0

I tried to paralleling this part of my code, but there is an error due to using inequality !=.

 double sum_sin = 0.0, sum_cos = 0.0;
            int count = 0;
    #pragma omp parallel for reduction(+ : count ,sum_sin,sum_cos)
            for (vector<int>::iterator it = box_neighbors[bx[i]].begin(); it != box_neighbors[bx[i]].end(); ++it)
                {
                for (vector<int>::iterator itp = box_particles[*it].begin(); itp != box_particles[*it].end(); ++itp)
                     {
                     if(dist(x[i], y[i], x[*itp], y[*itp], L) < R0_two)
                        {
                        sum_sin+= sin(theta[*itp]);
                        sum_cos+= cos(theta[*itp]);
                        count+=1;  //number of neighbours of i'th particle
                        }
                     }
                }
            sum_sin/= count;
            sum_cos/= count;

How can I remove the error? This is the error:

invalid controlling predicate
             for (vector<int>::iterator it = box_neighbors[bx[i]].begin(); it !=

I canged the code according to the comments to

           double sum_sin = 0.0, sum_cos = 0.0;
            int count = 0;
            #pragma omp parallel for reduction(+ : count ,sum_sin,sum_cos)
std::vector<int> v; 
for(std::size_t it=0; it<v.size(); ++it) 
            //for (vector<int>::iterator it = box_neighbors[bx[i]].begin(); it != box_neighbors[bx[i]].end(); ++it)
                {
for(std::size_t itp=0; itp<v.size(); ++itp) 
                //for (vector<int>::iterator itp = box_particles[*it].begin(); itp != box_particles[*it].end(); ++itp)
                     {
                     if(dist(x[i], y[i], x[*itp], y[*itp], L) < R0_two)
                        {
                        sum_sin+= sin(theta[*itp]);
                        sum_cos+= cos(theta[*itp]);
                        count+=1;  //number of neighbours of i'th particle
                        }
                     }
                }

But new errors occure:

    error: for statement expected before ‘std’
     std::vector<int> v; 
     ^
 error: invalid type argument of unary ‘*’ (have ‘std::size_t {aka long unsigned int}’)
                          if(dist(x[i], y[i], x[*itp], y[*itp], L) < R0_two)
                                                 ^
  error: invalid type argument of unary ‘*’ (have ‘std::size_t {aka long unsigned int}’)
                          if(dist(x[i], y[i], x[*itp], y[*itp], L) < R0_two)
                                                          ^
    error: invalid type argument of unary ‘*’ (have ‘std::size_t {aka long unsigned int}’)
                             sum_sin+= sin(theta[*itp]);
                                                  ^
   error: invalid type argument of unary ‘*’ (have ‘std::size_t {aka long unsigned int}’)
                             sum_cos+= cos(theta[*itp]);
  • The loop counter has to be a fundamental datatype (unsigned, int, long, etc.) – Henri Menke Nov 19 '17 at 20:04
  • (would have been nice to see the real error) – OznOg Nov 19 '17 at 20:09
  • To what should I chenge vector<int>::iterator ? @PicaudVincent – sara nj Nov 19 '17 at 20:09
  • 1
    Possible duplicate of Iteration through std containers in openmp – Henri Menke Nov 19 '17 at 20:09
  • 1
    @PicaudVincent What? Why do you extract the raw pointer from v and not just use the subscript operator directly on v? That is std::vector<int> v; for(std::size_t i=0; i<v.size(); ++i) { do_stuff(v[i]); } – Henri Menke Nov 19 '17 at 20:18
0

Only the first for loop, using iterators, just below the omp pragma, is problematic. When using OpenMP it is generally safer to only use canonical loops with a counter. Thus the required minimal change is:

double sum_sin = 0.0, sum_cos = 0.0;
int count = 0;
#pragma omp parallel for reduction(+ : count, sum_sin, sum_cos)
for (std::size_t it = 0; it < box_neighbors[bx[i]].size(); ++it)
{
  const int star_it = box_neighbors[bx[i]][it];
  for (vector<int>::iterator itp = box_particles[star_it].begin();
       itp != box_particles[star_it].end(); ++itp)
  {
    if (dist(x[i], y[i], x[*itp], y[*itp], L) < R0_two)
    {
      sum_sin += sin(theta[*itp]);
      sum_cos += cos(theta[*itp]);
      count += 1;  // number of neighbours of i'th particle
    }
  }
}
sum_sin /= count;
sum_cos /= count;
1

Simply change the loop condition from

it != box_neighbors[bx[i]].end()

to

it < box_neighbors[bx[i]].end()

OpenMP does support random access iterators as loop variables since version 3.0. However, you still have to adhere to the canonical loop form with does not support !=.

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