Add `slice::array_chunks_mut`
This follows `array_chunks` from #74373 with a mutable version, `array_chunks_mut`. The implementation is identical apart from mutability. The new tests are adaptations of the `chunks_exact_mut` tests, plus an inference test like the one for `array_chunks`.
I reused the unstable feature `array_chunks` and tracking issue #74985, but I can separate that if desired.
r? `@withoutboats`
cc `@lcnr`
Stabilize core::future::{pending,ready}
This PR stabilizes `core::future::{pending,ready}`, tracking issue https://github.com/rust-lang/rust/issues/70921.
## Motivation
These functions have been on nightly for three months now, and have lived as part of the futures ecosystem for several years. In that time these functions have undergone several iterations, with [the `async-std` impls](https://docs.rs/async-std/1.6.2/async_std/future/index.html) probably diverging the most (using `async fn`, which in hindsight was a mistake).
It seems the space around these functions has been _thoroughly_ explored over the last couple of years, and the ecosystem has settled on the current shape of the functions. It seems highly unlikely we'd want to make any further changes to these functions, so I propose we stabilize.
## Implementation notes
This stabilization PR was fairly straightforward; this feature has already thoroughly been reviewed by the libs team already in https://github.com/rust-lang/rust/pull/70834. So all this PR does is remove the feature gate.
Add `peek` and `peek_from` to `UnixStream` and `UnixDatagram`
This is my first PR, so I'm sure I've done some things wrong.
This PR:
* adds `peek` function to `UnixStream`;
* adds `peek` and `peek_from` to `UnixDatagram`;
* moves `UnixDatagram::recv_from` implementation to a private function `recv_from_flags`, as `peek_from` uses the same code, just with different flags.
I've taken the documentation from `TcpStream` and `UdpStream`, so it may or may not make sense (I'm bad with english words).
Also, I'm not sure what I should write in the `unstable` attribute, so I've made up the name and set the issue to "none".
Closes#68565.
Give better diagnostic when using a private tuple struct constructor
Fixes#75907
Some notes:
1. This required some deep changes, including removing a Copy impl for PatKind. If some tests fail, I would still appreciate review on the overall approach
2. this only works with basic patterns (no wildcards for example), and fails if there is any problems getting the visibility of the fields (i am not sure what the failure that can happen in resolve_visibility_speculative, but we check the length of our fields in both cases against each other, so if anything goes wrong, we fall back to the worse error. This could be extended to more patterns
3. this does not yet deal with #75906, but I believe it will be similar
4. let me know if you want more tests
5. doesn't yet at the suggestion that `@yoshuawuyts` suggested at the end of their issue, but that could be added relatively easily (i believe)
rustbuild: avoid trying to inversely cross-compile for build triple from host triples
This changes rustbuild's cross compilation logic to better match what users expect,
particularly, avoiding trying to inverse cross-compile for the build triple from host triples.
That is, if build=A, host=B, target=B, we do not want to try and compile for A from B.
Indeed, the only "known to run" triple when cross-compiling is the build triple A.
When testing for a particular target we need to be able to run binaries compiled for
that target though.
The last commit also modifies the default set of host/target triples to avoid producing
needless artifacts for the build triple:
The new behavior is to respect --host and --target when passed as the *only*
configured triples (no triples are implicitly added). The default for --host is
the build triple, and the default for --target is the host triple(s), either
configured or the default build triple.
Fixes#76333
r? `@alexcrichton` if possible, otherwise we'll need to hunt down a reviewer
Previously, the CLI --target/--host definitions and configured options differed
in their effect: when setting these on the CLI, only the passed triples would be
compiled for, while in config.toml we would also compile for the build triple
and any host triples. This is needlessly confusing; users expect --target and
--host to be identical to editing the configuration file.
The new behavior is to respect --host and --target when passed as the *only*
configured triples (no triples are implicitly added). The default for --host is
the build triple, and the default for --target is the host triple(s), either
configured or the default build triple.
rustc is a natively cross-compiling compiler, and generally none of our steps
should care whether they are using a compiler built of triple A or B, just the
--target directive being passed to the running compiler. e.g., when building for
some target C, you don't generally want to build two stds: one with a host A
compiler and the other with a host B compiler. Just one std is sufficient.
This impl was effectively stable. #[unstable] had no effect here,
since both Error and LayoutErr were already stable.
This effectively became stable as soon as LayoutErr became stable, which
was in 1.28.0.
These impls were effectively stable. #[unstable] had no effect here,
since both RefUnwindSafe and these types were already stable.
These effectively became stable as soon as the types became stable,
which was in 1.34.0.
Only copy LLVM into rust-dev with internal LLVM
This avoids needing to figure out where to locate each of the components with an
external LLVM. This component isn't manifested for rustup consumption and
generally shouldn't matter for anyone except Rust's CI, so it is fine for it to not be
complete elsewhere.
Fixes#76572.
r? `@alexcrichton`
Add help note when using type in place of const
This adds a small help note when it might be possible that wrapping a parameter in braces might resolve the issue of having a type where a const was expected.
Currently, I am displaying the `HirId`, and I'm not particularly sure where to get the currently displayed path(?).
r? `@lcnr`
rustbuild: Do not use `rust-mingw` component when bootstrapping windows-gnu targets
Addresses https://github.com/rust-lang/rust/pull/76326#issuecomment-687273473 (ancient `x86_64-w64-mingw32-gcc` is selected as a linker wrapper, which is not usable in `use_lld=true` mode).
Perhaps the comment about incompatible mingw was true in the past, but many things changed since then.
With this change I was able to build everything successfully locally using a newer mingw toolchain, if it passes through the older toolchain on CI, then it should be good, I think.
Attach tokens to all AST types used in `Nonterminal`
We perform token capturing when we have outer attributes (for nonterminals that support attributes - e.g. `Stmt`), or when we parse a `Nonterminal` for a `macro_rules!` argument. The full list of `Nonterminals` affected by this PR is:
* `NtBlock`
* `NtStmt`
* `NtTy`
* `NtMeta`
* `NtPath`
* `NtVis`
* `NtLiteral`
Of these nonterminals, only `NtStmt` and `NtLiteral` (which is actually just an `Expr`), support outer attributes - the rest only ever have token capturing perform when they match a `macro_rules!` argument.
This makes progress towards solving https://github.com/rust-lang/rust/issues/43081 - we now collect tokens for everything that might need them. However, we still need to handle `#[cfg]`, inner attributes, and misc pretty-printing issues (e.g. #75734)
I've separated the changes into (mostly) independent commits, which could be split into individual PRs for each `Nonterminal` variant. The purpose of having them all in one PR is to do a single Crater run for all of them.
Most of the changes in this PR are trivial (adding `tokens: None` everywhere we construct the various AST structs). The significant changes are:
* `ast::Visibility` is changed from `type Visibility = Spanned<VisibilityKind>` to a `struct Visibility { kind, span, tokens }`.
* `maybe_collect_tokens` is made generic, and used for both `ast::Expr` and `ast::Stmt`.
* Some of the statement-parsing functions are refactored so that we can capture the trailing semicolon.
* `Nonterminal` and `Expr` both grew by 8 bytes, as some of the structs which are stored inline (rather than behind a `P`) now have an `Option<TokenStream>` field. Hopefully the performance impact of doing this is negligible.
BTreeMap: move up reference to map's root from NodeRef
Since the introduction of `NodeRef` years ago, it also contained a mutable reference to the owner of the root node of the tree (somewhat disguised as *const). Its intent is to be used only when the rest of the `NodeRef` is no longer needed. Moving this to where it's actually used, thought me 2 things:
- Some sort of "postponed mutable reference" is required in most places that it is/was used, and that's exactly where we also need to store a reference to the length (number of elements) of the tree, for the same reason. The length reference can be a normal reference, because the tree code does not care about tree length (just length per node).
- It's downright obfuscation in `from_sorted_iter` (transplanted to #75329)
- It's one of the reasons for the scary notice on `reborrow_mut`, the other one being addressed in #73971.
This does repeat the raw pointer code in a few places, but it could be bundled up with the length reference.
r? `@Mark-Simulacrum`
We currently only attach tokens when parsing a `:stmt` matcher for a
`macro_rules!` macro. Proc-macro attributes on statements are still
unstable, and need additional work.
