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I have a requirement to lazy-load resources in a concurrent environment. The code to load the resources should be executed only once.

Both Double-checked locking (using JRE 5+ and the volatile keyword) and Initialization on demand holder idiom seems to fit the job well.

Just by looking at the code, Initialization on demand holder idiom seems cleaner and more efficient (but hey, I'm guessing here). Still, I will have to take care and document the pattern at every one of my Singletons. At least to me, It would be hard to understand why code was written like this on the spot...

My question here is: Which approach s is better? And why? If your answer is none. How would you tackle this requirement in a Java SE environment?

Alternatives

Could I use CDI for this without imposing it's use over my entire project? Any articles out there?

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5 Answers 5

up vote 7 down vote accepted

To add another, perhaps cleaner, option. I suggest the enum variation:

Java Enum Singleton

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Nice. But I'm not sure I grasped how it works. Let's say Elvis.getAge() needs some pretty intensive operations which I want both to delay as much as possible and to execute only once. Where would I put my loading code? In the Enum constructor? –  Anthony Accioly May 31 '11 at 14:58
    
Sure, that works. –  djg May 31 '11 at 15:12
    
@djg Sounds good enough for me. But is there a way to delay the computation even further. For example, say that I want to load several different resources independently. Using this pattern I would have to write different enums. Is there a way to achieve this with only one enum? Let's say Elvis with INSTANCE1.getAge() and INSTANCE2.getAge(). Could I have both of them load independently in a Thread-safe way? –  Anthony Accioly May 31 '11 at 16:19
    
Right. I was thinking separate enums/singletons. If you have multiple "INSTANCE"s then your constructor gets called once for each. It was my understanding that that was undesirable. –  djg May 31 '11 at 16:37
2  
If you are handling the lazy loading (and synchronization) of the values in the method call you are circumventing the benefit of the enum singleton. I'm not sure of all of your requirements but I would suggest an interface that each of you separate singleton enum classes would implement. Or just one singleton that comprises all of the resources (presuming you can handle the "all at once" performance at load time). –  djg May 31 '11 at 18:37

Initialisation-on-demand holder only works for a singleton, you can't have per-instance lazily loaded elements. Double-checked locking imposes a cognitive burden on everyone who has to look at the class, as it is easy to get wrong in subtle ways. We used to have all sorts of trouble with this until we encapsulated the pattern into utility class in our concurrency library

We have the following options:

Supplier<ExpensiveThing> t1 = new LazyReference<ExpensiveThing>() {
  protected ExpensiveThing create() {
    … // expensive initialisation
  }
};

Supplier<ExpensiveThing> t2 = Lazy.supplier(new Supplier<ExpensiveThing>() {
  public ExpensiveThing get() {
    … // expensive initialisation
  }
});

Both have identical semantics as far as the usage is concerned. The second form makes any references used by the inner supplier available to GC after initialisation. The second form also has support for timeouts with TTL/TTI strategies.

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sometimes called the Virtual Proxy pattern... The implementation nicely illustrates a solution to the "thundering herd" problem where multiple callers request the same resource but you only want to acquire the resource once. –  Alex Miller Jun 1 '11 at 15:36
    
thanks Alex, we use it a lot, works well. –  Jed Wesley-Smith Jun 2 '11 at 23:07

As far as readability I would go with the initialization on demand holder. The double checked locking, I feel, is a dated and an ugly implementation.

Technically speaking, by choosing double checked locking you would always incur a volatile read on the field where as you can do normal reads with the initialization on demand holder idiom.

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I suspect that the initialization on demand holder is marginally faster that double-checked locking (using a volatile). The reason is that the former has no synchronization overhead once the instance has been created, but the latter involves reading a volatile which (I think) entails a full memory read.

If performance is not a significant concern, then the synchronized getInstance() approach is the simplest.

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So, as far as speed goes: initialization on demand holder > Double-checked locking > synchronized method right? That's what I think too. Maybe it is time for some evil micro-benchmarking. –  Anthony Accioly May 31 '11 at 16:07
    
@Anthony, thats correct. basically the demand holder achieves what you want the DCL to do without a volatile load. –  John Vint May 31 '11 at 16:32
    
@Anthony - micro-benchmarking is not evil. It is just difficult to get results that are meaningful, and applicable to your real use-case. –  Stephen C Jun 1 '11 at 0:42

Initialization-on-demand holder is always best practice for implementing singleton pattern. It exploits the following features of the JVM very well.

  1. Static nested classes are loaded only when called by name.
  2. The class loading mechanism is by default concurrency protected. So when a thread initializes a class, the other threads wait for its completion.

Also, you don't have to use the synchronize keyword, it makes your program 100 times slower.

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