apply-merge: Lift a binary, non-decreasing function onto ordered lists and order the output

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  - Data.List.ApplyMerge
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    - Data.List.NonEmpty.ApplyMerge

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0.1.0.0

Versions [RSS]	0.1.0.0, 0.1.1.0
Change log	ChangeLog.md
Dependencies	base (>=4.16 && <4.21), containers (>=0.6 && <0.8), pqueue (>=1.4 && <1.6), reflection (>=2.1 && <2.2) [details]
License	BSD-3-Clause
Copyright	Preetham Gujjula
Author	Preetham Gujjula
Maintainer	Preetham Gujjula <libraries@mail.preetham.io>
Revised	Revision 1 made by pgujjula at 2024-05-13T12:16:15Z
Category	Data
Home page	https://github.com/pgujjula/apply-merge#readme
Bug tracker	https://github.com/pgujjula/apply-merge/issues
Source repo	head: git clone https://github.com/pgujjula/apply-merge
Uploaded	by pgujjula at 2024-05-11T19:21:53Z
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Readme for apply-merge-0.1.1.0

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apply-merge

Hackage Version

Lift a binary, non-decreasing function onto ordered lists and order the output

Overview

This library provides a function

applyMerge :: Ord c => (a -> b -> c) -> [a] -> [b] -> [c]

If f is a binary function that is non-decreasing in both arguments, and xs and ys are (potentially infinite) ordered lists, then applyMerge f xs ys is an ordered list of all f x y, for each x in xs and y in ys.

Producing \(n\) elements of applyMerge f xs ys takes \(O(n \log n)\) time and \(O(\sqrt{n})\) auxiliary space, assuming that f and compare take \(O(1)\) time. See docs/ALGORITHM.md#note-about-memory-usage for caveats.

Examples

With applyMerge, we can implement a variety of complex algorithms succinctly. For example, the Sieve of Erastosthenes¹ to generate prime numbers:

primes :: [Int]
primes = 2 : ([3..] `minus` composites)    -- `minus` from data-ordlist

composites :: [Int]
composites = applyMerge (*) primes [2..]

3-smooth numbers (Wikipedia):

smooth3 :: [Integer]
smooth3 = applyMerge (*) (iterate (*2) 1) (iterate (*3) 1)

Gaussian integers, ordered by norm (Wikipedia):

zs :: [Integer]
zs = 0 : concatMap (\i -> [i, -i]) [1..]

gaussianIntegers :: [GaussianInteger]      -- `GaussianInteger` from arithmoi
gaussianIntegers = map snd (applyMerge (\x y -> (norm (x :+ y), x :+ y)) zs zs)

Square-free integers (Wikipedia):

squarefrees :: [Int]
squarefrees = [1..] `minus` applyMerge (*) (map (^2) primes) [1..]

Naming

The name applyMerge comes from the idea of applying f to each x and y, and merging the results into one sorted output. I'm still thinking of the ideal name for this function. Other options include sortedLiftA2/orderedLiftA2, from the idea that this function is equivalent to sort (liftA2 f xs ys) when xs and ys are finite. If you have any ideas on the naming, let me know!

Licensing

This project licensed under BSD-3-Clause (except for .gitignore, which is under CC0-1.0), and follows REUSE licensing principles.

Note that this is really the Sieve of Erastosthenes, as defined in the classic The Genuine Sieve of Eratosthenes. Constrast this to other simple prime generation implementations, such as

 primes = sieve [2..] where sieve (p : xs) = p : sieve [x | x <- xs, x `rem` p > 0]

which is actually trial division and not a faithful implementation of the Sieve of Erastosthenes.