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I have a square, for simplicity assume bottom left corner is on origin and width of the square is 1.

A ray divides the square into two parts. I have the coordinates of intersection points. I want to obtain the area that lies right of the vector from p1 to p2:

ray divides square

Right now I have 16 if statements checking every combination of 2 points and calculating the area accordingly. It looks awful. Is there a more clever way of doing this?

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2 Answers 2

Call the points A and B instead of p1 and p2. I'll assume x increases to the right and y increases upward, as per convention.

The point A must have a coordinate (x or y) that is 0 or 1. Rotate the square (really just the two points) to make it x=0.

The point B might be at x=-1, in which case the area is 1-(Ay+By)/2.

Or B might be at y=0, area = 1+(AyBx)/2

Or B might be at y=1, area = (Ay-1)Bx/2

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This solution assumes that p1 and p2 form a right-triangle as depicted in the shaded area:

Area to the right of the vector = (w * w) - (0.5 * p1 * p2) where w is the width of the square, and 0 <= p1 <= w, and 0 <= p2 <= w.

For example if w = 1, p1 = 0.5, and p2 = 0.75 then Area = (1 * 1) - (0.5 * 0.5 * 0.75) = 0.8125

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They might not form right triangle, they might form trapezoid. And I am already doing the calculations, but it involves 16 ifs and looks ugly (long, obfuscated, not understandable, prone to bugs etc.) in code, what I am looking for is better solutions if there is. – nimcap Mar 24 '13 at 10:14
Can you supply images, like you did in your original post, that enumerate the types of configurations that p1 and p2 can take? – Brian Morgan Mar 24 '13 at 12:06
Well, let me take a stab at this. To me there seems to be only 3 possible combinations that you need different formulae for: (1) p1 and p2 are on the same side, (2) p1 and p2 are on adjacent sides, and (3) p1 and p2 are on opposite sides. The area calculation for (1) is simply w*w, and for (2) it is stated in my solution. As for (3) you need to break up the shaded area into a rectangle and a right-triangle, add together, and then subtract from the area of the square. – Brian Morgan Mar 24 '13 at 12:52
For all of this to make sense you must have a consistent definition of the origin, and like Beta says p1 and p2 must be treated as points on a rectangular coordinate system having x and y coordinate values. As best I can tell the area of the shaded portion is either zero, the area of a right-triangle, or the combined area of a right-triangle and a rectangle. – Brian Morgan Mar 24 '13 at 13:09
there are 4 sides. p1 can be on one of the sides, p2 can be on one of the sides, therefore there are 4x4=16 possible combinations. For each possible combination, I calculated the formula for the area (zero, triangle or (1-triangle)), wrote ifs accordingly. I am looking for a better way to write this if possible. – nimcap Mar 24 '13 at 13:13

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