What operations in Java are considered atomic?

  • all assignments of primitive types except for long and double
  • all assignments of references
  • all assignments of volatile variables
  • all operations of java.concurrent.Atomic* classes

and maybe something more. Look at the jls.

As noted in the comments, atomicity does not imply visibility. So while another thread is guaranteed not to see a partially written int, it may never see the new value.

The operations on long and double are on common 64 bit CPUs atomic as well, although there's no guarantee. See also this feature request.

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    Assignments to volatile longs and doubles are guaranteed to be atomic: java.sun.com/docs/books/jls/third_edition/html/memory.html#17.7 – Joonas Pulakka Jan 21 '11 at 8:20
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    Also, bear in mind that while the operations are atomic, the visibility of those operations might not be guaranteed in a multithreaded application unless special care is taken (the details here are way to intricate to describe in a comment..) – nos Jan 21 '11 at 8:33
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    64 bit jvm, long and double assignments are also atomic. Are you sure? I'd say they are for compiled code, but what about interpreted code? Probably you're right, but is there any guarantee? – maaartinus Jan 21 '11 at 12:35
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    The spec still doesn't mandate that 64-bit JVMs provide atomicity to long and double assignments. java.sun.com/docs/books/jls/third_edition/html/memory.html#17.7 In its famous words, "this behavior is implementation specific". However, more likely than not, 64-bit VMs would implement it as an atomic operation. – sjlee Jan 21 '11 at 15:59
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    IMHO, normal reference assignments are atomic, but AtomicReference offers more: compareAndSet and getAndSet, which is something you couldn't achieve otherwise without synchronization. – maaartinus Jan 31 '11 at 1:40

In Java, the reading and writing of 32-bit or smaller quantities are guaranteed to be atomic.
By atomic, we mean each action takes place in one step and cannot be interrupted. Thus, when we have multithreaded applications, the read and write operations are thread-safe and need not be made synchronized.

For example, the following code is thread safe:

public class ThreadSafe   
    private int x;  
    public void setX(int x)  
           this.x = x;
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    ..threadsafe in the sense that the value will always be exactly either the original value or the set value. Most up to date value still necessarily isn't visible to other threads due to the lack of "volatile" or "synchronized". – Mikko Wilkman Feb 1 '11 at 8:00
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    +1 to what @MikkoWilkman says. That piece of code should not be used since it is definitely not thread safe from a memory visibility perspective. – Knuckles the Echidna May 18 '16 at 16:20

It would seem that assignments of longs are atomic, based on this method in AtomicLong.java:

public final void set(long newValue) {
    value = newValue;

Note the absence of any synchronization.

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    Look at the declaration of value. It's volatile. – maaartinus Oct 18 '13 at 9:38
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    That value is volatile does not make the assignment of value atomic, it merely avoids "publishing" issues. – Lyle Z Nov 5 '13 at 15:56
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    It does both, see JLS, section 17.7: Writes and reads of volatile long and double values are always atomic. – maaartinus Nov 5 '13 at 20:40
  • @LyleZ the most valuable comment in this thread, in my opinion. – stdout Apr 24 '16 at 14:22

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