I've came to an interesting situation when I tried to decompose one typeclass I needed for restoring tree from a list representation. The idea was to represent property of elements to be relative each to other in original hierarchy.
Consider next traits of data types
class HierarchyOrd a where -- | Compares two objects for being on the same branch of hierarchy -- LT/GT lower/higher in hierarchy, EQ on the same node hierarchyCompare :: a -> a -> Maybe Ordering class HierarchyOrd a => Hierarchy a where -- | Get information for common joint of branches for two objects -- Either one of them already on joint node (parent) -- or we need another object that represent that joint hierarchyJoint :: a -> a -> Either Ordering a -- hierarchyCompare x y = either Just (const Nothing) (hierarchyJoint x y) -- Sample for FilePath instance Hierarchy FilePath where hierarchyJoint x y = case (length x', length y', length z') of (a, b, c) | a == c && b == c -> Left EQ (a, _, c) | a == c -> Left GT (_, b, c) | b == c -> Left LT _ -> Right (joinPath z') where [x', y'] = map splitDirectories [x, y] skel = takeWhile id (zipWith (==) x' y') z' = zipWith const x' skel -- common prefix instance HierarchyOrd FilePath where hierarchyCompare x y = either Just (const Nothing) (hierarchyJoint x y)
As you can see
HierarchyOrdering is a subset of
Hierarchy for which we only need to implement ordering without requiring of building new node. In this particular case (
FilePath) having two non-overlapping functionality isn't feasible and even may result in extra-work (splitting directories twice for
hierarchyJoint). That's why it was decided to cover functionality of
hierarchyJoint since it makes no sense to call it if we got
Question is: how to be with default implementation of
hierarchyCompare when object is defined on
Hierarchy. Maybe there is some extension that allows to expose such kind of relation between typeclasses in a more descriptive way (wich allows default implementation)?