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I'm trying to determine if the following java methods are thread safe:

public Object calledByMultipleThreads() {
    final Object[] item = new Object[1];

    if (!EventQueue.isDispatchThread()) {
        try {
            EventQueue.invokeAndWait(new Runnable() {
                @Override
                public void run() {
                    helperMethod(item)
                }
            });
        } catch (InterruptedException | InvocationTargetException ex) {
            // logging...
        }
    } else {
        helperMethod(item)

    }

    return item[0];
}

private void helperMethod(Object[] item) {
    item[0] = new Object();
}

I know that final Object[] item = new Object[1] is a workaround (since something like final Object item couldn't be modified inside the Runnable). And since invokeAndWait is used, item[0] is set before it's referenced by the return, but my fear is that a caller thread (that's not the EDT) might not see the update to the item array, and return null. Is this possible? Is there any way I can test its safety?

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1  
When in doubt, and while you need the array just as a container to pass an object back, you can always use an AtomicReference. I have developed the habit to use it as a generic container to pass back a result from anonymous callbacks (and similar ocasions), even if I don't need the atomic aspect. –  Durandal Feb 20 '13 at 18:41

2 Answers 2

up vote 1 down vote accepted

Due to the details of how invokeAndWait is implemented, all actions happening within the Runnable happen-before the return of control to the caller of invokeAndWait:

1233  synchronized (lock) {
1234 Toolkit.getEventQueue().postEvent(event);
1235 while (!event.isDispatched()) {
1236 lock.wait();
1237 }
1238 }

In other words, what you are doing is safe. On the other hand, there's no way to ensure such a guarantee by testing :)

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Arrays aren't automatically thread-safe any more than non-final instance fields are.

However, here there is not a thread safety issue. There will be a happens-before between the assignment within EventQueueinvokeAndWait and that method returning.

Note invokeAndWait is liable to cause (effective) deadlocks. It's much better to use EventQueue.invokeLater and a similar method to post back to your non-EDT thread.

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