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I have a need for a STL container which is capable of:

1) only storing unique items

2) has a guaranteed order based on when item was added to the container

So, if I add items A, B, and C to my container in that order,

A will always be accessible via: myItems().begin() or myItems[0]

B will always be accessible via: myItems.begin() + 1 or myItems[1]

C will always be accessible via: myItems.begin() + 2 or myItems[2]

I am currently using an unordered_set which does not fulfill need #2. If I use a regular set, I can specify a less than function for ordering but the ordering may change as new items are added to the container.

Using a regular set, if I insert a new item D which is less than A, A will no longer be accessible via myItems.begin(). I could be wrong but that is my understanding of how set ordering works.

If I use a list, I can enforce the unique aspect by calling list::unique() after inserting every new item:

myList.sort();
myList.unique();

or I could use std::find with a list or a vector and manually enforce the unique aspect:

iter = std::find(myList.begin(), myList.end(), item);

//Only add item if not already in list/vector...
if(iter == myList.end())
{
    myList.push_back(item);
}

Is there a better container/solution for my particular needs?

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How did you arrive at these requirements? They seem unorthodox to me. – Lightness Races in Orbit Nov 26 '12 at 20:21
    
@LightnessRacesinOrbit: Looks like the building blocks for a FIFO cache to me. – Mooing Duck Nov 26 '12 at 20:41
up vote 2 down vote accepted

There is no such container in the STL, although you can implement one with the existing containers by mixing a std::set/std::unordered_set (to check for uniqueness) and a std::deque (or any other sequence container) for the ordering.

Boost has multiindex containers that already do this for you if you can use it and want to take a look.

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Would using both look something like this? 1) Insert item into set/unordered_set 2) Check the returned pair of set::insert() to see if item already existed in set 3) If item didn't already exist in set, add to deque/vector. 4) Now I have a manually constructed deque\vector of unique items with the correct ordering – user974967 Nov 26 '12 at 20:47
    
@user974967: Correct. You also need to track deletions of elements so that they happen from both views of the container. Depending on your usage pattern that might be simple (i.e. if you always work on the ordered sequence, then removal is a binary search on the std::set or a O(N) lookup in the std::unordered_set – David Rodríguez - dribeas Nov 26 '12 at 21:33

I'd prefer to use std::vector or std::deque in that case. std::list is not good solution since you need to access elements by index (lists have O(n) complexity on this operation). std::deque can be somewhat slower than vector for index access since it manages memory with chunks. But, if you have frequent/scattered inserts, deque can be better.

If you need to preserve order in which elements added, you cant do sort/unique; so this task requires uniqueness constraint which can be done using std::set or unordered_map.

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