LintCode 1534 · Convert Binary Search Tree to Sorted Doubly Linked List (二叉树转双链表好题)

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于 2024-01-22 16:06:43 首次发布

1534 · Convert Binary Search Tree to Sorted Doubly Linked List
Algorithms
Medium

Description
Convert a BST to a sorted circular doubly-linked list in-place. Think of the left and right pointers as synonymous to the previous and next pointers in a doubly-linked list.

Let’s take the following BST as an example, it may help you understand the problem better:

bstdlloriginalbst

We want to transform this BST into a circular doubly linked list. Each node in a doubly linked list has a predecessor and successor. For a circular doubly linked list, the predecessor of the first element is the last element, and the successor of the last element is the first element.

The figure below shows the circular doubly linked list for the BST above. The “head” symbol means the node it points to is the smallest element of the linked list.

Specifically, we want to do the transformation in place. After the transformation, the left pointer of the tree node should point to its predecessor, and the right pointer should point to its successor. We should return the pointer to the first element of the linked list.

The figure below shows the transformed BST. The solid line indicates the successor relationship, while the dashed line means the predecessor relationship.

Example
Example 1:

Input: {4,2,5,1,3}
4
/
2 5
/
1 3
Output: “left:1->5->4->3->2 right:1->2->3->4->5”
Explanation:
Left: reverse output
Right: positive sequence output
Example 2:

Input: {2,1,3}
2
/
1 3
Output: “left:1->3->2 right:1->2->3”
Related Knowledge
学习《常用算法 25 讲》课程中的3.5二叉排序树:如何动态查找第k大元素?相关内容 ,了解更多相关知识!

解法1:中序遍历

/**
 * Definition of TreeNode:
 * class TreeNode {
 * public:
 *     int val;
 *     TreeNode *left, *right;
 *     TreeNode(int val) {
 *         this->val = val;
 *         this->left = this->right = NULL;
 *     }
 * }
 */

class Solution {
   
   
public:
    /**
     * @param root: root of a tree
     * @return: head node of a doubly linked list
     */
    TreeNode * treeToDoublyList(TreeNode * root) {
   
   
           inOrderTraversal(root);
        if (head
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1. Convert a binary search tree into a sorted circular doubly linked list 【Problem Description】 Given a binary search tree, you need to convert it into a circular doubly linked list, the elements in the linked list are sorted. For example, a binary search tree in Fig.1 is converted into a sorted circular doubly linked list in Fig.2. 【Basic Requirements】 The input data is a set of data elements to build a binary search tree, you should design algorithms to realize the conversion process and verify the accuracy of your code on multiple test data. The output includes the following: (1) Print the binary search tree (2) Traverse the binary search tree (3) Print the converted doubly linked list (4) Output all elements of the doubly linked list in positive and reverse order
05-29
【Solution】 To convert a binary search tree into a sorted circular doubly linked list, we can use the following steps: 1. Inorder traversal of the binary search tree to get the elements in sorted order. 2. Create a doubly linked list and add the elements from the inorder traversal to it. 3. Make the list circular by connecting the head and tail nodes. 4. Return the head node of the circular doubly linked list. Here's the Python code for the solution: ``` class Node: def __init__(self, val): self.val = val self.prev = None self.next = None def tree_to_doubly_list(root): if not root: return None stack = [] cur = root head = None prev = None while cur or stack: while cur: stack.append(cur) cur = cur.left cur = stack.pop() if not head: head = cur if prev: prev.right = cur cur.left = prev prev = cur cur = cur.right head.left = prev prev.right = head return head ``` To verify the accuracy of the code, we can use the following test cases: ``` # Test case 1 # Input: [4,2,5,1,3] # Output: # Binary search tree: # 4 # / \ # 2 5 # / \ # 1 3 # Doubly linked list: 1 <-> 2 <-> 3 <-> 4 <-> 5 # Doubly linked list in reverse order: 5 <-> 4 <-> 3 <-> 2 <-> 1 root = Node(4) root.left = Node(2) root.right = Node(5) root.left.left = Node(1) root.left.right = Node(3) head = tree_to_doubly_list(root) print("Binary search tree:") print_tree(root) print("Doubly linked list:") print_list(head) print("Doubly linked list in reverse order:") print_list_reverse(head) # Test case 2 # Input: [2,1,3] # Output: # Binary search tree: # 2 # / \ # 1 3 # Doubly linked list: 1 <-> 2 <-> 3 # Doubly linked list in reverse order: 3 <-> 2 <-> 1 root = Node(2) root.left = Node(1) root.right = Node(3) head = tree_to_doubly_list(root) print("Binary search tree:") print_tree(root) print("Doubly linked list:") print_list(head) print("Doubly linked list in reverse order:") print_list_reverse(head) ``` The output of the test cases should match the expected output as commented in the code.
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