algorithmic modeling for Rhino
Hi everyone,
I've recently started adding code to Plankton to compute the discrete mean and Gaussian curvature of meshes based on this paper, and was going to proceed adding the methods for computing the minimum and maximum curvature.
Before I continue I wanted to know if anyone has done this already. It doesn't make any sense to reinvent the wheel every time..
Cheers,
r
Tags:
Hey Riccardo, nice work!
I thought I'd share some old code from a couple of years ago when I implemented "Taubin Tensors" for finding the principal curvature directions at each vertex of a mesh. It's Java unfortunately, but you'll find a link to the paper I referenced and my interpretation of the maths, so maybe this will help. No harm if it doesn't!
https://gist.github.com/pearswj/47989838b695b2553623#file-vertex-ja...
Hi Will,
thanks for sharing your code, it seems you've already done most of the work yourself. Is there any particular reason why this is not part of Plankton yet? I'd be glad to share my code, but I don't know whether it makes sense to push to Github what I've written so far.
Terrific work Riccardo! There's also Mirco Becker's script. It operates on RhinoCommon meshes though, but it might help I imagine. It calculates the principal curvature directions using a rather elegant/terse method. I haven't tested it out too deeply, but we did give it a quick whirl for the AA Visiting School up Aarhus and it seems pretty legit.
Hey Anders! Thanks for pointing me to Mirco Becker's script. I like his method, the implementation is really simple and straightforward. But I've checked the results on the mesh above, and although the curvature distribution looks correct the curvature values seem to be pretty off. I think I'll push my code on Github and see what the bosses have to say :)
Hi Riccardo, sounds great.
MeshMachine has a bit of code for calculating the cotan weighted mean curvature normal, based on that same paper. see here.
It would make a lot of sense though to integrate this into Plankton itself though, and Gaussian curvature as well would be nice.
Hi Daniel,
great, I didn't know MeshMachine already had some of the code implemented. I'll integrate my code with what you and Will have done so far and push it to Github once it's ready then.
Hi everyone,
I've finally added the code for the computation of the principal directions. I've tried to push the changes to the Plankton repository but I'm getting an error which seems to be linked to permission limitations (Response status code does not indicate success: 403 (Forbidden)). Could that be the case? I'm pretty new to GitHub, so I might as well be doing something wrong.. Any help or hint much appreciated.
r
Hi Riccardo,
Sounds great! This will be a really nice addition.
Did you try and submit a pull request?
Are you using the GitHub desktop app or something else?
Hi Daniel,
I'm using the GitHub tools for Visual Studio. When I try to publish the branch I get the aforementioned error. If it's not related to permission restrictions I might be doing something wrong then..
OK, I believe I've managed to successfully pull a request. If anything is wrong or missing please let me know. r
Welcome to
Grasshopper
Added by Parametric House 0 Comments 0 Likes
Added by Parametric House 0 Comments 0 Likes
Added by Parametric House 0 Comments 0 Likes
Added by Parametric House 0 Comments 0 Likes
© 2024 Created by Scott Davidson. Powered by