Description:
Integers from $$$1$$$ to $$$n$$$ (inclusive) were sorted lexicographically (considering integers as strings). As a result, array $$$a_1, a_2, \dots, a_n$$$ was obtained.
Calculate value of $$$(\sum_{i = 1}^n ((i - a_i) \mod 998244353)) \mod 10^9 + 7$$$.
$$$x \mod y$$$ here means the remainder after division $$$x$$$ by $$$y$$$. This remainder is always non-negative and doesn't exceed $$$y - 1$$$. For example, $$$5 \mod 3 = 2$$$, $$$(-1) \mod 6 = 5$$$.
Input Format:
The first line contains the single integer $$$n$$$ ($$$1 \leq n \leq 10^{12}$$$).
Output Format:
Print one integer — the required sum.
Note:
A string $$$a$$$ is lexicographically smaller than a string $$$b$$$ if and only if one of the following holds:
- $$$a$$$ is a prefix of $$$b$$$, but $$$a \ne b$$$;
- in the first position where $$$a$$$ and $$$b$$$ differ, the string $$$a$$$ has a letter that appears earlier in the alphabet than the corresponding letter in $$$b$$$.
For example, $$$42$$$ is lexicographically smaller than $$$6$$$, because they differ in the first digit, and $$$4 < 6$$$; $$$42 < 420$$$, because $$$42$$$ is a prefix of $$$420$$$.
Let's denote $$$998244353$$$ as $$$M$$$.
In the first example, array $$$a$$$ is equal to $$$[1, 2, 3]$$$.
- $$$(1 - 1) \mod M = 0 \mod M = 0$$$
- $$$(2 - 2) \mod M = 0 \mod M = 0$$$
- $$$(3 - 3) \mod M = 0 \mod M = 0$$$
As a result, $$$(0 + 0 + 0) \mod 10^9 + 7 = 0$$$
In the second example, array $$$a$$$ is equal to $$$[1, 10, 11, 12, 2, 3, 4, 5, 6, 7, 8, 9]$$$.
- $$$(1 - 1) \mod M = 0 \mod M = 0$$$
- $$$(2 - 10) \mod M = (-8) \mod M = 998244345$$$
- $$$(3 - 11) \mod M = (-8) \mod M = 998244345$$$
- $$$(4 - 12) \mod M = (-8) \mod M = 998244345$$$
- $$$(5 - 2) \mod M = 3 \mod M = 3$$$
- $$$(6 - 3) \mod M = 3 \mod M = 3$$$
- $$$(7 - 4) \mod M = 3 \mod M = 3$$$
- $$$(8 - 5) \mod M = 3 \mod M = 3$$$
- $$$(9 - 6) \mod M = 3 \mod M = 3$$$
- $$$(10 - 7) \mod M = 3 \mod M = 3$$$
- $$$(11 - 8) \mod M = 3 \mod M = 3$$$
- $$$(12 - 9) \mod M = 3 \mod M = 3$$$
As a result, $$$(0 + 998244345 + 998244345 + 998244345 + 3 + 3 + 3 + 3 + 3 + 3 + 3 + 3) \mod 10^9 + 7$$$ $$$=$$$ $$$2994733059 \mod 10^9 + 7$$$ $$$=$$$ $$$994733045$$$