# Scheme expand procedure calls

Given a function such as the tree-recursive implementation of the fibonacci recurrence, how could I show each step in the evaluation of an expression such as `(fib 5)`?

``````(define (fib n)
(cond ((= n 0) 0)
((= n 1) 1)
(else (+ (fib (- n 1)
(fib (- n 2))))))
``````

For example, I would like to output:

``````(fib 5)

(+ (fib 4) (fib 3))

(+ (+ (fib 3) (fib 2)) (+ (fib 2) (fib 1)))

(+ (+ (+ (+ (fib 1) 0) (fib 1) (+ (fib 1) 0)) (+ (+ (fib 1) 0) (fib 1)))

(+ (+ (+ (+ 1 0) 1 (+ 1 0)) (+ (+ 1 0) 1))
``````

I know that using quasiquoting, you can partially evaluate an expression, as in:

```````(+ ,(* 3 4) (- 0.1 2))   ; evaluates to -┐
(+ 12 (- 0.1 2))          ;          <----┘
``````

However, I have not been able to use this to show each step in the evaluation. I know I could modify a scheme interpreter like Peter Norvig's lis.py, but I would like a way to do it within the language itself. How can I do this?

-

You mean, like this?

``````(define (fib n)
(cond ((= n 0) 0)
((= n 1) 1)
(else `(+ ,(fib (- n 1))
,(fib (- n 2))))))
``````

For example:

``````(fib 5)
=> '(+ (+ (+ (+ 1 0) 1) (+ 1 0)) (+ (+ 1 0) 1))
``````

Of course, the above will return only the final result of the evaluation. Using a built-in stepper like the one in Racket, you can see each intermediate step. For a little how-to see this answer, which happens to show the fibonacci function, too.

-
Ah, I was quasiquoting in the wrong place, I kept using it outside the procedure body. Thank you! –  tlehman Feb 9 '13 at 16:48
@TobiLehman my pleasure! –  Óscar López Feb 9 '13 at 16:50
I'll have to check out Racket, it looks very cool. What I would like to do is generate a tree visualization like on page 68 of SICP. If I use GraphViz, then I just need to output parent-child pairs, such as "(fib 3) -> (fib 2)", "(fib 3) -> (fib 1)", and use `dot` to render it as a PNG. I could wrap each function call in a (begin (display ..)) statement. –  tlehman Feb 9 '13 at 17:01