Number of distinct words of size N with at most K contiguous vowels

Given two integers N and K, the task is to find the number of distinct strings consisting of lowercase alphabets of length N that can be formed with at-most K contiguous vowels. As the answer may be too large, print answer%1000000007.

Input: N = 1, K = 0
Output: 21
Explanation: All the 21 consonants are there which has 0 contiguous vowels and are of length 1.

Input: N = 1, K = 1
Output: 26

Approach: The idea to solve this problem is based on dynamic programming. Follow the steps below to solve the problem: 

• Let dp[i][j] be the number of ways to make distinct strings of length i where the last j characters of the string are vowels.
• So the states of dynamic programming are:
  • If j = 0, then dp[i][j] = (dp[i-1][0] + dp[i-1][1] +……+ dp[i-1][K])*21(represented by the integer variable sum) because the last added character should be a consonant than only the value of j will become 0 irrespective of its value on previous states.
  • If i<j then dp[i][j] = 0. Since it is not possible to create a string containing j vowels and has a length less than j.
  • If i == j, then dp[i][j] = 5ⁱ because the number of characters in the string is equal to the number of vowels, therefore all the characters should be vowels.
  • If j<i then dp[i][j] = dp[i-1][j-1]*5 because a string of length i with last j characters vowel can be made only if the last character is the vowel and the string of length i-1 has last j – 1 character as vowels.
• Print the sum of dp[n][0] + dp[n][1] + …… + dp[n][K] as the answer.

Below is the implementation of the above Approach

17576

Time Complexity: O(N×K)
Auxiliary Space: O(N×K)

Approach 2: Recursion with Memoization

17576

Time Complexity: O(N * K)
Auxiliary Space: O(N * K)