I couldn't find an answer but I am pretty sure I am not the first one looking for this.
Did anyone know / use / see an STL like container with bidirectional access iterator that has O(1) complexity for Insert/Erase/Lookup ?
Thank you.

In practice, it may be sufficient to use array (vector) and defer costs of inserts and deletes. Delete element by marking it as deleted, insert element into bin at desired position and remember offset for larger indices. Inserts and deletes will O(1) plus O(N) cleanup at convenient time; lookup will be O(1) average, O(number of changes since last cleanup) worst case. 


There is no abstract data type with O(1) complexity for Insert, Erase AND Lookup which also provides a bidirectional access iterator. Edit: This is true for an arbitrarily large domain. Given a sufficiently small domain you can implement a set with O(1) complexity for Insert, Erase and Lookup and a bidirectional access iterator using an array and a doubly linked list:
Initialise:
Insert:
Erase:
Lookup:


tr1's 


Associative arrays (hashtable) have 


One trick I've done when messing about storage optimization is to implement a linked list with an add of O(1)[1], then have a caching operation which provides a structure with a faster O(n) lookup[2]. The actual cache takes some O(n) time to build, and I didn't focus on erase. So I 'cheated' a bit and pushed the work into another operation. But if you don't have to do a ton of adds/deletes, it's not a bad way to do it. [1] Store end pointer and only add onto the end. No traversal required. 


Full list of all the complexity gurantees for the STL can be found here: Summary:
So the answer is based on container types.



You won't be able to fit all of your requirements into one container... something's gotta give ;) However, maybe this is interesting for you: http://www.cplusplus.com/reference/stl/ 

