# How to Reverse a List?

What is the function to a list in Scheme? It needs to be able to handle nested lists.

So that if you do something like `(reverse '(a (b c d) e))` you'll get `(e (b c d) a)` as the output.

How should I approach this problem? I'm not just looking for an answer, but something that will help me learn.

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Better answer: (define (rev1 lst) (foldl cons '() lst)) –  wowest Apr 12 '11 at 3:32

``````(define (reverse1 l)
(if (null? l)
nil
(append (reverse1 (cdr l)) (list (car l)))
)
)
``````

Explanation:

Rules:
1. If list is empty, then reverse list is also empty
2. else behind reverse tail of the list add first element of the list

Look at at this code this way:

reverse1 is name of the function, l is parameter
if list is empty then reverse is also empty else call reverse1 function with (cdr l) which is tail of list and append that to first alement (car l) that you make as a list

``````1st iteration
l=>(a (bcd)e)
car l => a
cdr l => (bcd)e
list(car l) =>(a)
------------------
reverse( cdr l)"+"(a)
------------------
2nd iteration
l=>((bcd)e)
car l => (bcd)
cdr l =>e
list(car l)=>(bcd)
--------------------
reverse(cdr l)"+"((bcd))+(a)
-----------------------
3rd iteration
l=>e
car l=> e
cdr l => nil
list (car l) =>(e)
-------------------------
(e (bcd)a)
``````
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Note that this answer is written in Common Lisp, which uses `nil` instead of `'()`. –  erjiang Nov 4 '10 at 1:47
@erjiang that's not really true - while Common Lisp uses `nil` and Scheme doesn't, the function defined at the top of this answer is really Scheme, not Common Lisp. You would need to do something like `(define nil '())` in order for it to work though. –  spacemanaki Nov 5 '10 at 15:47
This works for me perfectly with just one minor edit (return items instead of nil): (define (rev items) (if (null? items) items (append (rev (cdr items)) (list (car items))) ) ) I run this in Petite Chez (scheme.com) –  Puterdo Borato Jul 6 '13 at 13:06
Also there is built-in (reverse) procedure that returns the same result. –  Puterdo Borato Jul 6 '13 at 13:11
``````(define (my-reverse ls)
(define (my-reverse-2 ls acc)
(if (null? ls)
acc
(my-reverse-2 (cdr ls) (cons (car ls)) acc)))
(my-reverse-2 ls '()))
``````

This uses an accumulator variable to reverse the list, taking the first element off the incoming list and consing it to the front of the accumulator. It hides the accumulator taking function and just exposes the function that takes a list, so the caller doesn't have to pass in the empty list. That's why I have my-reverse-2.

``````(my-reverse-2 '(a (b c d) e) '()); will call
(my-reverse-2 '((b c d) e)  '(a)); which will call
(my-reverse-2 '(e)  '((b c d) a)); which will call
(my-reverse-2 '() '(e (b c d) a)); which will return
'(e (b c d) a)
``````

Because the last function call in `my-reverse-2` is a call to `my-reverse-2`, and the return value is passed right through (the return value of the first call is the return value of the second call, and so on) `my-reverse-2` is tail optimized, which means it will not run out of room on the stack. So it is safe to call this with a list as long as you like.

If you want it to apply to nested lists use something like this:

``````(define (deep-reverse ls)
(define (deep-reverse-2 ls acc)
(if (null? ls)
acc
(if (list? (car ls))
(deep-reverse-2 (cdr ls) (cons (deep-reverse (car ls)) acc))
(deep-reverse-2 (cdr ls) (cons (car ls) acc)))))
(deep-reverse-2 ls '()))
``````

This checks to see if the element is a list before adding it to the list, and if it is, reverses it first. Since it calls itself to revers the inner list, it can handle arbitrary nesting.

`(deep-reverse '(a (b c d) e))` -> `'(e (d c b) a)` which is in reverse alphabetical order, despite the fact that there is a nested list. It evaluates as so:

``````(deep-reverse-2 '(a (b c d) e) '()); Which calls
(deep-reverse-2 '((b c d) e)  '(a))
(deep-reverse-2 '(e) (cons (deep-reverse-2 '(b c d) '()) '(a)))
(deep-reverse-2 '(e) (cons (deep-reverse-2 '(c d)  '(b)) '(a)))
(deep-reverse-2 '(e) (cons (deep-reverse-2 '(d)  '(c b)) '(a)))
(deep-reverse-2 '(e) (cons '(d c b) '(a)))
(deep-reverse-2 '(e)  '((d c b) a))
(deep-reverse-2 '() '(e (d c b) a))
'(e (d c b) a)
``````
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This is one way that you can make a reverse function that applies to nested lists:

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

Explanation in pseudo-code:
Start by reversing the list as you would normally do
Then for each element in the reversed list:
- If the element is a list itself: Apply the procedure recursively
- Else: Don't touch the element

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I used a code similar to insert sort

``````(define deep-rev-list
(lambda (l)
(cond ((null? l) (quote ()))
((atom? (car l))
(swap-till-end (carl) (deep-rev-list (cdr l))))
(else
(swap-till-end (deep-rev-list (car l)) (deep-rev-list (cdr l)))))))

(define swap-till-end
(lambda (elm lst)
(cond ((null? lst) (cons elm '()))
(else
(cons (car lst) (swap-till-end elm (cdr lst)))))))

(define atom?
(lambda (x)
(and (not (null? x)) (not (pair? x)))))
``````

I am reproducing it from memory. There may be some errors. Will correct the code if thats the case. But the technique used is similar to the commandments for nested lists given in THe Little Schemer :). I checked it in DrRacket

(deep-rev-list '((1 2) (3) ((4 5)))) returns (((5 4)) (3) (2 1))

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