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private volatile static Singleton uniqueInstance

In a singleton when using double lock method for synchronization why is the single instance declared as volatile ? Can I achieve the same functionality without declaring it as volatile ?

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3 Answers 3

up vote 11 down vote accepted

Without volatile the code doesn't work correctly with multiple threads.

From Wikipedia's Double-checked locking:

As of J2SE 5.0, this problem has been fixed. The volatile keyword now ensures that multiple threads handle the singleton instance correctly. This new idiom is described in The "Double-Checked Locking is Broken" Declaration:

// Works with acquire/release semantics for volatile
// Broken under Java 1.4 and earlier semantics for volatile
class Foo {
    private volatile Helper helper = null;
    public Helper getHelper() {
        Helper result = helper;
        if (result == null) {
            synchronized(this) {
                result = helper;
                if (result == null) {
                    helper = result = new Helper();
        return result;

    // other functions and members...

In general you should avoid double-check locking if possible, as it is difficult to get right and if you get it wrong it can be difficult to find the error. Try this simpler approach instead:

If the helper object is static (one per class loader), an alternative is the initialization on demand holder idiom

// Correct lazy initialization in Java 
class Foo {
    private static class HelperHolder {
       public static Helper helper = new Helper();

    public static Helper getHelper() {
        return HelperHolder.helper;
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up for wikipedia –  Rajavel D Jun 30 at 11:22

The volatile prevents memory writes from being re-ordered, making it impossible for other threads to read uninitialized fields of your singleton through the singleton's pointer.

Consider this situation: thread A discovers that uniqueInstance == null, locks, confirms that it's still null, and calls singleton's constructor. The constructor makes a write into member XYZ inside Singleton, and returns. Thread A now writes the reference to the newly created singleton into uniqueInstance, and gets ready to release its lock.

Just as thread A gets ready to release its lock, thread B comes along, and discovers that uniqueInstance is not null. Thread B accesses uniqueInstance.XYZ thinking that it has been initialized, but because the CPU has reordered writes, the data that thread A has written into XYZ has not been made visible to thread B. Therefore, thread B sees an incorrect value inside XYZ, which is wrong.

When you mark uniqueInstance volatile, a memory barrier is inserted. All writes initiated prior to that of uniqueInstance will be completed before the uniqueInstance is modified, preventing the reordering situation described above.

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thanks for the answer –  gabhi Nov 6 '13 at 23:02
To be specific, the two reordered writes are: 1) A assigns memory address to uniqueInstance, and 2) XYZ gets something meaningful. –  lcn Jun 15 at 2:17

To avoid using double locking, or volatile I use the follow

enum Singleton {

Creating the instance is simple, lazy loaded and thread safe.

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