c-variadic: allow c-variadic inherent and trait methods
tracking issue: https://github.com/rust-lang/rust/issues/44930
Continuing the work of https://github.com/rust-lang/rust/pull/146342, allow inherent and trait methods to be c-variadic. However, a trait that contains a c-variadic method is no longer dyn-compatible.
There is, presumably, some way to make c-variadic methods dyn-compatible. However currently, we don't have confidence that it'll work reliably: when methods from a `dyn` object are cast to a function pointer, a `ReifyShim` is created. If that shim is c-variadic, it would need to forward the C variable argument list.
That does appear to work, because the `va_list` is not represented in MIR at all in this case, so the registers from the call site are untouched by the shim and can be read by the actual implementation. That just does not seem like a solid implementation.
Also, intuitively, why would c-variadic function, primarily needed for FFI, need to be used with `dyn` objects at all? We can revisit this limitation if a need arises.
r? `@workingjubilee`
Clean up `ty::Dynamic`
1. As a follow-up to PR rust-lang/rust#143036, remove `DynKind` entirely.
2. Inside HIR ty lowering, consolidate modules `dyn_compatibility` and `lint` into `dyn_trait`
* `dyn_compatibility` wasn't about dyn compatibility itself, it's about lowering trait object types
* `lint` contained dyn-Trait-specific diagnostics+lints only
Lint more overlapping assignments in MIR.
In an effort to make bugs like https://github.com/rust-lang/rust/issues/146383 more easily discovered, this PR extends the "overlapping assignment" MIR lint.
I had to whitelist some rvalues, as they are actually allowed to alias, like `a = a + 1`.
Move `#[rustc_coherence_is_core]` to the `crate_level` file
I implemented this one without realizing it already was since it was (in my opinion) in the wrong file and implemented in a batch of all non-crate-level attributes. This commit just cleans it up slightly and moves it. Should be trivial
r? `@oli-obk`
interpret: copy_provenance: avoid large intermediate buffer for large repeat counts
Copying provenance worked in this odd way where the "preparation" phase (which is supposed to just extract the necessary information from the source range) already did all the work of repeating the result N times for the target range. This was needed to use the existing `insert_presorted` function on `SortedMap`.
This PR generalizes `insert_presorted` so that we can avoid this odd structure on copy-provenance, and maybe even improve performance.
Remove Rvalue::Len again.
Now that we have `RawPtrKind::FakeForPtrMetadata`, we can reimplement `Rvalue::Len` using `PtrMetadata(&raw const (fake) place)`.
r? ``@scottmcm``
StateTransform: Do not renumber resume local.
MIR parameters are not explicitly assigned-to when entering the MIR body. If we want to save their values inside the coroutine state, we need to do so explicitly.
This was done by renaming the `_2` local, and introducing an explicit assignment pre-transform. This particular trick confuses me.
This version makes explicit that we are assigning parameters to saved locals.
r? ``@dingxiangfei2009``
initial implementation of the darwin_objc unstable feature
Tracking issue: https://github.com/rust-lang/rust/issues/145496
This feature makes it possible to reference Objective-C classes and selectors using the same ABI used by native Objective-C on Apple/Darwin platforms. Without it, Rust code interacting with Objective-C must resort to loading classes and selectors using costly string-based lookups at runtime. With it, these references can be loaded efficiently at dynamic load time.
r? ```@tmandry```
try-job: `*apple*`
try-job: `x86_64-gnu-nopt`
remove FIXME block from `has_significant_drop`, it never encounters inference variables
The `FIXME` block in `Ty::has_significant_drop` is outdated as related queries can now handle type inference.
321a89bec5/compiler/rustc_middle/src/ty/util.rs (L1378-L1389)Closesrust-lang/rust#86868 (other places mentioned in the issue have been resolved, or moved to other issues)
r? types
interpret: fix overlapping aggregate initialization
This fixes the problem pointed out by ````@saethlin```` in https://github.com/rust-lang/rust/issues/146383#issuecomment-3273224645.
Also clarify when exactly current de-facto MIR semantics allow overlap of the LHS and RHS in an assignment.
Skip typeck for items w/o their own typeck context
Skip items which forward typeck to their ancestor.
Should remove some potential but unnecessary typeck query waits, hence might improve performance for the parallel frontend.
Thanks to `@ywxt` for a fix suggestion
Fixesrust-lang/rust#141951
but a C-variadic method makes a trait dyn-incompatible. That is because
methods from dyn traits, when cast to a function pointer, create a shim.
That shim can't really forward the c-variadic arguments.
Trim paths less in MIR dumping
With this PR, the paths MIR dump filters and that are printed at the start of a dump file are no longer trimmed. They don't include the crate that is being compiled, however.
Implement `#[rustc_align_static(N)]` on `static`s
Tracking issue: https://github.com/rust-lang/rust/issues/146177
```rust
#![feature(static_align)]
#[rustc_align_static(64)]
static SO_ALIGNED: u64 = 0;
```
We need a different attribute than `rustc_align` because unstable attributes are tied to their feature (we can't have two unstable features use the same unstable attribute). Otherwise this uses all of the same infrastructure as `#[rustc_align]`.
r? `@traviscross`
We need a different attribute than `rustc_align` because unstable attributes are
tied to their feature (we can't have two unstable features use the same
unstable attribute). Otherwise this uses all of the same infrastructure
as `#[rustc_align]`.
rename erase_regions to erase_and_anonymize_regions
I find it consistently confusing that `erase_regions` does more than replacing regions with `'erased`. it also makes some code look real goofy to be writing manual folders to erase regions with a comment saying "we cant use erase regions" :> or code that re-calls erase_regions on types with regions already erased just to anonymize all the bound regions.
r? lcnr
idk how i feel about the name being almost twice as long now
const-eval: disable pointer fragment support
This fixes https://github.com/rust-lang/rust/issues/146291 by disabling pointer fragment support for const-eval. I want to properly fix this eventually, but won't get to it in the next few weeks, so this is an emergency patch to prevent the buggy implementation from landing on stable. The beta cutoff is on Sep 12th so if this PR lands after that, we'll need a backport.
Port limit attributes to the new attribute parsing infrastructure
Doesn't pass tests, to be rebased on https://github.com/rust-lang/rust/pull/145792 which will solve that
r? `@fmease`
eagerly compute `sub_unification_table` again
Previously called `sub_relations`. We still only using them for diagnostics right now. This mostly reverts rust-lang/rust#119989. Necessary for type inference guidance due to not-yet defined opaque types, cc https://github.com/rust-lang/trait-system-refactor-initiative/issues/182.
We could use them for cycle detection in generalization and it seems desirable to do so in the future. However, this is unsound with the old trait solver as its cache does not track these `sub_unification_table` in any way.
We now properly track the `sub_unification_table` when canonicalizing so using them in the new solver is totally sound and the performance impact is far more manageable than I thought back in rust-lang/rust#119989.
r? `@compiler-errors`
