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Find sum of divisors of all the divisors of a natural number
• Difficulty Level : Hard
• Last Updated : 11 Oct, 2019

Given a natural number n, the task is to find sum of divisors of all the divisors of n.

Examples:

```Input : n = 54
Output : 232
Divisors of 54 = 1, 2, 3, 6, 9, 18, 27, 54.
Sum of divisors of 1, 2, 3, 6, 9, 18, 27, 54
are 1, 3, 4, 12, 13, 39, 40, 120 respectively.
Sum of divisors of all the divisors of 54 =
1 + 3 + 4 + 12 + 13 + 39 + 40 + 120 = 232.

Input : n = 10
Output : 28
Divisors of 10 are 1, 2, 5, 10
Sums of divisors of divisors are
1, 3, 6, 18.
Overall sum = 1 + 3 + 6 + 18 = 28
```

## Recommended: Please solve it on “PRACTICE” first, before moving on to the solution.

Using the fact that any number n can be expressed as product of prime factors, n = p1k1 x p2k2 x … where p1, p2, … are prime numbers.
All the divisors of n can be expressed as p1a x p2b x …, where 0 <= a <= k1 and 0 <= b <= k2.
Now sum of divisors will be sum of all power of p1 – p10, p11,…., p1k1 multiplied by all power of p2 – p20, p21,…., p2k1
Sum of Divisor of n
= (p10 x p20) + (p11 x p20) +…..+ (p1k1 x p20) +….+ (p10 x p21) + (p11 x p21) +…..+ (p1k1 x p21) +……..+
(p10 x p2k2) + (p11 x p2k2) +……+ (p1k1 x p2k2).
= (p10 + p11 +…+ p1k1) x p20 + (p10 + p11 +…+ p1k1) x p21 +…….+ (p10 + p11 +…+ p1k1) x p2k2.
= (p10 + p11 +…+ p1k1) x (p20 + p21 +…+ p2k2).

Now, the divisors of any pa, for p as prime, are p0, p1,……, pa. And sum of diviors will be (p(a+1) – 1)/(p -1), let it define by f(p).
So, sum of divisors of all divisor will be,
= (f(p10) + f(p11) +…+ f(p1k1)) x (f(p20) + f(p21) +…+ f(p2k2)).

So, given a number n, by prime factorization we can find the sum of divisors of all the divisors. But in this problem we are given that n is product of element of array. So, find prime factorization of each element and by using the fact ab x ac = ab+c.

Below is the implementation of this approach:

## C++

 `// C++ program to find sum of divisors of all ` `// the divisors of a natural number. ` `#include ` `using` `namespace` `std; ` ` `  `// Returns sum of divisors of all the divisors ` `// of n ` `int` `sumDivisorsOfDivisors(``int` `n) ` `{ ` `    ``// Calculating powers of prime factors and ` `    ``// storing them in a map mp[]. ` `    ``map<``int``, ``int``> mp; ` `    ``for` `(``int` `j=2; j<=``sqrt``(n); j++) ` `    ``{ ` `        ``int` `count = 0; ` `        ``while` `(n%j == 0) ` `        ``{ ` `            ``n /= j; ` `            ``count++; ` `        ``} ` ` `  `        ``if` `(count) ` `            ``mp[j] = count; ` `    ``} ` ` `  `    ``// If n is a prime number ` `    ``if` `(n != 1) ` `        ``mp[n] = 1; ` ` `  `    ``// For each prime factor, calculating (p^(a+1)-1)/(p-1) ` `    ``// and adding it to answer. ` `    ``int` `ans = 1; ` `    ``for` `(``auto` `it : mp) ` `    ``{ ` `        ``int` `pw = 1; ` `        ``int` `sum = 0; ` ` `  `        ``for` `(``int` `i=it.second+1; i>=1; i--) ` `        ``{ ` `            ``sum += (i*pw); ` `            ``pw *= it.first; ` `        ``} ` `        ``ans *= sum; ` `    ``} ` ` `  `    ``return` `ans; ` `} ` ` `  `// Driven Program ` `int` `main() ` `{ ` `    ``int` `n = 10; ` `    ``cout << sumDivisorsOfDivisors(n); ` `    ``return` `0; ` `} `

## Java

 `// Java program to find sum of divisors of all  ` `// the divisors of a natural number.  ` `import` `java.util.HashMap; ` ` `  `class` `GFG  ` `{ ` ` `  `    ``// Returns sum of divisors of all the divisors ` `    ``// of n ` `    ``public` `static` `int` `sumDivisorsOfDivisors(``int` `n) ` `    ``{ ` ` `  `        ``// Calculating powers of prime factors and ` `        ``// storing them in a map mp[]. ` `        ``HashMap mp = ``new` `HashMap<>(); ` `        ``for` `(``int` `j = ``2``; j <= Math.sqrt(n); j++)  ` `        ``{ ` `            ``int` `count = ``0``; ` `            ``while` `(n % j == ``0``)  ` `            ``{ ` `                ``n /= j; ` `                ``count++; ` `            ``} ` `            ``if` `(count != ``0``) ` `                ``mp.put(j, count); ` `        ``} ` ` `  `        ``// If n is a prime number ` `        ``if` `(n != ``1``) ` `            ``mp.put(n, ``1``); ` ` `  `        ``// For each prime factor, calculating (p^(a+1)-1)/(p-1) ` `        ``// and adding it to answer. ` `        ``int` `ans = ``1``; ` ` `  `        ``for` `(HashMap.Entry entry : mp.entrySet())  ` `        ``{ ` `            ``int` `pw = ``1``; ` `            ``int` `sum = ``0``; ` `            ``for` `(``int` `i = entry.getValue() + ``1``; i >= ``1``; i--) ` `            ``{ ` `                ``sum += (i * pw); ` `                ``pw = entry.getKey(); ` `            ``} ` `            ``ans *= sum; ` `        ``} ` ` `  `        ``return` `ans; ` `    ``} ` ` `  `    ``// Driver code ` `    ``public` `static` `void` `main(String[] args)  ` `    ``{ ` `        ``int` `n = ``10``; ` `        ``System.out.println(sumDivisorsOfDivisors(n)); ` `    ``} ` `} ` ` `  `// This code is contributed by ` `// sanjeev2552 `

## Python3

 `# Python3 program to find sum of divisors  ` `# of all the divisors of a natural number. ` `import` `math as mt ` ` `  `# Returns sum of divisors of all  ` `# the divisors of n ` `def` `sumDivisorsOfDivisors(n): ` ` `  `    ``# Calculating powers of prime factors  ` `    ``# and storing them in a map mp[]. ` `    ``mp ``=` `dict``() ` `    ``for` `j ``in` `range``(``2``, mt.ceil(mt.sqrt(n))): ` ` `  `        ``count ``=` `0` `        ``while` `(n ``%` `j ``=``=` `0``): ` `            ``n ``/``/``=` `j ` `            ``count ``+``=` `1` ` `  `        ``if` `(count): ` `            ``mp[j] ``=` `count ` ` `  `    ``# If n is a prime number ` `    ``if` `(n !``=` `1``): ` `        ``mp[n] ``=` `1` ` `  `    ``# For each prime factor, calculating  ` `    ``# (p^(a+1)-1)/(p-1) and adding it to answer. ` `    ``ans ``=` `1` `    ``for` `it ``in` `mp: ` `        ``pw ``=` `1` `        ``summ ``=` `0` ` `  `        ``for` `i ``in` `range``(mp[it] ``+` `1``, ``0``, ``-``1``): ` `            ``summ ``+``=` `(i ``*` `pw) ` `            ``pw ``*``=` `it ` `     `  `        ``ans ``*``=` `summ ` ` `  `    ``return` `ans ` ` `  `# Driver Code ` `n ``=` `10` `print``(sumDivisorsOfDivisors(n)) ` `     `  `# This code is contributed ` `# by mohit kumar 29 `

## C#

 `// C# program to find sum of divisors of all  ` `// the divisors of a natural number.  ` `using` `System; ` `using` `System.Collections.Generic;  ` `     `  `class` `GFG  ` `{ ` ` `  `    ``// Returns sum of divisors of  ` `    ``// all the divisors of n ` `    ``public` `static` `int` `sumDivisorsOfDivisors(``int` `n) ` `    ``{ ` ` `  `        ``// Calculating powers of prime factors and ` `        ``// storing them in a map mp[]. ` `        ``Dictionary<``int``,  ` `                   ``int``> mp = ``new` `Dictionary<``int``, ` `                                            ``int``>(); ` `        ``for` `(``int` `j = 2; j <= Math.Sqrt(n); j++)  ` `        ``{ ` `            ``int` `count = 0; ` `            ``while` `(n % j == 0)  ` `            ``{ ` `                ``n /= j; ` `                ``count++; ` `            ``} ` `            ``if` `(count != 0) ` `                ``mp.Add(j, count); ` `        ``} ` ` `  `        ``// If n is a prime number ` `        ``if` `(n != 1) ` `            ``mp.Add(n, 1); ` ` `  `        ``// For each prime factor,  ` `        ``// calculating (p^(a+1)-1)/(p-1) ` `        ``// and adding it to answer. ` `        ``int` `ans = 1; ` ` `  `        ``foreach``(KeyValuePair<``int``, ``int``> entry ``in` `mp)  ` `        ``{ ` `            ``int` `pw = 1; ` `            ``int` `sum = 0; ` `            ``for` `(``int` `i = entry.Value + 1;  ` `                     ``i >= 1; i--) ` `            ``{ ` `                ``sum += (i * pw); ` `                ``pw = entry.Key; ` `            ``} ` `            ``ans *= sum; ` `        ``} ` ` `  `        ``return` `ans; ` `    ``} ` ` `  `    ``// Driver code ` `    ``public` `static` `void` `Main(String[] args)  ` `    ``{ ` `        ``int` `n = 10; ` `        ``Console.WriteLine(sumDivisorsOfDivisors(n)); ` `    ``} ` `} ` ` `  `// This code is contributed ` `// by Princi Singh `

Output:

```28
```

Optimizations :
For the cases when there are multiple inputs for which we need find the value, we can use Sieve of Eratosthenes as discussed in this post.

This article is contributed by Anuj Chauhan. If you like GeeksforGeeks and would like to contribute, you can also write an article using contribute.geeksforgeeks.org or mail your article to contribute@geeksforgeeks.org. See your article appearing on the GeeksforGeeks main page and help other Geeks.