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Given a large collection (let's call it 'a') of elements of type T (say, a Vector or List) and an evaluation function 'f' (say, (T) => Double) I would like to derive from 'a' a result collection 'b' that contains the N elements of 'a' that result in the highest value under f. The collection 'a' may contain duplicates. It is not sorted.

Maybe leaving the question of parallelizability (map/reduce etc.) aside for a moment, what would be the appropriate Scala data structure for compiling the result collection 'b'? Thanks for any pointers / ideas.


(1) I guess my use case can be most concisely expressed as

val a = Vector( 9,2,6,1,7,5,2,6,9 ) // just an example
val f : (Int)=>Double = (n)=>n      // evaluation function
val b = a.sortBy( f ).take( N )     // sort, then clip

except that I do not want to sort the entire set.

(2) one option might be an iteration over 'a' that fills a TreeSet with 'manual' size bounding (reject anything worse than the worst item in the set, don't let the set grow beyond N). However, I would like to retain duplicates present in the original set in the result set, and so this may not work.

(3) if a sorted multi-set is the right data structure, is there a Scala implementation of this? Or a binary-sorted Vector or Array, if the result set is reasonably small?

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What operations should the collection be optimized for? –  Jesper Nordenberg Oct 17 '11 at 10:36
@Jesper for the collection 'b': O(logN) insertion, O(1) last and first element, O(1) size. I guess a wrapper for Vector with binary sorting might do the trick, since I expect the result set to be relatively small (maybe N=100 elements). –  Gregor Scheidt Oct 17 '11 at 10:50

1 Answer 1

up vote 4 down vote accepted

You can use a priority queue:

def firstK[A](xs: Seq[A], k: Int)(implicit ord: Ordering[A]) = {
  val q = new scala.collection.mutable.PriorityQueue[A]()(ord.reverse)
  val (before, after) = xs.splitAt(k)
  q ++= before
  after.foreach(x => q += ord.max(x, q.dequeue))

We fill the queue with the first k elements and then compare each additional element to the head of the queue, swapping as necessary. This works as expected and retains duplicates:

scala> firstK(Vector(9, 2, 6, 1, 7, 5, 2, 6, 9), 4)
res14: scala.collection.mutable.Buffer[Int] = ArrayBuffer(6, 7, 9, 9)

And it doesn't sort the complete list. I've got an Ordering in this implementation, but adapting it to use an evaluation function would be pretty trivial.

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this is very elegant. I ended up modifying two aspects relative to your code, though: instead of xs.splitAt() I now fetch an iterator and traverse it in two stages (analogous to your before and after); without that I had problems with memory allocation for large Iterables. Then instead of q.dequeue I use q.head to test first whether a dequeue is necessary, which gave me a bit of a speedup (>2x). Thanks! –  Gregor Scheidt Oct 17 '11 at 13:24
I've made a slight change to the last line that might give a bit more of an improvement. You shouldn't need to sort the heap, and I only stuck the sorted(ord) on the end because—to my surprise and apparently against the specification—the output of q.iterator, etc. wasn't ordered. q.dequeueAll works as expected, though. –  Travis Brown Oct 17 '11 at 15:00
.dequeueAll is better. It also took me a while to realize that the order promised by .iterator, .toList and .toString is not what you actually get. I'll file a ticket. –  Gregor Scheidt Oct 18 '11 at 5:24
The documentation for iterator is incorrect and not up-to-date. The iterator is not supposed to respect any order. –  axel22 Oct 18 '11 at 7:36
@axel22 right, I presume it was you who commented on the ticket already. :-) Anyway, here is the ticket, just FYI. issues.scala-lang.org/browse/SI-5085 –  Gregor Scheidt Oct 18 '11 at 8:12

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