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I am processing large data with Scala, so memory and time is an even more important companion than it usually is to me. I am trying to increase the speed of some evaluation by subdividing the initial Iterator[String] obtained by getLines on a large source file in order to make some subevaluation in parallel and merge the results. I do this by recursively slice-ing the iterator into two halfs and recalling the recursive function on each subiterator. Now, I am wondering why I get GCoverhead or JavaHeapSpace exception, although the "critical" elements are only evaluated once before the recursion step (in order to get the size of the iterator), but in my opinion not in the recursion step, because slice returns an iterator again (which is non-strict by implementation). The following (reduced!) code will fail applied on a ~15g file before concatenating the sublists.

I use .duplicatein each step. I looked up the api, the doc of .duplicate says "The implementation may allocate temporary storage for elements iterated by one iterator but not yet by the other.", but no element has been iterated yet. Could someone give me a hint what is going wrong there and how to solve this problem? Thank you so much!

type itType = Iterator[String]
def src = io.Source.fromFile(args(0)).getLines

// recursively divide into equal size blocks in divide&conquer fashion
def getSubItsDC(it: itType, depth: Int = 4) = {
    println("Getting length of file..")
    val totalSize = src.length
    def rec(it_rec: itType = it, depth_rec: Int = depth, size: Int = totalSize): 
        List[itType] = depth_rec match {
            case n if n > 0 => 
                val (it1, it2) = it_rec.duplicate
                val newSize = size/2
                rec(it1 slice (0,newSize), n-1, newSize) ++ 
                    rec(it2 slice (newSize,size), n-1, newSize)
            case n if n == 0 => List(it_rec)
    println("Starting recursion..")

In the REPL the code runs equally fast with arbitrary size of iterators (when hard coding the totalSize), thus I assumed correct lazyness.

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1 Answer 1

I think you might be better off using the itr grouped size to get an Iterator[Iterator[String]] (a GroupedIterator):

scala> val itr = (1 to 100000000).iterator grouped 1000000
itr: Iterator[Int]#GroupedIterator[Int] = non-empty iterator

This will allow you to chunk the processing of parts of your file.

Why your solution uses too much memory

Duplicating an Iterator is obviously an operation which means that the Iterator may have to cache its computed values. For example:

scala> val itr = (1 to 100000000).iterator
itr: Iterator[Int] = non-empty iterator

scala> itr filter (_ % 10000000 == 0) foreach println

But when I take a duplicate:

scala> val (a, b) = (1 to 100000000).iterator.duplicate
a: Iterator[Int] = non-empty iterator
b: Iterator[Int] = non-empty iterator

scala> a filter (_ % 10000000 == 0) foreach println

//oh dear, garbage collecting
Exception in thread "main" java.lang.OutOfMemoryError: GC overhead limit exceeded

In this example, as I run through a, in order that b be a duplicate, the elements that a has iterated over but which b has not, need to be cached

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Thank you for your response, I appreciate! I'm not quite sure how your example of .duplicate explains my code problem, because I actually never iterate over any element, am I? I need to consider the use of .grouped. I have the feeling this is exactly not what I was looking for, because it returns some kind of Iterator of Lists. My recursive method, in contrast, was intended to return a List of Iterators (so the other way around) so I can call .par on that list without any further effort. Grouping first and calling .toList.par will cause the same memory crash. Any ideads for that? –  Wayne Jhukie Jun 12 '12 at 18:34
Well, your solution is not tail recursive and uses Iterator.duplicate. I'm not sure why an iterator of Lists is exactly not what you're looking for. Is there a Jedi mind trick going on here, perhaps? –  oxbow_lakes Jun 12 '12 at 23:23
I was aware of no-tail-recursion, but is this the problem? The recursion depth is 4,so this will yield a List of max. size 16 (I hope I'm not wrong there). I use duplicate yes, but I don't evaluate any of the elements, so no caching is needed, how come it still fails? Your example runs for a while, too, so this must mean really only evaluated elements are cached, or am I wrong? I can't use Iterator[List], because I would like to thread on List[Iterator] via par without having the sub-iterators being evaluated before. Calling toList on the Iterator[List] would load all data into memory. –  Wayne Jhukie Jun 13 '12 at 13:12
Argh okay, I could try myGroupedIterator.next.par, let me try that! Sorry. –  Wayne Jhukie Jun 13 '12 at 13:42

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