Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am looking for a "List" with log(N) insert/delete at index i. I put the word "List" in quotes, because I don't mean it to be an actual Haskell List, but just any ordered container with a bunch of objects (in fact, it probably needs some sort of tree internally). I am surprised that I haven't found a great solution yet....

This is the best solution I have so far- Use Data.Sequence with these two functions.

doInsert position value seq = before >< ( value <| after)
     (before, after) = splitAt position seq

doDelete position seq = before >< (drop 1 after)
     (before, after) = splitAt position seq

While these are technically all log(N) functions, it feels like I am doing a bunch of extra stuff for each insert/delete.... In other words, this scales like K*log(N) for a K that is larger than it should be. Plus, since I have to define this stuff myself, I feel like I am using Sequence for something it wasn't designed for.

Is there a better way?

This is a related question (although it only deals with Sequences, I would happily use anything else): Why doesn't Data.Sequence have `insert' or `insertBy', and how do I efficiently implement them?

And yes, this question is related to this other one I posted a few days ago: Massive number of XML edits

share|improve this question
why not :: Data.Map.Map Int a? –  Will Ness Dec 18 '13 at 2:26
I'm not sure I understand what the objection to Data.Sequence is. Can you please spell out what your success criteria are? What would an alternative choice need to demonstrate to be a clear improvement over Data.Sequence? –  Daniel Wagner Dec 18 '13 at 4:42
@DanielWagner- Data.Sequence is acceptable, but it has the problems I mention above (there should be a way to insert/delete without the intermediary ripping apart and rebuilding the whole tree, and the fact that these functions aren't a part of the lib already makes me feel it wasn't written with this purpose in mind). I am just reaching out to find the Haskell idomatic solution, or verify that this is really the recommended way. I mean, really, why aren't insert/delete already part of the sequence lib, what am I missing? –  jamshidh Dec 18 '13 at 5:26
You might want to try a naive implementation using lists and then benchmark and optimize the bottlenecks. Using typeclasses like Functor, Foldable and Traversable will make it easier to swap out data structures. –  cheecheeo Dec 18 '13 at 7:10
I think Data.Sequence serves the purpose. Both operations (split, and append (><) ) are proportional to log(min(n1,n2)) where n1+n2 ~ n here. If the elements are inserted randomly, the overhead K in K*log(n) should be reasonable. –  Yogesh Sajanikar Dec 18 '13 at 11:26

2 Answers 2

There are structures such as catenable seqs, catenable queues, etc. that can give you O(1) join. However, all such structures I know of get away with this by giving you O(i) split. If you want split and join both to be as optimal as possible, I think a fingertree (aka Sequence) is your best bet. The entire point of the way Sequence is structured is to ensure that splitting, joining, etc. have an asymptotically not terrible amount of juggling to do when splitting and joining, among other things.

If you could get away with an IntMap which started sparse and got denser, and was occasionally "rebuilt" when things got too dense, then that might give you better performance -- but that really depends on your patterns of use.

share|improve this answer

If you work carefully with predefined Haskell Lists, there should be no problem with them. (For example when concatenating two lists).

If you'd like to find an implementation for lists, with efficient insertion and deletion, an AVLTree or any kind or balanced binary tree would work. For example store in an AVLTree a tuple (Int, a) where Int is the index of the list and a the elem. Therefore, on average complexity, the operations would be logarithmic for insertion and deletion.

I hope this answers your question.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.