The `MissingDoc` lint has quadratic behaviour when processing doc comments.
This is a problem for large doc comments (e.g. 1000+ lines) when
`deny(missing_code)` is enabled.
A 1000-line doc comment using `//!` comments is represented as 1000 attributes
on an item. The lint machinery iterates over each attribute with
`visit_attribute`. `MissingDoc`'s impl of that function calls
`with_lint_attrs`, which calls `enter_attrs`, which iterates over all 1000
attributes looking for a `doc(hidden)` attribute. I.e. for every attribute we
iterate over all the other attributes.
The fix is simple: don't call `with_lint_attrs` on attributes. This makes
sense: `with_lint_attrs` is intended to iterate over the attributes on a
language fragment like a statement or expression, but it doesn't need to
be called on attributes themselves.
Add regression test for #93775Closes#93775, also closes#93022 as it should have the same root cause
r? ```@compiler-errors```
Signed-off-by: Yuki Okushi <jtitor@2k36.org>
Refactor path segment parameter error
This PR attempts to rewrite the error handling for an unexpected parenthesised type parameters to:
- Use provided data instead of re-parsing the whole span
- Add a multipart suggestion to reflect on the changes with an underline
- Remove the unnecessary "if" nesting
Inline `const_eval_select`
To avoid circular link time dependency between core and compiler
builtins when building with `-Zshare-generics`.
r? ```@Amanieu```
Fix generic impl rustdoc json output
Fixes#97986.
The problem in case of generic trait impl is that the trait's items are the same for all the types afterward. But since they're the same, it's safe for rustdoc-json to just ignore them.
A little representation of what's going on:
```rust
trait T {
fn f(); // <- defid 0
}
impl<Y> T for Y {
fn f() {} // <- defid 1
}
struct S; // <- defid 1 (since it matches `impl<Y> T for Y`
```
cc ```@Urgau```
r? ```@CraftSpider```
Fix suggestions for `&a: T` parameters
I've accidentally discovered that we have broken suggestions for `&a: T` parameters:
```rust
fn f(&mut bar: u32) {}
fn main() {
let _ = |&mut a| ();
}
```
```text
error[E0308]: mismatched types
--> ./t.rs:1:6
|
1 | fn f(&mut bar: u32) {}
| ^^^^^^^^-----
| | |
| | expected due to this
| expected `u32`, found `&mut _`
| help: did you mean `bar`: `&u32`
|
= note: expected type `u32`
found mutable reference `&mut _`
error[E0308]: mismatched types
--> ./t.rs:4:23
|
4 | let _: fn(u32) = |&mut a| ();
| ^^^^^--
| | |
| | expected due to this
| expected `u32`, found `&mut _`
| help: did you mean `a`: `&u32`
|
= note: expected type `u32`
found mutable reference `&mut _`
```
It's hard to see, but
1. The help span is overlapping with "expected" spans
2. It suggests `fn f( &u32) {}` (no `mut` and lost parameter name) and `|&u32 ()` (no closing `|` and lost parameter name)
I've tried to fix this.
r? ``@compiler-errors``
os str capacity documentation
This is based on https://github.com/rust-lang/rust/pull/95394 , with expansion and consolidation
to address comments from `@dtolnay` and other `@rust-lang/libs-api` team members.
As was discovered in https://github.com/rust-lang/rust/pull/93628#issuecomment-1154697627 ,
adding #[cfg(bootstrap)] to a rust-internal proc macro crate
would yield an unexpected cfg name error, at least on later
stages wher the bootstrap cfg arg wasn't set.
rustc already passes arguments to mark bootstrap as expected,
however the means of delivery through the RUSTFLAGS env var
is unable to reach proc macro crates, as described
in the issue linked in the code this commit touches.
This wouldn't be an issue for cfg args that get passed through
RUSTFLAGS, as they would never become *active* either, so
any usage of one of these flags in a proc macro's code would
legitimately yield a lint warning. But since dc302587e2,
rust takes extra measures to pass --cfg=bootstrap even in
proc macros, by passing it via the wrapper. Thus, we need
to send the flags to mark bootstrap as expected also from the
wrapper, so that #[cfg(bootstrap)] also works from proc macros.
I want to thank Urgau and jplatte for helping me find the cause of this. ❤️
These were "fixed" as part of switching on NLL but seems
to be due to another problem. Preliminary investigation
suggests they are both PROBABLY "implied bounds" related.
Add a `BorrowedFd::try_clone_to_owned` and accompanying documentation
Add a `BorrowedFd::try_clone_to_owned`, which returns a new `OwnedFd` sharing the underlying file description. And similar for `BorrowedHandle` and `BorrowedSocket` on WIndows.
This is similar to the existing `OwnedFd::try_clone`, but it's named differently to reflect that it doesn't return `Result<Self, ...>`. I'm open to suggestions for better names.
Also, extend the `unix::io` documentation to mention that `dup` is permitted on `BorrowedFd`.
This was originally requsted [here](https://github.com/rust-lang/rust/issues/88564#issuecomment-910786081). At the time I wasn't sure whether it was desirable, but it does have uses and it helps clarify the API. The documentation previously didn't rule out using `dup` on a `BorrowedFd`, but the API only offered convenient ways to do it from an `OwnedFd`. With this patch, the API allows one to do `try_clone` on any type where it's permitted.
The important methods like `read` and `write` were already inlined,
which can propagate all the way to inlining in user code, but these
small state functions were left behind as normal calls. They should
almost always be inlined as well, as they're just a few instructions.
[RFC 2011] Minimal initial implementation
Tracking issue: #44838
Third step of #96496
Implementation has ~290 LOC with the bare minimum to be in a functional state. Currently only searches for binary operations to mimic what `assert_eq!` and `assert_ne!` already do.
r? `@oli-obk`
The code now accepts `Binder<OutlivesPredicate>`
instead of just `OutlivesPredicate` and thus exercises
the new, generalized `IfEqBound` codepaths. Note though
that we never *produce* Binder<OutlivesPredicate>, so we
are only testing a subset of those codepaths that excludes
actual higher-ranked outlives bounds.
STD support for the Nintendo 3DS
Rustc already supports compiling for the Nintendo 3DS using the `armv6k-nintendo-3ds` target (Tier 3). Until now though, only `core` and `alloc` were supported. This PR adds standard library support for the Nintendo 3DS. A notable exclusion is `std::thread` support, which will come in a follow-up PR as it requires more complicated changes.
This has been a joint effort by `@Meziu,` `@ian-h-chamberlain,` myself, and prior work by `@rust3ds` members.
### Background
The Nintendo 3DS (Horizon OS) is a mostly-UNIX looking system, with the caveat that it does not come with a full libc implementation out of the box. On the homebrew side (I'm not under NDA), the libc interface is partially implemented by the [devkitPro](https://devkitpro.org/wiki/devkitPro_pacman) toolchain and a user library like [`libctru`](https://github.com/devkitPro/libctru). This is important because there are [some possible legal barriers](https://github.com/rust-lang/rust/pull/88529#issuecomment-919938396) to linking directly to a library that uses the underlying platform APIs, since they might be considered a trade secret or under NDA.
To get around this, the standard library impl for the 3DS does not directly depend on any platform-level APIs. Instead, it expects standard libc functions to be linked in. The implementation of these libc functions is left to the user. Some functions are provided by the devkitPro toolchain, but in our testing, we used the following to fill in the other functions:
- [`libctru`] - provides more basic APIs, such as `nanosleep`. Linked in by way of [`ctru-sys`](https://github.com/Meziu/ctru-rs/tree/master/ctru-sys).
- [`pthread-3ds`](https://github.com/Meziu/pthread-3ds) - provides pthread APIs for `std::thread`. Implemented using [`libctru`].
- [`linker-fix-3ds`](https://github.com/Meziu/rust-linker-fix-3ds) - fulfills some other missing libc APIs. Implemented using [`libctru`].
For more details, see the `src/doc/rustc/src/platform-support/armv6k-nintendo-3ds.md` file added in this PR.
### Notes
We've already upstreamed changes to the [`libc`] crate to support this PR, as well as the upcoming threading PR. These changes have all been released as of 0.2.121, so we bump the crate version in this PR.
Edit: After some rebases, the version bump has already been merged so it doesn't appear in this PR.
A lot of the changes in this PR are straightforward, and follow in the footsteps of the ESP-IDF target: https://github.com/rust-lang/rust/pull/87666.
The 3DS does not support user space process spawning, so these APIs are unimplemented (similar to ESP-IDF).
[`libctru`]: https://github.com/devkitPro/libctru
[`libc`]: https://github.com/rust-lang/libc
The current code is a basis for `is_const_fn_raw`, and `impl_constness`
is no longer a valid name, which is previously used for determining the
constness of impls, and not items in general.
Remove `rustc_deprecated` diagnostics
Follow-up on #95960. The diagnostics will remain until the next bootstrap, at which point people will have had six weeks to adjust.
``@rustbot`` label +A-diagnostics
r? ``@compiler-errors``
Make `ExprKind::Closure` a struct variant.
Simple refactor since we both need it to introduce additional fields in `ExprKind::Closure`.
r? ``@Aaron1011``
Make `ExprKind::Closure` a struct variant.
Simple refactor since we both need it to introduce additional fields in `ExprKind::Closure`.
r? ``@Aaron1011``
