This makes the tooltip show the more refined function
type after application typechecking. For example, case->
types will be narrowed to the particular case that fits.
Polymorphic function types will be instantiated at the
appropriate type.
Fixes issue #325
This is used for functions with a single argument imported with
`require/typed`, and avoids unneccessary checks. This produces a
3x speedup on the following benchmark:
#lang racket/base
(module m racket/base
(provide f)
(define (f x) x))
(module n typed/racket/base
(require/typed
(submod ".." m)
[f (-> Integer Integer)])
(time
(for ([x (in-range 1000000)])
(f 1) (f 2) (f 3) (f 4))))
(require 'n)
on top of the previous improvment from using `unsafe-procedure-chaperone`
and `procedure-result-arity`.
This allows the types generated by the struct form, as well as #:struct
clauses of require/typed, to be specified explicitly using a #:type-name
option. This allows the name of a struct and the type it is assigned to
be different.
Closes#261
Guard opaque predicates with an (-> Any Any) contract. This uses the
contract generation infrastructure to avoid wrapping struct predicates.
Also, relax `any-wrap/c` (the contract used for `Any` in positive
position) to allow opaque structures. This also requires an enumeration
of all the other kinds of values that TR understands, so that they are
not confused with opaque structures.
Joint work with @bennn.
Closes#202.
Closes#203.
Closes#241.
When a typing error is located inside macro-expanded code, a message such as “wrong number of arguments to polymorphic type: expected 1 and got 2” does not help much in locating which instantiation is wrong.
See also commit 5cd5f77 “Don't allow promises created with `delay/name` as `(Promise T)`.”.
The contracts in `typed-racket-lib/typed-racket/static-contracts/combinators/structural.rkt` should be just a single identifier, not a lambda expression, because `typed-racket-lib/typed-racket/private/type-contract.rkt` relies on that, and passes the contract name to free-identifier=?, which won't work on a lambda.
This case only comes up when something else unfortunate has happened
with type printing, but the current implementation can lead to paths
in the type printing.
