I have a data type Polynomial r for polynomials in Haskell and a Ring instance for it. (The `class Ring r where plus :: r -> r -> r ; times :: r -> r -> r ; negative :: r -> r ; zero :: r ; one :: r`

-- it's just a simplified version of Num).

Now I could define a polynomial such as `gauss = x^2 + 1`

or `eisenstein = x^2 + x + 1`

and then work in "Polynomial Integer/(gauss)" for the Gaussian integers or "Polynomial Integer/(eisenstein)" for the Eisenstein integers. That's the problem, I wrote it in quotes because it's not a real data type, and I can't figure out how to define it.

I first tried to do something like `data Quotient p = Quot p p`

and then for example we would have `plus (Quot a i) (Quot b i') | i == i' = Quot (plus a b) i`

Of course this is pretty bad already but it's not even possible to define `one`

and `zero`

. So I changed it to `data Quotient p = Quot p (Maybe p)`

and I think I have a working implementation using that but you never know for sure if `plus`

will work (it needs at least one `Just`

, and if there are two they must be the same).

Is there any type safe (I mean not using unsafe functions) way to program this in haskell? I am pretty stumped. Thanks!

`data Quotient (p :: *) (q :: Polynomial r) = Quot p`

, where the data type is parametrized by a value. There might be a way to emulate it in this case, but I'm not sure. – Antal S-Z Jan 6 '11 at 8:43`Quotient`

would work if you used a newtype for each polynomial. Sounds like a pain though. – John L Jan 6 '11 at 11:11