JKQtPlotter/lib/jkqtplottertools/jkqtphighrestimer.h
jkriege2 4a63afc709 - fixed zoomin/synchronized graphs, which was broken by former update to user-interaction
- improved documentation & HTML-sytle
- removed datarange-facilities (not really useful!)
2019-02-03 14:08:16 +01:00

175 lines
7.8 KiB
C++

/*
Copyright (c) 2008-2015 Jan W. Krieger (<jan@jkrieger.de>, <j.krieger@dkfz.de>) (DKFZ) & IWR, University of Heidelberg
last modification: $LastChangedDate: 2015-06-10 19:19:10 +0200 (Mi, 10 Jun 2015) $ (revision $Rev: 3976 $)
This software is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License (LGPL) 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 Lesser General Public License (LGPL) for more details.
You should have received a copy of the GNU Lesser General Public License (LGPL)
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <cmath>
#include <cstdlib>
#include <iostream>
#ifndef __WINDOWS__
# if defined(WIN32) || defined(WIN64) || defined(_MSC_VER) || defined(_WIN32)
# define __WINDOWS__
# endif
#endif
#ifndef __LINUX__
# if defined(linux)
# define __LINUX__
# endif
#endif
#ifndef __WINDOWS__
# ifndef __LINUX__
# warning("these methods are ment to be used under windows or linux ... no other system were tested")
# endif
#endif
#if defined(__WINDOWS__)
#include<windows.h>
#elif defined(__LINUX__)
#include <sys/time.h>
#else
#warning("your operating system is not supported: you will have to implement this on your systems")
#include <sys/time.h>
#endif
#ifndef JKQTPHIGHRESTIMER_H
#define JKQTPHIGHRESTIMER_H
/**
* \brief This class implements a high resolution timer capable of measuring time intervals with a resolution
* of some microseconds
* \ingroup jkqtptools_debugging
*
* \attention Note that this is a MS Windows specific implementation od a high-resolution timer using some of
* windows' API methods (namely \c QueryPerformanceCounter() and \c QueryPerformanceFrequency() ). So if you want
* to use this class on non-win32 systems you will have to find a way to implement it for your system!!!
*
* \attention Also note that a standard windows system is NOT a real time OS. So do not expect to get a high accuracy
* when timing operations using this timer. It gives you an accurate time stamp, but it can not guarantee when
* the code is executed!
*
*
* The timer works very simple:
* - you can start the timer with start() which means you set a time=0
* - then you can query the time difference to the last call of start() by using getTime().
* .
*
* There is also a test method test() which will try to give you a feel for the performance of the timer in
* a simple application on your computer.
* It simply does some thousand iterations and records the time needed for each single iteration. Then it may
* calculate a histogram, a mean value and a standard deviation from these times.
*
* This is the result of test() on a WinXP system, Athlon64 X2 3800+ (2GHz):
* \image html highrestimer.png
* Note that this histogram tells you more about how your system works than about the timer itself.
* What we can find out about the timer is that it really provides a resolution in the microsecond region. This can
* be seen, as there is a non-zero minimal measured interval (1.67619 usec). This basically tells us the run-time of
* the measurement loop. There are also bigger run-times which are produced, as this program ran on a multi-process
* (not process<b>or</b> !!!) OS, which means that the current process may be stalled to allow othe rprocesses to
* execute. If this would run on a single-process system we should only get one run-time, if we assume that all
* methods need a fixed amount of time. So we can use this method to test whether our system provides a sufficiently
* accurate time. The 1.68 usec give an upper bound for the timer interval and thus the resolution they do <b>not</b>
* represent the timer resolution. To get this nominal resolution in a windows system you could use the WinAPI method
* \c QueryPerformanceFrequency() which is used in the method getTime(). On my system the timer frequency is 3.57955 MHz
* which corresponds to a resolution of 0.2794 usec.
*
* \par win32 implementation issues:
* To implement this timer on windows systems I use two API calls from the windows kernel. They are:
* - <a href="http://msdn2.microsoft.com/en-us/library/ms644904.aspx">QueryPerformanceCounter()</a>
* - <a href="http://msdn2.microsoft.com/en-us/library/ms644905.aspx">QueryPerformanceFrequency()</a>
* .
* \n
* The first one is used to read times: In the start() method we simply save the current counter value to a variable.
* In getTime() we can then again use QueryPerformanceCounter() to get the current counter value and then calculate
* the difference between these two. Using QueryPerformanceFrequency() we can calculate the time difference in usecs
* from the counter value difference using:
* \f[ \Delta t=\frac{N_{\mbox{now}}-N_{\mbox{start}}}{\mbox{\texttt{QueryPerformanceFrequency()}}}\cdot 10^{6} \f]
*
* \par why not standard POSIX?
* The standard POSIX time functions available in a MinGW environment have a resolution that is in the range of
* some 10 milliseconds. This may be enough for many purposes, but for exact time measurement, as you will want
* to do it on measurement and control systems this is not sufficient. So I tried to find a possibility to
* implement a system-independent high-resolution timer. As most timer stuff depends on very low-level kernel
* calls on every operating system this seems to be nearly impossible. So I implemented this timer for win32 only,
* as this is the system we use in the lab.
*
* \par linux implementation possibility:
* This class does not implement a timer for Linux/Unix systems but I
* will provide you with a small hint how you could implement one here:
* The <a href="http://www.gnu.org/software/libc/manual/html_node/High_002dResolution-Calendar.html">\c gettimeofday()
* method</a> from the libc seems to have enough tim resolution for our pourposes, so try to use this for the high-
* resolution timer. As mentioned above this method is not available for MinGW in win32 which is the main development
* platform for this project.
*
* \test you can find an example application in the file \link test_hrestimer.cpp \endlink.
*
*/
class JKQTPHighResTimer {
protected:
#ifdef __WINDOWS__
/** \brief internal: time stamp of the last call of start() */
LARGE_INTEGER last;
/** \brief internal: timer frequency */
double freq;
#else
struct timeval last;
#endif
public:
/** \brief class constructor. */
JKQTPHighResTimer();
/** \brief class destructor */
~JKQTPHighResTimer();
/** \brief start the timer */
void start();
/** \brief get the time since the last call of start() in microseconds */
double getTime();
/** \brief test the resolution
*
* mean value and standard deviation of 1000000 timer polls will be evaluated and returned in \c mean
* and \c stddev. If you supply \c histogram with a pointer to a memory array with \c histogram_size
* items this will hold afterwards a histogram of the data. \c histogram_x wil contain the time interval
* values of the histogram bins in \c histogram.
*
* To measure the resolution this method uses this code:
* \code
double l=getTime(), n;
for (unsigned long i=0; i<runs; i++) {
n=getTime();
h[i]=n-l;
l=n;
}
\endcode
*
*/
void test(double* mean, double* stddev, unsigned long* histogram=nullptr, double* histogram_x=nullptr, unsigned long histogram_size=0);
};
#endif // JKQTPHIGHRESTIMER_H