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I have a very long sequence of strings which individually need to be processed by some processing function and then collected as another sequence object. The problem seems to be ideally suited to a fork/join type attack.

The function is a member of a class that is quite expensive to instantiate. But instantiating and sharing a single class object among the futures seemed to cause problems, so I instantiate 4 times the number of processors available and then split them up among the futures.

// instantiate processing class objects
val processors = 1 to SomeNumber map (x=> new MyProcessor)
val processorstream = Stream.continually(processors).flatten
// the input strings
val input: Seq[String] = some sequence of strings
val splitinput = input.grouped(some large number).toStream
// create futures
val mytask = splitinput.zip(processorstream).collect {
    case (subseq of strings, processor) => future {
        map elements of subsequence of strings with processor}}

Then I collect the output like so

val result = mytask.map(x => x.apply()).reduce(_++_) // or some appropriate concatenation operator

My problem is that this does not give me full cpu utilization even though I have 8 cores. It only utilizes one core.

To investigate, an alternative I tried was

val input: Seq[String] = some sequence of strings
// no stage where I split the input into subsequences
val mytask = input.zip(processorstream).collect {
    case (string, processor) => future {
        process string with processor}}
val result = mytask.map(x => x.apply())

This alternative both worked and didn't work. It achieved full cpu utilization, but several exceptions were thrown because (a hypothesis) the processor was running through each string too fast and sometimes the same processor object would be applied to different strings simultaneously.

I'm even more sure of my hypothesis that the processors are working too fast because if I provide longer input (say, whole text documents instead of 10 word headlines) I get full cpu utilization without any exceptions thrown.

I've also tried experimenting with akka futures and scalaz promises and they all seem to only use one cpu when I split the input sequence into subsequences.

So how do I get full cpu utilization with futures in this instance while using subsequences of strings as input?

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3  
Why not using .par from parallel collections? –  om-nom-nom Aug 18 '12 at 15:36
    
@om-nom-nom What are those? And how would it apply here? I only picked up scala a few months ago. –  JasonMond Aug 18 '12 at 15:49
    
Parallel collections execute operations like map in parallel. See docs.scala-lang.org/overviews/parallel-collections/… –  Kim Stebel Aug 18 '12 at 16:00

2 Answers 2

up vote 2 down vote accepted

Per @om-nom-nom :

input.par.map { s => task(s) }
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Yup, that solved it. –  JasonMond Aug 18 '12 at 23:11
    
Cool feature, no? –  Connor Doyle Aug 19 '12 at 14:02
3  
And you can even lose some noise: input.par map task –  Viktor Klang Aug 19 '12 at 21:41
    
Viktor is this your idea of vacation? :) –  Connor Doyle Aug 21 '12 at 0:34

You may try to use ThreadLocal for your mutable processors. Rather useless example:

val words = io.Source.fromFile("/usr/share/dict/words").getLines.toIndexedSeq

class Processor {
  val sb = new StringBuffer() // mutable!
  println("---created processor---")
  def map(s: String): Int = {
    sb.setLength(0)
    for (i <- 1 to s.length()) {
      sb.append(s.substring(0, i))
    }
    sb.toString().sum.toInt  // don't make any sense out of this
  }
}

val tl = new ThreadLocal[Processor] {
  override protected def initialValue() = new Processor
}

val parRes = words.par.map(w => tl.get.map(w)).sum
val serRes = words.map(    w => tl.get.map(w)).sum
assert(parRes == serRes)

This will create by default as many threads as there are CPU cores, as the ---created processor--- messages attest.

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