curve B
B1--------------------------B0
You define distances:
|A0 B0|
|A0 B1|
|A1 B0|
|A1 B1|
And find the smallest one. Then, based on the number of the shortest distance:
Flip A, Leave B
Flip A, Flip B
Leave A, Leave B
Leave A, Flip B
A more advanced metric would be to create all 4 blends, then pick the one that is shortest. Maybe that works better for what you want, maybe not.
--
David Rutten
david@mcneel.com…
Added by David Rutten at 8:09am on February 11, 2014
g these times itself). If it works on selection alone, it would probably implement faster.
Theoretically, does this mean the total solving time of the definition is the 'chain of components' that takes the longest time? In the picture above, it would be the chain consisting 'point-curve-divideDistance'?
Because that still adds up only to 97%, I am assuming the Point and Slider component start solving in parallel, and the two Divide components also start solving in parallel?…
am doing the paneling tutorial from the first primer..pg 88. i baked it but while selecting the multiple geometries i cannot select individual ones, they are selected as surfaces..is that ok or .....?
Added by SHILPA PANDE at 6:25am on February 16, 2013
rence not set to an instance of an object. (line: 80)
Both .dlls appear to have been successfully imported.
Thanks in advance,
Charles
RStatSystem rs = ri as RStatSystem;
List<Line> slines = new List<Line>();
foreach(RStatBeam b0 in rs.Beams) { <------ line 80
if (b0.StiffnessMultiplier < 0.3) continue;
slines.Add(new Line(b0.P0.ToPoint3d(), b0.P1.ToPoint3d())); }
A = slines;
…