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If I recall correctly there is a Sin in Java threading known as double-checked locking.

It's been a while but its something like checking a value, then if it is true, going into a synchronized block and checking it again. Since it's been such a while I can't remember why it exact flaw. I remember it being related to the Java spec allowing implementations to reorder the execution of various statements in someway (and because most didn't it normally worked). (It's advantage was minimizing having to go into synchronized blocks which is slow.)

I was looking over: http://docs.oracle.com/javase/6/docs/technotes/guides/concurrency/threadPrimitiveDeprecation.html and came across:

A simple trick can be used to remove the synchronization that we've added to each iteration of the "run loop." The synchronized block that was added is replaced by a slightly more complex piece of code that enters a synchronized block only if the thread has actually been suspended:

        if (threadSuspended) {
            synchronized(this) {
                while (threadSuspended)
                    wait();
            }
        }

Which feels a bit like double-checked locking, but I feel imp prob wrong since it's from official documentation.

Also the fact that it is a while loop seems a bit off. So is that code evil? Or not?

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migrated from codereview.stackexchange.com Dec 20 '11 at 16:25

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Should this be in Stackoverflow instead? –  Oxinabox Dec 20 '11 at 13:52
    
I've now flagged it to be moved –  Oxinabox Dec 20 '11 at 14:01
    
See cs.umd.edu/~pugh/java/memoryModel/DoubleCheckedLocking.html for an introduction. –  Landei Dec 20 '11 at 21:39
    
Check an answer I wrote to a question about singleton initialization, in which I talk about the DCL: stackoverflow.com/questions/7121213/singleton-instantiation/… –  Bruno Reis Dec 22 '11 at 4:50

4 Answers 4

up vote 1 down vote accepted

No, this is not the double-checked locking pattern as no writes to shared variables are being done while the lock is held.

The main issue you might encounter is that changes of threadSuspended from false to true may not be noticed in quite as timely a fashion because of cache coherency or register caching issues. The register caching issues are the biggest problem (cache coherency eventually solves itself, though it may take a few microseconds), and depend greatly on the surrounding code and what the optimizer does.

If this is isolated code inside a function, it's not likely you'll have a register caching issue. If threadSuspended has been declared volatile you will also not have an issue as the optimizer will not register cache volatile things.

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Using the volatile keyword on the threadSuspended variable will give you the effect you need. The issue is that when multiple threads are accessing the same variable, there can be thread-local caching of the variable. The volatile keyword ensures that this caching does not occur.

Here is a post explaining further.

EDIT:

Regarding the while, since the purpose of the code is to wait until the thread is no longer suspended, I see no reason not to use a while.

Also, as mentioned in the comment, the line below the snippet you pasted mentions volatile, and the full code snippet a few lines beneath that declares threadSuspended as a volatile boolean.

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yes, and the link in the OP specifically mentions this as well in the "full" code example right after the snippet included, –  jtahlborn Dec 20 '11 at 16:44

Two references about double-checked locking:

  • Java Concurrency in Practice, 16.2.4. Double-checked Locking
  • Effective Java, Second Edition, Item 71: Use lazy initialization judiciously
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Regarding the while -- wait() is allowed to return spuriously -- that is, without anybody having called notify() on the object. This means that when wait() returns, it's probably, but not definitely, because someone set threadSuspended and then called notify(). The way you guard against this is by re-checking threadSuspended, which is what the while is there for.

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