|Version 5 (modified by ross@…, 10 years ago) (diff)|
In Haskell 98, all free variables in a type are implicitly universally quantified, e.g.
const :: a -> b -> a
Thus Haskell 98 permits only rank-1 types. The proposal is to allow explicit universal quantification within types using a forall keyword, so types can have the forms
- type -> type
- forall vars. [context =>] type
where monotype is a Haskell 98 type. Note that forall's are not allowed inside type constructors other than ->.
foralls and contexts in the second argument of -> may be floated out, e.g. the following types are equivalent:
succ :: (forall a. a -> a) -> (forall b. b -> b) succ :: forall b. (forall a. a -> a) -> b -> b
It is not possible to infer higher-rank types in general; type annotations must be supplied by the programmer in many cases.
- Arbitrary-rank polymorphism in the GHC User's Guide.
- Practical type inference for arbitrary-rank types, Simon Peyton Jones, Dimitrios Vytiniotis, Stephanie Weirich and Mark Shields, July 2005.
- Boxy types: type inference for higher-rank types and impredicativity, Dimitrios Vytiniotis, Stephanie Weirich, and Simon Peyton Jones, November 2005.
- Semantics of Types and Classes in the Haskell 98 Report
- PolymorphicComponents would also be allowed higher-rank types
- Rank2Types are a special case
Hindley-Milner type systems (e.g. in Haskell 98) may be specified by rules deriving the type of an expression from those of its constituents, providing a simple way to reason about the types of expressions. The rules may also be used as a bottom-up procedure for inferring principal types, with inferred types matched against any signatures supplied, but many other traversals yield the same answer. A mixture of bottom-up inference and top-down checking often produces more informative error messages.
For arbitrary-rank types, a particular bidirectional traversal is specified by the type rules (see Fig. 8 on p25 of the arbitrary-rank paper), to make use of programmer-supplied annotations. In particular,
- functions and expressions with type signatures are checked top-down.
- parameter variables without explicit signatures are assigned monotypes in upwards inference, but may inherit arbitrary-rank types in downwards checking.
- in an application (whether inferred or checked), the type of the function is inferred bottom-up, and the argument checked top-down against the inferred argument type.
The generalization preorder must be recursively defined, with contravariance for -> types (see Fig. 7 on p22 of the arbitrary-rank paper).
The system has the following properties:
- Programs containing no foralls are typeable if and only if they are typeable in Haskell 98.
- Inference produces principal types, though checking may accept more types.
- Both checking and inference are monotonic with respect to the generalization preorder.
- More convenient than encodings using PolymorphicComponents
- More complex than Rank2Types, which cover the most common cases (and can encode the rest, though clumsily).
- No clear programmer-level description of the restrictions that apply.