As a learning project for Rust, I have a very simple (working, if incomplete) implementation of a singly linked list. The declaration of the structs looks like this:
type NodePtr<T> = Option<Box<Node<T>>>;
struct Node<T> {
data: T,
next: NodePtr<T>,
}
pub struct LinkedList<T> {
head: NodePtr<T>,
}
Implementing size
and push_front
were both reasonably straight-forward, although doing size iteratively did involve some "fighting with the borrow checker."
The next thing I wanted to try was adding a tail
pointer to the LinkedList
structure. to enable an efficient push_back
operation. Here I've run into a bit of a wall. At first I attempted to use Option<&Box<Node<T>>>
and then Option<&Node<T>>
. Both of those led to sprinkling 'a
s everywhere, but still eventually being unable to promise the lifetime checker that tail
would be valid.
I have since come to the tentative conclusion that it is impossible with these definitions: that there is no way to guarantee to the compiler that tail
would be valid in the places that I think it is valid. The only way I can possibly accomplish this is to have all my pointers be Rc<_>
or Rc<RefCell<_>>
, because those are the only safe ways to have two things pointing at the same object (the final node).
My question: is this the correct conclusion? More generally: what is the idiomatic Rust solution for unowned pointers inside data structures? To my mind, reference counting seems awfully heavy-weight for something so simple, so I think I must be missing something. (Or perhaps I just haven't gotten my mind into the right mindset for memory safety yet.)
Rc
.std::rc::Weak
in addition toRc
, since I just noticed the former exists. Thanks for the quick response!