题目描述

Farmer John's $N$ cows are each standing at distinct locations $(x_1, y_1) \"ldots (x_n, y_n)$ on his two-dimensional farm ($1 \"leq N \"leq 1000$, and the $x_i$'s and $y_i$'s are positive odd integers of size at most $1,000,000$). FJ wants to partition his field by building a long (effectively infinite-length) north-south fence with equation $x=a$ ($a$ will be an even integer, thus ensuring that he does not build the fence through the position of any cow). He also wants to build a long (effectively infinite-length) east-west fence with equation $y=b$, where $b$ is an even integer. These two fences cross at the point $(a,b)$, and together they partition his field into four regions.
FJ wants to choose $a$ and $b$ so that the cows appearing in the four resulting regions are reasonably "balanced", with no region containing too many cows. Letting $M$ be the maximum number of cows appearing in one of the four regions, FJ wants to make $M$ as small as possible. Please help him determine this
smallest possible value for $M$.
给你一个矩阵，里面有些点，让你横向切一刀，纵向切一刀，使得得到的四个区域内的最大的点数最少。

输入格式：

The first line of the input contains a single integer, $N$. The next $N$ lines
each contain the location of a single cow, specifying its $x$ and $y$
coordinates.

输出格式：

You should output the smallest possible value of $M$ that FJ can achieve by
positioning his fences optimally.

输入样例#1：

7
7 3
5 5
7 13
3 1
11 7
5 3
9 1

输出样例#1：

2