Struct rt_map::CellRef [−][src]
pub struct CellRef<'a, T: ?Sized> where
T: ?Sized + 'a, { pub flag: &'a AtomicUsize, pub value: &'a T, }
Expand description
An immutable reference to data in a Cell.
Access the value via std::ops::Deref (e.g. *val)
Fields
flag: &'a AtomicUsizevalue: &'a TImplementations
Makes a new CellRef for a component of the borrowed data which
preserves the existing borrow.
The Cell is already immutably borrowed, so this cannot fail.
This is an associated function that needs to be used as
CellRef::map(...). A method would interfere with methods of the
same name on the contents of a CellRef used through Deref.
Further this preserves the borrow of the value and hence does the
proper cleanup when it’s dropped.
Examples
This can be used to avoid pointer indirection when a boxed item is
stored in the Cell.
use rt_map::{Cell, CellRef}; let cb = Cell::new(Box::new(5)); // Borrowing the cell causes the `CellRef` to store a reference to the `Box`, which is a // pointer to the value on the heap, not the actual value. let boxed_ref: CellRef<'_, Box<usize>> = cb.borrow(); assert_eq!(**boxed_ref, 5); // Notice the double deref to get the actual value. // By using `map` we can let `CellRef` store a reference directly to the value on the heap. let pure_ref: CellRef<'_, usize> = CellRef::map(boxed_ref, Box::as_ref); assert_eq!(*pure_ref, 5);
We can also use map to get a reference to a sub-part of the borrowed
value.
let c = Cell::new((5, 'b')); let b1: CellRef<'_, (u32, char)> = c.borrow(); let b2: CellRef<'_, u32> = CellRef::map(b1, |t| &t.0); assert_eq!(*b2, 5);
Trait Implementations
Auto Trait Implementations
impl<'a, T: ?Sized> RefUnwindSafe for CellRef<'a, T> where
T: RefUnwindSafe,
impl<'a, T: ?Sized> UnwindSafe for CellRef<'a, T> where
T: RefUnwindSafe,
Blanket Implementations
Mutably borrows from an owned value. Read more