Don't print newlines in APITs
This is kind of a hack, but it gets the job done because the only "special" formatting that (afaict) `rustc_ast_pretty` does is break with newlines sometimes.
Fixesrust-lang/measureme#207
Always capture slice when pattern requires checking the length
Fixes#111751
cc ``@zirconium-n,`` I see you were assigned to this but I've fixed some similar issues in the past and had an idea on how to investigate this.
Consider lint check attributes on match arms
Currently, lint check attributes on match arms have no effect for some lints. This PR makes some lint passes to take those attributes into account.
- `LateContextAndPass` for late lint doesn't update `last_node_with_lint_attrs` when it visits match arms. This leads to lint check attributes on match arms taking no effects on late lints that operate on the arms' pattern:
```rust
match value {
#[deny(non_snake_case)]
PAT => {} // `non_snake_case` only warned due to default lint level
}
```
To be honest, I'm not sure whether this is intentional or just an oversight. I've dug the implementation history and searched up issues/PRs but couldn't find any discussion on this.
- `MatchVisitor` doesn't update its lint level when it visits match arms. This leads to check lint attributes on match arms taking no effect on some lints handled by this visitor, namely: `bindings_with_variant_name` and `irrefutable_let_patterns`.
This seems to be a fallout from #108504. Before 05082f57af, when the visitor operated on HIR rather than THIR, check lint attributes for the said lints were effective. [This playground][play] compiles successfully on current stable (1.69) but fails on current beta and nightly.
I wasn't sure where best to place the test for this. Let me know if there's a better place.
[play]: https://play.rust-lang.org/?version=stable&mode=debug&edition=2021&gist=38432b79e535cb175f8f7d6d236d29c3
[play-match]: https://play.rust-lang.org/?version=beta&mode=debug&edition=2021&gist=629aa71b7c84b269beadeba664e2221d
Support #[global_allocator] without the allocator shim
This makes it possible to use liballoc/libstd in combination with `--emit obj` if you use `#[global_allocator]`. This is what rust-for-linux uses right now and systemd may use in the future. Currently they have to depend on the exact implementation of the allocator shim to create one themself as `--emit obj` doesn't create an allocator shim.
Note that currently the allocator shim also defines the oom error handler, which is normally required too. Once `#![feature(default_alloc_error_handler)]` becomes the only option, this can be avoided. In addition when using only fallible allocator methods and either `--cfg no_global_oom_handling` for liballoc (like rust-for-linux) or `--gc-sections` no references to the oom error handler will exist.
To avoid this feature being insta-stable, you will have to define `__rust_no_alloc_shim_is_unstable` to avoid linker errors.
(Labeling this with both T-compiler and T-lang as it originally involved both an implementation detail and had an insta-stable user facing change. As noted above, the `__rust_no_alloc_shim_is_unstable` symbol requirement should prevent unintended dependence on this unstable feature.)
Handle opaques in the new solver (take 2?)
Implement a new strategy for handling opaques in the new solver.
First, queries now carry both their defining anchor and the opaques that were defined in the inference context at the time of canonicalization. These are both used to pre-populate the inference context used by the canonical query.
Second, use the normalizes-to goal to handle opaque types in the new solver. This means that opaques are handled like projection aliases, but with their own rules:
* Can only define opaques if they're "defining uses" (i.e. have unique params in all their substs).
* Can only define opaques that are from the anchor.
* Opaque type definitions are modulo regions. So that means `Opaque<'?0r> = HiddenTy1` and `Opaque<?'1r> = HiddenTy2` equate `HiddenTy1` and `HiddenTy2` instead of defining them as different opaque type keys.
Rollup of 5 pull requests
Successful merges:
- #111741 (Use `ObligationCtxt` in custom type ops)
- #111840 (Expose more information in `get_body_with_borrowck_facts`)
- #111876 (Roll compiler_builtins to 0.1.92)
- #111912 (Use `Option::is_some_and` and `Result::is_ok_and` in the compiler )
- #111915 (libtest: Improve error when missing `-Zunstable-options`)
r? `@ghost`
`@rustbot` modify labels: rollup
Expose more information in `get_body_with_borrowck_facts`
Verification tools for Rust such as, for example, Creusot or Prusti would benefit from having access to more information computed by the borrow checker.
As a first step in that direction, #86977 added the `get_body_with_borrowck_facts` API, allowing compiler consumers to obtain a `mir::Body` with accompanying borrow checker information.
At RustVerify 2023, multiple people working on verification tools expressed their need for a more comprehensive API.
While eventually borrow information could be part of Stable MIR, in the meantime, this PR proposes a more limited approach, extending the existing `get_body_with_borrowck_facts` API.
In summary, we propose the following changes:
- Permit obtaining the borrow-checked body without necessarily running Polonius
- Return the `BorrowSet` and the `RegionInferenceContext` in `BodyWithBorrowckFacts`
- Provide a way to compute the `borrows_out_of_scope_at_location` map
- Make some helper methods public
This is similar to #108328 but smaller in scope.
`@smoelius` Do you think these changes would also be sufficient for your needs?
r? `@oli-obk`
cc `@JonasAlaif`
Always require closure parameters to be `Sized`
The `rust-call` ABI isn't compatible with `#![feature(unsized_fn_params)]`, so trying to use that feature with closures leads to an ICE (#67981). This turns that ICE into a type-check error.
`@rustbot` label A-closures F-unsized_fn_params
CFI: Fix encode_region: unexpected ReEarlyBound(0, 'a)
Fixes#111515 and complements #106547 by adding support for encoding early bound regions and also excluding projections when transforming trait objects' traits into their identities before emitting type checks.
fix(resolve): not defined `extern crate shadow_name`
Fixes https://github.com/rust-lang/rust/issues/109148
## Why does #109148 panic?
When resolving `use std::xx` it enters `visit_scopes` from `early_resolve_ident_in_lexical_scope`, and iters twice during the loop:
|iter| `scope` | `break_result` | result |
|-|-|-|-|
| 0 | `Module` pointed to root | binding pointed to `Undetermined`, so result is `None` | scope changed to `ExternPrelude` |
| 1 | `ExternPrelude` | binding pointed to `std` | - |
Then, the result of `maybe_resolve_path` is `Module(std)`, so `import.imported_module.set` is executed.
Finally, during the `finalize_import` of `use std::xx`, `resolve_path` returns `NonModule` because `Binding(Ident(std), Module(root)`'s binding points to `extern crate blah as std`, which causes the assertion to fail at `assert!(import.imported_module.get().is_none());`.
## Investigation
The question is why `#[a] extern crate blah as std` is not defined as a binding of `std::xxx`, which causes the iteration twice during `visit_scopes` when resolving `std::xxx`. Ideally, the value of `break_result.is_some()` should have been valid in the first iteration.
After debugging, I found that because `#[a] extern crate blah as std` had been dummied by `placeholder` during `collect_invocations`, so it had lost its attrs, span, etc..., so it will not be defined. However, `expand_invoc` added them back, then the next `build_reduced_graph`, `#[a] extern crate blah as std` would have been defined, so it makes the result of `resolved_path` unexpected, and the program panics.
## Try to solve
I think there has two-way to solve this issue:
- Expand invocations before the first `resolve_imports` during `fully_expand_fragment`. However, I do not think this is a good idea because it would mess up the current design.
- As my PR described: do not define to `extern crate blah as std` during the second `build_reduced_graph`, which is very easy and more reasonable.
r? `@petrochenkov`
The `rust-call` ABI isn't compatible with
`#![feature(unsized_fn_params)]`, so trying to use that feature with
closures leads to an ICE (#67981). This turns that ICE into a
type-check error.
Fixes#111515 and complements #106547 by adding support for encoding
early bound regions and also excluding projections when transforming
trait objects' traits into their identities before emitting type checks.
Fix some issues with folded AArch64 features
In #91608 the `fp` feature was removed for AArch64 and folded into the `neon` feature, however disabling the `neon` feature doesn't actually disable the `fp` feature. If my understanding on that thread is correct it should do.
While doing this, I also noticed that disabling some features would disable features that it shouldn't. For instance enabling `sve` will enable `neon`, however, when disabling `sve` it would then also disable `neon`, I wouldn't expect disabling `sve` to also disable `neon`.
cc `@workingjubilee`
Rollup of 6 pull requests
Successful merges:
- #111461 (Fix symbol conflict diagnostic mistakenly being shown instead of missing crate diagnostic)
- #111579 (Also assume wrap-around discriminants in `as` MIR building)
- #111704 (Remove return type sized check hack from hir typeck)
- #111853 (Check opaques for mismatch during writeback)
- #111854 (rustdoc: clean up `settings.css`)
- #111860 (Don't ICE if method receiver fails to unify with `arbitrary_self_types`)
r? `@ghost`
`@rustbot` modify labels: rollup
Don't ICE if method receiver fails to unify with `arbitrary_self_types`
Consider:
```rust
struct Foo(u32);
impl Foo {
fn get<R: Deref<Target=Self>>(self: R) -> u32 {
self.0
}
}
fn main() {
let mut foo = Foo(1);
foo.get::<&Foo>();
}
```
The problem here is that with `arbitrary_self_types`, we're allowed to have a method receiver that mentions generics from the method itself (`fn get<R: Deref<Target=Self>>(self: R)`). Since we don't actually take into account the user-written turbofish generics when doing method lookup (nor do we check that method predicates hold), method probing will happily infer `R = Foo` during the probe. When we later confirm the method, we do use the turbofish'd subst and instead now have that `R = &Foo`. This doesn't unify with the self type we chose during the probe, causing an ICE.
Getting this to work correctly will be difficult. Specifically, we'll need to actually pass in the turbofish generics for the method being probed for and check that the self type unifies considering those generics. This seems like a lot of work, and I'm not actually familiar with the restrictions originally called out for `#![feature(arbitrary_self_types)]`, but I think we should probably instead just deny having receivers that mention (type/const) generics that come from the method itself.
But I mostly just want to turn this ICE into an error, so I'll leave that up for later PRs.
Fixes#111838