rust/tests/ui/object-safety/avoid-ice-on-warning-3.stderr

warning: trait objects without an explicit `dyn` are deprecated
  --> $DIR/avoid-ice-on-warning-3.rs:9:19
   |
LL | trait A { fn g(b: B) -> B; }
   |                   ^
   |
   = warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!
   = note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>
   = note: `B` it is not object safe, so it can't be `dyn`
   = note: `#[warn(bare_trait_objects)]` on by default
help: use a new generic type parameter, constrained by `B`
   |
LL | trait A { fn g<T: B>(b: T) -> B; }
   |               ++++++    ~
help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
   |
LL | trait A { fn g(b: impl B) -> B; }
   |                   ++++

warning: trait objects without an explicit `dyn` are deprecated
  --> $DIR/avoid-ice-on-warning-3.rs:9:25
   |
LL | trait A { fn g(b: B) -> B; }
   |                         ^
   |
   = warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!
   = note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>
help: `B` is not object safe, use `impl B` to return an opaque type, as long as you return a single underlying type
   |
LL | trait A { fn g(b: B) -> impl B; }
   |                         ++++

warning: trait objects without an explicit `dyn` are deprecated
  --> $DIR/avoid-ice-on-warning-3.rs:1:19
   |
LL | trait B { fn f(a: A) -> A; }
   |                   ^
   |
   = warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!
   = note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>
   = note: `A` it is not object safe, so it can't be `dyn`
help: use a new generic type parameter, constrained by `A`
   |
LL | trait B { fn f<T: A>(a: T) -> A; }
   |               ++++++    ~
help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
   |
LL | trait B { fn f(a: impl A) -> A; }
   |                   ++++

warning: trait objects without an explicit `dyn` are deprecated
  --> $DIR/avoid-ice-on-warning-3.rs:1:25
   |
LL | trait B { fn f(a: A) -> A; }
   |                         ^
   |
   = warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!
   = note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>
help: `A` is not object safe, use `impl A` to return an opaque type, as long as you return a single underlying type
   |
LL | trait B { fn f(a: A) -> impl A; }
   |                         ++++

warning: trait objects without an explicit `dyn` are deprecated
  --> $DIR/avoid-ice-on-warning-3.rs:1:19
   |
LL | trait B { fn f(a: A) -> A; }
   |                   ^
   |
   = warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!
   = note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>
   = note: `A` it is not object safe, so it can't be `dyn`
   = note: duplicate diagnostic emitted due to `-Z deduplicate-diagnostics=no`
help: use a new generic type parameter, constrained by `A`
   |
LL | trait B { fn f<T: A>(a: T) -> A; }
   |               ++++++    ~
help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
   |
LL | trait B { fn f(a: impl A) -> A; }
   |                   ++++

error[E0038]: the trait `A` cannot be made into an object
  --> $DIR/avoid-ice-on-warning-3.rs:1:19
   |
LL | trait B { fn f(a: A) -> A; }
   |                   ^ `A` cannot be made into an object
   |
note: for a trait to be "object safe" it needs to allow building a vtable to allow the call to be resolvable dynamically; for more information visit <https://doc.rust-lang.org/reference/items/traits.html#object-safety>
  --> $DIR/avoid-ice-on-warning-3.rs:9:14
   |
LL | trait A { fn g(b: B) -> B; }
   |       -      ^ ...because associated function `g` has no `self` parameter
   |       |
   |       this trait cannot be made into an object...
help: consider turning `g` into a method by giving it a `&self` argument
   |
LL | trait A { fn g(&self, b: B) -> B; }
   |                ++++++
help: alternatively, consider constraining `g` so it does not apply to trait objects
   |
LL | trait A { fn g(b: B) -> B where Self: Sized; }
   |                           +++++++++++++++++

warning: trait objects without an explicit `dyn` are deprecated
  --> $DIR/avoid-ice-on-warning-3.rs:9:19
   |
LL | trait A { fn g(b: B) -> B; }
   |                   ^
   |
   = warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!
   = note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>
   = note: `B` it is not object safe, so it can't be `dyn`
   = note: duplicate diagnostic emitted due to `-Z deduplicate-diagnostics=no`
help: use a new generic type parameter, constrained by `B`
   |
LL | trait A { fn g<T: B>(b: T) -> B; }
   |               ++++++    ~
help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
   |
LL | trait A { fn g(b: impl B) -> B; }
   |                   ++++

error[E0038]: the trait `B` cannot be made into an object
  --> $DIR/avoid-ice-on-warning-3.rs:9:19
   |
LL | trait A { fn g(b: B) -> B; }
   |                   ^ `B` cannot be made into an object
   |
note: for a trait to be "object safe" it needs to allow building a vtable to allow the call to be resolvable dynamically; for more information visit <https://doc.rust-lang.org/reference/items/traits.html#object-safety>
  --> $DIR/avoid-ice-on-warning-3.rs:1:14
   |
LL | trait B { fn f(a: A) -> A; }
   |       -      ^ ...because associated function `f` has no `self` parameter
   |       |
   |       this trait cannot be made into an object...
help: consider turning `f` into a method by giving it a `&self` argument
   |
LL | trait B { fn f(&self, a: A) -> A; }
   |                ++++++
help: alternatively, consider constraining `f` so it does not apply to trait objects
   |
LL | trait B { fn f(a: A) -> A where Self: Sized; }
   |                           +++++++++++++++++

error: aborting due to 2 previous errors; 6 warnings emitted

For more information about this error, try `rustc --explain E0038`.
Update tests after rebase Fix #119652. 2024-01-19 23:49:40 +00:00			warning: trait objects without an explicit `dyn` are deprecated
			`--> $DIR/avoid-ice-on-warning-3.rs:9:19`
			`\|`
			`LL \| trait A { fn g(b: B) -> B; }`
			`\| ^`
			`\|`
			`= warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!`
			`= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>`
			= note: `B` it is not object safe, so it can't be `dyn`
			= note: `#[warn(bare_trait_objects)]` on by default
			help: use a new generic type parameter, constrained by `B`
			`\|`
			`LL \| trait A { fn g<T: B>(b: T) -> B; }`
			`\| ++++++ ~`
			help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
			`\|`
			`LL \| trait A { fn g(b: impl B) -> B; }`
			`\| ++++`

			warning: trait objects without an explicit `dyn` are deprecated
			`--> $DIR/avoid-ice-on-warning-3.rs:9:25`
			`\|`
			`LL \| trait A { fn g(b: B) -> B; }`
			`\| ^`
			`\|`
			`= warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!`
			`= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>`
			help: `B` is not object safe, use `impl B` to return an opaque type, as long as you return a single underlying type
			`\|`
			`LL \| trait A { fn g(b: B) -> impl B; }`
			`\| ++++`

			warning: trait objects without an explicit `dyn` are deprecated
			`--> $DIR/avoid-ice-on-warning-3.rs:1:19`
			`\|`
			`LL \| trait B { fn f(a: A) -> A; }`
			`\| ^`
			`\|`
			`= warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!`
			`= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>`
			= note: `A` it is not object safe, so it can't be `dyn`
			help: use a new generic type parameter, constrained by `A`
			`\|`
			`LL \| trait B { fn f<T: A>(a: T) -> A; }`
			`\| ++++++ ~`
			help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
			`\|`
			`LL \| trait B { fn f(a: impl A) -> A; }`
			`\| ++++`

			warning: trait objects without an explicit `dyn` are deprecated
			`--> $DIR/avoid-ice-on-warning-3.rs:1:25`
			`\|`
			`LL \| trait B { fn f(a: A) -> A; }`
			`\| ^`
			`\|`
			`= warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!`
			`= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>`
			help: `A` is not object safe, use `impl A` to return an opaque type, as long as you return a single underlying type
			`\|`
			`LL \| trait B { fn f(a: A) -> impl A; }`
			`\| ++++`

			warning: trait objects without an explicit `dyn` are deprecated
			`--> $DIR/avoid-ice-on-warning-3.rs:1:19`
			`\|`
			`LL \| trait B { fn f(a: A) -> A; }`
			`\| ^`
			`\|`
			`= warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!`
			`= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>`
			= note: `A` it is not object safe, so it can't be `dyn`
			= note: duplicate diagnostic emitted due to `-Z deduplicate-diagnostics=no`
			help: use a new generic type parameter, constrained by `A`
			`\|`
			`LL \| trait B { fn f<T: A>(a: T) -> A; }`
			`\| ++++++ ~`
			help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
			`\|`
			`LL \| trait B { fn f(a: impl A) -> A; }`
			`\| ++++`

			error[E0038]: the trait `A` cannot be made into an object
			`--> $DIR/avoid-ice-on-warning-3.rs:1:19`
			`\|`
			`LL \| trait B { fn f(a: A) -> A; }`
			\| ^ `A` cannot be made into an object
			`\|`
			`note: for a trait to be "object safe" it needs to allow building a vtable to allow the call to be resolvable dynamically; for more information visit <https://doc.rust-lang.org/reference/items/traits.html#object-safety>`
			`--> $DIR/avoid-ice-on-warning-3.rs:9:14`
			`\|`
			`LL \| trait A { fn g(b: B) -> B; }`
			\| - ^ ...because associated function `g` has no `self` parameter
			`\| \|`
			`\| this trait cannot be made into an object...`
			help: consider turning `g` into a method by giving it a `&self` argument
			`\|`
			`LL \| trait A { fn g(&self, b: B) -> B; }`
			`\| ++++++`
			help: alternatively, consider constraining `g` so it does not apply to trait objects
			`\|`
			`LL \| trait A { fn g(b: B) -> B where Self: Sized; }`
			`\| +++++++++++++++++`

			warning: trait objects without an explicit `dyn` are deprecated
			`--> $DIR/avoid-ice-on-warning-3.rs:9:19`
			`\|`
			`LL \| trait A { fn g(b: B) -> B; }`
			`\| ^`
			`\|`
			`= warning: this is accepted in the current edition (Rust 2015) but is a hard error in Rust 2021!`
			`= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2021/warnings-promoted-to-error.html>`
			= note: `B` it is not object safe, so it can't be `dyn`
			= note: duplicate diagnostic emitted due to `-Z deduplicate-diagnostics=no`
			help: use a new generic type parameter, constrained by `B`
			`\|`
			`LL \| trait A { fn g<T: B>(b: T) -> B; }`
			`\| ++++++ ~`
			help: you can also use an opaque type, but users won't be able to specify the type parameter when calling the `fn`, having to rely exclusively on type inference
			`\|`
			`LL \| trait A { fn g(b: impl B) -> B; }`
			`\| ++++`

			error[E0038]: the trait `B` cannot be made into an object
			`--> $DIR/avoid-ice-on-warning-3.rs:9:19`
			`\|`
			`LL \| trait A { fn g(b: B) -> B; }`
			\| ^ `B` cannot be made into an object
			`\|`
			`note: for a trait to be "object safe" it needs to allow building a vtable to allow the call to be resolvable dynamically; for more information visit <https://doc.rust-lang.org/reference/items/traits.html#object-safety>`
			`--> $DIR/avoid-ice-on-warning-3.rs:1:14`
			`\|`
			`LL \| trait B { fn f(a: A) -> A; }`
			\| - ^ ...because associated function `f` has no `self` parameter
			`\| \|`
			`\| this trait cannot be made into an object...`
			help: consider turning `f` into a method by giving it a `&self` argument
			`\|`
			`LL \| trait B { fn f(&self, a: A) -> A; }`
			`\| ++++++`
			help: alternatively, consider constraining `f` so it does not apply to trait objects
			`\|`
			`LL \| trait B { fn f(a: A) -> A where Self: Sized; }`
			`\| +++++++++++++++++`

			`error: aborting due to 2 previous errors; 6 warnings emitted`

			For more information about this error, try `rustc --explain E0038`.