We are definitely not going to bother you with another generic story when Alice finds about an array or when Alice and Bob play some stupid game. This time you'll get a simple, plain text.
First, let us define several things. We define function $$$F$$$ on the array $$$A$$$ such that $$$F(i, 1) = A[i]$$$ and $$$F(i, m) = A[F(i, m - 1)]$$$ for $$$m > 1$$$. In other words, value $$$F(i, m)$$$ represents composition $$$A[...A[i]]$$$ applied $$$m$$$ times.
You are given an array of length $$$N$$$ with non-negative integers. You are expected to give an answer on $$$Q$$$ queries. Each query consists of two numbers – $$$m$$$ and $$$y$$$. For each query determine how many $$$x$$$ exist such that $$$F(x,m) = y$$$.
The first line contains one integer $$$N$$$ $$$(1 \leq N \leq 2 \cdot 10^5)$$$ – the size of the array $$$A$$$. The next line contains $$$N$$$ non-negative integers – the array $$$A$$$ itself $$$(1 \leq A_i \leq N)$$$. The next line contains one integer $$$Q$$$ $$$(1 \leq Q \leq 10^5)$$$ – the number of queries. Each of the next $$$Q$$$ lines contain two integers $$$m$$$ and $$$y$$$ $$$(1 \leq m \leq 10^{18}, 1\leq y \leq N)$$$.
Output exactly $$$Q$$$ lines with a single integer in each that represent the solution. Output the solutions in the order the queries were asked in.
10 2 3 1 5 6 4 2 10 7 7 5 10 1 5 7 10 6 1 1 10 8
3 0 1 1 0
For the first query we can notice that $$$F(3, 10) = 1,\ F(9, 10) = 1$$$ and $$$F(10, 10) = 1$$$.
For the second query no $$$x$$$ satisfies condition $$$F(x, 5) = 7$$$.
For the third query $$$F(5, 10) = 6$$$ holds.
For the fourth query $$$F(3, 1) = 1.$$$
For the fifth query no $$$x$$$ satisfies condition $$$F(x, 10) = 8$$$.
Название |
---|