Lets take SimpleDateFormat as an example since it is not thread safe.

I could allow each thread to have its own copy of SimpleDateFormat using threadLocal like this:

 private static final ThreadLocal<SimpleDateFormat> formatter = new ThreadLocal<SimpleDateFormat>(){
    protected SimpleDateFormat initialValue()
        return new SimpleDateFormat("yyyyMMdd HHmm");

But the volatile keyword guarantees that a thread will have the most recent copy of the variable. So could i not do this instead:

volatile SimpleDateFormat myformatter;

and achieve the same thread safety ?

  • 1
    Because that's not where the thread safety issue occurs: the thread safety problem is that SimpleDateFormat has mutable state, which is independent of whether the reference is stored in a volatile field. – Andy Turner Oct 6 '16 at 15:02
  • 2
    Thread-local and volatile do not do the same! With thread-local, there is a separate copy of the variable for each thread. With volatile, all threads share one variable. Making the variable volatile does not make it thread-safe, because SimpleDateFormat has internal state that must not be updated by multiple threads concurrently, as Andy mentioned. – Jesper Oct 6 '16 at 15:02

the volatile keyword guarantees that a thread will have the most recent copy of the variable

Of the volatile variable only, not its fields.

Also, volatile is only useful if you need to change the value of the variable. In your use case, final looks like it would be more appropriate:

private static final SimpleDateFormat format = ...

This also guarantees that you will have the most recent value of the variable - because it can only be assigned its value once, and static final has guarantees the visibility once the class is fully loaded.

But this isn't the reason why SimpleDateFormat is not thread safe anyway: it has mutable state which it uses to store intermediate values when formatting the date.

If one thread calls format while another is also in the format method for the same SimpleDateFormatter instance, these intermediate variables get stomped unpredictably, leading to interference between the threads, and hence unpredictable output.

It doesn't matter whether or not the values of these intermediate variables are up-to-date when read/written by another thread - their updating can be interspersed.

In short, volatile doesn't prevent thread interference, and so is not an appropriate alternative to a ThreadLocal here.

  • 1
    Of the volatile variable only, not its fields.---this is actually imprecise, even misleading, because you'll observe all the writes to the referred object's fields that the writing thread did before writing to the volatile field. This is the essence of safe publication. – Marko Topolnik Oct 6 '16 at 15:49
  • @MarkoTopolnik really? What I am think of is something like System.out.println(volatileField.nonVolatileField); - the read of volatileField might give you visibility of all writes to nonVolatileField up to that point; but can't nonVolatileField then be updated between reading volatileField and volatileField.nonVolatileField? – Andy Turner Oct 6 '16 at 15:56
  • Yes, that's why I say you wording is "misleading", not "incorrect". It sounds like you don't get any guarantees except for the volatile reference itself. On the flip side, you don't get the guarantee of observing the "most recent" state of the volatile field because "most recent" isn't even a well-defined concept in the JMM. The essential difference is that of sequential consistency vs. linearizability. – Marko Topolnik Oct 6 '16 at 15:57

ThreadLocal is a facility which enables threads to have their own local copy of an object. ThreadLocals are best used with objects that can be thread safe within a thread safety policy of thread confinement (even for many objects that are not "thread safe", thread safe usage is still possible as long as no reference to them leaks out from the confining thread). ThreadLocals can not help with thread safe usage for mutable objects that are shared outside the thread that instantiates them.

The volatile keyword is used to provide a weak form of thread safety with a variable that may accessed by many different threads. A key difference is that ThreadLocals are most typically not accessed by more than one thread.

Broadly speaking, thread safety requires both visibility (the most recent updates to the variable should be visible to other threads) and mutual exclusion (state transitions must be atomic so that state can not be observed to be inconsistent). Volatile works with the Java Memory Model to guarantee that the variable will be visible, but it provides no form of mutual exclusion and therefore does not provide atomicity to state transitions in objects.

Because volatile and ThreadLocal are so different, there really is no common circumstance in which you'd be able to substitute one for the other.


You do not achieve same thread safety with volatile because same instance of SimpleDateFormat will be used in different thread.

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