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Is there a better way to determine order of two line segments which intersect with a vertical line? the order is according to the y-coordinates of the points of intersection. The naive approach is to caculate the intersection points and compare.

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Your question isn't very clear. What do you mean by order? Drawing a picture is often a good way to show things, and perhaps give an example of a situation and the answer you would expect to be returned by the algorithm. –  lxop Jun 11 '12 at 3:06

2 Answers 2

I can give you some pointers to solve this problem:

  • A more faster way to find the intersection between lines can be with the use of determinants as show this Wikipedia entry.
  • An algorithm to solve the more general version this problem, is the Bentley–Ottmann algorithm, created for testing whether or not a set of line segments has any crossings.

I believe this entry in the Wikipedia about Line segment intersection encompasses your inquiries in this matter.

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I assume the lines are specified using endpoints.

The intersection of a line with endpoints (x0, y0)/(x1, y1) and a vertical line with x coordinate x is at:

y = (dy/dx)(x - x0) + y0

where dx = x1 - x0 and dy = y1 - y0.

You have 2 lines and are calculating:

(day/dax)(x - ax0) + ay0 < (dby/dbx)(x - bx0) + by0

You can multiply both sides by dax * dbx to get rid of the divides:

(day * dbx)(x - ax0) + (ay0 * dax * dbx) < (dby * dax)(x - bx0) + (by0 * dax * dbx)

and simplify a bit:

(day * dbx)(x - ax0) - (dby * dax)(x - bx0) + (ay0 - by0)(dax * dbx) < 0

This isn't necessarily better -- it depends on the situation:

  • If the coordinates are integers, this allows you to perform the test exactly, but it's also prone to overflow if dax/dbx/etc are large
  • If the coordinates are floats, it may be faster if floating point divide is slow
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