use core::cell::RefCell; use core::ptr::*; #[test] fn test_const_from_raw_parts() { const SLICE: &[u8] = &[1, 2, 3, 4]; const FROM_RAW: &[u8] = unsafe { &*slice_from_raw_parts(SLICE.as_ptr(), SLICE.len()) }; assert_eq!(SLICE, FROM_RAW); let slice = &[1, 2, 3, 4, 5]; let from_raw = unsafe { &*slice_from_raw_parts(slice.as_ptr(), 2) }; assert_eq!(&slice[..2], from_raw); } #[test] fn test() { unsafe { struct Pair { fst: isize, snd: isize, } let mut p = Pair { fst: 10, snd: 20 }; let pptr: *mut Pair = &mut p; let iptr: *mut isize = pptr as *mut isize; assert_eq!(*iptr, 10); *iptr = 30; assert_eq!(*iptr, 30); assert_eq!(p.fst, 30); *pptr = Pair { fst: 50, snd: 60 }; assert_eq!(*iptr, 50); assert_eq!(p.fst, 50); assert_eq!(p.snd, 60); let v0 = vec![32000u16, 32001u16, 32002u16]; let mut v1 = vec![0u16, 0u16, 0u16]; copy(v0.as_ptr().offset(1), v1.as_mut_ptr().offset(1), 1); assert!((v1[0] == 0u16 && v1[1] == 32001u16 && v1[2] == 0u16)); copy(v0.as_ptr().offset(2), v1.as_mut_ptr(), 1); assert!((v1[0] == 32002u16 && v1[1] == 32001u16 && v1[2] == 0u16)); copy(v0.as_ptr(), v1.as_mut_ptr().offset(2), 1); assert!((v1[0] == 32002u16 && v1[1] == 32001u16 && v1[2] == 32000u16)); } } #[test] fn test_is_null() { let p: *const isize = null(); assert!(p.is_null()); let q = p.wrapping_offset(1); assert!(!q.is_null()); let mp: *mut isize = null_mut(); assert!(mp.is_null()); let mq = mp.wrapping_offset(1); assert!(!mq.is_null()); // Pointers to unsized types -- slices let s: &mut [u8] = &mut [1, 2, 3]; let cs: *const [u8] = s; assert!(!cs.is_null()); let ms: *mut [u8] = s; assert!(!ms.is_null()); let cz: *const [u8] = &[]; assert!(!cz.is_null()); let mz: *mut [u8] = &mut []; assert!(!mz.is_null()); let ncs: *const [u8] = null::<[u8; 3]>(); assert!(ncs.is_null()); let nms: *mut [u8] = null_mut::<[u8; 3]>(); assert!(nms.is_null()); // Pointers to unsized types -- trait objects let ci: *const dyn ToString = &3; assert!(!ci.is_null()); let mi: *mut dyn ToString = &mut 3; assert!(!mi.is_null()); let nci: *const dyn ToString = null::(); assert!(nci.is_null()); let nmi: *mut dyn ToString = null_mut::(); assert!(nmi.is_null()); } #[test] fn test_as_ref() { unsafe { let p: *const isize = null(); assert_eq!(p.as_ref(), None); let q: *const isize = &2; assert_eq!(q.as_ref().unwrap(), &2); let p: *mut isize = null_mut(); assert_eq!(p.as_ref(), None); let q: *mut isize = &mut 2; assert_eq!(q.as_ref().unwrap(), &2); // Lifetime inference let u = 2isize; { let p = &u as *const isize; assert_eq!(p.as_ref().unwrap(), &2); } // Pointers to unsized types -- slices let s: &mut [u8] = &mut [1, 2, 3]; let cs: *const [u8] = s; assert_eq!(cs.as_ref(), Some(&*s)); let ms: *mut [u8] = s; assert_eq!(ms.as_ref(), Some(&*s)); let cz: *const [u8] = &[]; assert_eq!(cz.as_ref(), Some(&[][..])); let mz: *mut [u8] = &mut []; assert_eq!(mz.as_ref(), Some(&[][..])); let ncs: *const [u8] = null::<[u8; 3]>(); assert_eq!(ncs.as_ref(), None); let nms: *mut [u8] = null_mut::<[u8; 3]>(); assert_eq!(nms.as_ref(), None); // Pointers to unsized types -- trait objects let ci: *const dyn ToString = &3; assert!(ci.as_ref().is_some()); let mi: *mut dyn ToString = &mut 3; assert!(mi.as_ref().is_some()); let nci: *const dyn ToString = null::(); assert!(nci.as_ref().is_none()); let nmi: *mut dyn ToString = null_mut::(); assert!(nmi.as_ref().is_none()); } } #[test] fn test_as_mut() { unsafe { let p: *mut isize = null_mut(); assert!(p.as_mut() == None); let q: *mut isize = &mut 2; assert!(q.as_mut().unwrap() == &mut 2); // Lifetime inference let mut u = 2isize; { let p = &mut u as *mut isize; assert!(p.as_mut().unwrap() == &mut 2); } // Pointers to unsized types -- slices let s: &mut [u8] = &mut [1, 2, 3]; let ms: *mut [u8] = s; assert_eq!(ms.as_mut(), Some(&mut [1, 2, 3][..])); let mz: *mut [u8] = &mut []; assert_eq!(mz.as_mut(), Some(&mut [][..])); let nms: *mut [u8] = null_mut::<[u8; 3]>(); assert_eq!(nms.as_mut(), None); // Pointers to unsized types -- trait objects let mi: *mut dyn ToString = &mut 3; assert!(mi.as_mut().is_some()); let nmi: *mut dyn ToString = null_mut::(); assert!(nmi.as_mut().is_none()); } } #[test] fn test_ptr_addition() { unsafe { let xs = vec![5; 16]; let mut ptr = xs.as_ptr(); let end = ptr.offset(16); while ptr < end { assert_eq!(*ptr, 5); ptr = ptr.offset(1); } let mut xs_mut = xs; let mut m_ptr = xs_mut.as_mut_ptr(); let m_end = m_ptr.offset(16); while m_ptr < m_end { *m_ptr += 5; m_ptr = m_ptr.offset(1); } assert!(xs_mut == vec![10; 16]); } } #[test] fn test_ptr_subtraction() { unsafe { let xs = vec![0, 1, 2, 3, 4, 5, 6, 7, 8, 9]; let mut idx = 9; let ptr = xs.as_ptr(); while idx >= 0 { assert_eq!(*(ptr.offset(idx as isize)), idx as isize); idx = idx - 1; } let mut xs_mut = xs; let m_start = xs_mut.as_mut_ptr(); let mut m_ptr = m_start.offset(9); loop { *m_ptr += *m_ptr; if m_ptr == m_start { break; } m_ptr = m_ptr.offset(-1); } assert_eq!(xs_mut, [0, 2, 4, 6, 8, 10, 12, 14, 16, 18]); } } #[test] fn test_set_memory() { let mut xs = [0u8; 20]; let ptr = xs.as_mut_ptr(); unsafe { write_bytes(ptr, 5u8, xs.len()); } assert!(xs == [5u8; 20]); } #[test] fn test_unsized_nonnull() { let xs: &[i32] = &[1, 2, 3]; let ptr = unsafe { NonNull::new_unchecked(xs as *const [i32] as *mut [i32]) }; let ys = unsafe { ptr.as_ref() }; let zs: &[i32] = &[1, 2, 3]; assert!(ys == zs); } #[test] #[allow(warnings)] // Have a symbol for the test below. It doesn’t need to be an actual variadic function, match the // ABI, or even point to an actual executable code, because the function itself is never invoked. #[no_mangle] pub fn test_variadic_fnptr() { use core::hash::{Hash, SipHasher}; extern "C" { fn test_variadic_fnptr(_: u64, ...) -> f64; } let p: unsafe extern "C" fn(u64, ...) -> f64 = test_variadic_fnptr; let q = p.clone(); assert_eq!(p, q); assert!(!(p < q)); let mut s = SipHasher::new(); assert_eq!(p.hash(&mut s), q.hash(&mut s)); } #[test] fn write_unaligned_drop() { thread_local! { static DROPS: RefCell> = RefCell::new(Vec::new()); } struct Dropper(u32); impl Drop for Dropper { fn drop(&mut self) { DROPS.with(|d| d.borrow_mut().push(self.0)); } } { let c = Dropper(0); let mut t = Dropper(1); unsafe { write_unaligned(&mut t, c); } } DROPS.with(|d| assert_eq!(*d.borrow(), [0])); } #[test] fn align_offset_zst() { // For pointers of stride = 0, the pointer is already aligned or it cannot be aligned at // all, because no amount of elements will align the pointer. let mut p = 1; while p < 1024 { assert_eq!((p as *const ()).align_offset(p), 0); if p != 1 { assert_eq!(((p + 1) as *const ()).align_offset(p), !0); } p = (p + 1).next_power_of_two(); } } #[test] fn align_offset_stride1() { // For pointers of stride = 1, the pointer can always be aligned. The offset is equal to // number of bytes. let mut align = 1; while align < 1024 { for ptr in 1..2 * align { let expected = ptr % align; let offset = if expected == 0 { 0 } else { align - expected }; assert_eq!( (ptr as *const u8).align_offset(align), offset, "ptr = {}, align = {}, size = 1", ptr, align ); } align = (align + 1).next_power_of_two(); } } #[test] fn align_offset_weird_strides() { #[repr(packed)] struct A3(u16, u8); struct A4(u32); #[repr(packed)] struct A5(u32, u8); #[repr(packed)] struct A6(u32, u16); #[repr(packed)] struct A7(u32, u16, u8); #[repr(packed)] struct A8(u32, u32); #[repr(packed)] struct A9(u32, u32, u8); #[repr(packed)] struct A10(u32, u32, u16); unsafe fn test_weird_stride(ptr: *const T, align: usize) -> bool { let numptr = ptr as usize; let mut expected = usize::MAX; // Naive but definitely correct way to find the *first* aligned element of stride::. for el in 0..align { if (numptr + el * ::std::mem::size_of::()) % align == 0 { expected = el; break; } } let got = ptr.align_offset(align); if got != expected { eprintln!( "aligning {:p} (with stride of {}) to {}, expected {}, got {}", ptr, ::std::mem::size_of::(), align, expected, got ); return true; } return false; } // For pointers of stride != 1, we verify the algorithm against the naivest possible // implementation let mut align = 1; let mut x = false; // Miri is too slow let limit = if cfg!(miri) { 32 } else { 1024 }; while align < limit { for ptr in 1usize..4 * align { unsafe { x |= test_weird_stride::(ptr as *const A3, align); x |= test_weird_stride::(ptr as *const A4, align); x |= test_weird_stride::(ptr as *const A5, align); x |= test_weird_stride::(ptr as *const A6, align); x |= test_weird_stride::(ptr as *const A7, align); x |= test_weird_stride::(ptr as *const A8, align); x |= test_weird_stride::(ptr as *const A9, align); x |= test_weird_stride::(ptr as *const A10, align); } } align = (align + 1).next_power_of_two(); } assert!(!x); }