I implemented GJK raycasting, as described in Gino's paper. While it works fine it has a limitation: it can calculate the time of impact only if the objects were not intersecting in the startup state (lambda == 0).
My question is how to handle this case?
It is pretty much possible, that at update step n the objects are "almost intersecting", as lambda == 1.000032 or so. However, at update step n + 1 numerical errors cause the startup state to actually penetrate (RK4 integration and friends).
Another case: what if I programmatically set the objects' positions so they intersect, and expect the physics engine to resolve it for me? It seems perfectly valid to me having a negative lambda (if it is known that the startup state is an intersection).
I had some ideas:
- use an epsilon value, so that 1.000032 is valid with lambda = 1 (this solves only the first case I mentioned)
- check for intersection in the startup state using the classic GJK and EPA algorithms, use discrete collision resolution (I don't really like this one)
- check for intersection in the startup state using the classic GJK, then modify the startup state so it no longer intersects (okay but how should I know the correct offset?)