-- {-# OPTIONS_GHC -fglasgow-exts -fallow-undecidable-instances #-} ------------------------------------------------------------------------------------------- -- | -- Module : Control.Category.Associative -- Copyright : 2008 Edward Kmett -- License : BSD -- -- Maintainer : Edward Kmett -- Stability : experimental -- Portability : portable -- -- NB: this contradicts another common meaning for an 'Associative' 'Category', which is one -- where the pentagonal condition does not hold, but for which there is an identity. -- ------------------------------------------------------------------------------------------- module Control.Category.Associative ( Associative(..) , Coassociative(..) ) where import Control.Functor import Control.Category.Hask {- | A category with an associative bifunctor satisfying Mac Lane\'s pentagonal coherence identity law: > bimap id associate . associate . bimap associate id = associate . associate -} class Bifunctor p k k k => Associative k p where associate :: k (p (p a b) c) (p a (p b c)) {- | A category with a coassociative bifunctor satisyfing the dual of Mac Lane's pentagonal coherence identity law: > bimap coassociate id . coassociate . bimap id coassociate = coassociate . coassociate -} class Bifunctor s k k k => Coassociative k s where coassociate :: k (s a (s b c)) (s (s a b) c) {-# RULES "copentagonal coherence" bimap coassociate id . coassociate . bimap id coassociate = coassociate . coassociate "pentagonal coherence" bimap id associate . associate . bimap associate id = associate . associate #-} instance Associative Hask (,) where associate ((a,b),c) = (a,(b,c)) instance Coassociative Hask (,) where coassociate (a,(b,c)) = ((a,b),c) instance Associative Hask Either where associate (Left (Left a)) = Left a associate (Left (Right b)) = Right (Left b) associate (Right c) = Right (Right c) instance Coassociative Hask Either where coassociate (Left a) = Left (Left a) coassociate (Right (Left b)) = Left (Right b) coassociate (Right (Right c)) = Right c