It’s riot time on football stadium Ramacana! Raging fans have entered the field and the police find themselves in a difficult situation. The field can be represented as a square in the coordinate system defined by two diagonal vertices in (0,0) and (105, 105). The sides of that square are also considered to be inside the field, everything else is outside.
In the beginning, there are N fans on the field. For each fan we are given his speed, an integer vi as well as his integer coordinates (xi, yi). A fan with those coordinates might move and after one second he might be at any point (xi + p, yi + q) where 0 ≤ |p| + |q| ≤ vi. p, q are both integers.
Points that go outside of the square that represents the field are excluded and all others have equal probability of being the location of that specific fan after one second.
Andrej, a young and promising police officer, has sent a flying drone to take a photo of the riot from above. The drone’s camera works like this:
Your goal is to select those three points so that the expected number of fans seen on the photo is maximized. If there are more such selections, select those three points that give the circle with largest radius among them. If there are still more suitable selections, any one of them will be accepted. If your answer follows conditions above and radius of circle you return is smaller then the optimal one by 0.01, your output will be considered as correct.
No test will have optimal radius bigger than 1010.
The first line contains the number of fans on the field, N. The next N lines contain three integers: xi ,yi, vi. They are the x-coordinate, y-coordinate and speed of fan i at the beginning of the one second interval considered in the task.
You need to output the three points that camera needs to select. Print them in three lines, with every line containing the x-coordinate, then y-coordinate, separated by a single space. The order of points does not matter.
3
1 1 1
1 1 1
1 2 1
2 2
2 1
1 0
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