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I'm new to the world of parallel programming and openmp, so this may be a futile question, but I can't really come up with good answer to what I'm experiencing, so I hope someone will be able to shed some light on the matter.

What I am trying to achieve is to have a private copy of a dinamically allocated matrix (of integers) for every thread that will handle the following parallel section, but as soon as the flow of execution enters said region the reference to the supposedly private matrix holds a null value.

Is there any limitation of this directive I'm not aware of? Everything seems to work just fine with monodimensional dynamic arrays.

A snippet of the code is the following one...

#define n 10000
int **matrix;
#pragma omp threadprivate(matrix)

int main()

    matrix = (int**) calloc(n, sizeof(int*));
    for(i=0;i<n;i++) matrix[i] = (int*) calloc(n, sizeof(int));
    AdjacencyMatrix(n, matrix);


   /* Explicitly turn off dynamic threads */
   #pragma omp parallel
      // From now on, matrix is NULL... 
      executor_p(matrix, n);
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2 Answers 2

up vote 0 down vote accepted

Look at the OpenMP documentation regarding what happens with the threadprivate clause:

On first entry to a parallel region, data in THREADPRIVATE variables and common blocks should be assumed undefined, unless a COPYIN clause is specified in the PARALLEL directive

There's no guarantee of what value is going to be stored in the matrix variable in the parallel region.

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Thank you very much. I completely overlooked that. –  c3900 Apr 30 '12 at 16:13

OpenMP can privatise only variables with known storage size. That is you can have a private copy of an array if it was defined like double matrix[N][M]. In your case is not only the storage size unknown (a pointer doesn't store the number of elements that it is pointing to) but also your matrix is not a contiguous area in memory and rather a pointer to a list of dynamically allocated rows.

What you would end up with is having a private copy of the top-level pointer, not a private copy of the matrix data itself.

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