Given an arbitrary 3D mesh, I'm looking for an algorithm that would perform hidden-line removal in real-time. I'm working in the context of OpenGL, which means that we can take advantage of the Z-Buffer.

I guess that the algorithm should include a solution to the two following problems:

1) Defining which are the "hard-edges" for later-on drawing them using regular OpenGL lines. These "hard-edges" should correspond to edges where the angle between the 2 corresponding faces is above some threshold.

For the sake of simplicity, let's state that it is guaranteed that no more than 2 faces are defined per edge.

The calculation of the "hard-edges" should take place once per mesh, i.e. it is not related to the view-point.

2) Defining the outline of the mesh's silhouette, according to the current view-point. Eventually, this part could be done using classical OpenGL techniques (involving polygon-offset or the stencil-buffer), but it would be preferable to draw the silhouette using regular OpenGL lines, to keep an unified look & feel for all the lines.

For that part, I'm not sure if the vertices of the silhouette should all pass through mesh vertices or not. In any case, for meshes like cubes _ where there is no need for a silhouette (since it is enough to draw only the "hard-edges") _ the algorithm should be smart enough to avoid drawing a "similar line" twice...