# deep-reverse for scheme

When entering the list of ((1 2) (3 4)), I want to reverse it, but not so it's ((3 4) (1 2)), which is what reverse does, so I'm trying to write a deep-reverse procedure:

``````(define (deep-reverse l)
(cond ((null? l) nil)
(not (pair? (car l)) l)
(else (append (deep-reverse (cdr l)) (list (car l))))))
``````

but it just throws back ((1 2) (3 4)). What's wrong and how do I get this to work?

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What answer do you want? What is deep-reverse of '(1 (2 3) 4) and '(1 (2 (3 4)))? – Ed Gamble Feb 25 '13 at 0:41
I could see one possibility: reversed lists, within the reversed list `((4 3) (2 1))` in which case you just need to make recursive calls to reverse lists – zanegray Feb 25 '13 at 0:46

Try:

``````(define (deep-reverse l) (map reverse l))
``````

The above is the simplest possible answer; a real answer depends on exactly what you expect deep-reverse to do. See my comment to your question.

If you want everything, all the way down:

``````(define (deep-reverse l)
(if (list? l)
(reverse (map deep-reverse l))
l))
``````

Here is how it works (correctly):

``````> (deep-reverse '(1 2 ((3.1 3.2) (4) "abc")))
(("abc" (4) (3.2 3.1)) 2 1)
``````
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the homework tag is deprecated, you shouldn't ask people to use it anymore – Óscar López Feb 25 '13 at 0:46
Got it; edited to remove. – Ed Gamble Feb 25 '13 at 0:48
but this would only work for a single level of lists within the list, right? – zanegray Feb 25 '13 at 0:49
Right. You want it all the way down? – Ed Gamble Feb 25 '13 at 0:50

You have to also deep reverse the `car` in the code. Otherwise you are not deep reversing the front-most part of the list.

``````(define (deep-reverse l)
(cond ((null? l) nil)
(not (pair? (car l)) l)
(else (append (deep-reverse (cdr l)) (list (deep-reverse (car l)))))))
``````
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