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Can any one explain how below code would work fine in multithreaded environment especially when it is not using synchronized keyword?

public class Singleton {
private Singleton() {}

private static class SingletonHolder { 
    private static final Singleton INSTANCE = new Singleton();
}

public static Singleton getInstance() {
    return SingletonHolder.INSTANCE;
}
}
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@leppie, that seems a little ... harsh, especially for a relative newbie (though I don't deny you the right to do it, our votes are ours to do as we see fit - "I don't agree with what you say but I'll fight to the death your right to say it" and all that jazz). I see the votes as applying to the Q/As themselves, not as some sort of reward/punishment mechanism for the people posting them. Since you actually fixed the problem yourself by adding the tag, the question can't be considered deficient. IMOBIBWBJAMW (in my opinion but I've been wrong before - just ask my wife) :-) –  paxdiablo Jul 7 '11 at 22:11
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2 Answers

up vote 1 down vote accepted

Unsynchronised singletons can work just fine in threaded environments provided they're instantiated in one thread before other threads attempt to use them.

This may be as simple as calling getInstance() from the main thread before starting up any of those other threads.

However, that's irrelevant in this particular case. Since your instance variable is static final, this means it will be constructed when the class is initially loaded. By calling getInstance(), the classloaders brings in the class and, as part of that, constructs the INSTANCE member before allowing the call through to getInstance() to proceed.

The classloader itself has locking mechanisms to prevent concurrent execution by multiple threads and therefore all calls to getInstance() (including the first, immediately following the loading of the class) will return the already-initialised value.

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When multiple threads are trying to call Signleton.getInstance(), the above code provides unique instance without sharing that instance with each other. Now, I wanna know how exactly it happens when there is no synchronized keyword? Because even multiple threads can call SingletonHolder at exact same time, then how come there won't be any synchronization issue here? –  Mike Jul 7 '11 at 5:39
    
@Mike, they don't provide unique instances. There is one instance constructed very early on and each call to getInstance returns that one. –  paxdiablo Jul 7 '11 at 5:42
    
So, does it mean that when 2 threads will call getInstance at exact same time, it'll create different instances of them? –  Mike Jul 7 '11 at 5:50
    
No, you'll get two references to the same instance. Keep in mind this instance is created before main starts, and therefore before any threads are running. So, by the time any of your code is allowed to call getInstance, INSTANCE already exists. –  paxdiablo Jul 7 '11 at 5:53
    
Then, when should we use lazy instantiation using synchronized block or synchronized method as shown below? class Singleton { private static Singleton uniqueInstance; private Singleton() { ... } public static synchronized Singleton getInstance() { if (uniqueInstance == null) { uniqueInstance = new Singleton(); } return uniqueInstance; } –  Mike Jul 7 '11 at 5:56
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As for the up front initialization there is no need to use synchronized keywords because your initializing your instance statically which in almost every case is the preferred way to do it for two reasons. One you get to amortize the expensive initialization costs over the length of the application's run time and two(particularly important to you) is that it negates the need for synchronization allowing you to avoid hairy double checked locking scenarios.

If you choose to use lazy initialization then you need to ensure that the entirety of the initialization process is synchronized otherwise in multi-processor environments you run the risk of creating two singleton instances. Double Checked Locking And Why its a problem

After intialization your code will work fine in a multi threaded environment. The caveat is that you are sharing one instance among all your threads so you need to ensure that your INSTANCE is thread-safe. There are two ways to do this. First, you could ensure that all you members are private and any access to methods that alter INSTANCE's state use the synchronized or contained synchronized blocks where state modification occurs.

A second and probably better way to achieve thread safety is the initialize your instance up front and make it immutable once its initialized. Immutable objects may be shared freely among threads with no need for synchronization.Read this Java Practices article for more info on immutable objects and how to create them.

Java Practices: Immutable objects

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