module Data.Eq.Type
(
(:=)(..)
, refl
, trans
, symm
, coerce
, lift
, lift2, lift2'
, lift3, lift3'
#ifdef LANGUAGE_TypeFamilies
, lower
, lower2
, lower3
#endif
) where
import Prelude ()
import Control.Category
import Data.Semigroupoid
infixl 4 :=
data a := b = Refl { subst :: forall c. c a -> c b }
refl :: a := a
refl = Refl id
newtype Coerce a = Coerce { uncoerce :: a }
coerce :: a := b -> a -> b
coerce f = uncoerce . subst f . Coerce
instance Category (:=) where
id = Refl id
(.) = subst
instance Semigroupoid (:=) where
o = subst
trans :: a := b -> b := c -> a := c
trans = (>>>)
newtype Symm p a b = Symm { unsymm :: p b a }
symm :: (a := b) -> (b := a)
symm a = unsymm (subst a (Symm id))
newtype Lift f a b = Lift { unlift :: f a := f b }
lift :: a := b -> f a := f b
lift a = unlift (subst a (Lift id))
newtype Lift2 f c a b = Lift2 { unlift2 :: f a c := f b c }
lift2 :: a := b -> f a c := f b c
lift2 a = unlift2 (subst a (Lift2 id))
lift2' :: a := b -> c := d -> f a c := f b d
lift2' ab cd = lift2 ab . lift cd
newtype Lift3 f c d a b = Lift3 { unlift3 :: f a c d := f b c d }
lift3 :: a := b -> f a c d := f b c d
lift3 a = unlift3 (subst a (Lift3 id))
lift3' :: a := b -> c := d -> e := f -> g a c e := g b d f
lift3' ab cd ef = lift3 ab . lift2 cd . lift ef
#ifdef LANGUAGE_TypeFamilies
type family Inj f :: *
type instance Inj (f a) = a
newtype Lower a b = Lower { unlower :: Inj a := Inj b }
lower :: f a := f b -> a := b
lower eq = unlower (subst eq (Lower id :: Lower (f a) (f a)))
type family Inj2 f :: *
type instance Inj2 (f a b) = a
newtype Lower2 a b = Lower2 { unlower2 :: Inj2 a := Inj2 b }
lower2 :: f a c := f b c -> a := b
lower2 eq = unlower2 (subst eq (Lower2 id :: Lower2 (f a c) (f a c)))
type family Inj3 f :: *
type instance Inj3 (f a b c) = a
newtype Lower3 a b = Lower3 { unlower3 :: Inj3 a := Inj3 b }
lower3 :: f a c d := f b c d -> a := b
lower3 eq = unlower3 (subst eq (Lower3 id :: Lower3 (f a c d) (f a c d)))
#endif