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I came across a singleton class {lazy initialization}. The code is as below

// Singleton reference for this class
    private static volatile FileProperties INSTANCE = null; 

    public static FileProperties getInstance() {
            if (INSTANCE == null) {
                synchronized (FileProperties.class) {
                    if (INSTANCE == null) {
                        INSTANCE = new FileProperties();
            return INSTANCE;

My question is what is the benefit we are getting by making INSTANCE as volatile Since we already taking care of thread safety by synchronized. Is there any benefit of volatile in this scenario ?

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marked as duplicate by NilsH, Joachim Sauer, flavian, Jayan, Nate May 14 '13 at 12:06

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

This double checked locking has a potential error, in that the INSTANCE variable may be assigned a non-null value, before the constructor of FileProperties has fully executed. This doesn't matter if the constructor is empty, of course. – Jakob Jenkov May 14 '13 at 11:55
@JakobJenkov maybe worth clarifying: IF INSTANCE is not volatile. – assylias May 14 '13 at 11:56
Consider adding the private Contructor too for the code above. – Himanshu Bhardwaj May 14 '13 at 12:03

That is because double-checked locking without volatile is not thread-safe in Java.

The simplest way to make thread-safe lazy-init singleton is to create class holder as follows:

public class SomeClass {
    private static class SomeClassHolder {
        public static final SomeClass INSTANCE = new SomeClass();

    public static SomeClass getInstance() {
       return SomeClassHolder.INSTANCE;

    private SomeClass() {}


That part of code, because of JVM behavior will load SomeClassHolder and create an instance of SomeClass on first usage of getInstance() (and not when SomeClass is loaded by classloader).

You don't need to use any synchronization at all!! Because JVM is doing it for you.

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double checked locking has been threadsafe since the introduction of "happens before" implication of volatile (Java 1.5). Also, you're missing a private constructor – Bohemian May 14 '13 at 11:59
DCL is thread-safe in Java from Java 1.5 onwards, so long as you also use volatile. (I wouldn't use it myself, but it's thread-safe.) – Jon Skeet May 14 '13 at 12:00
@Bohemian: volatile was in Java from 1.0, I believe. Properly-implemented DCL has been thread-safe since the memory model changes in 1.5. – Jon Skeet May 14 '13 at 12:00
Thanks guys, but not without a keyword volatile and that is what the answer was about. – Michal Borek May 14 '13 at 12:01
@JonSkeet Yep, you're right. From 1.5 onwards, "happens before" was enforced. Cheers. – Bohemian May 14 '13 at 12:03

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