35

BlockingQueue has the method called drainTo() but it is not blocked. I need a queue that I want to block but also able to retrieve queued objects in a single method.

Object first = blockingQueue.take();

if ( blockingQueue.size() > 0 )
    blockingQueue.drainTo( list );

I guess the above code will work but I'm looking for an elegant solution.

5 Answers 5

40

Are you referring to the comment in the JavaDoc:

Further, the behavior of this operation is undefined if the specified collection is modified while the operation is in progress.

I believe that this refers to the collection list in your example:

blockingQueue.drainTo(list);

meaning that you cannot modify list at the same time you are draining from blockingQueue into list. However, the blocking queue internally synchronizes so that when drainTo is called, puts and (see note below) gets will block. If it did not do this, then it would not be truly Thread-safe. You can look at the source code and verify that drainTo is Thread-safe regarding the blocking queue itself.

Alternately, do you mean that when you call drainTo that you want it to block until at least one object has been added to the queue? In that case, you have little choice other than:

list.add(blockingQueue.take());
blockingQueue.drainTo(list);

to block until one or more items have been added, and then drain the entire queue into the collection list.

Note: As of Java 7, a separate lock is used for gets and puts. Put operations are now permitted during a drainTo (and a number of other take operations).

9
  • It's unlikely that the collection you are copying to would be thread-safe. What would be the point? May 6, 2009 at 22:25
  • Is it guaranteed that drainTo(list) won't call list.clear()? I don't see that in the javadoc anywhere.
    – Recurse
    Aug 4, 2010 at 7:46
  • @Recurse: The JavaDoc doesn't guarantee that drainTo(list) won't call clear(), I suppose, because it doesn't say it won't do so. However, it would be very surprising if it did something so major to a collection passed to it without documenting this action. Many would consider this to be a serious bug.
    – Eddie
    Sep 11, 2010 at 0:15
  • 5
    The javadoc contract of .drainTo() is a little ambiguous (as most natural language contracts will be) but "all available elements" would suggest non-blocking. I've confirmed this for the Android SDK implementation of Array and List blocking queues. Mar 13, 2014 at 0:13
  • 1
    @bacar: Although corsiKa said this is a Java 7 change, I don't see where in the JavaDoc it is guaranteed that gets and puts use a separate lock. It may be that the JVM implementing classes all happen to do so, but I don't see where this is guaranteed. Anyway, drainTo isn't itself a blocking operation. It returns what happens to be in the queue right now. Blocking queues do offer operations that block as you say, but drainTo isn't one of them. Because of that, there's no point in explicitly blocking puts during a drainTo, unless you need to do so to guarantee consistency.
    – Eddie
    Nov 6, 2014 at 1:32
20

If you happen to use Google Guava, there's a nifty Queues.drain() method.

Drains the queue as BlockingQueue.drainTo(Collection, int), but if the requested numElements elements are not available, it will wait for them up to the specified timeout.

0
10

I found this pattern useful.

List<byte[]> blobs = new ArrayList<byte[]>();
if (queue.drainTo(blobs, batch) == 0) {
   blobs.add(queue.take());
}
0

With the API available, I don't think you are going to get much more elegant. Other than you can remove the size test.

If you are wanting to atomically retrieve a contiguous sequence of elements even if another removal operation coincides, I don't believe even drainTo guarantees that.

3
  • 2
    drainTo definitely blocks any put, get, take, etc... Check the source code. This API is thread-safe against other calls to the blocking queue. However, if the Collection to which you are draining changes during drainTo, you can have a problem.
    – Eddie
    May 6, 2009 at 22:11
  • 2
    OK, true, funny, but besides the point. Check the implementing classes in the JDK. (Which is clearly what I meant.)
    – Eddie
    May 6, 2009 at 22:39
  • They are not the only possible implementation classes. For instance, I'm sure it is relatively straightforward(!) to convert ConcurrentLinkedQueue to a "ConcurrentLinkedBlockingQueue" (although clearly the blocking operations would not be wait-free). May 6, 2009 at 23:49
-1

Source code:

 596:     public int drainTo(Collection<? super E> c) {
              //arg. check
 603:         lock.lock();
 604:         try {
 608:             for (n = 0 ; n != count ; n++) {
 609:                 c.add(items[n]);
 613:             }
 614:             if (n > 0) {
 618:                 notFull.signalAll();
 619:             }
 620:             return n;
 621:         } finally {
 622:             lock.unlock();
 623:         }
 624:     }

ArrayBlockingQueue is eager to return 0. BTW, it could do it before taking the lock.

1
  • 2
    No. Taking the lock doesn't just provide for mutual exclusion, it also makes sure the count seen is "fresh", that updates to main memory from other threads are seen. You could make "count" volatile, but volatile writes are relatively slow so writing would mean both holding lock + volatile write, probably more total overhead. IMHO any developer writing concurrent code should attempt to do his/her best to understand the java memory model: docs.oracle.com/javase/specs/jls/se7/html/jls-17.html#jls-17.4
    – Stefan L
    Apr 12, 2013 at 8:15

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