Find the node whose xor with x gives minimum value
Given a tree, and the weights of all the nodes and an integer x, the task is to find a node i such that weight[i] xor x is minimum.
Examples:
Input:
x = 15
Output: 3
Node 1: 5 xor 15 = 10
Node 2: 10 xor 15 = 5
Node 3: 11 xor 15 = 4
Node 4: 8 xor 15 = 7
Node 5: 6 xor 15 = 9
Approach: Perform dfs on the tree and keep track of the node whose weighted xor with x gives the minimum value.
Below is the implementation of above approach:
C++
// C++ implementation of the approach #include <bits/stdc++.h> using namespace std; int minimum = INT_MAX, x, ans; vector< int > graph[100]; vector< int > weight(100); // Function to perform dfs to find // the minimum xored value void dfs( int node, int parent) { // If current value is less than // the current minimum if (minimum > (weight[node] ^ x)) { minimum = weight[node] ^ x; ans = node; } for ( int to : graph[node]) { if (to == parent) continue ; dfs(to, node); } } // Driver code int main() { x = 15; // Weights of the node weight[1] = 5; weight[2] = 10; weight[3] = 11; weight[4] = 8; weight[5] = 6; // Edges of the tree graph[1].push_back(2); graph[2].push_back(3); graph[2].push_back(4); graph[1].push_back(5); dfs(1, 1); cout << ans; return 0; } |
Java
// Java implementation of the approach import java.util.*; import java.lang.*; class GFG { static int minimum = Integer.MAX_VALUE, x, ans; @SuppressWarnings ( "unchecked" ) static Vector<Integer>[] graph = new Vector[ 100 ]; static int [] weight = new int [ 100 ]; // This block is executed even before main() function // This is necessary otherwise this program will // throw "NullPointerException" static { for ( int i = 0 ; i < 100 ; i++) graph[i] = new Vector<>(); } // Function to perform dfs to find // the minimum xored value static void dfs( int node, int parent) { // If current value is less than // the current minimum if (minimum > (weight[node] ^ x)) { minimum = weight[node] ^ x; ans = node; } for ( int to : graph[node]) { if (to == parent) continue ; dfs(to, node); } } // Driver Code public static void main(String[] args) { x = 15 ; // Weights of the node weight[ 1 ] = 5 ; weight[ 2 ] = 10 ; weight[ 3 ] = 11 ; weight[ 4 ] = 8 ; weight[ 5 ] = 6 ; // Edges of the tree graph[ 1 ].add( 2 ); graph[ 2 ].add( 3 ); graph[ 2 ].add( 4 ); graph[ 1 ].add( 5 ); dfs( 1 , 1 ); System.out.println(ans); } } // This code is contributed by SHUBHAMSINGH10 |
C#
// C# implementation of the approach using System; using System.Collections.Generic; class GFG { static int minimum = int .MaxValue, x, ans; static List<List< int >> graph = new List<List< int >>(); static List< int > weight = new List< int >(); // Function to perform dfs to find // the minimum value static void dfs( int node, int parent) { // If current value is less than // the current minimum if (minimum > (weight[node] ^ x)) { minimum = weight[node] ^ x; ans = node; } for ( int i = 0; i < graph[node].Count; i++) { if (graph[node][i] == parent) continue ; dfs(graph[node][i], node); } } // Driver code public static void Main() { x = 15; // Weights of the node weight.Add(0); weight.Add(5); weight.Add(10); weight.Add(11);; weight.Add(8); weight.Add(6); for ( int i = 0; i < 100; i++) graph.Add( new List< int >()); // Edges of the tree graph[1].Add(2); graph[2].Add(3); graph[2].Add(4); graph[1].Add(5); dfs(1, 1); Console.Write( ans); } } // This code is contributed by SHUBHAMSINGH10 |
Python3
# Python implementation of the approach from sys import maxsize minimum, x, ans = maxsize, None , None graph = [[] for i in range ( 100 )] weight = [ 0 ] * 100 # Function to perform dfs to find # the minimum xored value def dfs(node, parent): global x, ans, graph, weight, minimum # If current value is less than # the current minimum if minimum > weight[node] ^ x: minimum = weight[node] ^ x ans = node for to in graph[node]: if to = = parent: continue dfs(to, node) # Driver Code if __name__ = = "__main__" : x = 15 # Weights of the node weight[ 1 ] = 5 weight[ 2 ] = 10 weight[ 3 ] = 11 weight[ 4 ] = 8 weight[ 5 ] = 6 # Edges of the tree graph[ 1 ].append( 2 ) graph[ 2 ].append( 3 ) graph[ 2 ].append( 4 ) graph[ 1 ].append( 5 ) dfs( 1 , 1 ) print (ans) # This code is contributed by # sanjeev2552 |
Javascript
<script> // Javascript implementation of the approach let minimum = Number.MAX_VALUE, x, ans; let graph = new Array(100); let weight = new Array(100); for (let i = 0; i < 100; i++) { graph[i] = []; weight[i] = 0; } // Function to perform dfs to find // the minimum xored value function dfs(node, parent) { // If current value is less than // the current minimum if (minimum > (weight[node] ^ x)) { minimum = weight[node] ^ x; ans = node; } for (let to = 0; to < graph[node].length; to++) { if (graph[node][to] == parent) continue ; dfs(graph[node][to], node); } } // Driver Code x = 15; // Weights of the node weight[1] = 5; weight[2] = 10; weight[3] = 11; weight[4] = 8; weight[5] = 6; // Edges of the tree graph[1].push(2); graph[2].push(3); graph[2].push(4); graph[1].push(5); dfs(1, 1); document.write(ans); // This code is contributed by unknown2108 </script> |
Output:
3
Time Complexity: O(N) where N is the number of nodes in the graph.
Space Complexity: O(N)
Contact Us