// run-pass // This test checks the dynamic semantics and drop order of pattern matching // where a product pattern has both a by-move and by-ref binding. use std::cell::RefCell; use std::rc::Rc; struct X { x: Box, d: DropOrderListPtr, } type DropOrderListPtr = Rc>>; impl Drop for X { fn drop(&mut self) { self.d.borrow_mut().push(*self.x); } } enum DoubleOption { Some2(T, U), _None2, } fn main() { let d: DropOrderListPtr = <_>::default(); { let mk = |v| X { x: Box::new(v), d: d.clone() }; let check = |a1: &X, a2, b1: &X, b2| { assert_eq!(*a1.x, a2); assert_eq!(*b1.x, b2); }; let x = DoubleOption::Some2(mk(1), mk(2)); match x { DoubleOption::Some2(ref a, b) => check(a, 1, &b, 2), DoubleOption::_None2 => panic!(), } let x = DoubleOption::Some2(mk(3), mk(4)); match x { DoubleOption::Some2(a, ref b) => check(&a, 3, b, 4), DoubleOption::_None2 => panic!(), } match DoubleOption::Some2(mk(5), mk(6)) { DoubleOption::Some2(ref a, b) => check(a, 5, &b, 6), DoubleOption::_None2 => panic!(), } match DoubleOption::Some2(mk(7), mk(8)) { DoubleOption::Some2(a, ref b) => check(&a, 7, b, 8), DoubleOption::_None2 => panic!(), } { let (a, ref b) = (mk(9), mk(10)); let (ref c, d) = (mk(11), mk(12)); check(&a, 9, b, 10); check(c, 11, &d, 12); } fn fun([a, ref mut b, ref xs @ .., ref c, d]: [X; 6]) { assert_eq!(*a.x, 13); assert_eq!(*b.x, 14); assert_eq!(&[*xs[0].x, *xs[1].x], &[15, 16]); assert_eq!(*c.x, 17); assert_eq!(*d.x, 18); } fun([mk(13), mk(14), mk(15), mk(16), mk(17), mk(18)]); let lam = |(a, ref b, c, ref mut d): (X, X, X, X)| { assert_eq!(*a.x, 19); assert_eq!(*b.x, 20); assert_eq!(*c.x, 21); assert_eq!(*d.x, 22); }; lam((mk(19), mk(20), mk(21), mk(22))); } let expected = [2, 3, 6, 5, 7, 8, 12, 11, 9, 10, 18, 13, 14, 15, 16, 17, 21, 19, 20, 22, 4, 1]; assert_eq!(&*d.borrow(), &expected); }