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So I have the following code:

import java.lang.Thread;
import java.lang.Integer;

class MyThread extends Thread {
private int id;

MyThread(int i){
    id = i;
    }

public void run() {
    while(true){
        try{                    
            synchronized(Global.lock){
                Global.lock.wait();
                if(Global.n == 0) {System.out.println(id); Global.lock.notify(); break;}
                --Global.n;
                System.out.println("I am thread " + id + "\tn is now " + Global.n);
                Global.lock.notify();
                }
            }
        catch(Exception e){break;}
        }
    }
}

class Global{
public static int n;
public static Object lock = new Object();
}

public class Sync2{
public static final void main(String[] sArgs){
    int threadNum = Integer.parseInt(sArgs[0]);
    Global.n = Integer.parseInt(sArgs[1]);

    MyThread[] threads = new MyThread[threadNum];

    for(int i = 0; i < threadNum; ++i){
        threads[i] = new MyThread(i);
        threads[i].start();     
        }
    synchronized(Global.lock){Global.lock.notify();}
}
}

two parameters are entered: a number n and the number of threads to be created. Every thread decreases n by one and then passes control. All threads should stop when n is 0. It seems to work fine so far, but the only problem is that in most of the cases all threads except one terminate. And one is hanging on. Any idea why?

And yes, this is part of a homework, and that is what I've done so far (I was no provided with the code). I'am also explicitly restricted to use a synchronized block and only wait() and .notify() methods by the task.

EDIT: modified the synchronized block a bit:

synchronized(Global.lock){
  Global.lock.notify();
  if (Global.n == 0) {break;}
  if (Global.next != id) {Global.lock.wait();  continue;}
  --Global.n;
  System.out.println("I am thread " + id + "\tn is now " + Global.n);
  Global.next = ++Global.next % Global.threadNum;
  }

now threads act strictly in the order they are created. Its pretty unclear from the task wording, but might be the right thing.

share|improve this question
    
Your lock object should be final. –  Paul Dec 14 '11 at 5:51
    
Do you have to use wait and notify or are they optional? If all you're trying to do is decrement n you could do it with just synchronized. –  Paul Dec 14 '11 at 6:47
    
Yes, I see it. Seems to me like I actually have to... Still can't figure out a way to make it work for a single worker. Actually there is nobody to notify... –  Vasily Korolev Dec 14 '11 at 6:59

2 Answers 2

up vote 0 down vote accepted

You have a race condition. Think about what happens with a single worker thread. Global.n is set to 1 and then the thread starts. It immediately goes into a wait state. Suppose, though, that notify() had already been called on the main thread. Since the worker thread hasn't yet entered a wait state, it isn't notified. Then, when it finally does call wait(), there are no other threads around to call notify(), it stays in the wait state forever. You need to fix up your logic to avoid this race condition.

Also, do you really want a single worker thread to decrement Global.n more than once? That can easily happen with your while (true) ... loop.

EDIT You also have another logic problem with a single thread. Suppose it enters the wait state and then the notify() in main is called. It wakes the worker thread which decrements Global.n to 0, calls notify(), and then goes back to waiting. The problem is that notify() didn't wake any other thread because there were no other threads to wake. So the one worker thread will wait forever. I haven't analyzed it fully, but something like this might also happen with more than one worker thread.

share|improve this answer
    
Hmmm...I think I liked your original answer better. Who is going to wake the last thread? If he puts a timeout in Global.lock.wait(); his program will end. For example, replacing his original wait with Global.lock.wait(5000); will make his program end 5 seconds after the count becomes 0. –  Paul Dec 14 '11 at 5:50
    
Yes, if I have a single worker, it should decrement n n times. And I'm not allowed to use wait() with parameters. –  Vasily Korolev Dec 14 '11 at 5:52
    
@Paul - When the penultimate worker thread notices that Global.n==0, it will call notify() just before it exits. That ought to wake the last thread, which will also then exit. –  Ted Hopp Dec 14 '11 at 6:12

You should never have a naked wait() call, as semaphores in java are not cached. wait() should always be nested in some sort of

while (condition that you are waiting on)
    obj.wait();
share|improve this answer
    
Where does OP have a naked wait() call? –  Ted Hopp Dec 14 '11 at 6:24
    
ok, well i don't think an if is fully clothed. because you could be woken up, only to find that the condition isn't set. but since you're not in a while, you plow forward mistakenly. –  MeBigFatGuy Dec 15 '11 at 1:37
    
also: synchronized(Global.lock){ Global.lock.wait(); is totally naked –  MeBigFatGuy Dec 15 '11 at 1:38
    
That's all inside a while loop in OP's code. –  Ted Hopp Dec 15 '11 at 2:39
    
how does that possibly matter. the while loop is outside the synchronized block. –  MeBigFatGuy Dec 16 '11 at 4:04

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