📜  二维字符串矩阵中连接的组件数

📅  最后修改于: 2021-06-26 02:02:20             🧑  作者: Mango

给定二维矩阵mat [] [] ,任务是计算矩阵中连接的组件数。连接的组件由与同一组件的至少一个其他元素共享某个共同侧的所有相等元素形成。

例子:

Input: mat[][] = {"bbba", 
                                   "baaa"}
Output: 2
The two connected components are:
bbb       
b

AND

  a
aaa

Input: mat[][] = {"aabba", 
                                   "aabba", 
                                   "aaaca"}
Output: 4

方法:对于执行DFS之前尚未访问的每个单元。 DFS将以相同的值覆盖所有连接的单元(上,左,右和下)。因此,答案将是运行DFS的总时间。

下面是上述方法的实现:

C++
// C++ implementation of the approach
#include 
using namespace std;
#define maxRow 500
#define maxCol 500
  
bool visited[maxRow][maxCol] = { 0 };
  
// Function that return true if mat[row][col]
// is valid and hasn't been visited
bool isSafe(string M[], int row, int col, char c, 
                                    int n, int l)
{
    // If row and column are valid and element 
    // is matched and hasn't been visited then 
    // the cell is safe
    return (row >= 0 && row < n)
           && (col >= 0 && col < l)
           && (M[row][col] == c && !visited[row][col]);
}
  
// Function for depth first search
void DFS(string M[], int row, int col, char c, 
                                 int n, int l)
{
    // These arrays are used to get row and column
    // numbers of 4 neighbours of a given cell
    int rowNbr[] = { -1, 1, 0, 0 };
    int colNbr[] = { 0, 0, 1, -1 };
  
    // Mark this cell as visited
    visited[row][col] = true;
  
    // Recur for all connected neighbours
    for (int k = 0; k < 4; ++k)
        if (isSafe(M, row + rowNbr[k],
                  col + colNbr[k], c, n, l))
  
            DFS(M, row + rowNbr[k], 
                col + colNbr[k], c, n, l);
}
  
// Function to return the number of
// connectewd components in the matrix
int connectedComponents(string M[], int n)
{
    int connectedComp = 0;
    int l = M[0].length();
  
    for (int i = 0; i < n; i++) {
        for (int j = 0; j < l; j++) {
            if (!visited[i][j]) {
                char c = M[i][j];
                DFS(M, i, j, c, n, l);
                connectedComp++;
            }
        }
    }
  
    return connectedComp;
}
  
// Driver code
int main()
{
    string M[] = {"aabba", "aabba", "aaaca"};
    int n = sizeof(M)/sizeof(M[0]);
  
    cout << connectedComponents(M, n);
  
    return 0;
}


Java
// Java implementation of the approach
class GFG 
{
static final int maxRow = 500;
static final int maxCol = 500;
  
static boolean visited[][] = new boolean[maxRow][maxCol];
  
// Function that return true if mat[row][col]
// is valid and hasn't been visited
static boolean isSafe(String M[], int row, int col, 
                                  char c, int n, int l) 
{
    // If row and column are valid and element 
    // is matched and hasn't been visited then 
    // the cell is safe
    return (row >= 0 && row < n) && 
           (col >= 0 && col < l) &&
           (M[row].charAt(col) == c &&
           !visited[row][col]);
}
  
// Function for depth first search
static void DFS(String M[], int row, int col, 
                        char c, int n, int l) 
{
    // These arrays are used to get row and column
    // numbers of 4 neighbours of a given cell
    int rowNbr[] = {-1, 1, 0, 0};
    int colNbr[] = {0, 0, 1, -1};
  
    // Mark this cell as visited
    visited[row][col] = true;
  
    // Recur for all connected neighbours
    for (int k = 0; k < 4; ++k)
    {
        if (isSafe(M, row + rowNbr[k],
                      col + colNbr[k], c, n, l)) 
        {
            DFS(M, row + rowNbr[k],
                   col + colNbr[k], c, n, l);
        }
    }
}
  
// Function to return the number of
// connectewd components in the matrix
static int connectedComponents(String M[], int n) 
{
    int connectedComp = 0;
    int l = M[0].length();
  
    for (int i = 0; i < n; i++) 
    {
        for (int j = 0; j < l; j++) 
        {
            if (!visited[i][j])
            {
                char c = M[i].charAt(j);
                DFS(M, i, j, c, n, l);
                connectedComp++;
            }
        }
    }
  
    return connectedComp;
}
  
// Driver code
public static void main(String[] args) 
{
    String M[] = {"aabba", "aabba", "aaaca"};
    int n = M.length;
    System.out.println(connectedComponents(M, n));
}
}
  
// This code contributed by PrinciRaj1992


Python3
# Python3 implementation of the approach 
import numpy as np
  
maxRow = 500
maxCol = 500
  
visited = np.zeros((maxCol, maxRow))
  
# Function that return true if mat[row][col] 
# is valid and hasn't been visited 
def isSafe(M, row, col, c, n, l) :
                                          
    # If row and column are valid and element 
    # is matched and hasn't been visited then 
    # the cell is safe 
    return ((row >= 0 and row < n) and 
            (col >= 0 and col < l) and 
            (M[row][col] == c and not 
             visited[row][col])); 
  
# Function for depth first search 
def DFS(M, row, col, c, n, l) : 
  
    # These arrays are used to get row 
    # and column numbers of 4 neighbours 
    # of a given cell 
    rowNbr = [ -1, 1, 0, 0 ]; 
    colNbr = [ 0, 0, 1, -1 ]; 
  
    # Mark this cell as visited 
    visited[row][col] = True; 
  
    # Recur for all connected neighbours 
    for k in range(4) :
        if (isSafe(M, row + rowNbr[k], 
                   col + colNbr[k], c, n, l)) :
  
            DFS(M, row + rowNbr[k], 
                col + colNbr[k], c, n, l); 
  
# Function to return the number of 
# connectewd components in the matrix 
def connectedComponents(M, n) :
  
    connectedComp = 0; 
    l = len(M[0]); 
  
    for i in range(n) :
        for j in range(l) :
            if (not visited[i][j]) : 
                c = M[i][j]; 
                DFS(M, i, j, c, n, l); 
                connectedComp += 1; 
          
    return connectedComp; 
  
# Driver code 
if __name__ == "__main__" :
  
    M = ["aabba", "aabba", "aaaca"]; 
    n = len(M)
  
    print(connectedComponents(M, n)); 
  
# This code is contributed by Ryuga


C#
// C# implementation of the approach
using System;
  
class GFG 
{
      
static readonly int maxRow = 500;
static readonly int maxCol = 500;
  
static bool [,]visited = new bool[maxRow,maxCol];
  
// Function that return true if mat[row,col]
// is valid and hasn't been visited
static bool isSafe(String []M, int row, int col, 
                                char c, int n, int l) 
{
    // If row and column are valid and element 
    // is matched and hasn't been visited then 
    // the cell is safe
    return (row >= 0 && row < n) && 
        (col >= 0 && col < l) &&
        (M[row][col] == c &&
        !visited[row,col]);
}
  
// Function for depth first search
static void DFS(String []M, int row, int col, 
                        char c, int n, int l) 
{
    // These arrays are used to get row and column
    // numbers of 4 neighbours of a given cell
    int []rowNbr = {-1, 1, 0, 0};
    int []colNbr = {0, 0, 1, -1};
  
    // Mark this cell as visited
    visited[row,col] = true;
  
    // Recur for all connected neighbours
    for (int k = 0; k < 4; ++k)
    {
        if (isSafe(M, row + rowNbr[k],
                    col + colNbr[k], c, n, l)) 
        {
            DFS(M, row + rowNbr[k],
                col + colNbr[k], c, n, l);
        }
    }
}
  
// Function to return the number of
// connectewd components in the matrix
static int connectedComponents(String []M, int n) 
{
    int connectedComp = 0;
    int l = M[0].Length;
  
    for (int i = 0; i < n; i++) 
    {
        for (int j = 0; j < l; j++) 
        {
            if (!visited[i,j])
            {
                char c = M[i][j];
                DFS(M, i, j, c, n, l);
                connectedComp++;
            }
        }
    }
  
    return connectedComp;
}
  
// Driver code
public static void Main(String[] args) 
{
    String []M = {"aabba", "aabba", "aaaca"};
    int n = M.Length;
    Console.WriteLine(connectedComponents(M, n));
}
}
  
// This code contributed by Rajput-Ji


输出:
4

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