bit-stream: Lazy, infinite, compact stream of Bool with O(1) indexing.

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Deprecated in favor of chimera

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- Data.BitStream
  - Data.BitStream.ContinuousMapping
  - Data.BitStream.WheelMapping

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bit-stream-0.1.0.2.tar.gz [browse] (Cabal source package)
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Versions [RSS]	0.1.0.0, 0.1.0.1, 0.1.0.2
Dependencies	base (>=4.5 && <5), bit-stream, ghc-prim, transformers, vector [details]
License	BSD-3-Clause
Copyright	2017 Bodigrim
Author	Bodigrim
Maintainer	andrew.lelechenko@gmail.com
Home page	https://github.com/Bodigrim/bit-stream#readme
Source repo	head: git clone https://github.com/Bodigrim/bit-stream
Uploaded	by Bodigrim at 2017-08-08T18:03:22Z
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Reverse Dependencies	1 direct, 0 indirect [details]
Executables	find-foo
Downloads	2593 total (9 in the last 30 days)
Rating	(no votes yet) [estimated by Bayesian average]
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Status	Docs available [build log] Last success reported on 2025-05-01 [all 2 reports]

Readme for bit-stream-0.1.0.2

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bit-stream

Lazy, infinite, compact stream of Bool with O(1) indexing. Most useful for memoization of predicates.

Example 1

Consider following predicate:

isOdd :: Word -> Bool
isOdd 0 = False
isOdd n = not (isOdd (n - 1))

Its computation is expensive, so we'd like to memoize its values into BitStream using tabulate and access this stream via index instead of recalculation of isOdd:

isOddBS :: BitStream
isOddBS = tabulate isOdd

isOdd' :: Word -> Bool
isOdd' = index isOddBS

We can do even better by replacing part of recursive calls to isOdd by indexing memoized values. Write isOddF such that isOdd = fix isOddF:

isOddF :: (Word -> Bool) -> Word -> Bool
isOddF _ 0 = False
isOddF f n = not (f (n - 1))

and use tabulateFix:

isOddBS :: BitStream
isOddBS = tabulateFix isOddF

isOdd' :: Word -> Bool
isOdd' = index isOddBS

Example 2

Define a predicate, which checks whether its argument is a prime number by trial division.

isPrime :: Word -> Bool
isPrime n
  | n < 2     = False
  | n < 4     = True
  | even n    = False
  | otherwise = and [ n `rem` d /= 0 | d <- [3, 5 .. ceiling (sqrt (fromIntegral n))], isPrime d]

Convert it to unfixed form:

isPrimeF :: (Word -> Bool) -> Word -> Bool
isPrimeF f n
  | n < 2     = False
  | n < 4     = True
  | even n    = False
  | otherwise = and [ n `rem` d /= 0 | d <- [3, 5 .. ceiling (sqrt (fromIntegral n))], f d]

Create its memoized version for faster evaluation:

isPrimeBS :: BitStream
isPrimeBS = tabulateFix isPrimeF

isPrime' :: Word -> Bool
isPrime' = index isPrimeBS