// Checks that in a derived implementation of PartialOrd the lt, le, ge, gt methods are consistent // with partial_cmp. Also verifies that implementation is consistent with that for tuples. // //@ run-pass #[derive(PartialEq, PartialOrd)] struct P(f64, f64); fn main() { let values: &[f64] = &[1.0, 2.0, f64::NAN]; for a in values { for b in values { for c in values { for d in values { // Check impl for a tuple. check(&(*a, *b), &(*c, *d)); // Check derived impl. check(&P(*a, *b), &P(*c, *d)); // Check that impls agree with each other. assert_eq!( PartialOrd::partial_cmp(&(*a, *b), &(*c, *d)), PartialOrd::partial_cmp(&P(*a, *b), &P(*c, *d)), ); } } } } } fn check(a: &T, b: &T) { use std::cmp::Ordering::*; match PartialOrd::partial_cmp(a, b) { None => { assert!(!(a < b)); assert!(!(a <= b)); assert!(!(a > b)); assert!(!(a >= b)); } Some(Equal) => { assert!(!(a < b)); assert!(a <= b); assert!(!(a > b)); assert!(a >= b); } Some(Less) => { assert!(a < b); assert!(a <= b); assert!(!(a > b)); assert!(!(a >= b)); } Some(Greater) => { assert!(!(a < b)); assert!(!(a <= b)); assert!(a > b); assert!(a >= b); } } }