# LISP Programming - function that calculates the nodes of a tree

I have recently started learning lisp and completed some simple exercises that are available to me, unfortunately I have got stuck & after spending hours it seems I don't seem to be getting any closer to a decent solution.

I am trying to produce a function which takes the expression 'tree' as its argument and returns the tree with the relevant calculated values in place of the operators.

An example of what a tree could look like is: (* (+ 10 (* 4 9)) (- 6 10))
And the function should return: (-184 (46 10 (36 4 9)) (-4 6 10))

I have tried all sorts but nothing works as it should. I have created something which works but is really bad in terms of coding style, I really am lost here.

(defun evalTree (node &optional n)
(when node
(rplaca node (eval node))
(setq n (first (rest node)))
(rplaca n (eval n))
(setq n (first (rest (rest node))))
(rplaca n (eval n))
(setq n (first (rest (rest (first (rest node))))))
(rplaca n (eval n)))
(format t "node=~a n=~a~%" node n)
node)


I think my solution should be using the apply function or the eval function but im just not sure of how to use them on trees properly.

-

(defun eval-tree (tree)
(flet ((arg (a)
(if (atom a) a (first a))))
(if (atom tree)
tree
(destructuring-bind (op a b)
tree
(let ((a1 (eval-tree a))
(b1 (eval-tree b)))
(list (funcall op (arg a1) (arg b1)) a1 b1))))))

-
Thanks for the solution, im not quite sure how exactly it works but I will read up on the functions you used and hopefully I will learn from it. Thanks again. – user1850231 Nov 24 '12 at 23:10