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I am looking for a way to execute batches of tasks in java. The idea is to have an ExecutorService based on a thread pool that will allow me to spread a set of Callable among different threads from a main thread. This class should provide a waitForCompletion method that will put the main thread to sleep until all tasks are executed. Then the main thread should be awaken, and it will perform some operations and resubmit a set of tasks.

This process will be repeated numerous times, so I would like to use ExecutorService.shutdown as this would require to create multiple instances of ExecutorService.

Currently I have implemented it in the following way using a AtomicInteger, and a Lock/Condition:

public class BatchThreadPoolExecutor extends ThreadPoolExecutor {
  private final AtomicInteger mActiveCount;
  private final Lock          mLock;
  private final Condition     mCondition;

  public <C extends Callable<V>, V> Map<C, Future<V>> submitBatch(Collection<C> batch){
    for(C task : batch){

  protected void afterExecute(Runnable r, Throwable t) {
    super.afterExecute(r, t);
    if (mActiveCount.decrementAndGet() == 0) {

  public void awaitBatchCompletion() throws InterruptedException {
    // Lock and wait until there is no active task
    while (mActiveCount.get() > 0) {
      try {
      } catch (InterruptedException e) {
        throw e;

Please not that I will not necessarily submit all the tasks from the batch at once, therefore CountDownLatch does not seem to be an option.

Is this a valid way to do it? Is there a more efficient/elegant way to implement that?


share|improve this question
Can you explain a bit more why the default executors can't handle your use case? Why do you need to extend ThreadPoolExecutor? – Gray Apr 24 '12 at 12:49
Well the API do not specify a method to wait on the completion of all submitted tasks unless you call shutdown first. In my case I do not want to shutdown the executor as I will need it almost immediately after, and that would lead to useless thread creations. Does it answer your question? – Victor P. Apr 24 '12 at 13:00
See this question: stackoverflow.com/questions/3269445/… – andersoj Apr 24 '12 at 13:35
up vote 5 down vote accepted

I think the ExecutorService itself will be able to perform your requirements.

Call invokeAll([...]) and iterate over all of your Tasks. All Tasks are finished, if you can iterate through all Futures.

share|improve this answer
This was my first implementation, the problem is that the main thread might be interupted while submitting its tasks (meaning that something will break the execution of the loop), therefore I cannot rely on invokeAll. I could wait on the Future.get externally but I thought it was better in terms of design to have the executor responsible for that. I may be wrong though ;) – Victor P. Apr 24 '12 at 13:08
I think this solution is the cleanest. main thread might equally well be interrupted while sleeping - are you actually planning to interrupt it, or has this just arisen because InterruptedException is checked? – artbristol Apr 24 '12 at 13:30
I did not see that invokeAll internally waits for all tasks to complete, this may be the cleanest solution, I will refactor the code related to the interruption of the main thread (I am not talking about a call to Thread.interrupt, just a conditional beak in the loop that is creating tasks) – Victor P. Apr 24 '12 at 13:43

As the other answers point out, there doesn't seem to be any part of your use case that requires a custom ExecutorService.

It seems to me that all you need to do is submit a batch, wait for them all to finish while ignoring interrupts on the main thread, then submit another batch perhaps based on the results of the first batch. I believe this is just a matter of:

    ExecutorService service = ...;

    Collection<Future> futures = new HashSet<Future>();
    for (Callable callable : tasks) {
        Future future = service.submit(callable);

    for(Future future : futures) {
        try {
        } catch (InterruptedException e) {
            // Figure out if the interruption means we should stop.

    // Use the results of futures to figure out a new batch of tasks.
    // Repeat the process with the same ExecutorService.
share|improve this answer
I'll follow your advice and fall back to what was my previous implementation. @ckuetbach you have the credit for this solution – Victor P. Apr 24 '12 at 13:37

I agree with @ckuetbach that the default Java Executors should provide you with all of the functionality you need to execute a "batch" of jobs.

If I were you I would just submit a bunch of jobs, wait for them to finish with the ExecutorService.awaitTermination() and then just start up a new ExecutorService. Doing this to save on "thread creations" is premature optimization unless you are doing this 100s of times a second or something.

If you really are stuck on using the same ExecutorService for each of the batches then you can allocate a ThreadPoolExecutor yourself, and be in a loop looking at ThreadPoolExecutor.getActiveCount(). Something like:

BlockingQueue jobQueue = new LinkedBlockingQueue<Runnable>();
ThreadPoolExecutor executor = new ThreadPoolExecutor(NUM_THREADS, NUM_THREADS,
    0L, TimeUnit.MILLISECONDS, jobQueue);
// submit your batch of jobs ...
// need to wait a bit for the jobs to start
while (executor.getActiveCount() > 0 && jobQueue.size() > 0) {
    // to slow the spin
// continue on to submit the next batch
share|improve this answer
Creating a new Executor each time would lead to approximately 240 new threads in 30s, I just feel bad about it :) Regarding the executor.getActiveCount() API says its only an approximate count, and the Thread.sleep is not a good option for me as I want to be as fast as possible: I am implementing a combinatorial optimization algorithm and the two performance metrics are solution quality and speed, each ms counts! – Victor P. Apr 24 '12 at 13:17
Don't be. 240 new threads in 30 seconds is NOTHING. Try a for loop sometime that creates and destroys threads. See how many you can do in 30 seconds. – Gray Apr 24 '12 at 13:20
Given your speed requirements, I'd drop the custom code and just create a new executor each time. You won't regret it. – Gray Apr 24 '12 at 13:21
Ok I'll try your suggestion, I though it was bad practice to create threads and terminate them almost instantly. Thanks – Victor P. Apr 24 '12 at 13:24

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