I wonder if it is generally possible to unify the concepts of inheritance and parametric polymorphism ("generics"), especially regarding variance but also in terms how ("syntax") and where (use-site/declaration-site) they would have to be defined?
Consider this point of view:
- Sub-typing e. g.
S <: Tcan be perceived as co-variant behavior, because input arguments accepting
Twill also accept
- Changing the "variance of the inheritance model" to invariant is only possible at definition-side by disallowing sub-typing (e. g. adding a
finalmodifier to a class definition), contra-variance is not possible as far as I have seen in most cases
- Parametric polymorphism is invariant by default, but can be made co-/contra-variant
There seems to be a non-negligible concept mismatch between both, considering
- the pains languages have generated by allowing "unsafe" covariance (e. g.
String <: Objectin Java/C#)
- the differences in how inheritance/parametric polymorphism is declared and used compared to inheritance
In some languages it can be seen that both work together nicely though, like
class Foo extends Ordered[Foo]
to implement ordering/comparison behaviour.
- Is it conceivable that the concepts of inheritance and parametric polymorphism could be unified and gain the same default variance behavior (e. g. covariance by default or would that cause the necessity to mark most types with an invariance annotation instead, therefore just moving the ugliness to another point)? Would this be more practical as if data structures would become immutable by default, too?
- Is there a formal system in which this has been proven to be sound?
- Which syntax options/changes would be most likely necessary, regardless of a concrete programming language?
- Is there some working example or a language where this/something similar is already working?