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I am looking for a bisect operation in Haskell similar to Python's bisect_left() and friends. The input would be a lower bound, an upper bound, a non-decreasing function (Ord a)=>(Int->a) which must be defined for all integers between the lower and upper bound, and a search value. The return value is the highest integer i where lower <= i <= upper and f(i) < search_term. Performance should be O(log(n)).

Hoogling for this:

(Ord a)=>(Int->a)->Int->Int->a->Int

does not yield any results.

Is there a standard, generic binary search operator in a library somewhere?

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Is the Int -> a function assumed to be monotonically increasing/nondecreasing? –  jwodder Mar 24 '12 at 23:05
@jwodder the function should be non-decreasing -- edited to add the constraint –  gcbenison Mar 24 '12 at 23:42
You may also like finger trees, which are designed to have an efficient search for monotonic predicates. –  Daniel Wagner Mar 25 '12 at 3:30

3 Answers 3

up vote 7 down vote accepted

Ross Paterson's binary-search package on Hackage does what you're looking for. Specifically, see searchFromTo, which has type signature

searchFromTo :: Integral a => (a -> Bool) -> a -> a -> Maybe a

As Tikhon points out, [a] in Haskell is a linked list rather than an array. Since linked lists only support sequential access, it is not possible to get a logarithmic-time search on an [a] data structure. Instead, you should use a genuine array data structure -- see the vector library for the preferred implementation of arrays.

Dan Doel has written a family of binary search functions for the mutable vectors in the vector package: see Data.Vector.Algorithms.Search in his vector-algorithms library. In contrast to Ross Paterson's library, which provides a pure API, the API in Data.Vector.Algorithms.Search is monadic (that is, it must be run in the ST monad or the IO monad).

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A function like bisect_left (assuming I read its documentation correctly) cannot really exists for lists.

This makes sense--since you don't have random access in O(1) in lists (remember that Haskell lists are linked lists, while Python uses something more like a vector), you could not really get an O(logn) binary search.

Particularly, just getting to the middle of the list takes O(n/2) (which is just O(n)) steps, so an algorithm that involved the middle of the list (like binary search) would have to be in Ω(n).

In short--binary search does not make sense on lists. If you're doing a lot of searching, you probably want a different data structure. Particularly, take a look at Data.Set which uses binary trees internally.

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He said Array not List. –  alternative Mar 24 '12 at 23:16
@monadic But his type signature said list. His terminology is confused. –  bitbucket Mar 24 '12 at 23:18
@bitbucket Indeed -- too much C programming makes me associate [] with the word "array", and I was sloppy. However, what I'm really looking for is a binary search that works with any non-decreasing function, not just with a sorted List or Array. So I edited out the sentences about Lists / Arrays because they just confuse the issue. –  gcbenison Mar 24 '12 at 23:53
binary_search :: Ord a, Integral b => (b -> a) -> b -> b -> a -> b
binary_search f low hi a = go low hi
        go low hi | low + 1 == hi = low
        go low hi = go low' hi'
              mid = (low + hi) `div` 2
              (low',hi') = if f mid < a then (mid,hi) else (low, mid)

(This may have an off-by-one error.)

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