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I'm trying to implement a work queue in Java that limits the amount of work that can be taken at a time. In particular, it is trying to protect access to an external resource. My current approach is to use a Semaphore and a BlockingQueue so that I have something like this:

interface LimitingQueue<V> {
    void put(Callable<V> work);
    Callable<V> tryPoll();

It should behave like this:

public void workLimit() throws Exception {
    final int workQueue = 2;
    final LimitingQueue<Void> queue = new LimitingQueue<Void>(workQueue);
    queue.put(new Work()); // Work is a Callable<Void> that just returns null.
    queue.put(new Work());

    // Verify that if we take out one piece of work, we don't get additional work.
    Callable<Void> work = queue.tryPoll();
    assertNotNull(work, "Queue should return work if none outstanding");
    assertNull(queue.tryPoll(), "Queue should not return work if some outstanding");

    // But we do after we complete the work.
    assertNotNull(queue.tryPoll(), "Queue should return work after outstanding work completed");

The implementation of tryPoll() uses Semaphore#tryAcquire and, if successful, creates an anonymous Callable that wraps the Semaphore#release call in a try/finally block around the call to work.call().

This works, but is somewhat unsatisfying in that if the user of this class puts work that is of some specific class that implements Callable, the user does not get access to that class back when looking at the result of tryPoll. Notably, tryPoll() returns a Callable<Void>, not a Work.

Is there a way to achieve what the work limitation effect while giving the caller back a usable reference to the work object that was submitted? (It's fine to strengthen the type signature of LimitingQueue to be more like LimitingQueue<R, T extends Callable<R>>.) I can't think of a way to ensure that the semaphore is released after calling the work item without doing this kind of wrapping.

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Not sure what you want. How about showing what calling code you want and we'll try to make it compile. –  Bohemian Jun 20 '11 at 4:52

2 Answers 2

up vote 2 down vote accepted

EDIT2 I have replaced what was here with a suggestion on how to implement what you're looking for. Let me know if you want some of the old info back and I can restore it.

public class MyQueue<T> {

  private Semaphore semaphore;

  public void put(Work<T> w) {

  public Work<T> tryPoll() {
    return null;

  public abstract static class Work<T> implements Callable<T> {

    private MyQueue<T> queue;

    private void setQueue(MyQueue<T> queue) {
      if(queue != null) {
        throw new IllegalStateException("Cannot add a Work object to multiple Queues!");
      this.queue = queue;

    public final T call() throws Exception {
      try {
        return callImpl();
      } finally {

    protected abstract T callImpl() throws Exception;

Then use it like thus:

public class Test {

  public static void main(String[] args) {
    MyQueue<Integer> queue = new MyQueue<Integer>();
    MyQueue.Work<Integer> work = new MyQueue.Work<Integer>() {
      protected Integer callImpl() {
        return 5;

    MyQueue.Work<Integer> sameWork = queue.tryPoll();
share|improve this answer
Yeah, I'm worried that maybe this is pushing the abstraction too far. –  Emil Sit Jun 20 '11 at 13:18
@Emil You can choose either to have one abstract LimitedQueue or a specific LimitedQueue for each subclass of Callable. If all of your Callables will be Work objects, this may be okay for you. I will update my answer. –  Bringer128 Jun 21 '11 at 2:17
Yes, each queue will only have one type in it, say, Work. The reason that I'd like to wrap the Work is so that the class can guarantee that the semaphore gets released after the Work#call(). –  Emil Sit Jun 21 '11 at 2:34
If you want to enforce this policy, you should create an abstract class that all Work instances inherit from which has an implementation of call() that wraps a call to an abstract method callImpl() which the user must implement. This creates a coupling between the user's class and your queue, but it sounds like it will achieve what you want. –  Bringer128 Jun 21 '11 at 3:26
Yes, that sort of coupling might be acceptable. The AbstractWork would have to take a specific queue as an constructor parameter or something though. Can you update the answer with how you'd do this? Thanks! –  Emil Sit Jun 21 '11 at 3:58

Sounds to me like you should just use the builtin ExecutorService. Use Executors#newCachedThreadPool to get a pool, then submit Callable jobs which return back a Future.

share|improve this answer
I guess could use a newFixedThreadPool with size limited to the amount of work I want in progress, but this queue is trying to manage work across a broader work pool that sees work for a lot of different resources. I want to both limit total parallelism with a thread pool (and hence don't want a separate thread pool per resource type) and also the parallelism on individual external resources (managed by the Semaphores). Does that make sense? –  Emil Sit Jun 20 '11 at 13:17

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