Give a message with a span on MIR validation error
It was handy to get a source+line link for rust-lang/rust#143833, even if it's just to the function and not necessarily to the statement.
r? mir
Fix `-Ctarget-feature`s getting ignored after `crt-static`
The current behaviour introduced by commit a50a3b8e31 would discard any target features specified after `crt-static` (the only member of `RUSTC_SPECIFIC_FEATURES`). This is because it returned instead of continuing processing the next feature.
I wasn't entirely sure how the regression test should look like, but this one should do. If anyone has some suggestions, I'm happy to learn, it's my first test :)
I've confirmed that the test fails without the fix on `powerpc64le-unknown-linux-musl` and `x86_64-unknown-linux-gnu`.
cc ``@RalfJung``
Allow `Rvalue::Repeat` to return true in `rvalue_creates_operand` too
The conversation in https://github.com/rust-lang/rust/pull/143502#discussion_r2189410911 made be realize how easy this is to handle, since the only possibilty is ZSTs -- everything else ends up with the destination being `LocalKind::Memory` and thus doesn't call `codegen_rvalue_operand` at all.
This gets us perilously close to a world where `rvalue_creates_operand` only ever returns true. (See rust-lang/rust#143860 for more.)
Fixes for LLVM 21
This fixes compatibility issues with LLVM 21 without performing the actual upgrade. Split out from https://github.com/rust-lang/rust/pull/143684.
This fixes three issues:
* Updates the AMDGPU data layout for address space 8.
* Makes emit-arity-indicator.rs a no_core test, so it doesn't fail on non-x86 hosts.
* Explicitly sets the exception model for wasm, as this is no longer implied by `-wasm-enable-eh`.
[rustdoc] Make aliases search support partial matching
Fixesrust-lang/rust#140782.
To make this work, I moved aliases into the `searchIndex` like any other item. It links to the "original" item with a new `original` field. No so great part is that we need to have some fields like `bitIndex` to be set on the alias to make the description load to work but I consider it minor enough to be ok.
This PR voluntarily doesn't handle de-prioritization of aliases as ```@lolbinarycat``` wished to work on this so I'll leave them this part. 😉
cc ```@lolbinarycat```
f16 support for PowerPC has issues in LLVM, therefore we need a small
workaround to prevent LLVM from emitting symbols that don't exist for
PowerPC yet.
It also appears that unused by-value non-immedate issue with gdb applies
to PowerPC targets as well, though I've only tested 64-bit Linux targets.
Signed-off-by: Jens Reidel <adrian@travitia.xyz>
The conversation in 143502 made be realize how easy this is to handle, since the only possibilty is ZSTs -- everything else ends up with the destination being `LocalKind::Memory` and thus doesn't call `codegen_rvalue_operand` at all.
This gets us perilously close to a world where `rvalue_creates_operand` only ever returns true. I'll try out such a world next :)
And introduce two new directives for ui tests:
* `run-crash`
* `run-fail-or-crash`
Normally a `run-fail` ui test like tests that panic shall not be
terminated by a signal like `SIGABRT`. So begin having that as a hard
requirement.
Some of our current tests do terminate by a signal/crash however.
Introduce and use `run-crash` for those tests. Note that Windows crashes
are not handled by signals but by certain high bits set on the process
exit code. Example exit code for crash on Windows: `0xc000001d`.
Because of this, we define "crash" on all platforms as "not exit with
success and not exit with a regular failure code in the range 1..=127".
Some tests behave differently on different targets:
* Targets without unwind support will abort (crash) instead of exit with
failure code 101 after panicking. As a special case, allow crashes for
`run-fail` tests for such targets.
* Different sanitizer implementations handle detected memory problems
differently. Some abort (crash) the process while others exit with
failure code 1. Introduce and use `run-fail-or-crash` for such tests.
Simplify discriminant codegen for niche-encoded variants which don't wrap across an integer boundary
Inspired by rust-lang/rust#139729, this attempts to be a much-simpler and more-localized change while still making a difference. (Specifically, this does not try to solve the problem with select-sinking, leaving that to be fixed by https://github.com/llvm/llvm-project/issues/134024 -- once it gets released -- instead of in rustc's codegen.)
What this *does* improve is checking for the variant in a 3+ variant enum when that variant is the type providing the niche. Something like `if let Foo::WithBool(_) = ...` previously compiled to `ugt(add(x, -2), 2)`, which is non-trivial to think about because it's depending on the unsigned wrapping to shift the 0/1 up above 2. With this PR it compiles to just `ult(x, 2)`, which is probably what you'd have written yourself if you were doing it by hand to look for "is this byte a bool?".
That's done by leaving most of the codegen alone, but adding a couple new special cases to the `is_niche` check. The default looks at the relative discriminant, but in the common cases where there's no wraparound involved, we can just check the original value, rather than the offsetted one.
The first commit just adds some tests, so the best way to see the effect of this change is to look at the second commit and how it updates the test expectations.
Ignore tests/run-make/link-eh-frame-terminator/rmake.rs when cross-compiling
The test tests/run-make/link-eh-frame-terminator/rmake.rs fails to link when cross-compiling. Therefore, it should be ignored in cross-compilation environments.
See [commit a27bdea](a27bdea4b7) and [commit 2beccc4](2beccc4d8e) for reference.
Don't test panic=unwind in panic_main.rs on Fuchsia
````@Enselic```` added a few new test conditions to tests/ui/panics/panic-main.rs in rust-lang/rust#142304, but it is unfortunately causing the test to fail for Fuchsia with the `panic=unwind` modes since we compile Rust for Fuchsia with `panic=abort`. This patch just ignores the test for Fuchsia.
Note that this test might also need to filter out a few other platforms, since another panicking test we exclude from Fuchsia https://github.com/rust-lang/rust/blob/master/tests/ui/panics/runtime-switch.rs also excludes running on msvc, android, openbsd, and wasm, but I'm not familiar with those platforms so I didn't want to add them here.
cc ````@compile-errors,```` who reviewed the initial PR
Be a bit more careful around exotic cycles in in the inliner
Copied from the comment here: https://github.com/rust-lang/rust/issues/143700#issuecomment-3053810353
---
```rust
#![feature(fn_traits)]
#[inline]
pub fn a() {
FnOnce::call_once(a, ());
FnOnce::call_once(b, ());
}
#[inline]
pub fn b() {
FnOnce::call_once(b, ());
FnOnce::call_once(a, ());
}
```
This should demonstrate the issue. For ease of discussion, I'm gonna call the two fn-def types `{a}` and `{b}`.
When collecting the cyclic local callees in `mir_callgraph_cyclic` for `a`, we first check the first call terminator in `a`. We end up calling process on `<{a} as FnOnce>::call_once`, which ends up visiting `a`'s instance again. This is cyclical. However, we don't end up marking `FnOnce::call_once` as a cyclical def id because it's a foreign item. That's fine.
When visiting the second call terminator in `a`, which is `<{b} as FnOnce>::call_once`, we end up recursing into `b`. We check the first terminator, which is `<{b} as FnOnce>::call_once`, but although that is its own mini cycle, it doesn't consider itself a cycle for the purpose of this query because it doesn't involve the *root*. However, when we visit the *second* terminator in `b`, which is `<{a} as FnOnce>::call_once`, we end up **erroneously** *not* considering that call to be cyclical since we've already inserted it into our set of seen instances, and as a consequence we don't recurse into it. This means that we never collect `b` as recursive.
Do this in the flipped case too, and we end up having two functions which mututally do not consider each other to be recursive participants. This leads to a query cycle.
---
I ended up also renaming some variables so I could more clearly understand their responsibilities in this code. Let me know if the renames are not welcome.
Fixes https://github.com/rust-lang/rust/issues/143700
r? `@cjgillot`
The test relies on LLVM not merging all the globals into one and would
currently otherwise fail on powerpc64le.
Signed-off-by: Jens Reidel <adrian@travitia.xyz>
From `#[align]` -> `#[rustc_align]`. Attributes starting with `rustc`
are always perma-unstable and feature-gated by `feature(rustc_attrs)`.
See regression RUST-143834.
For the underlying problem where even introducing new feature-gated
unstable built-in attributes can break user code such as
```rs
macro_rules! align {
() => {
/* .. */
};
}
pub(crate) use align; // `use` here becomes ambiguous
```
refer to RUST-134963.
Since the `#[align]` attribute is still feature-gated by
`feature(fn_align)`, we can rename it as a mitigation. Note that
`#[rustc_align]` will obviously mean that current unstable user code
using `feature(fn_aling)` will need additionally `feature(rustc_attrs)`,
but this is a short-term mitigation to buy time, and is expected to be
changed to a better name with less collision potential.
See
<https://rust-lang.zulipchat.com/#narrow/channel/238009-t-compiler.2Fmeetings/topic/.5Bweekly.5D.202025-07-17/near/529290371>
where mitigation options were considered.
Fix encoding of link_section and no_mangle cross crate
Fixes https://github.com/rust-lang/rust/issues/144004
``@bjorn3`` suggested using the `codegen_fn_attrs` query but given that these attributes are not that common it's probably fine to just always encode them. I can also go for that solution if it is preferred but that would require more changes.
r? ``@jdonszelmann`` ``@fmease`` (whoever feels like it)
Show the offset, length and memory of uninit read errors
r? ``@RalfJung``
I want to improve memory dumps in general. Not sure yet how to do so best within rust diagnostics, but in a perfect world I could generate a dummy in-memory file (that contains the rendered memory dump) that we then can then provide regular rustc `Span`s to. So we'd basically report normal diagnostics for them with squiggly lines and everything.
This test depends on the target-specific behavior of crt-static for musl
targets. However, running the testsuite on a musl host requires
setting `crt-static` to `false`, as it wouldn't otherwise be possible to
build rustc. This in turn will enable `-Ctarget-feature=-crt-static` for
all tests, mismatching the expected `+crt-static` for the musl target
tested in this testcase.
Since this test specifically tests the default value of `crt-static` for
the musl target, ignoring it entirely makes more sense than manually
setting `-Ctarget-feature=+crt-static` here, but both would be valid
approaches.
Signed-off-by: Jens Reidel <adrian@travitia.xyz>
According to
https://discourse.llvm.org/t/rfc-volatile-access-to-non-dereferenceable-memory-may-be-well-defined/86303/4,
LLVM allows volatile operations on null and handles it correctly. This
should be allowed in Rust as well, because I/O memory may be hard-coded
to address 0 in some cases, like the AVR chip ATtiny1626.
A test case that ensured a failure when passing null to volatile was
removed, since it's now valid.
Due to the addition of `maybe_is_aligned` to `ub_checks`,
`maybe_is_aligned_and_not_null` was refactored to use it.
docs: revise restrictions on volatile operations
A distinction between usage on Rust memory vs. non-Rust memory was
introduced. Documentation was reworded to explain what that means, and
make explicit that:
- No trapping can occur from volatile operations;
- On Rust memory, all safety rules must be respected;
- On Rust memory, the primary difference from regular access is that
volatile always involves a memory dereference;
- On Rust memory, the only data affected by an operation is the one
pointed to in the argument(s) of the function;
- On Rust memory, provenance follows the same rules as non-volatile
access;
- On non-Rust memory, any address known to not contain Rust memory is
valid (including 0 and usize::MAX);
- On non-Rust memory, no Rust memory may be affected (it is implicit
that any other non-Rust memory may be affected, though, even if not
referenced by the pointer). This should be relevant when, for example,
reading register A causes a flag to change in register B, or writing
to A causes B to change in some way. Everything affected mustn't be
inside an allocation.
- On non-Rust memory, provenance is irrelevant and a pointer with none
can be used in a valid way.
fix: don't lint null as UB for volatile
Also remove a now-unneeded `allow` line.
fix: additional wording nits
Split-up stability_index query
This PR aims to move deprecation and stability processing away from the monolithic `stability_index` query, and directly implement `lookup_{deprecation,stability,body_stability,const_stability}` queries.
The basic idea is to:
- move per-attribute sanity checks into `check_attr.rs`;
- move attribute compatibility checks into the `MissingStabilityAnnotations` visitor;
- progressively dismantle the `Annotator` visitor and the `stability_index` query.
The first commit contains functional change, and now warns when `#[automatically_derived]` is applied on a non-trait impl block. The other commits should not change visible behaviour.
Perf in https://github.com/rust-lang/rust/pull/143845#issuecomment-3066308630 shows small but consistent improvement, except for unused-warnings case. That case being a stress test, I'm leaning towards accepting the regression.
This PR changes `check_attr`, so has a high conflict rate on that file. This should not cause issues for review.
Make slice comparisons const
This needed a fix for `derive_const`, too, as it wasn't usable in libcore anymore as trait impls need const stability attributes. I think we can't use the same system as normal trait impls while `const_trait_impl` is still unstable.
r? ```@fee1-dead```
cc rust-lang/rust#143800
`tests/ui`: A New Order [0/28]
> [!NOTE]
>
> Intermediate commits are intended to help review, but will be squashed prior to merge.
These are the some last tests that didn’t make it into the main twenty-eightology of PRs. Part of rust-lang/rust#133895.
r? ```@jieyouxu```
