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I need to use some kind of data structure to store pending network requests.

Ideally I would like a queue which also offers Map access, as the operations are basically as follows:

interface PendingRequestStore<K, V>
    /* add item to queue with value v and key k */
    void add(K k, V v);
    /* remove and return value of first item in queue, or null if empty */
    V pollFirst();
    /* return the key of the first item in the queue, or null if empty */
    K getFirstKey();
    /* get item with key k, or null if absent */
    V get(K k);        
    /* remove and return value of item in queue with key k, or null if absent */
    V remove(K k);

The intent is to store pending requests when they are sent out; then, when I get a response, I can remove the request with the specified key. The responses generally don't arrive in the order the requests were sent out. If I could guarantee timely responses, a regular Map would be enough for that, but there are occasional failures where I also need to resend orphan requests in the order they were added to the queue. So I'd use a queue and a map, but then I need a way to remove items in the middle of the queue when I get responses that are out of order.

If I can't avoid synchronized that's ok, but it would be nice to use a concurrent data structure too.

Any suggestions?

NOTE: The keys have no ordering so an ordered map e.g. ConcurrentSkipListMap won't help me.

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Have a look at the collection classes in the java.util.concurrent package. –  Laurent Pireyn Apr 27 '11 at 15:28
? Which ones? I'm vaguely familiar w/ j.u.c and none of them seems obviously usable in this case. –  Jason S Apr 27 '11 at 15:30
What's wrong with good old LinkedHashMap, Map m = Collections.synchronizedMap(new LinkedHashMap(...)) ? –  davin Apr 27 '11 at 15:37
Hmm. It has add, get, and remove; how would I implement getFirstKey() and an atomic pollFirst()? –  Jason S Apr 27 '11 at 15:41
why would they need to iterate to the end? also, pollFirst would require me to manually synchronize. anyway there's some possibilities.... –  Jason S Apr 27 '11 at 15:52

3 Answers 3

up vote 3 down vote accepted

What you describe looks very familiar to a LinkedHashMap which isn't synchronized, but it provides the concept of ordering and also maps a key to a value.

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+1. I don't know of any concurrent class that would help here, so I'd fall back to using LinkedHashedMap and your own synchronisation. getFirstKey() and pollFirst() could be implemented by (synchronized) code that: checks map is not empty; uses iterator().next() –  Paul Cager Apr 27 '11 at 15:54
Agreed -- it does need a bit of wrapping out in own code -- for synchronization reasons first and secondly for providing the methods mentioned above. –  Liv Apr 27 '11 at 15:58

So I'd use a queue and a map, but then I need a way to remove items in the middle of the queue when I get responses that are out of order.

If you use a LinkedList as your queue, you can take advantage of it's remove(Object o) method. Obviously you'd need to guarantee consistency between the map and queue so some sort of manual synchronization will be required.

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efficiency is the issue here, though. –  Jason S Apr 27 '11 at 15:48

Have you looked at the java.util.concurrent package, specifically the ConcurrentSkipListMap? You will just need to define a comparator that will order them by insertion time. ConcurrentSkipListMap

share|improve this answer
hmmm... that means I need to add a timestamp field in my data; I'd rather avoid this, but you have a point. –  Jason S Apr 27 '11 at 15:47
Or you could use an Atomic Long as a counter. –  jabbie May 4 '11 at 17:32

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