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2-3 finger trees are described in a paper by Ralf Hinze and Ross Paterson. They provide not only a complete description of the data structure itself, but several examples of how it can be used ...in Haskell. Most of the features they describe are already available in the Clojure library, but the documentation simply isn't there yet. I'll be introducing ...


To answer your question about finger trees in particular, I think the problem is that they have relatively high constant costs compared to arrays, and are more complex than other ways of achieving efficient concatenation. A Builder has a more efficient interface for just appending chunks, and they're usually readily available (see the links in ...


This should be a start - http://www.haskell.org/haskellwiki/Performance#Data.Sequence_vs._lists A sequence uses between 5/6 and 4/3 times as much space as the equivalent list (assuming an overhead of one word per node, as in GHC). If only deque operations are used, the space usage will be near the lower end of the range, because all internal nodes will be ...


In addition to John Lato's answer, I'll add some specific details about the performance of finger trees, since I spent some time looking at that in the past. The broad summary is: Data.Sequence has great constant factors and asymptotics: it is almost as fast as [] when accessing the front of the list (where both data structures have O(1) asymptotics), and ...


Given that reduce is a common alternate name for a "fold" function, I'd guess that it's something similar to the Foldable type class. The instance definitions seem to make sense as such, as well. The Foldable class can be defined using just foldr, which has the type signature foldr :: (Foldable t) => (a -> b -> b) -> b -> t a -> b, whereas ...


Ignoring your Finger Tree question and only responding to your further explanation: did you look into Data.Text.Lazy.Builder or, specifically for building HTML, blaze-html? Both allow fast concatenation. For slicing, if that is important for solving your problem, they might not have ideal performance.


There is the fingertree package (though I have not used it; only heard about it).


It's defined in the paper linked in the article: Finger Trees: A Simple General-purpose Data Structure. class Reduce f where reducer :: (a -> b -> b) -> (f a -> b -> b) reducel :: (b -> a -> b) -> (b -> f a -> b)


Simon Tatham's Counted B-Trees are similar. if the node count is replaced with a width of buffer like in tweak, these provide operations like ropes. in fact from reading that the page you reference i see that it was being used like a piece table or line table for an editor in the paper, Positional Delta Trees to reconcile updates with read-optimized data ...


I've got a project on github called Boost.Intrusive Annotated Trees that aims to provide generic support for annotations like subtree count in Boost.Intrusive. Subtree count was my original use case for it. Currently it requires C++11 variadic templates and only supports the rbtree, but it works, and I hope to remove both of those restrictions in time ...


Another implementation clojure/core.rrb-vector was announced. Since it's in the clojure github account, it seems like it's going to be the de-facto implementation.

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