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I was trying examples from JCIP and Below program should not work but even if I execute it say 20 times it always work which means ready and number are becoming visible even if it should in this case

public class NoVisibility {
private static boolean ready;
private static int number;

private static class ReaderThread implements Runnable {
    public void run() {
        while (!ready)

public static void main(String[] args) {
    //Number of Processor is 4 so 4+1 threads
    new Thread(new ReaderThread()).start();
    new Thread(new ReaderThread()).start();
    new Thread(new ReaderThread()).start();
    new Thread(new ReaderThread()).start();
    new Thread(new ReaderThread()).start();

    number = 42;
    ready = true;

On my machine it always prints

4 -- Number of Processors

According to Listing 3.1 of JCIP It should sometimes print 0 or should never terminate it also suggest that there is no gaurantee that ready and number written by main thread will be visible to reader thread

Update I added 1000ms sleep in main thread after strating all threads still same output.I know program is broken And I expect it behave that way

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Why do you think it should not work? – Andrew Marshall Sep 9 '12 at 17:19
private variables are visible to inner classes. There's no reason this shouldn't work. – Paul Tomblin Sep 9 '12 at 17:20
JCIP book Listing 3.1 suggests that it should print 0 or run forever. – Amit Deshpande Sep 9 '12 at 17:23
Well, you're using multithreading in unsafe manner. It may work, it may not. It may work for you and not for me, etc. – zch Sep 9 '12 at 17:26
Give us URL where did you read that? – Roman C Sep 9 '12 at 17:35

This program is broken since ready and number should be declared as volatile.
Due to the fact that ready and number are primitive variables, operations on them are atomic but it is not guaranteed that they will be visible by other threads.
It seems that the scheduler runs the threads after main and that is why they see the number and ready being initialized. But that is just one scheduling.
If you add e.g. a sleep in main so as to affect the scheduler you will see different results.
So the book is correct, there is no guarantee whether the Runnables running in separate threads will ever see the variable's being updated since the variables are not declared as volatile.

The problem here is that the due to the lack of volatile the compiler is free to read the field ready just once, and reuse the cached value in each execution of the loop.
The program is inherently flawed. And with threading issues the problem usually appears when you deploy your application to the field.... From JSL:

For example, in the following (broken) code fragment, assume that this.done is a non-volatile boolean field:

while (!this.done)

The compiler is free to read the field this.done just once, and reuse the cached value in each execution of the loop. This would mean that the loop would never terminate, even if an other thread changed the value of this.done.

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I added 1000ms sleep in main thread after starting all the threads still result is same as soon as sleep ends all threads terminate – Amit Deshpande Sep 9 '12 at 17:33
Might see different results, depending on how long the sleep is. The point that the JCIP is trying to make is that the above multithreaded code should not be depended upon for the other threads to receive the updated value in any thread safe way, assuming that they run before the main thread is able to set number and ready fields. As Cratylus is pointing out, the set operations are atomic, but the other Threads having their memory cache invalidated is not guaranteed. I would note that it should be terminated rather dependably on any JVM, but it's unsafe due to above description. – pickypg Sep 9 '12 at 17:35
Even once you have added a sleep, there is no guarantee that it will work or won't work. It will depend on many factors, including JVM options, machine architecture, compiler optimizations etc. – assylias Sep 9 '12 at 20:15

What is important to keep in mind is that a broken concurrent program might always work with the right combination of JVM's options, machine architecture etc. That does not make it a good program, as it will probably fail in a different context: the fact that no concurrency issue shows up does not mean there aren't any.

In other words, you can't prove that a concurrent program is correct with testing.

Back to your specific example, I see the same behaviour as what you describe. But, if I remove the Thread.yield() instruction in the while loop, 3 out of 8 threads stop and print 42, but the rest don't and the program never ends.

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