C++ Program to find the maximum element of an array using Binary Search approach.
1. Construct a Binary Search Tree for the given data.
2. Search the maximum element with time complexity O(log(n)).
1. Construct binary search tree for the given unsorted data array.
2. For the maximum element move the pointer to the rightmost child node.
3. This value will be the minimum value among the given data.
4. Exit.
C++ program to find the maximum element of an array using Binary Search approach.
This program is successfully run on Dev-C++ using TDM-GCC 4.9.2 MinGW compiler on a Windows system.
#include<iostream> using namespace std; // A structure representing a node of a tree. struct node { int data; node *left; node *right; }; // A function creating new node of tree and assigning the data. node* CreateNode(int data) { node *newnode = new node; newnode->data = data; newnode->left = NULL; newnode->right = NULL; return newnode; } // A function creating binary search tree. node* InsertIntoTree(node* root, int data) { // Create node using data from argument list. node *temp = CreateNode(data); node *t = new node; t = root; // If root is null, assign it to the node created. if(root == NULL) root = temp; else { // Find the position for the new node to be inserted. while(t != NULL) { if(t->data < data ) { if(t->right == NULL) { // If current node is NULL then insert the node. t->right = temp; break; } // Shift pointer to the left. t = t->right; } else if(t->data > data) { if(t->left == NULL) { // If current node is NULL then insert the node. t->left = temp; break; } // Shift pointer to the left. t = t->left; } } } return root; } int main() { char ch; int n, i, a[20]={89, 53, 95, 1, 9, 67, 72, 66, 75, 77, 18, 24, 35, 90, 38, 41, 49, 81, 27, 97}; node *root = new node; root = NULL; // Construct the BST. cout<<"\nData set:\n"; for(i = 0; i < 20; i++) { cout<<a[i]<<" "; root = InsertIntoTree(root, a[i]); } // Traverse to the rightmost child node to get maximum of the given data. cout<<"\n\nThe maximum element of the given data set is "; i = 0; while(root->right != NULL) { i++; root = root->right; } cout<<root->data<<" found at "<<i<<" depth from the root."; return 0; }
1. Construct the Binary Search Tree using the given data.
2. Traverse the root pointer to the rightmost child node available.
3. Print the data part of the node as the maximum data element of the given data set.
4. Exit.
Data set: 89 53 95 1 9 67 72 66 75 77 18 24 35 90 38 41 49 81 27 97 The maximum element of the given data set is 97 found at 2 depth from the root.
Sanfoundry Global Education & Learning Series – C++ Algorithms.
To practice all C++ Algorithms, here is complete set of 1000 C++ Algorithms.
