milar once its default data managment techniques are exceeded thus forcing a new address index to be inserted. Its all just so unnecessarily particular and finickity.
If addresses are added when forced to, why not just have that as the default behaviour in the first place? Its not so much 'one size fits all' as postulated previously, but more one size fits 80% of cases and in the remaining 20% of cases you're going to be a slave to your definition as constant manual management will be required just to control the thing.
My final point:
circle with points should have a list address of {0}
multiple circles with points should have list address of {0;0}
multiple circles in multiple locations with points should have list address of {0;0;0} etc
I really dont see how that is any less consistent for highly complex data strucutres. To any rational individual this is predicable and follows a logic. What advantage is there in fixing the address at {0;0} yet still allow for new address sequences to be added firther down stream? Logic is the key thing to keep in mind here, not peculiar nuances only the initiated can ever be aware of.…
cle
the 'Shape' is copied to all points
shapes are rotated randomly, plus or minus 'Angle' maximum
'Shape In Brep (ShapeIn)' is used to cull shapes that aren't within the circle
'Fast Loop' begins using 'MCX' (Multiple Curves Intersection)
first shape is added to 'D1' output and shapes intersecting it are culled
results minus first shape are passed to 'D0' of 'FastLoopEnd'
loop repeats until 'D0' list is empty
'D1' results are scaled down slightly (0.75) to leave more space around them
'Explode' results and return only the curved part, ignoring the base line that closes the shape
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Added by Joseph Oster at 11:01pm on March 17, 2017
avid--this software is a pleasure to use, and David, you have done an amazing job. I also want to acknowledge it takes a lot of work to edit the software, and I understand that it can take a while before any changes are made.
Okay so here are some ideas:
Subcurve - just like subsurface, but based on 1-dimensional intervals
Map Values to Interval - a single component that could take a list of values, an interval, and would scale the list of values to match the input interval.
A Dispatch component that could dispatch according to a list of output indices. Instead of just True/False, you could output things based on a pattern using 0/1/2/3/4, etc. This component would be the inverse of Weave.
A text object parameter and data type, with some basic ways to edit it.
More string manipulation operations, allowing for easy editing with string subintervals, and character counts, and basic text formatting (line return, etc.).
I really really really wish the List Item component had a default index value of "0". That is what I input into it 80% of the time.
That's all for now. If any of these ideas are already adequately addressed, please let me know. Thanks.
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ellation tool of GeomGym in Grasshopper.
The design looks for a new brick topology which is in the shape of two generative elements of Weaire-Phelan structure; dodecahedron and tetrakaidecahedron. An innovative approach is taken by applying varying types of solutions and details to the new brick elements.
There are other good examples and winners which are worth looking into. Our sheets can be downloaded from here.
All comments appreciated.
We would like to thank Jon Mirtschin and anyone who contributed to this tool.
Xue Ai and Serdar Aydin…
derstanding of the graphical algorithm editor, and then dive into more complex parametric models. We’ll also learn tricks to keep our project responsive and enjoyable to use.Course outline
covering similar content as the first part of the primer(http://www.grasshopper3d.com/page/tutorials-1)
novel material
duration: 3 days (24 hours)
Including
An understanding of the Grasshopper interface and the visual programming theory
Base parameters, large numbers of points and vectors, and small geometrical instances
Data flow
Troubleshooting definition problems and solutions
Know the main component types
Be able to join, and manage connections and trees
Expressions for both calculation and boolean creation
Understand Data Matching and casting
Managing long lists of objects within Grasshopper
Have an understanding of the functioning of Grasshopper components
Experience creating definitions
Parametric geometry examples, like attractors and list culling
Re-utilizable modeling examples: colored panelization, surface population, gradient and picture sampling and manipulation, catenary line and weaving
Spline animation examples
Getting ready to prepare own definitions in groups
More information...
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