SPOINTS - Separate Points

Numbers of black and white points are placed on a plane. Let’s imagine that a straight line of infinite length is drawn on the plane. When the line does not meet any of the points, the line divides these points into two groups. If the division by such a line results in one group consisting only of black points and the other consisting only of white points, we say that the line “separates black and white points”.

Let’s see examples in the figure below. In the leftmost example, you can easily find that the black and white points can be perfectly separated by the dashed line according to their colors. In the remaining three examples, there exists no such straight line that gives such a separation.

Example plane

In this problem, given a set of points with their colors and positions, you are requested to decide whether there exists a straight line that separates black and white points.

Input

The input is a sequence of datasets, each of which is formatted as follows.

n m
x1 y1
.
.
.
xn yn
xn+1 yn+1
.
.
.
xn+m yn+m

The first line contains two positive integers separated by a single space; n is the number of black points, and m is the number of white points. They are less than or equal to 100. Then n + m lines representing the coordinates of points follow. Each line contains two integers xi and yi separated by a space, where (xi , yi) represents the x-coordinate and the y-coordinate of the i-th point. The color of the i-th point is black for 1 ≤ i ≤ n, and is white for n + 1 ≤ i ≤ n + m. All the points have integral x- and y-coordinate values between 0 and 10000 inclusive. You can also assume that no two points have the same position.
The end of the input is indicated by a line containing two zeros separated by a space.

Output

For each dataset, output “YES” if there exists a line satisfying the condition. If not, output “NO”. In either case, print it in one line for each input dataset.

Example

Input:
3 3 
100 700
200 200
600 600
500 100
500 300
800 500
3 3
100 300
400 600
400 100
600 400
500 900
300 300
3 4
300 300
500 300
400 600
100 100
200 900
500 900
800 100
1 2
300 300
100 100
500 500
1 1
100 100 200 100
2 2
0 0
500 700
1000 1400
1500 2100
2 2
0 0
1000 1000
1000 0
0 1000
3 3
0 100
4999 102
10000 103
5001 102
10000 102
0 101
3 3
100 100
200 100
100 200
0 0
400 0
0 400
3 3
2813 1640
2583 2892
2967 1916
541 3562
9298 3686
7443 7921
0 0

Output: YES
NO
NO
NO
YES
YES
NO
NO
NO
YES

Added by:John Mario
Date:2011-05-03
Time limit:1s
Source limit:50000B
Memory limit:1536MB
Cluster: Cube (Intel G860)
Languages:All except: ASM64
Resource:ACM International Collegiate Programming Contest Asia Regional Contest, Tokyo 2009

hide comments
2019-03-02 06:50:38
Try to think of a solution based on convex hull. And this link may be helpful: www.quora.com/How-do-I-know-if-any-two-given-polygons-intersect-overlap
2016-03-12 06:18:35 arbit
Can someone provide some corner scenarios? All cases I can think of are working fine but I'm still facing WA.
2014-07-24 18:44:34 Naman Goyal
Around how many test cases are there? It should be mentioned in the question description.
Edit:
Got AC with O(n^2) algorithm. :)

Last edit: 2014-07-25 20:55:10
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