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I am working on a java server which dispatches xmpp messages and workers execute the tasks from my clients.

private static ExecutorService threadpool = Executors.newCachedThreadPool();

DispatchWorker worker = new DispatchWorker(connection, packet);

Works fine, but i need a bit more than that.

  1. I don't want to execute the same request multiple times.
  2. My worker may start another thread with a backround task also only allowed to run once at a time. A Threadpool in the worker threads.

I can identify the requests by a string and i can also give the backround tasks an id to identify them.

My solution would be a synchronized hashmap where my running tasks are registered with their id. The reference of the map will be passed to the worker threads that they remove their entry when they finished.

Feels a bit clumsy this solution so i wanted to know if there are more elegant patterns/best practices.

best regards, m

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I will evaluate your solutions and flag the best answer afterwards. Thanks a lot for the nice input! Greetings! –  mkuff Jun 30 '11 at 16:50

5 Answers 5

up vote 0 down vote accepted

This is exactly what Quartz does (although it does a lot more, like scheduling jobs in the future).

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You can use a Singleton thread pool or pass the thread pool as an argument. (I would have the pool final)

You can use a HashSet to guard adding duplicate tasks.

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I believe using Map is okay for this. But instead of synchronized HashMap you can also use ConcurrenHashMap which allows you to specify concurrency levels, i.e. how many thread can work with map at the same time. And also it has atomic putIfAbsent operation.

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I would use queues and daemon worker threads that are always running and wait for something to arrive in the queue. This way it is guaranteed, that only one worker is working on a request. If you only want one thread to run, turn POOLSIZE down to 1, or use newSingleThreadExecutor.

I do not quite understand your second requirement: do you mean only 1 thread is allowed to run as background task? If so, you could create another SingleThreadExecutor and use that for the background task. Then it would not make too much sense to have POOLSIZE>1, unless the work done in the background thread is very short compared to that done in the worker itself.

private static interface Request {};
private final int POOLSIZE = 10;
private final int QUEUESIZE = 1000;
BlockingQueue<Request> e = new LinkedBlockingQueue<Request>(QUEUESIZE);

public void startWorkers() {
    ExecutorService threadPool = Executors.newFixedThreadPool(POOLSIZE);
    for(int i=0; i<POOLSIZE; i++) {
        threadPool.execute(new Runnable() {

            public void run() {
                try {
                    final Request request = e.take();
                } catch (InterruptedException e) {
                    // LOG
                    // Shutdown worker thread.
public void handleRequest(Request request) {
    if(!e.offer(request)) {
        //Cancel request, queue is full;

At startup-time, startworkers starts the workers (surprise!). handleRequest handles requests coming from a webservice, servlet or whatever.

Of course you need to adapt "Request" and "doStuffWithRequest" to your need, and add some additional logic for shutdown etc.

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I understood that problem is that several requests with same ID can arrive, and only one should be processed. –  Sergey Aslanov Jun 30 '11 at 8:20
I understand "I don't want to execute the same request multiple times." as to not process the same request multiple times and a queue is a perfect match here. I do not see any constraint on how many requests should be processed concurrently. BTW: Different oppinion is not worth a downvote. –  Ron Jun 30 '11 at 8:42
Voted up to compensate the downvote. Thanks a lot for the input! :) –  mkuff Jun 30 '11 at 16:48

We originally wrote our own utilities to handle this, but if you want the results memoised, then Guava's ComputingMap encapsulates the initialisation by one and only one thread (with other threads blocking and waiting for the result), and the memoisation.

It also supports various expiration strategies.

Usage is simple, you construct it with an initialisation function:

Map<Long, Foo> cache = new MapMaker().makeComputingMap(new Function<Long, Foo>() {
  public Foo apply(String key) {
    return … // init with expensive calculation

and then just call it:

Foo foo = cache.get("key");

The first thread to ask for "key" will be the one who performs the initialisation

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