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.