seems I have to deal with the intersections myself :/

@flawr this looks like a matlab accident

its python, sorry

matlab wouldn't accident this

well well I think it may still be acceptable, MATLAB accident is a misnomer, the best description is sceince plotting accindets

those plots are really fun anyway XD :D

it's not even science, it is just making decorative arts and crafts!

hahaha

@flawr oh yeah, matplotlib can't do that :>

If you show the code I might be able to fix it later

@AndrasDeak this is proprietary code and I have some NDAs

do you know might matplotlib.org/stable/api/_as_gen/… work instead?

as far as I understand Poly3DCollection only colours in the projected (2d) polygon, and cannot take depthi nformation into account

sorry, I meant to send this one: matplotlib.org/stable/tutorials/toolkits/…

@flawr ah

@flawr no, hold on

I'm about to write a SO question about this, in case you'd like to reap some sweet internet points:)

@flawr click the first figure at riptutorial.com/matplotlib/topic/1880/three-dimensional-plots for a gif

@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

ah I see, thanks!

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.

yep the decomposition is a problem here. I guess I need to write my own renderer.

(I wrote a q here)

just use a proper 3d data visualization library

matplotlib is not the right tool here

actually since my polygons are simply connected, I could apply ricci flow to the boundary curve and segment the polygon that way.

But that's a tad bit overkill

or maybe mean curvature

ah no, these don't work

@AndrasDeak do you have any recommendation?

yup gist.github.com/adeak/bd52795e21b06e47e32afaf64bc602f1 stackoverflow.com/…

pyvista is based on vtk which is a huge-ass data visualization library written in C++ with crappy python bindings

vtk is cursed

ok that looks nice, thanks!

is the output interactive? (rotatable?)

yup

The plotter.enable_terrain_style() makes it behave like matplotlib, with z pointing up. The default interaction allows you to rotate the world freely.

for the default I recommend plotter.show_axes() which gives you small x/y/z arrows in the corner

thanks, I'll try that then! I have some other business to do right now but maybe I'll continue in the evening:)

do let me know if you need any help

when I asked for the code I meant to port it to pyvista for you

there are a shitton of examples and usually good documentation docs.pyvista.org/examples/index.html

@AndrasDeak I'm not sure yet if the logic makes sense, so I don't want to give you code with that level of crappyness:)

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)

@flawr sure thing

ah I basically have all the rotations etc already computed, I really just need to plot the polygons given the 3d coordinates of the vertices

OK, you can do that with a single PolyData

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.

first column is all len_polygon + 1

> PyVista is “VTK for humans”

See also stackoverflow.com/questions/56401123/…

so I wrote the code but need to wait for the package to finish installing

vtk has wheels unless you have something weird like 32-bit python on windows

(and vtk is the real bottleneck)

My first message here in this chat.

Hi, folks

hi!

@AndrasDeak my poor little computer, this is taking forever :|

oh it was a permission problem and it just got stuck instead of yelling at me

Sounds weird

windowsTM

\o/

now on to the weird stuff

@AndrasDeak thansk for all the tips, turns out they help if I read them correctly instead of skipping half of them:P

Weird :P

any time now: i.stack.imgur.com/Sqgw7.png

that looks correct to me

right nwo everything goes through the origin, so some offset is missing

well, the 5-fold part is not obvious

yeah, then that's why it's off

d'oh

x+y doesn't add y to x, we also need some assignment

no way :)

I think x.merge(y, inplace=True) might work

but x += y is probably more readable (althogh it's probably subtly different... I'd have to check)

@flawr this one's for you github.com/pyvista/pyvista/pull/1692

> 17 seconds ago

ah yes, the famous platonic teapot

ah yuo submited a PR :D

wunderbar!

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

OK. Perhaps your points are in the wrong order, either that or the faces array is mixed up

Are you defining the faces using a 2d array as I suggested?

I'd do arange -> reshape to 2d -> append the first column as last column -> prepend a constant first column with polygon sizes

I'm first building lists and then converting them to a nupmy array, but everything should work just as well

but I have problems with already one polygon:

pastebin.com/NbfaCSW9

suspicious

do you also get that weird unsymmetric star shape in pyvista?

hold on, I need to look at it closely

on a positive note: gay marriage just passed in CH!

(but we don't raise taxes for the wealthy)

@flawr awesome!

it'll soon be a crime punishable by stoning here, but I'm real happy for you guys

I was afraid it wouldn't pass but it got a way more positive result than I expected (64% yes)

@AndrasDeak daamn

@flawr hmm, not sure what's going on there, I'll have to play with this to find it

surf.plot(show_edges=True) shows that the lines are there, but there's spurious filling

I'd expect that the issue is that you didn't close your faces, but that doesn't seem to help either

faces.append(vert_count + 1)
faces.extend(list(range(vert_count)))
faces.append(faces[1])

another thing I said and you didn't read properly ;)

you don't need list(range()) to extend, by the way, just range()

this might actually be a bug because if I define the face to be a line with surf = pv.PolyData(vertices, lines=faces) then I see the nice line

concave polygons might be fucky somehow

ah closing helped!

it did?

@AndrasDeak I told you! :P

but only for the case of one polygon

What do you mean by that exactly?

if I have multiple polygons then they get connected

you need to close all of them :P

+1 because they are each closed

yep I do that now

I'm surprised it works, though

I mean it should, but it doesn't work for me

oh well

what the heck now it doesn't work anymore

maybe just a fluke?

@AndrasDeak but even for convex polygons, you can't draw multiple: pastebin.com/P29sgUUx

"two pentagons"

not sure what you mean, let me see

@flawr did you skip point 5 on purpose?

you have index 10 in there for 10 points... we should really raise when this happens

(unfortunately it would be really computationally expensive to check those values for large meshes)

ooh that damn accumulator

yes

you can even segfault if you mess up indices like that

vtk doesn't fuck around :P

surf.clean() would get rid of your 10 index

(it can't guess the missing vertex of course)

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.

@flawr probably. I think you should take a look at github.com/pyvista/pyvista-support/issues for old support issues, and github.com/pyvista/pyvista/issues for regular issues, and github.com/pyvista/pyvista/discussions for new support issues. If this hasn't come up yet, open a bug report on the main repo.

I recommend comparing the lines=... plot and the faces=... plot, because that easily demonstrates that the order of points is correct.

It's likely the conclusion will be "VTK is buggy", but I can't tell for sure

ok, that's basically what I tried to verify with matplotlib

OK, hey, surf.triangulate() will fix this

just a workaround I think

(with inplace=False if you don't want to reassign it)

ah much better

funky

is that with lines=faces?

no, that's with plot(show_edges=True)

if you pass lines=... you'll get... a line only, not a face

this is the result of the triangulation, with internal edges visualised

since triangles are usually convex (:P) it plots fine

citation_needed

might still be worth an issue, I don't know if this is a known bug or not

@AndrasDeak check here

you can define cell scalars to give them colour if you want

(or point scalars, but that seems less straightforward here)

@AndrasDeak I tried that but didn't get it to work, maybe because of the triangulation?

add the scalars before triangulation

if show_mpl := False:

EW EW EW

something something self documenting code something something

you're lucky I removed the sum() to concatenate lists

yeah

although if Python allows it that easily then it's fine

@flawr cell scalars work just fine

    surf = pv.PolyData(vertices, faces)
    surf.cell_data['face index'] = np.arange(surf.n_cells)
    surf = surf.triangulate()
    surf.plot(categories=True) #show_edges=True)