You are given an array $$$a$$$ consisting of $$$n$$$ zeros. You are also given a set of $$$m$$$ not necessarily different segments. Each segment is defined by two numbers $$$l_i$$$ and $$$r_i$$$ ($$$1 \le l_i \le r_i \le n$$$) and represents a subarray $$$a_{l_i}, a_{l_i+1}, \dots, a_{r_i}$$$ of the array $$$a$$$.

Let's call the segment $$$l_i, r_i$$$ beautiful if the number of ones on this segment is strictly greater than the number of zeros. For example, if $$$a = [1, 0, 1, 0, 1]$$$, then the segment $$$[1, 5]$$$ is beautiful (the number of ones is $$$3$$$, the number of zeros is $$$2$$$), but the segment $$$[3, 4]$$$ is not is beautiful (the number of ones is $$$1$$$, the number of zeros is $$$1$$$).

You also have $$$q$$$ changes. For each change you are given the number $$$1 \le x \le n$$$, which means that you must assign an element $$$a_x$$$ the value $$$1$$$.

You have to find the first change after which at least one of $$$m$$$ given segments becomes beautiful, or report that none of them is beautiful after processing all $$$q$$$ changes.