# Im trying to access a N dimensional vector but I get into infinite recursion

I want to access a n-dimensional vector but somehow (empty? '()) keeps returning false.

;; access n dimensional vectors
;; (access-nd vector a-list-of-numbers) -> element
;; (access-nd (vector (vector 'x 'y) 'a 'b)) 0 1 ) -> x

``````(define (access-nd avector . alist)
(cond
((and (not(empty? alist)) (vector? avector))
(vector-ref (access-nd avector (rest alist)) (first alist)))
(else avector)))
``````

Edit: CORRECTED CODE

``````(define (access-nd avector . alist)
(cond
((and (not(empty? alist)) (vector? avector))
(apply access-nd (vector-ref avector  (first alist)) (rest alist)))
(else avector)))
``````
-

Most likely, that one line should read:

``````     (vector-ref (apply access-nd avector (rest alist)) (first alist)))
``````

Without the "apply", `alist` will never be empty. Here's why:

In the definition of `access-nd` the `alist` parameter is an optional parameters list; it's separated with a dot from normal positional parameters. This means `access-nd` can be called with 1-n parameters. Any parameters after the first one are collected to a list and bound to `alist`. For example, a call like

``````(access-nd v 1 2 3)
``````

will cause `alist` to be bound to the list `(1 2 3)`. Similarly, this call in your original code:

``````(access-nd avector (rest alist))
``````

will cause `alist` to be bound to a list with one element. That's why `alist` will never be empty.

Scheme's `apply`, on the other hand, takes a list of arguments as the last parameter and calls the function as if they were passed to it in the normal way.

-
Could you tell me why that is? –  unj2 Jun 10 '09 at 18:59
Edited my reply with hopefully enough detail to understand what is going on. –  Ville Laurikari Jun 10 '09 at 19:13
Thanks . –  unj2 Jun 10 '09 at 19:26