Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have two threads Thread1 and Thread2

//Within Thread1     
synchronized(obj1)  
{  
    obj1 = null;  
}  

//Within Thread2  
synchronized(obj1)  
{  
    do something  
}   

If jvm first executes thread1 and sets obj1 to null, then will thread2 see that change immediately or will it take time and jvm could still run the thread2 synchronized block since obj1 is not yet null?

share|improve this question
6  
@KorhanÖztürk He couldn't try himself, any type of concurrency related issue is non deterministic. These types of comments are extremely frustrating when the context isn't known. –  John Vint Apr 17 '12 at 17:13

5 Answers 5

up vote 21 down vote accepted

This will almost certainly break the synchronization abstraction -- I wouldn't be confident that thread2 will see the change immediately. You should never change the reference of the object you're synchronizing on, much less set it to null, which will cause a NullPointerException on any further attempts to synchronize on it.

share|improve this answer

First let me emphasise that modifying a variable that is used for synchronization is a terribly bad thing (tm). obj1 should be final and never be touched if it is used as a monitor.

That being said, back to your question:

If JVM first executes Thread1, it synchronizes on obj1, sets it to null and the thread exits. The second thread wants to synchronize on obj1, NullPointerException will be thrown. Because the modification of obj1 was made in synchronized block, it is guaranteed that Thread2 will see updated value (so: NullPointerException is guaranteed).

If Thread1 is interrupted after obtaining the lock on obj1 but before clearing the reference, Thread2 will lock on obj1 and wait until Thread1 finished. Then it will successfully enter the monitor because the object previously referenced by obj1 still exists.

share|improve this answer
    
since obj1 is being used in the synchronized condition and not in the synchronized block, is it not possible that both the threads try to synchronize at the same time and thread1 enters first and thread2 caches the value of obj1. when thread1 exits thread2 takes the value of obj1 from the cache and enters the synchronized block and sees the change within the synchronized block –  vjk Apr 17 '12 at 16:40
    
@Tomsaz I didn't get this statement of yours If Thread1 is interrupted after obtaining the lock on obj1 but before clearing the reference, Thread2 will lock on obj1 and wait until Thread1 finished Now first of all we interrupts thread only when they are blocked and anyway if they are not blocked the interrupting them has no effect, right? Basically I never see a case where thread1 will relinquish the lock without completeing the synchronized block or without wait() getting called on that lock itself. IOW, when and why would thread2 get the lock but would still wait for thread1 to finish. –  sactiw Nov 19 '13 at 18:56

synchronized synchronizes on the object, and not the reference. By setting obj1 (a reference) to null, thread2 can't synchronize on the object formerly pointed to by obj1, you'll get a NullPointerException instead.

share|improve this answer

The change is immediate. When Thread 1 "owns" the lock, it can change the value of obj1 at will. Thread 2 has to wait until Thread 1 releases the lock. It will definitely see obj1 == null

share|improve this answer

A quick fix is to make the object a simple array of 1 element and refer to the array for synchronization, e.g.,

Object[] obj1 = {null};

The element can be null without impacting the existence of the array. Granted, this still breaks the "rule" of not using the object itself in synchronization, but unless your code complicates matters elsewhere, this quick fix should work as expected.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.