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I'm reading Head First design patterns and in the chapter on the singleton pattern it shows you how to implement double checked locking as follows:

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

I don't understand why volatile is being used. Doesn't using volatile defeat the purpose of using double checked locking i.e performance?

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I thought double checked locking was broken, did somebody fix it? –  David Heffernan Oct 21 '11 at 21:59
2  
For what it's worth, I found Head First design patterns to be a horrible book to learn from. As I look back on it, it makes perfect sense now that I've learned the patterns elsewhere, but to learn without knowing the patterns it really did not serve it's purpose. But it's very popular, so perhaps it was just me being dense. :-) –  corsiKa Oct 21 '11 at 21:59
    
@DavidHeffernan I have seen this example used as the one way in which the jvm can be trusted to do the DCL. –  Nathan Feger Oct 21 '11 at 22:04
    
FWIW, on an x86 system a volatile Read-Read is supposed to result in a no-op. In fact, the only operation that requires a fence for memory consistency is a volatile Write-Read. So if you really only write the value once, then there should be minimal impact. I've not seen anyone actually benchmark this and think the result would be interesting! –  Tim Bender Oct 21 '11 at 22:10
    
@DavidHeffernan for all practical reasons, it's still broken. It's better with volatile (as in, "won't screw your program"), but then you don't really win much. –  alf Oct 21 '11 at 22:36

7 Answers 7

up vote 17 down vote accepted

A good resource for understanding why volatile is needed comes from the JCIP book. Wikipedia has a decent explanation of that material as well.

The real problem is that Thread A may assign a memory space for instance before it is finished constructing instance. Thread B will see that assignment and try to use it. This results in Thread B failing because it is using a partially constructed version of instance.

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OK, it looks like a new implementation of volatile fixed the memory issues with DCL. What I still don't get is the performance implication of using volatile here. From what I have read volatile is pretty much as slow as synchronized so why not just synchronize the whole getInstance() method call? –  toc777 Oct 21 '11 at 22:39
3  
@toc777 volatile is slower than a usual filed. If you look for performance, go for a holder-class pattern. volatile is here merely to show that there's a way to make the broken pattern work. It's more of a coding challenge than a real problem. –  alf Oct 21 '11 at 22:43
    
@alf explains a lot, thanks. They didn't make that clear at all in the book. –  toc777 Oct 21 '11 at 22:51
    
@toc777, no, volatile is not just as slow as synchronized. There are musch simpler ways of implementing a Singleton: en.wikipedia.org/wiki/Singleton_pattern#Traditional_simple_way ... the truth though is that a Singleton is often used as global state and there is a growing movement that considers Singletons bad design. Using Dependency Injection, there would be no need for a Singleton because everything that needs it would require via a constructor or method parameter. Thus creating a large scheme of passing the reference that originates at the original creator, main. –  Tim Bender Oct 21 '11 at 23:05
2  
@Tim well, a singleton in XML is still a singleton; understanding the runtime state of an app doesn't become easier by using DI. smaller units of code may seem simpler, at the expense of forcefully structuring all units to conform to DI idiom (a good thing some might say). The accusation against singleton is not fair, it confuses API with impl - Foo.getInstance() is just an expression to get a Foo somehow, it's no different from @Inject Foo foo; either way the site that requests a Foo is agnostic of which Foo is returned and how, either way static and runtime dependencies are the same. –  irreputable Oct 22 '11 at 3:18

Look at:

http://www.cs.umd.edu/~pugh/java/memoryModel/DoubleCheckedLocking.html

And

http://en.wikipedia.org/wiki/Double-checked_locking

(specifically the second one, halfway down the page). It has an example that is a spitting image of what you posted and explains it.

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Well, there's no double-checked locking for performance. It is a broken pattern.

Leaving emotions aside, volatile is here because without it by the time second thread passes instance == null, first thread might not construct new Singleton() yet: no one promises that assignment to instance happens-before creation of the object for any thread but the one actually creating the object.

volatile in turn establishes happens-before relation between reads and writes, and fixes the broken pattern.

If you are looking for performance, use holder inner static class instead.

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A volatile read is not really expensive in itself.

You can design a test to call getInstance() in a tight loop, to observe the impact of a volatile read; however that test is not realistic; in such situation, programmer usually would call getInstance() once and cache the instance for the duration of use.

Another impl is by using a final field (see wikipedia). This requires an additional read, which may become more expensive than the volatile version. The final version may be faster in a tight loop, however that test is moot as previously argued.

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If you didn't have it, a second thread could get into the synchronized block after the first set it to null, and your local cache would still think it was null.

The first one is not for correctness (if it were you are correct that it would be self defeating) but rather for optimization.

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Declaring the variable as volatile guarantees that all accesses to it actually read its current value from memory.

Without volatile, the compiler may optimize away the memory accesses and keep its value in a register, so only the first use of the variable reads the actual memory location holding the variable. This is a problem if the variable is modified by another thread between the first and second access; the first thread has only a copy of the first (pre-modified) value, so the second if statement tests a stale copy of the variable's value.

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2  
-1 I'm losing my reputation points today :) The real reason is, there's memory cache, modeled as thread's local memory. The order in which local memory is flushed to the main one is undefined—that is, unless you have happens-before relations, e.g., by using volatile. Registers have nothing to do with incomplete objects and DCL problem. –  alf Oct 21 '11 at 22:14
1  
Your definition of volatile is too narrow - if that was all volatile did, double checked locking would've worked just fine in <Java5. volatile introduces a memory barrier making certain reordering illegal - without that even if we never read stale values from memory it'd still be unsafe. Edit: alf beat me to it, shouldn't have gotten myself some nice tea ;) –  Voo Oct 21 '11 at 22:18
1  
@TimBender if singleton contains mutable state, flushing it has nothing to do with a reference to the singleton itself (well, there's an indirect link, as accessing a volatlie reference to a singleton makes your thread re-read main memory—but it's a secondary effect, not the cause of a problem:)) –  alf Oct 21 '11 at 22:18
    
@alf, you're right. And actually making instance volatile doesn't help if the state inside is mutable since the flush only happens if the reference itself is changed (like making arrays/lists volatile does nothing for the contents). Chalk it up to a brain fart. –  Tim Bender Oct 21 '11 at 22:22

I am not sure whether volatile will fix all the issues... See http://www.ibm.com/developerworks/java/library/j-dcl/index.html

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Don't answer unless you are sure! volatile is enough in this case since Java 5 (in other words the link is obsolete). –  assylias Sep 20 '13 at 10:39

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