s 8, 4, 2, 10, 1, 3, 8, 4, 2, 0. But then for the end result to maintain all numbers above 5 but replace all numbers below with a defined number..Let's say zero. So then the list would read...8, 0, 0, 10, 0, 0, 8, 0, 0.…
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…
lues. What I want to do is combine them so that the structure would be something like:
{4;0}
{4;1}
{4;2}
{4;3}
{5;0}
{5;1}
{5;2}
{5;3}
I tried the method here, but it didn't give me what I wanted, it was just tacking the new values onto the end, and not maintaining their paths. Any help would be appreciated. Thanks!…
Added by Dennis Goff at 8:13am on February 10, 2016
TREE B
{0} n=1 {0;1} n=4
{1} n=1 {0;4} n=4
{2} n=1 {1;1} n=4
{1;2} n=4
{1;3} n=4
{1;4} n=4
{2;1} n=2
{2;2} n=4
{2;3} n=4
{2;4} n=4
Both trees are generated from sliders, so could have any number of branches, although they are tied together. Tree A is a set of division points on a line, Tree B is a set of intersections from lines generated radially from the first (in this case three) points. I am trying to perform a "closest point" operation between the first tree and the second tree-- only, I do not want them to cross list, or long or short list. I want the {0} point to operate with those entries in the 2nd tree that start with {0,x}. So it would look like
{0} --> closest point with {0;1},{0;4}
{1} --> closest point with {1;1},{1,2},{1,3},{1,4} etc
I cannot figure out how this works. What I am visually trying to do is cast rays from a string of points so that they stop when they encounter another curve. I am having trouble picking through the intersection events to get what I want. Check the attached files for some clarity. THANK YOU…
Added by Joshua Jordan at 12:06am on February 5, 2012
(10^(-62)≤n) and (n>10^(-14))
Shouldn't this become :
10^(-4)≤n
(10^(-9)≤n) and (n<10^(-4))
(10^(-14)≤n) and (n<10^(-9))
(10^(-62)≤n) and (n<10^(-14))
…