I want to work with my Numpy arrays in a C extension. Many examples in this case uses the structure of PyArrayObject,

`array->data , array->strides[0] , array->strides[1] , ...`

pointers in order to reach the data, if I wanted to reach my array in a more familiar (or tidier) way to me, with indices like

`array[i][j]`

how should I proceed so? Should I typecast (bool *) array->data and work with the C array I created? (my elements are bools)

My function declaration for now is (not finished, of course)

```
static PyObject *
xor_masking(PyObject *self, PyObject *args)
{
PyObject *input;
PyObject *mask;
PyObject *adjacency;
PyObject *state;
PyArrayObject *arr_mask;
PyArrayObject *arr_adjacency;
PyArrayObject *arr_state;
PyArrayObject *arr_next_state;
double sum;
int counter_node, n_nodes;
/* PyArg_ParseTuple
* checks if from args, the pointers of type "O" can be extracted, and extracts them
*/
if (!PyArg_ParseTuple(args, "OOO:xor_masking_C", &mask, &adjacency, &state))
return NULL;
/*
* The pointer returned by PyArray_ContiguousFromObject is typecasted to
* a PyArrayObject Pointer and array is pointed to the same address.
*/
arr_mask = (PyArrayObject *)
PyArray_ContiguousFromObject(mask, PyArray_BOOL, 2, 2);
arr_adjacency = (PyArrayObject *)
PyArray_ContiguousFromObject(adjacency, PyArray_BOOL, 2, 2);
arr_state = (PyArrayObject *)
PyArray_ContiguousFromObject(state, PyArray_BOOL, 2, 2);
if (array == NULL)
return NULL;
int n_mask_0 = mask->dimensions[0];
int n_mask_1 = mask->dimensions[1];
int n_adjacency_0 = adjacency->dimensions[0];
int n_adjacency_1 = adjacency->dimensions[1];
int n_state_0 = state->dimensions[0];
int n_nodes = n_state_0;
/*
* if the dimensions don't match, return NULL
*/
bool c_mask[n_nodes][n_nodes];
if (n_mask_0 != n_mask_1 || n_adjacency_0 != n_adjacency_1 ||
n_adjacency_0 != n_mask_0 || n_adjacency_0 != n_adjacency_1) {
return NULL;
}
/*
* The 2D arrays are introduced as follows
* array[i][j] = (array->data + i*array->strides[0] + j*array->strides[1])
*/
for (counter_node = 0; i < n_mask; i++){
*row_start = (array->data + i*array->strides[0]);
}
//Py_DECREF();
//return PyFloat_FromDouble();
}
```

Thanks!