// run-pass #![allow(unused_braces)] #![allow(non_snake_case)] #![allow(unused_variables)] // Test that destructors for rvalue temporaries run either at end of // statement or end of block, as appropriate given the temporary // lifetime rules. #![feature(box_patterns)] static mut FLAGS: u64 = 0; struct Box { f: T } struct AddFlags { bits: u64 } fn AddFlags(bits: u64) -> AddFlags { AddFlags { bits: bits } } fn arg(exp: u64, _x: &AddFlags) { check_flags(exp); } fn pass(v: T) -> T { v } fn check_flags(exp: u64) { unsafe { let x = FLAGS; FLAGS = 0; println!("flags {}, expected {}", x, exp); assert_eq!(x, exp); } } impl AddFlags { fn check_flags<'a>(&'a self, exp: u64) -> &'a AddFlags { check_flags(exp); self } fn bits(&self) -> u64 { self.bits } } impl Drop for AddFlags { fn drop(&mut self) { unsafe { FLAGS = FLAGS + self.bits; } } } macro_rules! end_of_block { ($pat:pat, $expr:expr) => ( { println!("end_of_block({})", stringify!({let $pat = $expr;})); { // Destructor here does not run until exit from the block. let $pat = $expr; check_flags(0); } check_flags(1); } ) } macro_rules! end_of_stmt { ($pat:pat, $expr:expr) => ( { println!("end_of_stmt({})", stringify!($expr)); { // Destructor here run after `let` statement // terminates. let $pat = $expr; check_flags(1); } check_flags(0); } ) } pub fn main() { // In all these cases, we trip over the rules designed to cover // the case where we are taking addr of rvalue and storing that // addr into a stack slot, either via `let ref` or via a `&` in // the initializer. end_of_block!(_x, AddFlags(1)); end_of_block!(_x, &AddFlags(1)); end_of_block!(_x, & &AddFlags(1)); end_of_block!(_x, Box { f: AddFlags(1) }); end_of_block!(_x, Box { f: &AddFlags(1) }); end_of_block!(_x, Box { f: &AddFlags(1) }); end_of_block!(_x, pass(AddFlags(1))); end_of_block!(ref _x, AddFlags(1)); end_of_block!(AddFlags { bits: ref _x }, AddFlags(1)); end_of_block!(&AddFlags { bits }, &AddFlags(1)); end_of_block!((_, ref _y), (AddFlags(1), 22)); end_of_block!(box ref _x, std::boxed::Box::new(AddFlags(1))); end_of_block!(box _x, std::boxed::Box::new(AddFlags(1))); end_of_block!(_, { { check_flags(0); &AddFlags(1) } }); end_of_block!(_, &((Box { f: AddFlags(1) }).f)); end_of_block!(_, &(([AddFlags(1)])[0])); // LHS does not create a ref binding, so temporary lives as long // as statement, and we do not move the AddFlags out: end_of_stmt!(_, AddFlags(1)); end_of_stmt!((_, _), (AddFlags(1), 22)); // `&` operator appears inside an arg to a function, // so it is not prolonged: end_of_stmt!(ref _x, arg(0, &AddFlags(1))); // autoref occurs inside receiver, so temp lifetime is not // prolonged: end_of_stmt!(ref _x, AddFlags(1).check_flags(0).bits()); // No reference is created on LHS, thus RHS is moved into // a temporary that lives just as long as the statement. end_of_stmt!(AddFlags { bits }, AddFlags(1)); }