#if __GLASGOW_HASKELL__ >= 707
#endif
module Control.Monad.Free
( MonadFree(..)
, Free(..)
, retract
, liftF
, iter
, iterM
, hoistFree
, toFreeT
, _Pure, _Free
) where
import Control.Applicative
import Control.Monad (liftM, MonadPlus(..))
import Control.Monad.Fix
import Control.Monad.Trans.Class
import qualified Control.Monad.Trans.Free as FreeT
import Control.Monad.Free.Class
import Control.Monad.Reader.Class
import Control.Monad.Writer.Class
import Control.Monad.State.Class
import Control.Monad.Error.Class
import Control.Monad.Cont.Class
import Data.Functor.Bind
import Data.Foldable
import Data.Profunctor
import Data.Traversable
import Data.Semigroup.Foldable
import Data.Semigroup.Traversable
#ifdef GHC_TYPEABLE
import Data.Data
#endif
data Free f a = Pure a | Free (f (Free f a))
#if __GLASGOW_HASKELL__ >= 707
deriving (Typeable)
#endif
instance (Eq (f (Free f a)), Eq a) => Eq (Free f a) where
Pure a == Pure b = a == b
Free fa == Free fb = fa == fb
_ == _ = False
instance (Ord (f (Free f a)), Ord a) => Ord (Free f a) where
Pure a `compare` Pure b = a `compare` b
Pure _ `compare` Free _ = LT
Free _ `compare` Pure _ = GT
Free fa `compare` Free fb = fa `compare` fb
instance (Show (f (Free f a)), Show a) => Show (Free f a) where
showsPrec d (Pure a) = showParen (d > 10) $
showString "Pure " . showsPrec 11 a
showsPrec d (Free m) = showParen (d > 10) $
showString "Free " . showsPrec 11 m
instance (Read (f (Free f a)), Read a) => Read (Free f a) where
readsPrec d r = readParen (d > 10)
(\r' -> [ (Pure m, t)
| ("Pure", s) <- lex r'
, (m, t) <- readsPrec 11 s]) r
++ readParen (d > 10)
(\r' -> [ (Free m, t)
| ("Free", s) <- lex r'
, (m, t) <- readsPrec 11 s]) r
instance Functor f => Functor (Free f) where
fmap f = go where
go (Pure a) = Pure (f a)
go (Free fa) = Free (go <$> fa)
instance Functor f => Apply (Free f) where
Pure a <.> Pure b = Pure (a b)
Pure a <.> Free fb = Free $ fmap a <$> fb
Free fa <.> b = Free $ (<.> b) <$> fa
instance Functor f => Applicative (Free f) where
pure = Pure
Pure a <*> Pure b = Pure $ a b
Pure a <*> Free mb = Free $ fmap a <$> mb
Free ma <*> b = Free $ (<*> b) <$> ma
instance Functor f => Bind (Free f) where
Pure a >>- f = f a
Free m >>- f = Free ((>>- f) <$> m)
instance Functor f => Monad (Free f) where
return = Pure
Pure a >>= f = f a
Free m >>= f = Free ((>>= f) <$> m)
instance Functor f => MonadFix (Free f) where
mfix f = a where a = f (impure a); impure (Pure x) = x; impure (Free _) = error "mfix (Free f): Free"
instance Alternative v => Alternative (Free v) where
empty = Free empty
a <|> b = Free (pure a <|> pure b)
instance (Functor v, MonadPlus v) => MonadPlus (Free v) where
mzero = Free mzero
a `mplus` b = Free (return a `mplus` return b)
instance MonadTrans Free where
lift = Free . liftM Pure
instance Foldable f => Foldable (Free f) where
foldMap f = go where
go (Pure a) = f a
go (Free fa) = foldMap go fa
instance Foldable1 f => Foldable1 (Free f) where
foldMap1 f = go where
go (Pure a) = f a
go (Free fa) = foldMap1 go fa
instance Traversable f => Traversable (Free f) where
traverse f = go where
go (Pure a) = Pure <$> f a
go (Free fa) = Free <$> traverse go fa
instance Traversable1 f => Traversable1 (Free f) where
traverse1 f = go where
go (Pure a) = Pure <$> f a
go (Free fa) = Free <$> traverse1 go fa
instance (Functor m, MonadWriter e m) => MonadWriter e (Free m) where
tell = lift . tell
listen = lift . listen . retract
pass = lift . pass . retract
instance (Functor m, MonadReader e m) => MonadReader e (Free m) where
ask = lift ask
local f = lift . local f . retract
instance (Functor m, MonadState s m) => MonadState s (Free m) where
get = lift get
put s = lift (put s)
instance (Functor m, MonadError e m) => MonadError e (Free m) where
throwError = lift . throwError
catchError as f = lift (catchError (retract as) (retract . f))
instance (Functor m, MonadCont m) => MonadCont (Free m) where
callCC f = lift (callCC (retract . f . liftM lift))
instance Functor f => MonadFree f (Free f) where
wrap = Free
retract :: Monad f => Free f a -> f a
retract (Pure a) = return a
retract (Free as) = as >>= retract
iter :: Functor f => (f a -> a) -> Free f a -> a
iter _ (Pure a) = a
iter phi (Free m) = phi (iter phi <$> m)
iterM :: (Monad m, Functor f) => (f (m a) -> m a) -> Free f a -> m a
iterM _ (Pure x) = return x
iterM phi (Free f) = phi $ fmap (iterM phi) f
hoistFree :: Functor g => (forall a. f a -> g a) -> Free f b -> Free g b
hoistFree _ (Pure a) = Pure a
hoistFree f (Free as) = Free (hoistFree f <$> f as)
toFreeT :: (Functor f, Monad m) => Free f a -> FreeT.FreeT f m a
toFreeT (Pure a) = FreeT.FreeT (return (FreeT.Pure a))
toFreeT (Free f) = FreeT.FreeT (return (FreeT.Free (fmap toFreeT f)))
_Pure :: forall f m a p. (Choice p, Applicative m)
=> p a (m a) -> p (Free f a) (m (Free f a))
_Pure = dimap impure (either pure (fmap Pure)) . right'
where
impure (Pure x) = Right x
impure x = Left x
_Free :: forall f m a p. (Choice p, Applicative m)
=> p (f (Free f a)) (m (f (Free f a))) -> p (Free f a) (m (Free f a))
_Free = dimap unfree (either pure (fmap Free)) . right'
where
unfree (Free x) = Right x
unfree x = Left x
#if defined(GHC_TYPEABLE) && __GLASGOW_HASKELL__ < 707
instance Typeable1 f => Typeable1 (Free f) where
typeOf1 t = mkTyConApp freeTyCon [typeOf1 (f t)] where
f :: Free f a -> f a
f = undefined
freeTyCon :: TyCon
#if __GLASGOW_HASKELL__ < 704
freeTyCon = mkTyCon "Control.Monad.Free.Free"
#else
freeTyCon = mkTyCon3 "free" "Control.Monad.Free" "Free"
#endif
instance
( Typeable1 f, Typeable a
, Data a, Data (f (Free f a))
) => Data (Free f a) where
gfoldl f z (Pure a) = z Pure `f` a
gfoldl f z (Free as) = z Free `f` as
toConstr Pure{} = pureConstr
toConstr Free{} = freeConstr
gunfold k z c = case constrIndex c of
1 -> k (z Pure)
2 -> k (z Free)
_ -> error "gunfold"
dataTypeOf _ = freeDataType
dataCast1 f = gcast1 f
pureConstr, freeConstr :: Constr
pureConstr = mkConstr freeDataType "Pure" [] Prefix
freeConstr = mkConstr freeDataType "Free" [] Prefix
freeDataType :: DataType
freeDataType = mkDataType "Control.Monad.Free.FreeF" [pureConstr, freeConstr]
#endif