# How to get the even elements in a list recursively

I'm trying to create a function that will return the even numbered elements in a list.

For example:

``````(evens '(a b c d))
``````

should return

``````(b d)
``````

The code below seems to work for lists that have and odd numbers of elements, but if I give it a list with an even number of elements, it is incorrect.

For example:

``````(evens '(a b c d e))
``````

will return

``````(b d)
``````

But:

``````(evens '(a b c d))
``````

will return

``````(a c)
``````

Any thoughts?

Changed my code to:

``````(DEFINE (evens lis)
(cond
((null? lis) '())
(else (cons (cadr lis) (evens (cdr lis))))
))
``````

Gets a error saying that the object passed to safe-car is not a pair?

-
Step through the code and the error should become readily apparent. (It's in the first iteration.) – Raymond Chen Nov 14 '12 at 5:50
You should have added the new code, not replaced the old. Now the question is incomplete and part of it isn't relevant any more. – itsbruce Nov 14 '12 at 8:02
possible duplicate of A scheme procedure that returns a list of every other element – Óscar López Nov 14 '12 at 11:35
a related, congenial answer - in F#. Highly recommended!! In Scheme, you need the `cddr` function. – Will Ness Nov 14 '12 at 12:27

This same question has been asked time and again over the last couple of days. I'll give a direct answer this time, to set it straight:

``````(define (evens lst)
(if (or (null? lst)             ; if the list is empty
(null? (cdr lst)))      ; or the list has a single element
'()                         ; then return the empty list
(cons (cadr lst)            ; otherwise `cons` the second element
(evens (cddr lst))))) ; and recursively advance two elements
``````

And here's how to do some error checking first:

``````(define (find-evens lst)
(if (list? lst)
(evens lst)
(error "USAGE: (find-evens [LIST])")))
``````
-
Can this question be marked as a duplicate? Or rather, the others, since this one seems to have attacted more attention and answers? – acelent Nov 14 '12 at 11:44
@PauloMadeira I already marked this one as duplicate, only the first question should remain. – Óscar López Nov 14 '12 at 11:54

I'm going to answer your question with commented examples, in the hope that you actually learn something instead of just being given code that works. Actually, looking at several pieces of code may be more enlightening, assuming that you're new to scheme.

Your original definition looked like this:

``````(define (evens lis)
(cond (;; Check: Recursion stop condition
(null? lis)
'())
(;; Wrong: Calling length at each step => O(n^2)
;; Wrong: Assuming even element if list has even number of elements
(= (modulo (length lis) 2) 0)
;; Wrong: Recursing with the rest of the list, you'll get odds
(cons (car lis) (evens (cdr lis))))
(else
;; Wrong: Recursing with the rest of the list with cdr, you'll get odds
(evens (cdr lis)))))
``````

Afterwards, you've edited your question to update it to something like this:

``````(define (evens lis)
(cond (;; Check: Recursion stop condition
(null? lis)
'())
(else
;; Check: Building list with second element
;; Wrong: If lis only has 1 element,
;;        (cdr lis) is null and (car (cdr list)) is an error.
;; Wrong: Recursing with cdr, you'll get odds
(evens (cdr lis))))))
``````

A solution is to check if the list has at least a second element:

``````(define (evens lis)
(cond (;; Check: Recursion stop condition 1
(null? lis)
'())
(;; Check: Recursion stop condition 2: list of length = 1
(null? (cdr lis))
'())
(else
;; Check: Building list with second element
;; The previous cond clauses have already sorted out
;; that lis and (cdr lis) are not null.
;; Check: Recurse "the rest of the rest" of lis with cddr
(evens (cddr lis)))))
``````

Exercise: Use `if` and `or` to simplify this solution to only have 2 branches.

-

Your code has few missing checks and a bit of incorrect logic.

``````(define (evens lis)
(cond
((null? lis) '())
((eq? (cdr lis) '()) '()) ;missing condition
(else (cons (cadr lis) (evens (cddr lis)))))) ; it is cddr not cdr
``````
-

The problem is that if your list has an even number of elements, the `modulo` branch is matched and you start `cons`ing with the `car` of the list ... hence in your example, you get the `a`, and so on.

More importantly, though, you don't need to use `length` for this function ... and you shouldn't: since `length` takes linear time in the length of the list, `evens` now takes quadratic time.

Suggestion: your program should 'remember' whether it's in an 'odd' or 'even' location at each recursive step ... how could you do this (there are several ways)?

-