To learn Rust, I am implementing an AVL tree/dictionary. To insert a new element, I descend into the tree until I find a node where it could be inserted. Unfortunately it complains about several issues with borrowing pointers, and I'm having trouble deciphering them.
I've highlighted where and which errors occur.
enum AVLTree<T, U> {
Tree(T, U, Box<AVLTree<T, U>>, Box<AVLTree<T, U>>),
Empty,
}
impl<T, U> AVLTree<T, U>
where T: PartialOrd + PartialEq + Copy,
U: Copy
{
fn insert_element(&mut self, key: T, val: U) {
let new_node = AVLTree::Tree(key, val, Box::new(AVLTree::Empty), Box::new(AVLTree::Empty));
if let AVLTree::Empty = *self {
*self = new_node;
return;
}
let mut at = self;
loop {
match at {
&mut AVLTree::Tree(key2, _, ref mut left, ref mut right) => {
// ^~~~~~~~~~~~
// error: cannot borrow `at.2` as mutable more than once at a time
// ^~~~~~~~~~~~~
// error: cannot borrow `at.3` as mutable more than once at a time
if key < key2 {
if let AVLTree::Empty = **left {
*left = Box::new(new_node);
break;
}
at = &mut **left;
// error: cannot assign to `at` because it is borrowed
} else {
if let AVLTree::Empty = **right {
*right = Box::new(new_node);
break;
}
at = &mut **right;
// error: cannot assign to `at` because it is borrowed
}
}
&mut AVLTree::Empty => unreachable!(),
}
}
// Do something
}
}
Why is deconstructing at
borrowing it? Why is the compiler complaining about multiple mutable borrows when this should never happen? How could this code be written instead to avoid such errors?