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rust: rbtree: add iterator
- Add Iterator implementation for `RBTree`, allowing iteration over (key, value) pairs in key order. - Add individual `keys()` and `values()` functions to iterate over keys or values alone. - Update doctests to use iteration instead of explicitly getting items. Iteration is needed by the binder driver to enumerate all values in a tree for oneway spam detection [1]. Link: https://lore.kernel.org/rust-for-linux/20231101-rust-binder-v1-17-08ba9197f637@google.com/ [1] Signed-off-by: Wedson Almeida Filho <wedsonaf@gmail.com> Reviewed-by: Alice Ryhl <aliceryhl@google.com> Tested-by: Alice Ryhl <aliceryhl@google.com> Reviewed-by: Benno Lossin <benno.lossin@proton.me> Reviewed-by: Boqun Feng <boqun.feng@gmail.com> Signed-off-by: Matt Gilbride <mattgilbride@google.com> Link: https://lore.kernel.org/r/20240822-b4-rbtree-v12-2-014561758a57@google.com Signed-off-by: Miguel Ojeda <ojeda@kernel.org>
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@ -42,14 +42,30 @@ use core::{
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/// assert_eq!(tree.get(&30).unwrap(), &300);
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/// }
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///
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/// // Iterate over the nodes we just inserted.
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/// {
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&10, &100));
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert_eq!(iter.next().unwrap(), (&30, &300));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// // Print all elements.
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/// for (key, value) in &tree {
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/// pr_info!("{} = {}\n", key, value);
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/// }
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///
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/// // Replace one of the elements.
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/// tree.try_create_and_insert(10, 1000, flags::GFP_KERNEL)?;
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///
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/// // Check that the tree reflects the replacement.
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/// {
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/// assert_eq!(tree.get(&10).unwrap(), &1000);
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/// assert_eq!(tree.get(&20).unwrap(), &200);
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/// assert_eq!(tree.get(&30).unwrap(), &300);
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&10, &1000));
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert_eq!(iter.next().unwrap(), (&30, &300));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// // Change the value of one of the elements.
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@ -57,9 +73,11 @@ use core::{
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///
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/// // Check that the tree reflects the update.
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/// {
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/// assert_eq!(tree.get(&10).unwrap(), &1000);
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/// assert_eq!(tree.get(&20).unwrap(), &200);
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/// assert_eq!(tree.get(&30).unwrap(), &3000);
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&10, &1000));
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert_eq!(iter.next().unwrap(), (&30, &3000));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// // Remove an element.
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@ -67,9 +85,10 @@ use core::{
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///
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/// // Check that the tree reflects the removal.
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/// {
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/// assert_eq!(tree.get(&10), None);
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/// assert_eq!(tree.get(&20).unwrap(), &200);
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/// assert_eq!(tree.get(&30).unwrap(), &3000);
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert_eq!(iter.next().unwrap(), (&30, &3000));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// # Ok::<(), Error>(())
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@ -109,9 +128,11 @@ use core::{
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///
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/// // Check the nodes we just inserted.
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/// {
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/// assert_eq!(tree.get(&10).unwrap(), &100);
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/// assert_eq!(tree.get(&20).unwrap(), &200);
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/// assert_eq!(tree.get(&30).unwrap(), &300);
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&10, &100));
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert_eq!(iter.next().unwrap(), (&30, &300));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// // Remove a node, getting back ownership of it.
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@ -119,9 +140,10 @@ use core::{
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///
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/// // Check that the tree reflects the removal.
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/// {
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/// assert_eq!(tree.get(&10).unwrap(), &100);
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/// assert_eq!(tree.get(&20).unwrap(), &200);
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/// assert_eq!(tree.get(&30), None);
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&10, &100));
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// // Create a preallocated reservation that we can re-use later.
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@ -133,9 +155,11 @@ use core::{
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///
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/// // Check that the tree reflect the new insertion.
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/// {
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/// assert_eq!(tree.get(&10).unwrap(), &100);
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/// assert_eq!(tree.get(&15).unwrap(), &150);
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/// assert_eq!(tree.get(&20).unwrap(), &200);
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/// let mut iter = tree.iter();
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/// assert_eq!(iter.next().unwrap(), (&10, &100));
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/// assert_eq!(iter.next().unwrap(), (&15, &150));
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/// assert_eq!(iter.next().unwrap(), (&20, &200));
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/// assert!(iter.next().is_none());
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/// }
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///
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/// # Ok::<(), Error>(())
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@ -167,6 +191,26 @@ impl<K, V> RBTree<K, V> {
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_p: PhantomData,
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}
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}
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/// Returns an iterator over the tree nodes, sorted by key.
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pub fn iter(&self) -> Iter<'_, K, V> {
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// INVARIANT: `bindings::rb_first` returns a valid pointer to a tree node given a valid pointer to a tree root.
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Iter {
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_tree: PhantomData,
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// SAFETY: `self.root` is a valid pointer to the tree root.
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next: unsafe { bindings::rb_first(&self.root) },
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}
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}
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/// Returns an iterator over the keys of the nodes in the tree, in sorted order.
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pub fn keys(&self) -> impl Iterator<Item = &'_ K> {
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self.iter().map(|(k, _)| k)
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}
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/// Returns an iterator over the values of the nodes in the tree, sorted by key.
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pub fn values(&self) -> impl Iterator<Item = &'_ V> {
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self.iter().map(|(_, v)| v)
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}
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}
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impl<K, V> RBTree<K, V>
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@ -358,6 +402,56 @@ impl<K, V> Drop for RBTree<K, V> {
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}
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}
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impl<'a, K, V> IntoIterator for &'a RBTree<K, V> {
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type Item = (&'a K, &'a V);
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type IntoIter = Iter<'a, K, V>;
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fn into_iter(self) -> Self::IntoIter {
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self.iter()
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}
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}
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/// An iterator over the nodes of a [`RBTree`].
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///
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/// Instances are created by calling [`RBTree::iter`].
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///
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/// # Invariants
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/// - `self.next` is a valid pointer.
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/// - `self.next` points to a node stored inside of a valid `RBTree`.
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pub struct Iter<'a, K, V> {
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_tree: PhantomData<&'a RBTree<K, V>>,
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next: *mut bindings::rb_node,
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}
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// SAFETY: The [`Iter`] gives out immutable references to K and V, so it has the same
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// thread safety requirements as immutable references.
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unsafe impl<'a, K: Sync, V: Sync> Send for Iter<'a, K, V> {}
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// SAFETY: The [`Iter`] gives out immutable references to K and V, so it has the same
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// thread safety requirements as immutable references.
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unsafe impl<'a, K: Sync, V: Sync> Sync for Iter<'a, K, V> {}
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impl<'a, K, V> Iterator for Iter<'a, K, V> {
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type Item = (&'a K, &'a V);
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fn next(&mut self) -> Option<Self::Item> {
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if self.next.is_null() {
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return None;
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}
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// SAFETY: By the type invariant of `Iter`, `self.next` is a valid node in an `RBTree`,
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// and by the type invariant of `RBTree`, all nodes point to the links field of `Node<K, V>` objects.
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let cur = unsafe { container_of!(self.next, Node<K, V>, links) };
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// SAFETY: `self.next` is a valid tree node by the type invariants.
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self.next = unsafe { bindings::rb_next(self.next) };
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// SAFETY: By the same reasoning above, it is safe to dereference the node. Additionally,
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// it is ok to return a reference to members because the iterator must outlive it.
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Some(unsafe { (&(*cur).key, &(*cur).value) })
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}
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}
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/// A memory reservation for a red-black tree node.
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///
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///
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