Still new to Haskell, I have hit a wall with the following:

I am trying to define some type classes to generalize a bunch of functions that use gaussian elimination to solve linear systems of equations.

Given a linear system

```
M x = k
```

the type `a`

of the elements `m(i,j) \elem M`

can be different from the type `b`

of `x`

and `k`

. To be able to solve the system, `a`

should be an instance of `Num`

and `b`

should have multiplication/addition operators with `b`

, like in the following:

```
class MixedRing b where
(.+.) :: b -> b -> b
(.*.) :: (Num a) => b -> a -> b
(./.) :: (Num a) => b -> a -> b
```

Now, even in the most trivial implementation of these operators, I'll get `Could not deduce a ~ Int. a is a rigid type variable`

errors (Let's forget about `./.`

which requires `Fractional`

)

```
data Wrap = W { get :: Int }
instance MixedRing Wrap where
(.+.) w1 w2 = W $ (get w1) + (get w2)
(.*.) w s = W $ ((get w) * s)
```

I have read several tutorials on type classes but I can find no pointer to what actually goes wrong.