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# unfold function in scheme

Goal: implement `unfold` function using only two arguments.

The arguments:

• the first argument is f which takes an initial value of some type I and returns nil or a cons pair of two elements (the first of these two is the next element that goes in the list of some type A and the next initial value again of some type I).
• The second argument is an initial value of some type I and the return is a list of items of type A.

This is what I have so far and I am not sure why it is not working:

``````(define (descending i)
(if (= i 0)
(list)
(cons i (- i 1))))

(define nil (list))

(define (unfold f init)
(if (eq? (f init) '())
(list)
(cons init (unfold f (f init)))))

(unfold (descending 5))
``````

should evaluate to

``````'(5 4 3 2 1)
``````

This should be the result but isn't. What am I doing wrong?

-

First, it should be `(unfold descending 5)`. Then `f` would produce a pair and you would use both components of it,

``````(define (unfold f init)
(if (eq? (f init) '())
(list)
(cons (car (f init)) (unfold f (cdr (f init))))))
``````
-
I see! Thanks! Also if I want to define an ascending function that returns '(-100...100) I am not sure why the following code stops at -5: (define (ascending i) (if (= i (- i)) (list) (cons i (+ i 5)))) (unfold ascending (- 100)) – Dan P. Feb 15 '12 at 0:21
Your condition there is `(= i (- i))`, which is equivalent to `(= i 0)`, so it stops at 0 and the last to be consed is `-5`. – Daniel Fischer Feb 15 '12 at 0:28
I guess I just have to do (= i (105)) then. I just thought I could define the function such that it would print all number up to an including the negative of the initial. – Dan P. Feb 15 '12 at 0:31
Is `(eq? whatever '())` really canonical Scheme or is this some inside joke referencing ashwinram.org/1986/01/28/… – Kaz Apr 7 '15 at 14:22
@Kaz No idea whether that's canonical or a code smell. What I know about Lisp, Scheme etc. fits inside a matchbox. The question originally also had a haskell tag, that's how I came across it. I understood enough to answer it, so I did, using the OP's code as much as possible. – Daniel Fischer Apr 7 '15 at 21:28