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Please look at this code(taken from Effective Java book)

import java.util.concurrent.TimeUnit;

public class Main {
private static boolean stopReq;
public static void main(String[] args) throws InterruptedException {

    Thread bgw = new Thread(new Runnable()
        public void run(){

        int i = 0;
        while(!stopReq){ i++;}
    stopReq = true;



Why does the bgw thread get stuck in an infinite loop? Is it caching it's own copy of stopReq when it reached the loop? So it never sees the updated value from the other thread?

I understand the solution to this problem would be synchronizing or a volatile variable, but I am curious to why this current implementation doesn't work.


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Since there's a race condition I think it behaves as expected, namely "unexpectedly" :-) –  Edwin Dalorzo Jan 15 '14 at 11:15
It is not in infinite loop. –  Rahul Jan 15 '14 at 11:28
The main lesson for OP: you have changed Effective Java's code in a way which you thought didn't matter, yet it turned out to matter a lot. That's how it is when messing with the borderline cases of the Java Memory Model. –  Marko Topolnik Jan 15 '14 at 11:46

5 Answers 5

up vote 7 down vote accepted

Your explanation is right.

The compiler detects than stopReq is never modified in the loop and since it is not volatile, optimizes the while(!stopReq) instruction to while(true).

Even though the value changes later, the thread does not even read it any more.

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+1 Here is an article which demonstrates this. vanillajava.blogspot.co.uk/2012/01/… In particular you can see the thread will stop if you change the boolean before the method is JITed or you add a synchronzied block. –  Peter Lawrey Jan 15 '14 at 11:27
I tested it without the System.out.println and it gets stuck in the loop forever. With the println it gets out after 1 second. –  William Jan 15 '14 at 11:35
@Rahul Because println is a synchronized method. –  Marko Topolnik Jan 15 '14 at 11:40
@Voo But my point is, JMM's rules apply everywhere and without those precise rules, the JIT compiler would never have the entitlement to hoist a static variable load out of the loop. So it's actually the reverse: precisely due to JMM's rules is this optimization granted. I know you and I understand that; I am writing this for the greater public reading the discussion. –  Marko Topolnik Jan 15 '14 at 12:44
@Voo I know exactly what you mean---I do it too, often. I replace the official meanings with those that make sense for me day-to-day. In this particular case, you have substituted "JMM" for "happens-before" because happens-before is really the essence of the JMM. –  Marko Topolnik Jan 15 '14 at 12:56

You should read more about Java Memory Model to better understand all the implications.

Shortly, the stopReq variable not being volatile or included in a synchronized block gives the VM freedom to use an optimized local storage (eg. registers etc) which is not guaranteed to propagate changes immediately across the threads.

When you declare the variable as volatile the VM will make sure that after each variable write a "memory write barrier" is inserted which will force all the local changes to be spilled to the real memory location thus making it visible to all the other threads (the same barrier is placed at the end of a synchronized block eg.)

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Make stopReq to true, then it will be stopped. You are again setting the stopReq to false, due to that while loop condition is true always and it is in infinite loop.

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I tested this out, and no, the variables are the same. The example also compiles for me.

The error is here:

Your while loop goes on, as long as !stopReq is true, that means stopReq is false. And after 1 sec you set stopReq to false - this changes nothing. If you set it to true, !stopReq will become false and your loop will end.

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Correct that trivial mistake, but remove the println, and you'll have the infinite loop back. –  Marko Topolnik Jan 15 '14 at 11:39

To be very specific about your query, to take full advantage of the performance of modern multiprocessor hardware, in absence of synchronization, JVMs allowed to permit compiler to re-order operations and cache values in registers and in processor specific caches. As main thread writes to stopReq without synchronization so because of reordering and caching the BTW thread might never see the written value and loop forever.

When you use synchronization or volatile they guarantee VISIBILITY and force compiler not to cache and flush changes to main memory.

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