**Background:**

I have a Python script that uses Fortran code for it's intensive calculations. I'm using F2Py to do this. One particular Fortran subroutine builds a matrix used in later calculations. This subroutine is iterated over in a loop, and solved at each step. A snippet of the code using essential arrays and variables is given below:

```
for i in xrange(steps):
x+=dx
F_Output=Matrix_Build_F2Py.hamiltonian_solve(array_1, array_2, array_3, array_4)
#Do things with F_Output
SUBROUTINE Hamiltonian_Solve(array_1, array_2, array_3, array_4, output_array)
!N_Long, N_Short are implied, Work, RWork, LWork, INFO
INTEGER, INTENT(IN), DIMENSION(0:N_Long-1) :: array_1, array_2, array_3
INTEGER, INTENT(IN), DIMENSION(0:N_Short-1) :: array_4
COMPLEX*16,ALLOCATABLE :: Hamiltonian(:,:)
COMPLEX*16, DIMENSION(0:N_Short :: Complex_Var
DOUBLE PRECISION, INTENT(OUT), DIMENSION(0:N_Short-1) :: E
INTEGER :: LWork, INFO, j
COMPLEX*16, ALLOCATABLE :: Work(:)
ALLOCATE(Hamiltonian(0:N_Short-1, 0:N_Short-1))
ALLOCATE(RWork(MAX(1,3*(N_Short-2))))
ALLOCATE(Work(MAX(1,LWork)))
ALLOCATE(E(0:N_Short-1))
DO h=0, N_Long-1
Hamiltonian(array_1(h),array_2(h))=Hamiltonian(array_1(h),array_2(h))-Complex_Var(h)
END DO
CALL ZHEEV('N','U',N_Short,Hamiltonian,N_Short,E,Work,LWork,RWork,INFO)
DO j=0,N_Short-1
Output_Array(j)=E(j)
END DO
END SUBROUTINE
```

However, for some reason this subroutine crashes my Python program, and generates the following malloc error:

```
error for object 0x1015f9808: incorrect checksum for freed object - object was probably modified after being freed.
```

This error is unusual in that it *does not occur every time*, but only a significant percentage of the time. I have determined that the root of the error lies in the line:

```
Hamiltonian(array_1(h),array_2(h))=Hamiltonian(array_1(h),array_2(h))-Complex_Var(h)
```

As if I change it to:

```
Hamiltonian(array_1(h),array_2(h))=Hamiltonian(array_1(h),array_2(h))
```

The error stops. However, Complex_Var is essential to the output, otherwise the program simply produces zeroes. This thread bears some similarity to my issue, but that issue seemed to occur after every run, mine does not. I have taken care to ensure the arrays are not mismatched, other arrangements (ie not accounting for numpy's different array formats) immediately creates a segmentation fault, as expected.

**Question**

Why is Complex_Var breaking the code? Why is the problem intermittent rather than systematic? And are there any obvious (or not so obvious) tips to avoid this?

Any help would be much appreciated!