2022-02-10 11:40:06 -06:00
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#![warn(clippy::transmute_undefined_repr)]
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2022-06-04 06:34:07 -05:00
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#![allow(clippy::unit_arg, clippy::transmute_ptr_to_ref, clippy::useless_transmute)]
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2022-02-26 07:26:21 -06:00
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2022-03-24 08:50:04 -05:00
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use core::any::TypeId;
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2022-02-26 07:26:21 -06:00
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use core::ffi::c_void;
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2022-03-24 08:50:04 -05:00
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use core::mem::{size_of, transmute, MaybeUninit};
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2022-08-31 08:24:45 -05:00
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use core::ptr::NonNull;
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2022-02-10 11:40:06 -06:00
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fn value<T>() -> T {
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unimplemented!()
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}
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struct Empty;
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struct Ty<T>(T);
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struct Ty2<T, U>(T, U);
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#[repr(C)]
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struct Ty2C<T, U>(T, U);
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fn main() {
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unsafe {
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2022-02-26 07:26:21 -06:00
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let _: () = transmute(value::<Empty>());
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let _: Empty = transmute(value::<()>());
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let _: Ty<u32> = transmute(value::<u32>());
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let _: Ty<u32> = transmute(value::<u32>());
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2023-08-24 14:32:12 -05:00
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// Lint, Ty2 is unordered
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let _: Ty2C<u32, i32> = transmute(value::<Ty2<u32, i32>>());
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//~^ ERROR: transmute from `Ty2<u32, i32>` which has an undefined layout
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//~| NOTE: `-D clippy::transmute-undefined-repr` implied by `-D warnings`
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// Lint, Ty2 is unordered
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let _: Ty2<u32, i32> = transmute(value::<Ty2C<u32, i32>>());
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//~^ ERROR: transmute into `Ty2<u32, i32>` which has an undefined layout
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// Ok, Ty2 types are the same
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let _: Ty2<u32, i32> = transmute(value::<Ty<Ty2<u32, i32>>>());
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// Ok, Ty2 types are the same
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let _: Ty<Ty2<u32, i32>> = transmute(value::<Ty2<u32, i32>>());
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// Lint, different Ty2 instances
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let _: Ty2<u32, f32> = transmute(value::<Ty<Ty2<u32, i32>>>());
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//~^ ERROR: transmute from `Ty<Ty2<u32, i32>>` to `Ty2<u32, f32>`, both of which h
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//~| NOTE: two instances of the same generic type (`Ty2`) may have different layou
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// Lint, different Ty2 instances
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let _: Ty<Ty2<u32, i32>> = transmute(value::<Ty2<u32, f32>>());
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//~^ ERROR: transmute from `Ty2<u32, f32>` to `Ty<Ty2<u32, i32>>`, both of which h
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//~| NOTE: two instances of the same generic type (`Ty2`) may have different layou
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2022-02-26 07:26:21 -06:00
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let _: Ty<&()> = transmute(value::<&()>());
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let _: &() = transmute(value::<Ty<&()>>());
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2023-08-24 14:32:12 -05:00
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// Lint, different Ty2 instances
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let _: &Ty2<u32, f32> = transmute(value::<Ty<&Ty2<u32, i32>>>());
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//~^ ERROR: transmute from `Ty<&Ty2<u32, i32>>` to `&Ty2<u32, f32>`, both of which
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//~| NOTE: two instances of the same generic type (`Ty2`) may have different layou
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// Lint, different Ty2 instances
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let _: Ty<&Ty2<u32, i32>> = transmute(value::<&Ty2<u32, f32>>());
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//~^ ERROR: transmute from `&Ty2<u32, f32>` to `Ty<&Ty2<u32, i32>>`, both of which
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//~| NOTE: two instances of the same generic type (`Ty2`) may have different layou
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// Ok, pointer to usize conversion
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let _: Ty<usize> = transmute(value::<&Ty2<u32, i32>>());
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// Ok, pointer to usize conversion
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let _: &Ty2<u32, i32> = transmute(value::<Ty<usize>>());
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// Ok, transmute to byte array
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let _: Ty<[u8; 8]> = transmute(value::<Ty2<u32, i32>>());
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// Ok, transmute from byte array
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let _: Ty2<u32, i32> = transmute(value::<Ty<[u8; 8]>>());
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2022-02-26 07:26:21 -06:00
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// issue #8417
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2023-08-24 14:32:12 -05:00
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// Ok, Ty2 types are the same
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let _: Ty2C<Ty2<u32, i32>, ()> = transmute(value::<Ty2<u32, i32>>());
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// Ok, Ty2 types are the same
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let _: Ty2<u32, i32> = transmute(value::<Ty2C<Ty2<u32, i32>, ()>>());
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// Ok, Ty2 types are the same
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let _: &'static mut Ty2<u32, u32> = transmute(value::<Box<Ty2<u32, u32>>>());
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// Ok, Ty2 types are the same
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let _: Box<Ty2<u32, u32>> = transmute(value::<&'static mut Ty2<u32, u32>>());
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// Ok, Ty2 types are the same
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let _: *mut Ty2<u32, u32> = transmute(value::<Box<Ty2<u32, u32>>>());
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// Ok, Ty2 types are the same
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let _: Box<Ty2<u32, u32>> = transmute(value::<*mut Ty2<u32, u32>>());
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// Lint, different Ty2 instances
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let _: &'static mut Ty2<u32, f32> = transmute(value::<Box<Ty2<u32, u32>>>());
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//~^ ERROR: transmute from `std::boxed::Box<Ty2<u32, u32>>` to `&mut Ty2<u32, f32>
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//~| NOTE: two instances of the same generic type (`Ty2`) may have different layou
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// Lint, different Ty2 instances
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let _: Box<Ty2<u32, u32>> = transmute(value::<&'static mut Ty2<u32, f32>>());
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//~^ ERROR: transmute from `&mut Ty2<u32, f32>` to `std::boxed::Box<Ty2<u32, u32>>
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//~| NOTE: two instances of the same generic type (`Ty2`) may have different layou
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// Ok, type erasure
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let _: *const () = transmute(value::<Ty<&Ty2<u32, f32>>>());
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// Ok, reverse type erasure
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let _: Ty<&Ty2<u32, f32>> = transmute(value::<*const ()>());
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// Ok, type erasure
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let _: *const c_void = transmute(value::<Ty<&Ty2<u32, f32>>>());
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// Ok, reverse type erasure
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let _: Ty<&Ty2<u32, f32>> = transmute(value::<*const c_void>());
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2022-02-10 11:40:06 -06:00
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2022-02-26 07:26:21 -06:00
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enum Erase {}
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2023-08-24 14:32:12 -05:00
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// Ok, type erasure
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let _: *const Erase = transmute(value::<Ty<&Ty2<u32, f32>>>());
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// Ok, reverse type erasure
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let _: Ty<&Ty2<u32, f32>> = transmute(value::<*const Erase>());
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2022-02-10 11:40:06 -06:00
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2022-02-26 07:26:21 -06:00
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struct Erase2(
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[u8; 0],
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core::marker::PhantomData<(*mut u8, core::marker::PhantomPinned)>,
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);
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2023-08-24 14:32:12 -05:00
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// Ok, type erasure
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let _: *const Erase2 = transmute(value::<Ty<&Ty2<u32, f32>>>());
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// Ok, reverse type erasure
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let _: Ty<&Ty2<u32, f32>> = transmute(value::<*const Erase2>());
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// Ok, type erasure
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let _: *const () = transmute(value::<&&[u8]>());
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// Ok, reverse type erasure
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let _: &&[u8] = transmute(value::<*const ()>());
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// Ok, type erasure
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let _: *mut c_void = transmute(value::<&mut &[u8]>());
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// Ok, reverse type erasure
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let _: &mut &[u8] = transmute(value::<*mut c_void>());
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// Ok, transmute to byte array
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let _: [u8; size_of::<&[u8]>()] = transmute(value::<&[u8]>());
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// Ok, transmute from byte array
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let _: &[u8] = transmute(value::<[u8; size_of::<&[u8]>()]>());
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// Ok, transmute to int array
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let _: [usize; 2] = transmute(value::<&[u8]>());
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// Ok, transmute from int array
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let _: &[u8] = transmute(value::<[usize; 2]>());
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// Ok
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let _: *const [u8] = transmute(value::<Box<[u8]>>());
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// Ok
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let _: Box<[u8]> = transmute(value::<*mut [u8]>());
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// Ok
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let _: Ty2<u32, u32> = transmute(value::<(Ty2<u32, u32>,)>());
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// Ok
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let _: (Ty2<u32, u32>,) = transmute(value::<Ty2<u32, u32>>());
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// Ok
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let _: Ty2<u32, u32> = transmute(value::<(Ty2<u32, u32>, ())>());
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// Ok
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let _: (Ty2<u32, u32>, ()) = transmute(value::<Ty2<u32, u32>>());
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// Ok
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let _: Ty2<u32, u32> = transmute(value::<((), Ty2<u32, u32>)>());
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// Ok
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let _: ((), Ty2<u32, u32>) = transmute(value::<Ty2<u32, u32>>());
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// Ok
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let _: (usize, usize) = transmute(value::<&[u8]>());
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// Ok
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let _: &[u8] = transmute(value::<(usize, usize)>());
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2022-03-24 08:50:04 -05:00
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trait Trait {}
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2023-08-24 14:32:12 -05:00
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// Ok
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let _: (isize, isize) = transmute(value::<&dyn Trait>());
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let _: &dyn Trait = transmute(value::<(isize, isize)>());
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// Ok
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let _: MaybeUninit<Ty2<u32, u32>> = transmute(value::<Ty2<u32, u32>>());
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// Ok
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let _: Ty2<u32, u32> = transmute(value::<MaybeUninit<Ty2<u32, u32>>>());
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// Ok
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let _: Ty<&[u32]> = transmute::<&[u32], _>(value::<&Vec<u32>>());
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// Ok
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let _: *const Ty2<u32, u32> = transmute(value::<*const Ty2C<Ty2<u32, u32>, u32>>());
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// Ok
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let _: *const Ty2C<Ty2<u32, u32>, u32> = transmute(value::<*const Ty2<u32, u32>>());
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// Ok
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let _: *const Ty2<u32, u32> = transmute(value::<*const Ty2C<(), Ty2<u32, u32>>>());
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// Ok
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let _: *const Ty2C<(), Ty2<u32, u32>> = transmute(value::<*const Ty2<u32, u32>>());
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// Err
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let _: *const Ty2<u32, u32> = transmute(value::<*const Ty2C<u32, Ty2<u32, u32>>>());
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//~^ ERROR: transmute into `*const Ty2<u32, u32>` which has an undefined layout
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//~| NOTE: the contained type `Ty2<u32, u32>` has an undefined layout
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// Err
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let _: *const Ty2C<u32, Ty2<u32, u32>> = transmute(value::<*const Ty2<u32, u32>>());
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//~^ ERROR: transmute from `*const Ty2<u32, u32>` which has an undefined layout
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//~| NOTE: the contained type `Ty2<u32, u32>` has an undefined layout
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// Ok
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let _: NonNull<u8> = transmute(value::<NonNull<(String, String)>>());
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// Ok
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let _: NonNull<(String, String)> = transmute(value::<NonNull<u8>>());
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2022-03-24 08:50:04 -05:00
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}
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}
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fn _with_generics<T: 'static, U: 'static>() {
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if TypeId::of::<T>() != TypeId::of::<u32>() || TypeId::of::<T>() != TypeId::of::<U>() {
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return;
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}
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unsafe {
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2023-08-24 14:32:12 -05:00
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// Ok
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let _: &u32 = transmute(value::<&T>());
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// Ok
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let _: &T = transmute(value::<&u32>());
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// Ok
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let _: Vec<U> = transmute(value::<Vec<T>>());
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// Ok
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let _: Vec<T> = transmute(value::<Vec<U>>());
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// Ok
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let _: Ty<&u32> = transmute(value::<&T>());
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// Ok
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let _: Ty<&T> = transmute(value::<&u32>());
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// Ok
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let _: Vec<u32> = transmute(value::<Vec<T>>());
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// Ok
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let _: Vec<T> = transmute(value::<Vec<u32>>());
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// Ok
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let _: &Ty2<u32, u32> = transmute(value::<&Ty2<T, U>>());
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// Ok
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let _: &Ty2<T, U> = transmute(value::<&Ty2<u32, u32>>());
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// Ok
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let _: Vec<Vec<u32>> = transmute(value::<Vec<Vec<T>>>());
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// Ok
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let _: Vec<Vec<T>> = transmute(value::<Vec<Vec<u32>>>());
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// Err
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let _: Vec<Ty2<T, u32>> = transmute(value::<Vec<Ty2<U, i32>>>());
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//~^ ERROR: transmute from `std::vec::Vec<Ty2<U, i32>>` to `std::vec::Vec<Ty2<T, u
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//~| NOTE: two instances of the same generic type (`Vec`) may have different layou
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// Err
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let _: Vec<Ty2<U, i32>> = transmute(value::<Vec<Ty2<T, u32>>>());
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//~^ ERROR: transmute from `std::vec::Vec<Ty2<T, u32>>` to `std::vec::Vec<Ty2<U, i
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//~| NOTE: two instances of the same generic type (`Vec`) may have different layou
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// Ok
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let _: *const u32 = transmute(value::<Box<T>>());
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// Ok
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let _: Box<T> = transmute(value::<*const u32>());
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2022-02-10 11:40:06 -06:00
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}
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}
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