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Is there such thing as a "non-blocking lock" in Java? By that, I mean is there a way to retain the properties of synchronization (atomic protection and memory visibility - the latter can come later, BUT the first is the most important thing I'm looking for right now) but also have multiple threads not have to wait for the monitor of the object?

What I'm looking for - just to be clear - is not CAS operations, but an implementation of, say, the synchronized keyword, or ReentrantLock that works like a Semaphore BUT with actual synchronization semantics that doesn't block threads to perform a certain action like invocations getters and setters.

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synchronized is meant to protect a critical section. If there is no critical section, don't use synchronized. –  Sotirios Delimanolis Apr 29 at 2:28
Your question embodies a contradiction in terms. If you want 'the properties of synchronization', blocking is one of them. Possibly you are looking for volatile? –  EJP Apr 29 at 2:38
@EJP re-read the question. I had the "but" bolded and capitalized for a reason :) –  xTrollxDudex Apr 29 at 2:53
It's still a contradiction in terms. How is it going to 'protect code blocks' without blocking? –  EJP Apr 29 at 2:57
@EJP Simple: I don't know. Read the question again. You're asking almost the same thing I'm asking. –  xTrollxDudex Apr 29 at 3:09

3 Answers 3

You can look at lock-striping techniques (used in concurrenthashmap )to see if it meets your needs. Their basic idea is that you break your structure into segments and if a thread is modifying one segment , you can still read from the other segments.

You can also try the CopyOnWriteArrayList where if you are modfying an array, you create a copy and use it for any read operations while the array is being modified. The problem here is you are not guaranteed to get the latest update to the data

Both the above approaches are for building concurrent systems instead of synchronized systems.

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Maybe I didn't clarify myself - I'm looking for an implementation of non-blocking locking that protect code blocks ie get/set invocations - not to avoid using the synchronized keyword. –  xTrollxDudex Apr 29 at 2:55
@xTrollxDudex Concurrent systems are scalable versions of synchronized keywords. Both my approaches are still for protecting code blocks. However if you are looking for a single construct that will let you protect code while you can also call getter/setter on the same data, there is no construct –  Biswajit_86 Apr 29 at 2:59
Now, we have a real answer: Not possible. Correct me if I am wrong. –  xTrollxDudex Apr 29 at 3:09

I can't think of anything built in.

But you could use tryLock to determine if you can acquire a Lock and perform a synchronized action or, if you cannot acquire the Lock, perform a non-synchronized action.

Lock l = ...

if(l.tryLock()) {
    try {
        // do your synchronized action
    } finally {
} else {
    // welp, we couldn't get the lock.
    // do some local work.
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@EJP Where do file locks work into this? –  Jeffrey Apr 29 at 2:39
Oops wrong lock ;-) Just had a major debate about that in another thread so I'm a little trigger-happy. –  EJP Apr 29 at 2:41
What happens when we cannot acquire the lock? Our code is not protected and we need to resort to some other action. I mentioned "semantics of synchronized," in saying that I will be guaranteed safety in execution, unless the code deadlocks, bad design creates inaccurate results, ect... –  xTrollxDudex Apr 29 at 3:01
@xTrollxDudex Ah, I misunderstood the question. As your question now stands, I do not believe it is possible without CAS. –  Jeffrey Apr 29 at 14:55
Thank you for your input. 2 answers now that say not possible. –  xTrollxDudex Apr 29 at 23:35
up vote 0 down vote accepted

As with the responses in all of the answers and OP, I conclude that this isn't possible with current synchronization techniques. I will conclude by saying that we cannot perform atomic compound operations using a get/set style method call without using blocking synchronizers.

If contention is the problem, I suggest reading this article. A quick google search should turn up some other links if you are digging deeper.

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