2759: 3602 Counting Swaps

Memory Limit:128 MB Time Limit:1.000 S
Judge Style:Text Compare Creator:
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Description

Just like yesterday (in problem U of the practice session), Bob is busy, so Alice keeps on playing some single-player games and puzzles. In her newest puzzle she has a permutation of numbers from 1 to n. The goal of the puzzle is to sort the permutation using the smallest possible number of swaps.

Instead of simply solving the puzzle, Alice is wondering about the probability of winning it just by playing at random. In order to answer this question, she needs to know the number of optimal solutions to her puzzle.

描述

给定一个 1~n 的排列 p_1,p_2,…,p_n,可进行若干次操作,每次选择两个整数 x,y,交换 p_x,p_y。设把 p_1,p_2,…,p_n 变成单调递增的排列 1,2,…,n 至少需要 m 次交换。求有多少种操作方法可以只用 m 次交换达到上述目标。因为结果可能很大,你只需要输出对 10^9+9 取模之后的值。1≤n≤10^5。
例如排列 2,3,1 至少需要2次交换才能变为 1,2,3。操作方法共有3种,分别是:
先交换数字2,3,变成 3,2,1,再交换数字3,1,变成 1,2,3。
先交换数字2,1,变成 1,3,2,再交换数字3,2,变成 1,2,3。
先交换数字3,1,变成 2,1,3,再交换数字2,1,变成 1,2,3。

You are given a permutation p1, …, pn of the numbers 1 through n. In each step you can choose two numbers x < y and swap px with py.

Let m be the minimum number of such swaps needed to sort the given permutation. Compute the number of different sequences of exactly m swaps that sort the given permutation. Since this number may be large, compute it modulo 109 + 9.

Input

The first line of the input file contains an integer t specifying the number of test cases. Each test case is preceded by a blank line.

Each test case consists of two lines. The first line contains the integer n. The second line contains the sequence p1, …, pn: a permutation of 1, …, n.

In the easy subproblem C11 ≤ n ≤ 10.

In the hard subproblem C21 ≤ n ≤ 105.

Output

For each test case, output a single line with a single integer: x mod(10^9+9), where x is the number of ways to sort the given sequence using as few swaps as possible.

Sample Input Copy 

样例输入
3

3
2 3 1

4
2 1 4 3

2
1 2

Sample Output Copy 


3
2
1