This is a question regarding forming a topographical tree in 3D. A bit of context: I have a physics engine where I have bodies and collision points and some constraints. This is not homework, but an experiment in a multi-threading.
I need to sort the bodies in a bottom-to-top fashion with groups of objects belonging to layers like in this document: See section on "shock-propagation" http://www2.imm.dtu.dk/visiondag/VD05/graphical/slides/kenny.pdf
the pseudocode he uses to describe how to iterate over the tree makes perfect sense:
shock-propagation(algorithm A) compute contact graph for each stack layer in bottom up order fixate bottom-most objects of layer apply algorithm A to layer un-fixate bottom-most objects of layer next layer
I already have algorithm A figured out (my impulse code). What would the pseudocode look like for tree/layer sorting (topo sort?) with a list of 3D points?
I.E., I don't know where to stop/begin the next "rung" or "branch". I guess I could just chunk it up by y position, but that seems clunky and error prone. Do I look into topographical sorting? I don't really know how to go about this in 3D. How would I get "edges" for a topo sort, if that's the way to do it?
Am I over thinking this and I just "connect the dots" by finding point p1 then the least distant next point p2 where p2.y > p1.y ? I see a problem here where p1 distance from p0 could be greater than p2 using pure distances, which would lead to a bad sort.