I'm having trouble with classes in haskell.

Basically, I have an algorithm (a weird sort of graph-traversal algorithm) that takes as input, among other things, a container to store the already-seen nodes (I'm keen on avoiding monads, so let's move on. :)). The thing is, the function takes the container as a parameter, and calls just one function: "set_contains", which asks if the container... contains node v. (If you're curious, another function passed in as a parameter does the actual node-adding).

Basically, I want to try a variety of data structures as parameters. Yet, as there is no overloading, I cannot have more than one data structure work with the all-important contains function!

So, I wanted to make a "Set" class (I shouldn't roll my own, I know). I already have a pretty nifty Red-Black tree set up, thanks to Chris Okasaki's book, and now all that's left is simply *making the Set class and declaring RBT, among others, as instances of it*.

Here is the following code:

(Note: code heavily updated -- e.g., contains now does not call a helper function, but is the class function itself!)

```
data Color = Red | Black
data (Ord a) => RBT a = Leaf | Tree Color (RBT a) a (RBT a)
instance Show Color where
show Red = "r"
show Black = "b"
class Set t where
contains :: (Ord a) => t-> a-> Bool
-- I know this is nonesense, just showing it can compile.
instance (Ord a) => Eq (RBT a) where
Leaf == Leaf = True
(Tree _ _ x _) == (Tree _ _ y _) = x == y
instance (Ord a) => Set (RBT a) where
contains Leaf b = False
contains t@(Tree c l x r) b
| b == x = True
| b < x = contains l b
| otherwise = contains r b
```

Note how I have a pretty stupidly-defined Eq instance of RBT. That is intentional --- I copied it (but cut corners) from the gentle tutorial.

Basically, my question boils down to this: If I comment out the instantiation statement for Set (RBT a), everything compiles. If I add it back in, I get the following error:

```
RBTree.hs:21:15:
Couldn't match expected type `a' against inferred type `a1'
`a' is a rigid type variable bound by
the type signature for `contains' at RBTree.hs:11:21
`a1' is a rigid type variable bound by
the instance declaration at RBTree.hs:18:14
In the second argument of `(==)', namely `x'
In a pattern guard for
the definition of `contains':
b == x
In the definition of `contains':
contains (t@(Tree c l x r)) b
| b == x = True
| b < x = contains l b
| otherwise = contains r b
```

And I simply cannot, for the life of me, figure out why that isn't working. (As a side note, the "contains" function is defined elsewhere, and basically has the actual set_contains logic for the RBT data type.)

Thanks! - Agor

Third edit: removed the previous edits, consolidated above.

was, but the answers here have been quite helpful. :) Regardless, I agree that my title is a little clunky, and if there is a better way of writing it... – agorenst Jul 28 '09 at 19:00