use core::cell::*; use core::default::Default; use std::mem::drop; #[test] fn smoketest_unsafe_cell() { let mut x = UnsafeCell::new(10); let ref_mut = &mut x; unsafe { // The asserts are repeated in order to ensure that `get()` // is non-mutating. assert_eq!(*ref_mut.get(), 10); assert_eq!(*ref_mut.get(), 10); *ref_mut.get_mut() += 5; assert_eq!(*ref_mut.get(), 15); assert_eq!(*ref_mut.get(), 15); assert_eq!(x.into_inner(), 15); } } #[test] fn unsafe_cell_raw_get() { let x = UnsafeCell::new(10); let ptr = &x as *const UnsafeCell; unsafe { // The asserts are repeated in order to ensure that `raw_get()` // is non-mutating. assert_eq!(*UnsafeCell::raw_get(ptr), 10); assert_eq!(*UnsafeCell::raw_get(ptr), 10); *UnsafeCell::raw_get(ptr) += 5; assert_eq!(*UnsafeCell::raw_get(ptr), 15); assert_eq!(*UnsafeCell::raw_get(ptr), 15); assert_eq!(x.into_inner(), 15); } } #[test] fn smoketest_cell() { let x = Cell::new(10); assert_eq!(x, Cell::new(10)); assert_eq!(x.get(), 10); x.set(20); assert_eq!(x, Cell::new(20)); assert_eq!(x.get(), 20); let y = Cell::new((30, 40)); assert_eq!(y, Cell::new((30, 40))); assert_eq!(y.get(), (30, 40)); } #[test] fn cell_update() { let x = Cell::new(10); assert_eq!(x.update(|x| x + 5), 15); assert_eq!(x.get(), 15); assert_eq!(x.update(|x| x / 3), 5); assert_eq!(x.get(), 5); } #[test] fn cell_has_sensible_show() { let x = Cell::new("foo bar"); assert!(format!("{:?}", x).contains(x.get())); x.set("baz qux"); assert!(format!("{:?}", x).contains(x.get())); } #[test] fn ref_and_refmut_have_sensible_show() { let refcell = RefCell::new("foo"); let refcell_refmut = refcell.borrow_mut(); assert!(format!("{:?}", refcell_refmut).contains("foo")); drop(refcell_refmut); let refcell_ref = refcell.borrow(); assert!(format!("{:?}", refcell_ref).contains("foo")); drop(refcell_ref); } #[test] fn double_imm_borrow() { let x = RefCell::new(0); let _b1 = x.borrow(); x.borrow(); } #[test] fn no_mut_then_imm_borrow() { let x = RefCell::new(0); let _b1 = x.borrow_mut(); assert!(x.try_borrow().is_err()); } #[test] fn no_imm_then_borrow_mut() { let x = RefCell::new(0); let _b1 = x.borrow(); assert!(x.try_borrow_mut().is_err()); } #[test] fn no_double_borrow_mut() { let x = RefCell::new(0); assert!(x.try_borrow().is_ok()); let _b1 = x.borrow_mut(); assert!(x.try_borrow().is_err()); } #[test] fn imm_release_borrow_mut() { let x = RefCell::new(0); { let _b1 = x.borrow(); } x.borrow_mut(); } #[test] fn mut_release_borrow_mut() { let x = RefCell::new(0); { let _b1 = x.borrow_mut(); } x.borrow(); } #[test] fn double_borrow_single_release_no_borrow_mut() { let x = RefCell::new(0); let _b1 = x.borrow(); { let _b2 = x.borrow(); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); } #[test] #[should_panic] fn discard_doesnt_unborrow() { let x = RefCell::new(0); let _b = x.borrow(); let _ = _b; let _b = x.borrow_mut(); } #[test] fn ref_clone_updates_flag() { let x = RefCell::new(0); { let b1 = x.borrow(); assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); { let _b2 = Ref::clone(&b1); assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); } #[test] fn ref_map_does_not_update_flag() { let x = RefCell::new(Some(5)); { let b1: Ref<'_, Option> = x.borrow(); assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); { let b2: Ref<'_, u32> = Ref::map(b1, |o| o.as_ref().unwrap()); assert_eq!(*b2, 5); assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); } #[test] fn ref_map_split_updates_flag() { let x = RefCell::new([1, 2]); { let b1 = x.borrow(); assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); { let (_b2, _b3) = Ref::map_split(b1, |slc| slc.split_at(1)); assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_err()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); { let b1 = x.borrow_mut(); assert!(x.try_borrow().is_err()); assert!(x.try_borrow_mut().is_err()); { let (_b2, _b3) = RefMut::map_split(b1, |slc| slc.split_at_mut(1)); assert!(x.try_borrow().is_err()); assert!(x.try_borrow_mut().is_err()); drop(_b2); assert!(x.try_borrow().is_err()); assert!(x.try_borrow_mut().is_err()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); } assert!(x.try_borrow().is_ok()); assert!(x.try_borrow_mut().is_ok()); } #[test] fn ref_map_split() { let x = RefCell::new([1, 2]); let (b1, b2) = Ref::map_split(x.borrow(), |slc| slc.split_at(1)); assert_eq!(*b1, [1]); assert_eq!(*b2, [2]); } #[test] fn ref_mut_map_split() { let x = RefCell::new([1, 2]); { let (mut b1, mut b2) = RefMut::map_split(x.borrow_mut(), |slc| slc.split_at_mut(1)); assert_eq!(*b1, [1]); assert_eq!(*b2, [2]); b1[0] = 2; b2[0] = 1; } assert_eq!(*x.borrow(), [2, 1]); } #[test] fn ref_map_accessor() { struct X(RefCell<(u32, char)>); impl X { fn accessor(&self) -> Ref<'_, u32> { Ref::map(self.0.borrow(), |tuple| &tuple.0) } } let x = X(RefCell::new((7, 'z'))); let d: Ref<'_, u32> = x.accessor(); assert_eq!(*d, 7); } #[test] fn ref_mut_map_accessor() { struct X(RefCell<(u32, char)>); impl X { fn accessor(&self) -> RefMut<'_, u32> { RefMut::map(self.0.borrow_mut(), |tuple| &mut tuple.0) } } let x = X(RefCell::new((7, 'z'))); { let mut d: RefMut<'_, u32> = x.accessor(); assert_eq!(*d, 7); *d += 1; } assert_eq!(*x.0.borrow(), (8, 'z')); } #[test] fn as_ptr() { let c1: Cell = Cell::new(0); c1.set(1); assert_eq!(1, unsafe { *c1.as_ptr() }); let c2: Cell = Cell::new(0); unsafe { *c2.as_ptr() = 1; } assert_eq!(1, c2.get()); let r1: RefCell = RefCell::new(0); *r1.borrow_mut() = 1; assert_eq!(1, unsafe { *r1.as_ptr() }); let r2: RefCell = RefCell::new(0); unsafe { *r2.as_ptr() = 1; } assert_eq!(1, *r2.borrow()); } #[test] fn cell_default() { let cell: Cell = Default::default(); assert_eq!(0, cell.get()); } #[test] fn cell_set() { let cell = Cell::new(10); cell.set(20); assert_eq!(20, cell.get()); let cell = Cell::new("Hello".to_owned()); cell.set("World".to_owned()); assert_eq!("World".to_owned(), cell.into_inner()); } #[test] fn cell_replace() { let cell = Cell::new(10); assert_eq!(10, cell.replace(20)); assert_eq!(20, cell.get()); let cell = Cell::new("Hello".to_owned()); assert_eq!("Hello".to_owned(), cell.replace("World".to_owned())); assert_eq!("World".to_owned(), cell.into_inner()); } #[test] fn cell_into_inner() { let cell = Cell::new(10); assert_eq!(10, cell.into_inner()); let cell = Cell::new("Hello world".to_owned()); assert_eq!("Hello world".to_owned(), cell.into_inner()); } #[test] fn cell_exterior() { #[derive(Copy, Clone)] #[allow(dead_code)] struct Point { x: isize, y: isize, z: isize, } fn f(p: &Cell) { assert_eq!(p.get().z, 12); p.set(Point { x: 10, y: 11, z: 13 }); assert_eq!(p.get().z, 13); } let a = Point { x: 10, y: 11, z: 12 }; let b = &Cell::new(a); assert_eq!(b.get().z, 12); f(b); assert_eq!(a.z, 12); assert_eq!(b.get().z, 13); } #[test] fn cell_does_not_clone() { #[derive(Copy)] #[allow(dead_code)] struct Foo { x: isize, } impl Clone for Foo { fn clone(&self) -> Foo { // Using Cell in any way should never cause clone() to be // invoked -- after all, that would permit evil user code to // abuse `Cell` and trigger crashes. panic!(); } } let x = Cell::new(Foo { x: 22 }); let _y = x.get(); let _z = x.clone(); } #[test] fn refcell_default() { let cell: RefCell = Default::default(); assert_eq!(0, *cell.borrow()); } #[test] fn unsafe_cell_unsized() { let cell: &UnsafeCell<[i32]> = &UnsafeCell::new([1, 2, 3]); { let val: &mut [i32] = unsafe { &mut *cell.get() }; val[0] = 4; val[2] = 5; } let comp: &mut [i32] = &mut [4, 2, 5]; assert_eq!(unsafe { &mut *cell.get() }, comp); } #[test] fn refcell_unsized() { let cell: &RefCell<[i32]> = &RefCell::new([1, 2, 3]); { let b = &mut *cell.borrow_mut(); b[0] = 4; b[2] = 5; } let comp: &mut [i32] = &mut [4, 2, 5]; assert_eq!(&*cell.borrow(), comp); } #[test] fn refcell_ref_coercion() { let cell: RefCell<[i32; 3]> = RefCell::new([1, 2, 3]); { let mut cellref: RefMut<'_, [i32; 3]> = cell.borrow_mut(); cellref[0] = 4; let mut coerced: RefMut<'_, [i32]> = cellref; coerced[2] = 5; } { let comp: &mut [i32] = &mut [4, 2, 5]; let cellref: Ref<'_, [i32; 3]> = cell.borrow(); assert_eq!(&*cellref, comp); let coerced: Ref<'_, [i32]> = cellref; assert_eq!(&*coerced, comp); } } #[test] #[should_panic] fn refcell_swap_borrows() { let x = RefCell::new(0); let _b = x.borrow(); let y = RefCell::new(1); x.swap(&y); } #[test] #[should_panic] fn refcell_replace_borrows() { let x = RefCell::new(0); let _b = x.borrow(); x.replace(1); } #[test] fn refcell_format() { let name = RefCell::new("rust"); let what = RefCell::new("rocks"); let msg = format!("{name} {}", &*what.borrow(), name = &*name.borrow()); assert_eq!(msg, "rust rocks".to_string()); } #[allow(dead_code)] fn const_cells() { const UNSAFE_CELL: UnsafeCell = UnsafeCell::new(3); const _: i32 = UNSAFE_CELL.into_inner(); const REF_CELL: RefCell = RefCell::new(3); const _: i32 = REF_CELL.into_inner(); const CELL: Cell = Cell::new(3); const _: i32 = CELL.into_inner(); }