The properties I'm looking for are
- initially maintains insertion order
- transversing in the insertion order
- and of course maintain that each element is unique
But there are cases where It's okay to disregard insertion order, such as...
- retrieving a difference between two different sets
- performing a union the two sets eliminating any duplicates
Java's LinkedHashSet seems to be exactly what I'm after, except for the fact it's not written in Haskell.
current & initial solution
The easiest (and a relevantly inefficient) solution is to implement it as a list and transform it into a set when I need too, but I believe there is likely a better way.
other ideas
My first idea was to implement it as a Data.Set
of a newtype
of (Int, a)
where it would be ordered by the first tuple index, and the second index (a
) being the actual value. I quickly realised this wasn't going to work because as the set would allow for duplicates of the type a
, which would have defeated the whole purpose of using a set.
simultaneously maintaining a list and a set? (nope)
Another Idea I had was have an abstract data type that would maintain both a list and set representation of the data, which doesn't sound to efficient either.
recap
Are there any descent implementations of such a data structure in Haskell? I've seen Data.List.Ordered but it seems to just add set operations to lists, which sounds terribly inefficient as well (but likely what I'll settle with if I can't find a solution). Another solution suggested here, was to implement it via finger tree, but I would prefer to not reimplement it if it's already a solved problem.
(Max Int,Set val)
, which will let you maintain insertion order (via theMax Int
) and reduce duplicates (viaSet val
). Then you'll have O(log n) inserts and lookups, and O(n) traversals. (hackage.haskell.org/package/splaytree doesn't implement this in particular, but it shows the technique for Maps)