0

I want to run a parallel, scheduled(eg. static/dynamic/guided) for-loop, where each thread has its own set of variables, based on their thread-id. I know that any variable declared within the parallel pragma is private, but I don't want to re-declare the variables in every iteration of the for loop.

in my specific situation, I'm counting whenever a set of generating coordinates lies inside or outside of a circle to approximate pi. I'm using erand48(int[3] seed) to generate these coordinates in each of the threads, and by giving each thread a different set of values for 'seed', I will get a greater variety of numbers to use in the approximation(and is also a requirement for this simulation).

  long long int global_result = 0;
  int tID = omp_get_thread_num();
  int[3] seed;
  seed[0] = (((tid*tid + 15) * 3)/7);
  seed[1] = ((((tid + tid) * 44)/3) + 2);
  seed[2] = tid;
  int this_result = 0;
#   pragma omp parallel for num_threads(thread_count) schedule(runtime)
      for(i = 0; i < chunksize; i++){
        x = erand48(seed);
        y = erand48(seed);
        ((x*x+y*y)>=1)?(this_result++):;    
      }
#   pragma omp critical{
      global_result+= this_result;
    }

This is as best as I can represent what I'm trying to do. I want the values of 'this_result','tid' and 'seed' to have a private scope.

2 Answers 2

1

I know that any variable declared within the parallel pragma is private, but I don't want to re-declare the variables in every iteration of the for loop.

Separate the #pragma omp parallel for into its two separate components #pragma omp parallel and #pragma omp for. Then you can declare the local variables in the parallel but outside the loop. Something like this

int global_result = 0; 
#pragma omp parallel reduction(+:global_result)
{
    int tid = omp_get_thread_num();
    int seed = (((tid*tid + 15) * 3)/7);
// Typo, as commented below
//  #   pragma omp parallel for schedule(runtime)
//  What is intended!
#   pragma omp for schedule(runtime)
      for(i = 0; i < chunksize; i++){
        float x = erand48(&seed);
        float y = erand48(&seed);
        if ((x*x+y*y)>=1)
            this_result++;    
      }
      global_result += this_result;
}

There are better ways to calculate pi, though :-)

4
  • its a hw assignment. i would rather calculate the series as well. this does solve my problem though. Mar 13, 2014 at 17:04
  • The inner pragma should not have parallel.
    – Z boson
    Mar 17, 2014 at 13:35
  • You are right of course! Brain-fart typing code into a web "editor" :-)
    – Jim Cownie
    Mar 18, 2014 at 9:36
  • @JimCownie, no problem, I though of editing your answer myself. I think I can do that but I'm not sure how Kosher that is even for something so trivial...
    – Z boson
    Mar 19, 2014 at 14:41
1

You can use the clause "private" in your #pragma directive like that:

#pragma omp parallel for private(this_result, tid, seed) num_threads(thread_count) schedule(runtime)

If I understood your question correctly, that should do.

2
  • How do I set these variables outside of the for-loop so that they will have different values, based on their thread_ID's? Mar 12, 2014 at 12:44
  • If you are outside the loop, in the non-parallel section, there will be just one thread (the main one). Therefore, you cannot assign values based on thread ID's, as far as I am concerned. One thing you could do is setting "seed" to be int[thread_count] seed and assign each position of this vector a number; and then, accessing seed[omp_get_thread_num()] inside the loop, so each thread would access only its own array position (like if it was private). Mar 12, 2014 at 12:53

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.