I have a this simple Fortran code (`stack.f90`

):

```
subroutine fortran_sum(f,xs,nf,nxs)
integer nf,nxs
double precision xs,result
dimension xs(nxs),result(nf)
external f
result = 0.0
do I = 1,nxs
result = result + f(xs(I))
print *,xs(I),f(xs(I))
enddo
return
end
```

Which I am compiling using:

```
f2py -c --compiler=mingw32 -m stack2 stack2.f90
```

And then testing using this Python script (`stack.py`

):

```
import numpy as np
from numpy import cos, sin , exp
from stack import fortran_sum
def func(x):
return x**2
if __name__ == '__main__':
xs = np.linspace(0.,10.,10)
ans = fortran_sum(func,xs,1)
print 'Fortran:',ans
print 'Python:',func(xs).sum()
```

When I run using `"python stack.py"`

it gives:

```
0.0000000000000000 0.00000000
1.1111111111111112 Infinity
2.2222222222222223 Infinity
3.3333333333333335 9.19089638E-26
4.4444444444444446 Infinity
5.5555555555555554 0.00000000
6.6666666666666670 9.19089638E-26
7.7777777777777786 1.60398502E+09
8.8888888888888893 Infinity
10.000000000000000 0.00000000
Fortran: None
Python: 351.851851852
```

My questions are:

why the function is not being evaluated correctly?

how to return

`result`

to Python?is it possible to evaluate the array

`xs`

at once in Fortran?

Thank you!

EDIT: With the great tips from @SethMMorton I came ended up with the following:

```
subroutine fortran_sum(f,xs,nxs,result)
implicit none
integer :: I
integer, intent(in) :: nxs
double precision, intent(in) :: xs(nxs)
double precision, intent(out) :: result
double precision :: f
external :: f
! "FIX" will be added here
result = 0.0
do I = 1,nxs
result = result + f(xs(I))
print *,xs(I),f(xs(I))
enddo
return
end
```

Running `stack.py`

with this command modified: `ans = fortran_sum(func,xs)`

; gives:

```
0.0000000000000000 0.0000000000000000
1.1111111111111112 3.8883934247189009E+060
2.2222222222222223 3.8883934247189009E+060
3.3333333333333335 9.1908962428537221E-026
4.4444444444444446 3.8883934247189009E+060
5.5555555555555554 5.1935286092977251E-060
6.6666666666666670 9.1908962428537221E-026
7.7777777777777786 1603984978.1728516
8.8888888888888893 3.8883934247189009E+060
10.000000000000000 0.0000000000000000
Fortran: 1.55535736989e+61
Python: 351.851851852
```

Which is wrong. This weird behavior does not happen if I add an intermediate
variable `x=x(I)`

AND call the function using this variable `f(x)`

. The funny
thing is that if I call `f(x)`

once, the desired call `f(x(I))`

also works.
After applying this "FIX":

```
double precision :: x, f_dummy
x = xs(I)
f_dummy = f(x)
```

then compiling and running, the right result is obtained:

```
0.0000000000000000 0.0000000000000000
1.1111111111111112 1.2345679012345681
2.2222222222222223 4.9382716049382722
3.3333333333333335 11.111111111111112
4.4444444444444446 19.753086419753089
5.5555555555555554 30.864197530864196
6.6666666666666670 44.444444444444450
7.7777777777777786 60.493827160493836
8.8888888888888893 79.012345679012356
10.000000000000000 100.00000000000000
Fortran: 351.851851852
Python: 351.851851852
```

It would be nice if someone could explain why?

`f2py`

does not show any warning... I will live with the "FIX" for now, this is probably something caused by`f2py`

, too exoteric... – Saullo Castro Jul 4 '13 at 19:15