t / int, or \ in Vb.Net).
- there's no need to graft or do anything with trees in the script above: it already handles all the shift logic internally. The letters give you a hint as to which part you are getting: E (even cells), O (odd cells), T (top triangles), etc. Try to draw the diagonals on paper to see which ones share a similarity, that's also what I did to write the script. It is rather repetitive and would need some pages to explain line by line.
Finally, I'm attaching a full and simple example showing how to use the script with normals. Please post your definition if you are encountering any other problem. The normals are all on the right side I hope (see pic).
Hope this helps,
Giulio…
That is correct. In reality there are 3 major versions of .NET 1, 2, and 4 (different versions of mscorlib.dll)
Rhino 4 uses .NET 2 which includes 3 and 3.5.
Rhino 5 uses .NET 4
branches in each A's list of B's, or remove its ends etcso that if I want to remove the last B in every A{0;1},{0;2},{0;3},{0;4},{0;5},{0;6}{1;1},{1;2},{1;3},{1;4}{2;1},{2;2},{2;3},{2;4},{2;5}would become{0;1},{0;2},{0;3},{0;4},{0;5}
{1;1},{1;2},{1;3}
{2;1},{2;2},{2;3},{2;4}I guess the question is do I need to figure out the cull pattern- each B may have different lengths...…
I have this :
list 3 : 0 1 2 3 4 5 6
list 2 : 0 1 2 3 4 5 6
list 1 : 0 1 2 3 4 5 6
list 0 : 0 1 2 3 4 5 6
and I want to group the points of index 0 in a branch, the points of index 1 in another branch and so on.
I attached a file in which I generated the points.
Thank you in advance for your help !
Regards
Red…