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I have multiple BlockingQueues containing messages to be sent. Is it possible to have fewer consumers than queues? I don't want to loop over the queues and keep polling them (busy waiting) and I don't want a thread for every queue. Instead, I would like to have one thread that is awoken when a message is available on any of the queues.

  • 5
    What's the difference between this and a single blocking queue which is given to multiple producers? – Jon Skeet Mar 6 '12 at 16:57
  • I think what Alex wants to accomplish is to create a blocking queue (wrapper) on top of multiple blocking queues so a consumer can simply wait on a single blocking queue. Perhaps the situation prevents Alex from requiring producers to use the same blocking queue instance. – sjlee Mar 6 '12 at 17:25
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    The problem is I don't want multiple consumers per queue. If I would dump it all in one queue, the consumers would be able to eat from the same queue. So if I have a Queue with A's and a queue with B's. No B may be taken as long as another B is still being taken. – Alex Mar 7 '12 at 22:28
6

One trick that you could do is to have a queue of queues. So what you'd do is have a single blocking queue which all threads subscribe to. Then when you enqueue something into one of your BlockingQueues, you also enqueue your blocking queue on this single queue. So you would have something like:

BlockingQueue<WorkItem> producers[] = new BlockingQueue<WorkItem>[NUM_PRODUCERS];
BlockingQueue<BlockingQueue<WorkItem>> producerProducer = new BlockingQueue<BlockingQueue<WorkItem>>();

Then when you get a new work item:

void addWorkItem(int queueIndex, WorkItem workItem) {
    assert queueIndex >= 0 && queueIndex < NUM_PRODUCERS : "Pick a valid number";
    //Note: You may want to make the two operations a single atomic operation
    producers[queueIndex].add(workItem);
    producerProducer.add(producers[queueIndex]);
}

Now your consumers can all block on the producerProducer. I am not sure how valuable this strategy would be, but it does accomplish what you want.

  • Simple and effective! Thanks! – Alex Mar 16 '12 at 11:09
  • @Alex: No problem - I'm really curious to how it works out. – mindvirus Mar 16 '12 at 12:23
6

The LinkedBlockingMultiQueue does what you are asking for. It does not allow the consumer to block on arbitrary BlockingQueues, but it is possible to create "sub queues" from a single "multi queue" and achieve the same effect. Producers offer in the sub queues, and consumers can block themselves polling the single multi queue, waiting for any element.

It also supports priorities, that is, taking elements from some queues before considering others.

Example:

LinkedBlockingMultiQueue<Int, String> q = new LinkedBlockingMultiQueue<>();
q.addSubQueue(1 /* key */, 10 /* priority */);
q.addSubQueue(2 /* key */, 10 /* priority */);
LinkedBlockingMultiQueue<Int, String>.SubQueue sq1 = q.getSubQueue(1);
LinkedBlockingMultiQueue<Int, String>.SubQueue sq2 = q.getSubQueue(2);

Then you can offer and poll:

sq1.offer("x1");
q.poll(); // "x1"
sq2.offer("x2");
q.poll(); // "x2"

Disclaimer: I am the author of the library.

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