📜  具有回文排列的K大小子串的计数

📅  最后修改于: 2021-06-25 12:34:01             🧑  作者: Mango

给定字符串str仅包含小写字母和整数K ,任务是计算大小为K的子字符串的数量,以使子字符串的任何排列都是回文。

例子:

天真的方法:天真的解决方案是运行两个循环以生成所有大小为K的子串。对于形成的每个子串,找到子串每个字符的频率。如果最多一个字符的频率为奇数,则其排列之一将是回文。在所有操作之后,递增当前子字符串的计数并打印最终计数。
时间复杂度: O(N * K)

高效的方法:使用窗口滑动技术并使用大小为26的频率阵列可以有效地解决此问题。步骤如下:

  1. 将给定字符串的前K个元素的频率存储在频率数组中(例如freq [] )。
  2. 使用频率数组,检查具有奇数频率的元素的数量,如果它小于2 ,则递增
    回文排列计数。
  3. 现在,向前线性滑动窗口,直到到达终点为止。
  4. 在每次迭代中,通过1减小窗口的第一元素的计数和增加1窗口的下一个元素的计数,并再次检查具有奇数频率在频率数组元素的计数,如果是小于2 ,然后增加回文排列的计数。
  5. 重复上述步骤,直到到达字符串的末尾并打印回文排列的计数。

下面是上述方法的实现:

C++
// C++ program for the above approach
#include 
using namespace std;
 
// To store the frequency array
vector freq(26);
 
// Function to check palindromic of
// of any substring using frequency array
bool checkPalindrome()
{
 
    // Initialise the odd count
    int oddCnt = 0;
 
    // Traversing frequency array to
    // compute the count of characters
    // having odd frequency
    for (auto x : freq) {
 
        if (x % 2 == 1)
            oddCnt++;
    }
 
    // Returns true if odd count is atmost 1
    return oddCnt <= 1;
}
 
// Function to count the total number
// substring whose any permutations
// are palindromic
int countPalindromePermutation(
    string s, int k)
{
 
    // Computing the frequncy of
    // first K character of the string
    for (int i = 0; i < k; i++) {
        freq[s[i] - 97]++;
    }
 
    // To store the count of
    // palindromic permutations
    int ans = 0;
 
    // Checking for the current window
    // if it has any palindromic
    // permutation
    if (checkPalindrome()) {
        ans++;
    }
 
    // Start and end point of window
    int i = 0, j = k;
 
    while (j < s.size()) {
 
        // Sliding window by 1
 
        // Decrementing count of first
        // element of the window
        freq[s[i++] - 97]--;
 
        // Incrementing count of next
        // element of the window
        freq[s[j++] - 97]++;
 
        // Checking current window
        // character frequency count
        if (checkPalindrome()) {
            ans++;
        }
    }
 
    // Return the final count
    return ans;
}
 
// Driver Code
int main()
{
    // Given string str
    string str = "abbaca";
 
    // Window of size K
    int K = 3;
 
    // Function Call
    cout << countPalindromePermutation(str, K)
         << endl;
    return 0;
}


Java
// Java program for the above approach
import java.util.*;
 
class GFG{
 
// To store the frequency array
static int []freq = new int[26];
 
// Function to check palindromic of
// of any subString using frequency array
static boolean checkPalindrome()
{
     
    // Initialise the odd count
    int oddCnt = 0;
 
    // Traversing frequency array to
    // compute the count of characters
    // having odd frequency
    for(int x : freq)
    {
       if (x % 2 == 1)
           oddCnt++;
    }
 
    // Returns true if odd count
    // is atmost 1
    return oddCnt <= 1;
}
 
// Function to count the total number
// subString whose any permutations
// are palindromic
static int countPalindromePermutation(char []s,
                                      int k)
{
 
    // Computing the frequncy of
    // first K character of the String
    for(int i = 0; i < k; i++)
    {
       freq[s[i] - 97]++;
    }
 
    // To store the count of
    // palindromic permutations
    int ans = 0;
 
    // Checking for the current window
    // if it has any palindromic
    // permutation
    if (checkPalindrome())
    {
        ans++;
    }
 
    // Start and end point of window
    int i = 0, j = k;
 
    while (j < s.length)
    {
 
        // Sliding window by 1
 
        // Decrementing count of first
        // element of the window
        freq[s[i++] - 97]--;
 
        // Incrementing count of next
        // element of the window
        freq[s[j++] - 97]++;
 
        // Checking current window
        // character frequency count
        if (checkPalindrome())
        {
            ans++;
        }
    }
 
    // Return the final count
    return ans;
}
 
// Driver Code
public static void main(String[] args)
{
     
    // Given String str
    String str = "abbaca";
 
    // Window of size K
    int K = 3;
 
    // Function Call
    System.out.print(countPalindromePermutation(
                     str.toCharArray(), K) + "\n");
}
}
 
// This code is contributed by Amit Katiyar


Python3
# Python3 program for the above approach
 
# To store the frequency array
freq = [0] * 26
 
# Function to check palindromic of
# of any substring using frequency array
def checkPalindrome():
 
    # Initialise the odd count
    oddCnt = 0
 
    # Traversing frequency array to
    # compute the count of characters
    # having odd frequency
    for x in freq:
        if (x % 2 == 1):
            oddCnt += 1
     
    # Returns true if odd count is atmost 1
    return oddCnt <= 1
 
# Function to count the total number
# substring whose any permutations
# are palindromic
def countPalindromePermutation(s, k):
 
    # Computing the frequncy of
    # first K character of the string
    for i in range(k):
        freq[ord(s[i]) - 97] += 1
     
    # To store the count of
    # palindromic permutations
    ans = 0
 
    # Checking for the current window
    # if it has any palindromic
    # permutation
    if (checkPalindrome()):
        ans += 1
     
    # Start and end poof window
    i = 0
    j = k
 
    while (j < len(s)):
 
        # Sliding window by 1
 
        # Decrementing count of first
        # element of the window
        freq[ord(s[i]) - 97] -= 1
        i += 1
 
        # Incrementing count of next
        # element of the window
        freq[ord(s[j]) - 97] += 1
        j += 1
 
        # Checking current window
        # character frequency count
        if (checkPalindrome()):
            ans += 1
             
    # Return the final count
    return ans
 
# Driver Code
 
# Given string str
str = "abbaca"
 
# Window of size K
K = 3
 
# Function call
print(countPalindromePermutation(str, K))
 
# This code is contributed by code_hunt


C#
// C# program for the above approach
using System;
 
class GFG{
 
// To store the frequency array
static int []freq = new int[26];
 
// Function to check palindromic of
// of any subString using frequency array
static bool checkPalindrome()
{
     
    // Initialise the odd count
    int oddCnt = 0;
 
    // Traversing frequency array to
    // compute the count of characters
    // having odd frequency
    foreach(int x in freq)
    {
        if (x % 2 == 1)
            oddCnt++;
    }
 
    // Returns true if odd count
    // is atmost 1
    return oddCnt <= 1;
}
 
// Function to count the total number
// subString whose any permutations
// are palindromic
static int countPalindromePermutation(char []s,
                                      int k)
{
    int i = 0;
     
    // Computing the frequncy of
    // first K character of the String
    for(i = 0; i < k; i++)
    {
       freq[s[i] - 97]++;
    }
 
    // To store the count of
    // palindromic permutations
    int ans = 0;
 
    // Checking for the current window
    // if it has any palindromic
    // permutation
    if (checkPalindrome())
    {
        ans++;
    }
 
    // Start and end point of window
    int j = k;
        i = 0;
 
    while (j < s.Length)
    {
         
        // Sliding window by 1
 
        // Decrementing count of first
        // element of the window
        freq[s[i++] - 97]--;
 
        // Incrementing count of next
        // element of the window
        freq[s[j++] - 97]++;
 
        // Checking current window
        // character frequency count
        if (checkPalindrome())
        {
            ans++;
        }
    }
     
    // Return the final count
    return ans;
}
 
// Driver Code
public static void Main(String[] args)
{
     
    // Given String str
    String str = "abbaca";
 
    // Window of size K
    int K = 3;
 
    // Function Call
    Console.Write(countPalindromePermutation(
                  str.ToCharArray(), K) + "\n");
}
}
 
// This code is contributed by Amit Katiyar


输出:
3

时间复杂度: O(N)
辅助空间: O(26)

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