fuhouyin/hello-algo
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
hello-algo/zh-hant/codes/rust/chapter_tree/avl_tree.rs
Yudong Jin 2a9db6d039
Bug fixes and improvements (#1572) 
* Sync zh and zh-hant versions.

* Remove the polyfill.io link from mkdocs.yml

* Update contributors' info for code reviewers and en/zh-hant versions reviewers.

* Fix graph.md

* Update avatars for English version reviewers.

* Sync zh and zh-hant versions.

* Fix two_sum_brute_force.png

* Sync zh and zh-hant versions.
Optimize structrue of index.html.

* Format index.html
2024-11-25 19:21:11 +08:00

298 lines
10 KiB
Rust
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* File: avl_tree.rs
* Created Time: 2023-07-14
* Author: night-cruise (2586447362@qq.com)
*/
use hello_algo_rust::include::{print_util, TreeNode};
use std::cell::RefCell;
use std::cmp::Ordering;
use std::rc::Rc;
type OptionTreeNodeRc = Option<Rc<RefCell<TreeNode>>>;
/* AVL 樹 */
struct AVLTree {
root: OptionTreeNodeRc, // 根節點
}
impl AVLTree {
/* 建構子 */
fn new() -> Self {
Self { root: None }
}
/* 獲取節點高度 */
fn height(node: OptionTreeNodeRc) -> i32 {
// 空節點高度為 -1 ,葉節點高度為 0
match node {
Some(node) => node.borrow().height,
None => -1,
}
}
/* 更新節點高度 */
fn update_height(node: OptionTreeNodeRc) {
if let Some(node) = node {
let left = node.borrow().left.clone();
let right = node.borrow().right.clone();
// 節點高度等於最高子樹高度 + 1
node.borrow_mut().height = std::cmp::max(Self::height(left), Self::height(right)) + 1;
}
}
/* 獲取平衡因子 */
fn balance_factor(node: OptionTreeNodeRc) -> i32 {
match node {
// 空節點平衡因子為 0
None => 0,
// 節點平衡因子 = 左子樹高度 - 右子樹高度
Some(node) => {
Self::height(node.borrow().left.clone()) - Self::height(node.borrow().right.clone())
}
}
}
/* 右旋操作 */
fn right_rotate(node: OptionTreeNodeRc) -> OptionTreeNodeRc {
match node {
Some(node) => {
let child = node.borrow().left.clone().unwrap();
let grand_child = child.borrow().right.clone();
// 以 child 為原點,將 node 向右旋轉
child.borrow_mut().right = Some(node.clone());
node.borrow_mut().left = grand_child;
// 更新節點高度
Self::update_height(Some(node));
Self::update_height(Some(child.clone()));
// 返回旋轉後子樹的根節點
Some(child)
}
None => None,
}
}
/* 左旋操作 */
fn left_rotate(node: OptionTreeNodeRc) -> OptionTreeNodeRc {
match node {
Some(node) => {
let child = node.borrow().right.clone().unwrap();
let grand_child = child.borrow().left.clone();
// 以 child 為原點,將 node 向左旋轉
child.borrow_mut().left = Some(node.clone());
node.borrow_mut().right = grand_child;
// 更新節點高度
Self::update_height(Some(node));
Self::update_height(Some(child.clone()));
// 返回旋轉後子樹的根節點
Some(child)
}
None => None,
}
}
/* 執行旋轉操作,使該子樹重新恢復平衡 */
fn rotate(node: OptionTreeNodeRc) -> OptionTreeNodeRc {
// 獲取節點 node 的平衡因子
let balance_factor = Self::balance_factor(node.clone());
// 左偏樹
if balance_factor > 1 {
let node = node.unwrap();
if Self::balance_factor(node.borrow().left.clone()) >= 0 {
// 右旋
Self::right_rotate(Some(node))
} else {
// 先左旋後右旋
let left = node.borrow().left.clone();
node.borrow_mut().left = Self::left_rotate(left);
Self::right_rotate(Some(node))
}
}
// 右偏樹
else if balance_factor < -1 {
let node = node.unwrap();
if Self::balance_factor(node.borrow().right.clone()) <= 0 {
// 左旋
Self::left_rotate(Some(node))
} else {
// 先右旋後左旋
let right = node.borrow().right.clone();
node.borrow_mut().right = Self::right_rotate(right);
Self::left_rotate(Some(node))
}
} else {
// 平衡樹,無須旋轉,直接返回
node
}
}
/* 插入節點 */
fn insert(&mut self, val: i32) {
self.root = Self::insert_helper(self.root.clone(), val);
}
/* 遞迴插入節點(輔助方法) */
fn insert_helper(node: OptionTreeNodeRc, val: i32) -> OptionTreeNodeRc {
match node {
Some(mut node) => {
/* 1. 查詢插入位置並插入節點 */
match {
let node_val = node.borrow().val;
node_val
}
.cmp(&val)
{
Ordering::Greater => {
let left = node.borrow().left.clone();
node.borrow_mut().left = Self::insert_helper(left, val);
}
Ordering::Less => {
let right = node.borrow().right.clone();
node.borrow_mut().right = Self::insert_helper(right, val);
}
Ordering::Equal => {
return Some(node); // 重複節點不插入,直接返回
}
}
Self::update_height(Some(node.clone())); // 更新節點高度
/* 2. 執行旋轉操作,使該子樹重新恢復平衡 */
node = Self::rotate(Some(node)).unwrap();
// 返回子樹的根節點
Some(node)
}
None => Some(TreeNode::new(val)),
}
}
/* 刪除節點 */
fn remove(&self, val: i32) {
Self::remove_helper(self.root.clone(), val);
}
/* 遞迴刪除節點(輔助方法) */
fn remove_helper(node: OptionTreeNodeRc, val: i32) -> OptionTreeNodeRc {
match node {
Some(mut node) => {
/* 1. 查詢節點並刪除 */
if val < node.borrow().val {
let left = node.borrow().left.clone();
node.borrow_mut().left = Self::remove_helper(left, val);
} else if val > node.borrow().val {
let right = node.borrow().right.clone();
node.borrow_mut().right = Self::remove_helper(right, val);
} else if node.borrow().left.is_none() || node.borrow().right.is_none() {
let child = if node.borrow().left.is_some() {
node.borrow().left.clone()
} else {
node.borrow().right.clone()
};
match child {
// 子節點數量 = 0 ,直接刪除 node 並返回
None => {
return None;
}
// 子節點數量 = 1 ,直接刪除 node
Some(child) => node = child,
}
} else {
// 子節點數量 = 2 ,則將中序走訪的下個節點刪除,並用該節點替換當前節點
let mut temp = node.borrow().right.clone().unwrap();
loop {
let temp_left = temp.borrow().left.clone();
if temp_left.is_none() {
break;
}
temp = temp_left.unwrap();
}
let right = node.borrow().right.clone();
node.borrow_mut().right = Self::remove_helper(right, temp.borrow().val);
node.borrow_mut().val = temp.borrow().val;
}
Self::update_height(Some(node.clone())); // 更新節點高度
/* 2. 執行旋轉操作,使該子樹重新恢復平衡 */
node = Self::rotate(Some(node)).unwrap();
// 返回子樹的根節點
Some(node)
}
None => None,
}
}
/* 查詢節點 */
fn search(&self, val: i32) -> OptionTreeNodeRc {
let mut cur = self.root.clone();
// 迴圈查詢,越過葉節點後跳出
while let Some(current) = cur.clone() {
match current.borrow().val.cmp(&val) {
// 目標節點在 cur 的右子樹中
Ordering::Less => {
cur = current.borrow().right.clone();
}
// 目標節點在 cur 的左子樹中
Ordering::Greater => {
cur = current.borrow().left.clone();
}
// 找到目標節點,跳出迴圈
Ordering::Equal => {
break;
}
}
}
// 返回目標節點
cur
}
}
/* Driver Code */
fn main() {
fn test_insert(tree: &mut AVLTree, val: i32) {
tree.insert(val);
println!("\n插入節點 {}AVL 樹為", val);
print_util::print_tree(&tree.root.clone().unwrap());
}
fn test_remove(tree: &mut AVLTree, val: i32) {
tree.remove(val);
println!("\n刪除節點 {}AVL 樹為", val);
print_util::print_tree(&tree.root.clone().unwrap());
}
/* 初始化空 AVL 樹 */
let mut avl_tree = AVLTree::new();
/* 插入節點 */
// 請關注插入節點後AVL 樹是如何保持平衡的
test_insert(&mut avl_tree, 1);
test_insert(&mut avl_tree, 2);
test_insert(&mut avl_tree, 3);
test_insert(&mut avl_tree, 4);
test_insert(&mut avl_tree, 5);
test_insert(&mut avl_tree, 8);
test_insert(&mut avl_tree, 7);
test_insert(&mut avl_tree, 9);
test_insert(&mut avl_tree, 10);
test_insert(&mut avl_tree, 6);
/* 插入重複節點 */
test_insert(&mut avl_tree, 7);
/* 刪除節點 */
// 請關注刪除節點後AVL 樹是如何保持平衡的
test_remove(&mut avl_tree, 8); // 刪除度為 0 的節點
test_remove(&mut avl_tree, 5); // 刪除度為 1 的節點
test_remove(&mut avl_tree, 4); // 刪除度為 2 的節點
/* 查詢節點 */
let node = avl_tree.search(7);
if let Some(node) = node {
println!(
"\n查詢到的節點物件為 {:?},節點值 = {}",
&*node.borrow(),
node.borrow().val
);
}
}
Reference in New Issue View Git Blame Copy Permalink