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// is this atomic? 
public int size() {
    return count;

Note that count can be changed by other methods in other threads.

I know integer reads and writes are atomic, but I am not sure about return.

What got me alarmed is that for some reason ArrayBlockingQueue locks it's size() method.

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While I cannot answer your question, I believe that returns are actually copies of values. If the read/write itself is atomic, your return value is perfectly safe, because it 'reads' the value into the copy buffer and returns that copy. –  ATaylor Dec 2 '12 at 12:00
Integer increments are not atomic, and count may be incremented in another thread. –  David Schwartz Dec 2 '12 at 12:00
have you declared count volatile? –  Narendra Pathai Dec 2 '12 at 12:03

2 Answers 2

up vote 13 down vote accepted

Reads and writes to primitive int are atomic as you already know. Returning is basically reading and placing in some other place in memory. Since reading is atomic, no race condition will occur. You either return previous or next value of int.

Using lock in ArrayBlockingQueue might be due to visibility reasons. count variable is not volatile so if the queue was modified in the meantime, without some sort of locking you are not guaranteed to see the most recent value of count. But since read and writes are atomic, at least you'll never see youngest 16 bits of old value and oldest 16 bits of new value.

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+1 for mentioning visibility, which is the important point here –  Philipp Wendler Dec 2 '12 at 12:02
Note that reads and writes of longs and doubles are not atomic, as long as the field is not declared volatile. –  Philipp Wendler Dec 2 '12 at 12:04
most recent value of course, can't believe I did not think of that. –  cohadar Dec 2 '12 at 12:15
What are visiblity reasons? –  Raffaele Dec 2 '12 at 12:16
@Raffaele: in simple words, sometimes when one thread modifies variable this change isn't immediately (or ever) visible by other threads. See: java.dzone.com/articles/multithreading-and-java-memory –  Tomasz Nurkiewicz Dec 2 '12 at 12:31

Reading primitives ( except long and double) is atomic.

But suppose there is a synchronized method which is modifying value of the count ; in such case your read may or may not be atomic.

 synchronized void changeCount(){
     //modifying value of count

So in that case you should also synchronized your read method or minimum declare count as volatile. This will ensure that read is also atomic and the correct and consistent value is returned

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