data-functor-logistic

Updatable analogue of Distributive functors

Version on this page:0.0
LTS Haskell 22.42:0.0@rev:2
Stackage Nightly 2024-11-18:0.0@rev:2
Latest on Hackage:0.0@rev:2

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BSD-3-Clause licensed by Fumiaki Kinoshita
Maintained by [email protected]
This version can be pinned in stack with:data-functor-logistic-0.0@sha256:f181d5667bbe09055bd8c1f66e2345c5163b6f1a270601260b9c6bba9f4a63aa,791

Module documentation for 0.0

Depends on 2 packages(full list with versions):
Used by 1 package in nightly-2022-11-17(full list with versions):

Logistic is to setters as Distributive is to getters

Distributive functors are containers where getters can be enumerated as their own types.

This is the definition of the Distributive class:

class Functor g => Distributive g where
  distribute :: Functor f => f (g a) -> g (f a)

One easy-to-understand instance is Complex.

data Complex a = !a :+ !a

realPart :: Complex a -> a
realPart (x :+ _) =  x

imagPart :: Complex a -> a
imagPart (_ :+ y) =  y

instance Distributive Complex where
  distribute wc = fmap realPart wc :+ fmap imagPart wc

Given any functor-wrapped value, distribute fmaps the getters of Complex to it. distribute id instantiates it as the function ((->) r) functor. In this case, distribute id is equal to realPart :+ imagPart.

However, we cannot modify the elements this way because distribute passes getters but not setters.

Here we introduce a new Logistic class to provide settability to containers:

class Functor t => Logistic t where
  deliver :: Contravariant f => f (t a -> t a) -> t (f (a -> a))

While the type of deliver is slightly more intimidating, it’s actually very close to the distribute; the Functor constraint is Contravariant instead and the contents are endomorphisms.

Here’s the instance for Complex. deliver f contramaps a setter function to f for each field:

instance Logistic Complex where
  deliver f
    = contramap (\g (a :+ b) -> g a :+ b) f
    :+ contramap (\g (a :+ b) -> a :+ g b) f

Instantiating the Op contravariant functor, it is trivial to obtain a collection of setters.

newtype Op a b = Op { getOp :: b -> a }

setters :: Logistic t => t ((a -> a) -> t a -> t a)
setters = getOp <$> deliver (Op id)
ghci> let setR :+ setI = setters
ghci> setR (+1) (0 :+ 1)
1 :+ 1
ghci> setI (+1) (0 :+ 1)
0 :+ 2

deliver has a generic default implementation which works for any single-constructor products.

This class can be useful to complement Distributive. Generalisation to higher-kinded data would also be interesting.

Changes

Revision history for data-functor-logistic

0.1.0.0 – YYYY-mm-dd

  • First version. Released on an unsuspecting world.