Portability | rank N types |
---|---|

Stability | experimental |

Maintainer | Edward Kmett <ekmett@gmail.com> |

Safe Haskell | Trustworthy |

Left Kan lifts for functors over Hask, wherever they exist.

- newtype Lift g f a = Lift {}
- toLift :: Functor z => (forall a. f a -> g (z a)) -> Lift g f b -> z b
- fromLift :: Adjunction l u => (forall a. Lift u f a -> z a) -> f b -> u (z b)
- glift :: Adjunction l g => k a -> g (Lift g k a)
- composeLift :: (Composition compose, Functor f, Functor g) => Lift f (Lift g h) a -> Lift (compose g f) h a
- decomposeLift :: (Composition compose, Adjunction l g) => Lift (compose g f) h a -> Lift f (Lift g h) a
- adjointToLift :: Adjunction f u => f a -> Lift u Identity a
- liftToAdjoint :: Adjunction f u => Lift u Identity a -> f a
- liftToComposedAdjoint :: (Adjunction f u, Functor h) => Lift u h a -> f (h a)
- composedAdjointToLift :: Adjunction f u => f (h a) -> Lift u h a
- repToLift :: Representable u => Key u -> a -> Lift u Identity a
- liftToRep :: Representable u => Lift u Identity a -> (Key u, a)
- liftToComposedRep :: (Functor h, Representable u) => Lift u h a -> (Key u, h a)
- composedRepToLift :: Representable u => Key u -> h a -> Lift u h a

# Left Kan lifts

f => g . Lift g f (forall z. f => g . z) -> Lift g f => z -- couniversal

Here we use the universal property directly as how we extract from our definition of `Lift`

.

toLift :: Functor z => (forall a. f a -> g (z a)) -> Lift g f b -> z bSource

The universal property of `Lift`

fromLift :: Adjunction l u => (forall a. Lift u f a -> z a) -> f b -> u (z b)Source

glift :: Adjunction l g => k a -> g (Lift g k a)Source

`f => g (``Lift`

g f a)

composeLift :: (Composition compose, Functor f, Functor g) => Lift f (Lift g h) a -> Lift (compose g f) h aSource

`composeLift`

.`decomposeLift`

=`id`

`decomposeLift`

.`composeLift`

=`id`

decomposeLift :: (Composition compose, Adjunction l g) => Lift (compose g f) h a -> Lift f (Lift g h) aSource

adjointToLift :: Adjunction f u => f a -> Lift u Identity aSource

`Lift u Identity a`

is isomorphic to the left adjoint to `u`

if one exists.

`adjointToLift`

.`liftToAdjoint`

≡`id`

`liftToAdjoint`

.`adjointToLift`

≡`id`

liftToAdjoint :: Adjunction f u => Lift u Identity a -> f aSource

`Lift u Identity a`

is isomorphic to the left adjoint to `u`

if one exists.

liftToComposedAdjoint :: (Adjunction f u, Functor h) => Lift u h a -> f (h a)Source

`Lift u h a`

is isomorphic to the post-composition of the left adjoint of `u`

onto `h`

if such a left adjoint exists.

`liftToComposedAdjoint`

.`composedAdjointToLift`

≡`id`

`composedAdjointToLift`

.`liftToComposedAdjoint`

≡`id`

composedAdjointToLift :: Adjunction f u => f (h a) -> Lift u h aSource

`Lift u h a`

is isomorphic to the post-composition of the left adjoint of `u`

onto `h`

if such a left adjoint exists.

liftToComposedRep :: (Functor h, Representable u) => Lift u h a -> (Key u, h a)Source

composedRepToLift :: Representable u => Key u -> h a -> Lift u h aSource