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I'm new to concurrent programing and have been working on code which has a queue of items to be processed, this is passed to some worker threads, the number specified by the user. At the moment I've just tried to do it with two worker threads plus the main.

private static class workerThread extends Thread {

        workerThread(){
            super();
        }


        public void run(){
             while (!workQueue.isEmpty()) {

            String x = workQueue.remove();
            //System.out.println("work queue size: " + workQueue.size());
            Vector<String> list2 = new Vector<String>((Vector) table.get(x));
            list2 = process(x, list2);
            //System.out.println(list2 + "list2");
            table.put(x, list2);

            //System.out.println(x + "key" + "value" + vvv);

        }

        }

That's the thread workerthread class, I've tried to call it just by creating two new threads:

workerThread wt = new workerThread();
    workerThread wt2 = new workerThread();
    wt.start();
    wt2.start();
    try {
        wt.join();
        wt2.join();
    } catch (InterruptedException ex) {
        Logger.getLogger(includeCrawler.class.getName()).log(Level.SEVERE, null, ex);
    }

I'm not sure if this is right, or will have any benfit due to waiting for the joins? Thanks for any help.

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3 Answers 3

up vote 2 down vote accepted

A much cleaner and scalable way to do this is to use a thread pool created by the Executors class.

By the way, the Vector class is obsolete and should not be used anymore - use ArrayList instead and dump whatever book or tutorial where you learned to use Vector - it's more than a decade out of date.

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I think Sarconi would benefit from understanding threads first –  MadcoreTom Nov 24 '11 at 23:53
    
I had a little look at a thread pool but it seemed a bit complicated for this exercise. Oh, I used a a Vector because it's synchronised. I didn't realise it was out of date. –  drunkmonkey Nov 24 '11 at 23:58
    
Coming from C++ development I can definitely say it's hard not to use Vector, just for mental consistency. Not saying it's better, just that might be why the poster used it. –  jli Nov 25 '11 at 0:06
    
@Sarconi: It's definitely not more complicated than manually managing a variable number threads. And the synchronization of Vector seems irrelevant when each instance is only used by one thread at a time. –  Michael Borgwardt Nov 25 '11 at 0:07

Just a few references, I think you want to use a BlockingQueue along with an ExecutorService and a Runnable or Callable.

final ExecutorService executor = Executors.newFixedThreadPool(Runtime.getRuntime().availableProcessors()); perhaps even an instance variable (private static final ExecutorService POOL = ...). For an I/O bound application you might want to use more threads than the available processors. Then again you don't want to use Vector. Use another List implementation (usually ArrayList is the one to use).

BTW: If you want to master concurrent programming you might also want to read about Akka and Actors/STM instead of using the usual shared mutability model.

Edit: I would definately recommend http://pragprog.com/book/vspcon/programming-concurrency-on-the-jvm and Effective Java from Josh(ua) Bloch.

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You definitely have to use Executors. This is an example just for reference. It works on a single thread, but I think it's a good start for you. It's easily adaptable to an arbitrary number of threads.

ExecutorService executor = Executors.newSingleThreadExecutor();
Future<MyObject> f =
    executor.submit(new Callable<MyObject>() {

      @Override
      public MyObject call() throws Exception {
        MyObject obj = new MyObject();
        // do stuff
        return obj;
      }

    });

MyObject myObject =
    new MyObject();

try {
  myObject = f.get(500, TimeUnit.MILLISECONDS);
}
catch (InterruptedException e) {
  // stuff
}
catch (ExecutionException e) {
  // stuff
}
catch (TimeoutException e) {
  // stuff
}
finally {
  executor.shutdown();
}

In this case I wanted to wait at most 500ms before timeout, but this is optional. Hope this could help.

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java Future.get == blocking == kills scalability –  Viktor Klang Nov 25 '11 at 15:30
    
@ViktorKlang : do you have some more information? I'd like to go deeper in that topic. Could you share some links? 10x –  loscuropresagio Nov 26 '11 at 10:33
    
blocking == pauses Threads == less Threads active == less work can be done == less scalability == less performance –  Viktor Klang Nov 26 '11 at 13:39
    
In your example you have 2 Threads, the caller and the Thread in the ExecutorService. When you do Future.get, it means that you have 1 Thread paused and 1 Thread doing work. If you have 100 callers you have 100 Thread paused and 1 Thread doing work. –  Viktor Klang Nov 26 '11 at 13:41

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