I am trying to find all the points with integer coordinates that lie inside of a tetrahedron (I want to somehow be able to loop through them). I know the coordinates of the four points (A, B, C, D) that define the tetrahedron.

What I'm currently doing is I find the bounding box of the tetrahedron (minimum and maximum x, y, z coordinates of A, B, C, D) and then do a loop through all of the points inside the bounding box. For every such point, I calculate the barycentric coordinates (using the equations from Wikipedia) and check if the point is inside the tetrahedron (if any of the barycentric coordinates is negative or bigger than 1, the point isn't inside).

Is there a better way to do this? Currently there is around 1/6 chance that the point I am testing (from the bounding box) really lies inside the tetrahedron, so I think I'm doing too many unnecessary computations.

I am working with a list of tetrahedra that I generated by triangulating a bigger volume (I am expanding the volume and want to interpolate the missing values using tetrahedral interpolation). I am not using any external libraries.