C. Similar Polynomials
time limit per test
4 seconds
memory limit per test
256 megabytes
input
standard input
output
standard output

A polynomial $$$A(x)$$$ of degree $$$d$$$ is an expression of the form $$$A(x) = a_0 + a_1 x + a_2 x^2 + \dots + a_d x^d$$$, where $$$a_i$$$ are integers, and $$$a_d \neq 0$$$. Two polynomials $$$A(x)$$$ and $$$B(x)$$$ are called similar if there is an integer $$$s$$$ such that for any integer $$$x$$$ it holds that

$$$$$$ B(x) \equiv A(x+s) \pmod{10^9+7}. $$$$$$

For two similar polynomials $$$A(x)$$$ and $$$B(x)$$$ of degree $$$d$$$, you're given their values in the points $$$x=0,1,\dots, d$$$ modulo $$$10^9+7$$$.

Find a value $$$s$$$ such that $$$B(x) \equiv A(x+s) \pmod{10^9+7}$$$ for all integers $$$x$$$.

Input

The first line contains a single integer $$$d$$$ ($$$1 \le d \le 2\,500\,000$$$).

The second line contains $$$d+1$$$ integers $$$A(0), A(1), \ldots, A(d)$$$ ($$$0 \le A(i) < 10^9+7$$$) — the values of the polynomial $$$A(x)$$$.

The third line contains $$$d+1$$$ integers $$$B(0), B(1), \ldots, B(d)$$$ ($$$0 \le B(i) < 10^9+7$$$) — the values of the polynomial $$$B(x)$$$.

It is guaranteed that $$$A(x)$$$ and $$$B(x)$$$ are similar and that the leading coefficients (i.e., the coefficients in front of $$$x^d$$$) of $$$A(x)$$$ and $$$B(x)$$$ are not divisible by $$$10^9+7$$$.

Output

Print a single integer $$$s$$$ ($$$0 \leq s < 10^9+7$$$) such that $$$B(x) \equiv A(x+s) \pmod{10^9+7}$$$ for all integers $$$x$$$.

If there are multiple solutions, print any.

Examples
Input
1
1000000006 0
2 3
Output
3
Input
2
1 4 9
100 121 144
Output
9
Note

In the first example, $$$A(x) \equiv x-1 \pmod{10^9+7}$$$ and $$$B(x)\equiv x+2 \pmod{10^9+7}$$$. They're similar because $$$$$$B(x) \equiv A(x+3) \pmod{10^9+7}.$$$$$$

In the second example, $$$A(x) \equiv (x+1)^2 \pmod{10^9+7}$$$ and $$$B(x) \equiv (x+10)^2 \pmod{10^9+7}$$$, hence $$$$$$B(x) \equiv A(x+9) \pmod{10^9+7}.$$$$$$