post(typoclassopedia): Monad#instances

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Mahdi Dibaiee 2017-10-11 20:02:14 +03:30
parent 9063390322
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@ -555,3 +555,78 @@ In the laws above, `≅` refers to isomorphism rather than equality. In particul
= fmap (u . v) w = fmap (u . v) w
= pure (.) <*> u <*> v <*> w = = pure (.) <*> u <*> v <*> w =
``` ```
Monad
=====
## Definition
```haskell
class Applicative m => Monad m where
return :: a -> m a
(>>=) :: m a -> (a -> m b) -> m b
(>>) :: m a -> m b -> m b
m >> n = m >>= \_ -> n
fail :: String -> m a
```
## Instances
```haskell
instance Monad Maybe where
return :: a -> Maybe a
return = Just
(>>=) :: Maybe a -> (a -> Maybe b) -> Maybe b
(Just x) >>= g = g x
Nothing >>= _ = Nothing
```
### Exercises
1. Implement a `Monad` instance for the list constructor, `[]`. Follow the types!
**Solution**:
```haskell
instance Monad [] where
return a = [a]
[] >> _ = []
(x:xs) >>= f = f x : xs >>= f
```
2. Implement a `Monad` instance for `((->) e)`.
**Solution**:
```haskell
instance Monad ((->) e) where
return x = const x
g >>= f = f . g
```
3. Implement `Functor` and `Monad` instance for `Free f`, defined as:
```haskell
data Free f a = Var a
| Node (f (Free f a))
```
You may assume that `f` has a `Functor` instance. This is known as the _free monad_ built from the functor f.
**Solution**:
```haskell
instance Functor (Free f) where
fmap f (Var a) = Var (f a)
fmap f (Node x) = Node (f x)
instance Monad (Free f) where
return x = Var x
(Var x) >>= f = Var (f x)
(Node x) >>= f = Node (fmap f x)
```