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I have a pair of vectors x and y of unique items, each of which I know to be sorted. I wish to have the intersection of the two, maintaining sort order. The result ideally would be another vector, for fast random access.

The generation below is merely for the sake of example, my x and y will come presorted and pre-distinct (they are in fact time samples).

(defn gen-example [c] (-> (repeatedly c #(-> c rand int)) distinct sort vec))

user=> (def x (gen-example 100000)) (count x)
user=> (def y (gen-example 100000)) (count y)

I know Clojure has clojure.set/intersection which can work on a sorted-set. My x and y have the same properties (sorted distinct elements) but are not the same type.

Question 1: Is there a better/faster way to convert x and y to sorted-sets than (apply sorted-set x) given that they are already distinct and sorted?

user=> (time (def ssx (apply sorted-set x)))
"Elapsed time: 607.642592 msecs"
user=> (time (def ssy (apply sorted-set y)))
"Elapsed time: 617.046022 msecs"

Now I am ready to perform my intersection

user=> (time (count (clojure.set/intersection ssx ssy)))
"Elapsed time: 355.42534 msecs"

This is somewhat disappointing performance, and a cursory look at (source clojure.set/intersection) does not seem to show any special treatment for the fact that these sets are sorted.

Question 2: Is there a better/faster way to perform the intersection of sorted-sets than clojure.set/intersection?

(defn intersect-sorted-vector [x y] 
  (loop [x (seq x) y (seq y) acc []] 
    (if (and x y)
      (let [x1 (first x) 
            y1 (first y)] 
        ( < x1 y1) (recur (next x) y acc) 
        ( > x1 y1) (recur x (next y) acc) 
        :else (recur (next x) (next y) (conj acc x1))))

This turns out to be a good deal (nearly 10x) faster.

user=> (time (count (intersect-sorted-vector x y)))
"Elapsed time: 40.142532 msecs"

But, I can't help but feel that my code is unduly procedural/iterative.

Question 3: Could anyone kindly suggest a more idiomatic way to process a pair of vectors in Clojure?

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1 Answer 1

up vote 6 down vote accepted

It is often the case that fast Clojure code looks a bit imperative. Functional code is often elegant, but comes with some associated performance costs that you have to pay for (laziness, extra GC pressure from discarded immutable objects etc.)

Also, converting into sets is always going to be more expensive. Building a set is an O(n log n) operation in itself, but you can exploit the fact that the vectors are already supported to implement an intersection operation in O(n) time.

Your code is already pretty good, but there are still a couple more optimisations you can do:

  • Use a transient vector to collect the results. These are a bit faster than regular persistent vectors for lots of sequential conj operations.
  • Used indexed access with primitives into the vectors rather than traversing a sequence with first/next. This avoids creating temporary seq objects (and related GC)

Resulting code might look something like:

(defn intersect-sorted-vector [x y]
  (loop [i (long 0), j (long 0), r (transient [])]
    (let [xi (nth x i nil), yj (nth y j nil)]
        (not (or xi yj)) (persistent! r)
        (< xi yj) (recur (inc i) j r)
        (> xi yj) (recur i (inc j) r)
        :else (recur (inc i) (inc j) (conj! r xi))))))

(time (count (intersect-sorted-vector x y)))
=> "Elapsed time: 5.143687 msecs"
=> 40258

So as you can see, this probably gives you an extra 6-8x speedup or thereabouts.

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Thanks so much for the response. You've given me a lot to think about and research as I continue to learn Clojure. However, I think the extra speed here is largely due to your superior runtime environment. On my system this takes just as much time (almost to the msec). –  A. Webb Jan 4 '13 at 17:33
Or, maybe it is the same only up the point running my code repeatedly would trigger a GC before yours. I'll have to explore futher. Good stuff! –  A. Webb Jan 4 '13 at 17:39
I suspect mikera's attempts to use primitive longs are slowing him down, because get doesn't support primitives. So he ends up constantly boxing and unboxing the integers, which costs about as much as the next calls he removed. Using nth and int instead, I predict, would speed things up. –  amalloy Jan 5 '13 at 1:51
@amalloy - good spot! switch to nth and it seems to give another x2 performance boost. –  mikera Jan 5 '13 at 2:22

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