查找节点(中序搜索)
/* C++ program to find Inorder successor in a BST */
#include<iostream>
using names...
查找节点(中序搜索)
/* C++ program to find Inorder successor in a BST */
#include<iostream>
using namespace std;
struct Node {
int data;
struct Node *left;
struct Node *right;
};
//Function to find some data in the tree
Node* Find(Node*root, int data) {
if(root == NULL) return NULL;
else if(root->data == data) return root;
else if(root->data < data) return Find(root->right,data);
else return Find(root->left,data);
}
//Function to find Node with minimum value in a BST
struct Node* FindMin(struct Node* root) {
if(root == NULL) return NULL;
while(root->left != NULL)
root = root->left;
return root;
}
//Function to find Inorder Successor in a BST
struct Node* Getsuccessor(struct Node* root,int data) {
// Search the Node - O(h)
struct Node* current = Find(root,data);
if(current == NULL) return NULL;
if(current->right != NULL) { //Case 1: Node has right subtree
return FindMin(current->right); // O(h)
}
else { //Case 2: No right subtree - O(h)
struct Node* successor = NULL;
struct Node* ancestor = root;
while(ancestor != current) {
if(current->data < ancestor->data) {
successor = ancestor; // so far this is the deepest node for which current node is in left
ancestor = ancestor->left;
}
else
ancestor = ancestor->right;
}
return successor;
}
}
//Function to visit nodes in Inorder
void Inorder(Node *root) {
if(root == NULL) return;
Inorder(root->left); //Visit left subtree
printf(\"%d \",root->data); //Print data
Inorder(root->right); // Visit right subtree
}
// Function to Insert Node in a Binary Search Tree
Node* Insert(Node *root,char data) {
if(root == NULL) {
root = new Node();
root->data = data;
root->left = root->right = NULL;
}
else if(data <= root->data)
root->left = Insert(root->left,data);
else
root->right = Insert(root->right,data);
return root;
}
int main() {
/*Code To Test the logic
Creating an example tree
5
/ \\
3 10
/ \\ \\
1 4 11
*/
Node* root = NULL;
root = Insert(root,5); root = Insert(root,10);
root = Insert(root,3); root = Insert(root,4);
root = Insert(root,1); root = Insert(root,11);
//Print Nodes in Inorder
cout<<\"Inorder Traversal: \";
Inorder(root);
cout<<\"\\n\";
// Find Inorder successor of some node.
struct Node* successor = Getsuccessor(root,1);
if(successor == NULL) cout<<\"No successor Found\\n\";
else
cout<<\"Successor is \"<<successor->data<<\"\\n\";
}
算法和数据结构是程序的第一秘诀,缺之算法和数据结构是编程的最大原因。
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