The purpose of the example below is to parallelize a do loop over a subroutine named "sub1" that invokes a function in which a simple addition operation is executed.
The problem that troubles me is that, in my mathematical model, the invoked function has two input arguments, (a,e), but for some reason in my code, I am restricted to pass a single-argument function to the subroutine "sub1." The solution I figured out is to set the second variable "e" to be inherited by the invoked function from the module it resides. The outcome looks good to me.
I am wondering whether using heritage to pass more than one arguments---identically defined in the module where the invoked function resides---to the invoked function in the parallel region will lead to any racing problem.
---- There are two files in this example: main.f90 and model.f90.
program main ! The definition of sub1 is: ! taking function_1,input_2,input_3 as inputs and ! returning output_4 as output use omp_lib use model implicit none integer :: j real :: m(1000),k(1000) m=[(real(j),j=1,1000)] !$omp parallel do private(j) shared(m,k) do j=1,1000 call sub1(fun1,m(j),2.,k(j)) enddo !$omp end parallel do end program main
module model implicit none real :: e contains subroutine sub1(func,a,c,d) implicit none real, intent(in) :: a,c real, intent(out) :: d interface real function func(a) implicit none real :: a end function func end interface e=c d=func(a) end subroutine sub1 real function fun1(a) implicit none real :: a fun1=a**e end function fun1 end module model