ndex of the list you want to draw from for that index number.
4. graft the new list of integers
5. use the list item component, with the merged grafted lists into L, and the new list of integers into i.
6. flatten the resulting list.
Example:
list A: list B: list C:
100 200 300
101 201 301
102 202 302
103 203 303
104 204 304
Integer List:
0
0
2
1
2
list item component returns:
100
101
302
203
304
I hope this is clear enough - and close enough to what you were trying to do.
Andrew…
simplified in the bake name attribute and on the bake object component. I was counting on maintaining that structure.
{0;4}
{0;4}
{1;2}
{1;2}
Easily fixed with an additional attribute. Just curious on the behavior. Thanks.
…
Added by japhy to EleFront at 3:18pm on October 9, 2017
up, 6 in the sixth group through the 31st group, 4 in the 32nd group, 2 in the 33rd group.
Side note to David... Since data matching is such a key aspect as definitions become more sophisticated it seems like there should be a much, more comprehensive and intuitive methods to manipulate tree structures. …
Added by Stan Carroll at 12:43pm on April 14, 2011
That is correct. In reality there are 3 major versions of .NET 1, 2, and 4 (different versions of mscorlib.dll)
Rhino 4 uses .NET 2 which includes 3 and 3.5.
Rhino 5 uses .NET 4
dimension of matrices must be identical) and division is the same as multiplication (dimension must be in the order of A(mxn)*\/B(nxk) where n is the common dimension): to divide one element by another you just multiply it by 1/value (part or all of the elements can multiply while part or all of the elements divide):
so for example matrix addition of matrices A(2x2): {2,-1}{1,2} and B(2,2): {3,-5}{4,-2} will result in matrix C(2x2):{5,-6}{5,0}. subtraction of those matrices will result in D(2x2): {-1,4}{-3,4}
Division of matrices A(2x2): {2,0.5}{2,4} and B(2x1) :{2}{2} will result in matrix C(2x1): {1+0.25}{1+2}={1.25,3}. Multiplication of those matrices will result in D(2x1):{4+1}{4+8}={5,12}.…
i mean, i want a slider that can do 3 sides, 4 sides, 5, 6, 7, 8, 9 and 10. for the grids because I dont want to use a fixed grid shape such as square grid (4 sides only).