This is trivial implement of course, but I feel there is certainly something built in to Racket that does this. Am I correct in that intuition, and if so, what is the function?
Strangely, there isn't a built-in procedure in Racket for finding the 0-based index of an element in a list (the opposite procedure does exist, it's called
list-ref). However, it's not hard to implement efficiently:
(define (index-of lst ele) (let loop ((lst lst) (idx 0)) (cond ((empty? lst) #f) ((equal? (first lst) ele) idx) (else (loop (rest lst) (add1 idx))))))
But there is a similar procedure in
srfi/1, it's called
list-index and you can get the desired effect by passing the right parameters:
(require srfi/1) (list-index (curry equal? 3) '(1 2 3 4 5)) => 2 (list-index (curry equal? 6) '(1 2 3 4 5)) => #f
As of Racket 6.7,
index-of is now part of the standard library. Enjoy!
Here's a very simple implementation:
(define (index-of l x) (for/or ([y l] [i (in-naturals)] #:when (equal? x y)) i))
And yes, something like this should be added to the standard library, but it's just a little tricky to do so nobody got there yet.
Note, however, that it's a feature that is very rarely useful -- since lists are usually taken as a sequence that is deconstructed using only the first/rest idiom rather than directly accessing elements. More than that, if you have a use for it and you're a newbie, then my first guess will be that you're misusing lists. Given that, the addition of such a function is likely to trip such newbies by making it more accessible. (But it will still be added, eventually.)
One can also use a built-in function '
member' which gives a sublist starting with the required item or
#f if item does not exist in the list. Following compares the lengths of original list and the sublist returned by member:
(define (indexof n l) (define sl (member n l)) (if sl (- (length l) (length sl)) #f))
For many situations, one may want indexes of all occurrences of item in the list. One can get a list of all indexes as follows:
(define (indexes_of1 x l) (let loop ((l l) (ol '()) (idx 0)) (cond [(empty? l) (reverse ol)] [(equal? (first l) x) (loop (rest l) (cons idx ol) (add1 idx))] [else (loop (rest l) ol (add1 idx))])))
For/list can also be used for this:
(define (indexes_of2 x l) (for/list ((i l) (n (in-naturals)) #:when (equal? i x)) n))
(indexes_of1 'a '(a b c a d e a f g)) (indexes_of2 'a '(a b c a d e a f g))
'(0 3 6) '(0 3 6)