Is there example implementation of Peterson algorithm for mutual exclusion in Java?
No one here has provided a correct/safe implementation of this algorithm in Java. I'm not sure how John W's solution is supposed to work since it's got pieces missing (namely the declarations of the ThreadLocals and an explanation of what is supposed to be in his array—primitive
Chapter 17 of the Java Language Specification explains the Java memory model. Of particular interest is Section 17.4.5, which describes the happens-before order. It's pretty easy to think about within a single thread. Consider the snippet:
Everyone will agree that at the end of this snippet, both
Because they all appear in the same thread, the JLS says that these reads and writes are guaranteed to exhibit this ordering: each action n above (because the actions are in a single thread) has a happens-before relationship with all actions m, m > n.
But what about different threads? For normal field accesses, there are no happens-before relationships established between threads. This means a Thread A could increment a shared variable and Thread B might read that variable but not see the new value. In the program's execution in the JVM, the propagation of Thread A's write may have been reordered to happen after Thread B's read.
In fact, Thread A could write to a variable
How do we fix this? For normal field accesses, the
synchronizes-with is a stronger condition than happens-before, and since happens-before is transitive, if Thread A wants Thread B to see its writes to
In Gabriel's solution, we see this pattern: a write occurs to
Unfortunately, the while loop's conditional is backwards: to guarantee a thread does not see stale data for
With this fix in mind, most of the rest of the solution is ok: in the critical section, we don't care about staleness of data because, well, we're in the critical section! The only other flaw comes at the end: the Runnable sets
So how do we fix it? Just add another write to
Since we reordered the while loop, the other thread will be guaranteed to see the new false value of
Needless to say, without a metric ton of comments, this method is brittle and someone could come along and change something and subtly break the correctness. Just declaring the array
If you want your code to be clear and concise, keep it the way it is and change
Unless you have some specific need for Peterson's agorithm (which would be strange when working in a high level language like Java), I suggest you take a look at the synchronization facilities built in to the language.
For example, you may find this book chapter on "Race Conditions and Mutual Exclusion" in Java useful: http://java.sun.com/developer/Books/performance2/chap3.pdf
I could not find one on the web myself, so I decided to try writing it:
Feel free to comment, it will be appreciated:)
You should really check out the book The Art of Multiprocessor Programming. He in great detail goes over different lock implementations (both spin, and blocking). He also goes over different other types of concurrent algorithms (skip list for instance). Here is a snippet from his book on the Peterson Lock algorithm
While not the paterson algo, the AtomicBoolean and Atomic* classes use the approach of lockless, busy loops to update shared data. They may suit your requirements.