I have a program in R which calls a couple of Fortran routines, which are openMP-enabled. There are two Fortran routines `sub_1`

and `sub_2`

. The first one is called twice in an R function, while the second is called once. Both routines are almost identical except for a few minor things. I call the first routine, then the second, then the first again. However, if I have both of them openMP-enabled, the function stops doing anything (doesn't have an error or stop execution, just sits there) when it gets to the second time it uses the first fortran routine.

If I disable the openMP in `sub_1`

then everything runs fine. If I instead disable the openMP in `sub_2`

, then it again hangs in the same fashion on the second usage of `sub_1`

. This is odd because it obviously gets through the first usage fine.

I thought it may be to do with the threads not closing properly or something (I don't know too much about openMP). However, another oddity is that the R function that calls these three routines is being called four times, and if I only enable openMP in `sub_2`

, then this works fine (ie. the second, third etc. call to `sub_2`

doesn't hang). I just have no idea why it would do this! For reference, this is the code for `sub_1`

:

```
subroutine correlation_dd_rad(s_bins,min_s,end_s,n,pos1,dd,r)
!!! INTENT IN !!!!!!!!
integer :: s_bins !Number of separation bins
integer :: N !Number of objects
real(8) :: pos1(3,N) !Cartesian Positions of particles
real(8) :: min_s !The smallest separation calculated.
real(8) :: end_s !The largest separation calculated.
real(8) :: r(N) !The radii of each particle (ascending)
!!! INTENT OUT !!!!!!!
real(8) :: dd(N,s_bins) !The binned data.
!!! LOCAL !!!!!!!!!!!!
integer :: i,j !Iterators
integer :: bin
real(8) :: d !Distance between particles.
real(8) :: dr,mins,ends
real(8),parameter :: pi = 3.14159653589
integer :: counter
dd(:,:) = 0.d0
dr = (end_s-min_s)/s_bins
!Perform the separation binning
mins = min_s**2
ends = end_s**2
counter = 1000
!$OMP parallel do private(d,bin,j)
do i=1,N
!$omp critical (count_it)
counter = counter - 1
!$omp end critical (count_it)
if(counter==0)then
counter = 1000
write(*,*) "Another Thousand"
end if
do j=i+1,N
if(r(j)-r(i) .GT. end_s)then
exit
end if
d=(pos1(1,j)-pos1(1,i))**2+&
&(pos1(2,j)-pos1(2,i))**2+&
&(pos1(3,j)-pos1(3,i))**2
if(d.LT.ends .AND. d.GT.mins)then
d = Sqrt(d)
bin = Floor((d-min_s)/dr)+1
dd(i,bin) = dd(i,bin)+1.d0
dd(j,bin) = dd(j,bin)+1.d0
end if
end do
end do
!$OMP end parallel do
write(*,*) "done"
end subroutine
```

Does anyone have any clue why this would happen??

Cheers.

I'll add in the smallest example that I can think of that does reproduce the problem (by the way, this must be an R problem - a small example of the type that I present here but written in fortran works fine). So I have the above code and the following code in fortran, compiled to the shared object `correlate.so`

:

```
subroutine correlation_dr_rad(s_bins,min_s,end_s,n,pos1,n2,pos2,dd,r1,r2)
!!! INTENT IN !!!!!!!!
integer :: s_bins !Number of separation bins
integer :: N !Number of objects
integer :: n2
real(8) :: pos1(3,N) !Cartesian Positions of particles
real(8) :: pos2(3,n2) !random particles
real(8) :: end_s !The largest separation calculated.
real(8) :: min_s !The smallest separation
real(8) :: r1(N),r2(N2) !The radii of particles (ascending)
!!! INTENT OUT !!!!!!!
real(8) :: dd(N,s_bins) !The binned data.
!!! LOCAL !!!!!!!!!!!!
integer :: i,j !Iterators
integer :: bin
real(8) :: d !Distance between particles.
real(8) :: dr,mins,ends
real(8),parameter :: pi = 3.14159653589
integer :: counter
dd(:,:) = 0.d0
dr = (end_s-min_s)/s_bins
!Perform the separation binning
mins = min_s**2
ends = end_s**2
write(*,*) "Got just before parallel dr"
counter = 1000
!$OMP parallel do private(d,bin,j)
do i=1,N
!$OMP critical (count)
counter = counter - 1
!$OMP end critical (count)
if(counter==0)then
write(*,*) "Another thousand"
counter = 1000
end if
do j=1,N2
if(r2(j)-r1(i) .GT. end_s)then
exit
end if
d=(pos1(1,j)-pos2(1,i))**2+&
&(pos1(2,j)-pos2(2,i))**2+&
&(pos1(3,j)-pos2(3,i))**2
if(d.GT.mins .AND. d.LT.ends)then
d = Sqrt(d)
bin = Floor((d-min_s)/dr)+1
dd(i,bin) = dd(i,bin)+1.d0
end if
end do
end do
!$OMP end parallel do
write(*,*) "Done"
end subroutine
```

Then in R, I have the following functions - the first two just wrap the above fortran code. The third calls it in a similar way to my actual code:

```
correlate_dd_rad = function(pos,r,min_r,end_r,bins){
#A wrapper for the fortran routine of the same name.
dyn.load('correlate.so')
out = .Fortran('correlation_dd_rad',
s_bins = as.integer(bins),
min_s = as.double(min_r),
end_s = as.double(end_r),
n = as.integer(length(r)),
pos = as.double(t(pos)),
dd = matrix(0,length(r),bins), #The output matrix.
r = as.double(r))
dyn.unload('correlate.so')
return(out$dd)
}
correlate_dr_rad = function(pos1,r1,pos2,r2,min_r,end_r,bins){
#A wrapper for the fortran routine of the same name
N = length(r1)
N2 = length(r2)
dyn.load('correlate.so')
out = .Fortran('correlation_dr_rad',
s_bins = as.integer(bins),
min_s = as.double(min_r),
end_s = as.double(end_r),
n = N,
pos1 = as.double(t(pos1)),
n2 = N2,
pos2 = as.double(t(pos2)),
dr = matrix(0,nrow=N,ncol=bins),
r1 = as.double(r1),
r2 = as.double(r2))
dyn.unload('correlate.so')
return(out$dr)
}
the_calculation = function(){
#Generate some data to use
pos1 = matrix(rnorm(30000),10000,3)
pos2 = matrix(rnorm(30000),10000,3)
#Find the radii
r1 = sqrt(pos1[,1]^2 + pos1[,2]^2+pos1[,3]^2)
r2 = sqrt(pos2[,1]^2 + pos2[,2]^2+pos2[,3]^2)
#usually sort them but it doesn't matter here.
#Now call the functions
print("Calculating the data-data pairs")
dd = correlate_dd_rad(pos=pos1,r=r1,min_r=0.001,end_r=0.8,bins=15)
print("Calculating the data-random pairs")
dr = correlate_dr_rad(pos1,r1,pos2,r2,min_r=0.001,end_r=0.8,bins=15)
print("Calculating the random-random pairs")
rr = correlate_dd_rad(pos=pos2,r=r2,min_r=0.001,end_r=0.8,bins=15)
#Now we would do something with it but I don't care in this example.
print("Done")
}
```

Running this I get the output:

```
[1] "Calculating the data-data pairs"
Another Thousand
Another Thousand
Another Thousand
Another Thousand
Another Thousand
Another Thousand
Another Thousand
Another Thousand
Another Thousand
Another Thousand
done
[1] "Calculating the data-random pairs"
Got just before parallel dr
Another thousand
Another thousand
```

And then it just sits there... Actually, running it a few times has shown that it changes where it hangs each time. Sometimes it gets most of the way through the second call to `correlate_dd_rad`

and others it only gets halfway through the call to `correlate_dr_rad`

.