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289 lines
10 KiB
Rust
289 lines
10 KiB
Rust
//@ check-fail
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extern "C" {
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// N.B., mutability can be easily incorrect in FFI calls -- as
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// in C, the default is mutable pointers.
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fn ffi(c: *mut u8);
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fn int_ffi(c: *mut i32);
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}
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fn static_u8() -> &'static u8 {
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&8
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}
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unsafe fn ref_to_mut() {
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let num = &3i32;
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let _num = &mut *(num as *const i32 as *mut i32);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(num as *const i32).cast_mut();
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *std::ptr::from_ref(num).cast_mut();
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *std::ptr::from_ref({ num }).cast_mut();
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *{ std::ptr::from_ref(num) }.cast_mut();
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(std::ptr::from_ref({ num }) as *mut i32);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(num as *const i32).cast::<i32>().cast_mut();
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(num as *const i32).cast::<i32>().cast_mut().cast_const().cast_mut();
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(std::ptr::from_ref(static_u8()) as *mut i8);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *std::mem::transmute::<_, *mut i32>(num);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(std::mem::transmute::<_, *mut i32>(num) as *mut i32);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *std::cell::UnsafeCell::raw_get(
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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num as *const i32 as *const std::cell::UnsafeCell<i32>
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);
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let deferred = num as *const i32 as *mut i32;
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let _num = &mut *deferred;
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let deferred = (std::ptr::from_ref(num) as *const i32 as *const i32).cast_mut() as *mut i32;
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let _num = &mut *deferred;
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let deferred_rebind = deferred;
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let _num = &mut *deferred_rebind;
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(num as *const _ as usize as *mut i32);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let _num = &mut *(std::mem::transmute::<_, *mut _>(num as *const i32) as *mut i32);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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static NUM: &'static i32 = &2;
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let num = NUM as *const i32 as *mut i32;
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let num = num;
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let num = num;
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let _num = &mut *num;
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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let cell = &std::cell::UnsafeCell::new(0);
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let _num = &mut *(cell as *const _ as *mut i32);
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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unsafe fn generic_ref_cast_mut<T>(this: &T) -> &mut T {
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&mut *((this as *const _) as *mut _)
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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}
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fn as_mut<T>(x: &T) -> &mut T {
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unsafe { &mut *std::cell::UnsafeCell::raw_get(x as *const _ as *const _) }
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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}
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fn as_mut_i32(x: &i32) -> &mut i32 {
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unsafe { &mut *std::cell::UnsafeCell::raw_get(x as *const _ as *const _) }
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//~^ ERROR casting `&T` to `&mut T` is undefined behavior
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}
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}
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unsafe fn assign_to_ref() {
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let s = String::from("Hello");
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let a = &s;
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let num = &3i32;
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*(a as *const _ as *mut _) = String::from("Replaced");
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//~^ ERROR assigning to `&T` is undefined behavior
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*(a as *const _ as *mut String) += " world";
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//~^ ERROR assigning to `&T` is undefined behavior
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*std::ptr::from_ref(num).cast_mut() += 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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*std::ptr::from_ref({ num }).cast_mut() += 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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*{ std::ptr::from_ref(num) }.cast_mut() += 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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*(std::ptr::from_ref({ num }) as *mut i32) += 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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*std::mem::transmute::<_, *mut i32>(num) += 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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*(std::mem::transmute::<_, *mut i32>(num) as *mut i32) += 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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std::ptr::write(
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//~^ ERROR assigning to `&T` is undefined behavior
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std::mem::transmute::<*const i32, *mut i32>(num),
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-1i32,
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);
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*((&std::cell::UnsafeCell::new(0)) as *const _ as *mut i32) = 5;
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//~^ ERROR assigning to `&T` is undefined behavior
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let value = num as *const i32 as *mut i32;
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*value = 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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let value = num as *const i32;
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let value = value as *mut i32;
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*value = 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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let value = num as *const i32 as *mut i32;
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*value = 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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let value_rebind = value;
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*value_rebind = 1;
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//~^ ERROR assigning to `&T` is undefined behavior
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*(num as *const i32).cast::<i32>().cast_mut() = 2;
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//~^ ERROR assigning to `&T` is undefined behavior
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*(num as *const _ as usize as *mut i32) = 2;
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//~^ ERROR assigning to `&T` is undefined behavior
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std::ptr::write(value, 2);
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//~^ ERROR assigning to `&T` is undefined behavior
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std::ptr::write_unaligned(value, 2);
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//~^ ERROR assigning to `&T` is undefined behavior
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std::ptr::write_volatile(value, 2);
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//~^ ERROR assigning to `&T` is undefined behavior
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unsafe fn generic_assign_to_ref<T>(this: &T, a: T) {
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*(this as *const _ as *mut _) = a;
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//~^ ERROR assigning to `&T` is undefined behavior
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}
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}
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#[repr(align(16))]
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struct I64(i64);
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#[repr(C)]
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struct Mat3<T> {
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a: Vec3<T>,
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b: Vec3<T>,
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c: Vec3<T>,
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}
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#[repr(C)]
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struct Vec3<T>(T, T, T);
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unsafe fn bigger_layout() {
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{
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let num = &mut 3i32;
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let _num = &*(num as *const i32 as *const i64);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &mut *(num as *mut i32 as *mut i64);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &mut *(num as *mut i32 as *mut I64);
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//~^ ERROR casting references to a bigger memory layout
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std::ptr::write(num as *mut i32 as *mut i64, 2);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &mut *(num as *mut i32);
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}
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{
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let num = &mut [0i32; 3];
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let _num = &mut *(num as *mut _ as *mut [i64; 2]);
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//~^ ERROR casting references to a bigger memory layout
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std::ptr::write_unaligned(num as *mut _ as *mut [i32; 4], [0, 0, 1, 1]);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &mut *(num as *mut _ as *mut [u32; 3]);
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let _num = &mut *(num as *mut _ as *mut [u32; 2]);
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}
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{
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let num = &mut [0i32; 3] as &mut [i32];
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let _num = &mut *(num as *mut _ as *mut i128);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &mut *(num as *mut _ as *mut [i64; 4]);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &mut *(num as *mut _ as *mut [u32]);
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let _num = &mut *(num as *mut _ as *mut [i16]);
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}
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{
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let mat3 = Mat3 { a: Vec3(0i32, 0, 0), b: Vec3(0, 0, 0), c: Vec3(0, 0, 0) };
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let _num = &mut *(&mat3 as *const _ as *mut [[i64; 3]; 3]);
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//~^ ERROR casting `&T` to `&mut T`
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//~^^ ERROR casting references to a bigger memory layout
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let _num = &*(&mat3 as *const _ as *mut [[i64; 3]; 3]);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &*(&mat3 as *const _ as *mut [[i32; 3]; 3]);
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}
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{
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let mut l: [u8; 2] = [0,1];
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let w: *mut [u16; 2] = &mut l as *mut [u8; 2] as *mut _;
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let w: *mut [u16] = unsafe {&mut *w};
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//~^ ERROR casting references to a bigger memory layout
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}
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{
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fn foo() -> [i32; 1] { todo!() }
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let num = foo();
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let _num = &*(&num as *const i32 as *const i64);
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//~^ ERROR casting references to a bigger memory layout
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let _num = &*(&foo() as *const i32 as *const i64);
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//~^ ERROR casting references to a bigger memory layout
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}
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{
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fn bar(_a: &[i32; 2]) -> &[i32; 1] { todo!() }
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let num = bar(&[0, 0]);
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let _num = &*(num as *const i32 as *const i64);
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let _num = &*(bar(&[0, 0]) as *const i32 as *const i64);
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}
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{
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fn foi<T>() -> T { todo!() }
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let num = foi::<i32>();
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let _num = &*(&num as *const i32 as *const i64);
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//~^ ERROR casting references to a bigger memory layout
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}
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{
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let x: Box<dyn Send> = Box::new(0i32);
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let _z = unsafe { &*(&*x as *const dyn Send as *const i32) };
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}
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unsafe fn from_ref(this: &i32) -> &i64 {
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&*(this as *const i32 as *const i64)
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}
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}
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const RAW_PTR: *mut u8 = 1 as *mut u8;
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unsafe fn no_warn() {
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let num = &3i32;
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let mut_num = &mut 3i32;
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let a = &String::from("ffi");
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*(num as *const i32 as *mut i32);
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println!("{}", *(num as *const _ as *const i16));
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println!("{}", *(mut_num as *mut _ as *mut i16));
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ffi(a.as_ptr() as *mut _);
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int_ffi(num as *const _ as *mut _);
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int_ffi(&3 as *const _ as *mut _);
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let mut value = 3;
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let value: *const i32 = &mut value;
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*(value as *const i16 as *mut i16) = 42;
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*RAW_PTR = 42; // RAW_PTR is defined outside the function body,
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// make sure we don't ICE on it when trying to
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// determine if we should lint on it or not.
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let cell = &std::cell::UnsafeCell::new(0);
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let _num = &mut *(cell.get() as *mut i32);
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fn safe_as_mut<T>(x: &std::cell::UnsafeCell<T>) -> &mut T {
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unsafe { &mut *std::cell::UnsafeCell::raw_get(x as *const _ as *const _) }
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}
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fn cell_as_mut(x: &std::cell::Cell<i32>) -> &mut i32 {
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unsafe { &mut *std::cell::UnsafeCell::raw_get(x as *const _ as *const _) }
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}
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#[repr(transparent)]
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struct DoesContainUnsafeCell(std::cell::UnsafeCell<i32>);
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fn safe_as_mut2(x: &DoesContainUnsafeCell) -> &mut DoesContainUnsafeCell {
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unsafe { &mut *std::cell::UnsafeCell::raw_get(x as *const _ as *const _) }
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}
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}
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fn main() {}
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