Commit Graph

417 Commits

Author SHA1 Message Date
bors
f8fe517144 Auto merge of #116274 - RalfJung:soft_unstable, r=cjgillot
make soft_unstable show up in future breakage reports

If we want to break these in the future, let's warn users of affected crates.
2023-12-25 16:26:15 +00:00
Michael Goulet
32907c72eb Remove the lint outright 2023-12-16 01:28:06 +00:00
Michael Goulet
629d3511b7 Make IMPLIED_BOUNDS_ENTAILMENT into a hard error from a lint 2023-12-16 01:28:05 +00:00
Matthias Krüger
111c40ec22
Rollup merge of #117927 - ehuss:future-incompat-docs, r=wesleywiser
Clarify how to choose a FutureIncompatibilityReason variant.

There has been some confusion about how to choose these variants, or what the procedure is for handling future-incompatible errors. Hopefully this helps provide some more information on how these work.
2023-12-12 17:40:53 +01:00
bors
0e7f91b75e Auto merge of #118324 - RalfJung:ctfe-read-only-pointers, r=saethlin
compile-time evaluation: detect writes through immutable pointers

This has two motivations:
- it unblocks https://github.com/rust-lang/rust/pull/116745 (and therefore takes a big step towards `const_mut_refs` stabilization), because we can now detect if the memory that we find in `const` can be interned as "immutable"
- it would detect the UB that was uncovered in https://github.com/rust-lang/rust/pull/117905, which was caused by accidental stabilization of `copy` functions in `const` that can only be called with UB

When UB is detected, we emit a future-compat warn-by-default lint. This is not a breaking change, so completely in line with [the const-UB RFC](https://rust-lang.github.io/rfcs/3016-const-ub.html), meaning we don't need t-lang FCP here. I made the lint immediately show up for dependencies since it is nearly impossible to even trigger this lint without `const_mut_refs` -- the accidentally stabilized `copy` functions are the only way this can happen, so the crates that popped up in #117905 are the only causes of such UB (in the code that crater covers), and the three cases of UB that we know about have all been fixed in their respective crates already.

The way this is implemented is by making use of the fact that our interpreter is already generic over the notion of provenance. For CTFE we now use the new `CtfeProvenance` type which is conceptually an `AllocId` plus a boolean `immutable` flag (but packed for a more efficient representation). This means we can mark a pointer as immutable when it is created as a shared reference. The flag will be propagated to all pointers derived from this one. We can then check the immutable flag on each write to reject writes through immutable pointers.

I just hope perf works out.
2023-12-07 18:11:01 +00:00
Ralf Jung
4d93590d59 compile-time evaluation: emit a lint when a write through an immutable pointer occurs 2023-12-07 17:46:36 +01:00
Urgau
9a942390bf Update unexpected_cfgs lint definition with new syntax and diagnostics 2023-12-05 13:25:11 +01:00
bohan
d0941f92d7 vis note for no pub reexports glob import 2023-12-01 12:10:07 +08:00
Urgau
f5023e4c76 Remove --check-cfg checking of --cfg args 2023-11-18 12:21:58 +01:00
Eric Huss
7a812c1311 Clarify how to choose a FutureIncompatibilityReason variant.
There has been some confusion about how to choose these variants, or
what the procedure is for handling future-incompatible errors. Hopefully
this helps provide some more information on how these work.
2023-11-14 19:36:24 -08:00
bors
fdaaaf9f92 Auto merge of #116930 - RalfJung:raw-ptr-match, r=davidtwco
patterns: reject raw pointers that are not just integers

Matching against `0 as *const i32` is fine, matching against `&42 as *const i32` is not.

This extends the existing check against function pointers and wide pointers: we now uniformly reject all these pointer types during valtree construction, and then later lint because of that. See [here](https://github.com/rust-lang/rust/pull/116930#issuecomment-1784654073) for some more explanation and context.

Also fixes https://github.com/rust-lang/rust/issues/116929.

Cc `@oli-obk` `@lcnr`
2023-11-08 20:42:32 +00:00
Nicholas Nethercote
5c462a32bd Remove support for compiler plugins.
They've been deprecated for four years.

This commit includes the following changes.
- It eliminates the `rustc_plugin_impl` crate.
- It changes the language used for lints in
  `compiler/rustc_driver_impl/src/lib.rs` and
  `compiler/rustc_lint/src/context.rs`. External lints are now called
  "loaded" lints, rather than "plugins" to avoid confusion with the old
  plugins. This only has a tiny effect on the output of `-W help`.
- E0457 and E0498 are no longer used.
- E0463 is narrowed, now only relating to unfound crates, not plugins.
- The `plugin` feature was moved from "active" to "removed".
- It removes the entire plugins chapter from the unstable book.
- It removes quite a few tests, mostly all of those in
  `tests/ui-fulldeps/plugin/`.

Closes #29597.
2023-11-04 08:50:46 +11:00
Nicholas Nethercote
8ff624a9f2 Clean up rustc_*/Cargo.toml.
- Sort dependencies and features sections.
- Add `tidy` markers to the sorted sections so they stay sorted.
- Remove empty `[lib`] sections.
- Remove "See more keys..." comments.

Excluded files:
- rustc_codegen_{cranelift,gcc}, because they're external.
- rustc_lexer, because it has external use.
- stable_mir, because it has external use.
2023-10-30 08:46:02 +11:00
Ralf Jung
70a8e157ab make pointer_structural_match warn-by-default 2023-10-28 17:02:18 +02:00
Ralf Jung
bec88ad4aa patterns: reject raw pointers that are not just integers 2023-10-28 17:02:18 +02:00
bors
786c94a4eb Auto merge of #116734 - Nadrieril:lint-per-column, r=cjgillot
Lint `non_exhaustive_omitted_patterns` by columns

This is a rework of the `non_exhaustive_omitted_patterns` lint to make it more consistent. The intent of the lint is to help consumers of `non_exhaustive` enums ensure they stay up-to-date with all upstream variants. This rewrite fixes two cases we didn't handle well before:

First, because of details of exhaustiveness checking, the following wouldn't lint `Enum::C` as missing:
```rust
match Some(x) {
    Some(Enum::A) => {}
    Some(Enum::B) => {}
    _ => {}
}
```

Second, because of the fundamental workings of exhaustiveness checking, the following would treat the `true` and `false` cases separately and thus lint about missing variants:
```rust
match (true, x) {
    (true, Enum::A) => {}
    (true, Enum::B) => {}
    (false, Enum::C) => {}
    _ => {}
}
```
Moreover, it would correctly not lint in the case where the pair is flipped, because of asymmetry in how exhaustiveness checking proceeds.

A drawback is that it no longer makes sense to set the lint level per-arm. This will silently break the lint for current users of it (but it's behind a feature gate so that's ok).

The new approach is now independent of the exhaustiveness algorithm; it's a separate pass that looks at patterns column by column. This is another of the motivations for this: I'm glad to move it out of the algorithm, it was akward there.

This PR is almost identical to https://github.com/rust-lang/rust/pull/111651. cc `@eholk` who reviewed it at the time. Compared to then, I'm more confident this is the right approach.
2023-10-21 11:04:19 +00:00
Michael Goulet
973d589582 Bump COINDUCTIVE_OVERLAP_IN_COHERENCE 2023-10-18 18:54:11 +00:00
Nadrieril
ca869e3334 Lint non_exhaustive_omitted_patterns per column 2023-10-14 19:39:18 +02:00
bors
481d45abec Auto merge of #115822 - compiler-errors:stabilize-rpitit, r=jackh726
Stabilize `async fn` and return-position `impl Trait` in trait

# Stabilization report

This report proposes the stabilization of `#![feature(return_position_impl_trait_in_trait)]` ([RPITIT][RFC 3425]) and `#![feature(async_fn_in_trait)]` ([AFIT][RFC 3185]). These are both long awaited features that increase the expressiveness of the Rust language and trait system.

Closes #91611

[RFC 3185]: https://rust-lang.github.io/rfcs/3185-static-async-fn-in-trait.html
[RFC 3425]: https://rust-lang.github.io/rfcs/3425-return-position-impl-trait-in-traits.html

## Updates from thread

The thread has covered two major concerns:

* [Given that we don't have RTN, what should we stabilize?](https://github.com/rust-lang/rust/pull/115822#issuecomment-1731149475) -- proposed resolution is [adding a lint](https://github.com/rust-lang/rust/pull/115822#issuecomment-1728354622) and [careful messaging](https://github.com/rust-lang/rust/pull/115822#issuecomment-1731136169)
* [Interaction between outlives bounds and capture semantics](https://github.com/rust-lang/rust/pull/115822#issuecomment-1731153952) -- This is fixable in a forwards-compatible way via #116040, and also eventually via ATPIT.

## Stabilization Summary

This stabilization allows the following examples to work.

### Example of return-position `impl Trait` in trait definition

```rust
trait Bar {
    fn bar(self) -> impl Send;
}
```

This declares a trait method that returns *some* type that implements `Send`.  It's similar to writing the following using an associated type, except that the associated type is anonymous.

```rust
trait Bar {
    type _0: Send;
    fn bar(self) -> Self::_0;
}
```

### Example of return-position `impl Trait` in trait implementation

```rust
impl Bar for () {
    fn bar(self) -> impl Send {}
}
```

This defines a method implementation that returns an opaque type, just like [RPIT][RFC 1522] does, except that all in-scope lifetimes are captured in the opaque type (as is already true for `async fn` and as is expected to be true for RPIT in Rust Edition 2024), as described below.

[RFC 1522]: https://rust-lang.github.io/rfcs/1522-conservative-impl-trait.html

### Example of `async fn` in trait

```rust
trait Bar {
    async fn bar(self);
}

impl Bar for () {
    async fn bar(self) {}
}
```

This declares a trait method that returns *some* [`Future`](https://doc.rust-lang.org/core/future/trait.Future.html) and a corresponding method implementation.  This is equivalent to writing the following using RPITIT.

```rust
use core::future::Future;

trait Bar {
    fn bar(self) -> impl Future<Output = ()>;
}

impl Bar for () {
    fn bar(self) -> impl Future<Output = ()> { async {} }
}
```

The desirability of this desugaring being available is part of why RPITIT and AFIT are being proposed for stabilization at the same time.

## Motivation

Long ago, Rust added [RPIT][RFC 1522] and [`async`/`await`][RFC 2394].  These are major features that are widely used in the ecosystem.  However, until now, these feature could not be used in *traits* and trait implementations.  This left traits as a kind of second-class citizen of the language.  This stabilization fixes that.

[RFC 2394]: https://rust-lang.github.io/rfcs/2394-async_await.html

### `async fn` in trait

Async/await allows users to write asynchronous code much easier than they could before. However, it doesn't play nice with other core language features that make Rust the great language it is, like traits. Support for `async fn` in traits has been long anticipated and was not added before due to limitations in the compiler that have now been lifted.

`async fn` in traits will unblock a lot of work in the ecosystem and the standard library. It is not currently possible to write a trait that is implemented using `async fn`. The workarounds that exist are undesirable because they require allocation and dynamic dispatch, and any trait that uses them will become obsolete once native `async fn` in trait is stabilized.

We also have ample evidence that there is demand for this feature from the [`async-trait` crate][async-trait], which emulates the feature using dynamic dispatch. The async-trait crate is currently the #5 async crate on crates.io ranked by recent downloads, receiving over 78M all-time downloads. According to a [recent analysis][async-trait-analysis], 4% of all crates use the `#[async_trait]` macro it provides, representing 7% of all function and method signatures in trait definitions on crates.io. We think this is a *lower bound* on demand for the feature, because users are unlikely to use `#[async_trait]` on public traits on crates.io for the reasons already given.

[async-trait]: https://crates.io/crates/async-trait
[async-trait-analysis]: https://rust-lang.zulipchat.com/#narrow/stream/315482-t-compiler.2Fetc.2Fopaque-types/topic/RPIT.20capture.20rules.20.28capturing.20everything.29/near/389496292

### Return-position `impl Trait` in trait

`async fn` always desugars to a function that returns `impl Future`.

```rust!
async fn foo() -> i32 { 100 }

// Equivalent to:
fn foo() -> impl Future<Output = i32> { async { 100 } }
```

All `async fn`s today can be rewritten this way. This is useful because it allows adding behavior that runs at the time of the function call, before the first `.await` on the returned future.

In the spirit of supporting the same set of features on `async fn` in traits that we do outside of traits, it makes sense to stabilize this as well. As described by the [RPITIT RFC][rpitit-rfc], this includes the ability to mix and match the equivalent forms in traits and their corresponding impls:

```rust!
trait Foo {
    async fn foo(self) -> i32;
}

// Can be implemented as:
impl Foo for MyType {
    fn foo(self) -> impl Future<Output = i32> {
        async { 100 }
    }
}
```

Return-position `impl Trait` in trait is useful for cases beyond async, just as regular RPIT is. As a simple example, the RFC showed an alternative way of writing the `IntoIterator` trait with one fewer associated type.

```rust!
trait NewIntoIterator {
    type Item;
    fn new_into_iter(self) -> impl Iterator<Item = Self::Item>;
}

impl<T> NewIntoIterator for Vec<T> {
    type Item = T;
    fn new_into_iter(self) -> impl Iterator<Item = T> {
        self.into_iter()
    }
}
```

[rpitit-rfc]: https://rust-lang.github.io/rfcs/3425-return-position-impl-trait-in-traits.html

## Major design decisions

This section describes the major design decisions that were reached after the RFC was accepted:

- EDIT: Lint against async fn in trait definitions

    - Until the [send bound problem](https://smallcultfollowing.com/babysteps/blog/2023/02/01/async-trait-send-bounds-part-1-intro/) is resolved, the use of `async fn` in trait definitions could lead to a bad experience for people using work-stealing executors (by far the most popular choice). However, there are significant use cases for which the current support is all that is needed (single-threaded executors, such as those used in embedded use cases, as well as thread-per-core setups). We are prioritizing serving users well over protecting people from misuse, and therefore, we opt to stabilize the full range of functionality; however, to help steer people correctly, we are will issue a warning on the use of `async fn` in trait definitions that advises users about the limitations. (See [this summary comment](https://github.com/rust-lang/rust/pull/115822#issuecomment-1731149475) for the details of the concern, and [this comment](https://github.com/rust-lang/rust/pull/115822#issuecomment-1728354622) for more details about the reasoning that led to this conclusion.)

- Capture rules:

    - The RFC's initial capture rules for lifetimes in impls/traits were found to be imprecisely precise and to introduce various inconsistencies. After much discussion, the decision was reached to make `-> impl Trait` in traits/impls capture *all* in-scope parameters, including both lifetimes and types. This is a departure from the behavior of RPITs in other contexts; an RFC is currently being authored to change the behavior of RPITs in other contexts in a future edition.

    - Major discussion links:

        - [Lang team design meeting from 2023-07-26](https://hackmd.io/sFaSIMJOQcuwCdnUvCxtuQ?view)

- Refinement:

    - The [refinement RFC] initially proposed that impl signatures that are more specific than their trait are not allowed unless the `#[refine]` attribute was included, but left it as an open question how to implement this. The stabilized proposal is that it is not a hard error to omit `#[refine]`, but there is a lint which fires if the impl's return type is more precise than the trait. This greatly simplified the desugaring and implementation while still achieving the original goal of ensuring that users do not accidentally commit to a more specific return type than they intended.

    - Major discussion links:

        - [Zulip thread](https://rust-lang.zulipchat.com/#narrow/stream/213817-t-lang/topic/.60.23.5Brefine.5D.60.20as.20a.20lint)

[refinement RFC]: https://rust-lang.github.io/rfcs/3245-refined-impls.html

## What is stabilized

### Async functions in traits and trait implementations

* `async fn` are now supported in traits and trait implementations.
* Associated functions in traits that are `async` may have default bodies.

### Return-position impl trait in traits and trait implementations

* Return-position `impl Trait`s are now supported in traits and trait implementations.
    * Return-position `impl Trait` in implementations are treated like regular return-position `impl Trait`s, and therefore behave according to the same inference rules for hidden type inference and well-formedness.
* Associated functions in traits that name return-position `impl Trait`s may have default bodies.
* Implementations may provide either concrete types or `impl Trait` for each corresponding `impl Trait` in the trait method signature.

For a detailed exploration of the technical implementation of return-position `impl Trait` in traits, see [the dev guide](https://rustc-dev-guide.rust-lang.org/return-position-impl-trait-in-trait.html).

### Mixing `async fn` in trait and return-position `impl Trait` in trait

A trait function declaration that is `async fn ..() -> T` may be satisfied by an implementation function that returns `impl Future<Output = T>`, or vice versa.

```rust
trait Async {
    async fn hello();
}

impl Async for () {
    fn hello() -> impl Future<Output = ()> {
        async {}
    }
}

trait RPIT {
    fn hello() -> impl Future<Output = String>;
}

impl RPIT for () {
    async fn hello() -> String {
        "hello".to_string()
    }
}
```

### Return-position `impl Trait` in traits and trait implementations capture all in-scope lifetimes

Described above in "major design decisions".

### Return-position `impl Trait` in traits are "always revealing"

When a trait uses `-> impl Trait` in return position, it logically desugars to an associated type that represents the return (the actual implementation in the compiler is different, as described below). The value of this associated type is determined by the actual return type written in the impl; if the impl also uses `-> impl Trait` as the return type, then the value of the associated type is an opaque type scoped to the impl method (similar to what you would get when calling an inherent function returning `-> impl Trait`). As with any associated type, the value of this special associated type can be revealed by the compiler if the compiler can figure out what impl is being used.

For example, given this trait:

```rust
trait AsDebug {
    fn as_debug(&self) -> impl Debug;
}
```

A function working with the trait generically is only able to see that the return value is `Debug`:

```rust
fn foo<T: AsDebug>(t: &T) {
    let u = t.as_debug();
    println!("{}", u); // ERROR: `u` is not known to implement `Display`
}
```

But if a function calls `as_debug` on a known type (say, `u32`), it may be able to resolve the return type more specifically, if that implementation specifies a concrete type as well:

```rust
impl AsDebug for u32 {
    fn as_debug(&self) -> u32 {
        *self
    }
}

fn foo(t: &u32) {
    let u: u32 = t.as_debug(); // OK!
    println!("{}",  t.as_debug()); // ALSO OK (since `u32: Display`).
}
```

The return type used in the impl therefore represents a **semver binding** promise from the impl author that the return type of `<u32 as AsDebug>::as_debug` will not change. This could come as a surprise to users, who might expect that they are free to change the return type to any other type that implements `Debug`. To address this, we include a [`refining_impl_trait` lint](https://github.com/rust-lang/rust/pull/115582) that warns if the impl uses a specific type -- the `impl AsDebug for u32` above, for example, would toggle the lint.

The lint message explains what is going on and encourages users to `allow` the lint to indicate that they meant to refine the return type:

```rust
impl AsDebug for u32 {
    #[allow(refining_impl_trait)]
    fn as_debug(&self) -> u32 {
        *self
    }
}
```

[RFC #3245](https://github.com/rust-lang/rfcs/pull/3245) proposed a new attribute, `#[refine]`, that could also be used to "opt-in" to refinements like this (and which would then silence the lint). That RFC is not currently implemented -- the `#[refine]` attribute is also expected to reveal other details from the signature and has not yet been fully implemented.

### Return-position `impl Trait` and `async fn` in traits are opted-out of object safety checks when the parent function has `Self: Sized`

```rust
trait IsObjectSafe {
    fn rpit() -> impl Sized where Self: Sized;
    async fn afit() where Self: Sized;
}
```

Traits that mention return-position `impl Trait` or `async fn` in trait when the associated function includes a `Self: Sized` bound will remain object safe. That is because the associated function that defines them will be opted-out of the vtable of the trait, and the associated types will be unnameable from any trait object.

This can alternatively be seen as a consequence of https://github.com/rust-lang/rust/pull/112319#issue-1742251747 and the desugaring of return-position `impl Trait` in traits to associated types which inherit the where-clauses of the associated function that defines them.

## What isn't stabilized (aka, potential future work)

### Dynamic dispatch

As stabilized, traits containing RPITIT and AFIT are **not dyn compatible**. This means that you cannot create `dyn Trait` objects from them and can only use static dispatch. The reason for this limitation is that dynamic dispatch support for RPITIT and AFIT is more complex than static dispatch, as described on the [async fundamentals page](https://rust-lang.github.io/async-fundamentals-initiative/evaluation/challenges/dyn_traits.html). The primary challenge to using `dyn Trait` in today's Rust is that **`dyn Trait` today must list the values of all associated types**. This means you would have to write `dyn for<'s> Trait<Foo<'s> = XXX>` where `XXX` is the future type defined by the impl, such as `F_A`. This is not only verbose (or impossible), it also uniquely ties the `dyn Trait` to a particular impl, defeating the whole point of `dyn Trait`.

The precise design for handling dynamic dispatch is not yet determined. Top candidates include:

- [callee site selection][], in which we permit unsized return values so that the return type for an `-> impl Foo` method be can be `dyn Foo`, but then users must specify the type of wide pointer at the call-site in some fashion.

- [`dyn*`][], where we create a built-in encapsulation of a "wide pointer" and map the associated type corresponding to an RPITIT to the corresponding `dyn*` type (`dyn*` itself is not exposed to users as a type in this proposal, though that could be a future extension).

[callee site selection]: https://smallcultfollowing.com/babysteps/blog/2022/09/21/dyn-async-traits-part-9-callee-site-selection/

[`dyn*`]: https://smallcultfollowing.com/babysteps/blog/2022/03/29/dyn-can-we-make-dyn-sized/

### Where-clause bounds on return-position `impl Trait` in traits or async futures (RTN/ART)

One limitation of async fn in traits and RPITIT as stabilized is that there is no way for users to write code that adds additional bounds beyond those listed in the `-> impl Trait`. The most common example is wanting to write a generic function that requires that the future returned from an `async fn` be `Send`:

```rust
trait Greet {
    async fn greet(&self);
}

fn greet_in_parallel<G: Greet>(g: &G) {
    runtime::spawn(async move {
        g.greet().await; //~ ERROR: future returned by `greet` may not be `Send`
    })
}
```

Currently, since the associated types added for the return type are anonymous, there is no where-clause that could be added to make this code compile.

There have been various proposals for how to address this problem (e.g., [return type notation][rtn] or having an annotation to give a name to the associated type), but we leave the selection of one of those mechanisms to future work.

[rtn]: https://smallcultfollowing.com/babysteps/blog/2023/02/13/return-type-notation-send-bounds-part-2/

In the meantime, there are workarounds that one can use to address this problem, listed below.

#### Require all futures to be `Send`

For many users, the trait may only ever be used with `Send` futures, in which case one can write an explicit `impl Future + Send`:

```rust
trait Greet {
    fn greet(&self) -> impl Future<Output = ()> + Send;
}
```

The nice thing about this is that it is still compatible with using `async fn` in the trait impl. In the async working group case studies, we found that this could work for the [builder provider API](https://rust-lang.github.io/async-fundamentals-initiative/evaluation/case-studies/builder-provider-api.html). This is also the default approach used by the `#[async_trait]` crate which, as we have noted, has seen widespread adoption.

#### Avoid generics

This problem only applies when the `Self` type is generic. If the `Self` type is known, then the precise return type from an `async fn` is revealed, and the `Send` bound can be inferred thanks to auto-trait leakage. Even in cases where generics may appear to be required, it is sometimes possible to rewrite the code to avoid them. The [socket handler refactor](https://rust-lang.github.io/async-fundamentals-initiative/evaluation/case-studies/socket-handler.html) case study provides one such example.

### Unify capture behavior for `-> impl Trait` in inherent methods and traits

As stabilized, the capture behavior for `-> impl Trait` in a trait (whether as part of an async fn or a RPITIT) captures all types and lifetimes, whereas the existing behavior for inherent methods only captures types and lifetimes that are explicitly referenced. Capturing all lifetimes in traits was necessary to avoid various surprising inconsistencies; the expressed intent of the lang team is to extend that behavior so that we also capture all lifetimes in inherent methods, which would create more consistency and also address a common source of user confusion, but that will have to happen over the 2024 edition. The RFC is in progress. Should we opt not to accept that RFC, we can bring the capture behavior for `-> impl Trait` into alignment in other ways as part of the 2024 edition.

### `impl_trait_projections`

Orthgonal to `async_fn_in_trait` and `return_position_impl_trait_in_trait`, since it can be triggered on stable code. This will be stabilized separately in [#115659](https://github.com/rust-lang/rust/pull/115659).

<details>
If we try to write this code without `impl_trait_projections`, we will get an error:

```rust
#![feature(async_fn_in_trait)]

trait Foo {
    type Error;
    async fn foo(&mut self) -> Result<(), Self::Error>;
}

impl<T: Foo> Foo for &mut T {
    type Error = T::Error;
    async fn foo(&mut self) -> Result<(), Self::Error> {
        T::foo(self).await
    }
}
```

The error relates to the use of `Self` in a trait impl when the self type has a lifetime. It can be worked around by rewriting the impl not to use `Self`:

```rust
#![feature(async_fn_in_trait)]

trait Foo {
    type Error;
    async fn foo(&mut self) -> Result<(), Self::Error>;
}

impl<T: Foo> Foo for &mut T {
    type Error = T::Error;
    async fn foo(&mut self) -> Result<(), <&mut T as Foo>::Error> {
        T::foo(self).await
    }
}
```
</details>

## Tests

Tests are generally organized between return-position `impl Trait` and `async fn` in trait, when the distinction matters.
* RPITIT: https://github.com/rust-lang/rust/tree/master/tests/ui/impl-trait/in-trait
* AFIT: https://github.com/rust-lang/rust/tree/master/tests/ui/async-await/in-trait

## Remaining bugs and open issues

* #112047: Indirection introduced by `async fn` and return-position `impl Trait` in traits may hide cycles in opaque types, causing overflow errors that can only be discovered by monomorphization.
* #111105 - `async fn` in trait is susceptible to issues with checking auto traits on futures' generators, like regular `async`. This is a manifestation of #110338.
    * This was deemed not blocking because fixing it is forwards-compatible, and regular `async` is subject to the same issues.
* #104689: `async fn` and return-position `impl Trait` in trait requires the late-bound lifetimes in a trait and impl function signature to be equal.
    * This can be relaxed in the future with a smarter lexical region resolution algorithm.
* #102527: Nesting return-position `impl Trait` in trait deeply may result in slow compile times.
    * This has only been reported once, and can be fixed in the future.
* #108362: Inference between return types and generics of a function may have difficulties when there's an `.await`.
    * This isn't related to AFIT (https://github.com/rust-lang/rust/issues/108362#issuecomment-1717927918) -- using traits does mean that there's possibly easier ways to hit it.
* #112626: Because `async fn` and return-position `impl Trait` in traits lower to associated types, users may encounter strange behaviors when implementing circularly dependent traits.
    * This is not specific to RPITIT, and is a limitation of associated types: https://github.com/rust-lang/rust/issues/112626#issuecomment-1603405105
* **(Nightly)** #108309: `async fn` and return-position `impl Trait` in trait do not support specialization. This was deemed not blocking, since it can be fixed in the future (e.g. #108321) and specialization is a nightly feature.

#### (Nightly) Return type notation bugs

RTN is not being stabilized here, but there are some interesting outstanding bugs. None of them are blockers for AFIT/RPITIT, but I'm noting them for completeness.

<details>

* #109924 is a bug that occurs when a higher-ranked trait bound has both inference variables and associated types. This is pre-existing -- RTN just gives you a more convenient way of producing them. This should be fixed by the new trait solver.
* #109924 is a manifestation of a more general issue with `async` and auto-trait bounds: #110338. RTN does not cause this issue, just allows us to put `Send` bounds on the anonymous futures that we have in traits.
* #112569 is a bug similar to associated type bounds, where nested bounds are not implied correctly.

</details>

## Alternatives

### Do nothing

We could choose not to stabilize these features. Users that can use the `#[async_trait]` macro would continue to do so. Library maintainers would continue to avoid async functions in traits, potentially blocking the stable release of many useful crates.

### Stabilize `impl Trait` in associated type instead

AFIT and RPITIT solve the problem of returning unnameable types from trait methods. It is also possible to solve this by using another unstable feature, `impl Trait` in an associated type. Users would need to define an associated type in both the trait and trait impl:

```rust!
trait Foo {
    type Fut<'a>: Future<Output = i32> where Self: 'a;
    fn foo(&self) -> Self::Fut<'_>;
}

impl Foo for MyType {
    type Fut<'a> where Self: 'a = impl Future<Output = i32>;
    fn foo(&self) -> Self::Fut<'_> {
        async { 42 }
    }
}
```

This also has the advantage of allowing generic code to bound the associated type. However, it is substantially less ergonomic than either `async fn` or `-> impl Future`, and users still expect to be able to use those features in traits. **Even if this feature were stable, we would still want to stabilize AFIT and RPITIT.**

That said, we can have both. `impl Trait` in associated types is desireable because it can be used in existing traits with explicit associated types, among other reasons. We *should* stabilize this feature once it is ready, but that's outside the scope of this proposal.

### Use the old capture semantics for RPITIT

We could choose to make the capture rules for RPITIT consistent with the existing rules for RPIT. However, there was strong consensus in a recent [lang team meeting](https://hackmd.io/sFaSIMJOQcuwCdnUvCxtuQ?view) that we should *change* these rules, and furthermore that new features should adopt the new rules.

This is consistent with the tenet in RFC 3085 of favoring ["Uniform behavior across editions"](https://rust-lang.github.io/rfcs/3085-edition-2021.html#uniform-behavior-across-editions) when possible. It greatly reduces the complexity of the feature by not requiring us to answer, or implement, the design questions that arise out of the interaction between the current capture rules and traits. This reduction in complexity – and eventual technical debt – is exactly in line with the motivation listed in the aforementioned RFC.

### Make refinement a hard error

Refinement (`refining_impl_trait`) is only a concern for library authors, and therefore doesn't really warrant making into a deny-by-default warning or an error.

Additionally, refinement is currently checked via a lint that compares bounds in the `impl Trait`s in the trait and impl syntactically. This is good enough for a warning that can be opted-out, but not if this were a hard error, which would ideally be implemented using fully semantic, implicational logic. This was implemented (#111931), but also is an unnecessary burden on the type system for little pay-off.

## History

- Dec 7, 2021: [RFC #3185: Static async fn in traits](https://rust-lang.github.io/rfcs/3185-static-async-fn-in-trait.html) merged
- Sep 9, 2022: [Initial implementation](https://github.com/rust-lang/rust/pull/101224) of AFIT and RPITIT landed
- Jun 13, 2023: [RFC #3425: Return position `impl Trait` in traits](https://rust-lang.github.io/rfcs/3425-return-position-impl-trait-in-traits.html) merged

<!--These will render pretty when pasted into github-->
Non-exhaustive list of PRs that are particularly relevant to the implementation:

- #101224
- #103491
- #104592
- #108141
- #108319
- #108672
- #112988
- #113182 (later made redundant by #114489)
- #113215
- #114489
- #115467
- #115582

Doc co-authored by `@nikomatsakis,` `@tmandry,` `@traviscross.` Thanks also to `@spastorino,` `@cjgillot` (for changes to opaque captures!), `@oli-obk` for many reviews, and many other contributors and issue-filers. Apologies if I left your name off 😺
2023-10-14 07:29:08 +00:00
bors
75a5dd05bc Auto merge of #115524 - RalfJung:misalign, r=wesleywiser
const-eval: make misalignment a hard error

It's been a future-incompat error (showing up in cargo's reports) since https://github.com/rust-lang/rust/pull/104616, Rust 1.68, released in March.  That should be long enough.

The question for the lang team is simply -- should we move ahead with this, making const-eval alignment failures a hard error? (It turns out some of them accidentally already were hard errors since #104616. But not all so this is still a breaking change. Crater found no regression.)
2023-10-14 00:57:09 +00:00
Michael Goulet
59315b8a63 Stabilize AFIT and RPITIT 2023-10-13 21:01:36 +00:00
Ralf Jung
b9acee2d29 make soft_unstable show up in future breakage reports 2023-09-29 21:56:57 +02:00
DaniPopes
f1b7484160
Remove rustc_lint_defs::lint_array 2023-09-28 23:01:25 +02:00
bors
1f2bacf677 Auto merge of #115893 - RalfJung:match-require-partial-eq, r=oli-obk
lint towards rejecting consts in patterns that do not implement PartialEq

I think we definitely don't want to allow such consts, so even while the general plan around structural matching is up in the air, we can start the process of getting non-PartialEq matches out of the ecosystem.
2023-09-26 13:38:28 +00:00
Ralf Jung
a993a8bf3f const-eval: make misalignment a hard error 2023-09-26 15:32:55 +02:00
Ralf Jung
a1d6fc4340 rename lint; add tracking issue 2023-09-25 19:05:10 +02:00
Ralf Jung
c5fccb98ea work towards rejecting consts in patterns that do not implement PartialEq 2023-09-24 16:36:26 +02:00
Camille GILLOT
286502c9ed Enable drop_tracking_mir by default. 2023-09-23 13:34:09 +00:00
Ralf Jung
5586c2a68f make the reason: field mandatory for @future_incompatible lints 2023-09-22 08:59:32 +02:00
Ralf Jung
e888d470e9 give FutureIncompatibilityReason variants more explicit names 2023-09-22 08:51:18 +02:00
bors
327e6cf55c Auto merge of #114452 - weiznich:feature/diagnostic_on_unimplemented, r=compiler-errors
`#[diagnostic::on_unimplemented]` without filters

This commit adds support for a `#[diagnostic::on_unimplemented]` attribute with the following options:

* `message` to customize the primary error message
* `note` to add a customized note message to an error message
* `label` to customize the label part of the error message

The relevant behavior is specified in [RFC-3366](https://rust-lang.github.io/rfcs/3366-diagnostic-attribute-namespace.html)
2023-09-17 10:00:15 +00:00
bors
df63c5f140 Auto merge of #112038 - Nemo157:edition-2024-unsafe_op_in_unsafe_fn, r=RalfJung
Change `unsafe_op_in_unsafe_fn` to be `warn`-by-default from edition 2024

This was previously FCPed: https://github.com/rust-lang/rust/issues/71668#issuecomment-1189396886

There were two blocking requirements:
* Fix the `unused_unsafe` lint, done in https://github.com/rust-lang/rust/pull/100081
* Have `cargo fix` able to fix the lint, done in https://github.com/rust-lang/rust/pull/112017
2023-09-14 11:52:08 +00:00
Georg Semmler
5b8a7a0917
#[diagnostic::on_unimplemented] without filters
This commit adds support for a `#[diagnostic::on_unimplemented]`
attribute with the following options:

* `message` to customize the primary error message
* `note` to add a customized note message to an error message
* `label` to customize the label part of the error message

Co-authored-by: León Orell Valerian Liehr <me@fmease.dev>
Co-authored-by: Michael Goulet <michael@errs.io>
2023-09-12 20:03:18 +02:00
Michael Goulet
4d05da46e7 Don't emit refining_impl_trait for private items 2023-09-07 01:31:32 +00:00
Michael Goulet
e10262ca0a Implement refinement lint for RPITIT 2023-09-07 00:49:09 +00:00
Matthias Krüger
93543bc8bc
Rollup merge of #115578 - ouz-a:rustc_clarify, r=oli-obk
Clarify cryptic comments

Clarifies some unclear comments that lurked in the compiler.

r? ``@oli-obk``
2023-09-06 19:31:49 +02:00
ouz-a
7928c5f830 make comments less cryptic 2023-09-06 12:09:29 +03:00
Wim Looman
119e0fff8a
Change unsafe_op_in_unsafe_fn to be warn-by-default from edition 2024 2023-09-06 09:30:04 +02:00
bors
1accf068d8 Auto merge of #113126 - Bryanskiy:delete_old, r=petrochenkov
Replace old private-in-public diagnostic with type privacy lints

Next part of RFC https://github.com/rust-lang/rust/issues/48054.

r? `@petrochenkov`
2023-09-01 12:40:01 +00:00
bors
712d962cef Auto merge of #115104 - compiler-errors:rollup-8235xz5, r=compiler-errors
Rollup of 6 pull requests

Successful merges:

 - #114959 (fix #113702 emit a proper diagnostic message for unstable lints passed from CLI)
 - #115011 (Warn on elided lifetimes in associated constants (`ELIDED_LIFETIMES_IN_ASSOCIATED_CONSTANT`))
 - #115077 (Do not emit invalid suggestion in E0191 when spans overlap)
 - #115087 (Add disclaimer on size assertion macro)
 - #115090 (Always use `os-release` rather than `/lib` to detect `NixOS` (bootstrap))
 - #115101 (triagebot: add dependency licensing pings)

r? `@ghost`
`@rustbot` modify labels: rollup
2023-08-22 16:16:32 +00:00
allaboutevemirolive
5dce0e66b9 Redefine the pluralize macro's arm 2023-08-21 13:31:58 -04:00
Michael Goulet
fad7d220fd Warn on elided lifetimes in associated constants 2023-08-20 00:21:47 +00:00
Michael Goulet
0e20155662 more nits 2023-08-15 03:44:21 +00:00
Michael Goulet
ca49a37390 Reuse the selection context, compute failing obligations first in ambig mode 2023-08-15 03:40:19 +00:00
Michael Goulet
d2a14df70e nits
Co-authored-by: lcnr <rust@lcnr.de>
2023-08-15 03:40:19 +00:00
Michael Goulet
56f5704ff8 Implement lint against coinductive impl overlap 2023-08-15 03:40:19 +00:00
bors
ec5b882c2f Auto merge of #114414 - cjgillot:early-unnameable-test, r=petrochenkov
Make test harness lint about unnnameable tests.

Implementation of https://github.com/rust-lang/rust/pull/113734#discussion_r1283073418

About the options suggested in https://github.com/rust-lang/rust/issues/36629#issuecomment-404753945: adding this case to unused_attribute was just more complicated. I'll try to understand a bit more what you had in mind in https://github.com/rust-lang/rfcs/pull/2471#issuecomment-397241123

This was just simpler to do in a standalone PR. I'll remove the corresponding changes from https://github.com/rust-lang/rust/pull/113734 later.

r? `@petrochenkov`
2023-08-04 14:13:11 +00:00
Camille GILLOT
2a0a1f918d Make test harness lint about unnnameable tests. 2023-08-03 13:07:30 +00:00
Nilstrieb
5830ca216d Add internal_features lint
It lints against features that are inteded to be internal to the
compiler and standard library. Implements MCP #596.

We allow `internal_features` in the standard library and compiler as those
use many features and this _is_ the standard library from the "internal to the compiler and
standard library" after all.

Marking some features as internal wasn't exactly the most scientific approach, I just marked some
mostly obvious features. While there is a categorization in the macro,
it's not very well upheld (should probably be fixed in another PR).

We always pass `-Ainternal_features` in the testsuite
About 400 UI tests and several other tests use internal features.
Instead of throwing the attribute on each one, just always allow them.
There's nothing wrong with testing internal features^^
2023-08-03 14:50:50 +02:00
Bryanskiy
e26614e6a7 Replace old private-in-public diagnostic with type privacy lints 2023-08-02 13:40:28 +03:00
bohan
cac0bd0bef fix(resolve): update the ambiguity glob binding as warning recursively 2023-07-29 00:19:50 +08:00
bors
317ec04d18 Auto merge of #111780 - weiznich:diagnostic_namespace, r=petrochenkov
Diagnostic namespace

This PR implements the basic infrastructure for accepting the `#[diagnostic]` attribute tool namespace as specified in https://github.com/rust-lang/rfcs/pull/3368. Note: This RFC is not merged yet, but it seems like it will be accepted soon. I open this PR early on to get feedback on the actual implementation as soon as possible. This hopefully enables getting at least the diagnostic namespace to stable rust "soon", so that crates do not need to bump their MSRV if we stabilize actual attributes in this namespace.

 This PR only adds infrastructure accept attributes from this namespace, it does not add any specific attribute. Therefore the compiler will emit a lint warning for each attribute that's actually used. This namespace is added behind a feature flag, so it will be only available on a nightly compiler for now.

cc `@estebank` as they've supported me in planing, specifying and implementing this feature.
2023-07-28 14:18:29 +00:00
Georg Semmler
5b576665e5
Introduce the #[diagnostic] attribute namespace
Co-authored-by: est31 <est31@users.noreply.github.com>

Co-authored-by: Esteban Kuber <estebank@users.noreply.github.com>

Co-authored-by: Vadim Petrochenkov <vadim.petrochenkov@gmail.com>
2023-07-28 13:28:02 +02:00
bors
e4c98caffe Auto merge of #113312 - Ddystopia:auto-trait-fun, r=lcnr
discard default auto trait impls if explicit ones exist (rebase of #85048)

Rebase of #85048
2023-07-28 10:41:00 +00:00
Oleksandr Babak
37159345a7
Change the description of SUSPICIOUS_AUTO_TRAIT_IMPLS 2023-07-28 11:50:10 +02:00
许杰友 Jieyou Xu (Joe)
33bd453f35
Fix removal span calculation of unused_qualifications suggestion 2023-07-18 09:52:08 +08:00
许杰友 Jieyou Xu (Joe)
0b5c683b06
Add machine-applicable suggestion for unused_qualifications lint 2023-07-13 08:26:02 +08:00
León Orell Valerian Liehr
b809207dec
Lint against misplaced where-clauses on assoc tys in traits 2023-07-11 01:19:11 +02:00
Oli Scherer
25e3785b86 Make unused_associated_type_bounds's lint level changeable 2023-07-05 07:46:05 +00:00
Oli Scherer
a49b736568 Lint now-unnecessary associated type bounds 2023-07-05 07:42:53 +00:00
Matthias Krüger
42a495da7e
Rollup merge of #112670 - petrochenkov:typriv, r=eholk
privacy: Type privacy lints fixes and cleanups

See individual commits.
Follow up to https://github.com/rust-lang/rust/pull/111801.
2023-06-29 05:48:39 +02:00
Oli Scherer
aacd702895 Stop hiding const eval limit in external macros 2023-06-22 14:11:10 +00:00
Vadim Petrochenkov
d326aed46f privacy: Feature gate new type privacy lints 2023-06-15 21:25:47 +03:00
Bryanskiy
6d46382f6f Private-in-public lints implementation 2023-06-12 01:02:19 +03:00
Oli Scherer
05eae08233 Remove const eval limit and implement an exponential backoff lint instead 2023-05-31 10:24:17 +00:00
许杰友 Jieyou Xu (Joe)
b9606589c4
Add warn-by-default lint for local binding shadowing exported glob re-export item 2023-05-27 18:49:07 +08:00
bors
ea0c22ea4f Auto merge of #106621 - ozkanonur:enable-elided-lifetimes-for-doctests, r=Mark-Simulacrum
enable `rust_2018_idioms` lint group for doctests

With this change, `rust_2018_idioms` lint group will be enabled for compiler/libstd doctests.

Resolves #106086
Resolves #99144

Signed-off-by: ozkanonur <work@onurozkan.dev>
2023-05-08 04:50:28 +00:00
ozkanonur
4e7c14fe9f enable rust_2018_idioms for doctests
Signed-off-by: ozkanonur <work@onurozkan.dev>
2023-05-07 00:12:29 +03:00
Urgau
53647845b9 Improve check-cfg diagnostics (part 2) 2023-05-05 13:06:48 +02:00
Gary Guo
723aee2e56 Partial stabilisation of c_unwind 2023-04-29 13:01:44 +01:00
Michael Goulet
0279922157 Add a few more missing lints 2023-04-27 18:43:03 +00:00
Michael Goulet
3793263c7d Sort hardwired lints 2023-04-27 18:35:27 +00:00
Michael Goulet
183c7904e9 Add invalid_macro_export_arguments to built-in macro list 2023-04-27 18:33:39 +00:00
Josh Soref
e09d0d2a29 Spelling - compiler
* account
* achieved
* advising
* always
* ambiguous
* analysis
* annotations
* appropriate
* build
* candidates
* cascading
* category
* character
* clarification
* compound
* conceptually
* constituent
* consts
* convenience
* corresponds
* debruijn
* debug
* debugable
* debuggable
* deterministic
* discriminant
* display
* documentation
* doesn't
* ellipsis
* erroneous
* evaluability
* evaluate
* evaluation
* explicitly
* fallible
* fulfill
* getting
* has
* highlighting
* illustrative
* imported
* incompatible
* infringing
* initialized
* into
* intrinsic
* introduced
* javascript
* liveness
* metadata
* monomorphization
* nonexistent
* nontrivial
* obligation
* obligations
* offset
* opaque
* opportunities
* opt-in
* outlive
* overlapping
* paragraph
* parentheses
* poisson
* precisely
* predecessors
* predicates
* preexisting
* propagated
* really
* reentrant
* referent
* responsibility
* rustonomicon
* shortcircuit
* simplifiable
* simplifications
* specify
* stabilized
* structurally
* suggestibility
* translatable
* transmuting
* two
* unclosed
* uninhabited
* visibility
* volatile
* workaround

Signed-off-by: Josh Soref <2119212+jsoref@users.noreply.github.com>
2023-04-17 16:09:18 -04:00
DaniPopes
677357d32b
Fix typos in compiler 2023-04-10 22:02:52 +02:00
Matthias Krüger
fc5516b782
Rollup merge of #108588 - ehuss:lint-docs-produces, r=eholk
Fix the ffi_unwind_calls lint documentation

This fixes the [`ffi_unwind_calls`](https://doc.rust-lang.org/nightly/rustc/lints/listing/allowed-by-default.html#ffi-unwind-calls) documentation to show its output correctly. Currently it is showing the text `{{produces}}` which is not how it should look.

This fixes it by not ignoring the example. I'm not sure why it was ignored, as the way the lint currently works it doesn't seem to require external linkage. This also fixes several mistakes in the example:

* There is no `ffi_unwind_calls` feature.
* Denies the lint (which is otherwise allow be default).
* Removes the `mod impl` which is not valid Rust syntax, and doesn't appear to be needed anyways.

The output now looks like:

```
warning: call to foreign function with FFI-unwind ABI
  --> lint_example.rs:10:14
   |
10 |     unsafe { foo(); }
   |              ^^^^^ call to foreign function with FFI-unwind ABI
   |
note: the lint level is defined here
  --> lint_example.rs:2:9
   |
2  | #![warn(ffi_unwind_calls)]
   |         ^^^^^^^^^^^^^^^^

warning: call to function pointer with FFI-unwind ABI
  --> lint_example.rs:12:14
   |
12 |     unsafe { ptr(); }
   |              ^^^^^ call to function pointer with FFI-unwind ABI

```

This also includes some updates to the lint-docs tool to help with this issue:

* Adds a check if a lint documentation has `{{produces}}` with an ignored example, and generates an error.
* All instances of a lint are now displayed. Previously it only showed the first time the lint fires. Some examples may trigger a lint multiple times, and they are all now displayed.
2023-03-23 19:55:45 +01:00
许杰友 Jieyou Xu (Joe)
1f67949f0e
Lint ambiguous glob re-exports 2023-03-20 03:22:31 +08:00
bors
e4b9f86054 Auto merge of #109035 - scottmcm:ptr-read-should-know-undef, r=WaffleLapkin,JakobDegen
Ensure `ptr::read` gets all the same LLVM `load` metadata that dereferencing does

I was looking into `array::IntoIter` optimization, and noticed that it wasn't annotating the loads with `noundef` for simple things like `array::IntoIter<i32, N>`.  Trying to narrow it down, it seems that was because `MaybeUninit::assume_init_read` isn't marking the load as initialized (<https://rust.godbolt.org/z/Mxd8TPTnv>), which is unfortunate since that's basically its reason to exist.

The root cause is that `ptr::read` is currently implemented via the *untyped* `copy_nonoverlapping`, and thus the `load` doesn't get any type-aware metadata: no `noundef`, no `!range`.  This PR solves that by lowering `ptr::read(p)` to `copy *p` in MIR, for which the backends already do the right thing.

Fortuitiously, this also improves the IR we give to LLVM for things like `mem::replace`, and fixes a couple of long-standing bugs where `ptr::read` on `Copy` types was worse than `*`ing them.

Zulip conversation: <https://rust-lang.zulipchat.com/#narrow/stream/219381-t-libs/topic/Move.20array.3A.3AIntoIter.20to.20ManuallyDrop/near/341189936>

cc `@erikdesjardins` `@JakobDegen` `@workingjubilee` `@the8472`

Fixes #106369
Fixes #73258
2023-03-15 11:44:12 +00:00
Scott McMurray
b2c717fa33 MaybeUninit::assume_init_read should have noundef load metadata
I was looking into `array::IntoIter` optimization, and noticed that it wasn't annotating the loads with `noundef` for simple things like `array::IntoIter<i32, N>`.

Turned out to be a more general problem as `MaybeUninit::assume_init_read` isn't marking the load as initialized (<https://rust.godbolt.org/z/Mxd8TPTnv>), which is unfortunate since that's basically its reason to exist.

This PR lowers `ptr::read(p)` to `copy *p` in MIR, which fortuitiously also improves the IR we give to LLVM for things like `mem::replace`.
2023-03-11 17:44:43 -08:00
Matthias Krüger
df50001c7d
Rollup merge of #108806 - cjgillot:query-lints, r=davidtwco
Querify register_tools and post-expansion early lints

The 2 extra queries correspond to code that happen before and after macro expansion, and don't need the resolver to exist.
2023-03-11 15:43:15 +01:00
Camille GILLOT
c90fc105cb Querify early_lint_checks. 2023-03-06 11:26:29 +00:00
Camille GILLOT
b7e2b049f3 Querify registered_tools. 2023-03-06 10:56:23 +00:00
Eric Huss
15450b1b21 Fix the ffi_unwind_calls lint documentation 2023-02-28 19:58:57 -08:00
Matthias Krüger
660f184966
Rollup merge of #108363 - cjgillot:unused-crate, r=WaffleLapkin
Move the unused extern crate check back to the resolver.

It doesn't have anything to do in `rustc_hir_typeck`.
2023-02-27 18:48:49 +01:00
blyxyas
e39fe374df Add check for invalid \#[macro_export]\ arguments 2023-02-22 21:53:16 +00:00
Camille GILLOT
958419d354 Move the unused extern crate check back to the resolver. 2023-02-22 20:48:27 +00:00
Nicholas Nethercote
a70d03b624 Extend BYTE_SLICE_IN_PACKED_STRUCT_WITH_DERIVE.
To temporarily allow a `str` field in a packed struct using `derive`,
along with `[u8]`.
2023-02-09 11:47:12 +11:00
Ralf Jung
dfc4a7b2d0 make unaligned_reference a hard error 2023-01-31 20:28:11 +01:00
bors
3f25e56496 Auto merge of #104429 - nnethercote:more-deriving-on-packed-structs, r=RalfJung
More deriving on packed structs

See [here](https://github.com/rust-lang/rust/pull/104429#issuecomment-1320909245) for the t-lang nomination summary, and [here](https://github.com/rust-lang/rust/pull/104429#issuecomment-1360077895) for the approval.

r? `@RalfJung`
2023-01-30 07:02:01 +00:00
Nicholas Nethercote
2e93f2c92f Allow more deriving on packed structs.
Currently, deriving on packed structs has some non-trivial limitations,
related to the fact that taking references on unaligned fields is UB.

The current approach to field accesses in derived code:
- Normal case: `&self.0`
- In a packed struct that derives `Copy`: `&{self.0}`
- In a packed struct that doesn't derive `Copy`: `&self.0`

Plus, we disallow deriving any builtin traits other than `Default` for any
packed generic type, because it's possible that there might be
misaligned fields. This is a fairly broad restriction.

Plus, we disallow deriving any builtin traits other than `Default` for most
packed types that don't derive `Copy`. (The exceptions are those where the
alignments inherently satisfy the packing, e.g. in a type with
`repr(packed(N))` where all the fields have alignments of `N` or less
anyway. Such types are pretty strange, because the `packed` attribute is
not having any effect.)

This commit introduces a new, simpler approach to field accesses:
- Normal case: `&self.0`
- In a packed struct: `&{self.0}`

In the latter case, this requires that all fields impl `Copy`, which is
a new restriction. This means that the following example compiles under
the old approach and doesn't compile under the new approach.
```
 #[derive(Debug)]
 struct NonCopy(u8);

 #[derive(Debug)
 #[repr(packed)]
 struct MyType(NonCopy);
```
(Note that the old approach's support for cases like this was brittle.
Changing the `u8` to a `u16` would be enough to stop it working. So not
much capability is lost here.)

However, the other constraints from the old rules are removed. We can now
derive builtin traits for packed generic structs like this:
```
 trait Trait { type A; }

 #[derive(Hash)]
 #[repr(packed)]
 pub struct Foo<T: Trait>(T, T::A);
```
To allow this, we add a `T: Copy` bound in the derived impl and a `T::A:
Copy` bound in where clauses. So `T` and `T::A` must impl `Copy`.

We can now also derive builtin traits for packed structs that don't derive
`Copy`, so long as the fields impl `Copy`:
```
 #[derive(Hash)]
 #[repr(packed)]
 pub struct Foo(u32);
```
This includes types that hand-impl `Copy` rather than deriving it, such as the
following, that show up in winapi-0.2:
```
 #[derive(Clone)]
 #[repr(packed)]
 struct MyType(i32);

 impl Copy for MyType {}
```
The new approach is simpler to understand and implement, and it avoids
the need for the `unsafe_derive_on_repr_packed` check.

One exception is required for backwards-compatibility: we allow `[u8]`
fields for now. There is a new lint for this,
`byte_slice_in_packed_struct_with_derive`.
2023-01-30 12:00:42 +11:00
Matthias Krüger
77e78e2887
Rollup merge of #107078 - ehuss:invalid_doc_attributes-docs, r=jackh726
Update wording of invalid_doc_attributes docs.

There was a typo in the original docs for `invalid_doc_attributes`. I felt it could use a little rewording to try to clarify the reasoning for the lint. Also, this adds the future-incompatible notice.
2023-01-29 20:03:37 +01:00
bors
940d00f2f6 Auto merge of #107185 - compiler-errors:rollup-wkomjma, r=compiler-errors
Rollup of 8 pull requests

Successful merges:

 - #103418 (Add `SEMICOLON_IN_EXPRESSIONS_FROM_MACROS` to future-incompat report)
 - #106113 (llvm-wrapper: adapt for LLVM API change)
 - #106144 (Improve the documentation of `black_box`)
 - #106578 (Label closure captures/generator locals that make opaque types recursive)
 - #106749 (Update cc to 1.0.77)
 - #106935 (Fix `SingleUseLifetime` ICE)
 - #107015 (Re-enable building rust-analyzer on riscv64)
 - #107029 (Add new bootstrap members to triagebot.toml)

Failed merges:

r? `@ghost`
`@rustbot` modify labels: rollup
2023-01-22 06:53:36 +00:00
Michael Goulet
8a830cf182
Rollup merge of #106935 - TaKO8Ki:fix-104440, r=cjgillot
Fix `SingleUseLifetime` ICE

Fixes #104440
cc: ``@matthiaskrgr``
2023-01-21 23:21:00 -05:00
bors
85da15c016 Auto merge of #107133 - pnkfelix:revert-pr-84022-for-issue-106337, r=Mark-Simulacrum
Revert "Make PROC_MACRO_DERIVE_RESOLUTION_FALLBACK a hard error"

This reverts commit 7d82cadd97 aka PR #84022

I am doing this to buy us some time with respect to issue #106337 w.r.t. the 1.67 release.
2023-01-22 03:58:52 +00:00
Aaron Hill
dc8876196b
Add SEMICOLON_IN_EXPRESSIONS_FROM_MACROS to future-incompat report 2023-01-21 14:38:25 -06:00
bors
005fc0f00f Auto merge of #106977 - michaelwoerister:unord_id_collections, r=oli-obk
Use UnordMap and UnordSet for id collections (DefIdMap, LocalDefIdMap, etc)

This PR changes the `rustc_data_structures::define_id_collections!` macro to use `UnordMap` and `UnordSet` instead of `FxHashMap` and `FxHashSet`. This should account for a large portion of hash-maps being used in places where they can cause trouble.

The changes required are moderate but non-zero:
- In some places the collections are extracted into sorted vecs.
- There are a few instances where for-loops have been changed to extends.

~~Let's see what the performance impact is. With a bit more refactoring, we might be able to get rid of some of the additional sorting -- but the change set is already big enough. Unless there's a performance impact, I'd like to do further changes in subsequent PRs.~~

Performance does not seem to be negatively affected ([perf-run here](https://github.com/rust-lang/rust/pull/106977#issuecomment-1396776699)).

Part of [MCP 533](https://github.com/rust-lang/compiler-team/issues/533).

r? `@ghost`
2023-01-21 14:18:17 +00:00
Felix S. Klock II
5fa1347331 Revert "Make PROC_MACRO_DERIVE_RESOLUTION_FALLBACK a hard error"
This reverts commit 7d82cadd97.

I am doing this to buy us some time with respect to issue #106337 w.r.t. the
1.67 release.
2023-01-20 17:13:55 -05:00
--global
1cbce729c7 Add compile_fail to doctest for bindings_with_variant_name 2023-01-20 02:26:12 -05:00
--global
734f375019 Change bindings_with_variant_name to deny-by-default 2023-01-20 02:26:12 -05:00
Eric Huss
66f60e550e Update wording of invalid_doc_attributes docs. 2023-01-19 08:55:05 -08:00