algorithmic modeling for Rhino
Tangent to Surface at Point, with some help from Galapagos
Dear everyone.
I'm trying to get Galapagos to align the endbit of my curved/twisted surface so that it matches the location of a point AND is coplanar with another surface. How can I compare both Distance and Directional Deviation(?) between two planes and get Galapagos to find the best match?
The two planes don't need to have the axes oriented the same way, I just want to match their origin points and make them "coplanar".
(In this video you can see how the surface moves)
Thanks!
Views: 2043
Replies to This Discussion
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Permalink Reply by taz on
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Minimize the sum of both the distance between origins and the angle between the z-axis vectors to get as close to a target of zero as possible.
I'm tired but I think you can do that, right?
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Permalink Reply by Mateusz Zwierzycki on
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but befeore, change md slider to normal slider, galapagos won't work with md...
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Permalink Reply by Mårten Nettelbladt on
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Ah, clever! That works just fine! Thanks taz and Mateusz.
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Ok, next question:
What if I wanted the two planes to be JUST co-planar, never mind the location?
Adjusting the Z-vector only finds the right direction, not the same plane, right?
Thanks!
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can you upload ghx file ?
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Hi Mateusz, I can email it to you if you would like to have a look. Thanks.
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instead of minimizing the distance between origin points you could minimize the distance between a point and a plane with [Plane CP]
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Great solution! Thanks again taz!
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