# malloc error in f2py

I am trying to use f2py to run a simple integration problem in 3 dimensions.

The python code which calls the fortran code is as follows:

``````#!/Library/Frameworks/EPD64.framework/Versions/Current/bin/python
import pymods as modules
import pygauleg as gauleg
import pyint as integrator
import pylab as pl
import sys
import math
import time

############################################
# main routine #############################
############################################
zero = 0.0
one = 1.0
pi = pl.pi

Nr = 10
Nt = 10
Np = 2*Nt
r0 = zero
rf = one
NNang = Nr*Nt*Np

print 'Nr Nt Np = ', Nr, Nt, Np
print 'NNang = ', NNang
print 'r0 rf = ', r0, rf

Nx = int(math.floor( (one*NNang)**(one/3.0) ))
Ny = int(math.floor( (one*NNang)**(one/3.0) ))
Nz = int(math.floor( (one*NNang)**(one/3.0) ))

Nx = int(pl.floor(float(Nx)*1.75))
Ny = int(pl.floor(float(Ny)*1.75))
Nz = int(pl.floor(float(Nz)*1.75))

NNxyz = Nx*Ny*Nz

print 'Nx Ny Nz = ', Nx, Ny, Nz
print 'NNxyz = ', NNxyz
xyz0 = -rf
xyzf = rf

t1 = time.time()
xt = pl.zeros(Nt)
wt = pl.zeros(Nt)
gauleg.gauleg(xt, wt, 0.0, pl.pi, Nt)
print 'outside of gauleg'
``````

While the fortran subroutine is a bit lengthy, the important parts of it are the beginning ...

``````  2 subroutine gauleg(x,w,x1,x2,n)
3 !Input:   x1,x2,n
4 !Output:  x,w
5 !implicit none
6 !integer, parameter :: ikind = selected_int_kind(25)
7 !integer, parameter :: rkind = selected_real_kind(15, 307)
8 !
9 !real(kind = rkind), parameter :: pi = 3.14159265358979323846d00
10 !real(kind = rkind), parameter :: one = 1.0d00
11 !real(kind = rkind), parameter :: zero = 0.0d00
12 use mod_gvars
13
14 real(kind = rkind) :: tol = 1d-15
15
17 integer :: n
18 !!!!!f2py intent(in) n
19 real(kind = rkind), dimension(n) :: x
20 real(kind = rkind), dimension(n) :: w
22 real :: x1, x2
23
24 real(kind = rkind) :: z1, z, xm, xl, pp, p3, p2, p1;
25
26 integer(kind = ikind) :: m
27 integer(kind = ikind) :: i,j
28 integer(kind = ikind) :: countmax, counter, max_counter, min_counter
29
30 integer(kind = ikind) :: tenth, hundredth, thousandth
31
32 print*, 'n = ', n
``````

and the end ...

`````` 98
99 print*, 'returning'
100
101 end subroutine
``````

The comments at the top of the subroutine (lines 5 - 11) are structures which exist in the fortran module `mod_gvars`. It seems like everything is going according to plan *until* this subroutine returns. Here is the output:

``````Nr Nt Np =  10 10 20
NNang =  2000
r0 rf =  0.0 1.0
Nx Ny Nz =  21 21 21
NNxyz =  1728
n =           10
m =  5
returning
python(14167) malloc: *** error for object 0x1081f77a8: incorrect checksum for freed object - object was probably modified after being freed.
*** set a breakpoint in malloc_error_break to debug
Abort trap
``````

It seems like the subroutine runs into a problem only upon returning. Why would this happen?

-

Make sure you use bounds checking in Fortran (at least `-fbounds-check` in gfortran, preferably just `-fcheck=all` to check all problems).
Finally, I personally prefer to just use Cython to wrap Fortran directly. Then I have easy access to all the generated files and I use the `iso_c_binding` Fortran module so that the Fortran compiler checks that all types are compatible between Fortran and C (Python), see here for an example.