# Generate Fortran subroutine with SymPy codegen for a system of equations

Building on a former example that I've found here, I try to find out how to generate a Fortran code that correspond to a specific form that I need to stick to. The required FORTRAN code will look like this (it is based on the FitzHugh–Nagumo model):

``````  SUBROUTINE FF(NE,U,PAR,F)
!     ---------- --
!     Define the nonlinear term

IMPLICIT NONE
INTEGER, INTENT(IN) :: NE
DOUBLE PRECISION, INTENT(IN) :: U(NE),PAR(*)
DOUBLE PRECISION, INTENT(OUT) :: F(NE)

DOUBLE PRECISION u,v,e,a1,a0

u=U(1)
v=U(2)
e=PAR(1)
a1=PAR(2)
a0=PAR(3)

F(1)= u-u**3-v
F(2)= e*(u-a1*v-a0)

END SUBROUTINE FF
``````

I manage to create the right expressions in SymPy, but I haven't figured out how to generate the required code with `codegen`. Here is my attempt so far:

``````from sympy import symbols,latex
from sympy.utilities.codegen import codegen
from sympy.tensor import IndexedBase, Idx
from sympy import Matrix
U, PAR = symbols('U PAR', cls=IndexedBase)

u = U[1]
v = U[2]

e = PAR[1]
a1 = PAR[2]
a0 = PAR[3]

dudt = u-u**3-v
dvdt = e*(u-a1*v-a0)

print latex(dudt)
print latex(dvdt)

F = Matrix([dudt,dvdt])
print F

result = codegen(('my_function', F), 'f95', 'my_project')
print result[0][1]
``````

But it gives me:

``````IndexException:
Range is not defined for all indices in: PAR[3]
``````
• I think it wants you to declare a shape for the IndexedBase. But even then there is a problem because it wants to treat indexed objects as tensors. – asmeurer Aug 23 '16 at 16:24
• We should really disable the implicit summation convention in the code printer. – Francesco Bonazzi Aug 23 '16 at 16:59