In this grasshopper example file you can create a 3d pattenr on any surface. The pattern is related to the surface curvature. In this grasshopper example file You can use the Kangaroo2 plugin to model a relaxed mesh as a roof and convert it into a structure. In this Grasshopper example file You can use the Physarealm plugin to create a growing fractal-based pattern on a base surface.
In this grasshopper example file you can create a parametric vault by using the kangaroo2 plugin. In this grasshopper example file you can create a diamond paneling pattern. In this grasshopper example file You can model a Parametric facade inspired by the Street facade designed by Sanjay Puri Architects. In this Grasshopper example file You can use the native grasshopper components combined with the Pufferfish plugin to create a series of discrete lines. In this Grasshopper example file You can use the native Grasshopper components to model a sine wave shade structure.
In this grasshopper example file you can create a fattened mesh with random radius values and then trim it with a plane. In this grasshopper example file you can design a parametric polar roof and control the parameters.
In this Grasshopper example file you can use the Kangaroo2 plugin to model a differential growth pattern on a base surface. In this grasshopper example file you can model different tiling patterns by using a parametric arc-based shape. In this grasshopper definition you can create 3d triangular pattern which fill each others gap through reversing every other row.
In this grasshopper example file you can create a variety of Truchet tiles by rotating the base tiles clockwise, counter-clockwise or in a random sequence. In this Grasshopper example file You can use the Rabbit plugin to create a parametric table based on an L-system fractal.
In this grasshopper example file you use the dispatch combined with the Weave command to design a parametric facade. To do this I first create a square of x units, make a surface out of it and finally divide the surface to have my grid of points. The actual units do not matter as we will then be exporting to Adobe Illustrator and scaling our drawing to x pixels or whatever you want it to be.
Then we will use SimplexNoise component together with the Sine component to generate values that will become our amplitudes to move the points in the Y direction. We can see the actual numbers with the Panel component. We will then multiply these by a factor to control our frequency, compute the Sine of these values and then multiply by another factor to control our amplitude. Like so:. Finally, we will interpolate these moved points to generate our curves.
We have to make use of a Data Tree managing component called Flip Matrix. In simple words, what this does is change the orientation of how our grid of points is structured from vertical to horizontal. You can try interpolating the points directly without the Flip Matrix component and see how the resulting curves will connect points vertically rather than horizontally. Data Trees are a whole subject in GH, more on them here. The final definition should look like this and the result below:.
Baking means creating the geometry displayed by GH in green into actual geometry in the Rhino workspace. We do this by right-clicking on a component and choosing bake. In the dialog choose to save as Adobe Illustrator. That's it! You can now open your vectorial art inside Illustrator and scale it as you wish! Regarding origami simulation, the examples in the origami folder in the zip at the top of the page are the most up-to-date.
I get the same problem as Rebecca Rusinow with the shell and plate example. Was hoping it would be updated after your announcement but the problem remains. Think you'd have time to look into this? I am having the same issue and would love some help if possible. I'm trying to figure out a way to model objects using only equilateral triangles, with triangle edges touching no gaps.
Ideally I'd like to be able to manipulate the shape by moving vertices and having the entire surface adjust while maintaining equilateral triangles. The closest solutions I've come across are the equilateralize and shell and plate examples for Kangaroo images below , but I don't think the definition in the equilateralize demo will work because I don't always want 6 triangles around each vertex I want a range from 4 to 7. Also, the shapes I'm trying to model are much less spherical than the mesh in the demo, so I'm not sure if that method will work anyway.
I'm also posting an image of some physical models that show what I'm going for. Sign Up or Sign In. Added by Parametric House 0 Comments 0 Likes. Added by Parametric House 0 Comments 1 Like. Powered by. Badges Report an Issue Terms of Service.
Grasshopper algorithmic modeling for Rhino. Home Members Listings Ideas. Current Discussions Legacy Forum. If there is something else you'd like to see included please let me know The examples below are mostly older, but I will leave them here for now until I am certain all the same topics are adequately covered in the 'official' collection above.
The colours display how planar each quad of the mesh is. Comment You need to be a member of Kangaroo to add comments! Comment by Tri Leo Bayu on April 4, at pm hey guys, i wondering how this waterbomb origami can form a dome-like shape? Hey guys, I get the same error message for all of them. Thank you! Thanks for the example files. It was really a struggle in understanding Kangaroo.
But this s very resourceful. It would be great if somebody could post something or point me to where I could get them. Thank you.
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