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.

I looked at maps source code which basically keeps creating lazy sequences. I would think that iterating over a collection and adding to a transient vector would be faster, but clearly it isn't. What don't I understand about clojures performance behavior?

;=> (time (do-with / (range 1 1000) (range 1 1000)))
;"Elapsed time: 23.1808 msecs"
; vs
;=> (time (doall (map #(/ %1 %2) (range 1 1000) (range 1 1000))))
;"Elapsed time: 2.604174 msecs"
(defn do-with
  [fn coll1 coll2]
  (let [end (count coll1)]
    (loop [i   0
           res (transient [])]
          (= i end)
            (persistent! res)
            (let [x (nth coll1 i)
                  y (nth coll2 i)
                  r (fn x y)]
              (recur (inc i) (conj! res r))) 
share|improve this question

1 Answer 1

up vote 14 down vote accepted

In order of conjectured impact on relative results:

  1. Your do-with function uses nth to access the individual items in the input collections. nth operates in linear time on ranges, making do-with quadratic. Needless to say, this will kill performance on large collections.

  2. range produces chunked seqs and map handles those extremely efficiently. (Essentially it produces chunks of up to 32 elements -- here it will in fact be exactly 32 -- by running a tight loop over the internal array of each input chunk in turn, placing results in internal arrays of output chunks.)

  3. Benchmarking with time doesn't give you steady state performance. (Which is why one should really use a proper benchmarking library; in the case of Clojure, Criterium is the standard solution.)

Incidentally, (map #(/ %1 %2) xs ys) can simply be written as (map / xs ys).


I've benchmarked the map version, the original do-with and a new do-with version with Criterium, using (range 1 1000) as both inputs in each case (as in the question text), obtaining the following mean execution times:

;;; (range 1 1000)
new do-with           170.383334 µs
(doall (map ...))     230.756753 µs
original do-with       15.624444 ms

Additionally, I've repeated the benchmark using a vector stored in a Var as input rather than ranges (that is, with (def r (vec (range 1 1000))) at the start and using r as both collection arguments in each benchmark). Unsurprisingly, the original do-with came in first -- nth is very fast on vectors (plus using nth with a vector avoids all the intermediate allocations involved in seq traversal).

;;; (vec (range 1 1000))
original do-with       73.975419 µs
new do-with            87.399952 µs
(doall (map ...))     153.493128 µs

Here's the new do-with with linear time complexity:

(defn do-with [f xs ys]
  (loop [xs  (seq xs)
         ys  (seq ys)
         ret (transient [])]
    (if (and xs ys)
      (recur (next xs)
             (next ys)
             (conj! ret (f (first xs) (first ys))))
      (persistent! ret))))
share|improve this answer
Thanks for the detailed and well rounded response. Looks like I need to be more aware of what type of operation I'm doing on what type of data structure. –  Core Aug 5 '13 at 15:15

Your Answer


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

Not the answer you're looking for? Browse other questions tagged or ask your own question.