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I occasionally use a volatile instance variable in cases where I have two threads reading from / writing to it and don't want the overhead (or potential deadlock risk) of taking out a lock; for example a timer thread periodically updating an int ID that is exposed as a getter on some class:

public class MyClass {
  private volatile int id;

  public MyClass() {
    ScheduledExecutorService execService = Executors.newScheduledThreadPool(1);
    execService.scheduleAtFixedRate(new Runnable() {
      public void run() {
    }, 0L, 30L, TimeUnit.SECONDS);

  public int getId() {
    return id;

My question: Given that the JLS only guarantees that 32-bit reads will be atomic is there any point in ever using a volatile long? (i.e. 64-bit).

Caveat: Please do not reply saying that using volatile over synchronized is a case of pre-optimisation; I am well aware of how / when to use synchronized but there are cases where volatile is preferable. For example, when defining a Spring bean for use in a single-threaded application I tend to favour volatile instance variables, as there is no guarantee that the Spring context will initialise each bean's properties in the main thread.

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Note, ++ are not atomic operations. I suggest using java.util.concurrent.atomic.AtomicInteger instead. – Tom Hawtin - tackline Jun 14 '10 at 15:02
Thanks Tom - It was really just a trivial example. – Adamski Jun 14 '10 at 15:05
By the way, you don't need to use volatile with Spring. Spring uses a lock when initializing your classes and the happens-before relations will take care of the ordering for you – oxbow_lakes Jul 15 '10 at 23:53
up vote 77 down vote accepted

Not sure if I understand your question correctly, but the JLS volatile Fields states:

A field may be declared volatile, in which case the Java memory model ensures that all threads see a consistent value for the variable (§17.4).

and, perhaps more importantly, JLS 17.7 Non-atomic Treatment of double and long :

17.7 Non-atomic Treatment of double and long
For the purposes of the Java programming language memory model, a single write to a non-volatile long or double value is treated as two separate writes: one to each 32-bit half. This can result in a situation where a thread sees the first 32 bits of a 64 bit value from one write, and the second 32 bits from another write. Writes and reads of volatile long and double values are always atomic. Writes to and reads of references are always atomic, regardless of whether they are implemented as 32 or 64 bit values.

That is, the "entire" variable is protected by the volatile modifier, not just the two parts. This tempts me to claim that it's even more important to use volatile for longs than it is for ints since not even a read is atomic for non-volatile longs/doubles.

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Ah ok cool - That's exactly what I wanted to check. – Adamski Jun 14 '10 at 14:57

This can be demonstrated by example

  • constantly toggle two fields, one marked volatile and one not between all bits set and all bits clear
  • read the field values on another thread
  • see that the foo field (not protected with volatile) can be read in an inconsistent state, this never happens to the bar field protected with volatile


public class VolatileTest {
    private long foo;
    private volatile long bar;
    private static final long A = 0xffffffffffffffffl;
    private static final long B = 0;
    private int clock;
    public VolatileTest() {
        new Thread(new Runnable() {
            public void run() {
                while (true) {
                    foo = clock % 2 == 0 ? A : B;
                    bar = clock % 2 == 0 ? A : B;

        while (true) {
            long fooRead = foo;
            if (fooRead != A && fooRead != B) {
                System.err.println("foo incomplete write " + Long.toHexString(fooRead));
            long barRead = bar;
            if (barRead != A && barRead != B) {
                System.err.println("bar incomplete write " + Long.toHexString(barRead));

    public static void main(String[] args) {
        new VolatileTest();


foo incomplete write ffffffff00000000
foo incomplete write ffffffff00000000
foo incomplete write ffffffff
foo incomplete write ffffffff00000000

Note this only happens for me when running on a 32 bit VM, on 64 bit VM I couldn't get a single error in several minutes.

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You could also add why it came to that output, it is because it writes the long in 2 steps in the first step the first 32 bit and in the second step the other 32 bit. – Jannis Mattheis Feb 8 at 10:49

"volatile" serves multiple purposes:

  • guarantees atomic writes to double/long
  • guarantees that when a thread A sees change in volatile variable made by thread B, thread A can also see all other changes made by thread B before the change to volatile variable (think setting the number of used cells in array after setting the cells themselves).
  • prevents compiler optimization based on assumption that only one thread can change the variable (think tight loop while (l != 0) {}.

Is there more?

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