Issue an error when using `no_mangle` on language items
This pull requests adds the code to issue an error or a warning when using `no_mangle` on language items. This should detail why the `undefined symbol` error is issued for the code described in #139923.
The pull request adds two ui tests, one testing the error and the other one the warning.
I would love some feedback here, as I am not sure that the error and warning are issues using the right API.
Check bare function idents for non snake-case name
This PR adds the check required to lint on bare function idents for non snake-case name.
Reported at #140089.
cc `@theemathas`
Don't allow flattened format_args in const.
Fixes https://github.com/rust-lang/rust/issues/139136
Fixes https://github.com/rust-lang/rust/issues/139621
We allow `format_args!("a")` in const, but don't allow any format_args with arguments in const, such as `format_args!("{}", arg)`.
However, we accidentally allow `format_args!("hello {}", "world")` in const, as it gets flattened to `format_args!("hello world")`.
This also applies to panic in const.
This wasn't supposed to happen. I added protection against this in the format args flattening code, ~~but I accidentally marked a function as const that shouldn't have been const~~ but this was removed in https://github.com/rust-lang/rust/pull/135139.
This is a breaking change. The crater found no breakage, however.
This breaks things like:
```rust
const _: () = if false { panic!("a {}", "a") };
```
and
```rust
const F: std::fmt::Arguments<'static> = format_args!("a {}", "a");
```
add suggestion on how to add a panic breakpoint
Co-authored-by: Pat Pannuto <pat.pannuto@gmail.com>
delete no_mangle from ui/panic-handler/panic-handler-wrong-location test
issue an error for the usage of #[no_mangle] on internal language items
delete the comments
add newline
rephrase note
Co-authored-by: bjorn3 <17426603+bjorn3@users.noreply.github.com>
update error not to leak implementation details
delete no_mangle_span
Co-authored-by: bjorn3 <17426603+bjorn3@users.noreply.github.com>
delete commented code
The previous implementation was inconsistent about transitions that
apply for an init byte. For example, when answering a query, an init
byte could use corresponding init transition. Init byte could also use
uninit transition, but only when the corresponding init transition was
absent. This behaviour was incompatible with DFA union construction.
Define an uninit transition to match an uninit byte only and update
implementation accordingly. To describe that `Tree::uninit` is valid
for any value, build an automaton that accepts any byte value.
Additionally, represent byte ranges uniformly as a pair of integers to
avoid special case for uninit byte.
Extend the alignment check to borrows
The current alignment check does not include checks for creating misaligned references from raw pointers, which is now added in this patch.
When inserting the check we need to be careful with references to field projections (e.g. `&(*ptr).a`), in which case the resulting reference must be aligned according to the field type and not the type of the pointer.
r? `@saethlin`
cc `@RalfJung,` after our discussion in #134424
Most notably, the `FIXME` for suboptimal printing of `use` groups in
`tests/ui/macros/stringify.rs` is fixed. And all other test output
changes result in pretty printed output being closer to the original
formatting in the source code.
Workaround for windows-gnu rust-lld test failure
The test run-make/amdgpu-kd has an issue on windows-gnu where rust-lld will sometimes fail with error 0xc0000374 (`STATUS_HEAP_CORRUPTION`).
This works around the issue by passing `--threads=1` to the linker as suggested [here](https://github.com/rust-lang/rust/issues/115985#issuecomment-1754112623). Note I don't know if this will help and it happens only sometimes in our CI so it's hard to test.
Implement the internal feature `cfg_target_has_reliable_f16_f128`
Support for `f16` and `f128` is varied across targets, backends, and backend versions. Eventually we would like to reach a point where all backends support these approximately equally, but until then we have to work around some of these nuances of support being observable.
Introduce the `cfg_target_has_reliable_f16_f128` internal feature, which provides the following new configuration gates:
* `cfg(target_has_reliable_f16)`
* `cfg(target_has_reliable_f16_math)`
* `cfg(target_has_reliable_f128)`
* `cfg(target_has_reliable_f128_math)`
`reliable_f16` and `reliable_f128` indicate that basic arithmetic for the type works correctly. The `_math` versions indicate that anything relying on `libm` works correctly, since sometimes this hits a separate class of codegen bugs.
These options match configuration set by the build script at [1]. The logic for LLVM support is duplicated as-is from the same script. There are a few possible updates that will come as a follow up.
The config introduced here is not planned to ever become stable, it is only intended to replace the build scripts for `std` tests and `compiler-builtins` that don't have any way to configure based on the codegen backend.
MCP: https://github.com/rust-lang/compiler-team/issues/866
Closes: https://github.com/rust-lang/compiler-team/issues/866
[1]: 555e1d0386/library/std/build.rs (L84-L186)
---
The second commit makes use of this config to replace `cfg_{f16,f128}{,_math}` in `library/`. I omitted providing a `cfg(bootstrap)` configuration to keep things simpler since the next beta branch is in two weeks.
try-job: aarch64-gnu
try-job: i686-msvc-1
try-job: test-various
try-job: x86_64-gnu
try-job: x86_64-msvc-ext2
Move inline asm check to typeck, properly handle aliases
Pull `InlineAsmCtxt` down to `rustc_hir_typeck`, and instead of using things like `Ty::is_copy`, use the `InferCtxt`-aware methods. To fix https://github.com/rust-lang/trait-system-refactor-initiative/issues/189, we also add a `try_structurally_resolve_*` call to `expr_ty`.
r? lcnr
Do not compute type_of for impl item if impl where clauses are unsatisfied
Consider the following code:
```rust
trait Foo {
fn call(self) -> impl Send;
}
trait Nested {}
impl<T> Foo for T
where
T: Nested,
{
fn call(self) -> impl Sized {
NotSatisfied.call()
}
}
struct NotSatisfied;
impl Foo for NotSatisfied {
fn call(self) -> impl Sized {
todo!()
}
}
```
In `impl Foo for NotSatisfied`, we need to prove that the RPITIT is well formed. This requires proving the item bound `<NotSatisfied as Foo>::RPITIT: Send`. Normalizing `<NotSatisfied as Foo>::RPITIT: Send` assembles two impl candidates, via the `NotSatisfied` impl and the blanket `T` impl. We end up computing the `type_of` for the blanket impl even if `NotSatisfied: Nested` where clause does not hold.
This type_of query ends up needing to prove that its own `impl Sized` RPIT satisfies `Send`, which ends up needing to compute the hidden type of the RPIT, which is equal to the return type of `NotSatisfied.call()`. That ends up in a query cycle, since we subsequently try normalizing that return type via the blanket impl again!
In the old solver, we don't end up computing the `type_of` an impl candidate if its where clauses don't hold, since this select call would fail before confirming the projection candidate:
d7ea436a02/compiler/rustc_trait_selection/src/traits/project.rs (L882)
This PR makes the new solver more consistent with the old solver by adding a call to `try_evaluate_added_goals` after regstering the impl predicates, which causes us to bail before computing the `type_of` for impls if the impl definitely doesn't apply.
r? lcnr
Fixes https://github.com/rust-lang/trait-system-refactor-initiative/issues/185
allow deref patterns to move out of boxes
This adds a case to lower deref patterns on boxes using a built-in deref instead of a `Deref::deref` or `DerefMut::deref_mut` call: if `deref!(inner): Box<T>` is matching on place `place`, the inner pattern `inner` now matches on `*place` rather than a temporary. No longer needing to call a method also means it won't borrow the scrutinee in match arms. This allows for bindings in `inner` to move out of `*place`.
For comparison with box patterns, this uses the same MIR lowering but different THIR. Consequently, deref patterns on boxes are treated the same as any other deref patterns in match exhaustiveness analysis. Box patterns can't quite be implemented in terms of deref patterns until exhaustiveness checking for deref patterns is implemented (I'll open a PR for exhaustiveness soon!).
Tracking issue: #87121
r? ``@Nadrieril``
The default s390x cpu(z10) does not have vector support. Setting
target-cpu at least to z13 enables vectorisation for s390x architecture
and makes the test pass.
Rollup of 7 pull requests
Successful merges:
- #140056 (Fix a wrong error message in 2024 edition)
- #140220 (Fix detection of main function if there are expressions around it)
- #140249 (Remove `weak` alias terminology)
- #140316 (Introduce `BoxMarker` to improve pretty-printing correctness)
- #140347 (ci: clean more disk space in codebuild)
- #140349 (ci: use aws codebuild for the `dist-x86_64-linux` job)
- #140379 (rustc-dev-guide subtree update)
r? `@ghost`
`@rustbot` modify labels: rollup
