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.