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I know that it is not possible to restart a used Java Thread object, but I don't find an explanation why this is not allowed; even if it is guaranteed that the thread has finished (see example code below).

I don't see why start() (or at least a restart()) method should not be able to somehow reset the internal states - whatever they are - of a Thread object to the same values they have when the Thread object is freshly created.

Example code:

class ThreadExample {

  public static void main(String[] args){

    Thread myThread = new Thread(){
      public void run() {
        for(int i=0; i<3; i++) {
          try{ sleep(100); }catch(InterruptedException ie){}
          System.out.print(i+", ");
        }
        System.out.println("done.");
      }
    };

    myThread.start();

    try{ Thread.sleep(500); }catch(InterruptedException ie){}
    System.out.println("Now myThread.run() should be done.");

    myThread.start(); // <-- causes java.lang.IllegalThreadStateException

  } // main

} // class
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2  
my multi-threading skills aren't too advanced, but from the little I know there is no (real) guarantee that your thread will be done in 500ms. It could end up having low priority and waiting, or even worse in a lock in some more advanced case. That being said, I also think it's an interesting question why a thread with state, TERMINATED can't be restarted. –  posdef Oct 27 '10 at 14:20
    
@posdef: The example code is just to demonstrate the problem. One could use a more elaborate mechanism that waits till myThread.run() has finished for sure (or accept that in rare cases an exception is thrown). –  Curd Oct 27 '10 at 14:31

8 Answers 8

up vote 9 down vote accepted

I know that it is not possible to restart a used Java Thread object, but I don't find an explanation why this is not allowed; even if it is guaranteed that the thread has finished (see example code below).

My guestimation is that Threads might be directly tied (for efficiency or other constrains) to actual native resources that might be re-startable in some operating systems, but not in others. If the designers of the Java language had allowed Threads to be re-started, they might limit the number of operating systems on which the JVM can run.

Come to think of it, I cannot think of a OS that allows a thread or process to be restarted once it is finished or terminated. When a process completes, it dies. You want another one, you restart it. You never resurrect it.

Beyond the issues of efficiency and limitations imposed by the underlying OS, there is the issue of analysis and reasoning. You can reason about concurrency when things are either immutable or have a discrete, finite life-time. Just like state machines, they have to have a terminal state. Is it started, waiting, finished? Things like that cannot be easily reasoned about if you allow Threads to resurrect.

You also have to consider the implications of resurrecting a thread. Recreate its stack, its state, is is safe to resurrect? Can you resurrect a thread that ended abnormally? Etc.

Too hairy, too complex. All that for insignificant gains. Better to keep Threads as non-resurrectable resources.

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1  
+1 The point about native resources and the stack issues sounds quite reasonable. –  Curd Oct 27 '10 at 14:43

I'd pose the question the other way round - why should a Thread object be restartable?

It's arguably much easier to reason about (and probably implement) a Thread that simply executes its given task exactly once and is then permanently finished. To restart threads would require a more complex view on what state a program was in at a given time.

So unless you can come up with a specific reason why restarting a given Thread is a better option than just creating a new one with the same Runnable, I'd posit that the design decision is for the better.

(This is broadly similar to an argument about mutable vs final variables - I find the final "variables" much easier to reason about and would much rather create multiple new constant variables rather than reuse existing ones.)

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One reason for the desire of restart is the cost of creating new (and garbage collecting old) Thread objects. –  Curd Oct 27 '10 at 14:36
    
Then just use a thread pool where each thread can be reused across multiple Runnables. –  Steve Kuo Oct 27 '10 at 15:03
    
as Steve says, use a thread pool mechanism. I love the ease of use of the ExecutorService implementations that can be obtained through the static methods of the Executors class. Use runnables as your restartable tasks. –  Tom Neyland Oct 27 '10 at 15:53
2  
@Curd - have you profiled your application and found that the cost of object allocation and thread GC makes up a non-negligible runtime cost? Unless you're doing something insane, it almost certainly won't. And in this case, just send Runnables to a thread pool (such as ThreadPoolExecutor). –  Andrzej Doyle Oct 27 '10 at 16:51

Because they didn't design it that way. From a clarity standpoint, that makes sense to me. A Thread represents a thread of execution, not a task. When that thread of execution has completed, it has done its work and it just muddies things were it to start at the top again.

A Runnable on the other hand represents a task, and can be submitted to many Threads as many times as you like.

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Why don't you want to create a new Thread? If you're concerned about the overhead of creating your MyThread object, make it a Runnable and run it with a new Thread(myThread).start();

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1  
That still incurs on the same thread creation overhead once the runnable's run() method comes to an end (or ends abruptly.) The way to avoid such overhead is by creating thread pools or custom thread classes that wait till they get messaged with a Runnable (or some other command-like object) to run. Once it ends, the enclosing Thread goes to sleep until it gets/receives another one. Or a pool of consumer custom Threads consuming Runnable objects placed in a queue. –  luis.espinal Oct 27 '10 at 14:21
    
This still requires the creation of new (and garbage collection of old) Thread objects. –  Curd Oct 27 '10 at 14:39
    
@luis.espinal: Good point. Why don't you write this as an answer? –  sleske Oct 27 '10 at 15:33
    
@Curd: No, not the way luis.espinal describes it. The actual thread (i.e. the instance java.lang.Thread) never terminates, it justs waits when it's done, until it receives a new Runnable. Only the Runnables get created and GCed, and these can be as lightweight as you want/need. –  sleske Oct 27 '10 at 15:35
    
The thread creation overhead is unavoidable. –  Paul Tomblin Oct 27 '10 at 16:28

Java Threads follow a lifecycle based on the State Diagram below. Once the thread is in a final state, it is over. That is simply the design.
alt text

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That's clear, but what are the reasons it was designed that way? –  Curd Oct 27 '10 at 14:25
    
@Curd - see my response. –  luis.espinal Oct 27 '10 at 14:29
    
Nice diagram :-). Still, it's true that this does not answer the question... –  sleske Oct 27 '10 at 15:32

You can kind of get around this, either by using a java.util.concurrent.ThreadPoolExecutor, or manually by having a thread that calls Runnable.run() on each Runnable that it is given, not actually exiting when it is finished.

It's not exactly what you were asking about, but if you are worried about thread construction time then it can help solve that problem. Here's some example code for the manual method:

public class ReusableThread extends Thread {
    private Queue<Runnable> runnables = new LinkedList<Runnable>();
    private boolean running;

    public void run() {
        running = true;
        while (running) {
            Runnable r;
            try {
                synchronized (runnables) {
                    while (runnables.isEmpty()) runnables.wait();
                    r = runnables.poll();
                }
            }
            catch (InterruptedException ie) {
                // Ignore it
            }

            if (r != null) {
                r.run();
            }
        }
    }

    public void stopProcessing() {
        running = false;
        synchronized (runnables) {
            runnables.notify();
        }
    }

    public void addTask(Runnable r) {
        synchronized (runnables) {
            runnables.add(r);
            runnables.notify();
        }
    }
}

Obviously, this is just an example. It would need to have better error-handling code, and perhaps more tuning available.

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If you are concerned with the overhead of creating a new Thread object then you can use executors.

import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
public class Testes {
    public static void main(String[] args) {
        Executor executor = Executors.newSingleThreadExecutor();
        executor.execute(new Testes.A());
        executor.execute(new Testes.A());
        executor.execute(new Testes.A());
    }   
    public static class A implements Runnable{      
        public void run(){          
            System.out.println(Thread.currentThread().getId());
        }
    }
}

Running this you will see that the same thread is used for all Runnable objects.

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i've been searching the same solution which you seem to be looking for, and i resolved it in this way. if you occur mousePressed Event you can terminate it also reuse it, but it need to be initialized, as you can see below.

class MouseHandler extends MouseAdapter{
    public void mousePressed(MouseEvent e) {            
        if(th.isAlive()){
            th.interrupt();
            th = new Thread();
        }
        else{
            th.start();
        }
    }

}
share|improve this answer
    
This is actually creating a new thread not resetting the old thread object. –  Sebastian Lange May 24 at 10:31

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