Is it like this:
If a beam is connected from nod 0 to 1 and from 1 to 4. Another from 2 to 3 and from 3 to 5.
Node 1 and 3 have the same coordinates, but are they rigidly connected or not?
per components.
I have attached a 3dm file and a picture so you guys can see what I am talking about.
I have previously translated boxes into breps, which i did with this code:
Dim bbx As New box(pl, New interval(-.5, .5), New interval(-.5, .5), New interval(-.5, .5)) Dim ms As New Mesh() ms.Vertices.AddVertices(bbx.GetCorners) ms.Faces.AddFace(0, 1, 2, 3) ms.Faces.AddFace(0, 1, 5, 4) ms.Faces.AddFace(1, 2, 6, 5) ms.Faces.AddFace(2, 3, 7, 6) ms.Faces.AddFace(3, 0, 4, 7) ms.faces.addface(4, 5, 6, 7) ms.Normals.ComputeNormals()
ms.Compact()
I have tried to do something similar with this specific example, and I now that meshes only consist of quads or triangles, so i broke down the geometry into quads without any succes.
Looking foreward to any suggestions.
- Jens…
that list to 1 and -1: 1,1,1,1,-1,-1,-1,-1,1,1,1,1...
Do definitely look more closely at lists, treas, cull, weave, etc. though. They are the solutions to 65% of GH problems.…
} (N=11) {0;1} (N=11) {0;2}(N = 11) {0;3}(N = 11) {0;4}(N = 11)
2. I run the Points that are coming out from the Divide Curve Components through the Path Mapper components with this definition:
{A;B} (i) > {A} (i)
3. I run data coming out from Path Mapper component through:
a) Parameter Viewer component and the result is:
{0} N=11 (data with 1 branches)
b) Point > Panel and the result is:
collection of 11 point (N=11) which is the exactly the same as the collection of point belonging to {0;4} (N = 11).
So, here is the question:
why the collection of points coming out from the Path Mapper {A;B} (i) > {A} (i) component is the same as the collection of points belonging to the curve {0;4}(N = 11) ?
Anyway ... It 's the first time I ask a question here... so I would like to thank you for what you do with your work! Thank you! You are really great!…
in the desired order.
0 = 0
1 = 1
2 = 6
3 = 7
4 = 8
5 = 9
6 = 12
7 = 13
8 = 2
9 = 3
10 = 4
11 = 5
12 = 10
13 = 11
Where the first number is the index and the second number is the actual sorting key. Then you sort these keys while sorting your curves in parallel using the A input of the Sort component.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
elementary; you can see how I picked out 2 of the pentagon's sides individually. This is by far not the best way to do this.
The proper way is to use a an index pattern to pick out sides 1 & 2, 2 & 3, 3 & 4, 4 & 5, and 5 & 1, and then pass these pairs to the fillet routine. There is a way to do this but I couldn't remember the method. …
ve a Vertex [V] connected to four other Vertexs [N1-N4].
Each of the has a Value:
V ... 1
N1 ... 5
N2 ... 3
N3 ... 8
N4 ... 11
The Average Filter would set the Value of [V] to
(1+5+3+8+11)/5 = 5,6
The Median Filter would Sort Values and pick the middle one
1,3, [5], 8, 11
Hope that helped...…