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Currently, I have a LinkedList which stores a custom Node class. The Nodes are currently removed in order and evaluated, which generally adds more Nodes back into the LinkedList, treating it like a Queue.

But in reality I don't care about maintaining the order of the Nodes because the order they are being added or removed doesn't matter. You can remove the 1st, 54th, or 1032nd Node from the List, it doesn't matter. All that matters is the Nodes are being processed quickly, which means one is removed (at random), mutated, then added back along with several variations of it (once again the order doesn't matter).

Since I haven't been able to find a Java Bag implementation, what is the most efficient way to maintain this type of collection? Thanks in advanced.

PS Out of laziness I have avoid using arrays because the collection of nodes could theoretically range from 1 Node to 3^64 Nodes in size, though it's more likely to stay under a million.

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    I would think that LinkedList will start behaving weirdly if you store a number of items that is greater than Integer.MAX_VALUE. – assylias May 8 '13 at 2:58
  • @assylias Luckily, the number of nodes generally is less than 1 million, but technically if enough memory this program "should" be able to store more. – jrquick May 8 '13 at 2:59
  • How many gigs is 3^64? – Miserable Variable May 8 '13 at 2:59
  • Three million million million million million (3 x 10^30) items is going to be a stretch :-) – paxdiablo May 8 '13 at 3:00
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    Dude, if you have to worry about keeping track of up to 3^64 nodes, you have bigger fish to fry than which collection type to use. At that size, you're going to have to worry about how to map and unmap memory from your address space, because you won't be able to fit everything at once. – dlev May 8 '13 at 3:00
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The Java HashSet or TreeSet types might be good here, since they represent unordered collections of elements that support quick insertion and deletion of elements. That said, you can't possibly hold 364 values in memory, since that's appromately 3.4336838 × 1030, a number vastly bigger than any amount of RAM that I know of can hold.

EDIT: Based on the described use case (support efficient insertion and removal of random elements), you might want to adopt the approach described in this older question for building a data structure that does just that. Intuitively, you would use an ArrayList, then remove elements by swapping them to the end of the ArrayList and removing them. This gives O(1) insertion and O(1) removal with extremely low overhead.

Hope this helps!

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    TreeSet is ordered. – assylias May 8 '13 at 3:07
  • The Set classes have overhead to make them searchable. The OP has not specified how/if he finds the objects he's interested in. Does he need the search capability? – Hot Licks May 8 '13 at 3:08
  • (I would think he couldn't have more than 2^64 elements, much less 3^64.) – Hot Licks May 8 '13 at 3:11
  • @HotLicks- Any collection supporting insertion and deletion has to have some support for searching. If the OP is inserting and deleting things a lot, they will either have to pay in time (linear search in a LinkedList) or space (a slight overhead in a HashSet or TreeSet). That said, I don't believe there's much overhead in these structures, since they're very easy to traverse. Are you sure that (a) the overhead exists and (b) it is significant enough to warrant not using them? – templatetypedef May 8 '13 at 3:11
  • @templatetypedef - He implies he just adds/removes at the ends. But he's pretty vague. – Hot Licks May 8 '13 at 3:12

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