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159 lines
4.7 KiB
159 lines
4.7 KiB
/**
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* File: binary_search_tree.java
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* Created Time: 2022-11-25
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* Author: krahets (krahets@163.com)
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*/
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package chapter_tree;
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import utils.*;
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/* 二元搜尋樹 */
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class BinarySearchTree {
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private TreeNode root;
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/* 建構子 */
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public BinarySearchTree() {
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// 初始化空樹
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root = null;
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}
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/* 獲取二元樹根節點 */
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public TreeNode getRoot() {
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return root;
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}
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/* 查詢節點 */
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public TreeNode search(int num) {
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TreeNode cur = root;
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// 迴圈查詢,越過葉節點後跳出
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while (cur != null) {
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// 目標節點在 cur 的右子樹中
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if (cur.val < num)
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cur = cur.right;
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// 目標節點在 cur 的左子樹中
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else if (cur.val > num)
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cur = cur.left;
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// 找到目標節點,跳出迴圈
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else
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break;
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}
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// 返回目標節點
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return cur;
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}
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/* 插入節點 */
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public void insert(int num) {
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// 若樹為空,則初始化根節點
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if (root == null) {
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root = new TreeNode(num);
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return;
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}
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TreeNode cur = root, pre = null;
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// 迴圈查詢,越過葉節點後跳出
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while (cur != null) {
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// 找到重複節點,直接返回
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if (cur.val == num)
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return;
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pre = cur;
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// 插入位置在 cur 的右子樹中
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if (cur.val < num)
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cur = cur.right;
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// 插入位置在 cur 的左子樹中
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else
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cur = cur.left;
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}
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// 插入節點
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TreeNode node = new TreeNode(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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/* 刪除節點 */
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public void remove(int num) {
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// 若樹為空,直接提前返回
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if (root == null)
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return;
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TreeNode cur = root, pre = null;
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// 迴圈查詢,越過葉節點後跳出
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while (cur != null) {
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// 找到待刪除節點,跳出迴圈
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if (cur.val == num)
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break;
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pre = cur;
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// 待刪除節點在 cur 的右子樹中
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if (cur.val < num)
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cur = cur.right;
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// 待刪除節點在 cur 的左子樹中
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else
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cur = cur.left;
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}
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// 若無待刪除節點,則直接返回
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if (cur == null)
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return;
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// 子節點數量 = 0 or 1
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if (cur.left == null || cur.right == null) {
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// 當子節點數量 = 0 / 1 時, child = null / 該子節點
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TreeNode child = cur.left != null ? cur.left : cur.right;
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// 刪除節點 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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} else {
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// 若刪除節點為根節點,則重新指定根節點
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root = child;
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}
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}
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// 子節點數量 = 2
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else {
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// 獲取中序走訪中 cur 的下一個節點
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TreeNode tmp = cur.right;
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while (tmp.left != null) {
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tmp = tmp.left;
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}
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// 遞迴刪除節點 tmp
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remove(tmp.val);
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// 用 tmp 覆蓋 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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public class binary_search_tree {
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public static void main(String[] args) {
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/* 初始化二元搜尋樹 */
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BinarySearchTree bst = new BinarySearchTree();
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// 請注意,不同的插入順序會生成不同的二元樹,該序列可以生成一個完美二元樹
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int[] nums = { 8, 4, 12, 2, 6, 10, 14, 1, 3, 5, 7, 9, 11, 13, 15 };
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for (int num : nums) {
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bst.insert(num);
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}
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System.out.println("\n初始化的二元樹為\n");
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PrintUtil.printTree(bst.getRoot());
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/* 查詢節點 */
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TreeNode node = bst.search(7);
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System.out.println("\n查詢到的節點物件為 " + node + ",節點值 = " + node.val);
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/* 插入節點 */
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bst.insert(16);
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System.out.println("\n插入節點 16 後,二元樹為\n");
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PrintUtil.printTree(bst.getRoot());
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/* 刪除節點 */
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bst.remove(1);
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System.out.println("\n刪除節點 1 後,二元樹為\n");
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PrintUtil.printTree(bst.getRoot());
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bst.remove(2);
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System.out.println("\n刪除節點 2 後,二元樹為\n");
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PrintUtil.printTree(bst.getRoot());
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bst.remove(4);
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System.out.println("\n刪除節點 4 後,二元樹為\n");
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PrintUtil.printTree(bst.getRoot());
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}
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}
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