When making changes that have a large impact on coverage counter creation, this
makes it easier to see whether the number of physical counters has changed.
(The highest counter ID seen in coverage maps is not necessarily the same as
the number of physical counters actually used by the instrumented code, but
it's the best approximation we can get from looking only at the coverage maps,
and it should be reasonably accurate in most cases.)
compiletest: Simplify the choice of `--emit` mode for assembly tests
Tiny little cleanup that I noticed while working on #131524. No functional change.
Historically, the original code structure (#58791) predates the `Emit` enum (#103298), so it was manually adding `--emit` flags to the compiler invocation. But now the match can just evaluate to the appropriate `Emit` value directly.
compiletest: Remove the magic hacks for finding output with `lto=thin`
This hack was intended to handle the case where `-Clto=thin` causes the compiler to emit multiple output files (when producing LLVM-IR or assembly).
The hack only affects 4 tests, of which 3 are just meta-tests for the hack itself. The one remaining test that motivated the hack currently doesn't even need it!
(`tests/codegen/issues/issue-81408-dllimport-thinlto-windows.rs`)
This hack was intended to handle the case where `-Clto=thin` causes the
compiler to emit multiple output files (when producing LLVM-IR or assembly).
The hack only affects 4 tests, of which 3 are just meta-tests for the hack
itself. The one remaining test that motivated the hack currently doesn't even
need it!
(`tests/codegen/issues/issue-81408-dllimport-thinlto-windows.rs`)
stabilize `ci_rustc_if_unchanged_logic` test
Makes `ci_rustc_if_unchanged_logic` test more stable and re-enables it. Previously, it was expecting CI-rustc to be used all the time when there were no changes, which wasn’t always the case. Purpose of this test is making sure we don't use CI-rustc while there are changes in compiler and/or library, but we don't really need to cover cases where CI-rustc is not enabled.
Second commit was pushed for making a change in the compiler tree, so `ci_rustc_if_unchanged_logic` can be tested properly in merge CI.
Non-default visibilities should only be used for definitions, not
declarations, otherwise linking can fail.
Co-authored-by: Collin Baker <collinbaker@chromium.org>
Avoid redundant sysroot additions to `PATH` when linking
Currently, `rustc` prepends `$HOME/.rustup/toolchains/stable-aarch64-apple-darwin/lib/rustlib/aarch64-apple-darwin/bin` to the `PATH` three times before invoking the linker, which is unnecessary, once should be enough.
Spotted this while trying to get `-Clinker-flavor=gcc` and `-Clinker-flavor=ld` closer together, not really important.
`````@rustbot````` A-linkage
Compiler & its UI tests: Rename remaining occurrences of "object safe" to "dyn compatible"
Follow-up to #130826.
Part of #130852.
1. 1st commit: Fix stupid oversights. Should've been part of #130826.
2. 2nd commit: Rename the unstable feature `object_safe_for_dispatch` to `dyn_compatible_for_dispatch`. Might not be worth the churn, you decide.
3. 3rd commit: Apply the renaming to all UI tests (contents and paths).
add test infra to explicitely test rustc with autodiff/enzyme disabled
I assume this is not what you want for now, but I'll update the PR once I understand how the ignore- directives work.
To summarize the situation, we want a feature gate test where we don't enable the autodiff feature using `#![feature(autodiff)]`. There are two situations.
1) We have a rustc which was build without autodiff support (current default): It gives one error about the feature being needed and one error about this rustc version being build without autodiff support.
2) We have a rustc which was build with autodiff support (i.e. for now a custom build): It gives one error about the feature being needed.
We have a `//`````@needs-enzyme`````` directive which we can use in revisions for the second case.
However, we have no way to specify that needs-enzyme implies that the second error should not be seen.
This ads a way of passing the following test:
```
//@ revisions: has_support no_support
//`````@[has_support]````` needs-enzyme
//`````@[no_support]````` needs-enzyme-disabled
#![crate_type = "lib"]
#[autodiff(dfoo, Reverse)]
//[has_support]~^ ERROR use of unstable library feature 'autodiff' [E0658]
//[no_support]~^^ ERROR use of unstable library feature 'autodiff' [E0658]
//[no_support]~| ERROR this rustc version does not support autodiff
fn foo() {}
```
Cherry picking this PR to my frontend pr makes the test above pass in both configurations (enzyme=true/false in config.toml).
I'm open to other changes that make this testcase pass.
r? `````@jieyouxu`````
Tracking:
- https://github.com/rust-lang/rust/issues/124509
Match std `RUSTFLAGS` for host and target for `mir-opt` test suite to fix double std build/rebuilds
Previously the bootstrap compiletest `Step::run` flow had:
```rs
// ensure that `libproc_macro` is available on the host.
builder.ensure(compile::Std::new(compiler, compiler.host));
// ...
if suite == "mir-opt" {
builder.ensure(compile::Std::new_for_mir_opt_tests(compiler, target));
} else {
builder.ensure(compile::Std::new(compiler, target));
}
```
This can cause unnecessary std rebuilds (even on the same invocation) because if host == target then `builder.ensure(compile::Std::new_for_mir_opt_tests(compiler, target))` will have different `RUSTFLAGS` than `builder.ensure(compile::Std::new(compiler, compiler.host))`.
This PR fixes that by matching up std `RUSTFLAGS` if the test suite is `mir-opt`:
```rs
if suite == "mir-opt" {
builder.ensure(compile::Std::new_for_mir_opt_tests(compiler, compiler.host));
} else {
builder.ensure(compile::Std::new(compiler, compiler.host));
}
```
This is a short-term fix, the better fix is to enforce how `RUSTFLAGS` are handled as described in https://github.com/rust-lang/rust/issues/131437#issuecomment-2401710727.
Fixes#131437.
Precise capturing in traits
This PR begins to implement `feature(precise_capturing_in_traits)`, which enables using the `impl Trait + use<..>` syntax for RPITITs. It implements this by giving the desugared GATs variance, and representing the uncaptured lifetimes as bivariant, like how opaque captures work.
Right now, I've left out implementing a necessary extension to the `refining_impl_trait` lint, and also I've made it so that all RPITITs always capture the parameters that come from the trait, because I'm not totally yet convinced that it's sound to not capture these args. It's certainly required to capture the type and const parameters from the trait (e.g. Self), or else users could bivariantly relate two RPITIT args that come from different impls, but region parameters don't affect trait selection in the same way, so it *may* be possible to relax this in the future. Let's stay conservative for now, though.
I'm not totally sure what tests could be added on top of the ones I already added, since we really don't need to exercise the `precise_capturing` feature but simply what makes it special for RPITITs.
r? types
Tracking issue:
* #130044
rustc_target: Add sme-b16b16 as an explicit aarch64 target feature
LLVM 20 split out what used to be called b16b16 and correspond to aarch64
FEAT_SVE_B16B16 into sve-b16b16 and sme-b16b16.
Add sme-b16b16 as an explicit feature and update the codegen accordingly.
Resolves https://github.com/rust-lang/rust/pull/129894.
Stabilize const `{slice,array}::from_mut`
This PR stabilizes the following APIs as const stable as of rust `1.83`:
```rs
// core::array
pub const fn from_mut<T>(s: &mut T) -> &mut [T; 1];
// core::slice
pub const fn from_mut<T>(s: &mut T) -> &mut [T];
```
This is made possible by `const_mut_refs` being stabilized (yay).
Tracking issue: #90206
codegen_ssa: consolidate tied target checks
Fixes#105110.
Fixes#105111.
`rustc_codegen_llvm` and `rustc_codegen_gcc` duplicated logic for checking if tied target features were partially enabled. This PR consolidates these checks into `rustc_codegen_ssa` in the `codegen_fn_attrs` query, which also is run pre-monomorphisation for each function, which ensures that this check is run for unused functions, as would be expected.
Also adds a test confirming that enabling one tied feature doesn't imply another - the appropriate error for this was already being emitted. I did a bisect and narrowed it down to two patches it was likely to be - something in #128796, probably #128221 or #128679.
Clippy: Backport `needless_return` fix
r? `@Manishearth`
This cherry-picks https://github.com/rust-lang/rust-clippy/pull/13464, so that it gets into master and with that into `beta` tomorrow, so that the bug in this lint doesn't hit `beta`.
Changes look quite big, but most of them are whitespace changes because of the introduction of an `_inner` function. In reality it only adds 2 checks.
Introduce SolverRelating type relation to the new solver
Redux of #128744.
Splits out relate for the new solver so that implementors don't need to implement it themselves.
r? lcnr
Apple: Avoid redundant `-Wl,-dylib` flag when linking
Seems to have been introduced all the way back in e338a4154b, but should be redundant, `-dynamiclib` should already make `cc` set `-dylib` when linking.
Spotted this while trying to get `-Clinker-flavor=gcc` and `-Clinker-flavor=ld` closer together, not that important to fix.
`@rustbot` label O-apple
fix/update teach_note from 'escaping mutable ref/ptr' const-check
The old note was quite confusing since it talked about statics, but the message is also shown for consts. So let's reword to something that is true for both of them.
Fix a few relative paths in rustc doc
## Changes
- Don't inline the doc for re-exporting some structs that have relative paths in doc.
## Context
See #124028.
- Most of the relative links in rustdoc are there because of circular import (so syntax like `[MyType]: rustc_foo::bar` is difficult to achieve when we cannot import `rustc_xxx` due to circular import)
- Here, I disable new links for re-exports. I think it's fine for re-exported items in `hir::*`.
- There is a few more relative links in other `rustc` crates, however they are not addressed in this PR, as they are not re-exported and/so the relative paths are working.
Closes#124028.
r? `@fmease`
Let me know if I miss anything or there's any other way to address this issue.
LLVM 20 split out what used to be called b16b16 and correspond to aarch64
FEAT_SVE_B16B16 into sve-b16b16 and sme-b16b16.
Add sme-b16b16 as an explicit feature and update the codegen accordingly.
