Loft Point Attractor
In this grasshopper definition by using an attractor point we will model a parametric twisting surface and then use Lunchbox or Pufferfish or Weaverbird to model a series of patterns on this base surface.
In this grasshopper definition by using an attractor point we will model a parametric twisting surface and then use Lunchbox or Pufferfish or Weaverbird to model a series of patterns on this base surface.
In this grasshopper definition by using a surface which is created from Loft and a single variable function which is controlled by Graph Mapper, you can generate a pattern that surrounded the surface thorough the function.
In this grasshopper definition you can learn how aggregation method works by creating a loop with the Anemone plugin. In each iteration, the faces of the meshes will generate a new face.
In this grasshopper definition you can use the point attractor technique combined with Heteroptera plugin to model a wavy like surface.
In this grasshopper definition we have modeled two series of 3d patterns based on a square grid which can be controlled parametrically.
In this grasshopper definition you can model a parametric form by cutting a series of curves with a plane and then joining them with the mirrored result.
In this grasshopper example file, you can model a a parametric shape by defining a series of circles with a Perlin noise function controlling the radiuses. At the end we will use the Dendro Plugin to voxelize the final shape.
In this definition we have used agent based modeling to simulate growth of the agents and reaching the food source by using the Physarealm plugin.
In this grasshopper definition a 2d pattern panel is created using the diamond panels of the Lunch box plug-in and different variants of the diamond panel is created using basic components to control thickness and shape.
In this grasshopper definition we have used the Rabbit Plugin to produce a parametric L-System by defining rules and number of agents (Turtles). The Starting position has been found on a sphere
In this grasshopper definition you can use the Jellum force (a force which affects a grid of points) and change the strength and position to produce a deformed 3d grid and finally voxelize the curves and points to produce a 3d parametric form.
In this grasshopper definition you can use a 3d point cloud to voxelize the final parametric form by using the Dendro plugin.
In this grasshopper definition by generating a truncated cubic grid you can give volume to it by using Dendro’s plugin voxel method. We have also used the Parakeet plugin to change the form.
In this grasshopper definition you can create a simple simulation of attraction through agent base modeling and traces are captured, by using Heteroptera Plugin.
In this definition you can use the shortest walk plugin to produce a venation pattern between a series of random points.
In this grasshopper definition by dividing a square grid and extracting relative points in the grid you can generate a parametric 3d pattern panel.
In this grasshopper definition a series of basic grasshopper components has been used to create a surface on top of a network of arcs and curves.
In this grasshopper definition you are able to fill any closed brep through Populate-3d and Populate-Geometry components and connecting each point to the nearest points then thicken and weld the network that has been generated by using Weaverbird Plugin and Fatten component.
In this Grasshopper definition you can model a parametric pattern for 2d panels which is based on a scaling square grid with a connection to a moving point on the edges.
In this Parakeet Plugin Example you can use the Flow Path component to Generate a [Discrete] Fluid Flow Path on a Mesh.
In this grasshopper definition, you can run a particle base swarm moving through the closest vector field component made by pufferfish and anemone plugin. The Anemone Plugin is used to make the iterations and control the loops.
In this Parakeet Plugin Example You can make a series of rotating curves by using the “Reflection Point” component. By connecting the polylines to the Fatten plugin you can have a colourful visualization of these rotating curves.
In this 2D paneling Pattern definition you can model a parametric pattern based on triangles which the center of each edge is connected to the center of the triangle and this point will define the pattern.
In this Grasshopper definition you can model a parametric pattern for 2d panels which is based on a circular connection.
In this definition you can use the Pufferfish’s plugin component called Retrans which Recursively transform geometry to get a self-referential step sequence of transformed geometry.
In this Kangaroo example by defining a box without caps and using the Edge Lengths tool we will have a tensile structure. Simply by setting the length factor to zero and defining the right anchors we can model a minimal surface.
In this grasshopper definition you can create a Truncated hexagonal grid and then add a pattern to it. You can rotate or scale the pattern with a point attractor and then finally offset the curves.
In this grasshopper definition a weave pattern is constructed using a base circle which will produce a series of perpendicular circles around it.
In this grasshopper example file, you can model a parametric tensile structure by using the Kangaroo2 Plugin. The corners of the mesh has been used as the anchors.
In this grasshopper definition you can generate several parakeet patterns through panelized surfaces using lunchbox and parakeet plugin.