# removing last element of a list(scheme)

So I have to remove the last element of a list in scheme.

For example, let's say I have a list `(1 2 3 4)`. I need to return:

``````(1 2 3)
``````

My idea:

``````reverse(list)
car(list)
reverse(list)
``````

Is there a `reverse` function in scheme(racket)?

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Indeed, one of the best things about StackOverflow is that once a question is posted, it can be referenced and built upon in other posts. SO is one of the top hits on Google when you search for things, so if someone comes across this in the future, they can learn from what is here. :) –  corsiKa Feb 16 '11 at 0:07
To find out whether Racket has a reverse function, use docs.racket-lang.org to look it up. –  soegaard Feb 16 '11 at 13:33

You wrote: "reverse, car, reverse". I believe you meant to write "reverse, cdr, reverse". There's nothing wrong with this solution; it's linear in the size of the list, just like any solution to this that uses the standard lists.

As code:

``````;; all-but-last: return the list, not including the last element
;; list? -> list?
(define (all-but-last l) (reverse (cdr (reverse l))))
``````

If the multiple traversal of the list or the needless construction of another list copy bothers you, you can certainly avoid it, by writing the thing directly.

Given your almost-solution, I'm going to assume that this isn't homework.

Here's what it would look like, in racket:

``````#lang racket

(require rackunit)

;; all-but-last : return the list, except for the last element
;; non-empty-list? -> list?
(define (all-but-last l)
(cond [(empty? l) (error 'all-but-last "empty list")]
[(empty? (rest l)) empty]
[else (cons (first l) (all-but-last (rest l)))]))

(check-equal? (all-but-last '(3 4 5))
'(3 4))
``````
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p.s.: this solution uses several racket-isms: first & rest, error, check-equal?, etc. I'm assuming that this is okay, because your question is tagged "racket". –  John Clements Feb 15 '11 at 17:27

There is a `reverse`, but using it would not be very efficient. I suggest the following recursive function.

``````(define (remove-last lst)
(if (null? (cdr lst))
'()
(cons (car lst) (remove-last (cdr lst)))))

(remove-last '(1 2 3 4)) ; returns '(1 2 3)
``````

The `if` checks whether it is at the last element of the list.

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Actually, `reverse` is O(n), just like your function is. Both approaches are okay. –  Chris Jester-Young Feb 15 '11 at 17:35
@Chris: They are indeed of the same complexity class, but this algorithm should still be twice as fast because it only traverses the list once. –  Tim N Feb 15 '11 at 17:37
Only if you use a very narrow definition of "traverse". Since your function isn't tail-recursive, consing up from your call stack could be seen as the second traversal. –  Chris Jester-Young Feb 15 '11 at 17:38

I would do a recursive function that goes down the list and attaches the element (using `cons`) if the element after it is not the last, and appends nothing if it isn't.

I haven't done scheme for years though so that's as far as I can go.

Someone can run with how to implement it (unless it's homework then they probably shouldn't!)

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-1 Appending a list is an O(n) operation each time, which makes your whole function O(n²). That's what you get when you're working with linked lists. –  Chris Jester-Young Feb 15 '11 at 17:33
Appending to a list in is not O(n). Appending to an array backed list is O(n). Appending to a linked list (like it is in scheme) is O(1). –  corsiKa Feb 15 '11 at 17:55
@glowcoder: Not true. Prepending to a linked list is O(1). Appending to a linked list is O(n) on the list being appended. (Remember, Scheme lists are singly-linked lists, not doubly-linked.) –  Chris Jester-Young Feb 15 '11 at 18:19
@Chris No, it is not. While you iterate through the list, you have the reference to the last element in it already (the beauty of tail recursion) so you it isn't O(n), it's O(1). –  corsiKa Feb 15 '11 at 18:24
Oh I see what you're saying. You were interpeting my use of the word append to mean the actual append function as opposed to the plain-text notion of append. In that case, I concede the point that the append function will cause the order of the function to inflate. :) –  corsiKa Feb 15 '11 at 20:03

SRFI 1 (activate in Racket using `(require srfi/1)`) has a `drop-right` function:

`````` (drop-right '(1 2 3 4) 1)   ; => (1 2 3)
``````
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He probably needs to do it for an assignment. :) –  corsiKa Feb 15 '11 at 17:56
I hope I can get away with using this on my assignment ;) –  Gaʀʀʏ Sep 14 '12 at 18:54

I would write a simple recursion, altering the typical "empty? mylist" base case to "empty? (rest mylist)," so that I can return empty when the input list is only 1 element.

``````(define (removelast mylist)
(cond
[(empty? (rest mylist)) empty]
[(cons? mylist) (cons (first mylist) (removelast (rest mylist)))]))

(removelast (list 1 2 3 4 5))
``````

By the way, this code is in Racket/PLT Scheme, a subset of Scheme.

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