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Does the out variable in the MyThread class need to be declared volatile in this code or will the "volatility" of the stdout variable in the ThreadTest class carry over?


class MyThread implements Runnable
    int id;
    PrintStream out; // should this be declared volatile?

    MyThread(int id, PrintStream out) { = id;
        this.out = out;

    public void run() {
        try {
            Thread.currentThread().sleep((int)(1000 * Math.random()));
            out.println("Thread " + id);
        catch (InterruptedException e) {

public class ThreadTest
    static volatile PrintStream stdout = System.out;

    public static void main(String[] args) {
        for (int i = 0; i < 10; i++) {
            new Thread(new MyThread(i, stdout)).start();
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up vote 2 down vote accepted

The volatile qualifier won't carry through, and it serves no purpose in the above code. Volatile establishes a memory barrier on reads and writes to the variable, which is never modified once initialised in the constructor. For the same reason, the volatile qualifier in ThreadTest serves no purpose either.

Just to be clear, volatile applies to the variable, not to the referenced object.

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Ummm ... my reading of the JLS memory model spec is that there is no "happens-before" relationship between writing a (non-volatile, non-final) field in a constructor and reading it in another thread. So that makes the volatile qualifier non-redundant in the example. – Stephen C May 29 '10 at 6:23
@Stephen C, it is impossible for another thread to access the variable before the constructor returns. – Marcelo Cantos May 29 '10 at 6:36
Not unless the object is "unsafely published" by the constructor (not the case here). But here we are talking about another thread accessing the variable after the constructor returns; i.e. in the run method. – Stephen C May 29 '10 at 6:43
I'm sorry, Stephen, but I just don't see it. You construct the object, setting the variable once, for all time, and then pass it to another thread, which accesses that same variable that has not changed and will never change. Where in this picture is volatile warranted? – Marcelo Cantos May 29 '10 at 6:54
@Marcelo - the problem is that nothing in the JLS says that the constructor WILL flush the variable contents to main memory. Therefore, if the other thread is executing on a different processor, it may get a stale copy of out when it reads it. That is what the Java memory model is all about. I strongly recommend that you read the sections of the JLS that my answer links to. – Stephen C May 29 '10 at 10:03

Does the out variable in the MyThread class need to be declared volatile in this code or will the "volatility" of the stdout variable in the ThreadTest class carry over?

The volatility does not "carry over" because you actually passing the value of the variable.

According to my reading of the JLS memory model spec, a volatile is required if you were to read out without some intervening synchronization between the thread that created the object and the thread that uses it.

In the code as written, the variable at risk is out. Which is a non-private variable, and could be accesses / updated by anything that has access to the class. There is no code in your example that does that, but you could write another class ... or change ThreadTest.

But in this case better solutions would be:

  • Declare out as final. The semantics of final fields mean that no synchronization is required.

  • Declare out as private. Now the "happens-before" between the thread's construction and the start() call ensures that the only possible access to out will see the right value.

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It definitely won't carry over. I'm not sure what you're trying to do, though. volatile qualifies the field in ThreadTest, not the value.

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is not necessary.

Because there is happens-before between objects that are created before the call Thread.start and after the call Thread.start

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