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code_2.cpp
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//
// code_2.cpp
// Algorithm
//
// Created by Mohd Shoaib Rayeen on 15/04/19.
// Copyright © 2019 Shoaib Rayeen. All rights reserved.
//
#include <iostream>
#include <queue>
using namespace std;
struct bnode {
int data;
bnode *left;
bnode *right;
};
class btree {
public:
bnode *root;
btree();
void insert();
void display();
bnode* newNode(int);
bnode* LCA(bnode*, int, int);
int findLevel(bnode* , int, int);
int findDistance(bnode*,int, int);
};
btree::btree() {
root = NULL;
}
bnode* btree:: newNode(int value) {
bnode* temp=new bnode;
temp->data=value;
temp->left=NULL;
temp->right=NULL;
return temp;
}
void btree:: insert() {
root = newNode(1);
root->left = newNode(2);
root->right = newNode(3);
root->left->left = newNode(4);
root->left->right = newNode(5);
root->right->left = newNode(6);
root->right->right = newNode(7);
}
void btree::display() {
insert();
int n;
cout << "\nEnter 1st Node\t:\t";
cin >> n;
int k;
cout << "\nEnter 2nd Node\t:\t";
cin >> k;
cout << "\nDistance Between them\t:\t" << findDistance(root, n, k) << endl;
}
int btree::findLevel(bnode *root, int k, int level) {
if (root == NULL) {
return -1;
}
if (root->data == k) {
return level;
}
int l = findLevel(root->left, k, level+1);
return (l != -1)? l : findLevel(root->right, k, level+1);
}
bnode* btree::LCA(bnode * root, int n1,int n2) {
if (root == NULL) {
return root;
}
if (root->data == n1 || root->data == n2) {
return root;
}
bnode* left = LCA(root->left, n1, n2);
bnode* right = LCA(root->right, n1, n2);
if (left != NULL && right != NULL) {
return root;
}
if (left != NULL) {
return LCA(root->left, n1, n2);
}
return LCA(root->right, n1, n2);
}
int btree::findDistance(bnode *root, int a, int b) {
bnode* lca = LCA(root, a , b);
int d1 = findLevel(lca, a, 0);
int d2 = findLevel(lca, b, 0);
return d1 + d2;
}
int main() {
btree obj;
obj.display();
cout << "\n";
return 0;
}