Given a list/tree of the form : (node1 (node2) (node3 (node4) (node5)) (node6)) I should be able to find out the depth at which a searched node resides.

This is what I've done so far:

```
(defun search-it (lst level n)
(cond ((null lst) nil)
((and (atom (car lst)) (equal (car lst) n)) level)
((atom (car lst)) (search-it (cdr lst) level n))
(t (cons (search-it (car lst) (+ 1 level) n)
(search-it (cdr lst) level n)))))
(defun search-node (l n)
(search-it l 0 n))
```

For this particular implementation I have a correct solution, but what bothers me is that I can't get rid of some nil lists. For example:

```
(search-node '(1 (2) (3 (4) (6) (7) (8 (9) (10)))) 6)
(NIL (NIL 2 NIL (NIL NIL)))
```

The solution is correct if we consider the root node at depth 0.
Now of course I could add some code to the *search-node* function to remove everything except the solutions, I can't help but feel that it's not the most elegant way to do this.

**LE**: The expected result should be the depth or a list of depths in case the number appears more than once.

Some pointers anyone? PS: lisp newbie