ar to be that fast. Working on a smaller data set (9 X 9), it slows down noticeably by the ~20th iteration or so and freezes GH/Rhino completely for quite awhile until it finishes. Seems far slower than my 'suLoop' cluster on the same data, using Anemone 'Fast Loop'. Harder to benchmark though because the profiler shows the time for each iteration of your loop (847ms for the last one) instead of timing the complete loop.
My only other comment for now is that the idea I demonstrated of doing a 6 X 6 loop (for example), then making 36 copies of the result and running them through a second loop... uses only a total of 72 'SUnion' operations instead of 1,296. That's a major reduction, even though the unions in the second loop are more complex than in the first loop. Would need to try different combinations to see what works fastest. Like 10 X 10 followed by 2 X 5 (1000 total), for example, vs. 2 X 5 followed by 10 X 10.…
a follow up question... how do I wrap a list onto itself at a certain frequency?
i.e. I want the list {1;2;3;4;5;6;7;8;9}
to become {1,4,7; 2,6,8; 3,6,9} wrapped every 3rd item
Added by Joshua Jordan at 5:30pm on November 17, 2012
Hi,
I want to divide curve with distance between points so it will be like this:
1--2---3----4-----5------6-------7-----, ...
with values in range 1 to 50, must be simple but im stuck..
tnx
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nch, xno items in one list)2 divide the list lenght value by the numer of items per branch needed3A generate a list with the series component: the step equal to the target numer of items per branch; the no of items equals the number of target branches
3B generate a list with the series component: the first number of the series equals to the number of items needed (-1 to account for the 0 index); the step size again equal to the target number of itmes per branch as 3A4 feed 3A & 3B to a domain component thus identifying the start -3A- and end -3B- of the domains by which the list will be subdivided5 use a subset component with the domains above thus creating 19 branches with lists having 5 items eachfor lists which are subdivided into branches when the target number of branches is not a multiple of the number of items contained in the list:6 identify if the target number of branches is a multiple of the list by using the modulus component fed by the list lenght -1- and the target number of branches7 identify last index in the 3B series with the item component (reversed to take the last value fed)8 add 6+7 above which dill define the start of the domain that will pick up the remanent items not accommodated in 59 add (+1) to 7 above to define the end of the domain that will pick up the the remanent items not accommodated in 510 feed 8 & 9 to a domain component11 include 10 as part of the subset in 5I'm now trying to understand the components mentioned by Michael...
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ot want to implement rhino 6 wip meshes in grasshopper, so that you could open grasshopper definition on rhino 6 from rhino 5 and vice versa. But this results in issues that it is impossible internalize mesh with ngons. However they are very useful for adjacency and etc.…