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I have an issue with openMP. MSVS compilator throws me "pragma omp atomic has inproper form" . I don't have any idea why. Code: (program appoints PI number using integrals method)

#include <stdio.h>
#include <time.h>
#include <omp.h>

long long num_steps = 1000000000;
double step;

int main(int argc, char* argv[])
{
    clock_t start, stop;
    double x, pi, sum=0.0;
    int i;
    step = 1./(double)num_steps;
    start = clock();

    #pragma omp parallel for
    for (i=0; i<num_steps; i++)
    { 
        x = (i + .5)*step;
        #pragma omp atomic //this part contains error
        sum = sum + 4.0/(1.+ x*x);  
    }

    pi = sum*step;
    stop = clock();

    // some printf to show results
return 0;
}
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4 Answers 4

up vote 5 down vote accepted

Your program is a perfectly syntactically correct OpenMP code by the current OpenMP standards (e.g. it compiles unmodified with GCC 4.7.1), except that x should be declared private (which is not a syntactic but rather a semantic error). Unfortunately Microsoft Visual C++ implements a very old OpenMP specification (2.0 from March 2002) which only allows the following statements as acceptable in an atomic construct:

x binop= expr
x++
++x
x--
--x

Later versions included x = x binop expr, but MSVC is forever stuck at OpenMP version 2.0 even in VS2012. Just for comparison, the current OpenMP version is 3.1 and we expect 4.0 to come up in the following months.

In OpenMP 2.0 your statement should read:

#pragma omp atomic
sum += 4.0/(1.+ x*x);

But as already noticed, it would be better (and generally faster) to use reduction:

#pragma omp parallel for private(x) reduction(+:sum)
for (i=0; i<num_steps; i++)
{ 
    x = (i + .5)*step;
    sum = sum + 4.0/(1.+ x*x);  
}

(you could also write sum += 4.0/(1.+ x*x);)

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Try to change sum = sum + 4.0/(1.+ x*x) to sum += 4.0/(1.+ x*x).But I am affraid this won't work too. You can try to split the work like this:

    x = (i + .5)*step;
    double xx = 4.0/(1.+ x*x);
    #pragma omp atomic //this part contains error
    sum += xx;

this should work,but I am not sure whether it fits your needs.

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I had to change construction. '#pragma omp reduction(+:sum)' is correct. –  krzakov Dec 24 '12 at 12:19
    
I suggested a solution using atomic..This is the way how it is explained in the official reference site. If the problem is solved good for you. –  thecoder Dec 24 '12 at 12:31
    
@krzakov, #pragma omp reduction(+:sum) is not correct. It is likely ignored by the compiler and you get a dangerous data race that is hidden by the numerical imprecision. reduction is a clause, it has to be applied to another OpenMP directive - the parallel for directive in your case. –  Hristo Iliev Dec 25 '12 at 23:06

You probably need a recap about #pragma more than the real solution to your problem.

#pragma are a set of non-standard, compiler specific, and most of the time, platform/system specific - meaning that the behaviour can be different on different machines with the same OS or simply on machines with different setups - set of instrunctions for the pre-processor.

As consequence any issue with pragma can be solved only if you look at the official documentation for your compiler for your platform of choice, here are 2 links.

For the standard C/C++ #pragma doesn't exist.

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Yes. I'm using MSVS, which supports openMP. Btw. I'm using standard MSVS compiler. –  krzakov Dec 24 '12 at 12:16
1  
Fortunately, OpenMP pragmas are very well defined in a set of standard documents and any compliant C/C++ compiler should follow exactly the same OpenMP pragma syntax. –  Hristo Iliev Dec 25 '12 at 22:37

Replace :

#pragma omp atomic

by #pragma omp reduction(+:sum) or #pragma omp critical

But I guess #pragma omp reduction will be a better option as you have sum+=Var;

Do like this:

x = (i + .5)*step;
double z = 4.0/(1.+ x*x);
#pragma omp reduction(+:sum)
sum += z;
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It helps. More advanced construction than I thought before. I should read a specification. –  krzakov Dec 24 '12 at 12:17
2  
reduction is a data-sharing clause, applicable to the parallel directive (or to the combined parallel for), not a directive on its own. –  Hristo Iliev Dec 25 '12 at 22:35

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