|Version 1 (modified by john@…, 7 years ago) (diff)|
In Haskell 98, the methods of some classes can be created using a deriving clause immediately after a datatype. e.g.
data Color = Red | Yellow | Blue deriving (Eq, Ord)
Tying the deriving declaration to the datatype:
- mixes the class system into datatypes (making the report hard to sequentialize), and
- means that programmers have to decide which classes they are interested in at the point of defining the datatype.
The latter is particularly difficult across module boundaries.
This proposal calls for the point of the deriving declaration to be moved into the class system itself:
- Derived methods are provided as such in the class declaration, as a kind of default;
- Instances are declared as empty (or partial) instance declarations in a way that is already used for default mechanisms.
class Eq a where (==) :: a -> a -> Bool (/=) :: a -> a -> Bool deriving (==) x /= y = not (x == y) instance Eq Color
The empty (or partial) instance declaration is understood as normal, to define any missing methods using the default declarations in the class declaration. As with other default declarations, derived definition can be overridden in any particular situation if a different notion of equality is required (e.g. to preserve abstractions).
The only real change is that some of the default declarations are provided generically, rather than polymorphically. This shift makes Haskell a little more regular, but it also sets us up nicely for the future if we ever add a mechanism to allow programmers to define generic definitions for their own classes. In H', we would limit ourselves to the existing set of generic definitions that currently can occur in deriving clauses. In a future version of Haskell we may choose to provide a generic programming mechanism whose use would appear in this same place. The design is trying to be relatively future-proof.