Number of factors of very large number N modulo M where M is any prime number

Given a large number N, the task is to find the total number of factors of the number N modulo M where M is any prime number. 
Examples: 
 

Input: N = 9699690, M = 17 
Output: 1 
Explanation: 
Total Number of factors of 9699690 is 256 and (256 % 17) = 1
Input: N = 193748576239475639, M = 9 
Output: 8 
Explanation: 
Total Number of factors of 9699690 is 256 and (256 % 17) = 1 
 

Recommended: Please try your approach on {IDE} first, before moving on to the solution.

Definition of Factors of a number: 
In mathematics, a factor of an integer N also called a divisor of N, is an integer M that may be multiplied by some integer to produce N.
Any number can be written as: 
 

N = (P1^A1) * (P2^A2) * (P3^A3) …. (Pn^An)

 
where P1, P2, P3…Pn are distinct prime and A1, A2, A3…An are number of times the corresponding prime number occurs.
The general formula of total number of factors of a given number will be: 
 

Factors = (1+A1) * (1+A2) * (1+A3) * … (1+An)

 
where A1, A2, A3, … An are count of distinct prime factors of N.
Here Sieve’s implementation to find prime factorization of a large number cannot be used because it requires proportional space.
Approach: 
 

1. Count the number of times 2 is the factor of the given number N.
2. Iterate from 3 to √(N) to find the number of times a prime number divides a particular number which reduces every time by N / i.
3. Divide number N by its corresponding smallest prime factor till N becomes 1.
4. Find the number of factors of the number by using the formula 
    

Factors = (1+A1) * (1+A2) * (1+A3) * … (1+An)

Below is the implementation of the above approach.
 

8

Time Complexity: O(sqrt(N))
Auxiliary Space: O(1)