Número de formas de seleccionar un Node de cada componente conectado

Dado un grafo con N Nodes y M aristas. La tarea es encontrar el número de formas de seleccionar un Node de cada componente conectado del gráfico dado.
Ejemplos: 
 

Aporte: 
 

Salida:
(1, 4), (2, 4), (3, 4) son formas posibles.
Aporte: 
 

Salida:
(1, 4, 5), (2, 4, 5), (3, 4, 5), (1, 4, 6), (2, 4, 6), (3, 4, 6) son caminos posibles. 
 

Enfoque: Un producto de la cantidad de Nodes en cada componente conectado es la respuesta requerida. Ejecute un dfs simple para encontrar el número de Nodes en cada componente conectado.
A continuación se muestra la implementación del enfoque anterior:
 

C++

// C++ implementation of the approach
#include <bits/stdc++.h>
using namespace std;
#define N 100005
 
int n, m, temp;
vector<int> gr[N];
int vis[N];
 
// Function to add edges in the graph
void Add_edges(int x, int y)
{
    gr[x].push_back(y);
    gr[y].push_back(x);
}
 
// Function for DFS
void dfs(int ch)
{
    // Mark node as visited
    vis[ch] = 1;
 
    // Count number of nodes in a component
    temp++;
    for (auto i : gr[ch])
        if (!vis[i])
            dfs(i);
}
 
// Function to return the required number of ways
int NumberOfWays()
{
 
    // To store the required answer
    int ans = 1;
 
    memset(vis, 0, sizeof vis);
    for (int i = 1; i <= n; i++) {
 
        // If current node hasn't been visited yet
        if (!vis[i]) {
            temp = 0;
            dfs(i);
 
            // Multiply it with the answer
            ans *= temp;
        }
    }
 
    return ans;
}
 
// Driver code
int main()
{
    n = 4, m = 2;
 
    // Add edges
    Add_edges(1, 2);
    Add_edges(1, 3);
 
    cout << NumberOfWays();
 
    return 0;
}

Java

// Java implementation of the approach
import java.util.*;
 
class GFG
{
     
static final int N = 100005;
 
static int n, m, temp;
static Vector<Integer> []gr = new Vector[N];
static int []vis = new int[N];
 
// Function to add edges in the graph
static void Add_edges(int x, int y)
{
    gr[x].add(y);
    gr[y].add(x);
}
 
// Function for DFS
static void dfs(int ch)
{
    // Mark node as visited
    vis[ch] = 1;
 
    // Count number of nodes in a component
    temp++;
    for (int i : gr[ch])
        if (vis[i] == 0)
            dfs(i);
}
 
// Function to return the required number of ways
static int NumberOfWays()
{
 
    // To store the required answer
    int ans = 1;
    Arrays.fill(vis, 0);
 
    for (int i = 1; i <= n; i++)
    {
 
        // If current node hasn't been visited yet
        if (vis[i] == 0)
        {
            temp = 0;
            dfs(i);
 
            // Multiply it with the answer
            ans *= temp;
        }
    }
 
    return ans;
}
 
// Driver code
public static void main(String[] args)
{
    n = 4;
    m = 2;
    for (int i = 0; i < N; i++)
        gr[i] = new Vector<Integer>();
     
    // Add edges
    Add_edges(1, 2);
    Add_edges(1, 3);
 
    System.out.print(NumberOfWays());
}
}
 
// This code is contributed by PrinciRaj1992

Python3

# Python3 implementation of the approach
 
# Function to add edges in the graph
def Add_edges(x, y):
 
    gr[x].append(y)
    gr[y].append(x)
 
# Function for DFS
def dfs(ch):
 
    # Mark node as visited
    vis[ch] = 1
    global temp
     
    # Count number of nodes
    # in a component
    temp += 1
    for i in gr[ch]:
        if not vis[i]:
            dfs(i)
 
# Function to return the required
# number of ways
def NumberOfWays():
 
    # To store the required answer
    ans = 1
    global temp
     
    for i in range(1, n + 1):
 
        # If current node hasn't been
        # visited yet
        if not vis[i]:
            temp = 0
            dfs(i)
 
            # Multiply it with the answer
            ans *= temp
         
    return ans
 
# Driver code
if __name__ == "__main__":
 
    n, m, temp = 4, 2, 0
    N = 100005
 
    gr = [[] for i in range(N)]
    vis = [None] * N
 
    # Add edges
    Add_edges(1, 2)
    Add_edges(1, 3)
 
    print(NumberOfWays())
 
# This code is contributed by Rituraj Jain

C#

// C# implementation of the approach
using System;
using System.Collections.Generic;
 
class GFG
{
     
static readonly int N = 100005;
 
static int n, m, temp;
static List<int> []gr = new List<int>[N];
static int []vis = new int[N];
 
// Function to add edges in the graph
static void Add_edges(int x, int y)
{
    gr[x].Add(y);
    gr[y].Add(x);
}
 
// Function for DFS
static void dfs(int ch)
{
    // Mark node as visited
    vis[ch] = 1;
 
    // Count number of nodes in a component
    temp++;
    foreach (int i in gr[ch])
        if (vis[i] == 0)
            dfs(i);
}
 
// Function to return the required number of ways
static int NumberOfWays()
{
 
    // To store the required answer
    int ans = 1;
    for(int i= 0; i < N; i++)
        vis[i] = 0;
 
    for (int i = 1; i <= n; i++)
    {
 
        // If current node hasn't been visited yet
        if (vis[i] == 0)
        {
            temp = 0;
            dfs(i);
 
            // Multiply it with the answer
            ans *= temp;
        }
    }
 
    return ans;
}
 
// Driver code
public static void Main(String[] args)
{
    n = 4;
    m = 2;
    for (int i = 0; i < N; i++)
        gr[i] = new List<int>();
     
    // Add edges
    Add_edges(1, 2);
    Add_edges(1, 3);
 
    Console.Write(NumberOfWays());
}
}
 
// This code is contributed by 29AjayKumar

Javascript

<script>
// Javascript implementation of the approach
 
let N = 100005;
 
let n, m, temp;
 
let gr = new Array(N);
let vis = new Array(N);
 
// Function to add edges in the graph
function Add_edges(x,y)
{
    gr[x].push(y);
    gr[y].push(x);
}
 
// Function for DFS
function dfs(ch)
{
    // Mark node as visited
    vis[ch] = 1;
   
    // Count number of nodes in a component
    temp++;
    for (let i of gr[ch])
        if (vis[i] == 0)
            dfs(i);
}
 
// Function to return the required number of ways
function NumberOfWays()
{
    // To store the required answer
    let ans = 1;
    for(let i=0;i<vis.length;i++)
        vis[i]=0;
   
    for (let i = 1; i <= n; i++)
    {
   
        // If current node hasn't been visited yet
        if (vis[i] == 0)
        {
            temp = 0;
            dfs(i);
   
            // Multiply it with the answer
            ans *= temp;
        }
    }
   
    return ans;
}
 
// Driver code
n = 4;
m = 2;
for (let i = 0; i < N; i++)
    gr[i] = [];
 
// Add edges
Add_edges(1, 2);
Add_edges(1, 3);
 
document.write(NumberOfWays());
 
// This code is contributed by unknown2108
</script>
Producción: 

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Publicación traducida automáticamente

Artículo escrito por pawan_asipu y traducido por Barcelona Geeks. The original can be accessed here. Licence: CCBY-SA

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