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Is a volatile int in Java thread-safe? That is, can it be safely read from and written to without locking?

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If you are changing data frequently then it is not safe – Android Killer Oct 18 '11 at 9:39
up vote 44 down vote accepted

Yes, you can read from it and write to it safely - but you can't do anything compound such as incrementing it safely, as that's a read/modify/write cycle. There's also the matter of how it interacts with access to other variables.

The precise nature of volatile is frankly confusing (see the memory model section of the JLS for more details) - I would personally generally use AtomicInteger instead, as a simpler way of making sure I get it right.

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You can increment a volatile int safely, but you'll need to replace ++ with a whole load AtomicIntegerFieldUpdater. (Not as fast, but if access is dominated by simple read/write and/or memory overhead is important, it can be useful) – Tom Hawtin - tackline Oct 18 '11 at 9:45
@TomHawtin-tackline: Thanks for the detail :) – Jon Skeet Oct 18 '11 at 10:14
For a fuller illustration of the ++ problem, I found… nice and clear. – Holly Cummins May 22 '13 at 16:09
Compound operation (++) on volatiles are thread-safe when only 1 thread performs that op. Another thread can then safely read the value. – Sumit Nigam Mar 3 '15 at 14:33
Not to nitpick, but everything is thread-safe when only 1 thread performs it. – npace Feb 25 at 15:04

[...] as in being able to be safely read from and written to without locking?

Yes, a read will always result in the value of the last write, (and both reads and writes are atomic operations).

A volatile read / write introduces a so called happens-before relation in the execution.

From the Java Language Specification Chapter 17: Threads and Locks

A write to a volatile field (§ happens-before every subsequent read of that field.

In other words, when dealing with volatile variables you don't have to explicitly synchronize (introduce a happens-before relation) using synchronized keyword in order to ensure that the thread gets the latest value written to the variable.

As Jon Skeet points out though, the use of volatile variables are limited, and you should in general consider using classes from the java.util.concurrent package instead.

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"when dealing with volatile variables (...) latest value written to the variable" And with non volatile variables, there no such thing as "the latest value written to the variable". You need volatile for the phrase "the latest value written to the variable" to make sense. – curiousguy Oct 19 '11 at 3:18
I disagree. If I do x = 1; x = 2; in one thread, and then System.out.println(x) in another (long after x = 2 has been executed, it may still print 1. What I mean is that if 2 was the value last written to x, then x may still not evaluate to 2 in another thread. – aioobe Oct 19 '11 at 6:40
If x is not volatile: "after x = 2 has been executed"/before x = 2 has been executed is not well defined. If you really read x after it has been set to 2, then of course you will get 2. – curiousguy Oct 20 '11 at 12:40

Access to volatile int in Java will be thread-safe. When I say access I mean the unit operation over it, like volatile_var = 10 or int temp = volatile_var (basically write/read with constant values). Volatile keyword in java ensures two things :

  1. When reading you always get the value in main memory. Generally for optimization purposes JVM use registers or in more general terms local memory foe storing/access variables. So in multi-threaded environment each thread may see different copy of variable. But making it volatile makes sure that write to variable is flushed to main memory and read to it also happens from main memory and hence making sure that thread see at right copy of variable.
  2. Access to the volatile is automatically synchronized. So JVM ensures an ordering while read/write to the variable.

However Jon Skeet mentions rightly that in non atomic operations (volatile_var = volatile + 1) different threads may get unexpected result.

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