# Calculating time of execution with time() function

I was given the following HomeWork assignment,

Write a program to test on your computer how long it takes to do nlogn, n2, n5, 2n, and n! additions for n=5, 10, 15, 20.

I have written a piece of code but all the time I am getting the time of execution 0. Can anyone help me out with it? Thanks

#include <iostream>
#include <cmath>
#include <ctime>
using namespace std;
int main()
{
float n=20;
time_t start, end, diff;
start = time (NULL);
cout<<(n*log(n))*(n*n)*(pow(n,5))*(pow(2,n))<<endl;
end= time(NULL);
diff = difftime (end,start);
cout <<diff<<endl;
return 0;
}

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It seems you'd rather have to perform an addition operation that many times. Although it might be hard to measure the time for 2432902008176640000 additions. - It seems the point of the exercise might be to get an idea of different algorithmic complexities, not to time an arbitrary operation. – UncleBens Aug 7 '11 at 18:49
I see that you have absolutely no idea what C is. Let me give you a hint: It doesn't have <iostream>. – Puppy Aug 7 '11 at 18:52
Yes, it meant to explain the big O . – Fahad Uddin Aug 7 '11 at 18:52
What a diabolical assignment! Why write a computer program to perform n, n^2, n! operations and time them, for some values of n? Why not just evaluate n, n^2, n! etc. on a calculator. Or, it you have to write a program, write a program that prints the values of n, n^2, n! Somebody please sack the professor! – David Heffernan Aug 7 '11 at 19:23
difftime() returns a double, not a time_t. – Keith Thompson Aug 7 '11 at 20:18

Execute each calculation thousands of times, in a loop, so that you can overcome the low resolution of time and obtain meaningful results. Remember to divide by the number of iterations when reporting results.

This is not particularly accurate but that probably does not matter for this assignment.

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At least on Unix-like systems, time() only gives you 1-second granularity, so it's not useful for timing things that take a very short amount of time (unless you execute them many times in a loop). Take a look at the gettimeofday() function, which gives you the current time with microsecond resolution. Or consider using clock(), which measure CPU time rather than wall-clock time.

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Your code is executed too fast to be detected by time function returning the number of seconds elapsed since 00:00 hours, Jan 1, 1970 UTC.

Try to use this piece of code:

inline long getCurrentTime() {
timeb timebstr;
ftime( &timebstr );
return (long)(timebstr.time)*1000 + timebstr.millitm;
}


To use it you have to include sys/timeb.h.

Actually the better practice is to repeat your calculations in the loop to get more precise results.

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You will probably have to find a more precise platform-specific timer such as the Windows High Performance Timer. You may also (very likely) find that your compiler optimizes or removes almost all of your code.

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better than time() with second-precision is to use a milliseconds precision. a portable way is e.g.

int main(){
clock_t start, end;
double msecs;

start = clock();
/* any stuff here ... */
end = clock();
msecs = ((double) (end - start)) * 1000 / CLOCKS_PER_SEC;
return 0;
}

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Keep in mind that clock() measures CPU time, not wall-clock time -- which probably means it's better in this case. – Keith Thompson Aug 7 '11 at 20:23