# why is this looping function so slow compared to map?

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 [])]
(if
(= i end)
(persistent! res)
(let [x (nth coll1 i)
y (nth coll2 i)
r (fn x y)]
(recur (inc i) (conj! res r)))
))))
``````
-

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)`.

Update:

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))))
``````
-
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