This create provides weak pointers for Pin<std::rc::Rc<T>> and Pin<std::rc::Arc<T>>
Pin<std::rc::Rc<T>> and Pin<std::rc::Arc<T>> cannot be converted safely to their Weak<T> equivalent if T does not implement Unpin. That's because it would otherwise be possible to do something like this:
struct SomeStruct(PhantomPinned); let pinned = Rc::pin(SomeStruct(PhantomPinned)); // This is unsafe ... let weak = unsafe { Rc::downgrade(&Pin::into_inner_unchecked(pinned.clone())) }; // ... because otherwise it would be possible to move the content of pinned: let mut unpinned_rc = weak.upgrade().unwrap(); std::mem::drop((pinned, weak)); // unpinned_rc is now the only reference so this will work: let x = std::mem::replace( Rc::get_mut(&mut unpinned_rc).unwrap(), SomeStruct(PhantomPinned), );
In that example, x is the original SomeStruct which we moved in memory, that is undefined behavior, do not do that at home.
PinWeakThis crate simply provide a rc::PinWeak and sync::PinWeak which allow to get weak pointer from Pin<std::rc::Rc> and Pin<srd::sync::Arc>.
This is safe because you can one can only get back a Pin out of it when trying to upgrade the weak pointer.
PinWeak can be created using the PinWeak downgrade function.
use pin_weak::rc::*; struct SomeStruct(PhantomPinned, usize); let pinned = Rc::pin(SomeStruct(PhantomPinned, 42)); let weak = PinWeak::downgrade(pinned.clone()); assert_eq!(weak.upgrade().unwrap().1, 42); std::mem::drop(pinned); assert!(weak.upgrade().is_none());
MIT