I am working on a java application which has a producer-consumer pattern. Earlier the producer was not producing events in order (for example a '2' was produced before '1') but the consumer had to send them in order (for example, '1' then '2' then '3' etc). To account for that A TreeSet was being used to maintain a queue and an in order traversal on the same was being done to peek and remove the elements. SO FAR SO GOOD. What has changed is that Producer now produces events in order, thus I have decided to use:-
a) a LinkedBlockingQueue (which has a fundamental property of a queue where in only first and last element can be accessed , as in a queue it should be).
b) using an LBQ has taken me to O(1) from an O(log n) in a treeset.
c) I no more have to write explicit synchronized, ReentrantLock takes care of that in put and take method of LBQ.
d) I no more have to write an explicit wait/notify, LBQ takes care of that.
e) LBQ has 2 locks, and hence a put and a take can take simultaneously on different CPUs.
f) LBQ uses CAS to maintain the queue of waiting threads.
ALL things seem well to me. But I am stuck, here are the following questions:-
a) I need to be able to prove the advantages of using an LBQ over a TreeSet, by collecting a few metrics. Which free profiler should I use with my eclipse to proceed ? Visual VM is fine but then is there any better option available ?(Introscope will be used in explicit runs of my application and not on my local eclipse, that's a constraint I can't fight, TPTP is rejected).
b) How do I prove the increase in throughput (which looks to be there on paper) because of the use of 2 locks in a LinkedBlockingQueue ? It's an important aspect I would want to see and prove.