{-# LANGUAGE CPP, MagicHash, UnboxedTuples, TypeFamilies #-} {-# LANGUAGE FlexibleContexts, FlexibleInstances, UndecidableInstances #-} {-# LANGUAGE ScopedTypeVariables #-} -- | -- Module : Control.Monad.Primitive -- Copyright : (c) Roman Leshchinskiy 2009 -- License : BSD-style -- -- Maintainer : Roman Leshchinskiy -- Portability : non-portable -- -- Primitive state-transformer monads -- module Control.Monad.Primitive ( PrimMonad(..), RealWorld, primitive_, PrimBase(..), liftPrim, primToPrim, primToIO, primToST, ioToPrim, stToPrim, unsafePrimToPrim, unsafePrimToIO, unsafePrimToST, unsafeIOToPrim, unsafeSTToPrim, unsafeInlinePrim, unsafeInlineIO, unsafeInlineST, touch, evalPrim ) where import GHC.Prim ( State#, RealWorld, touch# ) import GHC.Base ( unsafeCoerce#, realWorld# ) #if MIN_VERSION_base(4,4,0) import GHC.Base ( seq# ) #else import Control.Exception (evaluate) #endif #if MIN_VERSION_base(4,2,0) import GHC.IO ( IO(..) ) #else import GHC.IOBase ( IO(..) ) #endif import GHC.ST ( ST(..) ) import Control.Monad.Trans.Class (lift) #if !MIN_VERSION_base(4,8,0) import Data.Monoid (Monoid) #endif import Control.Monad.Trans.Identity ( IdentityT (IdentityT) ) import Control.Monad.Trans.List ( ListT ) import Control.Monad.Trans.Maybe ( MaybeT ) import Control.Monad.Trans.Error ( ErrorT, Error) import Control.Monad.Trans.Reader ( ReaderT ) import Control.Monad.Trans.State ( StateT ) import Control.Monad.Trans.Writer ( WriterT ) import Control.Monad.Trans.RWS ( RWST ) #if MIN_VERSION_transformers(0,4,0) import Control.Monad.Trans.Except ( ExceptT ) #endif import qualified Control.Monad.Trans.RWS.Strict as Strict ( RWST ) import qualified Control.Monad.Trans.State.Strict as Strict ( StateT ) import qualified Control.Monad.Trans.Writer.Strict as Strict ( WriterT ) -- | Class of monads which can perform primitive state-transformer actions class Monad m => PrimMonad m where -- | State token type type PrimState m -- | Execute a primitive operation primitive :: (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a -- | Class of primitive monads for state-transformer actions. -- -- Unlike 'PrimMonad', this typeclass requires that the @Monad@ be fully -- expressed as a state transformer, therefore disallowing other monad -- transformers on top of the base @IO@ or @ST@. class PrimMonad m => PrimBase m where -- | Expose the internal structure of the monad internal :: m a -> State# (PrimState m) -> (# State# (PrimState m), a #) -- | Execute a primitive operation with no result primitive_ :: PrimMonad m => (State# (PrimState m) -> State# (PrimState m)) -> m () {-# INLINE primitive_ #-} primitive_ f = primitive (\s# -> case f s# of s'# -> (# s'#, () #)) instance PrimMonad IO where type PrimState IO = RealWorld primitive = IO {-# INLINE primitive #-} instance PrimBase IO where internal (IO p) = p {-# INLINE internal #-} instance PrimMonad m => PrimMonad (IdentityT m) where type PrimState (IdentityT m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance PrimBase m => PrimBase (IdentityT m) where internal (IdentityT m) = internal m {-# INLINE internal #-} instance PrimMonad m => PrimMonad (ListT m) where type PrimState (ListT m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance PrimMonad m => PrimMonad (MaybeT m) where type PrimState (MaybeT m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance (Error e, PrimMonad m) => PrimMonad (ErrorT e m) where type PrimState (ErrorT e m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance PrimMonad m => PrimMonad (ReaderT r m) where type PrimState (ReaderT r m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance PrimMonad m => PrimMonad (StateT s m) where type PrimState (StateT s m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance (Monoid w, PrimMonad m) => PrimMonad (WriterT w m) where type PrimState (WriterT w m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance (Monoid w, PrimMonad m) => PrimMonad (RWST r w s m) where type PrimState (RWST r w s m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} #if MIN_VERSION_transformers(0,4,0) instance PrimMonad m => PrimMonad (ExceptT e m) where type PrimState (ExceptT e m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} #endif instance PrimMonad m => PrimMonad (Strict.StateT s m) where type PrimState (Strict.StateT s m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance (Monoid w, PrimMonad m) => PrimMonad (Strict.WriterT w m) where type PrimState (Strict.WriterT w m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance (Monoid w, PrimMonad m) => PrimMonad (Strict.RWST r w s m) where type PrimState (Strict.RWST r w s m) = PrimState m primitive = lift . primitive {-# INLINE primitive #-} instance PrimMonad (ST s) where type PrimState (ST s) = s primitive = ST {-# INLINE primitive #-} instance PrimBase (ST s) where internal (ST p) = p {-# INLINE internal #-} -- | Lifts a 'PrimBase' into another 'PrimMonad' with the same underlying state -- token type. liftPrim :: (PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) => m1 a -> m2 a {-# INLINE liftPrim #-} liftPrim = primToPrim -- | Convert a 'PrimBase' to another monad with the same state token. primToPrim :: (PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) => m1 a -> m2 a {-# INLINE primToPrim #-} primToPrim m = primitive (internal m) -- | Convert a 'PrimBase' with a 'RealWorld' state token to 'IO' primToIO :: (PrimBase m, PrimState m ~ RealWorld) => m a -> IO a {-# INLINE primToIO #-} primToIO = primToPrim -- | Convert a 'PrimBase' to 'ST' primToST :: PrimBase m => m a -> ST (PrimState m) a {-# INLINE primToST #-} primToST = primToPrim -- | Convert an 'IO' action to a 'PrimMonad'. ioToPrim :: (PrimMonad m, PrimState m ~ RealWorld) => IO a -> m a {-# INLINE ioToPrim #-} ioToPrim = primToPrim -- | Convert an 'ST' action to a 'PrimMonad'. stToPrim :: PrimMonad m => ST (PrimState m) a -> m a {-# INLINE stToPrim #-} stToPrim = primToPrim -- | Convert a 'PrimBase' to another monad with a possibly different state -- token. This operation is highly unsafe! unsafePrimToPrim :: (PrimBase m1, PrimMonad m2) => m1 a -> m2 a {-# INLINE unsafePrimToPrim #-} unsafePrimToPrim m = primitive (unsafeCoerce# (internal m)) -- | Convert any 'PrimBase' to 'ST' with an arbitrary state token. This -- operation is highly unsafe! unsafePrimToST :: PrimBase m => m a -> ST s a {-# INLINE unsafePrimToST #-} unsafePrimToST = unsafePrimToPrim -- | Convert any 'PrimBase' to 'IO'. This operation is highly unsafe! unsafePrimToIO :: PrimBase m => m a -> IO a {-# INLINE unsafePrimToIO #-} unsafePrimToIO = unsafePrimToPrim -- | Convert an 'ST' action with an arbitraty state token to any 'PrimMonad'. -- This operation is highly unsafe! unsafeSTToPrim :: PrimMonad m => ST s a -> m a {-# INLINE unsafeSTToPrim #-} unsafeSTToPrim = unsafePrimToPrim -- | Convert an 'IO' action to any 'PrimMonad'. This operation is highly -- unsafe! unsafeIOToPrim :: PrimMonad m => IO a -> m a {-# INLINE unsafeIOToPrim #-} unsafeIOToPrim = unsafePrimToPrim unsafeInlinePrim :: PrimBase m => m a -> a {-# INLINE unsafeInlinePrim #-} unsafeInlinePrim m = unsafeInlineIO (unsafePrimToIO m) unsafeInlineIO :: IO a -> a {-# INLINE unsafeInlineIO #-} unsafeInlineIO m = case internal m realWorld# of (# _, r #) -> r unsafeInlineST :: ST s a -> a {-# INLINE unsafeInlineST #-} unsafeInlineST = unsafeInlinePrim touch :: PrimMonad m => a -> m () {-# INLINE touch #-} touch x = unsafePrimToPrim $ (primitive (\s -> case touch# x s of { s' -> (# s', () #) }) :: IO ()) -- | Create an action to force a value; generalizes 'Control.Exception.evaluate' evalPrim :: forall a m . PrimMonad m => a -> m a #if MIN_VERSION_base(4,4,0) evalPrim a = primitive (\s -> seq# a s) #else -- This may or may not work so well, but there's probably nothing better to do. {-# NOINLINE evalPrim #-} evalPrim a = unsafePrimToPrim (evaluate a :: IO a) #endif