// Reject mixing cyclic structure and Drop when using fixed length // arrays. // // (Compare against ui/span/dropck_vec_cycle_checked.rs) use std::cell::Cell; use id::Id; mod s { use std::sync::atomic::{AtomicUsize, Ordering}; static S_COUNT: AtomicUsize = AtomicUsize::new(0); pub fn next_count() -> usize { S_COUNT.fetch_add(1, Ordering::SeqCst) + 1 } } mod id { use s; #[derive(Debug)] pub struct Id { orig_count: usize, count: usize, } impl Id { pub fn new() -> Id { let c = s::next_count(); println!("building Id {}", c); Id { orig_count: c, count: c } } pub fn count(&self) -> usize { println!("Id::count on {} returns {}", self.orig_count, self.count); self.count } } impl Drop for Id { fn drop(&mut self) { println!("dropping Id {}", self.count); self.count = 0; } } } trait HasId { fn count(&self) -> usize; } #[derive(Debug)] struct CheckId { v: T } #[allow(non_snake_case)] fn CheckId(t: T) -> CheckId { CheckId{ v: t } } impl Drop for CheckId { fn drop(&mut self) { assert!(self.v.count() > 0); } } #[derive(Debug)] struct B<'a> { id: Id, a: [CheckId>>>; 2] } impl<'a> HasId for Cell>> { fn count(&self) -> usize { match self.get() { None => 1, Some(b) => b.id.count(), } } } impl<'a> B<'a> { fn new() -> B<'a> { B { id: Id::new(), a: [CheckId(Cell::new(None)), CheckId(Cell::new(None))] } } } fn f() { let (b1, b2, b3); b1 = B::new(); b2 = B::new(); b3 = B::new(); b1.a[0].v.set(Some(&b2)); //~^ ERROR `b2` does not live long enough b1.a[1].v.set(Some(&b3)); //~^ ERROR `b3` does not live long enough b2.a[0].v.set(Some(&b2)); b2.a[1].v.set(Some(&b3)); b3.a[0].v.set(Some(&b1)); //~^ ERROR `b1` does not live long enough b3.a[1].v.set(Some(&b2)); } fn main() { f(); }