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Is there a data structure like a queue which also supports removal of elements at arbitrary points? Enqueueing and dequeueing occur most frequently, but mid-queue element removal must be similar in speed terms since there may be periods where that is the most common operation. Consistency of performance is more important than absolute speed. Time is more important than memory. Queue length is small, under 1,000 elements at absolute peak load.In case it's not obvious I'll state it explicitly: random insertion is not required.

Have tagged C++ since that is my implementation language, but I'm not using (and don't want to use) any STL or Boost. Pure C or C++ only (I will convert C solutions to a C++ class.)

Edit: I think what I want is a kind of dictionary that also has a queue interface (or a queue that also has a dictionary interface) so that I can do things like this:

Container.enqueue(myObjPtr1);
MyObj *myObjPtr2 = Container.dequeue();
Container.remove(myObjPtr3);
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Why not STL or Boost ? They are pure C++. Else you would need to write your own data structures. –  DumbCoder Feb 28 '12 at 22:00
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No STL? Then you'll have to write it yourself. I'd go with a tree with updating counts of how many nodes are in the left child. Should be log(n) everything. –  Mooing Duck Feb 28 '12 at 22:01
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(I will wrap C solutions in a C++ class.) I refuse to read any further –  Lightness Races in Orbit Feb 28 '12 at 22:08
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@TimKemp: Programming is about solving problems. Libraries are the parts of your problem that have been solved already. It’s wasteful and absurd not to use them when you can. –  Jon Purdy Feb 28 '12 at 22:21
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@Lightness: Yes, we've been there before, and I'm firmly in the STL-is-not-the-std-lib camp. However, most of the STL has been incorporated into the C++ std lib, which I consider to be part of C++ (it's the major part of the std paper, after all). –  sbi Feb 28 '12 at 22:51

3 Answers 3

up vote 4 down vote accepted

I think that double-link list is exactly what you want (assuming you do not want a priority queue):

  1. Easy and fast adding elements to both ends
  2. Easy and fast removal of elements from anywhere

You can use std::list container, but (in your case) it is difficult to remove an element from the middle of the list if you only have a pointer (or reference) to the element (wrapped in STL's list element), but you do not have an iterator. If using iterators (e.g. storing them) is not an option - then implementing a double linked list (even with element counter) should be pretty easy. If you implement your own list - you can directly operate on pointers to elements (each of them contains pointers to both of its neighbours). If you do not want to use Boost or STL this is probably the best option (and the simplest), and you have control of everything (you can even write your own block allocator for list elements to speed up things).

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note that a linked list does not allow fast removal of "elements every where", because finding an element in the list is O(n). If you are asked to delete element with value k [or index i], it will be O(n) to get to it. –  amit Feb 28 '12 at 22:13
    
Then you did not read my comment with understanding. If I have a pointer to a list element (which contains pointers to both of its neighbours) than what else do I need to find ? –  sirgeorge Feb 28 '12 at 22:16
    
OK this sounds interesting, thanks and the approach should work. I'll look into it. –  Tim Kemp Feb 28 '12 at 22:40

One option is to use an order statistic tree, an augmented tree structure that supports O(log n) random access to each element, along with O(log n) insertion and deletion at arbitrary points. Internally, the order statistic tree is implemented as a balanced binary search treewith extra information associated with it. As a result, lookups are a slower than in a standard dynamic array, but the insertions are much faster.

Hope this helps!

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insertions/removals to ends are slower than a deque, but faster for the middle. –  Mooing Duck Feb 28 '12 at 22:05
    
Thanks, got a reference implementation or paper anywhere? A search didn't turn up much on these beyond some other questions. –  Tim Kemp Feb 28 '12 at 22:41
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@Tim Kemp- I found this implementation in C: geeksforgeeks.org/archives/10379. I've been wanting to implement this structure in C++ for a while, so I think I might do that when I have some free time (not sure how soon that will be). If I do, I'll post it here. –  templatetypedef Feb 29 '12 at 0:41

You can use a combination of a linked list and a hash table. In java it is called a LinkedHashSet.

The idea is simple, have a linked list of elements, and also maintain a hash map of (key,nodes), where node is a pointer to the relevant node in the linked list, and key is the key representing this node.

Note that the basic implementation is a set, and some extra work will be needed to make this data structure allow dupes.

This data structure allows you both O(1) head/tail access, and both O(1) access to any element in the list. [all on average armotorized]

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As an added note, this can be easily implemented with a std::unordered_set and a Boost.Intrusive list. –  R. Martinho Fernandes Feb 28 '12 at 23:29
    
Just a thought - what happens if there are duplicate elements in the queue? How would you differentiate between them? Also, if you wanted to remove by index, how would you support this? –  templatetypedef Feb 29 '12 at 1:01
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@templatetypedef: More work is needed to support duplicates - as I mentioned. A possible solution might be a map<key,list<node>> - but it suffers when your lists has many dupes. A removal by index is indeed problematic with a LinkedHashSet - I guess any solution to do it efficiently will require converting the list into a skip list [with index counting], which will result in decaying ops to O(logn). There is an obvious trade-off here: The O(1) performance of the LinkedHashSet does not come for free. –  amit Feb 29 '12 at 1:07

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