The core problem is that you're promising that `make_new`

works for *all* types `b`

to produce a value of `a`

. However, this doesn't make sense given how `SafeValue a`

works: given some type `a`

, you get a `SafeValue a`

out. So what you really want is for `make_new`

to take a value of some type `a`

but give you a value of `SafeValue a`

. More generally, you want the result to be of some type `s a`

where `s`

is the actual type you're writing an instance for and `a`

can be *any* type.

What you need to do is make the class accept values of a "higher-kinded" type. (What this means is that the class should expect a type like `SafeValue`

that takes a further parameter. You can do that like this:

```
class Safe s where
check :: s a -> Bool
(+++) :: s a -> s a -> s a
make_new :: a -> s a
```

Then your instance will look like this:

```
instance Safe SafeValue where ...
```

Note the important difference: instead of making an instance for `SafeValue a`

, you're making on for `SafeValue`

*without* the type parameter.

However, this has another problem: now you cannot constrain `a`

to be part of `Num`

and `Eq`

!

You can solve this with an extension called multi-parameter type classes. So your final version would be:

```
class Safe s a where
check :: s a -> Bool
(+++) :: s a -> s a -> s a
make_new :: a -> s a
```

and your instance would be:

```
instance (Num a, Eq a) => Safe SafeValue a where ...
```

To make all this work, you need to enable two extensions:

```
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
```

The first one lets you write instances in more ways. Normally, you can only write instances for a type that looks like `T a b c`

where `T`

is a type and `a b c`

are type variables; with this extension, the restriction is lifted and you can write instances like the one I showed.

The multiparameter typeclass extension allows typeclasses that act on more than one type. This allows you to make a class that depends on both `s`

*and* `a`

.

A final note: using typeclasses at all may not be the right choice for your example. Are you planning to write any more types for the `Safe`

class? If you aren't, then you shouldn't use a typeclass at all. However, learning a bit about multiparameter typeclasses is still useful, so you should consider playing around with them at some point.