Number of strings of length N with no palindromic sub string

Given two positive integers N, M. The task is to find the number of strings of length N under the alphabet set of size M such that no substrings of size greater than 1 is palindromic.

Examples: 

Input : N = 2, M = 3
Output : 6
In this case, set of alphabet are 3, say {A, B, C}
All possible string of length 2, using 3 letters are:
{AA, AB, AC, BA, BB, BC, CA, CB, CC}
Out of these {AA, BB, CC} contain palindromic substring, 
so our answer will be 
8 - 2 = 6.

Input : N = 2, M = 2
Output : 2
Out of {AA, BB, AB, BA}, only {AB, BA} contain 
non-palindromic substrings.

First, observe, a string does not contain any palindromic substring if the string doesn’t have any palindromic substring of the length 2 and 3, because all the palindromic string of the greater lengths contains at least one palindromic substring of the length of 2 or 3, basically in the center.

So, the following is true: 

• There are M ways to choose the first symbol of the string.
• Then there are (M – 1) ways to choose the second symbol of the string. Basically, it should not be equal to first one.
• Then there are (M – 2) ways to choose any next symbol. Basically, it should not coincide with the previous symbols, that aren’t equal.

Knowing this, we can evaluate the answer in the following ways: 

• If N = 1, then the answer will be M.
• If N = 2, then the answer is M*(M – 1).
• If N >= 3, then M * (M – 1) * (M – 2)^N-2.

Below is the implementation of above idea : 

6

Time Complexity: O(log n), for using of pow function where n is the given input.
Auxiliary Space: O(1), no extra space is required, so it is a constant.