{-# LANGUAGE CPP #-}
{-# LANGUAGE Rank2Types #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FunctionalDependencies #-}
#if __GLASGOW_HASKELL__ >= 707
{-# LANGUAGE RoleAnnotations #-}
#endif
#if __GLASGOW_HASKELL__ >= 711
{-# OPTIONS_GHC -fno-warn-redundant-constraints #-}
#endif
module Control.Lens.Internal.Context
( IndexedFunctor(..)
, IndexedComonad(..)
, IndexedComonadStore(..)
, Sellable(..)
, Context(..), Context'
, Pretext(..), Pretext'
, PretextT(..), PretextT'
) where
import Control.Applicative
import Control.Arrow
import Control.Category
import Control.Comonad
import Control.Comonad.Store.Class
import Control.Lens.Internal.Indexed
import Data.Functor.Compose
import Data.Functor.Contravariant
import Data.Functor.Identity
import Data.Profunctor
import Data.Profunctor.Rep
import Data.Profunctor.Sieve
import Data.Profunctor.Unsafe
import Prelude hiding ((.),id)
class IndexedFunctor w where
ifmap :: (s -> t) -> w a b s -> w a b t
class IndexedFunctor w => IndexedComonad w where
iextract :: w a a t -> t
iduplicate :: w a c t -> w a b (w b c t)
iduplicate = iextend id
{-# INLINE iduplicate #-}
iextend :: (w b c t -> r) -> w a c t -> w a b r
iextend f = ifmap f . iduplicate
{-# INLINE iextend #-}
class IndexedComonad w => IndexedComonadStore w where
ipos :: w a c t -> a
ipeek :: c -> w a c t -> t
ipeek c = iextract . iseek c
{-# INLINE ipeek #-}
ipeeks :: (a -> c) -> w a c t -> t
ipeeks f = iextract . iseeks f
{-# INLINE ipeeks #-}
iseek :: b -> w a c t -> w b c t
iseeks :: (a -> b) -> w a c t -> w b c t
iexperiment :: Functor f => (b -> f c) -> w b c t -> f t
iexperiment bfc wbct = (`ipeek` wbct) <$> bfc (ipos wbct)
{-# INLINE iexperiment #-}
context :: w a b t -> Context a b t
context wabt = Context (`ipeek` wabt) (ipos wabt)
{-# INLINE context #-}
class Corepresentable p => Sellable p w | w -> p where
sell :: p a (w a b b)
data Context a b t = Context (b -> t) a
instance IndexedFunctor Context where
ifmap f (Context g t) = Context (f . g) t
{-# INLINE ifmap #-}
instance IndexedComonad Context where
iextract (Context f a) = f a
{-# INLINE iextract #-}
iduplicate (Context f a) = Context (Context f) a
{-# INLINE iduplicate #-}
iextend g (Context f a) = Context (g . Context f) a
{-# INLINE iextend #-}
instance IndexedComonadStore Context where
ipos (Context _ a) = a
{-# INLINE ipos #-}
ipeek b (Context g _) = g b
{-# INLINE ipeek #-}
ipeeks f (Context g a) = g (f a)
{-# INLINE ipeeks #-}
iseek a (Context g _) = Context g a
{-# INLINE iseek #-}
iseeks f (Context g a) = Context g (f a)
{-# INLINE iseeks #-}
iexperiment f (Context g a) = g <$> f a
{-# INLINE iexperiment #-}
context = id
{-# INLINE context #-}
instance Functor (Context a b) where
fmap f (Context g t) = Context (f . g) t
{-# INLINE fmap #-}
instance a ~ b => Comonad (Context a b) where
extract (Context f a) = f a
{-# INLINE extract #-}
duplicate (Context f a) = Context (Context f) a
{-# INLINE duplicate #-}
extend g (Context f a) = Context (g . Context f) a
{-# INLINE extend #-}
instance a ~ b => ComonadStore a (Context a b) where
pos = ipos
{-# INLINE pos #-}
peek = ipeek
{-# INLINE peek #-}
peeks = ipeeks
{-# INLINE peeks #-}
seek = iseek
{-# INLINE seek #-}
seeks = iseeks
{-# INLINE seeks #-}
experiment = iexperiment
{-# INLINE experiment #-}
instance Sellable (->) Context where
sell = Context id
{-# INLINE sell #-}
type Context' a = Context a a
newtype Pretext p a b t = Pretext { runPretext :: forall f. Functor f => p a (f b) -> f t }
type Pretext' p a = Pretext p a a
instance IndexedFunctor (Pretext p) where
ifmap f (Pretext k) = Pretext (fmap f . k)
{-# INLINE ifmap #-}
instance Functor (Pretext p a b) where
fmap = ifmap
{-# INLINE fmap #-}
instance Conjoined p => IndexedComonad (Pretext p) where
iextract (Pretext m) = runIdentity $ m (arr Identity)
{-# INLINE iextract #-}
iduplicate (Pretext m) = getCompose $ m (Compose #. distrib sell . sell)
{-# INLINE iduplicate #-}
instance (a ~ b, Conjoined p) => Comonad (Pretext p a b) where
extract = iextract
{-# INLINE extract #-}
duplicate = iduplicate
{-# INLINE duplicate #-}
instance Conjoined p => IndexedComonadStore (Pretext p) where
ipos (Pretext m) = getConst $ coarr m $ arr Const
{-# INLINE ipos #-}
ipeek a (Pretext m) = runIdentity $ coarr m $ arr (\_ -> Identity a)
{-# INLINE ipeek #-}
ipeeks f (Pretext m) = runIdentity $ coarr m $ arr (Identity . f)
{-# INLINE ipeeks #-}
iseek a (Pretext m) = Pretext (lmap (lmap (const a)) m)
{-# INLINE iseek #-}
iseeks f (Pretext m) = Pretext (lmap (lmap f) m)
{-# INLINE iseeks #-}
iexperiment f (Pretext m) = coarr m (arr f)
{-# INLINE iexperiment #-}
context (Pretext m) = coarr m (arr sell)
{-# INLINE context #-}
instance (a ~ b, Conjoined p) => ComonadStore a (Pretext p a b) where
pos = ipos
{-# INLINE pos #-}
peek = ipeek
{-# INLINE peek #-}
peeks = ipeeks
{-# INLINE peeks #-}
seek = iseek
{-# INLINE seek #-}
seeks = iseeks
{-# INLINE seeks #-}
experiment = iexperiment
{-# INLINE experiment #-}
instance Corepresentable p => Sellable p (Pretext p) where
sell = cotabulate $ \ w -> Pretext (`cosieve` w)
{-# INLINE sell #-}
newtype PretextT p (g :: * -> *) a b t = PretextT { runPretextT :: forall f. Functor f => p a (f b) -> f t }
#if __GLASGOW_HASKELL__ >= 707
type role PretextT representational nominal nominal nominal nominal
#endif
type PretextT' p g a = PretextT p g a a
instance IndexedFunctor (PretextT p g) where
ifmap f (PretextT k) = PretextT (fmap f . k)
{-# INLINE ifmap #-}
instance Functor (PretextT p g a b) where
fmap = ifmap
{-# INLINE fmap #-}
instance Conjoined p => IndexedComonad (PretextT p g) where
iextract (PretextT m) = runIdentity $ m (arr Identity)
{-# INLINE iextract #-}
iduplicate (PretextT m) = getCompose $ m (Compose #. distrib sell . sell)
{-# INLINE iduplicate #-}
instance (a ~ b, Conjoined p) => Comonad (PretextT p g a b) where
extract = iextract
{-# INLINE extract #-}
duplicate = iduplicate
{-# INLINE duplicate #-}
instance Conjoined p => IndexedComonadStore (PretextT p g) where
ipos (PretextT m) = getConst $ coarr m $ arr Const
{-# INLINE ipos #-}
ipeek a (PretextT m) = runIdentity $ coarr m $ arr (\_ -> Identity a)
{-# INLINE ipeek #-}
ipeeks f (PretextT m) = runIdentity $ coarr m $ arr (Identity . f)
{-# INLINE ipeeks #-}
iseek a (PretextT m) = PretextT (lmap (lmap (const a)) m)
{-# INLINE iseek #-}
iseeks f (PretextT m) = PretextT (lmap (lmap f) m)
{-# INLINE iseeks #-}
iexperiment f (PretextT m) = coarr m (arr f)
{-# INLINE iexperiment #-}
context (PretextT m) = coarr m (arr sell)
{-# INLINE context #-}
instance (a ~ b, Conjoined p) => ComonadStore a (PretextT p g a b) where
pos = ipos
{-# INLINE pos #-}
peek = ipeek
{-# INLINE peek #-}
peeks = ipeeks
{-# INLINE peeks #-}
seek = iseek
{-# INLINE seek #-}
seeks = iseeks
{-# INLINE seeks #-}
experiment = iexperiment
{-# INLINE experiment #-}
instance Corepresentable p => Sellable p (PretextT p g) where
sell = cotabulate $ \ w -> PretextT (`cosieve` w)
{-# INLINE sell #-}
instance (Profunctor p, Contravariant g) => Contravariant (PretextT p g a b) where
contramap _ = (<$) (error "contramap: PretextT")
{-# INLINE contramap #-}
coarr :: (Representable q, Comonad (Rep q)) => q a b -> a -> b
coarr qab = extract . sieve qab
{-# INLINE coarr #-}