Codeforces Round 789 (Div. 1) |
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Finished |
Tokitsukaze has a permutation $$$p$$$. She performed the following operation to $$$p$$$ exactly $$$k$$$ times: in one operation, for each $$$i$$$ from $$$1$$$ to $$$n - 1$$$ in order, if $$$p_i$$$ > $$$p_{i+1}$$$, swap $$$p_i$$$, $$$p_{i+1}$$$. After exactly $$$k$$$ times of operations, Tokitsukaze got a new sequence $$$a$$$, obviously the sequence $$$a$$$ is also a permutation.
After that, Tokitsukaze wrote down the value sequence $$$v$$$ of $$$a$$$ on paper. Denote the value sequence $$$v$$$ of the permutation $$$a$$$ of length $$$n$$$ as $$$v_i=\sum_{j=1}^{i-1}[a_i < a_j]$$$, where the value of $$$[a_i < a_j]$$$ define as if $$$a_i < a_j$$$, the value is $$$1$$$, otherwise is $$$0$$$ (in other words, $$$v_i$$$ is equal to the number of elements greater than $$$a_i$$$ that are to the left of position $$$i$$$). Then Tokitsukaze went out to work.
There are three naughty cats in Tokitsukaze's house. When she came home, she found the paper with the value sequence $$$v$$$ to be bitten out by the cats, leaving several holes, so that the value of some positions could not be seen clearly. She forgot what the original permutation $$$p$$$ was. She wants to know how many different permutations $$$p$$$ there are, so that the value sequence $$$v$$$ of the new permutation $$$a$$$ after exactly $$$k$$$ operations is the same as the $$$v$$$ written on the paper (not taking into account the unclear positions).
Since the answer may be too large, print it modulo $$$998\,244\,353$$$.
The first line contains a single integer $$$t$$$ ($$$1 \leq t \leq 1000$$$) — the number of test cases. Each test case consists of two lines.
The first line contains two integers $$$n$$$ and $$$k$$$ ($$$1 \leq n \leq 10^6$$$; $$$0 \leq k \leq n-1$$$) — the length of the permutation and the exactly number of operations.
The second line contains $$$n$$$ integers $$$v_1, v_2, \dots, v_n$$$ ($$$-1 \leq v_i \leq i-1$$$) — the value sequence $$$v$$$. $$$v_i = -1$$$ means the $$$i$$$-th position of $$$v$$$ can't be seen clearly.
It is guaranteed that the sum of $$$n$$$ over all test cases does not exceed $$$10^6$$$.
For each test case, print a single integer — the number of different permutations modulo $$$998\,244\,353$$$.
35 00 1 2 3 45 2-1 1 2 0 05 20 1 1 0 0
1 6 6
In the first test case, only permutation $$$p=[5,4,3,2,1]$$$ satisfies the constraint condition.
In the second test case, there are $$$6$$$ permutations satisfying the constraint condition, which are:
So after exactly $$$2$$$ times of swap they will all become $$$a=[3,2,1,4,5]$$$, whose value sequence is $$$v=[0,1,2,0,0]$$$.
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