use core::cell::{Cell, LazyCell, OnceCell}; use core::sync::atomic::AtomicUsize; use core::sync::atomic::Ordering::SeqCst; #[test] fn once_cell() { let c = OnceCell::new(); assert!(c.get().is_none()); c.get_or_init(|| 92); assert_eq!(c.get(), Some(&92)); c.get_or_init(|| panic!("Kaboom!")); assert_eq!(c.get(), Some(&92)); } #[test] fn once_cell_get_mut() { let mut c = OnceCell::new(); assert!(c.get_mut().is_none()); c.set(90).unwrap(); *c.get_mut().unwrap() += 2; assert_eq!(c.get_mut(), Some(&mut 92)); } #[test] fn once_cell_drop() { static DROP_CNT: AtomicUsize = AtomicUsize::new(0); struct Dropper; impl Drop for Dropper { fn drop(&mut self) { DROP_CNT.fetch_add(1, SeqCst); } } let x = OnceCell::new(); x.get_or_init(|| Dropper); assert_eq!(DROP_CNT.load(SeqCst), 0); drop(x); assert_eq!(DROP_CNT.load(SeqCst), 1); } #[test] fn unsync_once_cell_drop_empty() { let x = OnceCell::<&'static str>::new(); drop(x); } /* FIXME(#110395) #[test] const fn once_cell_const() { let _once_cell: OnceCell = OnceCell::new(); let _once_cell: OnceCell = OnceCell::from(32); } */ #[test] fn clone() { let s = OnceCell::new(); let c = s.clone(); assert!(c.get().is_none()); s.set("hello").unwrap(); let c = s.clone(); assert_eq!(c.get().map(|c| *c), Some("hello")); } #[test] fn from_impl() { assert_eq!(OnceCell::from("value").get(), Some(&"value")); assert_ne!(OnceCell::from("foo").get(), Some(&"bar")); } #[test] fn partialeq_impl() { assert!(OnceCell::from("value") == OnceCell::from("value")); assert!(OnceCell::from("foo") != OnceCell::from("bar")); assert!(OnceCell::<&'static str>::new() == OnceCell::new()); assert!(OnceCell::<&'static str>::new() != OnceCell::from("value")); } #[test] fn into_inner() { let cell: OnceCell<&'static str> = OnceCell::new(); assert_eq!(cell.into_inner(), None); let cell = OnceCell::new(); cell.set("hello").unwrap(); assert_eq!(cell.into_inner(), Some("hello")); } #[test] fn lazy_new() { let called = Cell::new(0); let x = LazyCell::new(|| { called.set(called.get() + 1); 92 }); assert_eq!(called.get(), 0); let y = *x - 30; assert_eq!(y, 62); assert_eq!(called.get(), 1); let y = *x - 30; assert_eq!(y, 62); assert_eq!(called.get(), 1); } // Check that we can infer `T` from closure's type. #[test] fn lazy_type_inference() { let _ = LazyCell::new(|| ()); } #[test] #[cfg(panic = "unwind")] #[should_panic = "LazyCell instance has previously been poisoned"] fn lazy_force_mut_panic() { let mut lazy = LazyCell::::new(|| panic!()); std::panic::catch_unwind(std::panic::AssertUnwindSafe(|| { let _ = LazyCell::force_mut(&mut lazy); })) .unwrap_err(); let _ = &*lazy; } #[test] fn lazy_force_mut() { let s = "abc".to_owned(); let mut lazy = LazyCell::new(move || s); LazyCell::force_mut(&mut lazy); let p = LazyCell::force_mut(&mut lazy); p.clear(); LazyCell::force_mut(&mut lazy); } #[test] fn aliasing_in_get() { let x = OnceCell::new(); x.set(42).unwrap(); let at_x = x.get().unwrap(); // --- (shared) borrow of inner `Option` --+ let _ = x.set(27); // <-- temporary (unique) borrow of inner `Option` | println!("{at_x}"); // <------- up until here ---------------------------+ } #[test] #[should_panic(expected = "reentrant init")] fn reentrant_init() { let x: OnceCell> = OnceCell::new(); let dangling_ref: Cell> = Cell::new(None); x.get_or_init(|| { let r = x.get_or_init(|| Box::new(92)); dangling_ref.set(Some(r)); Box::new(62) }); eprintln!("use after free: {:?}", dangling_ref.get().unwrap()); } #[test] fn dropck() { let cell = OnceCell::new(); { let s = String::new(); cell.set(&s).unwrap(); } }