Copyright | (c) Edward Kmett 2011-2014 |
---|---|

License | BSD3 |

Maintainer | ekmett@gmail.com |

Stability | experimental |

Safe Haskell | None |

Language | Haskell98 |

Representable endofunctors over the category of Haskell types are isomorphic to the reader monad and so inherit a very large number of properties for free.

- class Distributive f => Representable f where
- tabulated :: (Representable f, Representable g, Profunctor p, Functor h) => p (f a) (h (g b)) -> p (Rep f -> a) (h (Rep g -> b))
- newtype Co f a = Co {
- unCo :: f a

- fmapRep :: Representable f => (a -> b) -> f a -> f b
- distributeRep :: (Representable f, Functor w) => w (f a) -> f (w a)
- apRep :: Representable f => f (a -> b) -> f a -> f b
- pureRep :: Representable f => a -> f a
- liftR2 :: Representable f => (a -> b -> c) -> f a -> f b -> f c
- liftR3 :: Representable f => (a -> b -> c -> d) -> f a -> f b -> f c -> f d
- bindRep :: Representable f => f a -> (a -> f b) -> f b
- mfixRep :: Representable f => (a -> f a) -> f a
- mzipRep :: Representable f => f a -> f b -> f (a, b)
- mzipWithRep :: Representable f => (a -> b -> c) -> f a -> f b -> f c
- askRep :: Representable f => f (Rep f)
- localRep :: Representable f => (Rep f -> Rep f) -> f a -> f a
- duplicatedRep :: (Representable f, Semigroup (Rep f)) => f a -> f (f a)
- extendedRep :: (Representable f, Semigroup (Rep f)) => (f a -> b) -> f a -> f b
- duplicateRep :: (Representable f, Monoid (Rep f)) => f a -> f (f a)
- extendRep :: (Representable f, Monoid (Rep f)) => (f a -> b) -> f a -> f b
- extractRep :: (Representable f, Monoid (Rep f)) => f a -> a
- duplicateRepBy :: Representable f => (Rep f -> Rep f -> Rep f) -> f a -> f (f a)
- extendRepBy :: Representable f => (Rep f -> Rep f -> Rep f) -> (f a -> b) -> f a -> f b
- extractRepBy :: Representable f => Rep f -> f a -> a

# Representable Functors

class Distributive f => Representable f where Source

A `Functor`

`f`

is `Representable`

if `tabulate`

and `index`

witness an isomorphism to `(->) x`

.

Every `Distributive`

`Functor`

is actually `Representable`

.

Every `Representable`

`Functor`

from Hask to Hask is a right adjoint.

`tabulate`

.`index`

≡ id`index`

.`tabulate`

≡ id`tabulate`

.`return`

≡`return`

Representable Identity Source | |

Representable Complex Source | |

Representable Dual Source | |

Representable Sum Source | |

Representable Product Source | |

Representable ((->) e) Source | |

Representable (Proxy *) Source | |

Representable m => Representable (IdentityT m) Source | |

Representable f => Representable (Cofree f) Source | |

Representable f => Representable (Co f) Source | |

Representable w => Representable (TracedT s w) Source | |

Representable m => Representable (ReaderT e m) Source | |

(Representable f, Representable g) => Representable (Compose f g) Source | |

Representable (Tagged * t) Source | |

(Representable f, Representable g) => Representable (Product f g) Source | |

(Representable f, Representable m) => Representable (ReaderT f m) Source |

tabulated :: (Representable f, Representable g, Profunctor p, Functor h) => p (f a) (h (g b)) -> p (Rep f -> a) (h (Rep g -> b)) Source

`tabulate`

and `index`

form two halves of an isomorphism.

This can be used with the combinators from the `lens`

package.

`tabulated`

::`Representable`

f =>`Iso'`

(`Rep`

f -> a) (f a)

# Wrapped representable functors

ComonadTrans Co Source | |

(Representable f, (~) * (Rep f) a) => MonadReader a (Co f) Source | |

Representable f => Monad (Co f) Source | |

Functor f => Functor (Co f) Source | |

Representable f => Applicative (Co f) Source | |

(Representable f, Monoid (Rep f)) => Comonad (Co f) Source | |

Representable f => Distributive (Co f) Source | |

Representable f => Apply (Co f) Source | |

Representable f => Bind (Co f) Source | |

(Representable f, Semigroup (Rep f)) => Extend (Co f) Source | |

Representable f => Representable (Co f) Source | |

type Rep (Co f) = Rep f Source |

# Default definitions

## Functor

fmapRep :: Representable f => (a -> b) -> f a -> f b Source

## Distributive

distributeRep :: (Representable f, Functor w) => w (f a) -> f (w a) Source

## Apply/Applicative

apRep :: Representable f => f (a -> b) -> f a -> f b Source

pureRep :: Representable f => a -> f a Source

liftR2 :: Representable f => (a -> b -> c) -> f a -> f b -> f c Source

liftR3 :: Representable f => (a -> b -> c -> d) -> f a -> f b -> f c -> f d Source

## Bind/Monad

bindRep :: Representable f => f a -> (a -> f b) -> f b Source

## MonadFix

mfixRep :: Representable f => (a -> f a) -> f a Source

## MonadZip

mzipRep :: Representable f => f a -> f b -> f (a, b) Source

mzipWithRep :: Representable f => (a -> b -> c) -> f a -> f b -> f c Source

## MonadReader

askRep :: Representable f => f (Rep f) Source

localRep :: Representable f => (Rep f -> Rep f) -> f a -> f a Source

## Extend

duplicatedRep :: (Representable f, Semigroup (Rep f)) => f a -> f (f a) Source

extendedRep :: (Representable f, Semigroup (Rep f)) => (f a -> b) -> f a -> f b Source

## Comonad

duplicateRep :: (Representable f, Monoid (Rep f)) => f a -> f (f a) Source

extendRep :: (Representable f, Monoid (Rep f)) => (f a -> b) -> f a -> f b Source

extractRep :: (Representable f, Monoid (Rep f)) => f a -> a Source

## Comonad, with user-specified monoid

duplicateRepBy :: Representable f => (Rep f -> Rep f -> Rep f) -> f a -> f (f a) Source

extendRepBy :: Representable f => (Rep f -> Rep f -> Rep f) -> (f a -> b) -> f a -> f b Source

extractRepBy :: Representable f => Rep f -> f a -> a Source