use core::mem::*; #[cfg(panic = "unwind")] use std::rc::Rc; #[test] fn size_of_basic() { assert_eq!(size_of::(), 1); assert_eq!(size_of::(), 2); assert_eq!(size_of::(), 4); assert_eq!(size_of::(), 8); } #[test] #[cfg(target_pointer_width = "16")] fn size_of_16() { assert_eq!(size_of::(), 2); assert_eq!(size_of::<*const usize>(), 2); } #[test] #[cfg(target_pointer_width = "32")] fn size_of_32() { assert_eq!(size_of::(), 4); assert_eq!(size_of::<*const usize>(), 4); } #[test] #[cfg(target_pointer_width = "64")] fn size_of_64() { assert_eq!(size_of::(), 8); assert_eq!(size_of::<*const usize>(), 8); } #[test] fn size_of_val_basic() { assert_eq!(size_of_val(&1u8), 1); assert_eq!(size_of_val(&1u16), 2); assert_eq!(size_of_val(&1u32), 4); assert_eq!(size_of_val(&1u64), 8); } #[test] fn align_of_basic() { assert_eq!(align_of::(), 1); assert_eq!(align_of::(), 2); assert_eq!(align_of::(), 4); } #[test] #[cfg(target_pointer_width = "16")] fn align_of_16() { assert_eq!(align_of::(), 2); assert_eq!(align_of::<*const usize>(), 2); } #[test] #[cfg(target_pointer_width = "32")] fn align_of_32() { assert_eq!(align_of::(), 4); assert_eq!(align_of::<*const usize>(), 4); } #[test] #[cfg(target_pointer_width = "64")] fn align_of_64() { assert_eq!(align_of::(), 8); assert_eq!(align_of::<*const usize>(), 8); } #[test] fn align_of_val_basic() { assert_eq!(align_of_val(&1u8), 1); assert_eq!(align_of_val(&1u16), 2); assert_eq!(align_of_val(&1u32), 4); } #[test] fn test_swap() { let mut x = 31337; let mut y = 42; swap(&mut x, &mut y); assert_eq!(x, 42); assert_eq!(y, 31337); } #[test] fn test_replace() { let mut x = Some("test".to_string()); let y = replace(&mut x, None); assert!(x.is_none()); assert!(y.is_some()); } #[test] fn test_transmute_copy() { assert_eq!(1, unsafe { transmute_copy(&1) }); } #[test] fn test_transmute() { trait Foo { fn dummy(&self) {} } impl Foo for isize {} let a = box 100isize as Box; unsafe { let x: ::core::raw::TraitObject = transmute(a); assert!(*(x.data as *const isize) == 100); let _x: Box = transmute(x); } unsafe { assert_eq!(transmute::<_, Vec>("L".to_string()), [76]); } } #[test] #[allow(dead_code)] fn test_discriminant_send_sync() { enum Regular { A, B(i32), } enum NotSendSync { A(*const i32), } fn is_send_sync() {} is_send_sync::>(); is_send_sync::>(); } #[test] fn assume_init_good() { const TRUE: bool = unsafe { MaybeUninit::::new(true).assume_init() }; assert!(TRUE); } #[test] fn uninit_array_assume_init() { let mut array: [MaybeUninit; 5] = MaybeUninit::uninit_array(); array[0].write(3); array[1].write(1); array[2].write(4); array[3].write(1); array[4].write(5); let array = unsafe { MaybeUninit::array_assume_init(array) }; assert_eq!(array, [3, 1, 4, 1, 5]); let [] = unsafe { MaybeUninit::::array_assume_init([]) }; } #[test] fn uninit_write_slice() { let mut dst = [MaybeUninit::new(255); 64]; let src = [0; 64]; assert_eq!(MaybeUninit::write_slice(&mut dst, &src), &src); } #[test] #[should_panic(expected = "source slice length (32) does not match destination slice length (64)")] fn uninit_write_slice_panic_lt() { let mut dst = [MaybeUninit::uninit(); 64]; let src = [0; 32]; MaybeUninit::write_slice(&mut dst, &src); } #[test] #[should_panic(expected = "source slice length (128) does not match destination slice length (64)")] fn uninit_write_slice_panic_gt() { let mut dst = [MaybeUninit::uninit(); 64]; let src = [0; 128]; MaybeUninit::write_slice(&mut dst, &src); } #[test] fn uninit_clone_from_slice() { let mut dst = [MaybeUninit::new(255); 64]; let src = [0; 64]; assert_eq!(MaybeUninit::write_slice_cloned(&mut dst, &src), &src); } #[test] #[should_panic(expected = "destination and source slices have different lengths")] fn uninit_write_slice_cloned_panic_lt() { let mut dst = [MaybeUninit::uninit(); 64]; let src = [0; 32]; MaybeUninit::write_slice_cloned(&mut dst, &src); } #[test] #[should_panic(expected = "destination and source slices have different lengths")] fn uninit_write_slice_cloned_panic_gt() { let mut dst = [MaybeUninit::uninit(); 64]; let src = [0; 128]; MaybeUninit::write_slice_cloned(&mut dst, &src); } #[test] #[cfg(panic = "unwind")] fn uninit_write_slice_cloned_mid_panic() { use std::panic; enum IncrementOrPanic { Increment(Rc<()>), ExpectedPanic, UnexpectedPanic, } impl Clone for IncrementOrPanic { fn clone(&self) -> Self { match self { Self::Increment(rc) => Self::Increment(rc.clone()), Self::ExpectedPanic => panic!("expected panic on clone"), Self::UnexpectedPanic => panic!("unexpected panic on clone"), } } } let rc = Rc::new(()); let mut dst = [ MaybeUninit::uninit(), MaybeUninit::uninit(), MaybeUninit::uninit(), MaybeUninit::uninit(), ]; let src = [ IncrementOrPanic::Increment(rc.clone()), IncrementOrPanic::Increment(rc.clone()), IncrementOrPanic::ExpectedPanic, IncrementOrPanic::UnexpectedPanic, ]; let err = panic::catch_unwind(panic::AssertUnwindSafe(|| { MaybeUninit::write_slice_cloned(&mut dst, &src); })); drop(src); match err { Ok(_) => unreachable!(), Err(payload) => { payload .downcast::<&'static str>() .and_then(|s| if *s == "expected panic on clone" { Ok(s) } else { Err(s) }) .unwrap_or_else(|p| panic::resume_unwind(p)); assert_eq!(Rc::strong_count(&rc), 1) } } } #[test] fn uninit_write_slice_cloned_no_drop() { #[derive(Clone)] struct Bomb; impl Drop for Bomb { fn drop(&mut self) { panic!("dropped a bomb! kaboom") } } let mut dst = [MaybeUninit::uninit()]; let src = [Bomb]; MaybeUninit::write_slice_cloned(&mut dst, &src); forget(src); } #[test] #[cfg(not(bootstrap))] fn uninit_const_assume_init_read() { const FOO: u32 = unsafe { MaybeUninit::new(42).assume_init_read() }; assert_eq!(FOO, 42); }