t;
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      if(full.realTime()>min_time) {
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	if(num) *num=total;
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	if(full_time) *full_time=full;
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      return full/total;
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      }
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    }
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    return TimeStamp();
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  }
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  /// @}  
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} //namespace lemon
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#endif //LEMON_TIME_MEASURE_H