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2025-01-01Rollup merge of #135000 - compiler-errors:opaque-captures-dupe, r=lqdMatthias Krüger-1/+4
Fix ICE when opaque captures a duplicated/invalid lifetime See description on test. Fixes #132766 Fixes #133693 Fixes #134780
2025-01-01Fix ICE when opaque captures a duplicated/invalid lifetimeMichael Goulet-1/+4
2024-12-30Auto merge of #134757 - RalfJung:const_swap, r=scottmcmbors-1/+3
stabilize const_swap libs-api FCP passed in https://github.com/rust-lang/rust/issues/83163. However, I only just realized that this actually involves an intrinsic. The intrinsic could be implemented entirely with existing stable const functionality, but we choose to make it a primitive to be able to detect more UB. So nominating for `@rust-lang/lang` to make sure they are aware; I leave it up to them whether they want to FCP this. While at it I also renamed the intrinsic to make the "nonoverlapping" constraint more clear. Fixes #83163
2024-12-27Move `{widening, carrying}_mul` to an intrinsic with fallback MIRScott McMurray-0/+5
Including implementing it for `u128`, so it can be defined in `uint_impl!`. This way it works for all backends, including CTFE.
2024-12-25rename typed_swap → typed_swap_nonoverlappingRalf Jung-1/+3
2024-12-19Auto merge of #134499 - jieyouxu:rollup-zmaveur, r=jieyouxubors-11/+11
Rollup of 7 pull requests Successful merges: - #133702 (Variants::Single: do not use invalid VariantIdx for uninhabited enums) - #134427 (ci: remove duplicate task definition) - #134432 (Fix intra doc links not generated inside footnote definitions) - #134437 (reduce compiler `Assemble` complexity) - #134474 (Forbid overwriting types in typeck) - #134477 (move lint_unused_mut into sub-fn) - #134491 (Some destructor/drop related tweaks) r? `@ghost` `@rustbot` modify labels: rollup
2024-12-19Rename Scope.id to Scope.local_id, remove trivial accessorMichael Goulet-11/+11
2024-12-18introduce `LateParamRegionKind`lcnr-8/+16
2024-12-18Re-export more `rustc_span::symbol` things from `rustc_span`.Nicholas Nethercote-8/+4
`rustc_span::symbol` defines some things that are re-exported from `rustc_span`, such as `Symbol` and `sym`. But it doesn't re-export some closely related things such as `Ident` and `kw`. So you can do `use rustc_span::{Symbol, sym}` but you have to do `use rustc_span::symbol::{Ident, kw}`, which is inconsistent for no good reason. This commit re-exports `Ident`, `kw`, and `MacroRulesNormalizedIdent`, and changes many `rustc_span::symbol::` qualifiers in `compiler/` to `rustc_span::`. This is a 200+ net line of code reduction, mostly because many files with two `use rustc_span` items can be reduced to one.
2024-12-16rename rustc_attr to rustc_attr_parsing and create rustc_attr_data_structuresJonathan Dönszelmann-1/+1
2024-12-15Rollup merge of #134285 - oli-obk:push-vwrqsqlwnuxo, r=UrgauStuart Cook-2/+2
Add some convenience helper methods on `hir::Safety` Makes a lot of call sites simpler and should make any refactorings needed for https://github.com/rust-lang/rust/pull/134090#issuecomment-2541332415 simpler, as fewer sites have to be touched in case we end up storing some information in the variants of `hir::Safety`
2024-12-14Add some convenience helper methods on `hir::Safety`Oli Scherer-2/+2
2024-12-14Arbitrary self types v2: Weak, NonNull hintsAdrian Taylor-1/+13
Various types can be used as method receivers, such as Rc<>, Box<> and Arc<>. The arbitrary self types v2 work allows further types to be made method receivers by implementing the Receiver trait. With that in mind, it may come as a surprise to people when certain common types do not implement Receiver and thus cannot be used as a method receiver. The RFC for arbitrary self types v2 therefore proposes emitting specific lint hints for these cases: * NonNull * Weak * Raw pointers The code already emits a hint for this third case, in that it advises folks that the `arbitrary_self_types_pointers` feature may meet their need. This PR adds diagnostic hints for the Weak and NonNull cases.
2024-12-13Arbitrary self types v2: adjust diagnostic.Adrian Taylor-1/+7
The recently landed PR to adjust arbitrary self types was a bit overenthusiastic, advising folks to use the new Receiver trait even before it's been stabilized. Revert to the older wording of the lint in such cases.
2024-12-12Auto merge of #132961 - adetaylor:arbitrary-self-types-the-big-bit, ↵bors-10/+17
r=compiler-errors,wesleywiser Arbitrary self types v2: main compiler changes This is the main PR in a series of PRs related to Arbitrary Self Types v2, tracked in #44874. Specifically this is step 7 of the plan [described here](https://github.com/rust-lang/rust/issues/44874#issuecomment-2122179688), for [RFC 3519](https://github.com/rust-lang/rfcs/pull/3519). Overall this PR: * Switches from the `Deref` trait to the new `Receiver` trait when the unstable `arbitrary_self_types` feature is enabled (the simple bit) * Introduces new algorithms to spot "shadowing"; that is, the case where a newly-added method in an outer smart pointer might end up overriding a pre-existing method in the pointee (the complex bit). Most of this bit was explored in [this earlier perf-testing PR](https://github.com/rust-lang/rust/pull/127812#issuecomment-2236911900). * Lots of tests This should not break compatibility for: * Stable users, where it should have no effect * Users of the existing `arbitrary_self_types` feature (because we implement `Receiver` for `T: Deref`) _unless_ those folks have added methods which may shadow methods in inner types, which we no longer want to allow Subsequent PRs will add better diagnostics. It's probably easiest to review this commit-by-commit. r? `@wesleywiser`
2024-12-11Clarify why a type is rejected for asm!Oli Scherer-44/+73
2024-12-11Evaluate constants in SIMD vec lengths before rejecting themOli Scherer-0/+1
2024-12-11Arbitrary self types v2: use Receiver traitAdrian Taylor-10/+17
In this new version of Arbitrary Self Types, we no longer use the Deref trait exclusively when working out which self types are valid. Instead, we follow a chain of Receiver traits. This enables methods to be called on smart pointer types which fundamentally cannot support Deref (for instance because they are wrappers for pointers that don't follow Rust's aliasing rules). This includes: * Changes to tests appropriately * New tests for: * The basics of the feature * Ensuring lifetime elision works properly * Generic Receivers * A copy of the method subst test enhanced with Receiver This is really the heart of the 'arbitrary self types v2' feature, and is the most critical commit in the current PR. Subsequent commits are focused on: * Detecting "shadowing" problems, where a smart pointer type can hide methods in the pointee. * Diagnostics and cleanup. Naming: in this commit, the "Autoderef" type is modified so that it no longer solely focuses on the "Deref" trait, but can now consider the "Receiver" trait instead. Should it be renamed, to something like "TraitFollower"? This was considered, but rejected, because * even in the Receiver case, it still considers built-in derefs * the name Autoderef is short and snappy.
2024-12-09Unconditionally error at definition if default field value has const errorsEsteban Küber-0/+19
Emit E0080 always on struct definition with default fields that have unconditional const errors and remove `default_field_always_invalid_const` lint.
2024-12-03Rollup merge of #133726 - joshtriplett:breakpoint, r=oli-obkMatthias Krüger-0/+1
Add `core::arch::breakpoint` and test Approved in [ACP 491](https://github.com/rust-lang/libs-team/issues/491).
2024-12-02Add `core::arch::breakpoint` and testJosh Triplett-0/+1
Approved in [ACP 491](https://github.com/rust-lang/libs-team/issues/491). Remove the `unsafe` on `core::intrinsics::breakpoint()`, since it's a safe intrinsic to call and has no prerequisites. (Thanks to @zachs18 for figuring out the `bootstrap`/`not(bootstrap)` logic.)
2024-12-03Rollup merge of #133517 - compiler-errors:deep-norm, r=lcnrMatthias Krüger-2/+1
Deeply normalize when computing implied outlives bounds r? lcnr Unfortunately resolving regions is still slightly scuffed (though in an unrelated way). Specifically, we should be normalizing our param-env outlives when constructing the `OutlivesEnv`; otherwise, these assumptions (https://github.com/rust-lang/rust/blob/dd2837ec5de4301a692e05a7c4475e980af57a57/compiler/rustc_infer/src/infer/outlives/env.rs#L78) are not constructed correctly. Let me know if you want us to track that somewhere.
2024-12-03Rollup merge of #133395 - calebzulawski:simd_relaxed_fma, r=workingjubileeMatthias Krüger-1/+3
Add simd_relaxed_fma intrinsic Adds compiler support for https://github.com/rust-lang/portable-simd/issues/387#issuecomment-2337169786 r? `@workingjubilee` cc `@RalfJung` is this kind of nondeterminism a problem for miri/opsem?
2024-12-02Assert that obligations are empty before deeply normalizingMichael Goulet-2/+1
2024-12-02Rollup merge of #133610 - camelid:move-from_anon_const, r=BoxyUwUGuillaume Gomez-13/+8
Move `Const::{from_anon_const,try_from_lit}` to hir_ty_lowering Fixes #128176. This accomplishes one of the followup items from #131081. These operations are much more about lowering the HIR than about `Const`s themselves. They fit better in hir_ty_lowering with `lower_const_arg` (formerly `Const::from_const_arg`) and the rest. To accomplish this, `const_evaluatable_predicates_of` had to be changed to not use `from_anon_const` anymore. Instead of visiting the HIR and lowering anon consts on the fly, it now visits the `rustc_middle::ty` data structures instead and directly looks for `UnevaluatedConst`s. This approach was proposed in: https://github.com/rust-lang/rust/pull/131081#discussion_r1821189257 r? `@BoxyUwU`
2024-12-02Move `Const::{from_anon_const,try_from_lit}` to hir_ty_loweringNoah Lev-13/+8
These operations are much more about lowering the HIR than about `Const`s themselves. They fit better in hir_ty_lowering with `lower_const_arg` (formerly `Const::from_const_arg`) and the rest. To accomplish this, `const_evaluatable_predicates_of` had to be changed to not use `from_anon_const` anymore. Instead of visiting the HIR and lowering anon consts on the fly, it now visits the `rustc_middle::ty` data structures instead and directly looks for `UnevaluatedConst`s. This approach was proposed in: https://github.com/rust-lang/rust/pull/131081#discussion_r1821189257
2024-12-02remove `Ty::is_copy_modulo_regions`lcnr-2/+2
2024-11-30Move refinement check out of compare_impl_itemMichael Goulet-9/+20
2024-11-30Make compare_impl_item into a queryMichael Goulet-47/+45
2024-11-28support revealing defined opaque post borrowcklcnr-3/+11
2024-11-28uplift fold_regions to rustc_type_irlcnr-2/+2
2024-11-28Rollup merge of #133428 - compiler-errors:rpitit-unsound, r=lcnrGuillaume Gomez-27/+21
Actually use placeholder regions for trait method late bound regions in `collect_return_position_impl_trait_in_trait_tys` So in https://github.com/rust-lang/rust/pull/113182, I introduced a "diagnostics improvement" in the form of 473c88dfb69f95b2e8c5f71ba7f6b7b448d22dc2, which changes which signature we end up instantiating with placeholder regions and which signature we end up instantiating with fresh region vars so that we have placeholders corresponding to the names of the late-bound regions coming from the *impl*. However, this is not sound, since now we're essentially no longer proving that *all* instantiations of the trait method are compatible with an instantiation of the impl method, but vice versa (which is weaker). Let's look at the example `tests/ui/impl-trait/in-trait/do-not-imply-from-trait-impl.rs`: ```rust trait MkStatic { fn mk_static(self) -> &'static str; } impl MkStatic for &'static str { fn mk_static(self) -> &'static str { self } } trait Foo { fn foo<'a: 'static, 'late>(&'late self) -> impl MkStatic; } impl Foo for str { fn foo<'a: 'static>(&'a self) -> impl MkStatic + 'static { self } } fn call_foo<T: Foo + ?Sized>(t: &T) -> &'static str { t.foo().mk_static() } fn main() { let s = call_foo(String::from("hello, world").as_str()); println!("> {s}"); } ``` To collect RPITITs, we were previously instantiating the trait signature with infer vars (`fn(&'?0 str) -> ?1t` where `?1t` is the variable we use to infer the RPITIT) and the impl signature with placeholders (there are no late-bound regions in that signature, so we just have `fn(&'a str) -> Opaque`). Equating the signatures works, since all we do is unify `?1t` with `Opaque` and `'?0` with `'a`. However, conceptually it *shouldn't* hold, since this definition is not valid for *all* instantiations of the trait method but just the one where `'0` (i.e. `'late`) is equal to `'a` :( ## So what This PR effectively reverts 473c88dfb69f95b2e8c5f71ba7f6b7b448d22dc2 to fix the unsoundness. Fixes #133427 Also fixes #133425, which is actually coincidentally another instance of this bug (but not one that is weaponized into UB, just one that causes an ICE in refinement checking).
2024-11-27Further simplificationsMichael Goulet-21/+15
2024-11-26Auto merge of #132894 - frank-king:feature/where-refactor, r=cjgillotbors-6/+6
Refactor `where` predicates, and reserve for attributes support Refactor `WherePredicate` to `WherePredicateKind`, and reserve for attributes support in `where` predicates. This is a part of #115590 and is split from #132388. r? petrochenkov
2024-11-25Refactor `where` predicates, and reserve for attributes supportFrank King-6/+6
2024-11-25Rollup merge of #131664 - taiki-e:s390x-asm-vreg-inout, r=AmanieuMatthias Krüger-11/+27
Support input/output in vector registers of s390x inline assembly (under asm_experimental_reg feature) This extends currently clobber-only vector registers (`vreg`) support to allow passing `#[repr(simd)]` types, floats (f32/f64/f128), and integers (i32/i64/i128) as input/output. This is unstable and gated under new `#![feature(asm_experimental_reg)]` (tracking issue: https://github.com/rust-lang/rust/issues/133416). If the feature is not enabled, only clober is supported as before. | Architecture | Register class | Target feature | Allowed types | | ------------ | -------------- | -------------- | -------------- | | s390x | `vreg` | `vector` | `i32`, `f32`, `i64`, `f64`, `i128`, `f128`, `i8x16`, `i16x8`, `i32x4`, `i64x2`, `f32x4`, `f64x2` | This matches the list of types that are supported by the vector registers in LLVM: https://github.com/llvm/llvm-project/blob/llvmorg-19.1.0/llvm/lib/Target/SystemZ/SystemZRegisterInfo.td#L301-L313 In addition to `core::simd` types and floats listed above, custom `#[repr(simd)]` types of the same size and type are also allowed. All allowed types other than i32/f32/i64/f64/i128, and relevant target features are currently unstable. Currently there is no SIMD type for s390x in `core::arch`, but this is tracked in https://github.com/rust-lang/rust/issues/130869. cc https://github.com/rust-lang/rust/issues/130869 about vector facility support in s390x cc https://github.com/rust-lang/rust/issues/125398 & https://github.com/rust-lang/rust/issues/116909 about f128 support in asm `@rustbot` label +O-SystemZ +A-inline-assembly
2024-11-24Actually use placeholder regions for trait method late bound regions in ↵Michael Goulet-6/+6
collect_return_position_impl_trait_in_trait_tys
2024-11-24Make s390x non-clobber-only vector register support unstableTaiki Endo-11/+27
2024-11-23Add simd_relaxed_fma intrinsicCaleb Zulawski-1/+3
2024-11-23no more Reveal :(lcnr-9/+9
2024-11-21Implement the unsafe-fields RFC.Luca Versari-32/+72
Co-Authored-By: Jacob Pratt <jacob@jhpratt.dev>
2024-11-21Rollup merge of #133218 - compiler-errors:const-opaque, r=fee1-deadMatthias Krüger-1/+3
Implement `~const` item bounds in RPIT an RPIT in a `const fn` is allowed to be conditionally const itself :) r? fee1-dead or reroll
2024-11-20reduce false positives of tail-expr-drop-order from consumed valuesDing Xiang Fei-2/+18
take 2 open up coroutines tweak the wordings the lint works up until 2021 We were missing one case, for ADTs, which was causing `Result` to yield incorrect results. only include field spans with significant types deduplicate and eliminate field spans switch to emit spans to impl Drops Co-authored-by: Niko Matsakis <nikomat@amazon.com> collect drops instead of taking liveness diff apply some suggestions and add explantory notes small fix on the cache let the query recurse through coroutine new suggestion format with extracted variable name fine-tune the drop span and messages bugfix on runtime borrows tweak message wording filter out ecosystem types earlier apply suggestions clippy check lint level at session level further restrict applicability of the lint translate bid into nop for stable mir detect cycle in type structure
2024-11-19additional `TypingEnv` cleanupslcnr-3/+3
2024-11-19Implement ~const opaquesMichael Goulet-0/+2
2024-11-19Rename implied_const_bounds to explicit_implied_const_boundsMichael Goulet-1/+1
2024-11-19move `fn is_item_raw` to `TypingEnv`lcnr-11/+16
2024-11-18reviewlcnr-1/+1
2024-11-18use `TypingEnv` when no `infcx` is availablelcnr-12/+15
the behavior of the type system not only depends on the current assumptions, but also the currentnphase of the compiler. This is mostly necessary as we need to decide whether and how to reveal opaque types. We track this via the `TypingMode`.
2024-11-17Rollup merge of #132795 - compiler-errors:refine-rpitit, r=lcnrJacob Pratt-1/+101
Check `use<..>` in RPITIT for refinement `#![feature(precise_capturing_in_traits)]` allows users to write `+ use<>` bounds on RPITITs to control what lifetimes are captured by the RPITIT. Since RPITITs currently also warn for refinement in implementations, this PR extends that refinement check for cases where we *undercapture* in an implementation, since that may be indirectly "promising" a more relaxed outlives bound than the impl author intended. For an opaque to be refining, we need to capture *fewer* parameters than those mentioned in the captured params of the trait. For example: ``` trait TypeParam<T> { fn test() -> impl Sized; } // Indirectly capturing a lifetime param through a type param substitution. impl<'a> TypeParam<&'a ()> for i32 { fn test() -> impl Sized + use<> {} //~^ WARN impl trait in impl method captures fewer lifetimes than in trait } ``` Since the opaque in the method (implicitly) captures `use<Self, T>`, and `Self = i32, T = &'a ()` in the impl, we must mention `'a` in our `use<..>` on the impl. Tracking: * https://github.com/rust-lang/rust/issues/130044