// Create the new node, and make it a raw pointer.
let new = Box::new( Node { data: t, next: ptr::null_mut(), prev: self.last } );
let new = box_into_raw(new);
- // Update other points to this node.
+ // Update other pointers to this node.
if self.last.is_null() {
debug_assert!(self.first.is_null());
// The list is currently empty, so we have to update the head pointer.
// and return `Option<T>`.
// Next, we are going to provide an iterator.
- pub fn iter_mut(&self) -> IterMut<T> {
+ pub fn iter_mut(&mut self) -> IterMut<T> {
IterMut { next: self.first, _marker: PhantomData }
}
}
if self.next.is_null() {
None
} else {
- // Otherwise, we can convert the next pointer to a borrow, get a borrow to the data
+ // Otherwise, we can convert the next pointer to a reference, get a reference to the data
// and update the iterator.
let next = unsafe { &mut *self.next };
let ret = &mut next.data;
}
-// **Exercise 16.2**: Add a method `iter` and a type `Iter` providing iteration for shared borrows.
+// **Exercise 16.2**: Add a method `iter` and a type `Iter` providing iteration for shared references.
// Add testcases for both kinds of iterators.
// ## `Drop`
impl<T> Drop for LinkedList<T> {
// The destructor itself is a method which takes `self` in mutably borrowed form. It cannot own `self`, because then
- // the destructor of `self` would be called at the end pf the function, resulting in endless recursion...
+ // the destructor of `self` would be called at the end of the function, resulting in endless recursion.
fn drop(&mut self) {
let mut cur_ptr = self.first;
while !cur_ptr.is_null() {
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