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Given a set of points with unequal x-coordinates, I want to calculate the value v > 0 such that the shear transformation (x, y) -> (x + v*y, y) doesn't change the order in the x-direction.

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up vote 3 down vote accepted

This isn't difficult. Order the points by their x-axis. Because of the continuity of the shear transformation, it's enough for you to find a maximum v that two consecutive points (in x-order) do not change order. Let (x,y) and (x',y') be two consecutive points in your ordering. with v>0, the x coordinates change as x -> x + vy and x' -> x' + vy'. Now as x'>x, you want to find maximum v such that x' + vy' >= x + vy. By linearity, it's enough to solve

x' + vy' = x + vy


x' - x = vy - vy' = v(y - y')


v = (x' - x)/(y - y')

If the result is negative, then any value of v goes (the points are moving farther away); if the result is positive, that's the maximum value that the pair (x,y), (x',y') can tolerate. Now calculate this maximum for all consecutive pairs and take their minimum.

Note that if y = y', v becomes undefined. In this case the points lie at the same point on y-axis and the shear transformation doesn't change their distance.

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Convert each point (x, y) into a ray {(x + yv, v) | v ≥ 0} in the xv-halfplane with v ≥ 0. Use a segment intersection algorithm to find the one with minimum v.

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hmm, what are the events in the intersection algorithm then? Since you do need the start and end point of every ray to sort them in increasing x-order to find the intersections. – Student Apr 11 '11 at 2:58

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