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sorry if this is extremely obvious or has been answered elsewhere. I haven't been able to find anything. I have the following code:

public class SimpleThread extends Thread {
    public static Integer sharedVal = 0;
    public SimpleThread() {

    }
    @Override
    public void run() {
       while(true) {           
           iterator();
       }
    }

    public void theSleeper() {
        System.out.println("Thread: " + this.getId() + " is going to sleep!");
        try {
            this.sleep(5000);
        } catch(Exception e) {

        }
    }

    public void iterator() {
        synchronized(sharedVal)  {
            System.out.println("Iterating sharedVal in thread: " + this.getId());
            sharedVal++;
            System.out.println(sharedVal);
            theSleeper();
            System.out.println("Thread : " + getId() + " is done sleeping, trying to iterate again..."); 
        }
    }
}

I create two instances of this SimpleThread class, and execute the run methods. I would expect to see something like: Thread 9 incrementing... Thread 9 sleeping... (after 5 seconds) Thread 10 incrementing.... Thread 10 sleeping... . I expect this because I am locking the iterator method so that only one thread at a time should be able to enter it. What happens instead is that both threads increment, and then both wait 5 seconds. This repeats forever. What am I missing here such that I would get the expected behavior? Thanks very much!

EDIT: I made a new public static variable: public static Object theLock = new Object(). Now, in the iterator method, I do synchronized(theLock). The output is now more as I expected, because the lock never changes. However, now only thread 9 ever enters the method. It seems that thread 10 is starving, and never gets a turn. This seems strange. It's not just a few times, its always just thread 9 iterating and sleeping. I would think that it would be 9, 10, 9, 10. Or perhaps a random distribution like 9, 10, 10, 10, 9, 10, 9, 9, 10, etc.

EDIT2: I see what's happening now. Thread 9 has the lock. Thread 10 tries to enter the function, but is immedietly told to wait. After the function completes, it may still be Thread 9s turn. Thread 9 then reaqquires the lock, and the cycle continues. The timing window for thread 10 to get a turn is very small, and if it did get a turn it would likely starve 9. That being said, putting yield() after the synchronized block in iterator() does not seem to make it more fair. I read the comments on the method, and the scheduler can in fact ignore yield().

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3  
autoboxing is the devil –  cyber-monk Nov 4 '13 at 19:30
    
Hahaha, it seems it can be problematic! :) –  user2045279 Nov 4 '13 at 19:31

4 Answers 4

up vote 3 down vote accepted

Your problem resides here:

sharedVal++;

That line, due to autoboxing translates into this:

sharedVal = Integer.valueOf(sharedVal.intValue() + 1);

which creates a new Integer object every time it runs, so every time the synchronized block isreached, it locks a different value.

Use a dedicated object to synchronize:

private final static Object LOCK = new Object();

and then change your synchronization to use synchronized (LOCK) {... instead.

(You could also use getClass() to lock, but I personally don't like to expose lock objects to the public world)

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Yes, thank you for pointing out my blunder. Please see my edit, thanks! –  user2045279 Nov 4 '13 at 19:09
    
When thread 9 comes back from the sleep, it releases the lock and then re-acquires it, leaving thread 10 with no possibilities. The only chance it has is the scheduler stopping thread 9 betweet locks, which is unlikely. Add a Thread.yield() between iterations, that will make things a little bit more fair. –  Darkhogg Nov 4 '13 at 19:16
    
Yes, I see that now and added this to my second edit. Thread.yield() doesn't seem to help much because the scheduler is probably ignoring it. That being said, I think I understand a lot more now. Thanks very much! –  user2045279 Nov 4 '13 at 19:26

When you are doing increment you create a new instance of integer and a new object for locking.

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^ - - - - this. –  MadConan Nov 4 '13 at 19:02
1  
@OP: Try it again using a something that is mutable, like a StringBuilder (NOT StringBuffer since StringBuffer is synchronized.) –  MadConan Nov 4 '13 at 19:03
    
I completely agree, and I feel dumb. I don't know why Integer is immutable, but that's another issue. Please see my edit. –  user2045279 Nov 4 '13 at 19:08
1  
Sleeping a Thread does not release the locks it holds –  anstarovoyt Nov 4 '13 at 19:15
1  
see stackoverflow.com/a/1036808/1057218 –  anstarovoyt Nov 4 '13 at 19:18

You are effectively changing the lock that threads are using on every iteration: ++ on Integer creates a new instance (Integer class is immutable)

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Yes, another mentioned that as well, thanks for pointing out this error. Please see my edit –  user2045279 Nov 4 '13 at 19:08

sharedVal member varible instance is changing when you perform sharedVal++. Instead you can use for synchronization the following statement:

synchronized(SympleThread.class)

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