m boundary for a much more fine-grained voronoi. So it may be similar to the 2D voronoi groups, but not really.
I managed to create the points within the geometry, and build a fine-grained voronoi diagram, but could not cut it down using SDiff.
Now I have a few questions:
1. Is there a better method to create the points? Because first generating thousands points in a bounding box and then throwing away 90% of them is quite time consuming and doesn't seem to be an elegant way.
2. Is there a good method to convert a mesh into a brep? Then I could use SDiff to get me a result (but I'm still not sure if that is exactly what I want)
3. Is there overall a better/smarter approach to the problem?
Thank you very much for your help :)
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late the angles between each.
My script so far isThe error occurs in line 90+91 I dont know why this is happening they should all be vectors since they are stored in a Vector3d list.
So if anybody could enlighten would be really appreciated.
Thanks and nice monday!…
divides itself in 3.
Parameters: Length and Angle (the middle one is fixed, the other two vary in angle).
Goal: The circles need to be tangent at all times. So if you reduce the radius, the angle would close in order to bring the circles close together, till they are tangent.
When you increase the radius, the angle opens, up to a maximum of 90 degrees. From this point onward, the only parameter that can make the circles still be tangent is the length of the lines, which should increase in order to keep the circles tangent.
Thanks for any help
Shynn
…
13;2} ... 20.{13;12}
21. {21;0}22. {21;1}23. {21;2} ... 41. {21;20}
42. {34;0}43. {34;1}44. {34;2} ... 75. {34;33}
76. {55;0}77. {55;1} ... ....
I want to grab the first 8 [0-7], the next 13[8-20], the next 21[21-42] etc
so i have the (known fibonacci seq) list of numbers on the left here:
C S
8 0
13 8
21 21
34 42
55 76
89 131
144 220
233 364
and i need the list on the right, so that i can select items using a Series (N=1 and S and C from the list above) and a List Item component.
the simple question is:
is there a component that can take a list and accumulate it in this way that I need?
if not, is there anyone that can point me to a simple relevant VB example so i could easily adapt it?
many thanks,
gotjosh…
correct:
- the right value in the 0. path {0;77} is the smallest one.
- right value in the 1. path {0;78} is the value which is closest to the chosen value in the preceding path
- ..and so on for {0;79} and {0;80}
but when the paths change their first level, the iteration should start from the beginning:
- right value in the 4. path {1;32} is the smallest one.
- right value in the 5. path {1;33} is the closest to the chosen one in {1;32}.
- right value in the 5. path {1;34} is the closest to the chosen one in {1;33}.
..to be continued.
..this is, what I want to achive in the VB code, I implemented at the beginning of the discussion.
..and this is how I designed the input-parameter of the VB-element:
if someone could help me .. super-great!
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Mac due to its versatility , but given this new laptop will be using mainly on Rhino, GH , i have some doubts whether to switch to a window based laptop.
I have a look at some high-end window laptops, Dell Alienware for example, with same specs as MBP and found the price are even more expensive than MBP , about 10-15 %.
With the new Rhino 5 is coming , will Bootcamp be good and efficient enough to run Rhino, GH and some rendering programs?
From my experience i find Rhino and Gh run smoothly on Bootcamp , but never run those programs on window based laptop myself , it's impossible for me to know the differences.
Some say BootCamp only deliver 80% performance of the program , if it's true i would really consider switching to window based laptop.
Any suggestions?
and if you suggest me to switch , what brand should i go for ?
Thank you,
…
ion into the world of Parametric Design using these two sofwares. Grasshopper is a graphical program language through which one can model complex geometric forms. It builds generative algorithms were outputs to these forms are tied to the inputs of subsequent components. Rhino is an advanced NURBS modeler through which one does precision modelling, project workflow and organization. Grasshopper utilizes Rhino 3-D as a modeling platform to develop parametrically controlled models with real time geometric manipulation. These two programs are a powerful combination where Grasshopper parametrically defines the model logics to explore variations and optimized solutions while Rhino models and visualizes it. These two programs are essential for architects, designers, engineers, professionals, and students interested in exploring professionally the world of parametric design."This workshop will be held in Amman/Jordan between the 15th and 22nd of January 2016 from 5pm to 10pm …
his on the programming forum I'm guessing you're looking for a VB or C# approach to this?
Here are two algorithms (pseudo code, very similar) which will simulate a droplet of water on a surface (ignoring momentum, surface tension, surface angle, collisions with other drops etc.)
Algorithm one, easy implementation, slows down on horizontalish areas:
1) Pick a point somewhere on the surface. How you get to this level is your problem.
2) Lower the point by a certain fixed amount along the z-axis. Say, 0.1 units.
3) Project the lowered point back onto the BRep using a ClosestPoint function.
4) If the newly projected point is very similar to the input point, abort, otherwise, repeat step 2.
Algorithm two, more difficult, better control over step size:
1) Pick a point somewhere on the surface. How you get to this level is your problem.
2) Find the normal vector at this point.
3) If the normal vector is (nearly) straight up, abort.
4) Find the CrossProduct between the normal vector and the straight-up vector.
5) Rotate the normal vector 90 degrees around this cross-product.
6) Scale the rotated vector so it becomes the length of your sampling accuracy.
7) Move the point along the vector and pull it back onto the surface (should be a short distance if your step-size is small)
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 12:20pm on November 23, 2009
google's data (please correct if I'm wrong):
"SRTM1 data is sampled at one arcsecond (about 30 meters) and SRTM3 data is sampled at three arcseconds (about 90 meters). The higher resolution SRTM1 data is available for most of the US and the lower res SRTM3 data is available for most of the world."
The 3x3 stitching definition above is done in Rhino 4 but it doesn't actually "stitch together" or merge the surfaces into one. I had to do it manually in Rhino with the merge surfaces command. Which I think does a better job than grasshopper.
Also I think the calculations within it (distance of one degree change in lat/lng) won't be accurate enough (or high enough in resolution) even though they are correct so I cannot guarantee the 3x3 pieces are perfectly neighbouring sets of data (they might contain very very tiny strips of overlapped/missed topography data). However this error is really insignificant next to the limited resolution of the generated topography so it is neglectable if you're not a perfectionist like me.
Edit: For bigger areas Elk is much easier, but for smaller areas where you want to specify the area size Xiaoming's component is more convenient I think.…