domain of 10, 12, 14, 18 and 20mm.Simply put, i can't seem to use the R / Domain correctly in the Random-component. Following the attached logic(which in this case is wrong) it places all of the circles in the specified domain in every single centerpoint.My goal is to place one circle per one centerpoint, defined by the specific domain of 10 12, 14, 18 and 20.Help! :)…
t case point 3 should be able to move from 20 to 33
so in other word
pt 3 depends on pt 2
the problem is if i only have sliders
pt2 could be 20
and pt 3 could be 20, that is higher than 33
so the loft loops in itself
gracias por tu ayuda
salu2
m…
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…
0;3} (N = 2)
{0;0;0;4} (N = 2)
{0;0;1;0} (N = 2)
{0;0;1;1} (N = 2)
{0;0;1;2} (N = 2)
{0;0;1;3} (N = 2)
{0;0;1;4} (N = 2)
Flattening this structure using the Flatten component would result in:
{0} (N = 20)
However, using a Path Mapper with the following masks will flatten is somewhat more intelligently:
{A;B;C;D} -> {A;B;C}
Now, you get:
{0;0;0} (N = 10)
{0;0;1} (N = 10)
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 3:19am on December 14, 2009
ample...
Range of number inside the geno pool:
10 to 20 and then find inside just: 10, 12, 14, 16, 18, 20.
I usually skip this problem using a list item that search inside a list of number but I could be nice if someone has a solution $:…