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Ban associated type bounds in bad positions #108063
Ban associated type bounds in bad positions #108063
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☔ The latest upstream changes (presumably #101841) made this pull request unmergeable. Please resolve the merge conflicts. |
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Looks pretty good! Just a few questions and wording suggestions.
tests/ui/associated-type-bounds/bad-universal-in-dyn-in-where-clause.stderr
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☔ The latest upstream changes (presumably #103042) made this pull request unmergeable. Please resolve the merge conflicts. |
This makes the check for when associated type bounds more accurate
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@bors r+
@bors r+ |
…iaskrgr Rollup of 7 pull requests Successful merges: - rust-lang#108063 (Ban associated type bounds in bad positions) - rust-lang#108208 (Correctly handle aggregates in DataflowConstProp) - rust-lang#108218 (Windows: Quote more batch file arguments) - rust-lang#108349 (rustdoc: Prevent duplicated imports) - rust-lang#108350 (Use associated type bounds in some places in the compiler) - rust-lang#108358 (Add git config command to `.git-blame-ignore-revs`) - rust-lang#108373 (hir-analysis: make where-clause-on-main diagnostic translatable) Failed merges: r? `@ghost` `@rustbot` modify labels: rollup
…li-obk Stabilize associated type bounds (RFC 2289) This PR stabilizes associated type bounds, which were laid out in [RFC 2289]. This gives us a shorthand to express nested type bounds that would otherwise need to be expressed with nested `impl Trait` or broken into several `where` clauses. ### What are we stabilizing? We're stabilizing the associated item bounds syntax, which allows us to put bounds in associated type position within other bounds, i.e. `T: Trait<Assoc: Bounds...>`. See [RFC 2289] for motivation. In all position, the associated type bound syntax expands into a set of two (or more) bounds, and never anything else (see "How does this differ[...]" section for more info). Associated type bounds are stabilized in four positions: * **`where` clauses (and APIT)** - This is equivalent to breaking up the bound into two (or more) `where` clauses. For example, `where T: Trait<Assoc: Bound>` is equivalent to `where T: Trait, <T as Trait>::Assoc: Bound`. * **Supertraits** - Similar to above, `trait CopyIterator: Iterator<Item: Copy> {}`. This is almost equivalent to breaking up the bound into two (or more) `where` clauses; however, the bound on the associated item is implied whenever the trait is used. See rust-lang#112573/rust-lang#112629. * **Associated type item bounds** - This allows constraining the *nested* rigid projections that are associated with a trait's associated types. e.g. `trait Trait { type Assoc: Trait2<Assoc2: Copy>; }`. * **opaque item bounds (RPIT, TAIT)** - This allows constraining associated types that are associated with the opaque without having to *name* the opaque. For example, `impl Iterator<Item: Copy>` defines an iterator whose item is `Copy` without having to actually name that item bound. The latter three are not expressible in surface Rust (though for associated type item bounds, this will change in rust-lang#120752, which I don't believe should block this PR), so this does represent a slight expansion of what can be expressed in trait bounds. ### How does this differ from the RFC? Compared to the RFC, the current implementation *always* desugars associated type bounds to sets of `ty::Clause`s internally. Specifically, it does *not* introduce a position-dependent desugaring as laid out in [RFC 2289], and in particular: * It does *not* desugar to anonymous associated items in associated type item bounds. * It does *not* desugar to nested RPITs in RPIT bounds, nor nested TAITs in TAIT bounds. This position-dependent desugaring laid out in the RFC existed simply to side-step limitations of the trait solver, which have mostly been fixed in rust-lang#120584. The desugaring laid out in the RFC also added unnecessary complication to the design of the feature, and introduces its own limitations to, for example: * Conditionally lowering to nested `impl Trait` in certain positions such as RPIT and TAIT means that we inherit the limitations of RPIT/TAIT, namely lack of support for higher-ranked opaque inference. See this code example: rust-lang#120752 (comment). * Introducing anonymous associated types makes traits no longer object safe, since anonymous associated types are not nameable, and all associated types must be named in `dyn` types. This last point motivates why this PR is *not* stabilizing support for associated type bounds in `dyn` types, e.g, `dyn Assoc<Item: Bound>`. Why? Because `dyn` types need to have *concrete* types for all associated items, this would necessitate a distinct lowering for associated type bounds, which seems both complicated and unnecessary compared to just requiring the user to write `impl Trait` themselves. See rust-lang#120719. ### Implementation history: Limited to the significant behavioral changes and fixes and relevant PRs, ping me if I left something out-- * rust-lang#57428 * rust-lang#108063 * rust-lang#110512 * rust-lang#112629 * rust-lang#120719 * rust-lang#120584 Closes rust-lang#52662 [RFC 2289]: https://rust-lang.github.io/rfcs/2289-associated-type-bounds.html
…-obk Stabilize associated type bounds (RFC 2289) This PR stabilizes associated type bounds, which were laid out in [RFC 2289]. This gives us a shorthand to express nested type bounds that would otherwise need to be expressed with nested `impl Trait` or broken into several `where` clauses. ### What are we stabilizing? We're stabilizing the associated item bounds syntax, which allows us to put bounds in associated type position within other bounds, i.e. `T: Trait<Assoc: Bounds...>`. See [RFC 2289] for motivation. In all position, the associated type bound syntax expands into a set of two (or more) bounds, and never anything else (see "How does this differ[...]" section for more info). Associated type bounds are stabilized in four positions: * **`where` clauses (and APIT)** - This is equivalent to breaking up the bound into two (or more) `where` clauses. For example, `where T: Trait<Assoc: Bound>` is equivalent to `where T: Trait, <T as Trait>::Assoc: Bound`. * **Supertraits** - Similar to above, `trait CopyIterator: Iterator<Item: Copy> {}`. This is almost equivalent to breaking up the bound into two (or more) `where` clauses; however, the bound on the associated item is implied whenever the trait is used. See rust-lang#112573/rust-lang#112629. * **Associated type item bounds** - This allows constraining the *nested* rigid projections that are associated with a trait's associated types. e.g. `trait Trait { type Assoc: Trait2<Assoc2: Copy>; }`. * **opaque item bounds (RPIT, TAIT)** - This allows constraining associated types that are associated with the opaque without having to *name* the opaque. For example, `impl Iterator<Item: Copy>` defines an iterator whose item is `Copy` without having to actually name that item bound. The latter three are not expressible in surface Rust (though for associated type item bounds, this will change in rust-lang#120752, which I don't believe should block this PR), so this does represent a slight expansion of what can be expressed in trait bounds. ### How does this differ from the RFC? Compared to the RFC, the current implementation *always* desugars associated type bounds to sets of `ty::Clause`s internally. Specifically, it does *not* introduce a position-dependent desugaring as laid out in [RFC 2289], and in particular: * It does *not* desugar to anonymous associated items in associated type item bounds. * It does *not* desugar to nested RPITs in RPIT bounds, nor nested TAITs in TAIT bounds. This position-dependent desugaring laid out in the RFC existed simply to side-step limitations of the trait solver, which have mostly been fixed in rust-lang#120584. The desugaring laid out in the RFC also added unnecessary complication to the design of the feature, and introduces its own limitations to, for example: * Conditionally lowering to nested `impl Trait` in certain positions such as RPIT and TAIT means that we inherit the limitations of RPIT/TAIT, namely lack of support for higher-ranked opaque inference. See this code example: rust-lang#120752 (comment). * Introducing anonymous associated types makes traits no longer object safe, since anonymous associated types are not nameable, and all associated types must be named in `dyn` types. This last point motivates why this PR is *not* stabilizing support for associated type bounds in `dyn` types, e.g, `dyn Assoc<Item: Bound>`. Why? Because `dyn` types need to have *concrete* types for all associated items, this would necessitate a distinct lowering for associated type bounds, which seems both complicated and unnecessary compared to just requiring the user to write `impl Trait` themselves. See rust-lang#120719. ### Implementation history: Limited to the significant behavioral changes and fixes and relevant PRs, ping me if I left something out-- * rust-lang#57428 * rust-lang#108063 * rust-lang#110512 * rust-lang#112629 * rust-lang#120719 * rust-lang#120584 Closes rust-lang#52662 [RFC 2289]: https://rust-lang.github.io/rfcs/2289-associated-type-bounds.html
…-obk Stabilize associated type bounds (RFC 2289) This PR stabilizes associated type bounds, which were laid out in [RFC 2289]. This gives us a shorthand to express nested type bounds that would otherwise need to be expressed with nested `impl Trait` or broken into several `where` clauses. ### What are we stabilizing? We're stabilizing the associated item bounds syntax, which allows us to put bounds in associated type position within other bounds, i.e. `T: Trait<Assoc: Bounds...>`. See [RFC 2289] for motivation. In all position, the associated type bound syntax expands into a set of two (or more) bounds, and never anything else (see "How does this differ[...]" section for more info). Associated type bounds are stabilized in four positions: * **`where` clauses (and APIT)** - This is equivalent to breaking up the bound into two (or more) `where` clauses. For example, `where T: Trait<Assoc: Bound>` is equivalent to `where T: Trait, <T as Trait>::Assoc: Bound`. * **Supertraits** - Similar to above, `trait CopyIterator: Iterator<Item: Copy> {}`. This is almost equivalent to breaking up the bound into two (or more) `where` clauses; however, the bound on the associated item is implied whenever the trait is used. See rust-lang#112573/rust-lang#112629. * **Associated type item bounds** - This allows constraining the *nested* rigid projections that are associated with a trait's associated types. e.g. `trait Trait { type Assoc: Trait2<Assoc2: Copy>; }`. * **opaque item bounds (RPIT, TAIT)** - This allows constraining associated types that are associated with the opaque without having to *name* the opaque. For example, `impl Iterator<Item: Copy>` defines an iterator whose item is `Copy` without having to actually name that item bound. The latter three are not expressible in surface Rust (though for associated type item bounds, this will change in rust-lang#120752, which I don't believe should block this PR), so this does represent a slight expansion of what can be expressed in trait bounds. ### How does this differ from the RFC? Compared to the RFC, the current implementation *always* desugars associated type bounds to sets of `ty::Clause`s internally. Specifically, it does *not* introduce a position-dependent desugaring as laid out in [RFC 2289], and in particular: * It does *not* desugar to anonymous associated items in associated type item bounds. * It does *not* desugar to nested RPITs in RPIT bounds, nor nested TAITs in TAIT bounds. This position-dependent desugaring laid out in the RFC existed simply to side-step limitations of the trait solver, which have mostly been fixed in rust-lang#120584. The desugaring laid out in the RFC also added unnecessary complication to the design of the feature, and introduces its own limitations to, for example: * Conditionally lowering to nested `impl Trait` in certain positions such as RPIT and TAIT means that we inherit the limitations of RPIT/TAIT, namely lack of support for higher-ranked opaque inference. See this code example: rust-lang#120752 (comment). * Introducing anonymous associated types makes traits no longer object safe, since anonymous associated types are not nameable, and all associated types must be named in `dyn` types. This last point motivates why this PR is *not* stabilizing support for associated type bounds in `dyn` types, e.g, `dyn Assoc<Item: Bound>`. Why? Because `dyn` types need to have *concrete* types for all associated items, this would necessitate a distinct lowering for associated type bounds, which seems both complicated and unnecessary compared to just requiring the user to write `impl Trait` themselves. See rust-lang#120719. ### Implementation history: Limited to the significant behavioral changes and fixes and relevant PRs, ping me if I left something out-- * rust-lang#57428 * rust-lang#108063 * rust-lang#110512 * rust-lang#112629 * rust-lang#120719 * rust-lang#120584 Closes rust-lang#52662 [RFC 2289]: https://rust-lang.github.io/rfcs/2289-associated-type-bounds.html
We should not try to lower associated type bounds into TAITs in positions where
impl Trait
is not allowed (except for inwhere
clauses, likewhere T: Trait<Assoc: Bound>
).This is achieved by using the same
rustc_ast_lowering
machinery as impl-trait does to characterize positions as universal/existential/disallowed.Fixes #106077
Split out the first commit into #108066, since it's not really related.