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What I'm trying to do is to construct a stack which contains unique elements.

And if an element is pushed to which is already in stack the element is not pushed but the existing elemetn should be moved to the top of the stack, i.e. ABCD + B > ACDB

I would like to here from you which container will be the best choice to have this functionality.

I decided to user stack adapter over list, because

  1. list does provide constant time for element move
  2. list is one of the natively supported containers for the stack.

The drawback of my choice is that I have to manually check for the duplicate elements.

P.S. My compiler is not so recent so please don't suggest unordered_set.

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Even without a recent compiler you can still use boost::unordered_set (not that it seems appropriate for this task). –  Mankarse Aug 23 '12 at 10:31
    
Thanks for the boost solution but I would like to here smth from stl –  deimus Aug 23 '12 at 10:34
    
If unordered_set is a possibility (apart from compiler support), why don’t you use a normal std::set then? However you look at it, std::list is the worst possible solution. Don’t even consider it. std::vector is going to be much more efficient. –  Konrad Rudolph Aug 23 '12 at 10:36
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If you really want the best solution, you should consider Boost.MultiIndex (have a look at the MRU list example, you may be able to adapt it to your needs). –  Mankarse Aug 23 '12 at 10:40
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@deimus: You said you only had 20 integers in a comment, maybe this should be edited in the question. Furthermore, how do you use the stack otherwise ? Do you only need the stack property once you have finish pushing, or do you pop from the stack regularly ? And what is the relative frequence of pushing/popping (if they are interleaved) ? –  Matthieu M. Aug 23 '12 at 13:57

2 Answers 2

up vote 5 down vote accepted

Basically you have to chose between constant time moving + long search, or constant time search + long moving.

It's hard to say which would be more time-consuming, but consider this:

  • You will have to search for if the element exists every time you try to add an element
  • You will not have to move elements every time, since obviously at some times you will be adding elements that are "new" for the container.

I'd suggest you to store elements and their stack positions in different containers. Store elements in a way that provides fast search, store stack positions in a way that provides fast movement. Connect both with pointers (so you can know which element is on which position, and which position holds which element <-- messy phrase, I know it!), and you will perform stuff rather fast.

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Thanks for the answer ! I like your solution. Basically the number of the elements in the stack wont be more than 20, and the elements comparision should be single comparision of ints. So I guess list is enough for this right ? –  deimus Aug 23 '12 at 10:44
    
@deimus, yes, for such small amounts of data you will not see any difference is performance, so it's fine. –  SingerOfTheFall Aug 23 '12 at 10:51
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@deimus: for 20 integers, use std::vector and a linear search. It will fit in a single chunk of memory (guaranteed by vector) and thus a single line of CPU cache. It's probably the fastest solution available to you (even if the search is in theory linear). –  Matthieu M. Aug 23 '12 at 13:55

From your requirements, it seems to me that the structure you want could be derived from a Max Heap.

If instead of storing just the item, you store a pair (generation, item), with generation coming from a monotonically increasing counter, then the "root" of the heap is always the last seen element (and the other elements do not really matter, do they ?).

  • Pop: typical pop operation on the heap (delete-max operation)
  • Push: modified operation, to account for uniqueness of "item" within the structure
    • look for "item", if found update its generation (increase-key operation)
    • if not, insert it (insert operation)

Given the number of elements (20), building the heap on a vector seems a natural choice.

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