semirings

two monoids as one, in holy haskimony

Version on this page:	0.6@rev:1
LTS Haskell 22.42:	0.6@rev:2
Stackage Nightly 2024-11-18:	0.7
Latest on Hackage:	0.7

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BSD-3-Clause licensed by chessai

Maintained by chessai

This version can be pinned in stack with:semirings-0.6@sha256:cc8767bc62b9ff7bbef070ac206b070b173a8612a781eff2d87a14a01cf406b0,2668

Module documentation for 0.6

Data

Depends on 5 packages(full list with versions):

base, base-compat-batteries, containers, hashable, unordered-containers

Used by 6 packages in nightly-2022-11-17(full list with versions):

arithmoi, hedgehog-classes, mod, poly, quickcheck-classes, SciBaseTypes

semirings

Haskellers are usually familiar with monoids and semigroups. A monoid has an appending operation <> or mappend and an identity element mempty. A semigroup has an append <>, but does not require an mempty element.

A Semiring has two appending operations, ‘plus’ and ‘times’, and two respective identity elements, ‘zero’ and ‘one’.

More formally, A semiring R is a set equipped with two binary relations + and *, such that:

(R, +) is a commutative monoid with identity element 0:
- (a + b) + c = a + (b + c)
- 0 + a = a + 0 = a
- a + b = b + a
(R, *) is a monoid with identity element 1:
- (a * b) * c = a * (b * c)
- 1 * a = a * 1 = a
Multiplication left and right distributes over addition
- a * (b + c) = (a * b) + (a * c)
- (a + b) * c = (a * c) + (b * c)
Multiplication by ‘0’ annihilates R:
- 0 * a = a * 0 = 0

*-semirings

A *-semiring (pron. “star-semiring”) is any semiring with an additional operation ‘star’ (read as “asteration”), such that:

star a = 1 + a * star a = 1 + star a * a

A derived operation called “aplus” can be defined in terms of star by:

star :: a -> a
star a = 1 + aplus a
aplus :: a -> a
aplus a = a * star a

As such, a minimal instance of the typeclass ‘Star’ requires only ‘star’ or ‘aplus’ to be defined.

use cases

semirings themselves are useful as a way to express that a type that supports a commutative and associative operation. Some examples:

Numbers {Int, Integer, Word, Double, etc.}:
- ‘plus’ is ‘Prelude.+’
- ‘times’ is ‘Prelude.*’
- ‘zero’ is 0.
- ‘one’ is 1.
Booleans:
- ‘plus’ is ‘||’
- ‘times’ is ‘&&’
- ‘zero’ is ‘False’
- ‘one’ is ‘True’
Set:
- ‘plus’ is ‘union’
- ‘times’ is ‘intersection’
- ‘zero’ is the empty Set.
- ‘one’ is the singleton Set containing the ‘one’ element of the underlying type.
NFA:
- ‘plus’ unions two NFAs.
- ‘times’ appends two NFAs.
- ‘zero’ is the NFA that acceptings nothing.
- ‘one’ is the empty NFA.
DFA:
- ‘plus’ unions two DFAs.
- ‘times’ intersects two DFAs.
- ‘zero’ is the DFA that accepts nothing.
- ‘one’ is the DFA that accepts everything.

*-semirings are useful in a number of applications; such as matrix algebra, regular expressions, kleene algebras, graph theory, tropical algebra, dataflow analysis, power series, and linear recurrence relations.

Some relevant (informal) reading material:

http://stedolan.net/research/semirings.pdf

http://r6.ca/blog/20110808T035622Z.html

https://byorgey.wordpress.com/2016/04/05/the-network-reliability-problem-and-star-semirings/

additional credit

Some of the code in this library was lifted directly from the Haskell library ‘semiring-num’.

Changes

0.6: [2021-01-07]

Remove hashable flag (only necessary was unordered-containers flag)
Drop redundant Eq constraint on default definition of coprime
Document (lack of guaranteed) rounding behaviour of quotRem
Fix totally broken Ord instance for Tropical
Stop depending on integer-gmp

0.5.4: [2020.07.13]

Drop support for GHCs prior to 7.10
Add default quotRem implementation
Expose Data.Semiring.Generic.gfromNatural

0.5.3: [2020.02.18]

Fix non-terminating GenericSemiring instances
Fix incorrect implementation of gtimes’ for product types in GSemiring
Implement GcdDomain.divide explicitly
Remove redundant imports
Disambiguate all haddock identifiers

0.5.2: [2019.11.01]

Add gcdExt function
Bump upper bound on base
Add GcdDomain/Euclidean instances for Mod2
Add GcdDomain/Euclidean instances for {Int|Word}{8|16|32|64}
Mention RebindableSyntax in haddocks

rev: b4334fe06635f106b1f08bac127c1ae259cddae6

0.5.1: [2019.09.13]

Bump upper bound on containers to 0.7
Bump upper bound on hashable to 1.4
Remove redundant constraints from WrappedFractional instances
Add lower bound on semigroups

rev: 7e6f5e312bec5495ce9390664578bfb09d6e3eb9

0.5: [2019.09.05]

Add Field typeclass, instances, and functions.
Add Euclidean and GcdDomain instances for (), CDouble, CFloat, and Complex.
Add Ring and Bits instances for WrappedFractional and WrappedIntegral.
Add fromInteger and fromIntegral functions for Ring.

rev: eb2617d93d354085fe5b706a145108d090dbc027

0.4.2: [2019.06.06]

Add GcdDomain and Euclidean typeclasses.
Add Mod2, the integers modulo 2, along with its Semiring/Ring/Star instances.

rev: b5af2fa403c68a66a3282b2a452b9be1c98e3fd6

0.4.1: [2019.05.04]

Remove unlawful and useless Ring instance for GHC.Natural.Natural.
Correct behaviour/docs of Data.Semiring.(^)

rev: d6c42aeea602499e32081e84974910d0fe955db6

0.4: [2019.05.01]

Remove unlawful instances of Ring (thanks to @Bodigrim for noticing these)
Add fromNatural to Semiring typeclass (thanks @Bodigrim)
Remove Semiring/Ring instances for [] and Vector. (thanks @Bodigrim) These instances are better served by a dedicated polynomial package, which @Bodigrim has made at http://hackage.haskell.org/package/poly.
Add isZero/isOne predicates.

rev: 1285d3e42242db310083fbf78d2e611bccecc63a

0.3.1.2: [2019.04.02]

Fix build error on windows caused by providing instances to POSIX types. Thanks to @Bodigrim and @CarlEdman for reporting this.

rev: 13d4b3920912f8030b5d47777fb57b6e0dd15c10

0.3.1.1: [2019.01.12]

Fix build error caused by disabling building with containers.

rev: 5f02279613bfcd20c2e9d68f01d669e563540ced

0.3.1.0: [2019.01.12]

Add Data.Semiring.Tropical
Fix build problem on GHC 7.4 caused by introduction of IntSetOf/IntMapOf
Make sure there are no warnings when building with -Wall, for any GHC

rev: 68c604250e2cf5688b3c641fd40b66fe7e1d45bf

0.3.0.0: [2019.01.01]

Rename the test suite to make stack happy.
Clarified documentation. See #26.
Simplify implementation of ^. See #24.
Add ‘GenericSemiring’, a newtype wrapper meant to be used with -XDerivingVia, helping avoid ‘-XDefaultSignatures’.
Add newtypes for IntSet and IntMap.
Remove Semiring and Ring instances for Product and Sum.
Make sum and product more efficient for base>=4.7

rev: d7d47c3db82a8e85330bb138169b9783eb346f38

0.2.1.1: [2018.10.01]

Fixed build on GHC-7.4
Provide Semiring and Ring for an arbitrary Num via WrappedNum newtype.
Make note of Semiring semantics for Vector and [] in the documentation.
Require build script to ensure semirings builds with GHC-8.4.3 and GHC-8.6.1
Fixed unlawful behaviour of [] Semiring instance.
Improve performance of ^.

rev: e9b85d8aa6a238d07a061402f0ba365190eee7aa

0.2.1.0: [2018.09.26]

Removed use of DefaultSignatures
Removed free semiring

rev: 68e97e82280a50c374f50500a73222a5432cc45e

0.2.0.1: [2018.07.28]

Add instances for Op, Equivalence, Comparison, and Predicate from Data.Functor.Contravariant (upcoming base 4.12.0.0)
docfix for (prod -> product, prod’ -> product’) change that occured in version 0.2.0.0.

rev: 60869059d2959676877c9661427814b2bafd5d97

0.2.0.0: [2018.07.23]

Fixed the Semiring instances of Set, HashSet, Vector, Storable Vector, Unboxed Vector.
Removed the Semiring instances of Seq, Alt, Endo.
Added comprehensive test suite that tests all Semiring instances defined in Data.Semiring
Added Free semiring (Data.Semiring.Free)
Added newtypes: Add, Mul
Bounds for containers: [0.3,0.6] -> [0.5.4,0.6.0.9]
Add semiring instance for Proxy
names changed: (prod -> product, prod’ -> product’)
sum’ and product’ now use foldl’ instead of foldr’

rev: b985dcf37b919facc2dfbec66ea923ca5427c9f6

0.1.2: [2018.05.04]

semirings now builds back to GHC-7.4.1.
many doc fixes.

0.1.1: [2018.04.20]

Remove unused coerce-util dependency.

0.1.0:

Initial version.