rust/tests/ui/derives/deriving-with-repr-packed-2.stderr

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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`.
2022-11-20 21:40:32 -06:00
error[E0599]: the method `clone` exists for struct `Foo<NonCopy>`, but its trait bounds were not satisfied
2022-09-30 07:54:30 -05:00
--> $DIR/deriving-with-repr-packed-2.rs:18:11
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`.
2022-11-20 21:40:32 -06:00
|
LL | pub struct Foo<T>(T, T, T);
| ----------------- method `clone` not found for this struct because it doesn't satisfy `Foo<NonCopy>: Clone`
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`.
2022-11-20 21:40:32 -06:00
LL |
LL | struct NonCopy;
| -------------- doesn't satisfy `NonCopy: Clone` or `NonCopy: Copy`
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`.
2022-11-20 21:40:32 -06:00
...
LL | _ = x.clone();
| ^^^^^ method cannot be called on `Foo<NonCopy>` due to unsatisfied trait bounds
|
note: there's an earlier shadowed binding `x` of type `Foo<u32>` that has method `clone` available
--> $DIR/deriving-with-repr-packed-2.rs:13:9
|
LL | let x: Foo<u32> = Foo(1, 2, 3);
| ^ `x` of type `Foo<u32>` that has method `clone` defined earlier here
...
LL | let x: Foo<NonCopy> = Foo(NonCopy, NonCopy, NonCopy);
| - earlier `x` shadowed here with type `Foo<NonCopy>`
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`.
2022-11-20 21:40:32 -06:00
note: the following trait bounds were not satisfied:
`NonCopy: Clone`
`NonCopy: Copy`
2022-09-30 07:54:30 -05:00
--> $DIR/deriving-with-repr-packed-2.rs:5:16
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`.
2022-11-20 21:40:32 -06:00
|
LL | #[derive(Copy, Clone, Default, PartialEq, Eq)]
| ^^^^^ unsatisfied trait bound introduced in this `derive` macro
help: consider annotating `NonCopy` with `#[derive(Clone, Copy)]`
|
2023-03-17 21:18:39 -05:00
LL + #[derive(Clone, Copy)]
LL | struct NonCopy;
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`.
2022-11-20 21:40:32 -06:00
|
error: aborting due to 1 previous error
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`.
2022-11-20 21:40:32 -06:00
For more information about this error, try `rustc --explain E0599`.