module Control.Joint.Effects.State where

import Control.Joint.Core (type (:.), type (:=))
import Control.Joint.Abilities.Adaptable (Adaptable (adapt))
import Control.Joint.Abilities.Interpreted (Interpreted (Primary, run))
import Control.Joint.Abilities.Transformer (Transformer (Schema, embed, build, unite), (:>) (T))
import Control.Joint.Abilities.Liftable (Liftable (lift))
import Control.Joint.Schemes (TUT (TUT))
import Control.Joint.Effects.Reader (Reader (Reader))
import Control.Joint.Effects.Writer (Writer (Writer))

newtype State s a = State ((->) s :. (,) s := a)

statefully :: s -> State s a -> (s, a)
statefully initial (State x) = x initial

instance Functor (State s) where
        fmap f (State x) = State $ \old -> f <$> x old

instance Applicative (State s) where
        pure x = State $ \s -> (s, x)
        State f <*> State x = State $ \old ->
                let latest = fst . x $ old in
                        (latest, snd (f old) . snd . x $ old)

instance Monad (State s) where
        State x >>= f = State $ \old ->
                uncurry statefully $ f <$> x old

instance Interpreted (State s) where
        type Primary (State s) a = (->) s :. (,) s := a
        run (State x) = x

instance Transformer (State s) where
        type Schema (State s) u = TUT ((->) s) u ((,) s)
        embed x = T . TUT $ \s -> (s,) <$> x
        build x = T . TUT $ pure <$> run x
        unite = T . TUT

instance Functor u => Functor (TUT ((->) s) u ((,) s)) where
        fmap f (TUT x) = TUT $ \old -> (fmap . fmap) f $ x old

instance Monad u => Applicative (TUT ((->) s) u ((,) s)) where
        pure x = TUT $ \s -> pure (s, x)
        TUT f <*> TUT x = TUT $ \old -> f old >>= \(new, g) -> (fmap . fmap) g $ x new

instance Monad u => Monad (TUT ((->) s) u ((,) s)) where
        TUT x >>= f = TUT $ \old -> x old >>= \(new, y) -> ($ new) . run . f $ y

instance Adaptable (Reader e) (State e) where
        adapt (Reader f) = State (\e -> (e, f e))

instance Adaptable (Writer e) (State e) where
        adapt (Writer (e, x)) = State (\e -> (e, x))

type Stateful e = Liftable (State e)

modify :: Stateful s t => (s -> s) -> t ()
modify f = lift $ State $ \s -> (f s, ())

current :: Stateful s t => t s
current = lift $ State $ \s -> (s, s)