{- Copyright 2010 Mario Blazevic This file is part of the Streaming Component Combinators (SCC) project. The SCC project is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. SCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with SCC. If not, see <http://www.gnu.org/licenses/>. -} -- | This module defines nestable suspension functors for use with the 'Coroutine' monad transformer, as well as -- functions for running nested coroutines of this sort. -- -- Coroutines can be run from within another coroutine. In this case, the nested coroutines always suspend to their -- invoker. If a function from this module, such as 'pogoStickNested', is used to run a nested coroutine, the parent -- coroutine can be automatically suspended as well. A single suspension can thus suspend an entire chain of nested -- coroutines. -- -- Nestable coroutines of this kind should group their suspension functors into an 'EitherFunctor'. You can adjust a -- normal suspension, such as the one produced by 'yield', using functions 'mapSuspension' and 'liftAncestor'. To run nested -- coroutines, use functions 'pogoStickNested', 'seesawNested', and 'coupleNested'. {-# LANGUAGE ScopedTypeVariables, Rank2Types, MultiParamTypeClasses, TypeFamilies, FlexibleContexts, FlexibleInstances, OverlappingInstances, UndecidableInstances #-} module Control.Monad.Coroutine.Nested ( pogoStickNested, coupleNested, seesawNested, seesawNestedSteps, ChildFunctor(..), AncestorFunctor(..), liftParent, liftAncestor ) where import Control.Monad (liftM) import Control.Monad.Coroutine import Control.Monad.Coroutine.SuspensionFunctors (EitherFunctor(..)) -- | Run a nested 'Coroutine' that can suspend both itself and the current 'Coroutine'. pogoStickNested :: forall s1 s2 m x. (Functor s1, Functor s2, Monad m) => (s2 (Coroutine (EitherFunctor s1 s2) m x) -> Coroutine (EitherFunctor s1 s2) m x) -> Coroutine (EitherFunctor s1 s2) m x -> Coroutine s1 m x pogoStickNested reveal t = Coroutine{resume= resume t >>= \s-> case s of Right result -> return (Right result) Left (LeftF s') -> return (Left (fmap (pogoStickNested reveal) s')) Left (RightF c) -> resume (pogoStickNested reveal (reveal c))} -- | Much like 'couple', but with two nested coroutines. coupleNested :: forall s0 s1 s2 m x y. (Monad m, Functor s0, Monad s0, Functor s1, Functor s2) => PairBinder m -> Coroutine (EitherFunctor s0 s1) m x -> Coroutine (EitherFunctor s0 s2) m y -> Coroutine (EitherFunctor s0 (SomeFunctor s1 s2)) m (x, y) coupleNested runPair = coupleNested' where coupleNested' t1 t2 = Coroutine{resume= runPair (\ st1 st2 -> return (proceed st1 st2)) (resume t1) (resume t2)} proceed (Right x) (Right y) = Right (x, y) proceed (Left (RightF s)) (Right y) = Left $ RightF $ fmap (flip coupleNested' (return y)) (LeftSome s) proceed (Right x) (Left (RightF s)) = Left $ RightF $ fmap (coupleNested' (return x)) (RightSome s) proceed (Left (RightF s1)) (Left (RightF s2)) = Left $ RightF $ fmap (uncurry coupleNested') (Both $ composePair s1 s2) proceed l (Left (LeftF s)) = Left $ LeftF $ fmap (coupleNested' (Coroutine $ return l)) s proceed (Left (LeftF s)) r = Left $ LeftF $ fmap (flip coupleNested' (Coroutine $ return r)) s -- | Like 'seesaw', but for nested coroutines that are allowed to suspend the current coroutine as well as themselves. -- If both coroutines try to suspend the current coroutine in the same step, the left coroutine's suspension will have -- precedence. seesawNested :: (Monad m, Functor s0, Functor s1, Functor s2) => PairBinder m -> SeesawResolver s1 s2 (EitherFunctor s0 s1) (EitherFunctor s0 s2) -> Coroutine (EitherFunctor s0 s1) m x -> Coroutine (EitherFunctor s0 s2) m y -> Coroutine s0 m (x, y) seesawNested runPair resolver t1 t2 = seesawNestedSteps runPair proceed t1 t2 where proceed cont (Left s1) (Left s2) = resumeBoth resolver cont s1 s2 proceed _ (Left s) (Right y) = liftM (flip (,) y) $ pogoStickNested (resumeLeft resolver) (resumeLeft resolver s) proceed _ (Right x) (Left s) = liftM ((,) x) $ pogoStickNested (resumeRight resolver) (resumeRight resolver s) proceed _ (Right x) (Right y) = return (x, y) -- | Like 'seesawSteps', but for nested coroutines that are allowed to suspend the current coroutine as well -- as themselves. If both coroutines try to suspend the current coroutine in the same step, the left coroutine's -- suspension will have precedence. seesawNestedSteps :: forall m c1 c2 s0 s1 s2 s1' s2' x y. (Monad m, Functor s0, Functor s1, Functor s2, s1' ~ EitherFunctor s0 s1, s2' ~ EitherFunctor s0 s2, c1 ~ Coroutine s1' m x, c2 ~ Coroutine s2' m y) => PairBinder m -> ((c1 -> c2 -> Coroutine s0 m (x, y)) -> Either (s1 c1) x -> Either (s2 c2) y -> Coroutine s0 m (x, y)) -> c1 -> c2 -> Coroutine s0 m (x, y) seesawNestedSteps runPair proceed = seesaw' where seesaw' t1 t2 = Coroutine{resume= bouncePair t1 t2} bouncePair t1 t2 = runPair proceed' (resume t1) (resume t2) proceed' :: CoroutineStepResult s1' m x -> CoroutineStepResult s2' m y -> m (CoroutineStepResult s0 m (x, y)) proceed' (Left (LeftF s1)) step2 = return $ Left $ fmap ((flip seesaw' (Coroutine $ return step2))) s1 proceed' step1 (Left (LeftF s2)) = return $ Left $ fmap (seesaw' (Coroutine $ return step1)) s2 proceed' step1 step2 = resume $ proceed seesaw' (local step1) (local step2) local :: forall s r. CoroutineStepResult (EitherFunctor s0 s) m r -> Either (s (Coroutine (EitherFunctor s0 s) m r)) r local (Left (RightF s)) = Left s local (Left (LeftF _)) = undefined local (Right r) = Right r -- | Class of functors that can contain another functor. class Functor c => ChildFunctor c where type Parent c :: * -> * wrap :: Parent c x -> c x instance (Functor p, Functor s) => ChildFunctor (EitherFunctor p s) where type Parent (EitherFunctor p s) = p wrap = LeftF -- | Class of functors that can be lifted. class (Functor a, Functor d) => AncestorFunctor a d where -- | Convert the ancestor functor into its descendant. The descendant functor typically contains the ancestor. liftFunctor :: a x -> d x instance Functor a => AncestorFunctor a a where liftFunctor = id instance (Functor a, ChildFunctor d, d' ~ Parent d, AncestorFunctor a d') => AncestorFunctor a d where liftFunctor = wrap . (liftFunctor :: a x -> d' x) -- | Converts a coroutine into a child nested coroutine. liftParent :: forall m p c x. (Monad m, Functor p, ChildFunctor c, p ~ Parent c) => Coroutine p m x -> Coroutine c m x liftParent cort = mapSuspension wrap cort -- | Converts a coroutine into a descendant nested coroutine. liftAncestor :: forall m a d x. (Monad m, Functor a, AncestorFunctor a d) => Coroutine a m x -> Coroutine d m x liftAncestor cort = mapSuspension liftFunctor cort