Commit Graph

2387 Commits

Author SHA1 Message Date
Jubilee Young
586e141be7 compiler: Directly use rustc_abi in lints 2024-11-03 13:38:47 -08:00
Matthias Krüger
fa69b671a9
Rollup merge of #132453 - Urgau:non_local_defs-impl-mod-transparent, r=jieyouxu
Also treat `impl` definition parent as transparent regarding modules

This PR changes the `non_local_definitions` lint logic to also consider `impl` definition parent as transparent regarding modules.

See tests and explanation in the changes.

``````@rustbot`````` label +L-non_local_definitions
Fixes *(after beta-backport)* #132427
cc ``````@leighmcculloch``````
r? ``````@jieyouxu``````
2024-11-02 08:33:13 +01:00
Guillaume Gomez
2896483320
Rollup merge of #132439 - tgross35:f16-f128-nan-lint, r=jieyouxu
Add `f16` and `f128` to `invalid_nan_comparison`

Currently `f32_nan` and `f64_nan` are used to provide the `invalid_nan_comparison` lint. Since we have `f16_nan` and `f128_nan`, hook these up so the new float types get the same lints.
2024-11-02 03:08:52 +08:00
Urgau
37db365948 Also treat impl definition parent as transparent regarding modules 2024-11-01 16:07:02 +01:00
Trevor Gross
3afbe4f9c7 Add f16 and f128 to invalid_nan_comparison
Currently `f32_nan` and `f64_nan` are used to provide the
`invalid_nan_comparison` lint. Since we have `f16_nan` and `f128_nan`,
hook these up so the new float types get the same lints.
2024-10-31 21:26:36 -05:00
Jubilee
6b0c8cfedc
Rollup merge of #132357 - m-ou-se:explicit-abi, r=compiler-errors
Improve missing_abi lint

This is for the migration lint for https://github.com/rust-lang/rfcs/pull/3722

It is not yet marked as an edition migration lint, because `Edition2027` doesn't exist yet.

The lint now includes a machine applicable suggestion:

```
warning: extern declarations without an explicit ABI are deprecated
 --> src/main.rs:3:1
  |
3 | extern fn a() {}
  | ^^^^^^ help: explicitly specify the C ABI: `extern "C"`
  |
```
2024-10-31 17:50:41 -07:00
bors
9ccfedf186 Auto merge of #132301 - compiler-errors:adjust, r=lcnr
Remove region from adjustments

It's not necessary to store this region, because it's only used in THIR and MemCat/ExprUse, both of which already basically only deal with erased regions anyways.
2024-10-31 10:17:49 +00:00
Mara Bos
cb26fa07bb Improve the missing_abi lint. 2024-10-31 10:55:45 +01:00
Jubilee
847b6fe6b0
Rollup merge of #132246 - workingjubilee:campaign-on-irform, r=compiler-errors
Rename `rustc_abi::Abi` to `BackendRepr`

Remove the confabulation of `rustc_abi::Abi` with what "ABI" actually means by renaming it to `BackendRepr`, and rename `Abi::Aggregate` to `BackendRepr::Memory`. The type never actually represented how things are passed, as that has to have `PassMode` considered, at minimum, but rather it just is how we represented some things to the backend. This conflation arose because LLVM, the primary backend at the time, would lower certain IR forms using certain ABIs. Even that only somewhat was true, as it broke down when one ventured significantly afield of what is described by the System V AMD64 ABI either by using different architectures, ABI-modifying IR annotations, the same architecture **with different ISA extensions enabled**, or other... unexpected delights.

Unfortunately both names are still somewhat of a misnomer right now, as people have written code for years based on this misunderstanding. Still, their original names are even moreso, and for better or worse, this backend code hasn't received as much maintenance as the rest of the compiler, lately. Actually arriving at a correct end-state will simply require us to disentangle a lot of code in order to fix, much of it pointlessly repeated in several places. Thus this is not an "actual fix", just a way to deflect further misunderstandings.
2024-10-30 14:01:37 -07:00
Camille GILLOT
b6e1214ac0 Remap impl-trait lifetimes on HIR instead of AST lowering. 2024-10-30 16:18:50 +00:00
Matthias Krüger
305508f969
Rollup merge of #131856 - lcnr:typing-mode, r=compiler-errors
TypingMode: merge intercrate, reveal, and defining_opaque_types

This adds `TypingMode` and uses it in most places. We do not yet remove `Reveal` from `param_env`s. This and other future work as tracked in #132279 and via `FIXME`s.

Fetching the `TypingMode` of the `InferCtxt` asserts that the `TypingMode` agrees with `ParamEnv::reveal` to make sure we don't introduce any subtle bugs here. This will be unnecessary once `ParamEnv::reveal` no longer exists.

As the `TypingMode` is now a part of the query input, I've merged the coherence and non-coherence caches for the new solver. I've also enabled the local `infcx` cache during coherence by clearing the cache when forking it with a different `TypingMode`.

#### `TypingMode::from_param_env`

I am using this even in cases where I know that the `param_env` will always be `Reveal::UserFacing`. This is to make it easier to correctly refactor this code in the future, any time we use `Reveal::UserFacing` in a body while not defining its opaque types is incorrect and should use a `TypingMode` which only reveals opaques defined by that body instead, cc #124598

r? ``@compiler-errors``
2024-10-30 06:40:34 +01:00
Jubilee Young
7086dd83cc compiler: rustc_abi::Abi => BackendRepr
The initial naming of "Abi" was an awful mistake, conveying wrong ideas
about how psABIs worked and even more about what the enum meant.
It was only meant to represent the way the value would be described to
a codegen backend as it was lowered to that intermediate representation.
It was never meant to mean anything about the actual psABI handling!
The conflation is because LLVM typically will associate a certain form
with a certain ABI, but even that does not hold when the special cases
that actually exist arise, plus the IR annotations that modify the ABI.

Reframe `rustc_abi::Abi` as the `BackendRepr` of the type, and rename
`BackendRepr::Aggregate` as `BackendRepr::Memory`. Unfortunately, due to
the persistent misunderstandings, this too is now incorrect:
- Scattered ABI-relevant code is entangled with BackendRepr
- We do not always pre-compute a correct BackendRepr that reflects how
  we "actually" want this value to be handled, so we leave the backend
  interface to also inject various special-cases here
- In some cases `BackendRepr::Memory` is a "real" aggregate, but in
  others it is in fact using memory, and in some cases it is a scalar!

Our rustc-to-backend lowering code handles this sort of thing right now.
That will eventually be addressed by lifting duplicated lowering code
to either rustc_codegen_ssa or rustc_target as appropriate.
2024-10-29 14:56:00 -07:00
Matthias Krüger
5d6c49938e
Rollup merge of #131984 - dingxiangfei2009:stabilize-if-let-rescope, r=traviscross,lcnr
Stabilize if_let_rescope

Close #131154
Tracked by #124085
2024-10-29 18:38:57 +01:00
lcnr
f51ec110a7 TypingMode 🤔 2024-10-29 17:01:24 +01:00
bors
2df8dbb1b3 Auto merge of #132277 - workingjubilee:rollup-5e6q6e4, r=workingjubilee
Rollup of 9 pull requests

Successful merges:

 - #130259 (Lower AST node id only once)
 - #131441 (Add a new trait `proc_macro::ToTokens`)
 - #132247 (stable_mir: Directly use types from rustc_abi)
 - #132249 (compiler: Add rustc_abi dependence to the compiler)
 - #132255 (Add `LayoutData::is_uninhabited` and use it)
 - #132258 ([rustdoc] Unify variant struct fields margins with struct fields)
 - #132260 (cg_llvm: Use a type-safe helper to cast `&str` and `&[u8]` to `*const c_char`)
 - #132261 (refactor: cleaner check to return None)
 - #132271 (Updating Fuchsia platform-support documentation)

r? `@ghost`
`@rustbot` modify labels: rollup
2024-10-29 07:32:45 +00:00
Michael Goulet
599ffab6cd Remove region from adjustments 2024-10-29 01:34:06 +00:00
bors
a9d17627d2 Auto merge of #128985 - GrigorenkoPV:instantly-dangling-pointer, r=Urgau
Lint against getting pointers from immediately dropped temporaries

Fixes #123613

## Changes:
1. New lint: `dangling_pointers_from_temporaries`. Is a generalization of `temporary_cstring_as_ptr` for more types and more ways to get a temporary.
2. `temporary_cstring_as_ptr` is removed and marked as renamed to `dangling_pointers_from_temporaries`.
3. `clippy::temporary_cstring_as_ptr` is marked as renamed to `dangling_pointers_from_temporaries`.
4. Fixed a false positive[^fp] for when the pointer is not actually dangling because of lifetime extension for function/method call arguments.
5. `core::cell::Cell` is now `rustc_diagnostic_item = "Cell"`

## Questions:
- [ ]  Instead of manually checking for a list of known methods and diagnostic items, maybe add some sort of annotation to those methods in library and check for the presence of that annotation? https://github.com/rust-lang/rust/pull/128985#issuecomment-2318714312

## Known limitations:

### False negatives[^fn]:

See the comments in `compiler/rustc_lint/src/dangling.rs`

1. Method calls that are not checked for:
   - `temporary_unsafe_cell.get()`
   - `temporary_sync_unsafe_cell.get()`
2. Ways to get a temporary that are not recognized:
   - `owning_temporary.field`
   - `owning_temporary[index]`
3. No checks for ref-to-ptr conversions:
   - `&raw [mut] temporary`
   - `&temporary as *(const|mut) _`
    - `ptr::from_ref(&temporary)` and friends

[^fn]: lint **should** be emitted, but **is not**

[^fp]: lint **should not** be emitted, but **is**
2024-10-29 00:24:07 +00:00
Jubilee
d6be363400
Rollup merge of #132249 - workingjubilee:add-rustc-abi, r=compiler-errors
compiler: Add rustc_abi dependence to the compiler

Depend on rustc_abi in compiler crates that use it indirectly but have not yet taken on that dependency, and are not *significantly* entangled in my other PRs. This leaves an "excise rustc_target" step after the dust settles.
2024-10-28 10:18:50 -07:00
Pavel Grigorenko
c69894eaec New lint: dangling_pointers_from_temporaries 2024-10-28 14:16:05 +03:00
Jubilee Young
3f73fe7db4 compiler: Depend on rustc_abi in rustc_lint 2024-10-27 23:59:31 -07:00
Eric Huss
924ded6b72 Clean up some comments on lint implementation 2024-10-27 04:30:51 -07:00
bors
9b18a122f7 Auto merge of #132190 - matthiaskrgr:rollup-rsocfiz, r=matthiaskrgr
Rollup of 3 pull requests

Successful merges:

 - #131875 (Add WASM | WASI | Emscripten groups to triagebot.toml)
 - #132019 (Document `PartialEq` impl for `OnceLock`)
 - #132182 (Downgrade `untranslatable_diagnostic` and `diagnostic_outside_of_impl` to `allow`)

r? `@ghost`
`@rustbot` modify labels: rollup
2024-10-26 19:00:57 +00:00
bors
4d88de2acd Auto merge of #125116 - blyxyas:ignore-allowed-lints-final, r=cjgillot
(Big performance change) Do not run lints that cannot emit

Before this change, adding a lint was a difficult matter because it always had some overhead involved. This was because all lints would run, no matter their default level, or if the user had `#![allow]`ed them. This PR changes that. This change would improve both the Rust lint infrastructure and Clippy, but Clippy will see the most benefit, as it has about 900 registered lints (and growing!)

So yeah, with this little patch we filter all lints pre-linting, and remove any lint that is either:
- Manually `#![allow]`ed in the whole crate,
- Allowed in the command line, or
- Not manually enabled with `#[warn]` or similar, and its default level is `Allow`

As some lints **need** to run, this PR also adds **loadbearing lints**. On a lint declaration, you can use the ``@eval_always` = true` marker to label it as loadbearing. A loadbearing lint will never be filtered (it will always run)

Fixes #106983
2024-10-26 16:37:43 +00:00
Jieyou Xu
5f4739157a Downgrade untranslatable_diagnostic and diagnostic_outside_of_impl to allow
See <https://github.com/rust-lang/rust/issues/132181> for more context.
2024-10-26 14:11:59 +00:00
Matthias Krüger
8207d89b5e
Rollup merge of #132114 - jieyouxu:features-bundle, r=fee1-dead
Use `Enabled{Lang,Lib}Feature`  instead of n-tuples

Instead of passing around e.g. `(gate_name, attr_span, stable_since)` 3-tuples for enabled lang features or `(gate_name, attr_span)` 2-tuples for enabled lib features, use `Enabled{Lang,Lib}Feature` structs with named fields.

Also did some minor code-golfing of involved iterator chains to hopefully make them easier to follow.

Follow-up to https://github.com/rust-lang/rust/pull/132098#issuecomment-2434523431 cc `@RalfJung.`
2024-10-26 06:29:47 +02:00
Matthias Krüger
280790b9a1
Rollup merge of #132106 - maxcabrajac:ident_ref, r=petrochenkov
Pass Ident by reference in ast Visitor

`MutVisitor`'s version of `visit_ident` passes around `&Ident`, but `Visitor` copies `Ident`. This PR changes that

r? `@petrochenkov`

related to #128974
2024-10-25 20:33:11 +02:00
许杰友 Jieyou Xu (Joe)
3528149f73 Introduce Enabled{Lang,Lib}Feature
Instead of passing around random n-tuples of e.g. `(gate_name, attr_sp,
since)`.
2024-10-25 10:30:37 +08:00
bors
a93c1718c8 Auto merge of #132116 - matthiaskrgr:rollup-3a0ia4r, r=matthiaskrgr
Rollup of 4 pull requests

Successful merges:

 - #131790 (Document textual format of SocketAddrV{4,6})
 - #131983 (Stabilize shorter-tail-lifetimes)
 - #132097 (sanitizer.md: LeakSanitizer is not supported on aarch64 macOS)
 - #132107 (Remove visit_expr_post from ast Visitor)

r? `@ghost`
`@rustbot` modify labels: rollup
2024-10-24 20:28:20 +00:00
Matthias Krüger
a8cea36240
Rollup merge of #132107 - maxcabrajac:remove_expr_post, r=petrochenkov
Remove visit_expr_post from ast Visitor

`visit_expr_post` is only present in the immutable version of ast Visitors and its default implementation is a noop.
Given that its only implementer is on `rustc_lint/src/early.rs` and its name follows the same naming convention as some other lints (`_post`), it seems that `visit_expr_post` being in `Visitor` was a little mistake.

r? `@petrochenkov`

related to #128974
2024-10-24 19:39:15 +02:00
Matthias Krüger
91c025d741
Rollup merge of #131983 - dingxiangfei2009:stabilize-shorter-tail-lifetimes, r=lcnr
Stabilize shorter-tail-lifetimes

Close #131445
Tracked by #123739

We found a test case `tests/ui/drop/drop_order.rs` that had not been covered by the change. The test fixture is fixed now with the correct expectation.
2024-10-24 19:39:14 +02:00
bors
1d4a7670d4 Auto merge of #131985 - compiler-errors:const-pred, r=fee1-dead
Represent trait constness as a distinct predicate

cc `@rust-lang/project-const-traits`
r? `@ghost` for now

Also mirrored everything that is written below on this hackmd here: https://hackmd.io/`@compiler-errors/r12zoixg1l`

# Tl;dr:

* This PR removes the bulk of the old effect desugaring.
* This PR reimplements most of the effect desugaring as a new predicate and set of a couple queries. I believe it majorly simplifies the implementation and allows us to move forward more easily on its implementation.

I'm putting this up both as a request for comments and a vibe-check, but also as a legitimate implementation that I'd like to see land (though no rush of course on that last part).

## Background

### Early days

Once upon a time, we represented trait constness in the param-env and in `TraitPredicate`. This was very difficult to implement correctly; it had bugs and was also incomplete; I don't think this was anyone's fault though, it was just the limit of experimental knowledge we had at that point.

Dealing with `~const` within predicates themselves meant dealing with constness all throughout the trait solver. This was difficult to keep track of, and afaict was not handled well with all the corners of candidate assembly.

Specifically, we had to (in various places) remap constness according to the param-env constness:

574b64a97f/compiler/rustc_trait_selection/src/traits/select/mod.rs (L1498)

This was annoying and manual and also error prone.

### Beginning of the effects desugaring

Later on, #113210 reimplemented a new desugaring for const traits via a `<const HOST: bool>` predicate. This essentially "reified" the const checking and separated it from any of the remapping or separate tracking in param-envs. For example, if I was in a const-if-const environment, but I wanted to call a trait that was non-const, this reification would turn the constness mismatch into a simple *type* mismatch of the effect parameter.

While this was a monumental step towards straightening out const trait checking in the trait system, it had its own issues, since that meant that the constness of a trait (or any item within it, like an associated type) was *early-bound*. This essentially meant that `<T as Trait>::Assoc` was *distinct* from `<T as ~const Trait>::Assoc`, which was bad.

### Associated-type bound based effects desugaring

After this, #120639 implemented a new effects desugaring. This used an associated type to more clearly represent the fact that the constness is not an input parameter of a trait, but a property that could be computed of a impl. The write-up linked in that PR explains it better than I could.

However, I feel like it really reached the limits of what can comfortably be expressed in terms of associated type and trait calculus. Also, `<const HOST: bool>` remains a synthetic const parameter, which is observable in nested items like RPITs and closures, and comes with tons of its own hacks in the astconv and middle layer.

For example, there are pieces of unintuitive code that are needed to represent semantics like elaboration, and eventually will be needed to make error reporting intuitive, and hopefully in the future assist us in implementing built-in traits (eventually we'll want something like `~const Fn` trait bounds!).

elaboration hack: 8069f8d17a/compiler/rustc_type_ir/src/elaborate.rs (L133-L195)

trait bound remapping hack for diagnostics: 8069f8d17a/compiler/rustc_trait_selection/src/error_reporting/traits/fulfillment_errors.rs (L2370-L2413)

I want to be clear that I don't think this is a issue of implementation quality or anything like that; I think it's simply a very clear sign that we're using types and traits in a way that they're not fundamentally supposed to be used, especially given that constness deserves to be represented as a first-class concept.

### What now?

This PR implements a new desugaring for const traits. Specifically, it introduces a `HostEffect` predicate to represent the obligation an impl is const, rather than using associated type bounds and the compat trait that exists for effects today.

### `HostEffect` predicate

A `HostEffect` clause has two parts -- the `TraitRef` we're trying to prove, and a `HostPolarity::{Maybe, Const}`.

`HostPolarity::Const` corresponds to `T: const Trait` bounds, which must *always* be proven as const, and which can be written in any context. These are lowered directly into the predicates of an item, since they're not "context-specific".

On the other hand, `HostPolarity::Maybe` corresponds to `T: ~const Trait` bounds which must only exist in a conditionally-const context like a method in a `#[const_trait]`, or a `const fn` free function. We do not lower these immediately into the predicates of an item; instead, we collect them into a new query called the **`const_conditions`**. These are the set of trait refs that we need to prove have const implementations for an item to be const.

Notably, they're represented as bare (poly) trait refs because they are meant to be paired back together with a `HostPolarity` when they're being registered in typeck (see next section).

For example, given:

```rust
const fn foo<T: ~const A + const B>() {}
```

`foo`'s const conditions would contain `T: A`, but not `T: B`. On the flip side, foo's predicates (`predicates_of`) query would contain `HostEffect(T: B, HostPolarity::Const)` but not `HostEffect(T: A, HostPolarity::Maybe)` since we don't need to prove that predicate in a non-const environment (and it's not even the right predicate to prove in an unconditionally const environment).

### Type checking const bodies

When type checking bodies in HIR, when we encounter a call expression, we additionally register the callee item's const conditions with the `HostPolarity` from the body we're typechecking (`Const` for unconditionally const things like `const`/`static` items, and `Maybe` for conditionally const things like const fns; and we don't register `HostPolarity` predicates for non-const bodies).

When type-checking a conditionally const body, we augment its param-env with `HostEffect(..., Maybe)` predicates.

### Checking that const impls are WF

We extend the logic in `compare_method_predicate_entailment` to also check the const-conditions of the impl method, to make sure that we error for:

```rust
#[const_trait] Bar {}
#[const_trait] trait Foo {
    fn method<T: Bar>();
}

impl Foo for () {
    fn method<T: ~const Bar>() {} // stronger assumption!
}
```

We also extend the WF check for impls to register the const conditions of the trait that is being implemented. This is to make sure we error for:

```rust
#[const_trait] trait Bar {}
#[const_trait] trait Foo<T> where T: ~const Bar {}

impl<T> const Foo<T> for () {}
//~^ `T: ~const Bar` is missing!
```

### Proving a `HostEffect` predicate

We have several ways of proving a `HostEffect` predicate:

1. Matching a `HostEffect` predicate from the param-env
2. From an impl - we do impl selection very similar to confirming a trait goal, except we filter for only const impls, and we additionally register the impl's const conditions (i.e. the impl's `~const` where clauses).

Later I expect that we will add more built-in implementations for things like `Fn`.

## What next?

After this PR, I'd like to split out the work more so it can proceed in parallel and probably amongst others that are not me.

* Register `HostEffect` goal for places in HIR typeck that correspond to call terminators, like autoderef.
* Make traits in libstd const again.
    * Probably need to impl host effect preds in old solver.
* Implement built-in `HostEffect` rules for traits like `Fn`.
* Rip out const checking from MIR altogether.

## So what?

This ends up being super convenient basically everywhere in the compiler. Due to the design of the new trait solver, we end up having an almost parallel structure to the existing trait and projection predicates for assembling `HostEffect` predicates; adding new candidates and especially new built-in implementations is now basically trivial, and it's quite straightforward to understand the confirmation logic for these predicates.

Same with diagnostics reporting; since we have predicates which represent the obligation to prove an impl is const, we can simplify and make these diagnostics richer without having to write a ton of logic to intercept and rewrite the existing `Compat` trait errors.

Finally, it gives us a much more straightforward path for supporting the const effect on the old trait solver. I'm personally quite passionate about getting const trait support into the hands of users without having to wait until the new solver lands[^1], so I think after this PR lands we can begin to gauge how difficult it would be to implement constness in the old trait solver too. This PR will not do this yet.

[^1]: Though this is not a prerequisite or by any means the only justification for this PR.
2024-10-24 17:33:42 +00:00
maxcabrajac
64a3451835 Pass Ident by reference in ast Visitor 2024-10-24 11:10:49 -03:00
maxcabrajac
0635916cbe Remove visit_expr_post 2024-10-24 10:59:40 -03:00
Michael Goulet
cde29b9ec9 Implement const effect predicate in new solver 2024-10-24 09:46:36 +00:00
Michael Goulet
a16d491054 Remove associated type based effects logic 2024-10-24 09:46:36 +00:00
Matthias Krüger
93bf791e8b
Rollup merge of #129248 - compiler-errors:raw-ref-deref, r=nnethercote
Taking a raw ref (`&raw (const|mut)`) of a deref of pointer (`*ptr`) is always safe

T-opsem decided in https://github.com/rust-lang/reference/pull/1387 that `*ptr` is only unsafe if the place is accessed. This means that taking a raw ref of a deref expr is always safe, since it doesn't constitute a read.

This also relaxes the `DEREF_NULLPTR` lint to stop warning in the case of raw ref of a deref'd nullptr, and updates its docs to reflect that change in the UB specification.

This does not change the behavior of `addr_of!((*ptr).field)`, since field projections still require the projection is in-bounds.

I'm on the fence whether this requires an FCP, since it's something that is guaranteed by the reference you could ostensibly call this a bugfix since we were counting truly safe operations as unsafe. Perhaps someone on opsem has a strong opinion? cc `@rust-lang/opsem`
2024-10-24 10:35:39 +02:00
Ding Xiang Fei
6d569f769c
stabilize if_let_rescope 2024-10-24 04:33:14 +08:00
Ding Xiang Fei
0689b2139f
stabilize shorter-tail-lifetimes 2024-10-24 01:56:08 +08:00
Ralf Jung
ad3991d303 nightly feature tracking: get rid of the per-feature bool fields 2024-10-23 09:14:41 +01:00
Michael Goulet
febb3f7c88 Represent TraitBoundModifiers as distinct parts in HIR 2024-10-22 19:48:44 +00:00
bors
bca5fdebe0 Auto merge of #131321 - RalfJung:feature-activation, r=nnethercote
terminology: #[feature] *enables* a feature (instead of "declaring" or "activating" it)

Mostly, we currently call a feature that has a corresponding `#[feature(name)]` attribute in the current crate a "declared" feature. I think that is confusing as it does not align with what "declaring" usually means. Furthermore, we *also* refer to `#[stable]`/`#[unstable]` as *declaring* a feature (e.g. in [these diagnostics](f25e5abea2/compiler/rustc_passes/messages.ftl (L297-L301))), which aligns better with what "declaring" usually means. To make things worse, the functions  `tcx.features().active(...)` and  `tcx.features().declared(...)` both exist and they are doing almost the same thing (testing whether a corresponding `#[feature(name)]`  exists) except that `active` would ICE if the feature is not an unstable lang feature. On top of this, the callback when a feature is activated/declared is called `set_enabled`, and many comments also talk about "enabling" a feature.

So really, our terminology is just a mess.

I would suggest we use "declaring a feature" for saying that something is/was guarded by a feature (e.g. `#[stable]`/`#[unstable]`), and "enabling a feature" for  `#[feature(name)]`. This PR implements that.
2024-10-22 11:02:35 +00:00
Ralf Jung
1381773e01 make some rustc_feature internals private, and ensure invariants with debug assertions 2024-10-22 07:37:55 +01:00
Ralf Jung
46ce5cbf33 terminology: #[feature] *enables* a feature (instead of "declaring" or "activating" it) 2024-10-22 07:37:54 +01:00
bors
1de57a5ce9 Auto merge of #129935 - RalfJung:unsupported_calling_conventions, r=compiler-errors
make unsupported_calling_conventions a hard error

This has been a future-compat lint (not shown in dependencies) since Rust 1.55, released 3 years ago. Hopefully that was enough time so this can be made a hard error now. Given that long timeframe, I think it's justified to skip the "show in dependencies" stage. There were [not many crates hitting this](https://github.com/rust-lang/rust/pull/86231#issuecomment-866300943) even when the lint was originally added.

This should get cratered, and I assume then it needs a t-compiler FCP. (t-compiler because this looks entirely like an implementation oversight -- for the vast majority of ABIs, we already have a hard error, but some were initially missed, and we are finally fixing that.)

Fixes https://github.com/rust-lang/rust/pull/87678
2024-10-22 03:24:40 +00:00
blyxyas
1dcfa27144 Move COGNITIVE_COMPLEXITY to use macro again 2024-10-21 19:27:34 +02:00
bors
3e33bda032 Auto merge of #130628 - workingjubilee:clean-up-result-ffi-guarantees, r=RalfJung
Finish stabilization of `result_ffi_guarantees`

The internal linting has been changed, so all that is left is making sure we stabilize what we want to stabilize.
2024-10-21 08:38:45 +00:00
bors
f2ba41113d Auto merge of #130950 - compiler-errors:yeet-eval, r=BoxyUwU
Continue to get rid of `ty::Const::{try_}eval*`

This PR mostly does:

* Removes all of the `try_eval_*` and `eval_*` helpers from `ty::Const`, and replace their usages with `try_to_*`.
* Remove `ty::Const::eval`.
* Rename `ty::Const::normalize` to `ty::Const::normalize_internal`. This function is still used in the normalization code itself.
* Fix some weirdness around the `TransmuteFrom` goal.

I'm happy to split it out further; for example, I could probably land the first part which removes the helpers, or the changes to codegen which are more obvious than the changes to tools.

r? BoxyUwU

Part of https://github.com/rust-lang/rust/issues/130704
2024-10-21 03:46:28 +00:00
Matthias Krüger
7b714d4735
Rollup merge of #121560 - Noratrieb:stop-lint-macro-nonsense, r=jieyouxu
Allow `#[deny]` inside `#[forbid]` as a no-op

Forbid cannot be overriden. When someome tries to do this anyways, it results in a hard error. That makes sense.

Except it doesn't, because macros. Macros may reasonably use `#[deny]` (or `#[warn]` for an allow-by-default lint) in their expansion to assert that their expanded code follows the lint. This is doesn't work when the output gets expanded into a `forbid()` context. This is pretty silly, since both the macros and the code agree on the lint!

By making it a warning instead, we remove the problem with the macro, which is now nothing as warnings are suppressed in macro expanded code, while still telling users that something is up.

fixes #121483
2024-10-20 16:54:08 +02:00
Ralf Jung
de3cbf3c56 make unsupported_calling_conventions a hard error 2024-10-20 15:22:21 +02:00
Jubilee Young
1f81242558 compiler: Remove outdated comment 2024-10-19 13:01:30 -07:00