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From Javadoc:

  • A ConcurrentLinkedQueue is an appropriate choice when many threads will share access to a common collection. This queue does not permit null elements.
  • ArrayBlockingQueue is a classic "bounded buffer", in which a fixed-sized array holds elements inserted by producers and extracted by consumers. This class supports an optional fairness policy for ordering waiting producer and consumer threads
  • LinkedBlockingQueue typically have higher throughput than array-based queues but less predictable performance in most concurrent applications.

I have 2 scenarios, one requires the queue to support many producers (threads using it) with one consumer and the other is the other way arround.

I am not understanding whether I should use ConcurrentLikedQueue or the other ones (the array or linkedList implementations). Wherent' all this implementations supposed to be concurrent? I mean, can somebody explain me what is the diference between ConcurrentLikedQueue and LinkedBlockingQueue ?

Also, what is the optional fairness policy thing in the ArrayBlockingQueue please ?

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Are you sure this should be a community wiki? These questions sound like they have a definite answer. I could be wrong... – Adam Paynter Aug 19 '09 at 18:13
@Adam, thanks, you are rigth, normally I just left it as comunity wiki because I saw people correcting my english as it's not normally ok. But now it seems that the site does not allow me to undo the 'comunity wiki' checkbox – David Hofmann Aug 19 '09 at 18:19
@David: People can still edit your question even if it's not a community wiki. When a question is a community wiki, none of the people who answer will gain any reputation points (even if others up-vote the answers). Hopefully this clears things up for the future. :) – Adam Paynter Aug 19 '09 at 18:23
@Adam, huh !, I am sorry now I know it. Thank you – David Hofmann Aug 19 '09 at 18:37
You forgot to ask about PriorityBlockingQueue also, which is useful for specifying an order in which threads get processed. – Igor Ganapolsky Apr 21 '14 at 19:19
up vote 22 down vote accepted

Basically the difference between them are performance characteristics and blocking behavior.

Taking the easiest first, ArrayBlockingQueue is a queue of a fixed size. So if you set the size at 10, and attempt to insert an 11th element, the insert statement will block until another thread removes an element. The fairness issue is what happens if multiple threads try to insert and remove at the same time (in other words during the period when the Queue was blocked). A fairness algorithm ensures that the first thread that asks is the first thread that gets. Otherwise, a given thread may wait longer than other threads, causing unpredictable behavior (sometimes one thread will just take several seconds because other threads that started later got processed first). The trade-off is that it takes overhead to manage the fairness, slowing down the throughput.

The most important difference between LinkedBlockingQueue and ConcurrentLinkedQueue is that if you request an element from a LinkedBlockingQueue and the queue is empty, your thread will wait until there is something there. A ConcurrentLinkedQueue will return right away with the behavior of an empty queue.

Which one depends on if you need the blocking. Where you have many producers and one consumer, it sounds like it. On the other hand, where you have many consumers and only one producer, you may not need the blocking behavior, and may be happy to just have the consumers check if the queue is empty and move on if it is.

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Answer is misleading. Both LinkedBlockingQueue and ConcurrentLinkedQueue has method "poll()" which removes head of queue or returns null (does not block) and method "offer(E e)" which inserts in to tail of queue and does not block. The difference is that only LinkedBlockingQueue has blocking operations in addition to the non-blocking operations - and for that privilege, you pay the price that LinkedBlockingQueue actually has some locking. The other answer explains this. – Nakedible May 7 '11 at 13:36

ConcurrentLinkedQueue means no locks are taken (i.e. no synchronized(this) or Lock.lock calls). It will use a CAS - Compare and Swap operation during modifications to see if the head/tail node is still the same as when it started. If so, the operation succeeds. If the head/tail node is different, it will spin around and try again.

LinkedBlockingQueue will take a lock before any modification. So your offer calls would block until they get the lock. You can use the offer overload that takes a TimeUnit to say you are only willing to wait X amount of time before abandoning the add (usually good for message type queues where the message is stale after X number of milliseconds).

Fairness means that the Lock implementation will keep the threads ordered. Meaning if Thread A enters and then Thread B enters, Thread A will get the lock first. With no fairness, it is undefined really what happens. It will most likely be the next thread that gets scheduled.

As for which one to use, it depends. I tend to use ConcurrentLinkedQueue because the time it takes my producers to get work to put onto the queue is diverse. I don't have a lot of producers producing at the exact same moment. But the consumer side is more complicated because poll won't go into a nice sleep state. You have to handle that yourself.

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Great answer that actually explains the differences! Kudos! – Nakedible May 7 '11 at 13:32
And under what conditions ArrayBlockingQueue is better than LinkedBlockingQueue? – akapelko Sep 16 '12 at 14:54
@akapelko ArrayBlockingQueue allows for more fine-grained ordering. – Igor Ganapolsky Apr 21 '14 at 20:01

Your question title mentions Blocking Queues. However, ConcurrentLinkedQueue is not a blocking queue.

The BlockingQueues are ArrayBlockingQueue, DelayQueue, LinkedBlockingDeque, LinkedBlockingQueue, PriorityBlockingQueue, and SynchronousQueue.

Some of these are clearly not fit for your purpose (DelayQueue, PriorityBlockingQueue, and SynchronousQueue). LinkedBlockingQueue and LinkedBlockingDeque are identical, except that the latter is a double-ended Queue (it implements the Deque interface).

Since ArrayBlockingQueue is only useful if you want to limit the number of elements, I'd stick to LinkedBlockingQueue.

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I removed the Blocking word from the title, thanks. Let me see if I got it, what you said means that LinkedBlockingQueue can be used in multile consumers/produces scenarios over the same object ? – David Hofmann Aug 19 '09 at 18:33
I thought that ArrayBlockingQueue allows for more fine-grained ordering of threads? Hence its advantage. – Igor Ganapolsky Apr 21 '14 at 20:03

ArrayBlockingQueue has lower memory footprint, it can reuse element node, not like LinkedBlockingQueue that have to create a LinkedBlockingQueue$Node object for each new insertion.

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good point! i prefer ArrayBlockingQueue more than LinkedBlockingQueue – trillions Mar 24 '14 at 23:23
This is not necessarily true - if your queue is close to empty a lot of the time but needs to be able to grow large, the ArrayBlockingQueue will have a much worse memory footprint - it still has a large array allocated in memory the whole time, while the LinkedBlockingQueue will have a negligible memory footprint when close to empty. – Chris Aug 8 '14 at 23:13
  1. SynchronousQueue ( Taken from another question )

SynchronousQueue is more of a handoff, whereas the LinkedBlockingQueue just allows a single element. The difference being that the put() call to a SynchronousQueue will not return until there is a corresponding take() call, but with a LinkedBlockingQueue of size 1, the put() call (to an empty queue) will return immediately. It's essentially the BlockingQueue implementation for when you don't really want a queue (you don't want to maintain any pending data).

2 . LinkedBlockingQueue ( LinkedList Implementation but Not Exactly JDK Implementation of LinkedList It uses static inner class Node to maintain Links between elements )

Constructor for LinkedBlockingQueue

public LinkedBlockingQueue(int capacity) 
        if (capacity < = 0) throw new IllegalArgumentException();
        this.capacity = capacity;
        last = head = new Node< E >(null);   // Maintains a underlying linkedlist. ( Use when size is not known )

Node class Used to Maintain Links

static class Node<E> {
    E item;
    Node<E> next;
    Node(E x) { item = x; }

3 . ArrayBlockingQueue ( Array Implementation )

Constructor for ArrayBlockingQueue

public ArrayBlockingQueue(int capacity, boolean fair) 
            if (capacity < = 0)
                throw new IllegalArgumentException();
            this.items = new Object[capacity]; // Maintains a underlying array
            lock = new ReentrantLock(fair);
            notEmpty = lock.newCondition();
            notFull =  lock.newCondition();

IMHO Biggest Difference between ArrayBlockingQueue and LinkedBlockingQueue is clear from constructor one has underlying data structure Array and other linkedList.

ArrayBlockingQueue uses single-lock double condition algorithm and LinkedBlockingQueue is variant of the "two lock queue" algorithm and it has 2 locks 2 conditions ( takeLock , putLock)

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Added more details to my answer. – Vipin Dec 12 '13 at 17:48

ConcurrentLinkedQueue is lock-free, LinkedBlockingQueue is not. Every time you invoke LinkedBlockingQueue.put() or LinkedBlockingQueue.take(), you need acquire the lock first. In other word, LinkedBlockingQueue has poor concurrency. If you care performance, try ConcurrentLinkedQueue + LockSupport.

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