👉 Grab the definition from this link after leaving a comment below: howtorhino.com/multiple-attractor-points/ Free How to Rhino Community 👉 www.skool.com/howtorhino Apply for Rhino for Architects Training ✔ howtorhino.com/apply Project files 👉 www.patreon.com/posts/32347233
Thanks Stephen! Keep it up :) Feel free to check out our Patreon content as well or if you're interested in the step by step approach to learning everything about Rhino and Grasshopper, you may want to check out our website here: howtorhino.com/rhino-for-architects-course/
Hey Archana, Thanks! Glad you like the tutorial! If you'd like to take this a step further and have a complete step by step approach in learning Rhino and Grasshopper that includes our personal coaching, please reach out and send me an email at dusan@howtorhino.com if you're interested, and I can share more info on how we can help you get to a proficient level. Cheers!
Why did you use list items after sorting the values from the flip matrix? And can you explain why isotrim was used with the divide domain? And can you explain again why did we use cull pattern by equating the original distance and the flipped matrix one?
Hey Anuj, I will be glad to answer your questions. 1. Divide domain^2 we used here takes the U and V iso curves of the surface and divides it into segments creating domains in both directions. Afterward, we connected the output of the domain with the input "D" of the iso trim, since the component requires domain^2 to get original surface divided into multiple subsurfaces. 2. After sorting the list of all distances at 9:48, we used a list item (with default value 0) to extract the smallest value from the list which is actually closest distance. 3. Each point of the grid has its own set of distances to each attractor point. The set of distances represents each branch of the data tree. In order to find the location of the closest distance in each branch, we use the equation with the list from step 2. Afterward, the pattern from the cull pattern output we applied to the original list in order to get the closest grid points related to a certain attractor in the same data tree branch. If you still have difficulties to figure out how the definition works feel free to contact me at lazar@howtorhino.com Cheers
I’m working on something similar but I want there to be a smooth transition between attractors. Nudibranch might have something otherwise it’ll have to be weighted average I think.
Can you help me do this for a curve ? Not a straight horizontal line. I’ve tried it with a curve and set its point but when I do the rectangular grid it goes off in a straight line instead of following the curve. I’m a beginner.
I like your tutorials. I just could not understand the second half of the tutorial. Maybe I am not an advanced user. I hope in the future you could explain the process better with some sketches and diagrams. Anyways, I appreciate the time and energy you guys are investing to impart knowledge.
Thanks for the support Ferdous! We try to fit in as much as we can in a time frame of around 20mins for a tutorial (there are some exceptions of course), but in general we don't go too much in depth because that would be quite long and that is the type of content that we have in Rhino for Architects course. Cheers!
@@HowtoRhino exactly what happened to me, I know rhino quite a bit but this wasn't well explained. I'm sure 15 -20 mins are enough to explain this clearly.
very nice tutorial! is there a way to apply this process to double-curved surfaces? so the surface will be simplifed by rectangular extrusions based on the normal distance to the surfaces flat base surface?
Hi Poldi! Thanks, glad you like it. Yea, so the process of applying this definition to a double-curved surface would not be the same. In that case, you couldn't use the grid component, but would rather be using some other techniques like isotrim component and then doing the normal vector extrusion for each face.
You need to define the plane where the grid will be located. By default is set to XY-plane, but you can simply plug another plane in corresponding input
Hey Federico, yes, thanks for your suggestion. If you get the definition, when you open it, you will see that there is bifocals inside. Just let us know where to send you the definition using the first link in the description and you'll receive it in your inbox. Cheers!
👉 Grab the definition from this link after leaving a comment below:
howtorhino.com/multiple-attractor-points/
Free How to Rhino Community 👉 www.skool.com/howtorhino
Apply for Rhino for Architects Training ✔ howtorhino.com/apply
Project files 👉 www.patreon.com/posts/32347233
hey
Love the content, I've actually taught myself Rhino watching your videos. Cheers!
Thanks Yash! Great to hear that and that you learned Rhino by watching the tutorials! Woohoo
Rhino Grasshopper is beautiful blend
Amazing tutorial!!!
loving your content! I have taught myself Rhino from your channel!
Thanks Kyle! So glad that is the case :D Thanks for the support!
Step-by-step instruction of interesting facade. It is worth your time to view this.
Hey Sidney! Thank you :)
great work! following your materials regularly and learn so much.
Thanks Stephen! Keep it up :)
Feel free to check out our Patreon content as well or if you're interested in the step by step approach to learning everything about Rhino and Grasshopper, you may want to check out our website here:
howtorhino.com/rhino-for-architects-course/
Great! It was hard, but learned a lot. Thanks!
You're welcome!
Amazing work as usual
Thanks! Appreciate it :)
not sure what happened watching this, but it's a great end result :)
Hi Miles, thanks! :D
Oh my god! Thank you so much!
Hey Archana,
Thanks! Glad you like the tutorial!
If you'd like to take this a step further and have a complete step by step approach in learning Rhino and Grasshopper that includes our personal coaching, please reach out and send me an email at dusan@howtorhino.com if you're interested, and I can share more info on how we can help you get to a proficient level. Cheers!
Good tutorial , really helpful 💯
Thanks Amay!
thank you
So helpful
Hey Rron, thanks! Glad you think so :)
good tutorial, thanks
Glad you liked it! :)
Awesome work
Thanks Prem!
Thank you for tutorial!! Looks amazing!
You're welcome Valeria :)
Love the tutorial !
Thanks Duy! :D
Why did you use list items after sorting the values from the flip matrix? And can you explain why isotrim was used with the divide domain?
And can you explain again why did we use cull pattern by equating the original distance and the flipped matrix one?
Hey Anuj,
I will be glad to answer your questions.
1. Divide domain^2 we used here takes the U and V iso curves of the surface and divides it into segments creating domains in both directions. Afterward, we connected the output of the domain with the input "D" of the iso trim, since the component requires domain^2 to get original surface divided into multiple subsurfaces.
2. After sorting the list of all distances at 9:48, we used a list item (with default value 0) to extract the smallest value from the list which is actually closest distance.
3. Each point of the grid has its own set of distances to each attractor point. The set of distances represents each branch of the data tree. In order to find the location of the closest distance in each branch, we use the equation with the list from step 2. Afterward, the pattern from the cull pattern output we applied to the original list in order to get the closest grid points related to a certain attractor in the same data tree branch.
If you still have difficulties to figure out how the definition works feel free to contact me at lazar@howtorhino.com
Cheers
@@HowtoRhino Thanks Lazar!.
amazing, could you maybe do a video about creating a parametric wheel design for cars?
Hey @smallgooddecision, thanks for the suggestion!
amazing
Thank you! Cheers!
I’m working on something similar but I want there to be a smooth transition between attractors. Nudibranch might have something otherwise it’ll have to be weighted average I think.
When I flip the matrix I get an error code saying “ all paths may only differ at s single locus “
Very clear and smooth explanation, great job!
Thanks Max!
Can you help me do this for a curve ? Not a straight horizontal line. I’ve tried it with a curve and set its point but when I do the rectangular grid it goes off in a straight line instead of following the curve.
I’m a beginner.
I like your tutorials. I just could not understand the second half of the tutorial. Maybe I am not an advanced user. I hope in the future you could explain the process better with some sketches and diagrams. Anyways, I appreciate the time and energy you guys are investing to impart knowledge.
Thanks for the support Ferdous! We try to fit in as much as we can in a time frame of around 20mins for a tutorial (there are some exceptions of course), but in general we don't go too much in depth because that would be quite long and that is the type of content that we have in Rhino for Architects course. Cheers!
@@HowtoRhino exactly what happened to me, I know rhino quite a bit but this wasn't well explained. I'm sure 15 -20 mins are enough to explain this clearly.
very nice tutorial! is there a way to apply this process to double-curved surfaces? so the surface will be simplifed by rectangular extrusions based on the normal distance to the surfaces flat base surface?
Hi Poldi! Thanks, glad you like it. Yea, so the process of applying this definition to a double-curved surface would not be the same. In that case, you couldn't use the grid component, but would rather be using some other techniques like isotrim component and then doing the normal vector extrusion for each face.
How do I fix my grid if it’s only going along the X and y plane. I’m trying to get it to go along the z plane
You need to define the plane where the grid will be located. By default is set to XY-plane, but you can simply plug another plane in corresponding input
Nice!
Thanks Seechler!
very cool
Thanks David!
when ı put flip matrix, it shows me all paths may only differ at single locus.What can ı do
good vid
Thanks Liam!
It would be great if you use bifocals plugin. That makes easier to follow the definitions. Bye
Hey Federico, yes, thanks for your suggestion. If you get the definition, when you open it, you will see that there is bifocals inside. Just let us know where to send you the definition using the first link in the description and you'll receive it in your inbox. Cheers!
When I tried to FLIP MATRIX @9:30 I got "all paths may only differ at a single locus". How do I fix this? Thanks!
Hi Dan, I am not sure why it doesn't work, but feel free to send me your file at lazar@howtorhino.com and I will give my best to fix it.
Cheers!
thnx
You're welcome :)
Buenísimo 👌
Thanks Gerardo!
nice
Thanks Taha!
Nice video. Be helpful if you could use bifocals as you go.
Thanks Tad! Bifocals is included in the definition that you can get from the first link in the description :)
@@HowtoRhino Yeah I saw it in the download, that was super helpful. Thanks!
@@tadavis sure, you're welcome :D
Can you make the tutorial of "Bad Cafe Facade mumbai"
Sure, this is a great example of how you can apply multiple attractor points definition :)
thank you
You're welcome, Reza :)