问题
I know volatile allows for visibility, AtomicInteger allows for atomicity.
So if I use a volatile AtomicInteger, does it mean I don't have to use any more synchronization mechanisms?
Eg.
class A {
private volatile AtomicInteger count;
void someMethod(){
// do something
if(count.get() < 10) {
count.incrementAndGet();
}
}
Is this threadsafe?
回答1:
I believe that Atomic* actually gives both atomicity and volatility. So when you call (say) AtomicInteger.get(), you're guaranteed to get the latest value. This is documented in the java.util.concurrent.atomic package documentation:
The memory effects for accesses and updates of atomics generally follow the rules for volatiles, as stated in section 17.4 of The Java™ Language Specification.
- get has the memory effects of reading a volatile variable.
- set has the memory effects of writing (assigning) a volatile variable.
- lazySet has the memory effects of writing (assigning) a volatile variable except that it permits reorderings with subsequent (but not previous) memory actions that do not themselves impose reordering constraints with ordinary non-volatile writes. Among other usage contexts, > - lazySet may apply when nulling out, for the sake of garbage collection, a reference that is never accessed again.
- weakCompareAndSet atomically reads and conditionally writes a variable but does not create any happens-before orderings, so provides no guarantees with respect to previous or subsequent reads and writes of any variables other than the target of the weakCompareAndSet.
- compareAndSet and all other read-and-update operations such as getAndIncrement have the memory effects of both reading and writing volatile variables.
Now if you have
volatile AtomicInteger count;
the volatile part means that each thread will use the latest AtomicInteger reference, and the fact that it's an AtomicInteger means that you'll also see the latest value for that object.
It's not common (IME) to need this - because normally you wouldn't reassign count to refer to a different object. Instead, you'd have:
private final AtomicInteger count = new AtomicInteger();
At that point, the fact that it's a final variable means that all threads will be dealing with the same object - and the fact that it's an Atomic* object means they'll see the latest value within that object.
回答2:
I'd say no, it's not thread-safe, if you define thread-safe as having the same result under single threaded mode and multithreaded mode. In single threaded mode, the count will never go greater than 10, but in multithreaded mode it can.
The issue is that get and incrementAndGet is atomic but an if is not. Keep in mind that a non-atomic operation can be paused at any time. For example:
count = 9currently.- Thread A runs
if(count.get() <10)and getstrueand stopped there. - Thread B runs
if(count.get() <10)and getstruetoo so it runscount.incrementAndGet()and finishes. Nowcount = 10. - Thread A resumes and runs
count.incrementAndGet(), nowcount = 11which will never happen in single threaded mode.
If you want to make it thread-safe without using synchronized which is slower, try this implementation instead:
class A{
final AtomicInteger count;
void someMethod(){
// do something
if(count.getAndIncrement() <10){
// safe now
} else count.getAndDecrement(); // rollback so this thread did nothing to count
}
回答3:
Answer is there in this code
http://grepcode.com/file/repository.grepcode.com/java/root/jdk/openjdk/6-b14/java/util/concurrent/atomic/AtomicInteger.java
This is source code of AtomicInteger. The value is Volatile. So,AtomicInteger uses Volatile inside.
回答4:
To maintain the original semantics, and support multiple threads, you could do something like:
public class A {
private AtomicInteger count = new AtomicInteger(0);
public void someMethod() {
int i = count.get();
while (i < 10 && !count.compareAndSet(i, i + 1)) {
i = count.get();
}
}
}
This avoids any thread ever seeing count reach 10.
回答5:
Your query can be answered in 2 parts, because there are 2 questions in your query :
1) Referring to Oracle's tutorial documentation for Atomic variables : https://docs.oracle.com/javase/tutorial/essential/concurrency/atomicvars.html
The java.util.concurrent.atomic package defines classes that support atomic operations on single variables. All classes have get and set methods that work like reads and writes on volatile variables. That is, a set has a happens-before relationship with any subsequent get on the same variable. The atomic compareAndSet method also has these memory consistency features, as do the simple atomic arithmetic methods that apply to integer atomic variables.
So atomic integer does use volatile inside, as other answers here have mentioned. So there's no point in making your atomic integer volatile. You need to synchronize your method.
You should watch John Purcell's free video on Udemy , where he shows the failure of volatile keyword when multiple threads are trying to modify it. Simple and beautiful example. https://www.udemy.com/course/java-multithreading/learn/lecture/108950#overview
If you change the volatile counter in John's example into an atomic variable, his code is guaranteed to succeed without using sunchronized keyword like he has done in his tutorial
2) Coming to your code : Say thread 1 kicks into action and "someMethod" does a get and checks for size. It is possible that before getAndIncrement executes(say, by thread 1) , another thread (say thread 2)kicks in and increases the count to 10, and gets out; after which, your thread 1 will resume and increase count to 11. This is erroneous output. This is because your "someMethod" is not protected in anyway from synhronization problems. I would still recommend you to watch john purcell's videos to see where volatile fails , so that you have a better understanding of the keyword volatile. Replace it with atomicinteger in his example and see the magic.
来源:https://stackoverflow.com/questions/14338533/atomicinteger-and-volatile