folding or splitting strips

Comment

Comment by J. on June 2, 2010 at 3:36pm

Fascinating.. I would like to review your GH file to understand how you created it..

thanks in advance (e-mail. jthepen@hotmail.com)

Comment by Stigvg on April 8, 2010 at 11:28am

I start up dividing a surfaces into uv points, from which I make uv curves in one direction. The distance between these curves will have a variation relating to the variation of the width of the primary surface.
Between these lines I define a new curve which are the folding curve, which moves perpendicular to keep a constant distance between the uv curves and the new curve.
The perpendicular move is defined by the theorem(a² + b² = c²). I define a width between the curves(c), and I know the distance behind the two original lines (b/2), and then I can get c,,

Comment by j00k on April 7, 2010 at 6:16pm

did you meant using the theorem to generate the folding operation?

Comment by Stigvg on April 6, 2010 at 1:52pm

Thanks a lot,,guys
Its good old Pythagoras, which are doing the job, a² + b² = c², and then a lot of list manipulation to do the job.

Comment by j00k on April 6, 2010 at 2:08am

fantastic work! able to share or perhaps give a lead towards this def?

Comment by Odys on April 5, 2010 at 3:02am

Gorgeous!Fairly good work!

Comment by Joaquin Nopsa on April 4, 2010 at 5:30pm

well done!

Comment by Aaron Coffman on April 3, 2010 at 6:42am

yeah would you be able to share that with me as well; I'm curious to see what the process is. Thanks
acoffman3 AT gatech DOT edu

Comment by Yang Zhang on April 2, 2010 at 8:03am

Awesome!!!! Would you mind sharing the defination of this? my email address is zhangy02@gmail.com . Thanks a million!