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I have an immutable Iterable<X> with a large number of elements. (it happens to be a List<> but never mind that.)

What I would like to do is start a few parallel / asynchronous tasks to iterate over the Iterable<> with the same iterator, and I'm wondering what interface I should use.

Here's a sample implementation with the to-be-determined interface QuasiIteratorInterface:

public void process(Iterable<X> iterable)
{
   QuasiIteratorInterface<X> qit = ParallelIteratorWrapper.iterate(iterable);
   for (int i = 0; i < MAX_PARALLEL_COUNT; ++i)
   {
      SomeWorkerClass worker = new SomeWorkerClass(qit);
      worker.start();
   }
}

class ParallelIteratorWrapper<T> implements QuasiIteratorInterface<T>
{
   final private Iterator<T> iterator;
   final private Object lock = new Object();
   private ParallelIteratorWrapper(Iterator<T> iterator) { 
      this.iterator = iterator;
   }
   static public <T> ParallelIteratorWrapper<T> iterate(Iterable<T> iterable)
   {
      return new ParallelIteratorWrapper(iterable.iterator());
   }
   private T getNextItem()
   {
      synchronized(lock)
      {
         if (this.iterator.hasNext())
            return this.iterator.next();
         else
            return null;
      }
   }
   /* QuasiIteratorInterface methods here */
}

Here's my problem:

  • it doesn't make sense to use Iterator directly, since hasNext() and next() have a synchronization problem, where hasNext() is useless if someone else calls next() before you do.

  • I'd love to use Queue, but the only method I need is poll()

  • I'd love to use ConcurrentLinkedQueue to hold my large number of elements... except I may have to iterate through the elements more than once, so I can't use that.

Any suggestions?

share|improve this question
    
In the scenario where you want to make a second pass across the data, does the order of iteration need to be the same as the first pass? –  ChrisH May 5 '11 at 19:33
    
Aside from the course locking and the fact that null is a valid entry for many List implementations, what is the problem/question? –  Tim Bender May 5 '11 at 19:35
    
@ChrisH: yes, the order should always be the same. –  Jason S May 5 '11 at 19:36
    
@Tim: are you saying I should just use Iterator then? –  Jason S May 5 '11 at 19:37
    
@Jason S, no because Iterator implementations are not guaranteed to be thread safe and from what I have seen the implementation in AbstractList is definitely not thread safe. I am simply asking, what is the question? –  Tim Bender May 5 '11 at 19:48

2 Answers 2

up vote 1 down vote accepted

Create your own Producer interface with the poll() method or equivalent (Guava's Supplier for instance). The implementation options are many but if you have an immutable random access list then you can simply maintain a thread-safe monotonic counter (AtomicInteger for instance) and call list.get(int) eg:

class ListSupplier<T> implements Supplier<T> {
  private final AtomicInteger next = new AtomicInteger();
  private final List<T> elements; // ctor injected

  …
  public <T> get() {
    // real impl more complicated due to bounds checks
    // and what to do when exhausted
    return elements.get(next.getAndIncrement());
  }
}

That is thread-safe, but you'd probably want to either return an Option style thing or null when exhausted.

share|improve this answer

Have one dispatcher thread that iterates over Iterable and dispatches elements to multiple worker threads that perform the work on the elements. You can use ThreadPoolExecutor to automate this.

share|improve this answer
    
Thanks, but I don't want to couple the work-scheduling mechanism (which is complicated and has certain constraints, for reasons outside the scope of this question) with the mechanism that controls sharing access to elements. –  Jason S May 5 '11 at 19:48

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