E. Madoka and The Best University
time limit per test
1 second
memory limit per test
256 megabytes
input
standard input
output
standard output

Madoka wants to enter to "Novosibirsk State University", but in the entrance exam she came across a very difficult task:

Given an integer $$$n$$$, it is required to calculate $$$\sum{\operatorname{lcm}(c, \gcd(a, b))}$$$, for all triples of positive integers $$$(a, b, c)$$$, where $$$a + b + c = n$$$.

In this problem $$$\gcd(x, y)$$$ denotes the greatest common divisor of $$$x$$$ and $$$y$$$, and $$$\operatorname{lcm}(x, y)$$$ denotes the least common multiple of $$$x$$$ and $$$y$$$.

Solve this problem for Madoka and help her to enter to the best university!

Input

The first and the only line contains a single integer $$$n$$$ ($$$3 \le n \le 10^5$$$).

Output

Print exactly one interger — $$$\sum{\operatorname{lcm}(c, \gcd(a, b))}$$$. Since the answer can be very large, then output it modulo $$$10^9 + 7$$$.

Examples
Input
3
Output
1
Input
5
Output
11
Input
69228
Output
778304278
Note

In the first example, there is only one suitable triple $$$(1, 1, 1)$$$. So the answer is $$$\operatorname{lcm}(1, \gcd(1, 1)) = \operatorname{lcm}(1, 1) = 1$$$.

In the second example, $$$\operatorname{lcm}(1, \gcd(3, 1)) + \operatorname{lcm}(1, \gcd(2, 2)) + \operatorname{lcm}(1, \gcd(1, 3)) + \operatorname{lcm}(2, \gcd(2, 1)) + \operatorname{lcm}(2, \gcd(1, 2)) + \operatorname{lcm}(3, \gcd(1, 1)) = \operatorname{lcm}(1, 1) + \operatorname{lcm}(1, 2) + \operatorname{lcm}(1, 1) + \operatorname{lcm}(2, 1) + \operatorname{lcm}(2, 1) + \operatorname{lcm}(3, 1) = 1 + 2 + 1 + 2 + 2 + 3 = 11$$$