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I want to write code using a recursive function to unnest the parentheses in a LIST.

Here is an example:

(unnest '(1 (2 (3)) (4 5))) ==> (1 2 3 4 5)
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  • 1
    This function is usually called FLATTEN. Sep 12, 2009 at 19:30
  • also it's called fringe in the SICP book - exercise 2.28, pg 111. Sep 12, 2009 at 23:38
  • this for me was the classic aha moment for recursion.
    – Gutzofter
    Sep 13, 2009 at 9:40

1 Answer 1

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(defun unnest (lst)
  (cond ((null? lst) '())
        ((not (list? lst)) (list lst))
        (t
         (append (unnest (car lst))
                 (unnest (cdr lst))))))

> (unnest '(1 (2 (3)) (4 5))) 
(1 2 3 4 5)

Basically the idea is as follows:

  • if you have an empty list, then you obviously don't need to unnest it;
  • if it's not a list, then it must be an atom, and therefore you return a list containing that atom;
  • in the last condition, you have a list, so you basically say: the result of an unnested list is the unnested version of the first element appended to the unnested version of the rest of the list, and that's it, recursion takes care of the rest.

Hope it helps.

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  • 1
    or more simply, we are walking a tree and we pick the leaf nodes, which we append to a list recursively. The trick to avoid reconstructing again a tree structure is to use the append function. Sep 12, 2009 at 17:46
  • Yes, that is more simple : P. Btw, why did you replace the t for else? else is used in Scheme. Sep 12, 2009 at 17:53
  • Yes, I experiment with Scheme and I thought t was a mistake :o) Rollback my edit if you want. BTW, what's t? Sep 12, 2009 at 18:04
  • Sure, no problem. t is LISP's true value; a cheap way not to have a special else case in cond : ). Sep 12, 2009 at 18:09

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