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Here is my problem, I need a data structure that behaves like a queue, but has some other properties:

  • I should be able to easily delete items given a tag (every item in this queue has a tag that groups them)
  • I also need to be able to delete one item given a key (all items added to the collection will have such a unique key). Here, if it simplifies things, I could remove by tag and key if it would make it faster.
  • This collection is used in a concurrent environment so using as little locking as possible would be awesome
  • It should have the usual FIFO properties of a queue. I do not need to access items not in head, but i need the deleting behavior above to work.

I'm using C# to build this solution but I'd be much more interested in algorithms and data structures definitions as I hardly believe any of the available collections meet my needs.

Papers, books, blog posts and any other kind of reference to this are really welcome.

share|improve this question
If it is used in a concurrent environment will need to lock or make atomic the act of generating a unique ID, removal and additions which is pretty much everything this queue does. – Yoztastic Aug 28 '12 at 21:17
The key is generated out of the queue, not on it. The item added already contains this unique id. – Maurício Linhares Aug 28 '12 at 21:24

Sounds like you can use a concurrent singly-linked list for the queue part. For the delete-by-key part you could keep a concurrent hash-table (striped locks are easy to do) pointing to nodes in the queue.

If that approach fails, look at how database systems do this. They can do all of what you want, concurrently. They maintain a primary copy of the data in a b-tree and maintain secondary b-tree indices. For locking, they use a concurrent hash-table. B-trees have nice concurrency properties because you can easily share-lock the upper parts of them even while you update the leaves under an exclusive lock.

share|improve this answer

I think you can use a doubly multi-linked lists and two hashtables.

  • One part of list for the queue
  • Another part for grouping nodes by tag
  • One hashtable for accessing a node by key
  • Another hashtable for accessing nodes by a tag

Examples in Python (I'm sorry...)

Inserting an element:

 items_table['item_key'] = new_item = new_item
 new_item.previous = my_queue.tail
 my_queue.tail = new_item

 new_item.next_by_tag = tags_table['item_tag'] #head of tag's list
 tags_table['item_tag'].previous_by_tag = new_item
 tags_table['item_tag'] = new_item

Removing a element by key:

item = key_table['node_key'] = item.previous =

item.next_by_tag.previous_by_tag = item.previous_by_tag
item.previous_by_tag.next_by_tag = item.next_by_tag

del item

Removing a element by tag:

def remove_elements_by_tag(tag_head):
    if tag_head == None:
        remove_elements_by_tag(tag_head.next_by_tag) = tag_head.previous =

Something like that. Hope it helps.

share|improve this answer
Thats close to the solution I wrote already (a linked hash set with a hash map for tag deletes), but it used in a concurrent environment, so i need a lot of locks to make something like that and it doesn't feel like the best solution. Got some hints from Rodrigo Kumpera and Andrei Formiga about a solution based on a concurrent queue and lazy deletes and it feels like it would be a nice solution for it (you can catch the discussion on my FB timeline - PT only, sorry). I'll implement the solution and see how it goes. – Maurício Linhares Aug 29 '12 at 12:40

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