I'm writing a C++ program with scientific purposes. The program works well and it returns good results, so I decided to improve its perfomance using OpenMP. The loop I want to optimize is the following one:
//== #pragma omp parallel for private(i,j)
for (k=0; k < number; k++)
{
for (i=0; i < L; i++)
{
for (j=0; j < L; j++)
{
red[i][j] = UNDEFINED;
}
}
Point inicial = {L/2, L/2, OCCUPIED};
red[L/2][L/2] = OCCUPIED;
addToList(inicial, red, list, L,f);
oc.push_back(inicial);
while (list.size() > 0 && L > 0)
{
punto = selectPoint(red, list, generator, prob, p);
if (punto.state == OCCUPIED)
{
addToList(punto, red, list, L,f);
oc.push_back(punto);
}
else
{
out.push_back(punto);
}
}
L = auxL;
oc.clear();
out.clear();
list.clear();
}
f = f*1.0/(number*1.0);
if (f > 0.5)
{
inta = inta;
intb = p;
p = (inta + intb) / 2.0;
}
else if (f < 0.5)
{
intb = intb;
inta = p;
p = (inta + intb) / 2.0;
}
cout << p << endl;
}
My try with OpenMP is commented above. As you can see I've declared i
and j
as private because they're declared before the parallel section. I've also tried to make L
private, with no results. Only segmentation faults and bad pointers everywhere.
I think the problem is that while loop nested inside. My questions are: Is the omp parallel for
correct in this case? or should I try to optimize only that while loop? Are the std::vector
interfering with OpenMP?
NOTE: list
, oc
and out
are std::vector<Point>
, and Point
is a simple struct with three int properties. addToList
is a function with no loops inside.