//@ run-pass // check raw fat pointer ops in mir // FIXME: please improve this when we get monomorphization support #![feature(raw_ref_op)] #![allow(ambiguous_wide_pointer_comparisons)] use std::mem; #[derive(Debug, PartialEq, Eq)] struct ComparisonResults { lt: bool, le: bool, gt: bool, ge: bool, eq: bool, ne: bool } const LT: ComparisonResults = ComparisonResults { lt: true, le: true, gt: false, ge: false, eq: false, ne: true }; const EQ: ComparisonResults = ComparisonResults { lt: false, le: true, gt: false, ge: true, eq: true, ne: false }; const GT: ComparisonResults = ComparisonResults { lt: false, le: false, gt: true, ge: true, eq: false, ne: true }; fn compare_su8(a: *const S<[u8]>, b: *const S<[u8]>) -> ComparisonResults { ComparisonResults { lt: a < b, le: a <= b, gt: a > b, ge: a >= b, eq: a == b, ne: a != b } } fn compare_au8(a: *const [u8], b: *const [u8]) -> ComparisonResults { ComparisonResults { lt: a < b, le: a <= b, gt: a > b, ge: a >= b, eq: a == b, ne: a != b } } fn compare_foo<'a>(a: *const (dyn Foo+'a), b: *const (dyn Foo+'a)) -> ComparisonResults { ComparisonResults { lt: a < b, le: a <= b, gt: a > b, ge: a >= b, eq: a == b, ne: a != b } } fn simple_eq<'a>(a: *const (dyn Foo+'a), b: *const (dyn Foo+'a)) -> bool { let result = a == b; result } fn assert_inorder(a: &[T], compare: fn(T, T) -> ComparisonResults) { for i in 0..a.len() { for j in 0..a.len() { let cres = compare(a[i], a[j]); if i < j { assert_eq!(cres, LT); } else if i == j { assert_eq!(cres, EQ); } else { assert_eq!(cres, GT); } } } } trait Foo { fn foo(&self) -> usize; } //~ WARN method `foo` is never used impl Foo for T { fn foo(&self) -> usize { mem::size_of::() } } #[allow(dead_code)] struct S(u32, T); fn main_ref() { let array = [0,1,2,3,4]; let array2 = [5,6,7,8,9]; // fat ptr comparison: addr then extra // check ordering for arrays let mut ptrs: Vec<*const [u8]> = vec![ &array[0..0], &array[0..1], &array, &array[1..] ]; let array_addr = &array as *const [u8] as *const u8 as usize; let array2_addr = &array2 as *const [u8] as *const u8 as usize; if array2_addr < array_addr { ptrs.insert(0, &array2); } else { ptrs.push(&array2); } assert_inorder(&ptrs, compare_au8); let u8_ = (0u8, 1u8); let u32_ = (4u32, 5u32); // check ordering for ptrs let buf: &mut [*const dyn Foo] = &mut [ &u8_, &u8_.0, &u32_, &u32_.0, ]; buf.sort_by(|u,v| { let u : [*const (); 2] = unsafe { mem::transmute(*u) }; let v : [*const (); 2] = unsafe { mem::transmute(*v) }; u.cmp(&v) }); assert_inorder(buf, compare_foo); // check ordering for structs containing arrays let ss: (S<[u8; 2]>, S<[u8; 3]>, S<[u8; 2]>) = ( S(7, [8, 9]), S(10, [11, 12, 13]), S(4, [5, 6]) ); assert_inorder(&[ &ss.0 as *const S<[u8]>, &ss.1 as *const S<[u8]>, &ss.2 as *const S<[u8]> ], compare_su8); assert!(simple_eq(&0u8 as *const _, &0u8 as *const _)); assert!(!simple_eq(&0u8 as *const _, &1u8 as *const _)); } // similar to above, but using &raw fn main_raw() { let array = [0,1,2,3,4]; let array2 = [5,6,7,8,9]; // fat ptr comparison: addr then extra // check ordering for arrays let mut ptrs: Vec<*const [u8]> = vec![ &raw const array[0..0], &raw const array[0..1], &raw const array, &raw const array[1..] ]; let array_addr = &raw const array as *const u8 as usize; let array2_addr = &raw const array2 as *const u8 as usize; if array2_addr < array_addr { ptrs.insert(0, &raw const array2); } else { ptrs.push(&raw const array2); } assert_inorder(&ptrs, compare_au8); let u8_ = (0u8, 1u8); let u32_ = (4u32, 5u32); // check ordering for ptrs let buf: &mut [*const dyn Foo] = &mut [ &raw const u8_, &raw const u8_.0, &raw const u32_, &raw const u32_.0, ]; buf.sort_by(|u,v| { let u : [*const (); 2] = unsafe { mem::transmute(*u) }; let v : [*const (); 2] = unsafe { mem::transmute(*v) }; u.cmp(&v) }); assert_inorder(buf, compare_foo); // check ordering for structs containing arrays let ss: (S<[u8; 2]>, S<[u8; 3]>, S<[u8; 2]>) = ( S(7, [8, 9]), S(10, [11, 12, 13]), S(4, [5, 6]) ); assert_inorder(&[ &raw const ss.0 as *const S<[u8]>, &raw const ss.1 as *const S<[u8]>, &raw const ss.2 as *const S<[u8]> ], compare_su8); } fn main() { main_ref(); main_raw(); }