In Java I have the necessity of implementing a class that extends Thread within another similar class. Is that possible?

An example of what I am trying to do is the following (simplified) snippet:

// The first layer is a Thread
public class Consumer extends Thread {

    // Variables initialized correctly in the Creator
    private BufferManager BProducer = null;

    static class Mutex extends Object {}
    static private Mutex sharedMutex = null;

    public Consumer() {
        // Initialization of the thread
        sharedMutex = new Mutex();

        BProducer = new BProducer(sharedMutex);

    public void run() {

        int data = BProducer.getData();

        ///// .... other operations

    ////// ...... some code

    // Also the second layer is a Thread
    private class BufferManager extends Thread {

        Mutex sharedMutex;
        int data;

        public BufferManager(Mutex sM) {
            sharedMutex = sM;

        public int getData(Mutex sM) {
            int tempdata;
            synchronized(sharedMutex) {
                tempdata = data;
            return tempdata;

        public void run() {
            synchronized(sharedMutex) {
                data = getDataFromSource();
            ///// .... other operations on the data

The second Thread is implemented directly inside the First one. Moreover I'd like to know if implementing a Mutex like that will work. If not, there's any better (standard) way to do it?

Thank you in advance.

  • 8
    This is not Inception. – mre Jun 19 '12 at 19:17
  • 1
    All threads are started by other threads, you don't have a choice. Threads are for doing work as independently as possible. – Peter Lawrey Jun 19 '12 at 20:16
  • 1
    Except for the Big-Bang which creates the very first Thread. :-) – user949300 Jun 19 '12 at 23:17

The Thread is not run 'within', but rather side-by-side.

So yes, you can start up another Thread to run side-by-side with your other two Thread's. As a matter of fact, any Thread can start another Thread (so long as the OS allows it).

  • Thank you @nicholas.hauschild . So, the fact that is written within does not change the behavior of the Thread. Is the shared Mutex of according to you? Will it block the Consumer if the BufferManager locked it? – 2dvisio Jun 19 '12 at 19:21
  • Well, I am not sure the code you have provided will compile (new BProducer(sharedMutex)?) But I do think that your Mutex will allow your Producer and Consumer to lock properly. – nicholas.hauschild Jun 19 '12 at 19:26
  • See my answer for details, but I suggest that the declarations of the Mutex variables be final. – user949300 Jun 19 '12 at 19:27
  • Thank you nicholas.hauschild you replied to my question. – 2dvisio Jun 20 '12 at 8:35

Yes, this should work and the shared Mutex should do it's job. Out of paranoia, I'd make both the mutex declarations final to avoid any weird "escaping" issues. e.g.

final Mutex sharedMutex;

One suggestion: maybe this is my style, but for code like this I seldom extend Thread. Just implement Runnable instead. IMO it's a bit less confusing (YMMV here). Plus, when you start using advanced concurrency utilities like Executor, they deal with Runnables, not Threads.

  • 1
    +1 Excellent point about Runnables. It would be difficult for java.util.concurrent classes to allow Thread pooling without using Runnable's. – nicholas.hauschild Jun 19 '12 at 19:28
  • I've just seen your answer. By implementing Runnable you mean nesting the Runnables could work as well? – 2dvisio Jun 20 '12 at 8:19

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