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I can't use shutdown() and awaitTermination() because it is possible new tasks will be added to the ThreadPoolExecutor while it is waiting.

So I'm looking for a way to wait until the ThreadPoolExecutor has emptied it's queue and finished all of it's tasks without stopping new tasks from being added before that point.

If it makes any difference, this is for Android.

Thanks

Update: Many weeks later after revisiting this, I discovered that a modified CountDownLatch worked better for me in this case. I'll keep the answer marked because it applies more to what I asked.

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If you're OK with new tasks being added, what happens if it never finishes? –  Kylar Oct 14 '10 at 1:25
    
I think littleFluffyKitty only wants to wait for the "old" tasks to finish. –  Thilo Oct 14 '10 at 1:27
    
I'm not so concerned with the possibility that it would never finish because if that is the case, then something else is already terribly broken. If all else fails I could implement a time out of some sort but I'm ok with just assuming it will finish. I want it to be able to take new tasks while it's waiting, or to say it another way, I want new tasks to be able to be added after the wait is called. –  cottonBallPaws Oct 14 '10 at 3:44
    
I think this is a related question: stackoverflow.com/questions/3402895/java-threadpool-usage. You might want to check out the answers listed there... –  sjlee Oct 14 '10 at 7:15
    
I offered another, potential answer. I still don't understand what you mean by waiting for all the tasks to empty the queue but not wanting to inhibit new tasks to enter the queue... at some point, you have to draw the line, and TPE can't draw the line for you. Calling shutdown() is how you create the "edge" after which new tasks can't be submitted; calling awaitTermination() creates an edge ensuring you block until all previously-submitted tasks are complete. –  andersoj Oct 14 '10 at 12:53

4 Answers 4

up vote 33 down vote accepted

If you are interested in knowing when a certain task completes, or a certain batch of tasks, you may use ExecutorService.submit(Runnable). Invoking this method returns a Future object which may be placed into a Collection which your main thread will then iterate over calling Future.get() for each one. This will cause your main thread to halt execution until the ExecutorService has processed all of the Runnable tasks.

Collection<Future<?>> futures = new LinkedList<Future<?>>();
futures.add(executorService.submit(myRunnable));
for (Future<?> future:futures) {
    future.get();
}
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1  
+1 That seems to be the best way. Has to be done at the application level, however, where you submit the task, not at the executor service level. –  Thilo Oct 14 '10 at 2:06
6  
+1, or use invokeAll() on a batch of tasks, to await completion. See my answer here: stackoverflow.com/questions/3269445/… –  andersoj Oct 14 '10 at 2:09
1  
Right, if you are willing to make your tasks Callable instead of Runnable, the solution referenced by @andersoj is much simpler. –  Tim Bender Oct 14 '10 at 2:12
    
Y, and note Runnable->Callable is trivial with the convenience method Executors.callable() –  andersoj Oct 14 '10 at 2:16
1  
@littleFluffyKitty, In the original answer, the memory for the LinkedList will exist in the heap space so long as the variable is in scope and continues to point at that data structure in the heap. If you define the variable locally as part of some method, it will exist for the duration of the method. I don't really know how you intend to use this snippet. Of course, I am thinking like a Java developer, and Android is NOT Java. –  Tim Bender Oct 18 '10 at 23:21

Maybe you are looking for a CompletionService to manage batches of task, see also this answer.

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(This is an attempt to reproduce Thilo's earlier, deleted answer with my own adjustments.)

I think you may need to clarify your question since there is an implicit infinite condition... at some point you have to decide to shut down your executor, and at that point it won't accept any more tasks. Your question seems to imply that you want to wait until you know that no further tasks will be submitted, which you can only know in your own application code.

The following answer will allow you to smoothly transition to a new TPE (for whatever reason), completing all the currently-submitted tasks, and not rejecting new tasks to the new TPE. It might answer your question. @Thilo's might also.

Assuming you have defined somewhere a visible TPE in use as such:

AtomicReference<ThreadPoolExecutor> publiclyAvailableTPE = ...;

You can then write the TPE swap routine as such. It could also be written using a synchronized method, but I think this is simpler:

void rotateTPE()
{
   ThreadPoolExecutor newTPE = createNewTPE();
   // atomic swap with publicly-visible TPE
   ThreadPoolExecutor oldTPE = publiclyAvailableTPE.getAndSet(newTPE);
   oldTPE.shutdown();

   // and if you want this method to block awaiting completion of old tasks in  
   // the previously visible TPE
   oldTPE.awaitTermination();
} 

Alternatively, if you really no kidding want to kill the thread pool, then your submitter side will need to cope with rejected tasks at some point, and you could use null for the new TPE:

void killTPE()
{
   ThreadPoolExecutor oldTPE = publiclyAvailableTPE.getAndSet(null);
   oldTPE.shutdown();

   // and if you want this method to block awaiting completion of old tasks in  
   // the previously visible TPE
   oldTPE.awaitTermination();
} 

Which could cause upstream problems, the caller would need to know what to do with a null.

You could also swap out with a dummy TPE that simply rejected every new execution, but that's equivalent to what happens if you call shutdown() on the TPE.

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Thanks for taking the time to write this out, I'll take a look at everything and see which route works best. –  cottonBallPaws Oct 14 '10 at 21:25

My Scenario is a web crawler to fetch some information from a web site then processing them. A ThreadPoolExecutor is used to speed up the process because many pages can be loaded in the time. So new tasks will be created in the existing task because the crawler will follow hyperlinks in each page. The problem is the same: the main thread do not know when all the tasks are completed and it can start to process the result. I use a simple way to determine this. It is not very elegant but works in my case:

while (executor.getTaskCount()!=executor.getCompletedTaskCount()){
    System.err.println("count="+executor.getTaskCount()+","+executor.getCompletedTaskCount());
    Thread.sleep(5000);
}
executor.shutdown();
executor.awaitTermination(60, TimeUnit.SECONDS);
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