# implementing binary search tree in scheme

Functions in scheme/racket. Working on a few functions using a binary search tree. I have already defined helper functions to be:

``````;; returns value of node
(define (value node)
(if (null? node) '()
(car node)))

;; returns left subtree of node
(define (left node)
(if (null? node) '()

;; returns right subtree of node
(define (right node)
(if (null? node) '()
``````

and I am trying to write a function `size` that takes a tree as a parameter and returns the number of non-null nodes in the given tree

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It seems you're very close. Try this (untested):

``````(define (size tree)
(if (null? tree) 0
(+ 1 (size (left tree)) (size (right tree)))))
``````

Though, personally, I would much rather prefer to use `#f` as the null value, rather than `'()`. In that case, use `not` instead of `null?` in the first line.

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That is indeed very similar in style. Instead of counting, you are trying to see if the current value is what you're looking for, `or` the left branch `contains` that value, `or` if the right branch `contains` that value. Makes sense? :-) –  Chris Jester-Young Oct 5 '12 at 6:34

Just an alternative!! You could have used structs, which would reduce the work of writing the three functions...

``````(struct node (val left right) #:transparent)
(struct null-tree ())
``````

and directly write the above function using in-built functions for a struct, i.e. a predicate and parameter accessors.

``````(define (size tree)
(if (null-tree? tree) 0
(+ 1 (size (left tree)) (size (right tree)))))
``````
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