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Made It! Look at bottom of the post!!!

Smart people of the world...

I'm trying to draw this grid using Processing (java), but I'm having trouble figuring out the smartest way around this. I could basically just plot each point in the repeating section, but I'm sure there's a better way around it.


Any algorithm and language will do. I just need to see the concept.


Updated with an image of the logo. This basically shows how I need to ability to "know" what areas are neighbors, in order to create a generative shape from the grid:



The grid is called a "quasi periodic eight fold grid" by the designer.


Okay, that was harder than I thought. I've made a lot of progress, and you can find there code here:

I have the sub-divisioning working perfect for both shapes, however, when I start the recursion, something weird is going on. This is my output right now:


Any help is appreciated!

Edit 4

Okay, this is turning into an epic task. I've figured out that the problem arises when I the recursion becomes too deep. Either it's a problem with the rotation of the elements, or it's another thing I can't figure out. Anyway, here's the working sketch I have right now:


Edit 5

I made it! I had messed up the rotations of the cubes, which messed it all up. I changed it and it's working: There may be a little too much stuff in there, but it's totally working. Proof:

leve1 level2 level3

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And what is the particular name of this grid? How is it defined - what are it's characteristics? – orlp Sep 8 '12 at 19:58
@Blender: Processing is Java, but it's ported to JS. Either will work :-) – Ronze Sep 8 '12 at 20:04
@nightcracker: The only thing I know about the grid is that the designer called it a "quasi periodic eight fold grid". Does that help? Thanks everyone. I'm really intrigued by solving this. – Ronze Sep 8 '12 at 20:05
This may be related. – n.m. Sep 8 '12 at 20:44
@n.m.: That looks like a variation, yes. Although it has more centered "flowers" than this one. Here's another link:… – Ronze Sep 8 '12 at 20:56
up vote 3 down vote accepted

If this is indeed the Ammann-Beenker tiling @n.m. mentioned in his comment, then you'd most easily code this using the provided substitiution rules. Start with an arbitrary tile, and replace it with smaller tiles until you have a sufficient number of tiles for your purpose. Notice that the substitution rules apparently deal with oriented half squares.

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Im having trouble reading these substitution rules. What exactly are the first shapes that I'm drawing? Having trouble finding literature about this. – Ronze Sep 8 '12 at 22:44
@Ronze: You start with any tile, or combination of tiles. If you want the 8-fold symmetry, you may start with 8 rhombs arranged around a point. If you want it simple, take just one. Then you subdivide each tile according to the rules. You'll find a lot of literature about Penrose tilings, I'm sure. Those can be constructed using substitutions as well, so the concept is pretty much the same. – MvG Sep 8 '12 at 23:14
Ah, that makes sense! Awesome. I'll post results here in a few hours. – Ronze Sep 8 '12 at 23:38
Results posted. Still a few problems, but getting closer. – Ronze Sep 9 '12 at 5:27
Working! Check the post. Thanks for your help. Accepting your answer right now. – Ronze Sep 9 '12 at 6:09

I'm not sure there will be an easy way, I started looking for a repeated section but it is quasi-periodic, or almost repeating.

enter image description here

It's obviously symetric across the green lines, but the patterns marked in blue don't actually seem to show the pattern of what the grid would look like extended farther away from the center. I could be wrong though.

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