#![feature(weak_into_raw)] #![feature(new_uninit)] #![feature(get_mut_unchecked)] use std::cell::{Cell, RefCell}; use std::rc::{Rc, Weak}; use std::sync::Arc; use std::fmt::Debug; fn rc_refcell() { let r = Rc::new(RefCell::new(42)); let r2 = r.clone(); *r.borrow_mut() += 10; let x = *r2.borrow(); assert_eq!(x, 52); } fn rc_cell() { let r = Rc::new(Cell::new(42)); let r2 = r.clone(); let x = r.get(); r2.set(x + x); assert_eq!(r.get(), 84); } fn rc_refcell2() { let r = Rc::new(RefCell::new(42)); let r2 = r.clone(); *r.borrow_mut() += 10; let x = r2.borrow(); let r3 = r.clone(); let y = r3.borrow(); assert_eq!((*x + *y)/2, 52); } fn rc_raw() { let r = Rc::new(0); let r2 = Rc::into_raw(r.clone()); let r2 = unsafe { Rc::from_raw(r2) }; assert!(Rc::ptr_eq(&r, &r2)); drop(r); assert!(Rc::try_unwrap(r2).is_ok()); } fn arc() { fn test() -> Arc { let a = Arc::new(42); a } assert_eq!(*test(), 42); } // Make sure this Rc doesn't fall apart when touched fn check_unique_rc(mut r: Rc) { let r2 = r.clone(); assert!(Rc::get_mut(&mut r).is_none()); drop(r2); assert!(Rc::get_mut(&mut r).is_some()); } fn rc_from() { check_unique_rc::<[_]>(Rc::from(&[1,2,3] as &[_])); check_unique_rc::<[_]>(Rc::from(vec![1,2,3])); check_unique_rc::<[_]>(Rc::from(Box::new([1,2,3]) as Box<[_]>)); check_unique_rc::(Rc::from("Hello, World!")); } fn rc_fat_ptr_eq() { let p = Rc::new(1) as Rc; let a: *const dyn Debug = &*p; let r = Rc::into_raw(p); assert!(a == r); drop(unsafe { Rc::from_raw(r) }); } /// Taken from the `Weak::into_raw` doctest. fn weak_into_raw() { let strong = Rc::new(42); let weak = Rc::downgrade(&strong); let raw = Weak::into_raw(weak); assert_eq!(1, Rc::weak_count(&strong)); assert_eq!(42, unsafe { *raw }); drop(unsafe { Weak::from_raw(raw) }); assert_eq!(0, Rc::weak_count(&strong)); } /// Taken from the `Weak::from_raw` doctest. fn weak_from_raw() { let strong = Rc::new(42); let raw_1 = Weak::into_raw(Rc::downgrade(&strong)); let raw_2 = Weak::into_raw(Rc::downgrade(&strong)); assert_eq!(2, Rc::weak_count(&strong)); assert_eq!(42, *Weak::upgrade(&unsafe { Weak::from_raw(raw_1) }).unwrap()); assert_eq!(1, Rc::weak_count(&strong)); drop(strong); // Decrement the last weak count. assert!(Weak::upgrade(&unsafe { Weak::from_raw(raw_2) }).is_none()); } fn rc_uninit() { let mut five = Rc::>::new_uninit(); let five = unsafe { // Deferred initialization: Rc::get_mut_unchecked(&mut five).as_mut_ptr().write(Box::new(5)); five.assume_init() }; assert_eq!(**five, 5) } fn rc_uninit_slice() { let mut values = Rc::<[Box]>::new_uninit_slice(3); let values = unsafe { // Deferred initialization: Rc::get_mut_unchecked(&mut values)[0].as_mut_ptr().write(Box::new(0)); Rc::get_mut_unchecked(&mut values)[1].as_mut_ptr().write(Box::new(1)); Rc::get_mut_unchecked(&mut values)[2].as_mut_ptr().write(Box::new(2)); values.assume_init() }; for (idx, i) in values.iter().enumerate() { assert_eq!(idx, **i); } } fn main() { rc_fat_ptr_eq(); rc_refcell(); rc_refcell2(); rc_cell(); rc_raw(); rc_from(); weak_into_raw(); weak_from_raw(); rc_uninit(); rc_uninit_slice(); arc(); }