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I don't know if this question is redundant or not but I could find the answer after looking for 2 hours...

I'm trying to make a program that uses multiple threads and a shared instance of a class. When a certain method on this instance is being called, let's call it "reconnect", other method calls should wait until "reconnect" is finished executing. How do I achieve this?

Is it just:

synchronized (this) { //////// }

or:

public ReentrantLock lock = new ReentrantLock();

public void reconnect() {

    lock.lock();

    ////

    lock.unlock();

}

Sorry if this was already asked. Thanks for reading.

Addition 1:

This was mentioned in the comments, when a method, other than "reconnect" is being executed, and "reconnect" is called, "reconnect" should wait until every other method is done executing.

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Its called different things in different languages, but you want to lock the instance of the class. This essentially allows one thread to say "its mine" until it lets it go. There are a lot of things that you should read up on with regards to threads if you aren't used to using them (race conditions for example and dead lock) docs.oracle.com/javase/tutorial/essential/concurrency/… –  Marshall Tigerus Apr 21 '14 at 20:20
    
I found that example hard to understand which is why I ignored it and looked further. –  Martijn R Apr 21 '14 at 20:27
    
In a greatly generalized sense, you can lock and unlock the way you have mentioned and make something thread safe. This is taking a lot of complex things and making them super simple, however. –  Marshall Tigerus Apr 21 '14 at 20:28
    
The synchronized block is a lock, yes, but it may not be correct for your situation. You can guarantee correctness by having a synchronized block around every method in your class, but this means methods other than reconnect() cannot execute in parallel. You need to clarify your situation here: if you call reconnect() while another method is executing, do you want reconnect() to wait until all other methods are done? –  univerio Apr 21 '14 at 20:29
2  
Exactly. In that case, you can use ReadWriteLock. Acquire the write lock in your reconnect() method and acquire the read lock in all other methods. This will guarantee no other method can execute while reconnect() is executing, while all other methods can still execute in parallel. –  univerio Apr 21 '14 at 20:33

2 Answers 2

Depends on the complexity of your program. The first is adequate for very basic tasks. The latter(Lock objects) is part of the high level concurrency objects suitable for more advanced tasks. The biggest advantage of Lock objects over implicit locks is their ability to back out of an attempt to acquire a lock.

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So if I synchronize this, other method calls will hold until the synchronisation is stopped? –  Martijn R Apr 21 '14 at 20:28
    
It is a very basic program btw. I have a connection model which is updated by reconnect and used by all the other methods. –  Martijn R Apr 21 '14 at 20:29
    
@MartijnRiemers In both cases only one thread can use the method, in the first case if one thread has a lock on the method subsequent threads calling the same method will get "locked" till the first thread is done with method. In the second case though a thread can attempt to get a lock on the method and if it sees that another thread is already holding it, it can back out(and do other tasks) and try again later –  tutak Apr 21 '14 at 20:35
    
@MartijnRiemers, Just to be clear, Locking in Java is cooperative: Synchronizing on an object does NOT prevent other threads from changing the state of the object. All it does is prevent other threads from synchronizing on the same object at the same time. If you want to prevent other threads from modifying the object, then every method that can change the object must be "synchronized". –  james large Apr 22 '14 at 13:42

Only the first option (or the equvivalent synchronized method modifier) was available until Java version 5.0. The second option is available in 5.0 and later versions.

The two are equivalent, if used correctly (your second example should be extended with a try-finally block)

The drawback of the first method is that you have only one condition variable at your disposal, otherwise it is more convenient (and less error-prone) to use.

You have to use the second form if you want more than one condition variable.

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