When `--update-deps` (which is implied by `--all`) was used on
user-scope packages that depend on installation-scope packages, the
installation-scope dependencies were treated as missing, which forced
an update of the user-scope packages. Check both scopes for
dependencies.
Closes#1730
* generics: optional scope arg for private macros
To make them more friendly to macros that expand to generics
* add tests for generic-method-table macro
and/c, and between/c (which implies <=/c and >=/c) so that they turn
themselves into integer-in when appropriate
for example, (contract-stronger? (integer-in 0 4) (and/c natural? (<=/c 4)))
returns #t
* byte-regexp? values should not be considered 3D syntax.
* hash? values are now allowed in serialized syntax properties with (template … #:properties (…))
* marshalling properties which were prefab structs called map on the result of struct->vector, changed it to struct->list as the struct "name" is always serializable.
Specifically, when it sees these contracts:
(and/c real? negative?)
(and/c real? positive?)
(and/c real? (not/c positive?))
(and/c real? (not/c negative?))
it generates the corresponding use of >=/c, <=/c, </c, or >/c, but
those contracts have also been adjusted to report their names as
(and/c real? ...).
This mostly is an improvement for contract-stronger, but also make it
so that (between/c -inf.0 +inf.0) just uses the real? predicate
directly, instead of a more complex function
Although "macOS" is the correct name for Apple's current desktop OS,
we've decided to go with "Mac OS" to cover all of Apple's Unix-like
desktop OS versions. The label "Mac OS" is more readable, clear in
context (i.e., unlikely to be confused with the Mac OSes that
proceeded Mac OS X), and as likely to match Apple's future OS names
as anything.
If an OS-level thread other than a Racket thread logs a message, then
the message needs to be queued instead of handled immediately.
If multiple places are running, then the right handler thread is not
clear, so just queue to the main place's thread.
Closesracket/gui#66Closesracket/drracket#77
Implement POSIX.1-2001/pax and GNU extensions for long paths and links
in `untar` and `tar`. Add a `#:format` argument to `tar` to select
among POSIX.1-2001/pax, GNU, or error encoding for long paths.
it doesn't apply it the second time (since we know that the
only difference for indy blame is in the negative position
and we know that flat contracts never assign negative blame)
This commit combined with the two previous (2b9d855 and 003e8c7) do
not seem to have a significant effect on the performance of ->i
contract checking. In particular, I see a 50% slowdown between the
version before and the version after these commits on the third `time`
expression below, but no significant difference on the first two.
(without the improvement to flat-contract?, these commits are
a significant slowdown to `g`)
#lang racket
(require profile)
(define f
(contract (->i ([y () integer?]
[x (y) integer?])
(values [a () integer?]
[b (a) integer?]))
values
'pos 'neg))
(define g
(contract (->i ([y () (<=/c 10)]
[x (y) (>=/c y)])
(values [a () (<=/c 10)]
[b (a) (>=/c a)]))
values
'pos 'neg))
(define (slow-predicate n)
(cond
[(zero? n) #t]
[else (slow-predicate (- n 1))]))
(define h
(contract (->i ([y () slow-predicate]
[x (y) slow-predicate])
(values [a () slow-predicate]
[b (a) slow-predicate]))
values
'pos 'neg))
(time
(for ([x (in-range 100000)])
(f 1 2) (f 1 2) (f 1 2)
(f 1 2) (f 1 2) (f 1 2)
(f 1 2) (f 1 2) (f 1 2)))
(time
(for ([x (in-range 100000)])
(g 1 2) (g 1 2) (g 1 2)
(g 1 2) (g 1 2) (g 1 2)
(g 1 2) (g 1 2) (g 1 2)))
(time
(for ([x (in-range 10000)])
(h 50000 50000)))
The continuation of a future being evaluated concurrently was not
correctly attributed to the future's custodian (as inherited from
from the creating thread).
This adds #:eager as an option for controlling this behavior.
Using `#:eager 10` is a 2x improvement in performance for configuration 010001
of the suffixtree benchmark from Takikawa et al, POPL 2016.
The default behavior is unchanged. This is configurable because some
programs are much faster when eager checking is performed. For example:
(require racket/contract)
(collect-garbage)
(time (for/sum ([_ 100000])
(vector-ref (contract (vectorof integer? #:eager #t) #(1) 'pos 'neg)
0)))
(collect-garbage)
(time (for/sum ([_ 100000])
(vector-ref (contract (vectorof integer? #:eager #f) #(1) 'pos 'neg)
0)))
The second loop is 3-4 times slower than the first. However, making
the vector much larger will make the difference go the other way.
Changes signatures in `syntax/modcode` to accept `path-string?` arguments
instead of `path?`.
Before, the docs listed `path-string?` but the contracts used `path?`.
Now they agree.
This change permits EH patterns like (~once <nullable>), because the
match will happen at most once, so there is no danger of divergence.
Thanks to Alex Knauth for pointing out this special case.
Merge to release branch.
In (~and p1 p2), a failure in p2 now always dominates a failure in p1.
Consequently, if a pattern succeeds, its failures don't matter.
Add {pat,hpat,action}:ord wrappers, ord prframes. Apply ordering to
main pattern and side clauses. Add better progress analysis to
eliminate order wrapping.
Avoid creating a result that is intended as a module path but
has elements that are not syntactically allowed, such as a "."
in a collection-path element.
This is a partial solution to the ~and problem, only for side clauses.
In (~and p1 p2 p3), one often wants errors in p2 to take precedence over
errors in p1, and likewise for p3 over p2. One solution is ~commit, but
that prevents backtracking. Another is ~post, but then two ~post wrappers
are needed around p3. Also, it doesn't make sense to compare progress of
the third #:with clause from stxclass A to the second #:with clause of
stxclass B and say third beats second.
So, generalize 'post to (post group index); post frames are comparable to
each other only if group is the same, then compared by index. (Post still
beats CAR and CDR.) Each set of side clauses shares a group.
For simplicity of code generation for now, use gensyms to identify groups.
`->i` already supports method contracts (for use wihin `object-contract`,
whose `->i` support is tested, but undocumented), which would make `->im`
possible.
Unfortunately, that support is very incomplete, missing support for using
`this` in contracts, making this `->im` (or the undocumented `->i` +
`object-contract` combo) basically useless.
Once/if that is added, then this commit would enable `->im`. Until then,
it's mostly useful for future reference (hence will be reverted).
In the meantime, it's possible to use `->i` within class/object contracts
with an explicit `this` argument, so nothing critical is lost, just a tiny
shortcut.
Some functions were passing when they shouldn't have, only to fail when
the function is called.
Technically not backwards compatible, but should only affect functions
that were never called.
