There's no problem having a function return an array, as with this question and answer: the main issue is that you need the function to be in a module (or contain
ed within the program) so that there's an automatic explicit interface: (Edit to add: or explicitly defining the interface as with Alexander Vogt's answer)
module functions
contains
function func(N,x)
implicit none
integer, intent(in) :: N
double precision, intent(in) :: x(N)
double precision, dimension(N) :: func
integer :: i
do i=1,N
func(i)=x(i)**2
end do
end function func
end module functions
Program function_as_an_array
use functions
implicit none
integer:: i
integer, parameter:: N=10
double precision:: x(N),y(N)
do i=1,N
x(i)=float(i)
end do
y = func(N,x)
open(unit=20, file='test.dat')
do i=1,N
write(20,*) x(i),y(i)
end do
close(20)
Stop
End Program function_as_an_array
But note that this sort of function - applying the same operation to every element in array - is somewhat more nicely done with a Fortran elemental
function, defined to work simply on a scalar and Fortran will automatically map it over all elements of an array for you:
module functions
contains
elemental double precision function f(x)
implicit none
double precision, intent(in) :: x
f = x**2
end function f
end module functions
Program function_as_an_array
use functions
implicit none
integer:: i
integer, parameter:: N=10
double precision:: x(N),y(N)
do i=1,N
x(i)=float(i)
end do
y = f(x)
open(unit=20, file='test.dat')
do i=1,N
write(20,*) x(i),y(i)
end do
close(20)
Stop
End Program function_as_an_array
The nice thing about this is that it will now work on scalars, and arrays of any rank automatically. Wherever possible, it's good to have the compiler do your work for you.
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