use std::cell::Cell; use std::mem; use cache_padded::CachePadded; #[test] fn default() { let x: CachePadded = Default::default(); assert_eq!(*x, 0); } #[test] fn store_u64() { let x: CachePadded = CachePadded::new(17); assert_eq!(*x, 17); } #[test] fn store_pair() { let x: CachePadded<(u64, u64)> = CachePadded::new((17, 37)); assert_eq!(x.0, 17); assert_eq!(x.1, 37); } #[test] fn distance() { let arr = [CachePadded::new(17u8), CachePadded::new(37u8)]; let a = &*arr[0] as *const u8; let b = &*arr[1] as *const u8; assert!(unsafe { a.offset(64) } <= b); } #[test] fn different_sizes() { CachePadded::new(17u8); CachePadded::new(17u16); CachePadded::new(17u32); CachePadded::new([17u64; 0]); CachePadded::new([17u64; 1]); CachePadded::new([17u64; 2]); CachePadded::new([17u64; 3]); CachePadded::new([17u64; 4]); CachePadded::new([17u64; 5]); CachePadded::new([17u64; 6]); CachePadded::new([17u64; 7]); CachePadded::new([17u64; 8]); } #[test] fn large() { let a = [17u64; 9]; let b = CachePadded::new(a); assert!(mem::size_of_val(&a) <= mem::size_of_val(&b)); } #[test] fn debug() { assert_eq!(format!("{:?}", CachePadded::new(17u64)), "CachePadded(17)"); } #[test] fn drops() { let count = Cell::new(0); struct Foo<'a>(&'a Cell); impl<'a> Drop for Foo<'a> { fn drop(&mut self) { self.0.set(self.0.get() + 1); } } let a = CachePadded::new(Foo(&count)); let b = CachePadded::new(Foo(&count)); assert_eq!(count.get(), 0); drop(a); assert_eq!(count.get(), 1); drop(b); assert_eq!(count.get(), 2); } #[allow(clippy::clone_on_copy)] // This is intentional #[test] fn clone() { let a = CachePadded::new(17); let b = a.clone(); assert_eq!(*a, *b); } #[test] fn runs_custom_clone() { let count = Cell::new(0); struct Foo<'a>(&'a Cell); impl<'a> Clone for Foo<'a> { fn clone(&self) -> Foo<'a> { self.0.set(self.0.get() + 1); Foo::<'a>(self.0) } } let a = CachePadded::new(Foo(&count)); let _ = a.clone(); assert_eq!(count.get(), 1); }