error: the type `&T` does not permit zero-initialization --> $DIR/invalid_value.rs:50:32 | LL | let _val: &'static T = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: references must be non-null note: the lint level is defined here --> $DIR/invalid_value.rs:6:9 | LL | #![deny(invalid_value)] | ^^^^^^^^^^^^^ error: the type `&T` does not permit being left uninitialized --> $DIR/invalid_value.rs:51:32 | LL | let _val: &'static T = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: references must be non-null error: the type `Wrap<&T>` does not permit zero-initialization --> $DIR/invalid_value.rs:53:38 | LL | let _val: Wrap<&'static T> = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: references must be non-null (in this struct field) --> $DIR/invalid_value.rs:17:18 | LL | struct Wrap { wrapped: T } | ^^^^^^^^^^ error: the type `Wrap<&T>` does not permit being left uninitialized --> $DIR/invalid_value.rs:54:38 | LL | let _val: Wrap<&'static T> = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: references must be non-null (in this struct field) --> $DIR/invalid_value.rs:17:18 | LL | struct Wrap { wrapped: T } | ^^^^^^^^^^ error: the type `!` does not permit zero-initialization --> $DIR/invalid_value.rs:61:23 | LL | let _val: ! = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: the `!` type has no valid value error: the type `!` does not permit being left uninitialized --> $DIR/invalid_value.rs:62:23 | LL | let _val: ! = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: the `!` type has no valid value error: the type `(i32, !)` does not permit zero-initialization --> $DIR/invalid_value.rs:64:30 | LL | let _val: (i32, !) = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: the `!` type has no valid value error: the type `(i32, !)` does not permit being left uninitialized --> $DIR/invalid_value.rs:65:30 | LL | let _val: (i32, !) = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: integers must not be uninitialized error: the type `Void` does not permit zero-initialization --> $DIR/invalid_value.rs:67:26 | LL | let _val: Void = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: enums with no inhabited variants have no valid value --> $DIR/invalid_value.rs:12:1 | LL | enum Void {} | ^^^^^^^^^ error: the type `Void` does not permit being left uninitialized --> $DIR/invalid_value.rs:68:26 | LL | let _val: Void = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: enums with no inhabited variants have no valid value --> $DIR/invalid_value.rs:12:1 | LL | enum Void {} | ^^^^^^^^^ error: the type `&i32` does not permit zero-initialization --> $DIR/invalid_value.rs:70:34 | LL | let _val: &'static i32 = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: references must be non-null error: the type `&i32` does not permit being left uninitialized --> $DIR/invalid_value.rs:71:34 | LL | let _val: &'static i32 = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: references must be non-null error: the type `Ref` does not permit zero-initialization --> $DIR/invalid_value.rs:73:25 | LL | let _val: Ref = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: references must be non-null (in this struct field) --> $DIR/invalid_value.rs:14:12 | LL | struct Ref(&'static i32); | ^^^^^^^^^^^^ error: the type `Ref` does not permit being left uninitialized --> $DIR/invalid_value.rs:74:25 | LL | let _val: Ref = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: references must be non-null (in this struct field) --> $DIR/invalid_value.rs:14:12 | LL | struct Ref(&'static i32); | ^^^^^^^^^^^^ error: the type `fn()` does not permit zero-initialization --> $DIR/invalid_value.rs:76:26 | LL | let _val: fn() = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: function pointers must be non-null error: the type `fn()` does not permit being left uninitialized --> $DIR/invalid_value.rs:77:26 | LL | let _val: fn() = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: function pointers must be non-null error: the type `Wrap` does not permit zero-initialization --> $DIR/invalid_value.rs:79:32 | LL | let _val: Wrap = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: function pointers must be non-null (in this struct field) --> $DIR/invalid_value.rs:17:18 | LL | struct Wrap { wrapped: T } | ^^^^^^^^^^ error: the type `Wrap` does not permit being left uninitialized --> $DIR/invalid_value.rs:80:32 | LL | let _val: Wrap = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: function pointers must be non-null (in this struct field) --> $DIR/invalid_value.rs:17:18 | LL | struct Wrap { wrapped: T } | ^^^^^^^^^^ error: the type `WrapEnum` does not permit zero-initialization --> $DIR/invalid_value.rs:82:36 | LL | let _val: WrapEnum = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: function pointers must be non-null (in this field of the only potentially inhabited enum variant) --> $DIR/invalid_value.rs:18:28 | LL | enum WrapEnum { Wrapped(T) } | ^ error: the type `WrapEnum` does not permit being left uninitialized --> $DIR/invalid_value.rs:83:36 | LL | let _val: WrapEnum = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: function pointers must be non-null (in this field of the only potentially inhabited enum variant) --> $DIR/invalid_value.rs:18:28 | LL | enum WrapEnum { Wrapped(T) } | ^ error: the type `Wrap<(RefPair, i32)>` does not permit zero-initialization --> $DIR/invalid_value.rs:85:42 | LL | let _val: Wrap<(RefPair, i32)> = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: references must be non-null (in this struct field) --> $DIR/invalid_value.rs:15:16 | LL | struct RefPair((&'static i32, i32)); | ^^^^^^^^^^^^^^^^^^^ error: the type `Wrap<(RefPair, i32)>` does not permit being left uninitialized --> $DIR/invalid_value.rs:86:42 | LL | let _val: Wrap<(RefPair, i32)> = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: references must be non-null (in this struct field) --> $DIR/invalid_value.rs:15:16 | LL | struct RefPair((&'static i32, i32)); | ^^^^^^^^^^^^^^^^^^^ error: the type `NonNull` does not permit zero-initialization --> $DIR/invalid_value.rs:88:34 | LL | let _val: NonNull = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::ptr::NonNull` must be non-null error: the type `NonNull` does not permit being left uninitialized --> $DIR/invalid_value.rs:89:34 | LL | let _val: NonNull = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::ptr::NonNull` must be non-null error: the type `(NonZeroU32, i32)` does not permit zero-initialization --> $DIR/invalid_value.rs:91:39 | LL | let _val: (NonZeroU32, i32) = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::num::NonZeroU32` must be non-null error: the type `(NonZeroU32, i32)` does not permit being left uninitialized --> $DIR/invalid_value.rs:92:39 | LL | let _val: (NonZeroU32, i32) = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::num::NonZeroU32` must be non-null error: the type `*const dyn Send` does not permit zero-initialization --> $DIR/invalid_value.rs:94:37 | LL | let _val: *const dyn Send = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: the vtable of a wide raw pointer must be non-null error: the type `*const dyn Send` does not permit being left uninitialized --> $DIR/invalid_value.rs:95:37 | LL | let _val: *const dyn Send = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: the vtable of a wide raw pointer must be non-null error: the type `[fn(); 2]` does not permit zero-initialization --> $DIR/invalid_value.rs:97:31 | LL | let _val: [fn(); 2] = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: function pointers must be non-null error: the type `[fn(); 2]` does not permit being left uninitialized --> $DIR/invalid_value.rs:98:31 | LL | let _val: [fn(); 2] = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: function pointers must be non-null error: the type `TwoUninhabited` does not permit zero-initialization --> $DIR/invalid_value.rs:100:36 | LL | let _val: TwoUninhabited = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: enums with no inhabited variants have no valid value --> $DIR/invalid_value.rs:42:1 | LL | enum TwoUninhabited { | ^^^^^^^^^^^^^^^^^^^ error: the type `TwoUninhabited` does not permit being left uninitialized --> $DIR/invalid_value.rs:101:36 | LL | let _val: TwoUninhabited = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: enums with no inhabited variants have no valid value --> $DIR/invalid_value.rs:42:1 | LL | enum TwoUninhabited { | ^^^^^^^^^^^^^^^^^^^ error: the type `OneFruitNonZero` does not permit zero-initialization --> $DIR/invalid_value.rs:103:37 | LL | let _val: OneFruitNonZero = mem::zeroed(); | ^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: `std::num::NonZeroU32` must be non-null (in this field of the only potentially inhabited enum variant) --> $DIR/invalid_value.rs:39:12 | LL | Banana(NonZeroU32), | ^^^^^^^^^^ error: the type `OneFruitNonZero` does not permit being left uninitialized --> $DIR/invalid_value.rs:104:37 | LL | let _val: OneFruitNonZero = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: `std::num::NonZeroU32` must be non-null (in this field of the only potentially inhabited enum variant) --> $DIR/invalid_value.rs:39:12 | LL | Banana(NonZeroU32), | ^^^^^^^^^^ error: the type `bool` does not permit being left uninitialized --> $DIR/invalid_value.rs:108:26 | LL | let _val: bool = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: booleans must be either `true` or `false` error: the type `Wrap` does not permit being left uninitialized --> $DIR/invalid_value.rs:111:32 | LL | let _val: Wrap = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: characters must be a valid Unicode codepoint (in this struct field) --> $DIR/invalid_value.rs:17:18 | LL | struct Wrap { wrapped: T } | ^^^^^^^^^^ error: the type `NonBig` does not permit being left uninitialized --> $DIR/invalid_value.rs:114:28 | LL | let _val: NonBig = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `NonBig` must be initialized inside its custom valid range error: the type `Fruit` does not permit being left uninitialized --> $DIR/invalid_value.rs:117:27 | LL | let _val: Fruit = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: enums with multiple inhabited variants have to be initialized to a variant --> $DIR/invalid_value.rs:26:1 | LL | enum Fruit { | ^^^^^^^^^^ error: the type `[bool; 2]` does not permit being left uninitialized --> $DIR/invalid_value.rs:120:31 | LL | let _val: [bool; 2] = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: booleans must be either `true` or `false` error: the type `i32` does not permit being left uninitialized --> $DIR/invalid_value.rs:123:25 | LL | let _val: i32 = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: integers must not be uninitialized error: the type `f32` does not permit being left uninitialized --> $DIR/invalid_value.rs:126:25 | LL | let _val: f32 = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: floats must not be uninitialized error: the type `*const ()` does not permit being left uninitialized --> $DIR/invalid_value.rs:129:31 | LL | let _val: *const () = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: raw pointers must not be uninitialized error: the type `*const [()]` does not permit being left uninitialized --> $DIR/invalid_value.rs:132:33 | LL | let _val: *const [()] = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: raw pointers must not be uninitialized error: the type `Result` does not permit being left uninitialized --> $DIR/invalid_value.rs:137:38 | LL | let _val: Result = mem::uninitialized(); | ^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | note: enums with multiple inhabited variants have to be initialized to a variant --> $SRC_DIR/core/src/result.rs:LL:COL | LL | pub enum Result { | ^^^^^^^^^^^^^^^^^^^^^ error: the type `&i32` does not permit zero-initialization --> $DIR/invalid_value.rs:145:34 | LL | let _val: &'static i32 = mem::transmute(0usize); | ^^^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: references must be non-null error: the type `&[i32]` does not permit zero-initialization --> $DIR/invalid_value.rs:146:36 | LL | let _val: &'static [i32] = mem::transmute((0usize, 0usize)); | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: references must be non-null error: the type `NonZeroU32` does not permit zero-initialization --> $DIR/invalid_value.rs:147:32 | LL | let _val: NonZeroU32 = mem::transmute(0); | ^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::num::NonZeroU32` must be non-null error: the type `NonNull` does not permit zero-initialization --> $DIR/invalid_value.rs:150:34 | LL | let _val: NonNull = MaybeUninit::zeroed().assume_init(); | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::ptr::NonNull` must be non-null error: the type `NonNull` does not permit being left uninitialized --> $DIR/invalid_value.rs:151:34 | LL | let _val: NonNull = MaybeUninit::uninit().assume_init(); | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: `std::ptr::NonNull` must be non-null error: the type `bool` does not permit being left uninitialized --> $DIR/invalid_value.rs:152:26 | LL | let _val: bool = MaybeUninit::uninit().assume_init(); | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | | | this code causes undefined behavior when executed | help: use `MaybeUninit` instead, and only call `assume_init` after initialization is done | = note: booleans must be either `true` or `false` error: aborting due to 50 previous errors