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I have to design an algorithm with running time O(nlogn) for the following problem:

Given a set P of n points, determine a value A > 0 such that the shear transformation (x,y) -> (x+Ay,y) does not change the order (in x direction) of points with unequal x-coordinates.

I am having a lot of difficulty even figuring out where to begin.

Any help with this would be greatly appreciated!

Thank you!

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See also… – mataap Nov 15 '11 at 3:20

I think y = 0.

When x = 0, A > 0
(x,y) -> (x+Ay,y)
      -> (0+(A*0),0) = (0,0)
When x = 1, A > 0
(x,y) -> (x+Ay,y)
      -> (1+(A*0),0) = (1,0)

with unequal x-coordinates, (2,0), (3,0), (4,0)... So, I think that the begin point may be (0,0), x=0.

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I think you're misinterpreting the problem - the idea is that you're given the (x, y) points and need to pick A. You don't begin with x's and A and then need to pick y. – templatetypedef Nov 15 '11 at 3:13

Suppose all x,y coordinates are positive numbers. (Without loss of generality, one can add offsets.) In time O(n log n), sort a list L of the points, primarily in ascending order by x coordinates and secondarily in ascending order by y coordinates. In time O(n), process point pairs (in L order) as follows. Let p, q be any two consecutive points in L, and let px, qx, py, qy denote their x and y coordinate values. From there you just need to consider several cases and it should be obvious what to do: If px=qx, do nothing. Else, if py<=qy, do nothing. Else (px>qx, py>qy) require that px + A*py < qx + A*qy, i.e. (px-qx)/(py-qy) > A.

So: Go through L in order, and find the largest A' that is satisfied for all point pairs where px>qx and py>qy. Then choose a value of A that's a little less than A', for example, A'/2. (Or, if the object of the problem is to find the largest such A, just report the A' value.)

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Ok, here's a rough stab at a method.

Sort the list of points by x order. (This gives the O(nlogn)--all the following steps are O(n).)

Generate a new list of dx_i = x_(i+1) - x_i, the differences between the x coordinates. As the x_i are ordered, all of these dx_i >= 0.

Now for some A, the transformed dx_i(A) will be x_(i+1) -x_i + A * ( y_(i+1) - y_i). There will be an order change if this is negative or zero (x_(i+1)(A) < x_i(A).

So for each dx_i, find the value of A that would make dx_i(A) zero, namely A_i = - (x_(i+1) - x_i)/(y_(i+1) - y_i). You now have a list of coefficients that would 'cause' an order swap between a consecutive (in x-order) pair of points. Watch for division by zero, but that's the case where two points have the same y, these points will not change order. Some of the A_i will be negative, discard these as you want A>0. (Negative A_i will also induce an order swap, so the A>0 requirement is a little arbitrary.)

Find the smallest A_i > 0 in the list. So any A with 0 < A < A_i(min) will be a shear that does not change the order of your points. Pick A_i(min) as that will bring two points to the same x, but not past each other.

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