This never worked and has been causing severe performance problems.
Hopefully it will be re-landed at some point in the future when it
actually works, but in the meantime it makes no sense to have the code
around when it does nothing and actively makes rustdoc harder to use.
make MIR graphviz generation use gsgdt
gsgdt [https://crates.io/crates/gsgdt] is a crate which provides an
interface for stringly typed graphs. It also provides generation of
graphviz dot format from said graph.
This is the first in a series of PRs on moving graphviz code out of rustc into normal crates and then implementating graph diffing on top of these crates.
r? `@oli-obk`
[rustdoc] Switch to Symbol for item.name
This decreases the size of `Item` from 680 to 616 bytes. It also does a
lot less work since it no longer has to copy as much.
Helps with #79103.
r? `@GuillaumeGomez`
Rollup of 6 pull requests
Successful merges:
- #79379 (Show hidden elements by default when JS is disabled)
- #79796 (Hide associated constants too when collapsing implementation)
- #79958 (Fixes reported bugs in Rust Coverage)
- #80008 (Fix `cargo-binutils` link)
- #80016 (Use imports instead of rewriting the type signature of `RustcOptGroup::stable`)
- #80025 (Replace some `println!` with `tidy_error!` to simplify)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Fixes reported bugs in Rust Coverage
Fixes: #79569Fixes: #79566Fixes: #79565
For the first issue (#79569), I got hit a `debug_assert!()` before
encountering the reported error message (because I have `debug = true`
enabled in my config.toml).
The assertion showed me that some `SwitchInt`s can have more than one
target pointing to the same `BasicBlock`.
I had thought that was invalid, but since it seems to be possible, I'm
allowing this now.
I added a new test for this.
----
In the last two cases above, both tests (intentionally) fail to compile,
but the `InstrumentCoverage` pass is invoked anyway.
The MIR starts with an `Unreachable` `BasicBlock`, which I hadn't
encountered before. (I had assumed the `InstrumentCoverage` pass
would only be invoked with MIRs from successful compilations.)
I don't have test infrastructure set up to test coverage on files that
fail to compile, so I didn't add a new test.
r? `@tmandry`
FYI: `@wesleywiser`
consider assignments of union field of ManuallyDrop type safe
Assigning to `Copy` union fields is safe because that assignment will never drop anything. However, with https://github.com/rust-lang/rust/pull/77547, unions may also have `ManuallyDrop` fields, and their assignments are currently still unsafe. That seems unnecessary though, as assigning `ManuallyDrop` does not drop anything either, and is thus safe even for union fields.
I assume this will at least require FCP.
[mir-opt] Allow debuginfo to be generated for a constant or a Place
Prior to this commit, debuginfo was always generated by mapping a name
to a Place. This has the side-effect that `SimplifyLocals` cannot remove
locals that are only used for debuginfo because their other uses have
been const-propagated.
To allow these locals to be removed, we now allow debuginfo to point to
a constant value. The `ConstProp` pass detects when debuginfo points to
a local with a known constant value and replaces it with the value. This
allows the later `SimplifyLocals` pass to remove the local.
Do not inline finish_grow
Fixes#78471.
Looking at libgkrust.a in Firefox, the sizes for the `gkrust.*.o` file is:
- 18584816 (text) 582418 (data) with unmodified master
- 17937659 (text) 582554 (data) with #72227 reverted
- 17968228 (text) 582858 (data) with `#[inline(never)]` on `grow_amortized` and `grow_exact`, but that has some performance consequences
- 17927760 (text) 582322 (data) with this change
So in terms of size, at least in the case of Firefox, this patch more than undoes the regression. I don't think it should affect performance, but we'll see.
This was always questionable, and removing it doesn't fail any tests, so
I think this was not affecting the behavior. It dates all the way back
to the very first commit of rustdoc: 268f3f0ff5
Move intrinsics lowering pass from the optimization phase (where it
would not run if -Zmir-opt-level=0), to the drop lowering phase where it
runs unconditionally.
The implementation of those intrinsics in code generation and
interpreter is unnecessary. Remove it.
Adds checks for:
* `no_core` attribute
* explicitly-enabled `legacy` symbol mangling
* mir_opt_level > 1 (which enables inlining)
I removed code from the `Inline` MIR pass that forcibly disabled
inlining if `-Zinstrument-coverage` was set. The default `mir_opt_level`
does not enable inlining anyway. But if the level is explicitly set and
is greater than 1, I issue a warning.
The new warnings show up in tests, which is much better for diagnosing
potential option conflicts in these cases.
Add fast futex-based thread parker for Windows.
This adds a fast futex-based thread parker for Windows. It either uses WaitOnAddress+WakeByAddressSingle or NT Keyed Events (NtWaitForKeyedEvent+NtReleaseKeyedEvent), depending on which is available. Together, this makes this thread parker work for Windows XP and up. Before this change, park()/unpark() did not work on Windows XP: it needs condition variables, which only exist since Windows Vista.
---
Unfortunately, NT Keyed Events are an undocumented Windows API. However:
- This API is relatively simple with obvious behaviour, and there are several (unofficial) articles documenting the details. [1]
- parking_lot has been using this API for years (on Windows versions before Windows 8). [2] Many big projects extensively use parking_lot, such as servo and the Rust compiler itself.
- It is the underlying API used by Windows SRW locks and Windows critical sections. [3] [4]
- The source code of the implementations of Wine, ReactOs, and Windows XP are available and match the expected behaviour.
- The main risk with an undocumented API is that it might change in the future. But since we only use it for older versions of Windows, that's not a problem.
- Even if these functions do not block or wake as we expect (which is unlikely, see all previous points), this implementation would still be memory safe. The NT Keyed Events API is only used to sleep/block in the right place.
[1]\: http://www.locklessinc.com/articles/keyed_events/
[2]\: https://github.com/Amanieu/parking_lot/commit/43abbc964e
[3]\: https://docs.microsoft.com/en-us/archive/msdn-magazine/2012/november/windows-with-c-the-evolution-of-synchronization-in-windows-and-c
[4]\: Windows Internals, Part 1, ISBN 9780735671300
---
The choice of fallback API is inspired by parking_lot(_core), but the implementation of this thread parker is different. While parking_lot has no use for a fast path (park() directly returning if unpark() was already called), this implementation has a fast path that returns without even checking which waiting/waking API to use, as the same atomic variable with compatible states is used in all cases.
Rollup of 3 pull requests
Successful merges:
- #79918 (doc(array,vec): add notes about side effects when empty-initializing)
- #79936 (Fix item name display on mobile)
- #80013 (Refactor test_lang_string_parse to make it clearer)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
doc(array,vec): add notes about side effects when empty-initializing
Copying some context from a conversation in the Rust discord:
* Both `vec![T; 0]` and `[T; 0]` are syntactically valid, and produce empty containers of their respective types
* Both *also* have side effects:
```rust
fn side_effect() -> String {
println!("side effect!");
"foo".into()
}
fn main() {
println!("before!");
let x = vec![side_effect(); 0];
let y = [side_effect(); 0];
println!("{:?}, {:?}", x, y);
}
```
produces:
```
before!
side effect!
side effect!
[], []
```
This PR just adds two small notes to each's documentation, warning users that side effects can occur.
I've also submitted a clippy proposal: https://github.com/rust-lang/rust-clippy/issues/6439
Improve error handling in `symbols` proc-macro
This improves how the `symbols` proc-macro handles errors.
If it finds an error in its input, the macro does not panic.
Instead, it still produces an output token stream. That token
stream will contain `compile_error!(...)` macro invocations.
This will still cause compilation to fail (which is what we want),
but it will prevent meaningless errors caused by the output not
containing symbols that the macro normally generates.
This solves a small (but annoying) problem. When you're editing
rustc_span/src/symbol.rs, and you get something wrong (dup
symbol name, misordered symbol), you want to get only the errors
that are relevant, not a burst of errors that are irrelevant.
This change also uses the correct Span when reporting errors,
so you get errors that point to the correct place in
rustc_span/src/symbol.rs where something is wrong.
This also adds several unit tests which test the `symbols` proc-macro.
This commit also makes it easy to run the `symbols` proc-macro
as an ordinary Cargo test. Just run `cargo test`. This makes it
easier to do development on the macro itself, such as running it
under a debugger.
This commit also uses the `Punctuated` type in `syn` for parsing
comma-separated lists, rather than doing it manually.
The output of the macro is not changed at all by this commit,
so rustc should be completely unchanged. This just improves
quality of life during development.
Properly capture trailing 'unglued' token
If we try to capture the `Vec<u8>` in `Option<Vec<u8>>`, we'll
need to capture a `>` token which was 'unglued' from a `>>` token.
The processing of unglueing a token for parsing purposes bypasses the
usual capturing infrastructure, so we currently lose the trailing `>`.
As a result, we fall back to the reparsed `TokenStream`, causing us to
lose spans.
This commit makes token capturing keep track of a trailing 'unglued'
token. Note that we don't need to care about unglueing except at the end
of the captured tokens - if we capture both the first and second unglued
tokens, then we'll end up capturing the full 'glued' token, which
already works correctly.
BTreeMap: clarify comments and panics around choose_parent_kv
Fixes a lie in recent code: `unreachable!("empty non-root node")` should shout "empty internal node", but it might as well be good and keep quiet
r? `@Mark-Simulacrum`
Recover on `const impl<> X for Y`
`@leonardo-m` mentioned that `const impl Foo for Bar` could be recovered from in #79287.
I'm not sure about the error strings as they are, I think it should probably be something like the error that `expected_one_of_not_found` makes + the suggestion to flip the keywords, but I'm not sure how exactly to do that. Also, I decided not to try to handle `const unsafe impl` or `unsafe const impl` cause I figured that `unsafe impl const` would be pretty rare anyway (if it's even valid?), and it wouldn't be worth making the code more messy.