I would suggest this:

```
array foo();
```

where `array`

is an struct defined as:

```
struct array
{
int *data;
unsigned int ndim; //number of dimensions
unsigned int *size; //size of each dimension is size[i].
};
```

Of course, `data`

is just a pointer to `int`

, but the other two fields in the struct can be used in such a way that the `data`

can be interpreted like an `n`

dimensional array, and size of each dimension can be stored in `size`

which is yet another pointer.

For example, take 4-dimensional array (dimension size are `10`

, `20`

, `30`

and `40`

), then you can create and initialize *4D array* as:

```
unsigned int size[] = {10,20,30,40};
array arr = create(4, size);
```

where `create`

function is defined as:

```
array create(unsigned int n, unsigned int *size)
{
array arr;
arr.ndim = n;
arr.size = (unsigned int*) malloc(n * sizeof(unsigned int));
int i;
unsigned int totalElements = 1;
for( i = 0 ; i < n ; ++i)
{
arr.size[i] = size[i];
totalElements *= size[i];
}
arr.data = (unsigned int*) malloc(totalElements * sizeof(int));
return arr;
}
```

Of course, you've to work a lot with the fields of the struct, to make it look like n-dimensional array. You don't need to follow me exactly the way I explained, but this is just a basic idea. You can modify it, to suit your specific need.

I would suggest you to write few functions, to manipulate the array, and to access the array elements. I've written `create`

function, likewise here is `destroy`

function:

```
void destroy(array arr)
{
if (arr.size != NULL && arr.data != NULL)
{
free(arr.size);
free(arr.data);
arr.size = arr.data = NULL;
}
}
```

andI checked by going back in the browser. Still the same basic idea applies – David Rodríguez - dribeas Dec 1 '11 at 8:04