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Tracking issue for member constraints in region inference #61997

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nikomatsakis opened this issue Jun 20, 2019 · 3 comments
Closed
2 of 3 tasks

Tracking issue for member constraints in region inference #61997

nikomatsakis opened this issue Jun 20, 2019 · 3 comments
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A-impl-trait Area: `impl Trait`. Universally / existentially quantified anonymous types with static dispatch. A-inference Area: Type inference A-lifetimes Area: Lifetimes / regions B-unstable Blocker: Implemented in the nightly compiler and unstable. C-tracking-issue Category: A tracking issue for an RFC or an unstable feature. F-member_constraints `#[feature(member_constraints)]` T-lang Relevant to the language team, which will review and decide on the PR/issue.

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@nikomatsakis
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nikomatsakis commented Jun 20, 2019

Member constraints

#61775 introduced "member constraints" as part of stabilizing async functions. These extend region inference to accommodate impl Trait return types that contain multiple unrelated lifetimes (e.g., impl Trait<'a, 'b> where neither 'a: 'b nor 'b: 'a). We decided to introduce a feature gate for other cases until we have time to gain more experience.

Learn more

The working of these constraints is described in the rustc-guide -- as of this writing, however, the PR has not yet landed.

Current status

Related issues

@nikomatsakis nikomatsakis added T-lang Relevant to the language team, which will review and decide on the PR/issue. B-unstable Blocker: Implemented in the nightly compiler and unstable. C-tracking-issue Category: A tracking issue for an RFC or an unstable feature. labels Jun 20, 2019
@Centril Centril added A-impl-trait Area: `impl Trait`. Universally / existentially quantified anonymous types with static dispatch. A-inference Area: Type inference A-lifetimes Area: Lifetimes / regions labels Jun 20, 2019
@Centril Centril added the F-member_constraints `#[feature(member_constraints)]` label Jul 28, 2019
@runiq
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runiq commented Jul 29, 2019

Triage: The first two boxes can be checked and the rustc-guide PR has landed, so this:

as of this writing, however, the PR has not yet landed.

is inaccurate now, which is a good thing. :)

@nikomatsakis
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I am beginning work towards stabilizing this.

@rustbot claim

JohnTitor added a commit to JohnTitor/rust that referenced this issue May 25, 2021
…raints-61997, r=jackh726

stabilize member constraints

Stabilizes the use of "member constraints" in solving `impl Trait` bindings. This is a step towards stabilizing a "MVP" of "named impl Trait".

# Member constraint stabilization report

| Info | |
| --- | --- |
| Tracking issue | [rust-lang#61997](rust-lang#61997) |
| Implementation history | [rust-lang#61775] |
| rustc-dev-guide coverage | [link](https://rustc-dev-guide.rust-lang.org/borrow_check/region_inference/member_constraints.html) |
| Complications | [rust-lang#61773] |

[rust-lang#61775]: rust-lang#61775
[rust-lang#61773]: rust-lang#61773

## Background

Member constraints are an extension to our region solver that was introduced to make async fn region solving tractable. There are used in situations like the following:

```rust
fn foo<'a, 'b>(...) -> impl Trait<'a, 'b> { .. }
```

The problem here is that every region R in the hidden type must be equal to *either* `'a` *or* `'b` (or `'static`). This cannot be expressed simply via 'outlives constriants' like `R: 'a`. Therefore, we introduce a 'member constraint' `R member of ['a, 'b]`.

These constraints were introduced in [rust-lang#61775]. At the time, we kept them feature gated and used them only for `impl Trait` return types that are derived from `async fn`. The intention, however, was always to support them in other contexts once we had time to gain more experience with them.

**In the time since their introduction, we have encountered no surprises or bugs due to these member constraints.** They are tested extensively as part of every async function that involves multiple unrelated lifetimes in its arguments.

## Tests

The behavior of member constraints is covered by the following tests:

* [`src/test/ui/async-await/multiple-lifetimes`](https://github.com/rust-lang/rust/tree/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes) -- tests using the async await, which are mostly already stabilized
* [`src/test/ui/impl-trait/multiple-lifetimes.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes.rs)
* [`src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs)

These tests cover a number of scenarios:

* `-> implTrait<'a, 'b>` with unrelated lifetimes `'a` and `'b`, as described above
* `async fn` that returns an `impl Trait` like the previous case, which desugars to a kind of "nested" impl trait like `impl Future<Output = impl Trait<'a, 'b>>`

## Potential concerns

There is a potential interaction with `impl Trait` on local variables, described in [rust-lang#61773]. The challenge is that if you have a program like:

```rust=
trait Foo<'_> { }
impl Foo<'_> for &u32 { }

fn bar() {
  let x: impl Foo<'_> = &44; // let's call the region variable for `'_` `'1`
}
```

then we would wind up with `'0 member of ['1, 'static]`, where `'0` is the region variable in the hidden type (`&'0 u32`) and `'1` is the region variable in the bounds `Foo<'1>`. This is tricky because both `'0` and `'1` are being inferred -- so making them equal may have other repercussions.

That said, `impl Trait` in bindings are not stable, and the implementation is pretty far from stabilization. Moreover, the difficulty highlighted here is not due to the presence of member constraints -- it's inherent to the design of the language. In other words, stabilizing member constraints does not actually cause us to accept anything that would make this problem any harder.

So I don't see this as a blocker to stabilization of member constraints; it is potentially a blocker to stablization of `impl trait` in let bindings.
Dylan-DPC-zz pushed a commit to Dylan-DPC-zz/rust that referenced this issue May 26, 2021
…raints-61997, r=jackh726

stabilize member constraints

Stabilizes the use of "member constraints" in solving `impl Trait` bindings. This is a step towards stabilizing a "MVP" of "named impl Trait".

# Member constraint stabilization report

| Info | |
| --- | --- |
| Tracking issue | [rust-lang#61997](rust-lang#61997) |
| Implementation history | [rust-lang#61775] |
| rustc-dev-guide coverage | [link](https://rustc-dev-guide.rust-lang.org/borrow_check/region_inference/member_constraints.html) |
| Complications | [rust-lang#61773] |

[rust-lang#61775]: rust-lang#61775
[rust-lang#61773]: rust-lang#61773

## Background

Member constraints are an extension to our region solver that was introduced to make async fn region solving tractable. There are used in situations like the following:

```rust
fn foo<'a, 'b>(...) -> impl Trait<'a, 'b> { .. }
```

The problem here is that every region R in the hidden type must be equal to *either* `'a` *or* `'b` (or `'static`). This cannot be expressed simply via 'outlives constriants' like `R: 'a`. Therefore, we introduce a 'member constraint' `R member of ['a, 'b]`.

These constraints were introduced in [rust-lang#61775]. At the time, we kept them feature gated and used them only for `impl Trait` return types that are derived from `async fn`. The intention, however, was always to support them in other contexts once we had time to gain more experience with them.

**In the time since their introduction, we have encountered no surprises or bugs due to these member constraints.** They are tested extensively as part of every async function that involves multiple unrelated lifetimes in its arguments.

## Tests

The behavior of member constraints is covered by the following tests:

* [`src/test/ui/async-await/multiple-lifetimes`](https://github.com/rust-lang/rust/tree/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes) -- tests using the async await, which are mostly already stabilized
* [`src/test/ui/impl-trait/multiple-lifetimes.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes.rs)
* [`src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs)

These tests cover a number of scenarios:

* `-> implTrait<'a, 'b>` with unrelated lifetimes `'a` and `'b`, as described above
* `async fn` that returns an `impl Trait` like the previous case, which desugars to a kind of "nested" impl trait like `impl Future<Output = impl Trait<'a, 'b>>`

## Potential concerns

There is a potential interaction with `impl Trait` on local variables, described in [rust-lang#61773]. The challenge is that if you have a program like:

```rust=
trait Foo<'_> { }
impl Foo<'_> for &u32 { }

fn bar() {
  let x: impl Foo<'_> = &44; // let's call the region variable for `'_` `'1`
}
```

then we would wind up with `'0 member of ['1, 'static]`, where `'0` is the region variable in the hidden type (`&'0 u32`) and `'1` is the region variable in the bounds `Foo<'1>`. This is tricky because both `'0` and `'1` are being inferred -- so making them equal may have other repercussions.

That said, `impl Trait` in bindings are not stable, and the implementation is pretty far from stabilization. Moreover, the difficulty highlighted here is not due to the presence of member constraints -- it's inherent to the design of the language. In other words, stabilizing member constraints does not actually cause us to accept anything that would make this problem any harder.

So I don't see this as a blocker to stabilization of member constraints; it is potentially a blocker to stablization of `impl trait` in let bindings.
Dylan-DPC-zz pushed a commit to Dylan-DPC-zz/rust that referenced this issue May 27, 2021
…raints-61997, r=jackh726

stabilize member constraints

Stabilizes the use of "member constraints" in solving `impl Trait` bindings. This is a step towards stabilizing a "MVP" of "named impl Trait".

# Member constraint stabilization report

| Info | |
| --- | --- |
| Tracking issue | [rust-lang#61997](rust-lang#61997) |
| Implementation history | [rust-lang#61775] |
| rustc-dev-guide coverage | [link](https://rustc-dev-guide.rust-lang.org/borrow_check/region_inference/member_constraints.html) |
| Complications | [rust-lang#61773] |

[rust-lang#61775]: rust-lang#61775
[rust-lang#61773]: rust-lang#61773

## Background

Member constraints are an extension to our region solver that was introduced to make async fn region solving tractable. There are used in situations like the following:

```rust
fn foo<'a, 'b>(...) -> impl Trait<'a, 'b> { .. }
```

The problem here is that every region R in the hidden type must be equal to *either* `'a` *or* `'b` (or `'static`). This cannot be expressed simply via 'outlives constriants' like `R: 'a`. Therefore, we introduce a 'member constraint' `R member of ['a, 'b]`.

These constraints were introduced in [rust-lang#61775]. At the time, we kept them feature gated and used them only for `impl Trait` return types that are derived from `async fn`. The intention, however, was always to support them in other contexts once we had time to gain more experience with them.

**In the time since their introduction, we have encountered no surprises or bugs due to these member constraints.** They are tested extensively as part of every async function that involves multiple unrelated lifetimes in its arguments.

## Tests

The behavior of member constraints is covered by the following tests:

* [`src/test/ui/async-await/multiple-lifetimes`](https://github.com/rust-lang/rust/tree/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes) -- tests using the async await, which are mostly already stabilized
* [`src/test/ui/impl-trait/multiple-lifetimes.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes.rs)
* [`src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs)

These tests cover a number of scenarios:

* `-> implTrait<'a, 'b>` with unrelated lifetimes `'a` and `'b`, as described above
* `async fn` that returns an `impl Trait` like the previous case, which desugars to a kind of "nested" impl trait like `impl Future<Output = impl Trait<'a, 'b>>`

## Potential concerns

There is a potential interaction with `impl Trait` on local variables, described in [rust-lang#61773]. The challenge is that if you have a program like:

```rust=
trait Foo<'_> { }
impl Foo<'_> for &u32 { }

fn bar() {
  let x: impl Foo<'_> = &44; // let's call the region variable for `'_` `'1`
}
```

then we would wind up with `'0 member of ['1, 'static]`, where `'0` is the region variable in the hidden type (`&'0 u32`) and `'1` is the region variable in the bounds `Foo<'1>`. This is tricky because both `'0` and `'1` are being inferred -- so making them equal may have other repercussions.

That said, `impl Trait` in bindings are not stable, and the implementation is pretty far from stabilization. Moreover, the difficulty highlighted here is not due to the presence of member constraints -- it's inherent to the design of the language. In other words, stabilizing member constraints does not actually cause us to accept anything that would make this problem any harder.

So I don't see this as a blocker to stabilization of member constraints; it is potentially a blocker to stablization of `impl trait` in let bindings.
Dylan-DPC-zz pushed a commit to Dylan-DPC-zz/rust that referenced this issue May 27, 2021
…raints-61997, r=jackh726

stabilize member constraints

Stabilizes the use of "member constraints" in solving `impl Trait` bindings. This is a step towards stabilizing a "MVP" of "named impl Trait".

# Member constraint stabilization report

| Info | |
| --- | --- |
| Tracking issue | [rust-lang#61997](rust-lang#61997) |
| Implementation history | [rust-lang#61775] |
| rustc-dev-guide coverage | [link](https://rustc-dev-guide.rust-lang.org/borrow_check/region_inference/member_constraints.html) |
| Complications | [rust-lang#61773] |

[rust-lang#61775]: rust-lang#61775
[rust-lang#61773]: rust-lang#61773

## Background

Member constraints are an extension to our region solver that was introduced to make async fn region solving tractable. There are used in situations like the following:

```rust
fn foo<'a, 'b>(...) -> impl Trait<'a, 'b> { .. }
```

The problem here is that every region R in the hidden type must be equal to *either* `'a` *or* `'b` (or `'static`). This cannot be expressed simply via 'outlives constriants' like `R: 'a`. Therefore, we introduce a 'member constraint' `R member of ['a, 'b]`.

These constraints were introduced in [rust-lang#61775]. At the time, we kept them feature gated and used them only for `impl Trait` return types that are derived from `async fn`. The intention, however, was always to support them in other contexts once we had time to gain more experience with them.

**In the time since their introduction, we have encountered no surprises or bugs due to these member constraints.** They are tested extensively as part of every async function that involves multiple unrelated lifetimes in its arguments.

## Tests

The behavior of member constraints is covered by the following tests:

* [`src/test/ui/async-await/multiple-lifetimes`](https://github.com/rust-lang/rust/tree/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes) -- tests using the async await, which are mostly already stabilized
* [`src/test/ui/impl-trait/multiple-lifetimes.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes.rs)
* [`src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/impl-trait/multiple-lifetimes/ordinary-bounds-unsuited.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-fg.rs)
* [`src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs`](https://github.com/rust-lang/rust/blob/20e032e65007ff1376e8480c1fbdb0a5068028fa/src/test/ui/async-await/multiple-lifetimes/ret-impl-trait-one.rs)

These tests cover a number of scenarios:

* `-> implTrait<'a, 'b>` with unrelated lifetimes `'a` and `'b`, as described above
* `async fn` that returns an `impl Trait` like the previous case, which desugars to a kind of "nested" impl trait like `impl Future<Output = impl Trait<'a, 'b>>`

## Potential concerns

There is a potential interaction with `impl Trait` on local variables, described in [rust-lang#61773]. The challenge is that if you have a program like:

```rust=
trait Foo<'_> { }
impl Foo<'_> for &u32 { }

fn bar() {
  let x: impl Foo<'_> = &44; // let's call the region variable for `'_` `'1`
}
```

then we would wind up with `'0 member of ['1, 'static]`, where `'0` is the region variable in the hidden type (`&'0 u32`) and `'1` is the region variable in the bounds `Foo<'1>`. This is tricky because both `'0` and `'1` are being inferred -- so making them equal may have other repercussions.

That said, `impl Trait` in bindings are not stable, and the implementation is pretty far from stabilization. Moreover, the difficulty highlighted here is not due to the presence of member constraints -- it's inherent to the design of the language. In other words, stabilizing member constraints does not actually cause us to accept anything that would make this problem any harder.

So I don't see this as a blocker to stabilization of member constraints; it is potentially a blocker to stablization of `impl trait` in let bindings.
@nikomatsakis
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This was completed in #84701

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Labels
A-impl-trait Area: `impl Trait`. Universally / existentially quantified anonymous types with static dispatch. A-inference Area: Type inference A-lifetimes Area: Lifetimes / regions B-unstable Blocker: Implemented in the nightly compiler and unstable. C-tracking-issue Category: A tracking issue for an RFC or an unstable feature. F-member_constraints `#[feature(member_constraints)]` T-lang Relevant to the language team, which will review and decide on the PR/issue.
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