For the following simplified class:

public class MutableInteger {
    private int value;
    public MutableInteger(int initial) {
        synchronized(this) { // is this necessary for memory visibility?
            this.value = initial;
    public synchronized int get() {
        return this.value;
    public synchronized void increment() {

I guess the general question is for mutable variables guarded by synchronization is it necessary to synchronize when setting the initial value in the constructor?

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    I don't see any way two threads could be in the same instance while it is being constructed so I would say no. If value was static perhaps, but then you would need to synchronize on the class object and not the this reference. – Pace Nov 13 '15 at 22:15
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    @biziclop I'm just trying to make sure all my code is correct with respect to thread-safety and to better understand the java memory model. – nikdeapen Nov 13 '15 at 22:15
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    @Pace I think the problem here is with visibility and the danger of stale values in other threads. Is synchronization in the constructor required to ensure visibility to other threads? – RAnders00 Nov 13 '15 at 22:20
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    @biziclop volatile would not work in most situations and would not work in this example because of the increment operation. – nikdeapen Nov 13 '15 at 22:21
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    @biziclop If that's true, then many (all?) the synchronized classes in the Java Runtime Library are flawed, e.g. StringBuffer and Vector. Neither has any synchronize in the constructor, but all other methods are synchronized, and they are supposed to be correctly synchronized. – Andreas Nov 13 '15 at 22:50

You're right, without the synchronized block in the constructor there is no visibility guarantee for non-final fields, as can be seen in this example.

However in practice I would rather use volatile fields or the Atomic* classes in situations like this.

Update: It is also important to mention here that in order for your program to be correctly synchronized (as defined by the JLS), you will need to publish the reference to your object in a safe manner. The cited example doesn't do that, hence why you may see the wrong value in non-final fields. But if you publish the object reference correctly (i.e. by assigning it to a final field of another object, or by creating it before calling Thread.start()), it is guaranteed that your object will be seen at least as up-to-date as the time of publishing, therefore making the synchronized block in the constructor unnecessary.

  • Thanks, this is what I was looking for. I would definitely use the atomic classes in this case but this only works in simple cases. – nikdeapen Nov 13 '15 at 22:29
  • If I didn't see that in the Java spec with my own eyes, I'd call you a liar. OK, time to go post about this on The Daily WTF. – Powerlord Nov 13 '15 at 22:30
  • @Powerlord I think most modern VMs do create a memory barrier at the end of a constructor, but not having it guaranteed does indeed look weird. However having one rule for a constructor and another for other writes would probably be even more confusing. – biziclop Nov 13 '15 at 22:33
  • That is not a valid example, because the accessing method (reader()) is not synchronized, while all access methods in this question are synchronized. If you look at the source for StringBuffer and Vector, both synchronized classes, neither has any synchronization in the constructor, but all methods are synchronized. Are you postulating that those classes don't work right? --- The synchronization done by get() and increment() establish happens-before boundaries, guaranteeing that all actions in the constructor happens-before these methods. – Andreas Nov 13 '15 at 22:53
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    @biziclop Unfortunately, I cannot find a rule to contradict you, but it means that e.g. java.util.Vector, whose constructor assigns the non-final field elementData, may cause NPE in add() because that assignment may not have happened yet. As such, the conclusion from your statement is that Vector is not the thread-safe class it claims to be. – Andreas Nov 14 '15 at 1:34

Though you've accepted an answer, let me add my two cents. Based on what I've read, synchronization or making the field volatile would not grantee the following visibility.

A thread T1 may see a not-null value for this, but unless you've made the field value final, there's a good chance of thread T1 seeing the default value of value.

The value could be a volatile or been accessed within synchronized blocks (monitor acquire and release), either way provided that the correct execution order was followed, there's happens-before edge from the write to the read of value. There's no argument on that. But it's not the happens before edge that we have to consider here, but the correct publication of the object itself(MutableInteger). Creating an object is twofold where the JVM first allocates a heap space and then start initializing fields. A thread may see a not-null reference of an object but an uninitialized field of that as long as the said field is not final (Assuming reference has been correctly published).

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