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I am stumped by this problem which looks very simple. I have a 2D bounding box of which I have two corner points. I wish to determine the remaining two corner points. An important constraint: the bounding box can be oriented in any way and not necessarily aligned to the horizontal and vertical axes (i.e. x and y axes).

I wish to do this as I want to raster scan the bounding box.

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They are diagonally opposite, yes. –  dr_rk Feb 12 '12 at 11:58
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If the box is not aligned in space then two diagonal points are simply not enough to determine its geometry. What extra information do you have? –  Konrad Rudolph Feb 12 '12 at 11:59
    
Two points isn't enough to define the orientation of a rectangle in space. Consider rotating the "correct" rectangle on the axis defined by the line between those two points. –  perelman Feb 12 '12 at 12:00
    
Note the two points are diagonally opposite. Since I have the diagonal, surely there can only be one box that can be drawn from this. –  dr_rk Feb 12 '12 at 12:02
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A 2d axis aligned box has 4 degrees of freedom: width, height, x pos, y pos. Such a box can be defined with 4 values x1,y1,x2,y2. A non aligned box has one more degree of freedom: rotation. You need more information. –  hansmaad Feb 12 '12 at 12:26

2 Answers 2

up vote 3 down vote accepted

I'm sure this is not an answer you want to hear, however, as mentioned here before, two diagonally opposite points are not enough to define a rectangle on a 2D surface. As a picture is worth a thousand words, here's a picture of two different rectangles sharing the same diagonally opposite points.

enter image description here

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As mentioned in the comments, you don't have complete information. Let me explain: Draw a dummy rectangle that you want to find the points for -- make sure the rectangle is rotated i.e. not "flat".

Now, pick the top-left and bottom-right points -- treat them as the top-left and bottom-right points of a rectangle that is sitting flat on the x-axis. This shows that you can have at least two rectangles with the same two opposing points. Similarly, you can alter the angle of tilt and get an infinite number of points.

If you want a unique rectangle, you need to define at least the tilt. Hope that helps.

Example figure

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A bounding box usually refers to a rectangle, therefore you cannot simply skew one rectangle to get another. I also rather fail to see how your drawing demonstrates the issue. The two opposing points of the red quadrangle are not the two opposite points of the blue quadrangle. –  Aleks G Feb 12 '12 at 12:49

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