The idea that the standard `Monad`

class is flawed and that it should actually extend `Functor`

or `Pointed`

is floating around.

I'm not necessarily claiming that it is the right thing to do, but suppose that one was trying to do it:

```
import Prelude hiding (Monad(..))
class Functor m => Monad m where
return :: a -> m a
join :: m (m a) -> m a
join = (>>= id)
(>>=) :: m a -> (a -> m b) -> m b
a >>= t = join (fmap t a)
(>>) :: m a -> m b -> m b
a >> b = a >>= const b
```

So far so good, but then when trying to use do-notation:

```
whileM :: Monad m => m Bool -> m ()
whileM iteration = do
done <- iteration
if done
then return ()
else whileM iteration
```

The compiler complains:

```
Could not deduce (base:GHC.Base.Monad m) from the context (Monad m)
```

**Question:**

Does do-notation work only for `base:GHC.Base.Monad`

? Is there a way to make it work with an alternative `Monad`

class?

**Extra context:**

What I really want to do is replace `base:Control.Arrow.Arrow`

with a "generalized" `Arrow`

class:

```
{-# LANGUAGE TypeFamilies #-}
class Category a => Arrow a where
type Pair a :: * -> * -> *
arr :: (b -> c) -> a b c
first :: a b c -> a (Pair a b d) (Pair a c d)
second :: a b c -> a (Pair a d b) (Pair a d c)
(***) :: a b c -> a b' c' -> a (Pair a b b') (Pair a c c')
(&&&) :: a b c -> a b c' -> a b (Pair a c c')
```

And then use the `Arrow`

's proc-notation with my `Arrow`

class, but that fails like in the example above of do-notation and `Monad`

.

I'll use mostly `Either`

as my pair type constructor and not the `(,)`

type constructor as with the current `Arrow`

class. This might allow to make the code of my toy RTS game (`cabal install DefendTheKind`

) much prettier.