So, say that I define the data types

```
data WAtom a = WAtom {innerVal :: a, temper :: WPart a -> WPart a }
data WPart a where
WUnit :: WAtom a -> WPart a
WCompound :: WAtom a -> WAtom a -> WPart a
atomize :: WPart a -> a
atomize (WUnit a) = innerVal a
{- Write one for compound too -}
```

Now I want to make WPart an instance of Monad. All seems well so far.
I'd like `bind`

to operate by calling the bound function on the innerVal of the monad to produce a new monad. Then call this new monad's `temper`

on the original monad:

```
instance Monad (WPart) where
return a = WUnit $ WAtom a
(WUnit c) >>= f = let new_part = f $ innerVal c in
(temper $ atomize new_part) (WUnit c)
```

However, this doesn't typecheck. The definition of monad maintains that the `f`

in bind can change the inner type of the monad. This makes sense to me. However, I seem to be on the horns of a dilemma: 1) If I constrain what type WAtom can take, say define the data type instead as `WAtom Int`

then I will run afoul of the Kind restriction on Monads * -> *. But if I don't, then I cannot know that the `f`

in bind will return a monad of the same type as the original monad passed in. Furthermore, I can't make `temper`

existentially quantified for obvious reasons.

I'm sure I'm just thinking about this wrong. Anyone have any ideas?

Best, Erik