309126: CF1628D2. Game on Sum (Hard Version)

Memory Limit:256 MB Time Limit:3 S
Judge Style:Text Compare Creator:
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Description

Game on Sum (Hard Version)

题意翻译

Alice 和 Bob 正在玩一个游戏,游戏分为 $n$ 个回合,Alice 和 Bob 要轮流对一个数 $x$ 进行操作,已知这个数初始值是 $0$。 具体每个回合的行动规则如下: 1. Alice 选择一个在区间 $[0,k]$ 之间的实数 $t$。 2. Bob 可以选择让 $x$ 变成 $x+t$ 或者 $x-t$,但是 Bob 在 $n$ 个回合之内至少选择 $m$ 次让 $x$ 变成 $x+t$。 Alice想让最终的 $x$ 最大,Bob 想让最终的 $x$ 最小。 已知双方均采用最优策略,求最终的 $x$ 值(对 $10^9+7$ 取模)。 数据范围保证:$1\le m\le n\le 10^6,k\le10^9+7$, $\sum\limits n\leq10^6$ 。

题目描述

This is the hard version of the problem. The difference is the constraints on $ n $ , $ m $ and $ t $ . You can make hacks only if all versions of the problem are solved. Alice and Bob are given the numbers $ n $ , $ m $ and $ k $ , and play a game as follows: The game has a score that Alice tries to maximize, and Bob tries to minimize. The score is initially $ 0 $ . The game consists of $ n $ turns. Each turn, Alice picks a real number from $ 0 $ to $ k $ (inclusive) which Bob either adds to or subtracts from the score of the game. But throughout the game, Bob has to choose to add at least $ m $ out of the $ n $ turns. Bob gets to know which number Alice picked before deciding whether to add or subtract the number from the score, and Alice gets to know whether Bob added or subtracted the number for the previous turn before picking the number for the current turn (except on the first turn since there was no previous turn). If Alice and Bob play optimally, what will the final score of the game be?

输入输出格式

输入格式


The first line of the input contains a single integer $ t $ ( $ 1 \le t \le 10^5 $ ) — the number of test cases. The description of test cases follows. Each test case consists of a single line containing the three integers, $ n $ , $ m $ , and $ k $ ( $ 1 \le m \le n \le 10^6, 0 \le k < 10^9 + 7 $ ) — the number of turns, how many of those turns Bob has to add, and the biggest number Alice can choose, respectively. It is guaranteed that the sum of $ n $ over all test cases does not exceed $ 10^6 $ .

输出格式


For each test case output a single integer number — the score of the optimal game modulo $ 10^9 + 7 $ . Formally, let $ M = 10^9 + 7 $ . It can be shown that the answer can be expressed as an irreducible fraction $ \frac{p}{q} $ , where $ p $ and $ q $ are integers and $ q \not \equiv 0 \pmod{M} $ . Output the integer equal to $ p \cdot q^{-1} \bmod M $ . In other words, output such an integer $ x $ that $ 0 \le x < M $ and $ x \cdot q \equiv p \pmod{M} $ .

输入输出样例

输入样例 #1

7
3 3 2
2 1 10
6 3 10
6 4 10
100 1 1
4 4 0
69 4 20

输出样例 #1

6
5
375000012
500000026
958557139
0
49735962

说明

In the first test case, the entire game has $ 3 $ turns, and since $ m = 3 $ , Bob has to add in each of them. Therefore Alice should pick the biggest number she can, which is $ k = 2 $ , every turn. In the third test case, Alice has a strategy to guarantee a score of $ \frac{75}{8} \equiv 375000012 \pmod{10^9 + 7} $ . In the fourth test case, Alice has a strategy to guarantee a score of $ \frac{45}{2} \equiv 500000026 \pmod{10^9 + 7} $ .

Input

题意翻译

Alice 和 Bob 正在玩一个游戏,游戏分为 $n$ 个回合,Alice 和 Bob 要轮流对一个数 $x$ 进行操作,已知这个数初始值是 $0$。 具体每个回合的行动规则如下: 1. Alice 选择一个在区间 $[0,k]$ 之间的实数 $t$。 2. Bob 可以选择让 $x$ 变成 $x+t$ 或者 $x-t$,但是 Bob 在 $n$ 个回合之内至少选择 $m$ 次让 $x$ 变成 $x+t$。 Alice想让最终的 $x$ 最大,Bob 想让最终的 $x$ 最小。 已知双方均采用最优策略,求最终的 $x$ 值(对 $10^9+7$ 取模)。 数据范围保证:$1\le m\le n\le 10^6,k\le10^9+7$, $\sum\limits n\leq10^6$ 。

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