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* feat(swift): review for chapter_computational_complexity * feat(swift): review for chapter_data_structure * feat(swift): review for chapter_array_and_linkedlist * feat(swift): review for chapter_stack_and_queue * feat(swift): review for chapter_hashing * feat(swift): review for chapter_tree * feat(swift): add codes for heap article * feat(swift): review for chapter_heap * feat(swift): review for chapter_graph * feat(swift): review for chapter_searching * feat(swift): review for chapter_sorting * feat(swift): review for chapter_divide_and_conquer * feat(swift): review for chapter_backtracking * feat(swift): review for chapter_dynamic_programming * feat(swift): review for chapter_greedy * feat(swift): review for utils * feat(swift): update ci tool * feat(swift): trailing closure * feat(swift): array init * feat(swift): map index
173 lines
4.7 KiB
Swift
173 lines
4.7 KiB
Swift
/**
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* File: binary_search_tree.swift
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* Created Time: 2023-01-26
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* Author: nuomi1 (nuomi1@qq.com)
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*/
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import utils
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/* 二叉搜索树 */
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class BinarySearchTree {
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private var root: TreeNode?
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/* 构造方法 */
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init() {
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// 初始化空树
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root = nil
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}
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/* 获取二叉树根节点 */
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func getRoot() -> TreeNode? {
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root
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}
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/* 查找节点 */
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func search(num: Int) -> TreeNode? {
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var cur = root
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// 循环查找,越过叶节点后跳出
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while cur != nil {
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// 目标节点在 cur 的右子树中
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if cur!.val < num {
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cur = cur?.right
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}
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// 目标节点在 cur 的左子树中
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else if cur!.val > num {
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cur = cur?.left
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}
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// 找到目标节点,跳出循环
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else {
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break
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}
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}
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// 返回目标节点
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return cur
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}
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/* 插入节点 */
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func insert(num: Int) {
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// 若树为空,则初始化根节点
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if root == nil {
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root = TreeNode(x: num)
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return
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}
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var cur = root
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var pre: TreeNode?
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// 循环查找,越过叶节点后跳出
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while cur != nil {
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// 找到重复节点,直接返回
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if cur!.val == num {
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return
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}
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pre = cur
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// 插入位置在 cur 的右子树中
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if cur!.val < num {
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cur = cur?.right
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}
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// 插入位置在 cur 的左子树中
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else {
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cur = cur?.left
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}
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}
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// 插入节点
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let node = TreeNode(x: num)
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if pre!.val < num {
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pre?.right = node
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} else {
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pre?.left = node
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}
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}
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/* 删除节点 */
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func remove(num: Int) {
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// 若树为空,直接提前返回
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if root == nil {
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return
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}
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var cur = root
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var pre: TreeNode?
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// 循环查找,越过叶节点后跳出
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while cur != nil {
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// 找到待删除节点,跳出循环
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if cur!.val == num {
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break
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}
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pre = cur
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// 待删除节点在 cur 的右子树中
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if cur!.val < num {
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cur = cur?.right
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}
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// 待删除节点在 cur 的左子树中
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else {
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cur = cur?.left
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}
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}
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// 若无待删除节点,则直接返回
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if cur == nil {
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return
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}
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// 子节点数量 = 0 or 1
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if cur?.left == nil || cur?.right == nil {
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// 当子节点数量 = 0 / 1 时, child = null / 该子节点
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let child = cur?.left ?? cur?.right
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// 删除节点 cur
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if cur !== root {
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if pre?.left === cur {
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pre?.left = child
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} else {
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pre?.right = child
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}
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} else {
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// 若删除节点为根节点,则重新指定根节点
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root = child
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}
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}
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// 子节点数量 = 2
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else {
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// 获取中序遍历中 cur 的下一个节点
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var tmp = cur?.right
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while tmp?.left != nil {
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tmp = tmp?.left
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}
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// 递归删除节点 tmp
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remove(num: tmp!.val)
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// 用 tmp 覆盖 cur
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cur?.val = tmp!.val
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}
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}
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}
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@main
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enum _BinarySearchTree {
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/* Driver Code */
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static func main() {
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/* 初始化二叉搜索树 */
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let bst = BinarySearchTree()
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// 请注意,不同的插入顺序会生成不同的二叉树,该序列可以生成一个完美二叉树
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let nums = [8, 4, 12, 2, 6, 10, 14, 1, 3, 5, 7, 9, 11, 13, 15]
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for num in nums {
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bst.insert(num: num)
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}
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print("\n初始化的二叉树为\n")
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PrintUtil.printTree(root: bst.getRoot())
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/* 查找节点 */
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let node = bst.search(num: 7)
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print("\n查找到的节点对象为 \(node!),节点值 = \(node!.val)")
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/* 插入节点 */
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bst.insert(num: 16)
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print("\n插入节点 16 后,二叉树为\n")
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PrintUtil.printTree(root: bst.getRoot())
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/* 删除节点 */
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bst.remove(num: 1)
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print("\n删除节点 1 后,二叉树为\n")
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PrintUtil.printTree(root: bst.getRoot())
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bst.remove(num: 2)
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print("\n删除节点 2 后,二叉树为\n")
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PrintUtil.printTree(root: bst.getRoot())
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bst.remove(num: 4)
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print("\n删除节点 4 后,二叉树为\n")
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PrintUtil.printTree(root: bst.getRoot())
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}
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}
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