@flawr no, it's well-known that matplotlib has a 2d renderer and complex (non-connected) surfaces get rendered bad, because two connected surfaces are either fully behind or fully in front of one another
of course it depends on what you're trying to ask exactly
I've got a few answers on main e.g. stackoverflow.com/questions/35099455/… but there's no general solution to the problem. If you can stitch your surfaces together it's OK, otherwise tough luck.
you'll probably want a PolyData for each polygon, and then create copies of that and rotate/translate with methods (we might be able to create the whole solid with a single call to glyph but that needs some thinking)
points should be shape (n*len_polygon, 3)-shaped, and faces should look like this: [len_polygon + 1] + list(range(0, len_polygon)) + [0] + [len_polygon + 1] + list(range(len_polygon, 2*len_polygon)) + [len_polygon] + ..., which you can fairly easily put together with numpy (flattening a 2d array). Then it's poly = pv.PolyData(points, faces); poly.plot()
To clarify, the faces array is a 1d array, where first you have an integer specifying the number of points in the given face, and then the zero-based point indices of the given face. Then the next one etc. Since all your faces have the same size, you can do this using a 2d array.
I realised we don't have Platonic solids when you first mentioned dodecahedra last night, and on the same day we talked about octahedra and tetrahedra in the python room
I have some weird issue with plotting polygonsin pyvista, some work great, some have some weird assymetries, even though in matplotlib they are perfectly symmetric. writing a minimal example right now to see what's going on
shouldn't it get like an index out of bounds or something like this? or is this one of those instances where they do pointer-arithmetic arrays and don't check for array length?
ok so the things arend connected anymore, but the issue with the non-convex (!= concave) shapes is still an issue, right?
You can even pass elephants as faces for now. VTK could check it but doesn't, and pyvista chooses not to check for now, I think, because it's expensive. We talked about adding some compiled code to do these expensive things, but at that point the maintainer said he doesn't want to add that level right now.