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?