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171 lines
4.9 KiB
C++
171 lines
4.9 KiB
C++
/**
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* File: binary_search_tree.cpp
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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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#include "../utils/common.hpp"
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/* Binary search tree */
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class BinarySearchTree {
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private:
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TreeNode *root;
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public:
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/* Constructor */
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BinarySearchTree() {
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// Initialize empty tree
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root = nullptr;
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}
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/* Destructor */
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~BinarySearchTree() {
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freeMemoryTree(root);
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}
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/* Get binary tree root node */
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TreeNode *getRoot() {
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return root;
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}
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/* Search node */
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TreeNode *search(int num) {
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TreeNode *cur = root;
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// Loop search, exit after passing leaf node
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while (cur != nullptr) {
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// Target node is in cur's right subtree
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if (cur->val < num)
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cur = cur->right;
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// Target node is in cur's left subtree
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else if (cur->val > num)
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cur = cur->left;
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// Found target node, exit loop
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else
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break;
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}
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// Return target node
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return cur;
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}
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/* Insert node */
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void insert(int num) {
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// If tree is empty, initialize root node
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if (root == nullptr) {
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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 = nullptr;
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// Loop search, exit after passing leaf node
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while (cur != nullptr) {
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// Found duplicate node, return directly
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if (cur->val == num)
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return;
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pre = cur;
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// Insertion position is in cur's right subtree
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if (cur->val < num)
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cur = cur->right;
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// Insertion position is in cur's left subtree
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else
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cur = cur->left;
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}
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// Insert node
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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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/* Remove node */
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void remove(int num) {
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// If tree is empty, return directly
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if (root == nullptr)
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return;
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TreeNode *cur = root, *pre = nullptr;
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// Loop search, exit after passing leaf node
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while (cur != nullptr) {
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// Found node to delete, exit loop
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if (cur->val == num)
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break;
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pre = cur;
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// Node to delete is in cur's right subtree
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if (cur->val < num)
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cur = cur->right;
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// Node to delete is in cur's left subtree
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else
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cur = cur->left;
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}
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// If no node to delete, return directly
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if (cur == nullptr)
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return;
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// Number of child nodes = 0 or 1
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if (cur->left == nullptr || cur->right == nullptr) {
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// When number of child nodes = 0 / 1, child = nullptr / that child node
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TreeNode *child = cur->left != nullptr ? cur->left : cur->right;
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// Delete node 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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// If deleted node is root node, reassign root node
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root = child;
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}
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// Free memory
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delete cur;
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}
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// Number of child nodes = 2
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else {
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// Get next node of cur in inorder traversal
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TreeNode *tmp = cur->right;
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while (tmp->left != nullptr) {
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tmp = tmp->left;
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}
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int tmpVal = tmp->val;
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// Recursively delete node tmp
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remove(tmp->val);
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// Replace cur with tmp
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cur->val = tmpVal;
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}
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}
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};
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/* Driver Code */
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int main() {
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/* Initialize binary search tree */
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BinarySearchTree *bst = new BinarySearchTree();
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// Please note that different insertion orders will generate different binary trees, this sequence can generate a perfect binary tree
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vector<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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cout << endl << "Initialized binary tree is\n" << endl;
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printTree(bst->getRoot());
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/* Search node */
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TreeNode *node = bst->search(7);
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cout << endl << "Found node object is " << node << ", node value = " << node->val << endl;
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/* Insert node */
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bst->insert(16);
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cout << endl << "After inserting node 16, binary tree is\n" << endl;
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printTree(bst->getRoot());
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/* Remove node */
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bst->remove(1);
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cout << endl << "After removing node 1, binary tree is\n" << endl;
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printTree(bst->getRoot());
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bst->remove(2);
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cout << endl << "After removing node 2, binary tree is\n" << endl;
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printTree(bst->getRoot());
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bst->remove(4);
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cout << endl << "After removing node 4, binary tree is\n" << endl;
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printTree(bst->getRoot());
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// Free memory
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delete bst;
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return 0;
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}
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