I've done a bit more thinking about partial type annotations (as proposed on the Haskell' list), and I have a somewhat more concrete proposals for some of the extensions to them that perhaps also makes more sense of the original basic idea as well. I'm sending it to the Cafe this time as it's a bit early to consider this for standardisation.
I'd like to propose a new quantifier for type variables, which for now I'll call unknown[1] - correspondingly I'll talk about "unknown-quantified variables" and probably "unknown variables" where it's not ambiguous. Unknown quantifiers will never be introduced by the typechecker without a corresponding annotation - only propagated inwards. Whereas universal type variables must not accumulate additional constraints during typechecking (and in a traditional Hindley-Milner implementation only become universally quantified during a generalisation step), unknown type variables can - indeed this is their raison d'etre. Furthermore, they are never propagated 'outwards' - either the variable is constrained sufficiently that it can be replaced with a monotype or, having otherwise finished typechecking the corresponding term, the unknown quantifier is replaced with a forall. For example: add' :: unknown x. x -> x -> x add' = (+) add'' :: unknown x. x -> x -> x add'' x y = (x::Int) + (y::Int) will typecheck, resulting in these types when the identifiers are used: add' :: forall x. Num x => x -> x -> x add'' :: Int -> Int -> Int It's probably also sensible to allow "wildcard" variables written _, generated fresh and implicitly unknown-quantified much as universal variables are now. Type synonyms seem to present an interesting question though - it seems to me most sensible to hang on to the quantification at top-level and generalise it only as we finish type-checking a module, rather than copying out the quantifier anew each time. Any comments? The amount of thinking I've done about interactions with rank-n variables is limited - I guess we'd need to prohibit unifying with type variables that're of smaller scope than the unknown variable? I'm don't think I can see any other worrying issues there. Unknown variables in method declarations seem... meaningless to me, they're not proper existentials and I don't think there's a sane meaning for them that isn't a kludge for associated types instead. I don't think they belong in instances for similar reasons. Incidentally, I think there's also a cute use case in .hs-boot files, where an unknown-quantified variable could be used to tie some knots in a manner similar to the way recursive bindings are checked now. If so, I have an interesting use for this. [1] Other names that have occurred to me are "solve" (as in "solve for x"), and "meta" (by analogy to metavariables in the typechecker - because by the time we've finished checking the annotated term we'll have removed the quantifier), but unknown seems by far the strongest to me. No doubt someone'll suggest a far better name shortly after I post this! -- [EMAIL PROTECTED] There is no magic bullet. There are, however, plenty of bullets that magically home in on feet when not used in exactly the right circumstances. _______________________________________________ Haskell-Cafe mailing list Haskell-Cafe@haskell.org http://www.haskell.org/mailman/listinfo/haskell-cafe