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The Java Tutorials say: "it is not possible for two invocations of synchronized methods on the same object to interleave."

What does this mean for a static method? Since a static method has no associated object, will the synchronized keyword lock on the class, instead of the object?

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5 Answers 5

up vote 74 down vote accepted

will the synchronized keyword lock on the class, instead of the object?

Yes. :)

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Hey thanks again. I owe you two now. –  jbu Jan 13 '09 at 0:56
Please answer Elaborate so that everyone can understand. –  Madhu Sep 2 '09 at 4:49
@Madhu. It means that if you have 2 or more synchronized methods on the same class, both cannot execute at the same time, even when there are multiple instances of that class. The locking is essentially the same as locking on the Object.class for each synchronized method. –  Steven Oct 16 '12 at 23:36
This answer is wrong -this is the lock acquired on instance methods-, please fix it Oscar. –  vemv Oct 31 '12 at 15:10
@vemv Well yes, to understand the answer you have to read the question first. –  OscarRyz Oct 31 '12 at 17:27

Just to add a little detail to Oscar's (pleasingly succinct!) answer, the relevant section on the Java Language Specification is, 'synchronized Methods':

A synchronized method acquires a monitor (§17.1) before it executes. For a class (static) method, the monitor associated with the Class object for the method's class is used. For an instance method, the monitor associated with this (the object for which the method was invoked) is used.

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Useful, I was looking for that quote +1 –  OscarRyz Jan 13 '09 at 3:06

One point you have to be careful about (several programmers generally fall in that trap) is that there is no link between synchronized static methods and sync'ed non static methods, ie:

class A {
    static synchronized f() {...}
    synchronized g() {...}


A a = new A();

Thread 1:


Thread 2:


f() and g() are not synchronized with each other and thus can execute totally concurrently.

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but what if g() is mutating some static variable which f() is reading. How do we make that thread safe? Do we explicitly acquire a lock on the class then? –  baskin Dec 9 '11 at 3:36
Yes, your non-static method must explicitly synchronize on the class itself (ie, synchronized (MyClass.class) {...}. –  jfpoilpret Dec 9 '11 at 5:57

Unless you implement g() as follows:

g() {
    synchronized(getClass()) {

I find this pattern useful also when I want to implement mutual exclusion between different instances of the object (which is needed when accesing an external resource, for example).

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Note that there may actually be a chance of some very subtle and nasty bugs here. Remember getClass() returns the runtime type; if you subclass the class, then the parent class and the child class will synchronize on different locks. synchronized(MyClass.class) is the way to go if you need to ensure all instances use the same lock. –  Cowan Nov 28 '10 at 6:24

If yura have this:

public class C1 {
    public static String STRIN1;

You need to convert it to:

public class C1 {
    private static String STRIN1;
    private static Object SYNC_STRING1 = new Object();

    public static String getSTRING1(){
        synchronized (SYNC_STRING1) {
               return STRIN1;

    public static String setSTRING1(String newSTRIN1){
        synchronized (SYNC_STRING1) {
               STRIN1 = newSTIRNG1;
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I think the volatile keyword is meant to be used in cases like this –  Marek Sebera Aug 12 '12 at 10:24
yes you should user volatile private static volatile Object SYNC_STRING1 = new Object(); –  abhi May 16 '13 at 16:06

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