module Control.Monad.Logic.Trans (SFKT, runSFKT, runSFKTOnce) where

import Prelude (class Applicative, class Apply, class Bind, class Functor, class Monad, bind, pure, ($), (<<<), (>>=), const)
import Control.Monad.Logic.Class

import Control.MonadPlus (class MonadPlus, class Alternative, class Alt, class Plus, (<|>), empty)
import Control.Monad.Reader.Class (class MonadReader, local, class MonadAsk, ask)
import Control.Monad.State.Class (class MonadState, state)
import Control.Monad.Trans.Class (class MonadTrans, lift)
import Data.Functor (map)
import Data.Tuple.Nested ((/\))
import Data.List (List(Nil), (:))
import Data.Maybe (Maybe(..))

type FK :: Type -> Type
type FK ans = ans

type SK :: Type -> Type -> Type
type SK ans a = a -> FK ans -> ans

newtype SFKT :: (Type -> Type) -> Type -> Type
newtype SFKT m a = SFKT (forall ans. SK (m ans) a -> FK (m ans) -> m ans)

unSFKT :: forall a m. SFKT m a -> forall ans. SK (m ans) a -> FK (m ans) -> m ans
unSFKT (SFKT f) = f

runSFKTOnce :: forall a m. Alternative m => SFKT m a -> m a
runSFKTOnce (SFKT f) = f (const <<< pure) empty

runSFKT :: forall a m. Monad m => SFKT m a -> m (List a)
runSFKT (SFKT f) = f (map <<< (:)) (pure Nil)

instance Functor (SFKT m) where
    map f m = SFKT (\sk -> unSFKT m (\a -> sk (f a)))

instance Apply m => Apply (SFKT m) where
    apply mf ma = SFKT (\sk -> unSFKT mf (\f -> unSFKT ma (\a -> sk (f a))))

instance Applicative m => Applicative (SFKT m) where
    pure a = SFKT (\sk fk -> sk a fk)

instance Bind m => Bind (SFKT m) where
    bind m f = SFKT (\sk -> unSFKT m (\a -> unSFKT (f a) sk))

instance Monad m => Monad (SFKT m)

instance Alt (SFKT m) where
    alt m1 m2 = SFKT (\sk fk -> unSFKT m1 sk (unSFKT m2 sk fk))

instance Plus (SFKT m) where
    empty = SFKT (\_ fk -> fk)

instance Applicative m => Alternative (SFKT m)

instance Monad m => MonadPlus (SFKT m)

instance MonadTrans SFKT where
    lift m = SFKT (\sk fk -> m >>= (\a -> sk a fk))

instance Monad m => MonadLogic (SFKT m) where
    msplit ma = lift (unSFKT ma (\a fk -> pure (Just (a /\ (lift fk >>= reflect)))) (pure Nothing))
    interleave m1 m2 = do
        r <- msplit m1
        case r of
            Nothing -> m2
            Just (a /\ m1') -> pure a <|> interleave m2 m1'

instance MonadAsk r m => MonadAsk r (SFKT m) where
    ask = lift ask

instance MonadReader r m => MonadReader r (SFKT m) where
    local f m = SFKT (\sk -> unSFKT m (\a -> local f <<< sk a))

instance MonadState s m => MonadState s (SFKT m) where
    state f = lift $ state f