{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE BangPatterns #-}
module Control.Monad.Trans.MultiRWS.Strict
(
MultiRWST(..)
, MultiRWSTNull
, MultiRWS
, MonadMultiReader(..)
, MonadMultiWriter(..)
, MonadMultiGet(..)
, MonadMultiState(..)
, runMultiRWST
, runMultiRWSTASW
, runMultiRWSTW
, runMultiRWSTAW
, runMultiRWSTSW
, runMultiRWSTNil
, runMultiRWSTNil_
, withMultiReader
, withMultiReader_
, withMultiReaders
, withMultiReaders_
, withMultiWriter
, withMultiWriterAW
, withMultiWriterWA
, withMultiWriterW
, withMultiWriters
, withMultiWritersAW
, withMultiWritersWA
, withMultiWritersW
, withMultiState
, withMultiStateAS
, withMultiStateSA
, withMultiStateA
, withMultiStateS
, withMultiState_
, withMultiStates
, withMultiStatesAS
, withMultiStatesSA
, withMultiStatesA
, withMultiStatesS
, withMultiStates_
, withoutMultiReader
, withoutMultiState
, inflateReader
, inflateMultiReader
, inflateWriter
, inflateMultiWriter
, inflateState
, inflateMultiState
, mapMultiRWST
, mGetRawR
, mGetRawW
, mGetRawS
, mPutRawR
, mPutRawW
, mPutRawS
)
where
import Data.HList.HList
import Data.HList.ContainsType
import Control.Monad.Trans.MultiReader.Class ( MonadMultiReader(..) )
import Control.Monad.Trans.MultiWriter.Class ( MonadMultiWriter(..) )
import Control.Monad.Trans.MultiState.Class
import Control.Monad.Trans.MultiReader.Strict ( MultiReaderT(..)
, runMultiReaderT )
import Control.Monad.Trans.MultiWriter.Strict ( MultiWriterT(..)
, runMultiWriterT )
import Control.Monad.Trans.MultiState.Strict ( MultiStateT(..)
, runMultiStateT )
import Control.Monad.State.Strict ( StateT(..)
, MonadState(..)
, execStateT
, evalStateT
, mapStateT )
import Control.Monad.Reader ( ReaderT(..) )
import Control.Monad.Writer.Strict ( WriterT(..) )
import Control.Monad.Trans.Class ( MonadTrans
, lift )
import Data.Functor.Identity ( Identity )
import Control.Applicative ( Applicative(..)
, Alternative(..)
)
import Control.Monad ( MonadPlus(..)
, liftM
, ap
, void )
import Control.Monad.Base ( MonadBase(..)
, liftBaseDefault
)
import Control.Monad.Trans.Control ( MonadTransControl(..)
, MonadBaseControl(..)
, ComposeSt
, defaultLiftBaseWith
, defaultRestoreM
)
import Control.Monad.Fix ( MonadFix(..) )
import Control.Monad.IO.Class ( MonadIO(..) )
import Data.Monoid
newtype MultiRWST r w s m a = MultiRWST {
runMultiRWSTRaw :: StateT (HList r, HList w, HList s) m a
}
type MultiRWSTNull = MultiRWST '[] '[] '[]
type MultiRWS r w s = MultiRWST r w s Identity
instance (Functor f) => Functor (MultiRWST r w s f) where
fmap f = MultiRWST . fmap f . runMultiRWSTRaw
instance (Applicative m, Monad m) => Applicative (MultiRWST r w s m) where
pure = MultiRWST . pure
(<*>) = ap
instance (Monad m) => Monad (MultiRWST r w s m) where
return = MultiRWST . return
k >>= f = MultiRWST $ runMultiRWSTRaw k >>= runMultiRWSTRaw . f
instance MonadTrans (MultiRWST r w s) where
lift = MultiRWST . lift
instance
#if MIN_VERSION_base(4,8,0)
{-# OVERLAPPING #-}
#endif
(Monad m, ContainsType a r)
=> MonadMultiReader a (MultiRWST r w s m) where
mAsk = MultiRWST $ liftM (\(r,_,_) -> getHListElem r) get
instance
#if MIN_VERSION_base(4,8,0)
{-# OVERLAPPING #-}
#endif
(Monad m, ContainsType a w, Monoid a)
=> MonadMultiWriter a (MultiRWST r w s m) where
mTell v = MultiRWST $ do
(r,w,s) <- get
let !x' = getHListElem w `mappend` v
put $ (r, setHListElem x' w, s)
instance
#if MIN_VERSION_base(4,8,0)
{-# OVERLAPPING #-}
#endif
(Monad m, ContainsType a s)
=> MonadMultiGet a (MultiRWST r w s m) where
mGet = MultiRWST $ do
(_,_,s) <- get
return $ getHListElem s
instance
#if MIN_VERSION_base(4,8,0)
{-# OVERLAPPING #-}
#endif
(Monad m, ContainsType a s)
=> MonadMultiState a (MultiRWST r w s m) where
mSet !v = MultiRWST $ do
(r,w,s) <- get
put (r, w, setHListElem v s)
instance MonadFix m => MonadFix (MultiRWST r w s m) where
mfix f = MultiRWST $ mfix (runMultiRWSTRaw . f)
runMultiRWST :: ( Monad m
, Monoid (HList w)
)
=> HList r
-> HList s
-> MultiRWST r w s m a
-> m (a, HList s, HList w)
runMultiRWSTASW :: ( Monad m
, Monoid (HList w)
)
=> HList r
-> HList s
-> MultiRWST r w s m a
-> m (a, HList s, HList w)
runMultiRWSTW :: ( Monad m
, Monoid (HList w)
)
=> HList r
-> HList s
-> MultiRWST r w s m a
-> m (HList w)
runMultiRWSTAW :: ( Monad m
, Monoid (HList w)
)
=> HList r
-> HList s
-> MultiRWST r w s m a
-> m (a, HList w)
runMultiRWSTSW :: ( Monad m
, Monoid (HList w)
)
=> HList r
-> HList s
-> MultiRWST r w s m a
-> m (HList s, HList w)
runMultiRWSTNil :: ( Monad m )
=> MultiRWST '[] '[] '[] m a
-> m a
runMultiRWSTNil_ :: ( Monad m, Functor m )
=> MultiRWST '[] '[] '[] m a
-> m ()
runMultiRWST = runMultiRWSTASW
runMultiRWSTASW r s k = do
(x, (_, w, s')) <- runStateT (runMultiRWSTRaw k) (r, mempty, s)
return $ (x, s', w)
runMultiRWSTW r s k = do
(_, w, _) <- execStateT (runMultiRWSTRaw k) (r, mempty, s)
return $ w
runMultiRWSTAW r s k = do
(x, (_, w, _)) <- runStateT (runMultiRWSTRaw k) (r, mempty, s)
return $ (x, w)
runMultiRWSTSW r s k = do
(_, w, s') <- execStateT (runMultiRWSTRaw k) (r, mempty, s)
return $ (s', w)
runMultiRWSTNil k = evalStateT (runMultiRWSTRaw k) (HNil, HNil, HNil)
runMultiRWSTNil_ k = void $ runStateT (runMultiRWSTRaw k) (HNil, HNil, HNil)
withMultiReader :: Monad m => r -> MultiRWST (r ': rs) w s m a -> MultiRWST rs w s m a
withMultiReader_ :: (Functor m, Monad m) => r -> MultiRWST (r ': rs) w s m a -> MultiRWST rs w s m ()
withMultiReaders :: Monad m => HList r1 -> MultiRWST (Append r1 r2) w s m a -> MultiRWST r2 w s m a
withMultiReaders_ :: (Functor m, Monad m) => HList r1 -> MultiRWST (Append r1 r2) w s m a -> MultiRWST r2 w s m ()
withMultiReader x k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (x :+: r, w, s)
put (r, w', s')
return a
withMultiReader_ x k = MultiRWST $ do
(r, w, s) <- get
(_, w', s') <- lift $ execStateT (runMultiRWSTRaw k) (x :+: r, w, s)
put (r, w', s')
withMultiReaders HNil = id
withMultiReaders (x :+: xs) = withMultiReaders xs . withMultiReader x
withMultiReaders_ HNil = void
withMultiReaders_ (x :+: xs) = withMultiReaders_ xs . withMultiReader x
withMultiWriter :: (Monoid w, Monad m) => MultiRWST r (w ': ws) s m a -> MultiRWST r ws s m (a, w)
withMultiWriterAW :: (Monoid w, Monad m) => MultiRWST r (w ': ws) s m a -> MultiRWST r ws s m (a, w)
withMultiWriterWA :: (Monoid w, Monad m) => MultiRWST r (w ': ws) s m a -> MultiRWST r ws s m (w, a)
withMultiWriterW :: (Monoid w, Monad m) => MultiRWST r (w ': ws) s m a -> MultiRWST r ws s m w
withMultiWriters :: forall r w1 w2 s m a
. (Monoid (HList w1), Monad m, HInit w1)
=> MultiRWST r (Append w1 w2) s m a
-> MultiRWST r w2 s m (a, HList w1)
withMultiWritersAW :: forall r w1 w2 s m a
. (Monoid (HList w1), Monad m, HInit w1)
=> MultiRWST r (Append w1 w2) s m a
-> MultiRWST r w2 s m (a, HList w1)
withMultiWritersWA :: forall r w1 w2 s m a
. (Monoid (HList w1), Monad m, HInit w1)
=> MultiRWST r (Append w1 w2) s m a
-> MultiRWST r w2 s m (HList w1, a)
withMultiWritersW :: forall r w1 w2 s m a
. (Monoid (HList w1), Monad m, HInit w1)
=> MultiRWST r (Append w1 w2) s m a
-> MultiRWST r w2 s m (HList w1)
withMultiWriter = withMultiWriterAW
withMultiWriterAW k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, mempty :+: w, s)
case w' of
x' :+: wr' -> do
put (r, wr', s')
return (a, x')
withMultiWriterWA k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, mempty :+: w, s)
case w' of
x' :+: wr' -> do
put (r, wr', s')
return (x', a)
withMultiWriterW k = MultiRWST $ do
(r, w, s) <- get
(_, w', s') <- lift $ execStateT (runMultiRWSTRaw k) (r, mempty :+: w, s)
case w' of
x' :+: wr' -> do
put (r, wr', s')
return x'
withMultiWriters = withMultiWritersAW
withMultiWritersAW k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, hAppend (mempty :: HList w1) w, s)
let (o, wr') = hSplit w'
put (r, wr', s')
return (a, o)
withMultiWritersWA k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, hAppend (mempty :: HList w1) w, s)
let (o, wr') = hSplit w'
put (r, wr', s')
return (o, a)
withMultiWritersW k = MultiRWST $ do
(r, w, s) <- get
(_, w', s') <- lift $ execStateT (runMultiRWSTRaw k) (r, hAppend (mempty :: HList w1) w, s)
let (o, wr') = hSplit w'
put (r, wr', s')
return o
withMultiState :: Monad m => s -> MultiRWST r w (s ': ss) m a -> MultiRWST r w ss m (a, s)
withMultiStateAS :: Monad m => s -> MultiRWST r w (s ': ss) m a -> MultiRWST r w ss m (a, s)
withMultiStateSA :: Monad m => s -> MultiRWST r w (s ': ss) m a -> MultiRWST r w ss m (s, a)
withMultiStateA :: Monad m => s -> MultiRWST r w (s ': ss) m a -> MultiRWST r w ss m a
withMultiStateS :: Monad m => s -> MultiRWST r w (s ': ss) m a -> MultiRWST r w ss m s
withMultiState_ :: (Functor m, Monad m) => s -> MultiRWST r w (s ': ss) m a -> MultiRWST r w ss m ()
withMultiStates :: Monad m => HList s1 -> MultiRWST r w (Append s1 s2) m a -> MultiRWST r w s2 m (a, HList s1)
withMultiStatesAS :: Monad m => HList s1 -> MultiRWST r w (Append s1 s2) m a -> MultiRWST r w s2 m (a, HList s1)
withMultiStatesSA :: Monad m => HList s1 -> MultiRWST r w (Append s1 s2) m a -> MultiRWST r w s2 m (HList s1, a)
withMultiStatesA :: Monad m => HList s1 -> MultiRWST r w (Append s1 s2) m a -> MultiRWST r w s2 m a
withMultiStatesS :: Monad m => HList s1 -> MultiRWST r w (Append s1 s2) m a -> MultiRWST r w s2 m (HList s1)
withMultiStates_ :: (Functor m, Monad m) => HList s1 -> MultiRWST r w (Append s1 s2) m a -> MultiRWST r w s2 m ()
withMultiState = withMultiStateAS
withMultiStateAS x k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, w, (x :+: s))
case s' of
x' :+: sr' -> do
put (r, w', sr')
return (a, x')
withMultiStateSA x k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, w, (x :+: s))
case s' of
x' :+: sr' -> do
put (r, w', sr')
return (x', a)
withMultiStateA x k = MultiRWST $ do
(r, w, s) <- get
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, w, (x :+: s))
case s' of
_ :+: sr' -> do
put (r, w', sr')
return a
withMultiStateS x k = MultiRWST $ do
(r, w, s) <- get
(_, w', s') <- lift $ execStateT (runMultiRWSTRaw k) (r, w, (x :+: s))
case s' of
x' :+: sr' -> do
put (r, w', sr')
return x'
withMultiState_ x k = MultiRWST $ do
(r, w, s) <- get
(_, w', s') <- lift $ execStateT (runMultiRWSTRaw k) (r, w, (x :+: s))
case s' of _ :+: sr' -> put (r, w', sr')
withMultiStates = withMultiStatesAS
withMultiStatesAS HNil k = do a <- k; return (a, HNil)
withMultiStatesAS (x :+: xs) k = do
((a, x'), xs') <- withMultiStates xs $ withMultiState x k
return (a, x' :+: xs')
withMultiStatesSA HNil k = do a <- k; return (HNil, a)
withMultiStatesSA (x :+: xs) k = do
((a, x'), xs') <- withMultiStates xs $ withMultiState x k
return (x' :+: xs', a)
withMultiStatesA HNil = id
withMultiStatesA (x :+: xs) = withMultiStatesA xs . withMultiStateA x
withMultiStatesS HNil k = k >> return HNil
withMultiStatesS (x :+: xs) k = do
(x', xs') <- withMultiStates xs $ withMultiStateS x k
return (x' :+: xs')
withMultiStates_ HNil = void
withMultiStates_ (x :+: xs) = withMultiStates_ xs . withMultiState_ x
withoutMultiReader :: Monad m => MultiRWST rs w s m a -> MultiRWST (r ': rs) w s m a
withoutMultiReader k = MultiRWST $ get >>= \case
(rs@(_ :+: rr), w, s) -> do
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (rr, w, s)
put (rs, w', s')
return a
withoutMultiState :: Monad m => MultiRWST r w ss m a -> MultiRWST r w (s ': ss) m a
withoutMultiState k = MultiRWST $ get >>= \case
(r, w, s :+: sr) -> do
(a, (_, w', s')) <- lift $ runStateT (runMultiRWSTRaw k) (r, w, sr)
put (r, w', s :+: s')
return a
inflateReader :: (Monad m, ContainsType r rs)
=> ReaderT r m a
-> MultiRWST rs w s m a
inflateReader k = mAsk >>= lift . runReaderT k
inflateMultiReader :: Monad m => MultiReaderT r m a -> MultiRWST r w s m a
inflateMultiReader k = do
r <- mGetRawR
lift $ runMultiReaderT r k
inflateWriter :: (Monad m, ContainsType w ws, Monoid w)
=> WriterT w m a
-> MultiRWST r ws s m a
inflateWriter k = do
(x, w) <- lift $ runWriterT k
mTell w
return x
inflateMultiWriter :: (Functor m, Monad m, Monoid (HList w))
=> MultiWriterT w m a
-> MultiRWST r w s m a
inflateMultiWriter k = do
(x, w) <- lift $ runMultiWriterT k
mPutRawW w
return x
inflateState :: (Monad m, MonadTrans t, MonadMultiState s (t m))
=> StateT s m a
-> t m a
inflateState k = do
s <- mGet
(x, s') <- lift $ runStateT k s
mSet s'
return x
inflateMultiState :: (Functor m, Monad m)
=> MultiStateT s m a
-> MultiRWST r w s m a
inflateMultiState k = do
s <- mGetRawS
(x, s') <- lift $ runMultiStateT s k
mPutRawS s'
return x
mGetRawR :: Monad m => MultiRWST r w s m (HList r)
mPutRawR :: Monad m => HList r -> MultiRWST r w s m ()
mGetRawW :: Monad m => MultiRWST r w s m (HList w)
mPutRawW :: Monad m => HList w -> MultiRWST r w s m ()
mGetRawS :: Monad m => MultiRWST r w s m (HList s)
mPutRawS :: Monad m => HList s -> MultiRWST r w s m ()
mGetRawR = (\(r, _, _) -> r) `liftM` MultiRWST get
mPutRawR r = MultiRWST $ do
~(_, w, s) <- get
put (r, w, s)
mGetRawW = (\(_, w, _) -> w) `liftM` MultiRWST get
mPutRawW w = MultiRWST $ do
~(r, _, s) <- get
put (r, w, s)
mGetRawS = (\(_, _, s) -> s) `liftM` MultiRWST get
mPutRawS s = MultiRWST $ do
~(r, w, _) <- get
put (r, w, s)
mapMultiRWST :: (ss ~ (HList r, HList w, HList s))
=> (m (a, ss) -> m' (a', ss))
-> MultiRWST r w s m a
-> MultiRWST r w s m' a'
mapMultiRWST f = MultiRWST . mapStateT f . runMultiRWSTRaw
instance MonadIO m => MonadIO (MultiRWST r w s m) where
liftIO = lift . liftIO
instance (Functor m, Applicative m, MonadPlus m) => Alternative (MultiRWST r w s m) where
empty = lift mzero
MultiRWST m <|> MultiRWST n = MultiRWST $ m <|> n
instance MonadPlus m => MonadPlus (MultiRWST r w s m) where
mzero = MultiRWST $ mzero
MultiRWST m `mplus` MultiRWST n = MultiRWST $ m `mplus` n
instance MonadBase b m => MonadBase b (MultiRWST r w s m) where
liftBase = liftBaseDefault
instance MonadTransControl (MultiRWST r w s) where
type StT (MultiRWST r w s) a = (a, (HList r, HList w, HList s))
liftWith f = MultiRWST $ liftWith $ \s -> f $ \r -> s $ runMultiRWSTRaw r
restoreT = MultiRWST . restoreT
instance MonadBaseControl b m => MonadBaseControl b (MultiRWST r w s m) where
type StM (MultiRWST r w s m) a = ComposeSt (MultiRWST r w s) m a
liftBaseWith = defaultLiftBaseWith
restoreM = defaultRestoreM