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I'm writing a graph library to learn more about building slightly larger things in Haskell, and I'm coming across an issue.

Basically, I'm trying to define Edges as a set of two points, a from point and a to point. But, I've got multiple types of edges (Weighted/not), and I do not want them to be able to mix in graphs.

So, the idea I had was to make a couple of new classes, Weighted and Edgy, in order to be able to achieve the amount of polymorphic behavior I'm striving towards. Both types of Edge will be Edgy, but only the Weighted Edge type will be Weighted.

The Weighted class is simple, because it only has to modify the entire object. This is what it looks like:

class Weighted a where
  modifyWeight :: (Unbounded Int -> Unbounded Int) -> a -> a

where Unbounded is a Num type I threw together to support Infinitely large and small numbers. It's simple enough, though, because I only have to return an a.

What I'm stuck on is getting the Edgy class to return something of the type of the class type (??? Not really sure how to put this, inner type, maybe?). To make this clearer, here's what I'm working with, might make more sense:

class Edgy a where
  to :: a -> Vertex a
  from :: a -> Vertex a

where Vertex is a wrapper class -- the Edge declarations that I'm trying to make here here:

data Edge a = Edge (Vertex a) (Vertex a) deriving (Show, Eq)

data WEdge a = WEdge (Vertex a) (Vertex a) (Unbounded Int) deriving (Show, Eq)

So, what I'm really trying to do is say "Okay, if you're a member of the Edgy class, you should be able to return a Vertex of the type of the Edge".

However, GHC doesn't like this, because the a type in Edgy ends up being Edge a instead of a, and I'm not sure how to get it to "descend" into the class to pull that type out in order to return it.

If any of this is unclear, please leave a comment.

Any help is greatly appreciated; I'm stumped!


share|improve this question
It would help if you said what instances you expect Edgy to have, and what types you'd like to and from to have for those instances. That said, I'm not convinced that you even need type classes here--is the extra complexity really pulling its weight (ha, ha) in practice? –  C. A. McCann Dec 13 '12 at 16:46
I would like to have Edge a and WEdge a instances of Edgy. Maybe I should dumb down the program a little bit, you're probably right about the extra complexity being unnecessary. I am trying to get a feel of what it's like to build something a little larger, though, so that was the idea behind taking this route. –  Benjamin Kovach Dec 13 '12 at 16:58
If you want the functions to have types like Edge a -> Vertex a then the simplest thing would be what n.m.'s answer suggests. If Edgy really needs to care about the a parameter as well, things could be trickier. I'd still try to formulate it without typeclasses first and see how that looks. –  C. A. McCann Dec 13 '12 at 17:13
By the way, you might like the built-in Integer type as a replacement for Unbounded Int. –  Daniel Wagner Dec 13 '12 at 17:58
@DanielWagner does it support Infinity? I know Integers are arbitrarily large but I want to assert that there is a number that no other number can be larger than. –  Benjamin Kovach Dec 13 '12 at 18:07

1 Answer 1

up vote 3 down vote accepted

You may want to use type constructor classes rather than type classes

class Edgy e where
    to :: e a -> Vertex a
    from :: e a -> Vertex a

instance Edgy Edge where ...
share|improve this answer
This was exactly what I was looking for, thank you! Looking at it, it seems pretty obvious, so that's something I'll definitely have to keep in mind for the future. –  Benjamin Kovach Dec 14 '12 at 1:31

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