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java.util.concurrent Api provides a class called as Lock, which would basically serializes the control in order to access the critical resource. It gives method such as park() and unpark().

We can do similar things if we can use synchronized keyword and using wait() and notify() notifyAll() methods.

I am wondering which one of these is better in practice and why?

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6 Answers 6

up vote 74 down vote accepted

If you're simply locking an object, I'd prefer to use synchronized

Example:

Lock.acquire();
doSomethingNifty(); // Throws a NPE!
Lock.release(); // Oh noes, we never release the lock!

You have to explicitly do try{} finally{} everywhere.

Whereas with synchronized, it's super clear and impossible to get wrong:

synchronized(myObject) {
    doSomethingNifty();
}

That said, Locks may be more useful for more complicated things where you can't acquire and release in such a clean manner. I would honestly prefer to avoid using bare Locks in the first place, and just go with a more sophisticated concurrency control such as a CyclicBarrier or a LinkedBlockingQueue, if they meet your needs.

I've never had a reason to use wait() or notify() but there may be some good ones.

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What's the difference between wait/notify vs park/unpark of LockSupport? docs.oracle.com/javase/7/docs/api/java/util/concurrent/locks/… –  Pacerier Mar 8 '12 at 17:50
    
At first the example made sense with locks but then I realized that if you use a try finally block that problem would be avoided with locks not being released –  William Reed Aug 26 at 13:45

I am wondering which one of these is better in practice and why?

I've found that Lock and Condition (and other new concurrent classes) are just more tools for the toolbox. I could do most everything I needed with my old claw hammer (the synchronized keyword), but it was awkward to use in some situations. Several of those awkward situations became much simpler once I added more tools to my toolbox: a rubber mallet, a ball-peen hammer, a prybar, and some nail punches. However, my old claw hammer still sees its share of use.

I don't think one is really "better" than the other, but rather each is a better fit for different problems. In a nutshell, the simple model and scope-oriented nature of synchronized helps protect me from bugs in my code, but those same advantages are sometimes hindrances in more complex scenarios. Its these more complex scenarios that the concurrent package was created to help address. But using this higher level constructs requires more explicit and careful management in the code.

===

I think the JavaDoc does a good job of describing the distinction between Lock and synchronized (the emphasis is mine):

Lock implementations provide more extensive locking operations than can be obtained using synchronized methods and statements. They allow more flexible structuring, may have quite different properties, and may support multiple associated Condition objects.

...

The use of synchronized methods or statements provides access to the implicit monitor lock associated with every object, but forces all lock acquisition and release to occur in a block-structured way: when multiple locks are acquired they must be released in the opposite order, and all locks must be released in the same lexical scope in which they were acquired.

While the scoping mechanism for synchronized methods and statements makes it much easier to program with monitor locks, and helps avoid many common programming errors involving locks, there are occasions where you need to work with locks in a more flexible way. For example, **some algorithms* for traversing concurrently accessed data structures require the use of "hand-over-hand" or "chain locking": you acquire the lock of node A, then node B, then release A and acquire C, then release B and acquire D and so on. Implementations of the Lock interface enable the use of such techniques by allowing a lock to be acquired and released in different scopes, and allowing multiple locks to be acquired and released in any order.

With this increased flexibility comes additional responsibility. The absence of block-structured locking removes the automatic release of locks that occurs with synchronized methods and statements. In most cases, the following idiom should be used:

...

When locking and unlocking occur in different scopes, care must be taken to ensure that all code that is executed while the lock is held is protected by try-finally or try-catch to ensure that the lock is released when necessary.

Lock implementations provide additional functionality over the use of synchronized methods and statements by providing a non-blocking attempt to acquire a lock (tryLock()), an attempt to acquire the lock that can be interrupted (lockInterruptibly(), and an attempt to acquire the lock that can timeout (tryLock(long, TimeUnit)).

...

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Brian Goetz's "Java Concurrency In Practice" book, section 13.3: "...Like the default ReentrantLock, intrinsic locking offers no deterministic fairness guarantees, but the statistical fairness guarantees of most locking implementations are good enough for almost all situations..."

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The main difference is fairness, in other words are requests handled FIFO or can there be barging? Method level synchronization ensures fair or FIFO allocation of the lock. Using

synchronized(foo) {
}

or

lock.acquire(); .....lock.release();

does not assure fairness.

If you have lots of contention for the lock you can easily encounter barging where newer requests get the lock and older requests get stuck. I've seen cases where 200 threads arrive in short order for a lock and the 2nd one to arrive got processed last. This is ok for some applications but for others its deadly.

See Brian Goetz's "Java Concurrency In Practice" book, section 13.3 for a full discussion of this topic.

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"Method level synchronization ensures fair or FIFO allocation of the lock." => Really? Are you saying that a synchronized method behaves differently w.r.t. fairness than wrapping the methods content into a synchronized{} block? I wouldn't think so, or did I understand that sentence wrong...? –  weiresr Nov 22 '12 at 13:57
    
Yes, although surprising and counter intuitive thats correct. Goetz's book is the best explanation. –  Brian Tarbox Nov 22 '12 at 17:30

There are 4 main factors into why you would want to use synchronized or j.u.c.Lock.

Note: Synchronized locking is what I mean when I say intrinsic locking.

  1. When Java 5 came out with ReentrantLocks, they proved to have quite a noticeble throughput difference then intrinsic locking. If youre looking for faster locking mechanism and are running 1.5 consider j.u.c.ReentrantLock. Java 6's intrinsic locking is now comparable.

  2. j.u.c.Lock has different mechanisms for locking. Lock interruptable - attempt to lock until the locking thread is interrupted; timed lock - attempt to lock for a certain amount of time and give up if you do not succeed; tryLock - attempt to lock, if some other thread is holding the lock give up. This all is included aside from the simple lock. Intrinsic locking only offers simple locking

  3. Style. If both 1 and 2 do not fall into categories of what you are concerned with most people, including myself, would find the intrinsic locking semenatics easier to read and less verbose then j.u.c.Lock locking.
  4. Multiple Conditions. An object you lock on can only be notified and waited for a single case. Lock's newCondition method allows for a single Lock to have mutliple reasons to await or signal. I have yet to actually need this functionality in practice, but is a nice feature for those who need it.
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You can achieve everything the utilities in java.util.concurrent do with the low-level primitives like synchronized, volatile, or wait.

However, concurrency is tricky, and most people get at least some parts of it wrong, making their code either incorrect or inefficient (or both).

The concurrent API provides a higher-level approach, which is easier (and as such safer) to use. In a nutshell, you should not need to use synchronized, volatile, wait, notify directly anymore. And the Lock class itself is on the lower-level side of this toolbox, you may not even need to use that directly either (you can use Queues and Semaphores and stuff most of the time).

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Is plain old wait/notify considered a lower-level primitive than java.util.concurrent.locks.LockSupport's park/unpark, or is it the other way round? –  Pacerier Mar 8 '12 at 17:53
    
@Pacerier: I consider both to be low-level (i.e. something that an application programmer would want to avoid using directly), but certainly the lower-level parts of java.util.concurrency (such as the locks package) are built on top of the native JVM primitives wait/notify (which are even lower-level). –  Thilo Mar 9 '12 at 1:21
1  
No I mean out of the 3: Thread.sleep/interrupt, Object.wait/notify, LockSupport.park/unpark, which is the most primitive? –  Pacerier Mar 9 '12 at 1:43
    
@Pacerier: Maybe open a new question for that. Whether any of them is implemented on top of the other, if they all share the same even lower-level JVM internal primitives, or if they are independent from eachother. –  Thilo Mar 9 '12 at 4:45
    
@Thilo I'm not sure how you support your statement that java.util.concurrent is easier [in general] than the language features (synchronized, etc...). When you use java.util.concurrent you have to make a habit of completing lock.lock(); try { ... } finally { lock.unlock() } before writing code whereas with a synchronized you are basically fine from the start. On this basis alone I would say synchronized is easier (given you want its behavior) than java.util.concurrent.locks.Lock. par 4 –  Iwan Aucamp Jun 4 at 14:50

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