The type variable `m`

is not something you can pattern match on, especially not in order to distinguish between `Just`

and `Nothing`

. Think about what it would mean for different possible types used in place of `m`

--in many cases, such a pattern match would be outright impossible.

To write that instance, you'll need something like this:

```
instance (Monad m) => Monad (M m) where
return x = Mk (return (Just x))
Mk mx >>= f = -- ??
```

Note the `return`

used to create a value of type `m (Maybe a)`

--that's possible because of the `Monad m`

constraint, and in the general case (with no constraint at all) there'd be no way to create such a value.

To implement `(>>=)`

you'll need to do something similar, likewise making use of `(>>=)`

for the `Monad`

instance of `m`

.

Incidentally, you should consider using a `newtype`

for `M`

, unless you have a specific reason for wanting `data`

. Most of the time, if you *can* use `newtype`

, you should.