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author | William Carroll <wpcarro@gmail.com> | 2020-07-12T16·40+0100 |
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committer | William Carroll <wpcarro@gmail.com> | 2020-07-12T16·40+0100 |
commit | 5116cc346348cec58bcb220351ee8d3584a57603 (patch) | |
tree | 19d7ffa85eefd86a03e9fb0eb3c469027b525102 /scratch/haskell-programming-from-first-principles/monad-transformers.hs | |
parent | 3665ea457bf30e4a0de7733608e3e16c8e18090c (diff) |
Partially complete Monad Transformer exercises
Write Functor, Applicative, Monad instances for: - MaybeT - EitherT - ReaderT
Diffstat (limited to 'scratch/haskell-programming-from-first-principles/monad-transformers.hs')
-rw-r--r-- | scratch/haskell-programming-from-first-principles/monad-transformers.hs | 79 |
1 files changed, 79 insertions, 0 deletions
diff --git a/scratch/haskell-programming-from-first-principles/monad-transformers.hs b/scratch/haskell-programming-from-first-principles/monad-transformers.hs new file mode 100644 index 000000000000..508fc018f380 --- /dev/null +++ b/scratch/haskell-programming-from-first-principles/monad-transformers.hs @@ -0,0 +1,79 @@ +module MonadTransformersScratch where + +import Data.Function ((&)) +-------------------------------------------------------------------------------- + +newtype MaybeT m a = + MaybeT { runMaybeT :: m (Maybe a) } + +instance (Functor f) => Functor (MaybeT f) where + fmap f (MaybeT run) = + MaybeT $ (fmap . fmap) f run + +instance (Applicative m) => Applicative (MaybeT m) where + pure x = x & pure & pure & MaybeT + _ <*> _ = undefined + +instance (Monad m) => Monad (MaybeT m) where + return = pure + (MaybeT ma) >>= f = MaybeT $ do + maybeX <- ma + case maybeX of + Nothing -> pure Nothing + Just x -> x & f & runMaybeT + +-------------------------------------------------------------------------------- + +newtype EitherT e m a = + EitherT { runEitherT :: m (Either e a) } + +instance (Functor m) => Functor (EitherT e m) where + fmap f (EitherT mEither) = + EitherT $ (fmap . fmap) f mEither + +instance (Applicative m) => Applicative (EitherT e m) where + pure x = EitherT $ (pure . pure) x + EitherT mEitherF <*> EitherT mEitherX = + EitherT $ (fmap (<*>) mEitherF) <*> mEitherX + +instance (Monad m) => Monad (EitherT e m) where + return = pure + EitherT mEitherX >>= f = EitherT $ do + eitherX <- mEitherX + case eitherX of + Left x -> pure $ Left x + Right x -> runEitherT $ f x + +swapEither :: Either l r -> Either r l +swapEither (Left x) = Right x +swapEither (Right x) = Left x + +swapEitherT :: (Functor m) => EitherT e m a -> EitherT a m e +swapEitherT (EitherT mEitherX) = + EitherT $ fmap swapEither mEitherX + +eitherT :: Monad m => (a -> m c) -> (b -> m c) -> EitherT a m b -> m c +eitherT aToMC bToMC (EitherT mEitherX) = do + eitherX <- mEitherX + case eitherX of + Left x -> aToMC x + Right x -> bToMC x + +-------------------------------------------------------------------------------- + +newtype ReaderT r m a = ReaderT { runReaderT :: r -> m a } + +instance (Functor m) => Functor (ReaderT r m) where + fmap f (ReaderT rma) = + ReaderT $ (fmap . fmap) f rma + +instance (Applicative m) => Applicative (ReaderT r m) where + pure x = x & pure & pure & ReaderT + ReaderT f <*> ReaderT x = ReaderT $ fmap (<*>) f <*> x + +instance (Monad m) => Monad (ReaderT r m) where + return = pure + ReaderT rma >>= f = + ReaderT $ \r -> do + a <- rma r + runReaderT (f a) r |