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Writing Scala code, I regularly encounter cases where I have "processor" functions that operate iteratively on a collection of elements and also need to know the length of the collection.

On the other hand I have "provider" functions that generate collections and so already know the length. The generated collections may be List[T], Array[T] or Set[T], etc., but even in the case of List[T], my generator knows the size (even if the List type does not store it).

So I would naturally declare the "processor" functions as taking the most generic type that seems to fit all collection types, Iterable[T], as a parameter. However, they then internally need to find out the size via iterative collection traversal at a cost of O(N), which is undesirable.

So my naive solution would be to create a new type like IterableWithSize[T] and have the provider and processor functions create and take this type. Neither Seq[T] nor IndexedSeq[T] seem to fit the bill. But this seems like a relatively common use case, so I'm suspecting that there is a more idiomatic way to do this. What would that be?

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1  
I don't understand why IndexedSeq[T] doesn't work for you… –  Jean-Philippe Pellet Jul 5 '11 at 10:09
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Since you actually want to store extra data within the collection, I would think that your naive way to do this would be best. –  Submonoid Jul 5 '11 at 10:12
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@Jean-Philippe Set[T] isn't a IndexedSeq[T] –  Matthew Farwell Jul 5 '11 at 10:20

4 Answers 4

up vote 0 down vote accepted

I don't think there is an idiomatic way to do this. But here are two alternatives:

(1) Extend Scala's List/Set/Array collections and override the size method. This is not as difficult as it seems at first glance.

(2) Wrap your List/Set/Array collections together with the size and define an implicit unwrapper like:

class IterableWithSizeWrapper[E](private val c: Iterable[E], val size: Int)
object IterableWithSizeWrapper {
  implicit def unwrap[E](iws: IterableWithSizeWrapper[E]): Iterable[E] = iws.c
}

object ListWithSizeTest {

  def process[E](iws: IterableWithSizeWrapper[E]) {
        // iws.size uses your cached size value
        // iws.take(i) forces the unwrap to the original collect
        // so iws.take(i).size takes the calculated size
    for (i <- 0 to iws.size) assert(iws.take(i).size == i)
  }

  def main(args: Array[String]) {
    process(new IterableWithSizeWrapper(List(1,2,3), 3))
    process(new IterableWithSizeWrapper(Set(1,2,3), 3))
    process(new IterableWithSizeWrapper(Array(1,2,3), 3))
  }
}
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That is quite nice. Thanks! –  Gregor Scheidt Jul 6 '11 at 8:42

In Scala collections, performance sensitive methods like size are not inherited from traits but overridden in the bottom type. For example see the implementation of immutable.HashSet:

https://lampsvn.epfl.ch/trac/scala/browser/scala/tags/R_2_9_0_1/src//library/scala/collection/immutable/HashSet.scala

So you don't need to care about it. Just define an high-level common trait like Traversable or Iterable and you're done.

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Well, not quite: I already know that the bottom type in some cases will be 'List[T]', which does not store size information, resulting in an O(N) operation (list traversal). Since for the purpose of the question I assume that I always have the size available, I really do need a special type that holds the collection size. –  Gregor Scheidt Jul 5 '11 at 13:24

Actually, there's no idiomatic way around that. Scala collections were really meant to be traversed or used in other prescribed manners (such as Set.contains or Map.get). Checking for size is not part of them, and some of them are not even finite.

Now, IndexedSeq is a relatively safe bet -- it guarantees O(logn) indexed access, which is only possible if you have O(logn) size. Also, Set and Map are reasonably safe as well, for similar reasons. But if you are looking for a trait that gives you a guarantee on size speed, there isn't one.

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Thanks. I guess this is the answer... –  Gregor Scheidt Jul 5 '11 at 13:28

How about Traversable? All your collections you mention inherit from it (Array indirectly via WrappedArray) and it provides size and toIterable (or toIterator) for traversal.

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I considered Traversable, too. But (a) it is more primitive and not iterable (I can only do foreach() for all elements, so I cannot operate on some prefix) and (b) it also does not have size information stored, so I'd still end up doing a collection traversal at cost O(N) to determine the size. But thanks for the suggestion! –  Gregor Scheidt Jul 5 '11 at 13:26
    
No Traversable isn't an iterable, but it has the mentioned methods to provide it. Generally a trait/super-class can't really specify how a getter method is implemented, thus whether the returned size is stored or calculated, or whether the returned Iterable isn't a full copy instead of a thin wrapper. Even its derivations List and Set can't guarantee that. Those kinds of things you have to establish yourself in an interface contract and make sure that you only use sub-classes that adhere to it. –  RoToRa Jul 5 '11 at 13:39

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