Score : $600$ points
There are $N$ points in a two-dimensional plane. The initial coordinates of the $i$-th point are $(x_i, y_i)$. Now, each point starts moving at a speed of 1 per second, in a direction parallel to the $x$- or $y$- axis. You are given a character $d_i$ that represents the specific direction in which the $i$-th point moves, as follows:
R, the $i$-th point moves in the positive $x$ direction;L, the $i$-th point moves in the negative $x$ direction;U, the $i$-th point moves in the positive $y$ direction;D, the $i$-th point moves in the negative $y$ direction.You can stop all the points at some moment of your choice after they start moving (including the moment they start moving). Then, let $x_{max}$ and $x_{min}$ be the maximum and minimum among the $x$-coordinates of the $N$ points, respectively. Similarly, let $y_{max}$ and $y_{min}$ be the maximum and minimum among the $y$-coordinates of the $N$ points, respectively.
Find the minimum possible value of $(x_{max} - x_{min}) \times (y_{max} - y_{min})$ and print it.
R, L, U, or D.Input is given from Standard Input in the following format:
$N$ $x_1$ $y_1$ $d_1$ $x_2$ $y_2$ $d_2$ $.$ $.$ $.$ $x_N$ $y_N$ $d_N$
Print the minimum possible value of $(x_{max} - x_{min}) \times (y_{max} - y_{min})$.
The output will be considered correct when its absolute or relative error from the judge's output is at most $10^{-9}$.
2 0 3 D 3 0 L
0
After three seconds, the two points will meet at the origin. The value in question will be $0$ at that moment.
5 -7 -10 U 7 -6 U -8 7 D -3 3 D 0 -6 R
97.5
The answer may not be an integer.
20 6 -10 R -4 -9 U 9 6 D -3 -2 R 0 7 D 4 5 D 10 -10 U -1 -8 U 10 -6 D 8 -5 U 6 4 D 0 3 D 7 9 R 9 -4 R 3 10 D 1 9 U 1 -6 U 9 -8 R 6 7 D 7 -3 D
273