A simple definition of "invariant": a condition that is always true during the lifetime of an object.
Volatile variables do not share the atomicity features of
That's why you can't use them within a class that has invariants that relate multiple variables.
For example imagine you have a
class to model a time interval described by two variables:
end. An invariant condition may be that
start is always less or equal than
end. If both variables (just as example) are declared as volatile then you can rely on visibility features of
volatile but you can't be sure that during a change that involves both variables the invariant is always satisfied. Think:
public void setInterval(Date newStart, Date newEnd)
// Check if inputs are correct
// Here the object state is valid
start = newStart;
// If another thread accesses this object now it will
// see an invalid state because start could be greater than end
end = newEnd;
// Here the object state is valid again
In this case you can be sure that the change is visible to every thread but in the middle of the two instructions the object state could be not valid. Because it can be accessed by other threads (remember this is a simple case so it's possible but not likely) then the invariant condition "start < end" could be broken.
That's why the use of volatile is somehow discouraged outside a (small) set of well defined patterns. A volatile variable should be used only if these conditions are satisfied:
- The variable isn't involved in invariants related to other variables (for the reason explained above).
- The value to write on the variable does not depend on its current value.
For example the expression
int a = i++; isn't atomic then it's not - strictly speaking - thread-safe because it'll be rewritten with something like this:
int temp = i;
i = i + 1;
int a = temp;
To make it atomic from a thread point of view you can imagine a class like this:
public class MyAtomicInteger
public synchronized increment()
x = x + 1;
private int x;
Of course it exists a true implementation of this
AtomicInteger and it's part of the package java.util.concurrent.atomic, it provides some simple basic routines for lock-free concurrent programming.