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Given this code sample the exercise is to parallel the code with OpenMP using tasks. It is a set of items and we want to count those which are good.

int count_good (item_t* item)
{
    int n = 0;
    while (item) {
       if (is_good(item))
          n++;
       item = item->next;
    }
    return n;
}

This is not exactly homework. It is for the prepartion of an exam. My idea is the following:

int count_good (item_t* item)
{
    int n = 0;
    while (item) {
       #pragma omp task
       {
       if (is_good(item))
          n++;
       }
       item = item->next;
    }
    #pragma omp taskwait
    return n;
}
...

int main ()
{
...
#pragma omp parallel
{
#pragma omp single
    count_good(some_times);
}
}

A problem is the n which is a private variable of the single thread but it could be increased by different tasks at the same time. Could this generate a race condition? Can it be avoided with #pragma omp critical ?

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2 Answers 2

up vote 1 down vote accepted

You would have to explicitly declare n as shared, otherwise it would be firstprivate by default (since it is implicitly private in the enclosing context). Then in order to ensure atomic increments of n, you should apply the atomic update construct. In the end your code should look like this:

int count_good (item_t* item)
{
    int n = 0;
    while (item) {
       #pragma omp task shared(n)
       {
       if (is_good(item))
          #pragma omp atomic update
          n++;
       }
       item = item->next;
    }
    #pragma omp taskwait
    return n;
}

The critical construct has a much higher overhead than the atomic increments, at least on x86.

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You can use reduction to count "good" items. Following code will do the job for you. You may want to read this for reduction and this for traversing linked list

int nCount = 0;
#pragma omp parallel reduction(+ : nCount)
{       
    for(struct item_t *listWalk = some_items; listWalk != NULL; 
      listWalk = listWalk->next)
    {
        #pragma omp single nowait
        {
            if( isGood(listWalk) ){
            nCount += 1;
            }
        }           
    }
}
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