mirror of
https://github.com/krahets/hello-algo.git
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feat: add rust docs (#815)
* feat: add rust docs * Import std types for built_in_hash doc
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8 changed files with 162 additions and 12 deletions
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@ -532,7 +532,27 @@
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=== "Rust"
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```rust title=""
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/* 回溯算法框架 */
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fn backtrack(state: &mut State, choices: &Vec<Choice>, res: &mut Vec<State>) {
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// 判断是否为解
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if is_solution(state) {
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// 记录解
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record_solution(state, res);
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// 停止继续搜索
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return;
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}
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// 遍历所有选择
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for choice in choices {
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// 剪枝:判断选择是否合法
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if is_valid(state, choice) {
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// 尝试:做出选择,更新状态
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make_choice(state, choice);
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backtrack(state, choices, res);
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// 回退:撤销选择,恢复到之前的状态
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undo_choice(state, choice);
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}
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}
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}
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```
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=== "C"
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@ -135,7 +135,11 @@
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=== "Rust"
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```rust title=""
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// 使用多种基本数据类型来初始化数组
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let numbers: Vec<i32> = vec![0; 5];
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let decimals: Vec<float> = vec![0.0, 5];
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let characters: Vec<char> = vec!['0'; 5];
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let bools: Vec<bool> = vec![false; 5];
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```
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=== "C"
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@ -436,6 +436,45 @@ $$
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=== "Rust"
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```rust title="built_in_hash.rs"
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use std::collections::hash_map::DefaultHasher;
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use std::hash::{Hash, Hasher};
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let num = 3;
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let mut num_hasher = DefaultHasher::new();
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num.hash(&mut num_hasher);
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let hash_num = num_hasher.finish();
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// 整数 3 的哈希值为 568126464209439262
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let bol = true;
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let mut bol_hasher = DefaultHasher::new();
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bol.hash(&mut bol_hasher);
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let hash_bol = bol_hasher.finish();
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// 布尔量 true 的哈希值为 4952851536318644461
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let dec: f32 = 3.14159;
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let mut dec_hasher = DefaultHasher::new();
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dec.to_bits().hash(&mut dec_hasher);
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let hash_dec = dec_hasher.finish();
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println!("小数 {} 的哈希值为 {}", dec, hash_dec);
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// 小数 3.14159 的哈希值为 2566941990314602357
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let str = "Hello 算法";
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let mut str_hasher = DefaultHasher::new();
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str.hash(&mut str_hasher);
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let hash_str = str_hasher.finish();
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// 字符串 Hello 算法 的哈希值为 16092673739211250988
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let arr = (&12836, &"小哈");
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let mut tup_hasher = DefaultHasher::new();
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arr.hash(&mut tup_hasher);
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let hash_tup = tup_hasher.finish();
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// 元组 (12836, "小哈") 的哈希值为 1885128010422702749
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let node = ListNode::new(42);
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let mut hasher = DefaultHasher::new();
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node.borrow().val.hash(&mut hasher);
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let hash = hasher.finish();
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// 节点对象 RefCell { value: ListNode { val: 42, next: None } } 的哈希值为15387811073369036852
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```
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@ -296,7 +296,41 @@
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=== "Rust"
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```rust title="heap.rs"
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use std::collections::BinaryHeap;
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use std::cmp::Reverse;
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/* 初始化堆 */
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// 初始化小顶堆
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let mut min_heap = BinaryHeap::<Reverse<i32>>::new();
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// 初始化大顶堆
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let mut max_heap = BinaryHeap::new();
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/* 元素入堆 */
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max_heap.push(1);
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max_heap.push(3);
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max_heap.push(2);
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max_heap.push(5);
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max_heap.push(4);
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/* 获取堆顶元素 */
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let peek = max_heap.peek().unwrap(); // 5
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/* 堆顶元素出堆 */
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// 出堆元素会形成一个从大到小的序列
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let peek = max_heap.pop().unwrap(); // 5
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let peek = max_heap.pop().unwrap(); // 4
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let peek = max_heap.pop().unwrap(); // 3
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let peek = max_heap.pop().unwrap(); // 2
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let peek = max_heap.pop().unwrap(); // 1
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/* 获取堆大小 */
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let size = max_heap.len();
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/* 判断堆是否为空 */
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let is_empty = max_heap.is_empty();
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/* 输入列表并建堆 */
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let min_heap = BinaryHeap::from(vec![Reverse(1), Reverse(3), Reverse(2), Reverse(5), Reverse(4)]);
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```
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=== "C"
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@ -278,20 +278,16 @@
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stack.push(4);
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/* 访问栈顶元素 */
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if let Some(top) = stack.get(stack.len() - 1) {
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}
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if let Some(top) = stack.last() {
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}
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let top = stack[stack.len() - 1];
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/* 元素出栈 */
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if let Some(pop) = stack.pop() {
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}
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let pop = stack.pop().unwrap();
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/* 获取栈的长度 */
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let size = stack.len();
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/* 判断是否为空 */
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let isEmpty = stack.is_empty();
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let is_empty = stack.is_empty();
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```
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=== "C"
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@ -99,7 +99,9 @@
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=== "Rust"
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```rust title=""
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/* 二叉树的数组表示 */
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// 使用 None 来标记空位
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let tree = [Some(1), Some(2), Some(3), Some(4), None, Some(6), Some(7), Some(8), Some(9), None, None, Some(12), None, None, Some(15)];
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```
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=== "C"
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@ -153,7 +153,28 @@ AVL 树既是二叉搜索树也是平衡二叉树,同时满足这两类二叉
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=== "Rust"
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```rust title=""
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use std::rc::Rc;
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use std::cell::RefCell;
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/* AVL 树节点类型 */
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struct TreeNode {
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val: i32, // 节点值
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height: i32, // 节点高度
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left: Option<Rc<RefCell<TreeNode>>>, // 左子节点
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right: Option<Rc<RefCell<TreeNode>>>, // 右子节点
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}
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impl TreeNode {
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/* AVL 树节点构造方法 */
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fn new(val: i32) -> Rc<RefCell<Self>> {
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Rc::new(RefCell::new(Self {
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val,
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height: 0,
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left: None,
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right: None
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}))
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}
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}
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```
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=== "C"
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@ -126,7 +126,26 @@
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=== "Rust"
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```rust title=""
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use std::rc::Rc;
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use std::cell::RefCell;
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/* 二叉树节点类型 */
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struct TreeNode {
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val: i32, // 节点值
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left: Option<Rc<RefCell<TreeNode>>>, // 左子节点引用
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right: Option<Rc<RefCell<TreeNode>>>, // 右子节点引用
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}
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impl TreeNode {
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/* 二叉树节点构造方法 */
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fn new(val: i32) -> Rc<RefCell<Self>> {
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Rc::new(RefCell::new(Self {
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val,
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left: None,
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right: None
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}))
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}
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}
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```
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=== "C"
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@ -346,7 +365,17 @@
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=== "Rust"
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```rust title="binary_tree.rs"
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// 初始化节点
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let n1 = TreeNode::new(1);
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let n2 = TreeNode::new(2);
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let n3 = TreeNode::new(3);
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let n4 = TreeNode::new(4);
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let n5 = TreeNode::new(5);
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// 构建引用指向(即指针)
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n1.borrow_mut().left = Some(n2.clone());
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n1.borrow_mut().right = Some(n3);
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n2.borrow_mut().left = Some(n4);
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n2.borrow_mut().right = Some(n5);
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```
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=== "C"
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=== "Rust"
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```rust title="binary_tree.rs"
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let p = TreeNode::new(0);
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// 在 n1 -> n2 中间插入节点 P
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n1.borrow_mut().left = Some(p.clone());
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p.borrow_mut().left = Some(n2.clone());
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// 删除节点 p
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n1.borrow_mut().left = Some(n2);
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```
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=== "C"
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