Idris2/libs/base/Control/Monad/RWS/CPS.idr

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Idris

||| Note: The difference to a 'strict' RWST implementation is
||| that accumulation of values does not happen in the
||| Applicative and Monad instances but when invoking `Writer`-specific
||| functions like `writer` or `listen`.
module Control.Monad.RWS.CPS
import Control.Monad.Identity
import Control.Monad.Trans
%default total
||| A monad transformer adding reading an environment of type `r`,
||| collecting an output of type `w` and updating a state of type `s`
||| to an inner monad `m`.
public export
record RWST (r : Type) (w : Type) (s : Type) (m : Type -> Type) (a : Type) where
constructor MkRWST
unRWST : r -> s -> w -> m (a, s, w)
||| Unwrap an RWST computation as a function. (The inverse of `rwsT`.)
public export %inline
runRWST : Monoid w => RWST r w s m a -> r -> s -> m (a, s, w)
runRWST m r s = unRWST m r s neutral
||| Construct an RWST computation from a function. (The inverse of `runRWST`.)
public export %inline
rwsT : Semigroup w => Functor m => (r -> s -> m (a, s, w)) -> RWST r w s m a
rwsT f = MkRWST $ \r,s,w => (\(a,s',w') => (a,s',w <+> w')) <$> f r s
||| Evaluate a computation with the given initial state and environment,
||| returning the final value and output, discarding the final state.
public export %inline
evalRWST : Monoid w => Functor m => RWST r w s m a -> r -> s -> m (a,w)
evalRWST m r s = (\(a,_,w) => (a,w)) <$> runRWST m r s
||| Evaluate a computation with the given initial state and environment,
||| returning the final state and output, discarding the final value.
public export %inline
execRWST : Monoid w => Functor m => RWST r w s m a -> r -> s -> m (s,w)
execRWST m r s = (\(_,s',w) => (s',w)) <$> runRWST m r s
||| Map the inner computation using the given function.
public export %inline
mapRWST : (Functor n, Monoid w, Semigroup w')
=> (m (a, s, w) -> n (b, s, w')) -> RWST r w s m a -> RWST r w' s n b
mapRWST f m = MkRWST $ \r,s,w =>
(\(a,s',w') => (a,s',w <+> w')) <$> f (runRWST m r s)
||| `withRWST f m` executes action `m` with an initial environment
||| and state modified by applying `f`.
public export %inline
withRWST : (r' -> s -> (r, s)) -> RWST r w s m a -> RWST r' w s m a
withRWST f m = MkRWST $ \r,s => uncurry (unRWST m) (f r s)
--------------------------------------------------------------------------------
-- RWS Functions
--------------------------------------------------------------------------------
||| A monad containing an environment of type `r`, output of type `w`
||| and an updatable state of type `s`.
public export
RWS : (r : Type) -> (w : Type) -> (s : Type) -> (a : Type) -> Type
RWS r w s = RWST r w s Identity
||| Unwrap an RWS computation as a function. (The inverse of `rws`.)
public export %inline
runRWS : Monoid w => RWS r w s a -> r -> s -> (a, s, w)
runRWS m r s = runIdentity (runRWST m r s)
||| Construct an RWS computation from a function. (The inverse of `runRWS`.)
public export %inline
rws : Semigroup w => (r -> s -> (a, s, w)) -> RWS r w s a
rws f = MkRWST $ \r,s,w => let (a, s', w') = f r s
in Id (a, s', w <+> w')
||| Evaluate a computation with the given initial state and environment,
||| returning the final value and output, discarding the final state.
public export %inline
evalRWS : Monoid w => RWS r w s a -> r -> s -> (a,w)
evalRWS m r s = let (a,_,w) = runRWS m r s
in (a,w)
||| Evaluate a computation with the given initial state and environment,
||| returning the final state and output, discarding the final value.
public export %inline
execRWS : Monoid w => RWS r w s a -> r -> s -> (s,w)
execRWS m r s = let (_,s1,w) = runRWS m r s
in (s1,w)
||| Map the return value, final state and output of a computation using
||| the given function.
public export %inline
mapRWS : (Monoid w, Semigroup w')
=> ((a, s, w) -> (b, s, w')) -> RWS r w s a -> RWS r w' s b
mapRWS f = mapRWST $ \(Id p) => Id (f p)
||| `withRWS f m` executes action `m` with an initial environment
||| and state modified by applying `f`.
public export %inline
withRWS : (r' -> s -> (r, s)) -> RWS r w s a -> RWS r' w s a
withRWS = withRWST
--------------------------------------------------------------------------------
-- Implementations
--------------------------------------------------------------------------------
public export %inline
Functor m => Functor (RWST r w s m) where
map f m = MkRWST $ \r,s,w => (\(a,s',w') => (f a,s',w')) <$> unRWST m r s w
public export %inline
Monad m => Applicative (RWST r w s m) where
pure a = MkRWST $ \_,s,w => pure (a,s,w)
MkRWST mf <*> MkRWST mx =
MkRWST $ \r,s,w => do (f,s1,w1) <- mf r s w
(a,s2,w2) <- mx r s1 w1
pure (f a,s2,w2)
public export %inline
(Monad m, Alternative m) => Alternative (RWST r w s m) where
empty = MkRWST $ \_,_,_ => empty
MkRWST m <|> mn = MkRWST $ \r,s,w => m r s w <|> unRWST mn r s w
public export %inline
Monad m => Monad (RWST r w s m) where
m >>= k = MkRWST $ \r,s,w => do (a,s1,w1) <- unRWST m r s w
unRWST (k a) r s1 w1
public export %inline
MonadTrans (RWST r w s) where
lift m = MkRWST $ \_,s,w => map (\a => (a,s,w)) m
public export %inline
HasIO m => HasIO (RWST r w s m) where
liftIO = lift . liftIO