A Walk in the Park
First, design the size of the plane and the location of the points on the plane. Then a cube is generated with each point as the center. However, the height of each cube is different, so we use the logic of attraction. I used the code provided by the teacher and designed the corresponding input values. This was the hardest part for me. Cubedistance and maxdistance need to understand their meaning and use the corresponding function panel.
Eliminate the Echo
I first designed a plane, then filled the plane with point positions, and generated cylinders at these positions. The hardest part is designing the attractor and the corresponding imported formulas. I encountered a problem here: the formula is correct but cannot be run. This is because the panel has extra spaces or enter keys.
Happy Facade
I first designed two attractor centers, then brought them into the given code panel, and designed the corresponding input value panel. Compared with the first part, this part is easier to design. Finally connected to the display circle.
Then, share your Design Journal entry here (replacing these instructions) ... Just delete this instruction text, and start typing your response.
- A screenshot of your finished model geometry
- Walk in the Park - an image of the Dynamo geometry
- Eliminate the Echo - an image of the Rhino geometry
- Happy Facade - an image of the Revit wall
- A few sentences describing your modeling approach
- The link to your Module 2 folder in our Autodesk Construction Cloud project.