I put the basket arch addon discussed earlier to good use for a personal project, a H0 scale stone bridge to be used on my model train layout.
On my layout I wanted to have something different than the many stock models availabel from the big brands so I decided to design and print them myself. The actual printing will be done by Shapeways and currently I am working on finalizing the design of the model. The rough version is shown below:
It is already good to print (which I verified first with the 3D printing tools and then by uploading it to Shapeways) but it needs some tweaking, mainly in the form of randomizing the stones. Maybe I'll add some kind of ornament to the cap stone.
Chaos mosaic with OSL
Chaos mosaic is a technique tht can be used to reduce the repetative appearance of tilebale images. An example is shown below. The upper right plane shows visible repetition artifacts that are not apparent in the lower left plane.
(I used a 700x700 tileable texture from CGtextures.com (Gravel0170_3_S.jpg) repeated four times in each direction on the upper right plane, and the same image with the chaosmosaic shader on the lower left plane)
(I used a 700x700 tileable texture from CGtextures.com (Gravel0170_3_S.jpg) repeated four times in each direction on the upper right plane, and the same image with the chaosmosaic shader on the lower left plane)
Shader code
The shader code to implement this is very short:shader chaosmosaic( point Pos=P, string Image="", int M=10, output color Color=0 ){ float x,y; x=mod(Pos[0],1); y=mod(Pos[1],1); float xi=floor(x*M); float yi=floor(y*M); // mapping here float xp=noise("cell",Pos,xi*M+yi); float yp=noise("cell",Pos,xi*M+yi+M*M); float xoffset = mod(mod(x,1.0/M)+xp,1); float yoffset = mod(mod(y,1.0/M)+yp,1); Color = texture(Image,xoffset,yoffset); }In the code above M is the number of squares in each direction in our uv map. We use it to calculate two indices (xi, and yi) that are subsequently used pick a random position in the texture (xp,yp). The pixel from the texture is then selected according to the relative offset in the small square inside the uv map (xoffset, yoffset). The original algorithm also uses a blending function between adjacent tiles form the textures but that will blur the image. In this case we didn't implement that because from far enough away the small tile edges aren't noticable but the large scale repetion has gone away so with very little code we already have a better result.
Example node setup
The node setup used for the example image (the plane on the lower left) looks like this:reference
- http://en.wikipedia.org/wiki/Texture_synthesis#Chaos_mosaic
- http://research.microsoft.com/apps/pubs/?id=69770 (the research paper)
If you would like to know more about programming OSL you might be interested in my book "Open Shading Language for Blender". More on the availability of this book and a sample can be found on this page.
Labels:
Blender,
chaos mapping,
open shading language,
osl,
shader
[Non Blender] Python 3 Web Development Beginner's Guide for free
Guess what, Packt will include my Python 3 Web development book in their Xmas countdown of free gifts on December 17th!
Free e-books at Packt
Packt (the publisher of my books on blender scripting and python web development) is giving away free e-books for Christmas.
I was a bit late in noticing it but so far they have given away some pretty interesting titles so it might be a good idea to check it out for more to come...
I was a bit late in noticing it but so far they have given away some pretty interesting titles so it might be a good idea to check it out for more to come...
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