Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

With Clojure, how do I find the first index with a positive value in this vector [-1 0 3 7 9]?

I know you can get the first result of something rather elegantly with first and filter:

(first (filter pos? [-1 0 99 100 101]))

This code returns the value 99. The answer I want is the index which is 2.

share|improve this question
See here: stackoverflow.com/questions/4830900/… –  nimrodm Dec 27 '11 at 5:02
My question is totally different. I've edited my title to reflect this. –  user468687 Dec 27 '11 at 5:09

5 Answers 5

up vote 24 down vote accepted

Using keep-indexed you can get a sequence of indices for which a predicate is satisfied:

(defn indices [pred coll]
   (keep-indexed #(when (pred %2) %1) coll))

With this simple function you'll solve your problem with the expression

user=> (first (indices pos? [-1 0 99 100 101]))

Note that, due to the lazyness of keep-indexed (and indices), the entire sequence need not be realized so no extraneous calculations are performed.

share|improve this answer
very cool. that's what i was looking for. –  user468687 Dec 28 '11 at 8:26
This works great. (As I dug into it, I noticed that keep-indexed includes non-nil (which includes false) results. I don't know the rationale for this.) –  David James Jan 8 '13 at 7:07
(defn first-pos [x] 
  (loop [arr x n 0]
     (if (pos? (first arr))
     (recur (next arr) (inc n)))))

This is a good example of using functional programming's powerful tail recursion.

share|improve this answer
It fails with a NullPointerException if there are no positive elements in the list; also OP was asking for the match of an arbitrary predicate, not only pos? –  Óscar López Dec 27 '11 at 13:46
(first (filter #(not (nil? %)) (map #(when (pos? %1) %2) [-1 1 0 99 100 101] (range))))

Map can take one or more collections and return one list,put condition on map,and filter nil.

share|improve this answer
(defn pred-idx [pred [idx hist] cur]
  (if (pred cur)
    [(inc idx) (conj hist idx)]
    [(inc idx) hist]))

(defn idx-filter [pred col]
  (second (reduce (partial pred-idx pred) [0 []] col)))

(first (idx-filter pos? [-1 0 99 100 101]))

Not sure if this is better, but it works. I think it forces evaluation of the entire sequence though, and if you need all indices that would be better. The correct thing to do is probably turn it into a lazy sequence somehow, but I'm done for the evening.

share|improve this answer
I want something that can handle my example. Find the index of the first positive value in a collection. –  user468687 Dec 27 '11 at 5:07
Sorry, did not read that clearly. –  Bill Dec 27 '11 at 5:11
my fault my title was unclear –  user468687 Dec 27 '11 at 5:25
I had this stuck on the brain, so kept trying. Not an ideal solution though. –  Bill Dec 27 '11 at 6:05

Try this:

(defn first-index
  ([pred coll] (first-index coll pred 0))
  ([pred coll idx]
    (cond (= coll '()) -1
          (pred (first coll)) idx
          :else (recur pred (rest coll) (inc idx)))))

And use it like this:

(defn is-pos? [x]
  (> x 0))

(first-index is-pos? [-1 0 3 7 9])

It returns the zero-based index of the first element that satisfies the predicate (is-pos? in the example), or -1 if no element matches the predicate.

share|improve this answer
This function will only return -1 if passed nil explicitly, because (rest x) is never nil for any x. You should be calling seq on the collection before testing it for nil. Also, [pred coll] would be a friendlier argument order than [coll pred] - cf. map and filter, for example. –  amalloy Dec 27 '11 at 6:42
this works (with amalloy's suggestions), but the version using keep-indexed is much simpler. –  Gert Dec 27 '11 at 7:50
There, I've edited it according to @amalloy's comment. Coming from a Scheme background, it's weird that nil != '() in Clojure –  Óscar López Dec 27 '11 at 13:32

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.