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219 lines
6.1 KiB
Dart
219 lines
6.1 KiB
Dart
/**
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* File: avl_tree.dart
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* Created Time: 2023-04-04
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* Author: liuyuxin (gvenusleo@gmail.com)
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*/
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import 'dart:math';
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import '../utils/print_util.dart';
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import '../utils/tree_node.dart';
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class AVLTree {
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TreeNode? root;
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/* Constructor */
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AVLTree() {
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root = null;
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}
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/* Get node height */
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int height(TreeNode? node) {
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// Empty node height is -1, leaf node height is 0
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return node == null ? -1 : node.height;
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}
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/* Update node height */
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void updateHeight(TreeNode? node) {
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// Node height equals the height of the tallest subtree + 1
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node!.height = max(height(node.left), height(node.right)) + 1;
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}
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/* Get balance factor */
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int balanceFactor(TreeNode? node) {
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// Empty node balance factor is 0
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if (node == null) return 0;
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// Node balance factor = left subtree height - right subtree height
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return height(node.left) - height(node.right);
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}
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/* Right rotation operation */
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TreeNode? rightRotate(TreeNode? node) {
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TreeNode? child = node!.left;
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TreeNode? grandChild = child!.right;
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// Using child as pivot, rotate node to the right
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child.right = node;
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node.left = grandChild;
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// Update node height
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updateHeight(node);
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updateHeight(child);
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// Return root node of subtree after rotation
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return child;
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}
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/* Left rotation operation */
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TreeNode? leftRotate(TreeNode? node) {
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TreeNode? child = node!.right;
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TreeNode? grandChild = child!.left;
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// Using child as pivot, rotate node to the left
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child.left = node;
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node.right = grandChild;
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// Update node height
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updateHeight(node);
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updateHeight(child);
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// Return root node of subtree after rotation
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return child;
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}
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/* Perform rotation operation to restore balance to this subtree */
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TreeNode? rotate(TreeNode? node) {
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// Get balance factor of node
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int factor = balanceFactor(node);
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// Left-leaning tree
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if (factor > 1) {
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if (balanceFactor(node!.left) >= 0) {
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// Right rotation
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return rightRotate(node);
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} else {
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// First left rotation then right rotation
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node.left = leftRotate(node.left);
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return rightRotate(node);
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}
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}
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// Right-leaning tree
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if (factor < -1) {
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if (balanceFactor(node!.right) <= 0) {
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// Left rotation
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return leftRotate(node);
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} else {
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// First right rotation then left rotation
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node.right = rightRotate(node.right);
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return leftRotate(node);
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}
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}
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// Balanced tree, no rotation needed, return directly
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return node;
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}
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/* Insert node */
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void insert(int val) {
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root = insertHelper(root, val);
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}
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/* Recursively insert node (helper method) */
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TreeNode? insertHelper(TreeNode? node, int val) {
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if (node == null) return TreeNode(val);
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/* 1. Find insertion position and insert node */
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if (val < node.val)
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node.left = insertHelper(node.left, val);
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else if (val > node.val)
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node.right = insertHelper(node.right, val);
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else
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return node; // Duplicate node not inserted, return directly
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updateHeight(node); // Update node height
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/* 2. Perform rotation operation to restore balance to this subtree */
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node = rotate(node);
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// Return root node of subtree
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return node;
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}
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/* Remove node */
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void remove(int val) {
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root = removeHelper(root, val);
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}
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/* Recursively delete node (helper method) */
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TreeNode? removeHelper(TreeNode? node, int val) {
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if (node == null) return null;
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/* 1. Find node and delete */
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if (val < node.val)
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node.left = removeHelper(node.left, val);
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else if (val > node.val)
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node.right = removeHelper(node.right, val);
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else {
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if (node.left == null || node.right == null) {
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TreeNode? child = node.left ?? node.right;
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// Number of child nodes = 0, delete node directly and return
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if (child == null)
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return null;
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// Number of child nodes = 1, delete node directly
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else
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node = child;
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} else {
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// Number of child nodes = 2, delete the next node in inorder traversal and replace current node with it
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TreeNode? temp = node.right;
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while (temp!.left != null) {
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temp = temp.left;
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}
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node.right = removeHelper(node.right, temp.val);
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node.val = temp.val;
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}
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}
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updateHeight(node); // Update node height
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/* 2. Perform rotation operation to restore balance to this subtree */
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node = rotate(node);
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// Return root node of subtree
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return node;
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}
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/* Search node */
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TreeNode? search(int val) {
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TreeNode? cur = root;
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// Loop search, exit after passing leaf node
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while (cur != null) {
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// Target node is in cur's right subtree
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if (val < cur.val)
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cur = cur.left;
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// Target node is in cur's left subtree
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else if (val > cur.val)
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cur = cur.right;
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// Target node equals current node
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else
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break;
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}
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return cur;
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}
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}
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void testInsert(AVLTree tree, int val) {
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tree.insert(val);
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print("\nAfter inserting node $val, AVL tree is");
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printTree(tree.root);
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}
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void testRemove(AVLTree tree, int val) {
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tree.remove(val);
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print("\nAfter deleting node $val, AVL tree is");
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printTree(tree.root);
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}
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/* Driver Code */
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void main() {
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/* Please pay attention to how the AVL tree maintains balance after inserting nodes */
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AVLTree avlTree = AVLTree();
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/* Insert node */
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// Delete nodes
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testInsert(avlTree, 1);
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testInsert(avlTree, 2);
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testInsert(avlTree, 3);
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testInsert(avlTree, 4);
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testInsert(avlTree, 5);
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testInsert(avlTree, 8);
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testInsert(avlTree, 7);
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testInsert(avlTree, 9);
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testInsert(avlTree, 10);
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testInsert(avlTree, 6);
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/* Please pay attention to how the AVL tree maintains balance after deleting nodes */
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testInsert(avlTree, 7);
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/* Remove node */
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// Delete node with degree 1
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testRemove(avlTree, 8); // Delete node with degree 2
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testRemove(avlTree, 5); // Remove node with degree 1
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testRemove(avlTree, 4); // Remove node with degree 2
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/* Search node */
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TreeNode? node = avlTree.search(7);
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print("\nFound node object is $node, node value = ${node!.val}");
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}
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