Struct alloc::rc::Rc
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pub struct Rc<T: ?Sized> {
// some fields omitted
}1.0.0A reference-counted pointer type over an immutable value.
See the module level documentation for more details.
Methods
impl<T> Rc<T>
fn new(value: T) -> Rc<T>
fn try_unwrap(this: Self) -> Result<T, Self>1.4.0
Unwraps the contained value if the Rc<T> has exactly one strong reference.
Otherwise, an Err is returned with the same Rc<T>.
This will succeed even if there are outstanding weak references.
Examples
use std::rc::Rc; let x = Rc::new(3); assert_eq!(Rc::try_unwrap(x), Ok(3)); let x = Rc::new(4); let _y = x.clone(); assert_eq!(Rc::try_unwrap(x), Err(Rc::new(4)));
fn would_unwrap(this: &Self) -> bool
Checks if Rc::try_unwrap would return Ok.
impl<T: ?Sized> Rc<T>
fn downgrade(this: &Self) -> Weak<T>1.4.0
Downgrades the Rc<T> to a Weak<T> reference.
Examples
use std::rc::Rc; let five = Rc::new(5); let weak_five = Rc::downgrade(&five);
fn weak_count(this: &Self) -> usize
Get the number of weak references to this value.
fn strong_count(this: &Self) -> usize
Get the number of strong references to this value.
fn is_unique(this: &Self) -> bool
Returns true if there are no other Rc or Weak<T> values that share
the same inner value.
Examples
#![feature(rc_counts)] use std::rc::Rc; let five = Rc::new(5); assert!(Rc::is_unique(&five));
fn get_mut(this: &mut Self) -> Option<&mut T>1.4.0
Returns a mutable reference to the contained value if the Rc<T> has
one strong reference and no weak references.
Returns None if the Rc<T> is not unique.
Examples
use std::rc::Rc; let mut x = Rc::new(3); *Rc::get_mut(&mut x).unwrap() = 4; assert_eq!(*x, 4); let _y = x.clone(); assert!(Rc::get_mut(&mut x).is_none());
impl<T: Clone> Rc<T>
fn make_mut(this: &mut Self) -> &mut T1.4.0
Make a mutable reference into the given Rc<T> by cloning the inner
data if the Rc<T> doesn't have one strong reference and no weak
references.
This is also referred to as a copy-on-write.
Examples
use std::rc::Rc; let mut data = Rc::new(5); *Rc::make_mut(&mut data) += 1; // Won't clone anything let mut other_data = data.clone(); // Won't clone inner data *Rc::make_mut(&mut data) += 1; // Clones inner data *Rc::make_mut(&mut data) += 1; // Won't clone anything *Rc::make_mut(&mut other_data) *= 2; // Won't clone anything // Note: data and other_data now point to different numbers assert_eq!(*data, 8); assert_eq!(*other_data, 12);
Trait Implementations
impl<T: ?Sized> !Send for Rc<T>
impl<T: ?Sized> !Sync for Rc<T>
impl<T: ?Sized + Unsize<U>, U: ?Sized> CoerceUnsized<Rc<U>> for Rc<T>
impl<T: ?Sized> Deref for Rc<T>
impl<T: ?Sized> Drop for Rc<T>
fn drop(&mut self)
Drops the Rc<T>.
This will decrement the strong reference count. If the strong reference
count becomes zero and the only other references are Weak<T> ones,
drops the inner value.
Examples
use std::rc::Rc; { let five = Rc::new(5); // stuff drop(five); // explicit drop } { let five = Rc::new(5); // stuff } // implicit drop
impl<T: ?Sized> Clone for Rc<T>
fn clone(&self) -> Rc<T>
Makes a clone of the Rc<T>.
When you clone an Rc<T>, it will create another pointer to the data and
increase the strong reference counter.
Examples
use std::rc::Rc; let five = Rc::new(5); five.clone();
fn clone_from(&mut self, source: &Self)
impl<T: Default> Default for Rc<T>
fn default() -> Rc<T>
Creates a new Rc<T>, with the Default value for T.
Examples
use std::rc::Rc; let x: Rc<i32> = Default::default();
impl<T: ?Sized + PartialEq> PartialEq for Rc<T>
fn eq(&self, other: &Rc<T>) -> bool
Equality for two Rc<T>s.
Two Rc<T>s are equal if their inner value are equal.
Examples
use std::rc::Rc; let five = Rc::new(5); five == Rc::new(5);
fn ne(&self, other: &Rc<T>) -> bool
Inequality for two Rc<T>s.
Two Rc<T>s are unequal if their inner value are unequal.
Examples
use std::rc::Rc; let five = Rc::new(5); five != Rc::new(5);
impl<T: ?Sized + Eq> Eq for Rc<T>
impl<T: ?Sized + PartialOrd> PartialOrd for Rc<T>
fn partial_cmp(&self, other: &Rc<T>) -> Option<Ordering>
Partial comparison for two Rc<T>s.
The two are compared by calling partial_cmp() on their inner values.
Examples
use std::rc::Rc; let five = Rc::new(5); five.partial_cmp(&Rc::new(5));
fn lt(&self, other: &Rc<T>) -> bool
Less-than comparison for two Rc<T>s.
The two are compared by calling < on their inner values.
Examples
use std::rc::Rc; let five = Rc::new(5); five < Rc::new(5);
fn le(&self, other: &Rc<T>) -> bool
'Less-than or equal to' comparison for two Rc<T>s.
The two are compared by calling <= on their inner values.
Examples
use std::rc::Rc; let five = Rc::new(5); five <= Rc::new(5);
fn gt(&self, other: &Rc<T>) -> bool
Greater-than comparison for two Rc<T>s.
The two are compared by calling > on their inner values.
Examples
use std::rc::Rc; let five = Rc::new(5); five > Rc::new(5);
fn ge(&self, other: &Rc<T>) -> bool
'Greater-than or equal to' comparison for two Rc<T>s.
The two are compared by calling >= on their inner values.
Examples
use std::rc::Rc; let five = Rc::new(5); five >= Rc::new(5);
impl<T: ?Sized + Ord> Ord for Rc<T>
fn cmp(&self, other: &Rc<T>) -> Ordering
Comparison for two Rc<T>s.
The two are compared by calling cmp() on their inner values.
Examples
use std::rc::Rc; let five = Rc::new(5); five.partial_cmp(&Rc::new(5));