lemon/time_measure.h
author Akos Ladanyi <ladanyi@tmit.bme.hu>
Wed, 30 Jul 2008 12:07:29 +0100
changeset 245 da1d220b176b
parent 209 765619b7cbb2
child 280 e7f8647ce760
permissions -rw-r--r--
Update INSTALL file.
     1 /* -*- mode: C++; indent-tabs-mode: nil; -*-
     2  *
     3  * This file is a part of LEMON, a generic C++ optimization library.
     4  *
     5  * Copyright (C) 2003-2008
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     8  *
     9  * Permission to use, modify and distribute this software is granted
    10  * provided that this copyright notice appears in all copies. For
    11  * precise terms see the accompanying LICENSE file.
    12  *
    13  * This software is provided "AS IS" with no warranty of any kind,
    14  * express or implied, and with no claim as to its suitability for any
    15  * purpose.
    16  *
    17  */
    18 
    19 #ifndef LEMON_TIME_MEASURE_H
    20 #define LEMON_TIME_MEASURE_H
    21 
    22 ///\ingroup timecount
    23 ///\file
    24 ///\brief Tools for measuring cpu usage
    25 
    26 #ifdef WIN32
    27 #define WIN32_LEAN_AND_MEAN
    28 #define NOMINMAX
    29 #include <windows.h>
    30 #include <cmath>
    31 #else
    32 #include <sys/times.h>
    33 #include <sys/time.h>
    34 #endif
    35 
    36 #include <string>
    37 #include <fstream>
    38 #include <iostream>
    39 
    40 namespace lemon {
    41 
    42   /// \addtogroup timecount
    43   /// @{
    44 
    45   /// A class to store (cpu)time instances.
    46 
    47   /// This class stores five time values.
    48   /// - a real time
    49   /// - a user cpu time
    50   /// - a system cpu time
    51   /// - a user cpu time of children
    52   /// - a system cpu time of children
    53   ///
    54   /// TimeStamp's can be added to or substracted from each other and
    55   /// they can be pushed to a stream.
    56   ///
    57   /// In most cases, perhaps the \ref Timer or the \ref TimeReport
    58   /// class is what you want to use instead.
    59 
    60   class TimeStamp
    61   {
    62     double utime;
    63     double stime;
    64     double cutime;
    65     double cstime;
    66     double rtime;
    67 
    68     void _reset() {
    69       utime = stime = cutime = cstime = rtime = 0;
    70     }
    71 
    72   public:
    73 
    74     ///Read the current time values of the process
    75     void stamp()
    76     {
    77 #ifndef WIN32
    78       timeval tv;
    79       gettimeofday(&tv, 0);
    80       rtime=tv.tv_sec+double(tv.tv_usec)/1e6;
    81 
    82       tms ts;
    83       double tck=sysconf(_SC_CLK_TCK);
    84       times(&ts);
    85       utime=ts.tms_utime/tck;
    86       stime=ts.tms_stime/tck;
    87       cutime=ts.tms_cutime/tck;
    88       cstime=ts.tms_cstime/tck;
    89 #else
    90       static const double ch = 4294967296.0e-7;
    91       static const double cl = 1.0e-7;
    92 
    93       FILETIME system;
    94       GetSystemTimeAsFileTime(&system);
    95       rtime = ch * system.dwHighDateTime + cl * system.dwLowDateTime;
    96 
    97       FILETIME create, exit, kernel, user;
    98       if (GetProcessTimes(GetCurrentProcess(),&create, &exit, &kernel, &user)) {
    99         utime = ch * user.dwHighDateTime + cl * user.dwLowDateTime;
   100         stime = ch * kernel.dwHighDateTime + cl * kernel.dwLowDateTime;
   101         cutime = 0;
   102         cstime = 0;
   103       } else {
   104         rtime = 0;
   105         utime = 0;
   106         stime = 0;
   107         cutime = 0;
   108         cstime = 0;
   109       }
   110 #endif
   111     }
   112 
   113     /// Constructor initializing with zero
   114     TimeStamp()
   115     { _reset(); }
   116     ///Constructor initializing with the current time values of the process
   117     TimeStamp(void *) { stamp();}
   118 
   119     ///Set every time value to zero
   120     TimeStamp &reset() {_reset();return *this;}
   121 
   122     ///\e
   123     TimeStamp &operator+=(const TimeStamp &b)
   124     {
   125       utime+=b.utime;
   126       stime+=b.stime;
   127       cutime+=b.cutime;
   128       cstime+=b.cstime;
   129       rtime+=b.rtime;
   130       return *this;
   131     }
   132     ///\e
   133     TimeStamp operator+(const TimeStamp &b) const
   134     {
   135       TimeStamp t(*this);
   136       return t+=b;
   137     }
   138     ///\e
   139     TimeStamp &operator-=(const TimeStamp &b)
   140     {
   141       utime-=b.utime;
   142       stime-=b.stime;
   143       cutime-=b.cutime;
   144       cstime-=b.cstime;
   145       rtime-=b.rtime;
   146       return *this;
   147     }
   148     ///\e
   149     TimeStamp operator-(const TimeStamp &b) const
   150     {
   151       TimeStamp t(*this);
   152       return t-=b;
   153     }
   154     ///\e
   155     TimeStamp &operator*=(double b)
   156     {
   157       utime*=b;
   158       stime*=b;
   159       cutime*=b;
   160       cstime*=b;
   161       rtime*=b;
   162       return *this;
   163     }
   164     ///\e
   165     TimeStamp operator*(double b) const
   166     {
   167       TimeStamp t(*this);
   168       return t*=b;
   169     }
   170     friend TimeStamp operator*(double b,const TimeStamp &t);
   171     ///\e
   172     TimeStamp &operator/=(double b)
   173     {
   174       utime/=b;
   175       stime/=b;
   176       cutime/=b;
   177       cstime/=b;
   178       rtime/=b;
   179       return *this;
   180     }
   181     ///\e
   182     TimeStamp operator/(double b) const
   183     {
   184       TimeStamp t(*this);
   185       return t/=b;
   186     }
   187     ///The time ellapsed since the last call of stamp()
   188     TimeStamp ellapsed() const
   189     {
   190       TimeStamp t(NULL);
   191       return t-*this;
   192     }
   193 
   194     friend std::ostream& operator<<(std::ostream& os,const TimeStamp &t);
   195 
   196     ///Gives back the user time of the process
   197     double userTime() const
   198     {
   199       return utime;
   200     }
   201     ///Gives back the system time of the process
   202     double systemTime() const
   203     {
   204       return stime;
   205     }
   206     ///Gives back the user time of the process' children
   207 
   208     ///\note On <tt>WIN32</tt> platform this value is not calculated.
   209     ///
   210     double cUserTime() const
   211     {
   212       return cutime;
   213     }
   214     ///Gives back the user time of the process' children
   215 
   216     ///\note On <tt>WIN32</tt> platform this value is not calculated.
   217     ///
   218     double cSystemTime() const
   219     {
   220       return cstime;
   221     }
   222     ///Gives back the real time
   223     double realTime() const {return rtime;}
   224   };
   225 
   226   TimeStamp operator*(double b,const TimeStamp &t)
   227   {
   228     return t*b;
   229   }
   230 
   231   ///Prints the time counters
   232 
   233   ///Prints the time counters in the following form:
   234   ///
   235   /// <tt>u: XX.XXs s: XX.XXs cu: XX.XXs cs: XX.XXs real: XX.XXs</tt>
   236   ///
   237   /// where the values are the
   238   /// \li \c u: user cpu time,
   239   /// \li \c s: system cpu time,
   240   /// \li \c cu: user cpu time of children,
   241   /// \li \c cs: system cpu time of children,
   242   /// \li \c real: real time.
   243   /// \relates TimeStamp
   244   /// \note On <tt>WIN32</tt> platform the cummulative values are not
   245   /// calculated.
   246   inline std::ostream& operator<<(std::ostream& os,const TimeStamp &t)
   247   {
   248     os << "u: " << t.userTime() <<
   249       "s, s: " << t.systemTime() <<
   250       "s, cu: " << t.cUserTime() <<
   251       "s, cs: " << t.cSystemTime() <<
   252       "s, real: " << t.realTime() << "s";
   253     return os;
   254   }
   255 
   256   ///Class for measuring the cpu time and real time usage of the process
   257 
   258   ///Class for measuring the cpu time and real time usage of the process.
   259   ///It is quite easy-to-use, here is a short example.
   260   ///\code
   261   /// #include<lemon/time_measure.h>
   262   /// #include<iostream>
   263   ///
   264   /// int main()
   265   /// {
   266   ///
   267   ///   ...
   268   ///
   269   ///   Timer t;
   270   ///   doSomething();
   271   ///   std::cout << t << '\n';
   272   ///   t.restart();
   273   ///   doSomethingElse();
   274   ///   std::cout << t << '\n';
   275   ///
   276   ///   ...
   277   ///
   278   /// }
   279   ///\endcode
   280   ///
   281   ///The \ref Timer can also be \ref stop() "stopped" and
   282   ///\ref start() "started" again, so it is possible to compute collected
   283   ///running times.
   284   ///
   285   ///\warning Depending on the operation system and its actual configuration
   286   ///the time counters have a certain (10ms on a typical Linux system)
   287   ///granularity.
   288   ///Therefore this tool is not appropriate to measure very short times.
   289   ///Also, if you start and stop the timer very frequently, it could lead to
   290   ///distorted results.
   291   ///
   292   ///\note If you want to measure the running time of the execution of a certain
   293   ///function, consider the usage of \ref TimeReport instead.
   294   ///
   295   ///\todo This shouldn't be Unix (Linux) specific.
   296   ///\sa TimeReport
   297   class Timer
   298   {
   299     int _running; //Timer is running iff _running>0; (_running>=0 always holds)
   300     TimeStamp start_time; //This is the relativ start-time if the timer
   301                           //is _running, the collected _running time otherwise.
   302 
   303     void _reset() {if(_running) start_time.stamp(); else start_time.reset();}
   304 
   305   public:
   306     ///Constructor.
   307 
   308     ///\param run indicates whether or not the timer starts immediately.
   309     ///
   310     Timer(bool run=true) :_running(run) {_reset();}
   311 
   312     ///\name Control the state of the timer
   313     ///Basically a Timer can be either running or stopped,
   314     ///but it provides a bit finer control on the execution.
   315     ///The \ref Timer also counts the number of \ref start()
   316     ///executions, and is stops only after the same amount (or more)
   317     ///\ref stop() "stop()"s. This can be useful e.g. to compute
   318     ///the running time
   319     ///of recursive functions.
   320     ///
   321 
   322     ///@{
   323 
   324     ///Reset and stop the time counters
   325 
   326     ///This function resets and stops the time counters
   327     ///\sa restart()
   328     void reset()
   329     {
   330       _running=0;
   331       _reset();
   332     }
   333 
   334     ///Start the time counters
   335 
   336     ///This function starts the time counters.
   337     ///
   338     ///If the timer is started more than ones, it will remain running
   339     ///until the same amount of \ref stop() is called.
   340     ///\sa stop()
   341     void start()
   342     {
   343       if(_running) _running++;
   344       else {
   345         _running=1;
   346         TimeStamp t;
   347         t.stamp();
   348         start_time=t-start_time;
   349       }
   350     }
   351 
   352 
   353     ///Stop the time counters
   354 
   355     ///This function stops the time counters. If start() was executed more than
   356     ///once, then the same number of stop() execution is necessary the really
   357     ///stop the timer.
   358     ///
   359     ///\sa halt()
   360     ///\sa start()
   361     ///\sa restart()
   362     ///\sa reset()
   363 
   364     void stop()
   365     {
   366       if(_running && !--_running) {
   367         TimeStamp t;
   368         t.stamp();
   369         start_time=t-start_time;
   370       }
   371     }
   372 
   373     ///Halt (i.e stop immediately) the time counters
   374 
   375     ///This function stops immediately the time counters, i.e. <tt>t.halt()</tt>
   376     ///is a faster
   377     ///equivalent of the following.
   378     ///\code
   379     ///  while(t.running()) t.stop()
   380     ///\endcode
   381     ///
   382     ///
   383     ///\sa stop()
   384     ///\sa restart()
   385     ///\sa reset()
   386 
   387     void halt()
   388     {
   389       if(_running) {
   390         _running=0;
   391         TimeStamp t;
   392         t.stamp();
   393         start_time=t-start_time;
   394       }
   395     }
   396 
   397     ///Returns the running state of the timer
   398 
   399     ///This function returns the number of stop() exections that is
   400     ///necessary to really stop the timer.
   401     ///For example the timer
   402     ///is running if and only if the return value is \c true
   403     ///(i.e. greater than
   404     ///zero).
   405     int running()  { return _running; }
   406 
   407 
   408     ///Restart the time counters
   409 
   410     ///This function is a shorthand for
   411     ///a reset() and a start() calls.
   412     ///
   413     void restart()
   414     {
   415       reset();
   416       start();
   417     }
   418 
   419     ///@}
   420 
   421     ///\name Query Functions for the ellapsed time
   422 
   423     ///@{
   424 
   425     ///Gives back the ellapsed user time of the process
   426     double userTime() const
   427     {
   428       return operator TimeStamp().userTime();
   429     }
   430     ///Gives back the ellapsed system time of the process
   431     double systemTime() const
   432     {
   433       return operator TimeStamp().systemTime();
   434     }
   435     ///Gives back the ellapsed user time of the process' children
   436 
   437     ///\note On <tt>WIN32</tt> platform this value is not calculated.
   438     ///
   439     double cUserTime() const
   440     {
   441       return operator TimeStamp().cUserTime();
   442     }
   443     ///Gives back the ellapsed user time of the process' children
   444 
   445     ///\note On <tt>WIN32</tt> platform this value is not calculated.
   446     ///
   447     double cSystemTime() const
   448     {
   449       return operator TimeStamp().cSystemTime();
   450     }
   451     ///Gives back the ellapsed real time
   452     double realTime() const
   453     {
   454       return operator TimeStamp().realTime();
   455     }
   456     ///Computes the ellapsed time
   457 
   458     ///This conversion computes the ellapsed time, therefore you can print
   459     ///the ellapsed time like this.
   460     ///\code
   461     ///  Timer t;
   462     ///  doSomething();
   463     ///  std::cout << t << '\n';
   464     ///\endcode
   465     operator TimeStamp () const
   466     {
   467       TimeStamp t;
   468       t.stamp();
   469       return _running?t-start_time:start_time;
   470     }
   471 
   472 
   473     ///@}
   474   };
   475 
   476   ///Same as \ref Timer but prints a report on destruction.
   477 
   478   ///Same as \ref Timer but prints a report on destruction.
   479   ///This example shows its usage.
   480   ///\code
   481   ///  void myAlg(ListGraph &g,int n)
   482   ///  {
   483   ///    TimeReport tr("Running time of myAlg: ");
   484   ///    ... //Here comes the algorithm
   485   ///  }
   486   ///\endcode
   487   ///
   488   ///\sa Timer
   489   ///\sa NoTimeReport
   490   ///\todo There is no test case for this
   491   class TimeReport : public Timer
   492   {
   493     std::string _title;
   494     std::ostream &_os;
   495   public:
   496     ///\e
   497 
   498     ///\param title This text will be printed before the ellapsed time.
   499     ///\param os The stream to print the report to.
   500     ///\param run Sets whether the timer should start immediately.
   501 
   502     TimeReport(std::string title,std::ostream &os=std::cerr,bool run=true)
   503       : Timer(run), _title(title), _os(os){}
   504     ///\e Prints the ellapsed time on destruction.
   505     ~TimeReport()
   506     {
   507       _os << _title << *this << std::endl;
   508     }
   509   };
   510 
   511   ///'Do nothing' version of \ref TimeReport
   512 
   513   ///\sa TimeReport
   514   ///
   515   class NoTimeReport
   516   {
   517   public:
   518     ///\e
   519     NoTimeReport(std::string,std::ostream &,bool) {}
   520     ///\e
   521     NoTimeReport(std::string,std::ostream &) {}
   522     ///\e
   523     NoTimeReport(std::string) {}
   524     ///\e Do nothing.
   525     ~NoTimeReport() {}
   526 
   527     operator TimeStamp () const { return TimeStamp(); }
   528     void reset() {}
   529     void start() {}
   530     void stop() {}
   531     void halt() {}
   532     int running() { return 0; }
   533     void restart() {}
   534     double userTime() const { return 0; }
   535     double systemTime() const { return 0; }
   536     double cUserTime() const { return 0; }
   537     double cSystemTime() const { return 0; }
   538     double realTime() const { return 0; }
   539   };
   540 
   541   ///Tool to measure the running time more exactly.
   542 
   543   ///This function calls \c f several times and returns the average
   544   ///running time. The number of the executions will be choosen in such a way
   545   ///that the full real running time will be roughly between \c min_time
   546   ///and <tt>2*min_time</tt>.
   547   ///\param f the function object to be measured.
   548   ///\param min_time the minimum total running time.
   549   ///\retval num if it is not \c NULL, then the actual
   550   ///        number of execution of \c f will be written into <tt>*num</tt>.
   551   ///\retval full_time if it is not \c NULL, then the actual
   552   ///        total running time will be written into <tt>*full_time</tt>.
   553   ///\return The average running time of \c f.
   554 
   555   template<class F>
   556   TimeStamp runningTimeTest(F f,double min_time=10,unsigned int *num = NULL,
   557                             TimeStamp *full_time=NULL)
   558   {
   559     TimeStamp full;
   560     unsigned int total=0;
   561     Timer t;
   562     for(unsigned int tn=1;tn <= 1U<<31 && full.realTime()<=min_time; tn*=2) {
   563       for(;total<tn;total++) f();
   564       full=t;
   565     }
   566     if(num) *num=total;
   567     if(full_time) *full_time=full;
   568     return full/total;
   569   }
   570 
   571   /// @}
   572 
   573 
   574 } //namespace lemon
   575 
   576 #endif //LEMON_TIME_MEASURE_H