This question deserves a better answer.
ConcurrentLinkedQueue is based on the famous algorithm by Maged M. Michael and Michael L. Scott for non-blocking lock-free queues.
"Non-blocking" as a term here for a contended resource (our queue) means that regardless of what the platform's scheduler does, like interrupting a thread, or if the thread in question is simply too slow, other threads contending for the same resource will still be able to progress. If a lock is involved for example, the thread holding the lock could be interrupted and all threads waiting for that lock would be blocked. Intrinsic locks (the
synchronized keyword) in Java can also come with a severe penalty for performance - like when biased locking is involved and you do have contention, or after the VM decides to "inflate" the lock after a spin grace period and block contending threads ... which is why in many contexts (scenarios of low/medium contention), doing compare-and-sets on atomic references can be much more efficient and this is exactly what many non-blocking data-structures are doing.
ConcurrentLinkedQueue is not only non-blocking, but it has the awesome property that the producer does not contend with the consumer. In a single producer / single consumer scenario (SPSC), this really means that there will be no contention to speak of. In a multiple producer / single consumer scenario, the consumer will not contend with the producers. This queue does have contention when multiple producers try to
offer(), but that's concurrency by definition. It's basically a general purpose and efficient non-blocking queue.
As for it not being a
BlockingQueue, well, blocking a thread to wait on a queue is a freakishly terrible way of designing concurrent systems. Don't. If you can't figure out how to use a
ConcurrentLinkedQueue in a consumer/producer scenario, then just switch to higher-level abstractions, like a good actor framework.