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In java, what is an efficient solution to the following problem:

I have multiple threads (10-20 or so) generating jobs ("Job Creators"), and a single thread capable of performing them ("The worker"). Once a job creator has posted a job, it should wait for the job to finish, yielding no result other than "it's done", before it keeps going.

For sending the jobs to the worker thread, I think a ring buffer or similar standard fan-in setup would perhaps be a good approach? But for a Job Creator to find out that her job has been done, I'm not so sure..

The job creators could sleep, and the worker interrupt them when done.. Or each job creator could have an atomic boolean that it checks, and that the worker sets. I dunno, neither of those feel very nice. I'd like to do it with as few (none, if possible) locks as absolutely possible. So to be clear: What I'm looking for is speed, not necessarily simplicity.

Does anyone have any suggestions? Links to reading about concurrency strategies would also be very welcome!

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Just use Executors.newSingleThreadExecutor; use submit rather than execute and hold onto the Future. Call Future.get to wait until it completes. – oldrinb Sep 11 '12 at 21:11
Is there a particular reason you need the creators to wait until their submitted task is done if they don't care about the result? Seems a little fishy to me :3 – Brian Sep 11 '12 at 21:15
@Brian They need to be guaranteed that the job was performed before they can start fiddling on their next job request. – jakewins Sep 11 '12 at 21:21
Just do as @oldrinb said, it's simple and as good as it gets. I'm not sure what your concern about speed is, but you can't synchronize threads without locks - unless you want to spend processor cycles busy-waiting. – Flavio Sep 11 '12 at 21:39
@Flavio Spending processor cycles busy-spinning is definitely an option, I know LMAX uses that rather than sleeping/taking locks, with good results. – jakewins Sep 11 '12 at 21:51

2 Answers 2

up vote 1 down vote accepted

There's a couple ways to do this. The fastest way would probably be to just use Semaphore and a single-threaded executor.

private final Executor executor = Executors.newSingleThreadExecutor();

public void submitJob() {
    Semaphore semaphore = new Semaphore(0);
    executor.execute(new Job(semaphore));
    semaphore.acquire(); // Will block until semaphore.release() below

Then in the Job class:

public class Job implements Runnable {

    private final Semaphore semaphore;

    public Job(Semaphore semaphore) {
        this.semaphore = semaphore;

    public void run() {
        // Perform task and run the actual job
        semaphore.release(); // Cues the submitter to continue at semaphore.acquire()

Semaphore is decently fast, much faster than using synchronized blocks.

Edit: I should also note that this avoids a lot of overhead from Future, and so is probably also faster than the Future implementation suggested by others, but without testing it myself, I can't be sure.

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Can you provide evidence for your remarks on efficiency? – oldrinb Sep 11 '12 at 21:38
Also... why not use Condition? – oldrinb Sep 11 '12 at 21:44
@oldrinb I'll see if I can come up with a performance test for this to see which is the fastest. Also, I simply forgot about Condition, and it would probably work a little better than Semaphore. I'll include it in my testing. – Brian Sep 11 '12 at 21:50
Semaphore and Future are both based on AQS so performance differences are likely to be negligible... Unless you have a concrete micro benchmark to support otherwise, and the future based code can be simpler to implement. – Stephen Connolly Sep 11 '12 at 22:26
@jakewins GC of short lived objects is faster than you think. Premature optimization is evil. Write the simplest thing that could possible work first. Then when the app is working profile and optimize. Optimizing before you have a functional app only delays development and may prove pointless in the long run. I wrote a Java based Audio Conferencing server that handled mixing for 100's of calls with the basic implementation which was (I thought) quite GC heavy... only after extensive profiling did I find the true hot-spots to get to nearly 1000 calls... The C++ optimized code was 4000 calls – Stephen Connolly Sep 12 '12 at 11:40

I would favour a single threaded executor service and just submit the worker instances to that (getting a future for the result). You can then get() the future to both block until the result is available and get the result

public class TheWorker {
  private final ExecutorService service = Executors.newSingleThreadedExecutor();

  public Result work(Job job) {
    return service.submit(new Callable<Result>(){

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+1 I would take this approach all day over the Semaphore. – John Vint Sep 12 '12 at 13:21

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