My goal is to find the unsigned area of a 3d planar polygon with n-many vertices given the unordered vertices of the polygon as well as the equation for the plane. I already have an efficient algorithm to calculate the area once the points are sorted into clockwise or counter-clockwise order (from this site: http://softsurfer.com/Archive/algorithm_0101/algorithm_0101.htm#3D%20Polygons)
I've decided to implement Graham's scan to reorder the points, there are many examples for the 2d case but not many for the 3d. I think my best options are either to use a transformation matrix to convert the 3d points to 2d (i am unsure how to do this) or to do it in 3d using the cross product in determining whether 3 points form a counter-clockwise turn. I think the second one would be more efficent since I would be able to sum the areas found for each cross product and compute the final answer as I reorder the points.
However I'm still a little unsure how to implement Graham's scan in 3d. also, can i use the fact that I already know the set of vetices are co-planar and that they all must be included in the convex hull to my advantage?
EDIT: on further consideration, do i even need to use Graham's scan here? I already know that all the points are included in the hull, so wouldnt sorting them by angle suffice? The end goal is to have the points in counter-clockwise/clockwise order so that the area can be computed, I just thought the scan would be nessecary to accomplish that