I am just stuck on a trivial problem with SWIG and numpy. I have a specialized matrix (n,k) vector (k) product in C which I want to interface to numpy. So I always know the shape of the output vector (n) before the multiplication.

Currently, the C function allocates the memory and returns a double* to the calculated product. To prevent memory leakage and to avoid changing the C-code I interface it like in the dot example:

```
%apply (int DIM1, int DIM2, double* IN_ARRAY2) {(int m1, int nd1, double* xd)};
%apply (int DIM1, double* IN_ARRAY1) {(int nd2, double* zd)};
%apply (int DIM1, double* ARGOUT_ARRAY1) {(int nd4, double* za)};
%rename (mat_vec_mul) my_mat_vec_mul;
%ignore mat_vec_mul;
%include "math_lib.h"
%exception my_mat_vec_mul {
$action
if (PyErr_Occurred()) SWIG_fail;
}
%inline %{
void my_mat_vec_mul( int m1, int nd1, double* xd, int nd2, double* zd, int nd4, double* za)
{
if (nd1 != nd2) {
PyErr_Format(PyExc_ValueError,
"Arrays of lengths (%d,%d) given",
nd1, nd2);
}
int i;
double *tmp = NULL;
tmp = mat_vec_mul(m1,nd1,xd,zd);
for( i = 0; i < nd1; i++){
za[i] = tmp[i];
}
free(tmp);
}
%}
```

Now, because I am specifying the output vector as ARGOUT_ARRAY1, the function is called in python as

```
v = test.mat_vec_mul(A,b,A.shape[0])
```

which is inconvenient. Is there a way to tell swig the size internally? Or is the only way to provide a user friendly interface to add an additional wrapper around it as:

```
def user_interface_mat_vec_mul(A,b):
mat_vec_mul(A,b,A.shape[0])
```

Thanks in advance.