{-# LANGUAGE CPP, MagicHash, UnboxedTuples, TypeFamilies #-}
{-# LANGUAGE FlexibleContexts, FlexibleInstances, UndecidableInstances #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# OPTIONS_GHC -fno-warn-deprecations #-}

-- |
-- Module      : Control.Monad.Primitive
-- Copyright   : (c) Roman Leshchinskiy 2009
-- License     : BSD-style
--
-- Maintainer  : Roman Leshchinskiy <rl@cse.unsw.edu.au>
-- Portability : non-portable
--
-- Primitive state-transformer monads.

module Control.Monad.Primitive (
  PrimMonad(..), RealWorld, primitive_,
  PrimBase(..),
  MonadPrim,
  MonadPrimBase,
  liftPrim, primToPrim, primToIO, primToST, ioToPrim, stToPrim,
  unsafePrimToPrim, unsafePrimToIO, unsafePrimToST, unsafeIOToPrim,
  unsafeSTToPrim, unsafeInlinePrim, unsafeInlineIO, unsafeInlineST,
  touch, keepAlive, evalPrim, unsafeInterleave, unsafeDupableInterleave, noDuplicate
) where

import GHC.Exts   ( State#, RealWorld, noDuplicate#, touch#
#if defined(HAVE_KEEPALIVE)
                  , keepAlive#
#endif
                  , unsafeCoerce#, realWorld#, seq# )
import GHC.IO     ( IO(..) )
import GHC.ST     ( ST(..) )

#if __GLASGOW_HASKELL__ >= 802
import qualified Control.Monad.ST.Lazy as L
#endif

import Control.Monad.Trans.Class (lift)

import Control.Monad.Trans.Cont     ( ContT    )
import Control.Monad.Trans.Identity ( IdentityT (IdentityT) )
import Control.Monad.Trans.Maybe    ( MaybeT   )
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(0,6,0)
import Control.Monad.Trans.List     ( ListT    )
import Control.Monad.Trans.Error    ( ErrorT, Error)
#endif

import Control.Monad.Trans.Except   ( ExceptT  )

#if MIN_VERSION_transformers(0,5,3)
import Control.Monad.Trans.Accum    ( AccumT   )
import Control.Monad.Trans.Select   ( SelectT  )
#endif

#if MIN_VERSION_transformers(0,5,6)
import qualified Control.Monad.Trans.Writer.CPS as CPS
import qualified Control.Monad.Trans.RWS.CPS as CPS
#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@.
--
-- @since 0.6.0.0
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_ :: forall (m :: * -> *).
PrimMonad m =>
(State# (PrimState m) -> State# (PrimState m)) -> m ()
primitive_ State# (PrimState m) -> State# (PrimState m)
f = (State# (PrimState m) -> (# State# (PrimState m), () #)) -> m ()
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive (\State# (PrimState m)
s# ->
    case State# (PrimState m) -> State# (PrimState m)
f State# (PrimState m)
s# of
        State# (PrimState m)
s'# -> (# State# (PrimState m)
s'#, () #))

instance PrimMonad IO where
  type PrimState IO = RealWorld
  primitive :: forall a.
(State# (PrimState IO) -> (# State# (PrimState IO), a #)) -> IO a
primitive = (State# RealWorld -> (# State# RealWorld, a #)) -> IO a
(State# (PrimState IO) -> (# State# (PrimState IO), a #)) -> IO a
forall a. (State# RealWorld -> (# State# RealWorld, a #)) -> IO a
IO
  {-# INLINE primitive #-}

instance PrimBase IO where
  internal :: forall a.
IO a -> State# (PrimState IO) -> (# State# (PrimState IO), a #)
internal (IO State# RealWorld -> (# State# RealWorld, a #)
p) = State# RealWorld -> (# State# RealWorld, a #)
State# (PrimState IO) -> (# State# (PrimState IO), a #)
p
  {-# INLINE internal #-}

-- | @since 0.6.3.0
instance PrimMonad m => PrimMonad (ContT r m) where
  type PrimState (ContT r m) = PrimState m
  primitive :: forall a.
(State# (PrimState (ContT r m))
 -> (# State# (PrimState (ContT r m)), a #))
-> ContT r m a
primitive = m a -> ContT r m a
forall (m :: * -> *) a. Monad m => m a -> ContT r m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> ContT r m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> ContT r m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance PrimMonad m => PrimMonad (IdentityT m) where
  type PrimState (IdentityT m) = PrimState m
  primitive :: forall a.
(State# (PrimState (IdentityT m))
 -> (# State# (PrimState (IdentityT m)), a #))
-> IdentityT m a
primitive = m a -> IdentityT m a
forall (m :: * -> *) a. Monad m => m a -> IdentityT m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> IdentityT m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> IdentityT m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

-- | @since 0.6.2.0
instance PrimBase m => PrimBase (IdentityT m) where
  internal :: forall a.
IdentityT m a
-> State# (PrimState (IdentityT m))
-> (# State# (PrimState (IdentityT m)), a #)
internal (IdentityT m a
m) = m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
forall a.
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal m a
m
  {-# INLINE internal #-}

#if !MIN_VERSION_transformers(0,6,0)
instance PrimMonad m => PrimMonad (ListT m) where
  type PrimState (ListT m) = PrimState m
  primitive :: forall a.
(State# (PrimState (ListT m))
 -> (# State# (PrimState (ListT m)), a #))
-> ListT m a
primitive = m a -> ListT m a
forall (m :: * -> *) a. Monad m => m a -> ListT m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> ListT m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> ListT m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance (Error e, PrimMonad m) => PrimMonad (ErrorT e m) where
  type PrimState (ErrorT e m) = PrimState m
  primitive :: forall a.
(State# (PrimState (ErrorT e m))
 -> (# State# (PrimState (ErrorT e m)), a #))
-> ErrorT e m a
primitive = m a -> ErrorT e m a
forall (m :: * -> *) a. Monad m => m a -> ErrorT e m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> ErrorT e m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> ErrorT e m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}
#endif

instance PrimMonad m => PrimMonad (MaybeT m) where
  type PrimState (MaybeT m) = PrimState m
  primitive :: forall a.
(State# (PrimState (MaybeT m))
 -> (# State# (PrimState (MaybeT m)), a #))
-> MaybeT m a
primitive = m a -> MaybeT m a
forall (m :: * -> *) a. Monad m => m a -> MaybeT m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> MaybeT m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> MaybeT m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance PrimMonad m => PrimMonad (ReaderT r m) where
  type PrimState (ReaderT r m) = PrimState m
  primitive :: forall a.
(State# (PrimState (ReaderT r m))
 -> (# State# (PrimState (ReaderT r m)), a #))
-> ReaderT r m a
primitive = m a -> ReaderT r m a
forall (m :: * -> *) a. Monad m => m a -> ReaderT r m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> ReaderT r m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> ReaderT r m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance PrimMonad m => PrimMonad (StateT s m) where
  type PrimState (StateT s m) = PrimState m
  primitive :: forall a.
(State# (PrimState (StateT s m))
 -> (# State# (PrimState (StateT s m)), a #))
-> StateT s m a
primitive = m a -> StateT s m a
forall (m :: * -> *) a. Monad m => m a -> StateT s m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> StateT s m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> StateT s m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance (Monoid w, PrimMonad m) => PrimMonad (WriterT w m) where
  type PrimState (WriterT w m) = PrimState m
  primitive :: forall a.
(State# (PrimState (WriterT w m))
 -> (# State# (PrimState (WriterT w m)), a #))
-> WriterT w m a
primitive = m a -> WriterT w m a
forall (m :: * -> *) a. Monad m => m a -> WriterT w m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> WriterT w m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> WriterT w m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

#if MIN_VERSION_transformers(0,5,6)
instance (Monoid w, PrimMonad m) => PrimMonad (CPS.WriterT w m) where
  type PrimState (CPS.WriterT w m) = PrimState m
  primitive :: forall a.
(State# (PrimState (WriterT w m))
 -> (# State# (PrimState (WriterT w m)), a #))
-> WriterT w m a
primitive = m a -> WriterT w m a
forall (m :: * -> *) a. Monad m => m a -> WriterT w m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> WriterT w m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> WriterT w m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}
#endif

instance (Monoid w, PrimMonad m) => PrimMonad (RWST r w s m) where
  type PrimState (RWST r w s m) = PrimState m
  primitive :: forall a.
(State# (PrimState (RWST r w s m))
 -> (# State# (PrimState (RWST r w s m)), a #))
-> RWST r w s m a
primitive = m a -> RWST r w s m a
forall (m :: * -> *) a. Monad m => m a -> RWST r w s m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> RWST r w s m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> RWST r w s m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

#if MIN_VERSION_transformers(0,5,6)
instance (Monoid w, PrimMonad m) => PrimMonad (CPS.RWST r w s m) where
  type PrimState (CPS.RWST r w s m) = PrimState m
  primitive :: forall a.
(State# (PrimState (RWST r w s m))
 -> (# State# (PrimState (RWST r w s m)), a #))
-> RWST r w s m a
primitive = m a -> RWST r w s m a
forall (m :: * -> *) a. Monad m => m a -> RWST r w s m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> RWST r w s m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> RWST r w s m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}
#endif

instance PrimMonad m => PrimMonad (ExceptT e m) where
  type PrimState (ExceptT e m) = PrimState m
  primitive :: forall a.
(State# (PrimState (ExceptT e m))
 -> (# State# (PrimState (ExceptT e m)), a #))
-> ExceptT e m a
primitive = m a -> ExceptT e m a
forall (m :: * -> *) a. Monad m => m a -> ExceptT e m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> ExceptT e m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> ExceptT e m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

#if MIN_VERSION_transformers(0,5,3)
-- | @since 0.6.3.0
instance ( Monoid w
         , PrimMonad m
         ) => PrimMonad (AccumT w m) where
  type PrimState (AccumT w m) = PrimState m
  primitive :: forall a.
(State# (PrimState (AccumT w m))
 -> (# State# (PrimState (AccumT w m)), a #))
-> AccumT w m a
primitive = m a -> AccumT w m a
forall (m :: * -> *) a. Monad m => m a -> AccumT w m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> AccumT w m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> AccumT w m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance PrimMonad m => PrimMonad (SelectT r m) where
  type PrimState (SelectT r m) = PrimState m
  primitive :: forall a.
(State# (PrimState (SelectT r m))
 -> (# State# (PrimState (SelectT r m)), a #))
-> SelectT r m a
primitive = m a -> SelectT r m a
forall (m :: * -> *) a. Monad m => m a -> SelectT r m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> SelectT r m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> SelectT r m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}
#endif

instance PrimMonad m => PrimMonad (Strict.StateT s m) where
  type PrimState (Strict.StateT s m) = PrimState m
  primitive :: forall a.
(State# (PrimState (StateT s m))
 -> (# State# (PrimState (StateT s m)), a #))
-> StateT s m a
primitive = m a -> StateT s m a
forall (m :: * -> *) a. Monad m => m a -> StateT s m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> StateT s m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> StateT s m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance (Monoid w, PrimMonad m) => PrimMonad (Strict.WriterT w m) where
  type PrimState (Strict.WriterT w m) = PrimState m
  primitive :: forall a.
(State# (PrimState (WriterT w m))
 -> (# State# (PrimState (WriterT w m)), a #))
-> WriterT w m a
primitive = m a -> WriterT w m a
forall (m :: * -> *) a. Monad m => m a -> WriterT w m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> WriterT w m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> WriterT w m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
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 :: forall a.
(State# (PrimState (RWST r w s m))
 -> (# State# (PrimState (RWST r w s m)), a #))
-> RWST r w s m a
primitive = m a -> RWST r w s m a
forall (m :: * -> *) a. Monad m => m a -> RWST r w s m a
forall (t :: (* -> *) -> * -> *) (m :: * -> *) a.
(MonadTrans t, Monad m) =>
m a -> t m a
lift (m a -> RWST r w s m a)
-> ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #))
-> RWST r w s m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

instance PrimMonad (ST s) where
  type PrimState (ST s) = s
  primitive :: forall a.
(State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #))
-> ST s a
primitive = STRep s a -> ST s a
(State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #))
-> ST s a
forall s a. STRep s a -> ST s a
ST
  {-# INLINE primitive #-}

instance PrimBase (ST s) where
  internal :: forall a.
ST s a
-> State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #)
internal (ST STRep s a
p) = STRep s a
State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #)
p
  {-# INLINE internal #-}

-- see https://gitlab.haskell.org/ghc/ghc/commit/2f5cb3d44d05e581b75a47fec222577dfa7a533e
-- for why we only support an instance for ghc >= 8.2
#if __GLASGOW_HASKELL__ >= 802
-- @since 0.7.1.0
instance PrimMonad (L.ST s) where
  type PrimState (L.ST s) = s
  primitive :: forall a.
(State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #))
-> ST s a
primitive = ST s a -> ST s a
forall s a. ST s a -> ST s a
L.strictToLazyST (ST s a -> ST s a)
-> ((State# s -> (# State# s, a #)) -> ST s a)
-> (State# s -> (# State# s, a #))
-> ST s a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (State# s -> (# State# s, a #)) -> ST s a
(State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #))
-> ST s a
forall a.
(State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #))
-> ST s a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive
  {-# INLINE primitive #-}

-- @since 0.7.1.0
instance PrimBase (L.ST s) where
  internal :: forall a.
ST s a
-> State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #)
internal = ST s a -> State# s -> (# State# s, a #)
ST s a
-> State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #)
forall a.
ST s a
-> State# (PrimState (ST s)) -> (# State# (PrimState (ST s)), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal (ST s a -> State# s -> (# State# s, a #))
-> (ST s a -> ST s a) -> ST s a -> State# s -> (# State# s, a #)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ST s a -> ST s a
forall s a. ST s a -> ST s a
L.lazyToStrictST
  {-# INLINE internal #-}
#endif

-- | 'PrimMonad''s state token type can be annoying to handle
--   in constraints. This typeclass lets users (visually) notice
--   'PrimState' equality constraints less, by witnessing that
--   @s ~ 'PrimState' m@.
class (PrimMonad m, s ~ PrimState m) => MonadPrim s m
instance (PrimMonad m, s ~ PrimState m) => MonadPrim s m

-- | 'PrimBase''s state token type can be annoying to handle
--   in constraints. This typeclass lets users (visually) notice
--   'PrimState' equality constraints less, by witnessing that
--   @s ~ 'PrimState' m@.
class (PrimBase m, MonadPrim s m) => MonadPrimBase s m
instance (PrimBase m, MonadPrim s m) => MonadPrimBase s m

-- | 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 :: forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
liftPrim = m1 a -> m2 a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
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 :: forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
primToPrim m1 a
m = (State# (PrimState m2) -> (# State# (PrimState m2), a #)) -> m2 a
forall a.
(State# (PrimState m2) -> (# State# (PrimState m2), a #)) -> m2 a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive (m1 a -> State# (PrimState m1) -> (# State# (PrimState m1), a #)
forall a.
m1 a -> State# (PrimState m1) -> (# State# (PrimState m1), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal m1 a
m)

-- | Convert a 'PrimBase' with a 'RealWorld' state token to 'IO'
primToIO :: (PrimBase m, PrimState m ~ RealWorld) => m a -> IO a
{-# INLINE primToIO #-}
primToIO :: forall (m :: * -> *) a.
(PrimBase m, PrimState m ~ RealWorld) =>
m a -> IO a
primToIO = m a -> IO a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
primToPrim

-- | Convert a 'PrimBase' to 'ST'
primToST :: PrimBase m => m a -> ST (PrimState m) a
{-# INLINE primToST #-}
primToST :: forall (m :: * -> *) a. PrimBase m => m a -> ST (PrimState m) a
primToST = m a -> ST (PrimState m) a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
primToPrim

-- | Convert an 'IO' action to a 'PrimMonad'.
--
-- @since 0.6.2.0
ioToPrim :: (PrimMonad m, PrimState m ~ RealWorld) => IO a -> m a
{-# INLINE ioToPrim #-}
ioToPrim :: forall (m :: * -> *) a.
(PrimMonad m, PrimState m ~ RealWorld) =>
IO a -> m a
ioToPrim = IO a -> m a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
primToPrim

-- | Convert an 'ST' action to a 'PrimMonad'.
--
-- @since 0.6.2.0
stToPrim :: PrimMonad m => ST (PrimState m) a -> m a
{-# INLINE stToPrim #-}
stToPrim :: forall (m :: * -> *) a. PrimMonad m => ST (PrimState m) a -> m a
stToPrim = ST (PrimState m) a -> m a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2, PrimState m1 ~ PrimState m2) =>
m1 a -> m2 a
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 :: forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2) =>
m1 a -> m2 a
unsafePrimToPrim m1 a
m = (State# (PrimState m2) -> (# State# (PrimState m2), a #)) -> m2 a
forall a.
(State# (PrimState m2) -> (# State# (PrimState m2), a #)) -> m2 a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive ((State# (PrimState m1) -> (# State# (PrimState m1), a #))
-> State# (PrimState m2) -> (# State# (PrimState m2), a #)
forall a b. a -> b
unsafeCoerce# (m1 a -> State# (PrimState m1) -> (# State# (PrimState m1), a #)
forall a.
m1 a -> State# (PrimState m1) -> (# State# (PrimState m1), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal m1 a
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 :: forall (m :: * -> *) a s. PrimBase m => m a -> ST s a
unsafePrimToST = m a -> ST s a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2) =>
m1 a -> m2 a
unsafePrimToPrim

-- | Convert any 'PrimBase' to 'IO'. This operation is highly unsafe!
unsafePrimToIO :: PrimBase m => m a -> IO a
{-# INLINE unsafePrimToIO #-}
unsafePrimToIO :: forall (m :: * -> *) a. PrimBase m => m a -> IO a
unsafePrimToIO = m a -> IO a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2) =>
m1 a -> m2 a
unsafePrimToPrim

-- | Convert an 'ST' action with an arbitrary state token to any 'PrimMonad'.
-- This operation is highly unsafe!
--
-- @since 0.6.2.0
unsafeSTToPrim :: PrimMonad m => ST s a -> m a
{-# INLINE unsafeSTToPrim #-}
unsafeSTToPrim :: forall (m :: * -> *) s a. PrimMonad m => ST s a -> m a
unsafeSTToPrim = ST s a -> m a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2) =>
m1 a -> m2 a
unsafePrimToPrim

-- | Convert an 'IO' action to any 'PrimMonad'. This operation is highly
-- unsafe!
--
-- @since 0.6.2.0
unsafeIOToPrim :: PrimMonad m => IO a -> m a
{-# INLINE unsafeIOToPrim #-}
unsafeIOToPrim :: forall (m :: * -> *) a. PrimMonad m => IO a -> m a
unsafeIOToPrim = IO a -> m a
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2) =>
m1 a -> m2 a
unsafePrimToPrim

-- | See 'unsafeInlineIO'. This function is not recommended for the same
-- reasons.
unsafeInlinePrim :: PrimBase m => m a -> a
{-# INLINE unsafeInlinePrim #-}
unsafeInlinePrim :: forall (m :: * -> *) a. PrimBase m => m a -> a
unsafeInlinePrim m a
m = IO a -> a
forall a. IO a -> a
unsafeInlineIO (m a -> IO a
forall (m :: * -> *) a. PrimBase m => m a -> IO a
unsafePrimToIO m a
m)

-- | Generally, do not use this function. It is the same as
-- @accursedUnutterablePerformIO@ from @bytestring@ and is well behaved under
-- narrow conditions. See the documentation of that function to get an idea
-- of when this is sound. In most cases @GHC.IO.Unsafe.unsafeDupablePerformIO@
-- should be preferred.
unsafeInlineIO :: IO a -> a
{-# INLINE unsafeInlineIO #-}
unsafeInlineIO :: forall a. IO a -> a
unsafeInlineIO IO a
m = case IO a -> State# (PrimState IO) -> (# State# (PrimState IO), a #)
forall a.
IO a -> State# (PrimState IO) -> (# State# (PrimState IO), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal IO a
m State# RealWorld
State# (PrimState IO)
realWorld# of (# State# (PrimState IO)
_, a
r #) -> a
r

-- | See 'unsafeInlineIO'. This function is not recommended for the same
-- reasons. Prefer @runST@ when @s@ is free.
unsafeInlineST :: ST s a -> a
{-# INLINE unsafeInlineST #-}
unsafeInlineST :: forall s a. ST s a -> a
unsafeInlineST = ST s a -> a
forall (m :: * -> *) a. PrimBase m => m a -> a
unsafeInlinePrim

touch :: PrimMonad m => a -> m ()
{-# INLINE touch #-}
touch :: forall (m :: * -> *) a. PrimMonad m => a -> m ()
touch a
x = IO () -> m ()
forall (m1 :: * -> *) (m2 :: * -> *) a.
(PrimBase m1, PrimMonad m2) =>
m1 a -> m2 a
unsafePrimToPrim
        (IO () -> m ()) -> IO () -> m ()
forall a b. (a -> b) -> a -> b
$ ((State# (PrimState IO) -> (# State# (PrimState IO), () #)) -> IO ()
forall a.
(State# (PrimState IO) -> (# State# (PrimState IO), a #)) -> IO a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive (\State# (PrimState IO)
s -> case a -> State# RealWorld -> State# RealWorld
forall a. a -> State# RealWorld -> State# RealWorld
touch# a
x State# RealWorld
State# (PrimState IO)
s of { State# RealWorld
s' -> (# State# RealWorld
State# (PrimState IO)
s', () #) }) :: IO ())

keepAlive :: PrimBase m => a -> (a -> m r) -> m r
#if defined(HAVE_KEEPALIVE)
{-# INLINE keepAlive #-}
keepAlive :: forall (m :: * -> *) a r. PrimBase m => a -> (a -> m r) -> m r
keepAlive a
x a -> m r
k = IO r -> m r
forall (m :: * -> *) a. PrimMonad m => IO a -> m a
unsafeIOToPrim (IO r -> m r) -> IO r -> m r
forall a b. (a -> b) -> a -> b
$ (State# (PrimState IO) -> (# State# (PrimState IO), r #)) -> IO r
forall a.
(State# (PrimState IO) -> (# State# (PrimState IO), a #)) -> IO a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive ((State# (PrimState IO) -> (# State# (PrimState IO), r #)) -> IO r)
-> (State# (PrimState IO) -> (# State# (PrimState IO), r #))
-> IO r
forall a b. (a -> b) -> a -> b
$ \State# (PrimState IO)
s0 -> a
-> State# RealWorld
-> (State# RealWorld -> (# State# (PrimState IO), r #))
-> (# State# (PrimState IO), r #)
forall a b. a -> State# RealWorld -> (State# RealWorld -> b) -> b
keepAlive# a
x State# RealWorld
State# (PrimState IO)
s0 ((State# RealWorld -> (# State# (PrimState IO), r #))
 -> (# State# (PrimState IO), r #))
-> (State# RealWorld -> (# State# (PrimState IO), r #))
-> (# State# (PrimState IO), r #)
forall a b. (a -> b) -> a -> b
$ IO r -> State# (PrimState IO) -> (# State# (PrimState IO), r #)
forall a.
IO a -> State# (PrimState IO) -> (# State# (PrimState IO), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal (IO r -> State# (PrimState IO) -> (# State# (PrimState IO), r #))
-> IO r -> State# (PrimState IO) -> (# State# (PrimState IO), r #)
forall a b. (a -> b) -> a -> b
$ m r -> IO r
forall (m :: * -> *) a. PrimBase m => m a -> IO a
unsafePrimToIO (m r -> IO r) -> m r -> IO r
forall a b. (a -> b) -> a -> b
$ a -> m r
k a
x
#else
{-# NOINLINE keepAlive #-}
keepAlive x k = k x <* touch x
#endif

-- | Create an action to force a value; generalizes 'Control.Exception.evaluate'
--
-- @since 0.6.2.0
evalPrim :: forall a m . PrimMonad m => a -> m a
evalPrim :: forall a (m :: * -> *). PrimMonad m => a -> m a
evalPrim a
a = (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive (\State# (PrimState m)
s -> a -> State# (PrimState m) -> (# State# (PrimState m), a #)
forall a d. a -> State# d -> (# State# d, a #)
seq# a
a State# (PrimState m)
s)

noDuplicate :: PrimMonad m => m ()
#if __GLASGOW_HASKELL__ >= 802
noDuplicate :: forall (m :: * -> *). PrimMonad m => m ()
noDuplicate = (State# (PrimState m) -> (# State# (PrimState m), () #)) -> m ()
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive ((State# (PrimState m) -> (# State# (PrimState m), () #)) -> m ())
-> (State# (PrimState m) -> (# State# (PrimState m), () #)) -> m ()
forall a b. (a -> b) -> a -> b
$ \ State# (PrimState m)
s -> (# State# (PrimState m) -> State# (PrimState m)
forall d. State# d -> State# d
noDuplicate# State# (PrimState m)
s, () #)
#else
-- noDuplicate# was limited to RealWorld
noDuplicate = unsafeIOToPrim $ primitive $ \s -> (# noDuplicate# s, () #)
#endif

unsafeInterleave, unsafeDupableInterleave :: PrimBase m => m a -> m a
unsafeInterleave :: forall (m :: * -> *) a. PrimBase m => m a -> m a
unsafeInterleave m a
x = m a -> m a
forall (m :: * -> *) a. PrimBase m => m a -> m a
unsafeDupableInterleave (m ()
forall (m :: * -> *). PrimMonad m => m ()
noDuplicate m () -> m a -> m a
forall a b. m a -> m b -> m b
forall (m :: * -> *) a b. Monad m => m a -> m b -> m b
>> m a
x)
unsafeDupableInterleave :: forall (m :: * -> *) a. PrimBase m => m a -> m a
unsafeDupableInterleave m a
x = (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a.
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall (m :: * -> *) a.
PrimMonad m =>
(State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
primitive ((State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a)
-> (State# (PrimState m) -> (# State# (PrimState m), a #)) -> m a
forall a b. (a -> b) -> a -> b
$ \ State# (PrimState m)
s -> let r' :: a
r' = case m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
forall a.
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
forall (m :: * -> *) a.
PrimBase m =>
m a -> State# (PrimState m) -> (# State# (PrimState m), a #)
internal m a
x State# (PrimState m)
s of (# State# (PrimState m)
_, a
r #) -> a
r in (# State# (PrimState m)
s, a
r' #)
{-# INLINE unsafeInterleave #-}
{-# NOINLINE unsafeDupableInterleave #-}
-- See Note [unsafeDupableInterleaveIO should not be inlined]
-- in GHC.IO.Unsafe