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What is the preferred way to work with Singleton class in multithreaded environment?

Suppose if I have 3 thread, and all they try to access getInstance() method of singleton class at the same time -

  1. What would happen if no synchronization is maintained?
  2. Is it good practice to use synchronized getInstance() method or use synchronized block inside getInstance().

Please advise if there is any other way out.

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Just so you know, the answer you accepted is a broken anti-pattern - it seems threadsafe, but actually isn't. It's all explained here. –  Bohemian Jun 17 '12 at 15:30
    
possible duplicate of Efficient way to implement singleton pattern in Java –  bestsss Jun 17 '12 at 15:36

7 Answers 7

up vote 2 down vote accepted

The task is non trivial in theory, given that you want to make it truly thread safe.

A very nice paper on the matter is found @ IBM

Just getting the singleton does not need any sync, since it's just a read. So, just syncrhonize the setting of the Sync would do. Unless two treads try to create the singleton at start up at the same time, then you need to make sure check if the instance is set twice (one outside and one inside the sync) to avoid resetting the instance in a worst case scenario.

Then you might need to take into account how JIT compilers handle out-of-order writes. This code will be somewhat near the solution, although won't be 100% thread safe anyway:

public static Singleton getInstance()
{
  if (instance == null)
  {
    synchronized(Singleton.class) {      
      Singleton inst = instance;         
      if (inst == null){
         synchronized(Singleton.class) {  
           instance = new Singleton();               
         }
      }
    }
  }
  return instance;
}

So, you should perhaps resort to something less lazy:

class Singleton
{
   private static Singleton instance = new Singleton();

   private Singleton()
   {

   }

   public static Singleton getInstance()
   {
     return instance;
   }
 }

Or, a bit more bloated, but a more flexible way is to avoid using static singletons and use an injection framework such as Spring to manage instanciation of "singleton-ish" objects (and you can configure lazy init).

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2  
Just so you know, this is a broken pattern. See this article‌​. –  Bohemian Jun 17 '12 at 15:29
1  
you need volatile for the instance field and the double locking inside is useless as the JVM is free to coarsen locks. Volatile reads are practically free on most of the hardware, so don't be afraid of volatile reads. Writes are significantly more expensive as they require to empty to CPU buffers. This way presented the answer is plain wrong. –  bestsss Jun 17 '12 at 17:25

If you're talking about threadsafe, lazy initialization of the singleton, here is a cool code pattern to use that accomplishes 100% threadsafe lazy initialization without any synchronization code:

public class MySingleton {

     private static class MyWrapper {
         static MySingleton INSTANCE = new MySingleton();
     }

     private MySingleton () {}

     public static MySingleton getInstance() {
         return MyWrapper.INSTANCE;
     }
}

This will instantiate the singleton only when getInstance() is called, and it's 100% threadsafe! It's a classic.

It works because the class loader has its own synchronization for handling static initialization of classes: You are guaranteed that all static initialization has completed before the class is used, and in this code the class is only used within the getInstance() method, so that's when the class loaded loads the inner class.

As an aside, I look forward to the day when a @Singleton annotation exists that handles such issues.

Edited:

A particular disbeliever has claimed that the wrapper class "does nothing". Here is proof that it does matter, albeit under special circumstances.

The basic difference is that with the wrapper class version, the singleton instance is created when the wrapper class is loaded, which when the first call the getInstance() is made, but with the non-wrapped version - ie a simple static initialization - the instance is created when the main class is loaded.

If you have only simple invocation of the getInstance() method, then there is almost no difference - the difference would be that all other sttic initialization would have completed before the instance is created when using the wrapped version, but this is easily dealt with by simply having the static instance variable listed last in the source.

However, if you are loading the class by name, the story is quite different. Invoking Class.forName(className) on a class cuasing static initialization to occur, so if the singleton class to be used is a property of your server, with the simple version the static instance will be created when Class.forName() is called, not when getInstance() is called. I admit this is a little contrived, as you need to use reflection to get the instance, but nevertheless here's some complete working code that demonstrates my contention (each of the following classes is a top-level class):

public abstract class BaseSingleton {
    private long createdAt = System.currentTimeMillis();

    public String toString() {
        return getClass().getSimpleName() + " was created " + (System.currentTimeMillis() - createdAt) + " ms ago";
    }
}

public class EagerSingleton extends BaseSingleton {

    private static final EagerSingleton INSTANCE = new EagerSingleton();

    public static EagerSingleton getInstance() {
        return INSTANCE;
    }
}

public class LazySingleton extends BaseSingleton {
    private static class Loader {
        static final LazySingleton INSTANCE = new LazySingleton();
    }

    public static LazySingleton getInstance() {
        return Loader.INSTANCE;
    }
}

And the main:

public static void main(String[] args) throws Exception {
    // Load the class - assume the name comes from a system property etc
    Class<? extends BaseSingleton> lazyClazz = (Class<? extends BaseSingleton>) Class.forName("com.mypackage.LazySingleton");
    Class<? extends BaseSingleton> eagerClazz = (Class<? extends BaseSingleton>) Class.forName("com.mypackage.EagerSingleton");

    Thread.sleep(1000); // Introduce some delay between loading class and calling getInstance()

    // Invoke the getInstace method on the class
    BaseSingleton lazySingleton = (BaseSingleton) lazyClazz.getMethod("getInstance").invoke(lazyClazz);
    BaseSingleton eagerSingleton = (BaseSingleton) eagerClazz.getMethod("getInstance").invoke(eagerClazz);

    System.out.println(lazySingleton);
    System.out.println(eagerSingleton);
}

Output:

LazySingleton was created 0 ms ago
EagerSingleton was created 1001 ms ago

As you can see, the non-wrapped, simple implementation is created when Class.forName() is called, which may be before the static initialization is ready to be executed.

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agreed, you said all –  Kowser Jun 17 '12 at 15:13
    
It's also wretched, wretched, wretched if you have to write unit tests for a class that uses one of these. –  Ben Brunk Jun 17 '12 at 15:14
    
@BenBrunk Why it is a problem? It should work just fine. What problems have you had? –  Bohemian Jun 17 '12 at 15:14
    
Another valid way cited in the other response that I consider the best is the use of Enum. Bohemian solution is concise and elegant, but the enum way offer as a + that it give you for free serialization compliance –  Andrea Parodi Jun 17 '12 at 15:17
    
Bohemian, if you are testing a class that uses one of these, there is no way to mock the singleton. I manage a lot of legacy code and there are techniques for dealing with singletons, but it is better to avoid the whole thing in new code or use an injection framework so that you can write good unit tests without compromises. –  Ben Brunk Jun 17 '12 at 15:22

You need synchronization inside getInstance only if you initialize your singleton lazily. If you could create an instance before the threads are started, you can drop synchronization in the getter, because the reference becomes immutable. Of course if the singleton object itself is mutable, you would need to synchronize its methods which access information that can be changed concurrently.

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This question really depends on how and when your instance is created. If your getInstance method lazily initializes:

if(instance == null){
  instance = new Instance();
}

return instance

Then you must synchronize or you could end up with multiple instances. This problem is usually treated in talks on Double Checked Locking.

Otherwise if you create a static instance up front

private static Instance INSTANCE = new Instance();

then no synchronization of the getInstance() method is necessary.

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Nobody uses Enums as suggested in Effective Java?

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I will give you an example why Effective Java and Mr. Bloch are wrong. Imagine your singleton is defined as interface and there are few possible impl. depending on configuration parameters, Now Imagine some class keeps a reference to the singleton in a member field and that class is serialized... upon deserialization you wake up w/ 2(!) different instances of the singleton. Thanks to the immense beauty of the free serialization. Singletons MUST NOT be serializable, ever. (and yes I had to dig into a heap dump b/c someone thought to create serializable singletons) –  bestsss Jun 17 '12 at 16:04

If you are sure that your java runtime is using the new JMM (Java memory model, probably newer than 5.0), double check lock is just fine, but add a volatile in front of instance. Otherwise, you'd better use static internal class as Bohemian said, or Enum in 'Effective Java' as Florian Salihovic said.

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The best way as described in effective java is:

public class Singelton {

    private static final Singelton singleObject = new Singelton();

    public Singelton getInstance(){
        return singleObject;
    }
}

No need of synchronization.

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