Chaneka, Pak Chanek's child, is an ambitious kid, so Pak Chanek gives her the following problem to test her ambition.
Given an array of integers $$$[A_1, A_2, A_3, \ldots, A_N]$$$. In one operation, Chaneka can choose one element, then increase or decrease the element's value by $$$1$$$. Chaneka can do that operation multiple times, even for different elements.
What is the minimum number of operations that must be done to make it such that $$$A_1 \times A_2 \times A_3 \times \ldots \times A_N = 0$$$?
The first line contains a single integer $$$N$$$ ($$$1 \leq N \leq 10^5$$$).
The second line contains $$$N$$$ integers $$$A_1, A_2, A_3, \ldots, A_N$$$ ($$$-10^5 \leq A_i \leq 10^5$$$).
An integer representing the minimum number of operations that must be done to make it such that $$$A_1 \times A_2 \times A_3 \times \ldots \times A_N = 0$$$.
3 2 -6 5
2
1 -3
3
5 0 -1 0 1 0
0
In the first example, initially, $$$A_1\times A_2\times A_3=2\times(-6)\times5=-60$$$. Chaneka can do the following sequence of operations:
In the third example, Chaneka does not have to do any operations, because from the start, it already holds that $$$A_1\times A_2\times A_3\times A_4\times A_5=0\times(-1)\times0\times1\times0=0$$$
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