To expand on that, this class basically allows you to prove your relation c holds pointwise across arbitrary binary trees, represented by nested tuples and terminated by ()s. If individual instances of the class had additional ways of constructing values (i.e., proving the relation for the two type parameters), then your trees could contain other types.

For example, if you had another type

data Iso a b = Iso (a -> b) (b -> a) -- the functions must be inverses

you could write an instance of Something for Iso and build a proof that ((), (a, ((), b)) is isomorphic to ((), (c, ((), d)) given Iso a c and Iso b d using your class.

I'm not sure I'd bundle the two parts together, but I'd call your pair method (or the class it lives in) something like congruent or ProductsRespectThisRelation :)

Dan

On Tue, May 8, 2012 at 3:15 PM, Daniel Peebles <pumpkingod@gmail.com> wrote:

FullBinaryTreeRelation? :P

On Tue, May 8, 2012 at 1:36 PM, MigMit <miguelimo38@yandex.ru> wrote:

Hi café, a quick question.

Is there a somewhat standard class like this:

class Something c where
   unit :: c () ()
   pair :: c x y -> c u v -> c (x, u) (y, v)

?

I'm using it heavily in my current project, but I don't want to repeat somebody else's work, and it seems general enough to be defined somewhere; but my quick search on Hackage didn't reveal anything.

I know about arrows; this, however, is something more general, and it's instances aren't always arrows.
_______________________________________________
Haskell-Cafe mailing list
Haskell-Cafe@haskell.org
http://www.haskell.org/mailman/listinfo/haskell-cafe