trying to do.
i have a spiral that i divided in grasshopper into 360 points, that bit i managed to do, what i want is to connect point 1 to point 2 with a line, then connect point 1 to point 3 with a line and so on till point 1 is connected to all the other 359 points in that order, once i have done that i want to then connect point 2 to point 3 and so on, i want to repeat this till i have a connection all the way down the spiral, i'm pretty sure that once the first set of points are dealt with then it should be fairly easy to replicate the procedure to do the other point connections.
Michael…
each iteration.
I'm currently running a simulation so I cannot clean up my file but you should be able to discern how it works. Special attention to the pollination part (bottom right) and also the text split component (which is crucial in making slider values into iterative parameters) right by the slider section on the left.
For anyone interested, what it does is calculate the vertical sky cover of an urban canyon by rotating it around the y axis (what I call massing orientation) and also rotating each of the buildings individually (left or right building rotation). The massing rotation interval is 15 degrees and the building interval is 5 degrees, with a maximum of 40. This gives 1944 possible configurations which are further reduced by assigning a minimum distance between the two buildings of 6m. The check of that distance is a boolean (true or false) and acts as the toggle that starts the simulation. Finally, the simulation is of vertical sky cover which is the fastest one for testing and fits my needs.
P.S.: I realize calculating VSC of this configuration for all 360 degrees doesn't make much sense but it's the ability of the definition to test this atm that matters and not the results.
Hope this helps!
Kind regards,
Theodore.…
、、、不同角度的理解、诠释、运用和发掘规律、、、
新闻或者幻觉:马王堆墓穴中发掘出了丝绸做的鞋,不算是现代意义上真正的鞋,但是完成了一个完整的公式。
有一部分需要是共同的,在离开了沙滩和草地的时候。
找一个成熟的不一样的数学思维合作者,(可以一起申请参加sg2014活动,也可以不)
我想听到人们写给自己的语言,我不害怕听不懂;
也不在意你能看到我的美丽的脚和我们美丽的城市。
你存在?存在0.1%?如果≥1/4
With the two version of the PDF in the file upload, doubt, 10th should be able to see the many PDF.
There are some scruples, confusion ——"The additional property of professional activities",——Subject classification, commercial, regional、、、
There is a place Africa, people don't wear shoes, A few people with grass or leather on the foot (and buildings——In order to spatial density) winding,
the manufacture of shoes, two sales do two judgment:
A There is no life belongs to shoes
B this is the market.
I spent a lot of energy explained to students, which is not to do programming people do、、、 the different angle understanding, interpretation, application and explore the law、、、
The news or illusion:Mawangdui tomb unearthed silk shoes , is not the modern sense of true shoes, but the completion of a complete formula.
There is a need is common, when they leave the beach and grass.
Find a mathematically mature different thinking partners,(Can apply to participate in the activities of the sg2014, also can not)
I want to hear people wrote their own language, I am not afraid of don't understand;
Don't care what you can see my beautiful feet and our beautiful city.
Do you have? There are 0.1%? If ≥1 / 4 You know what I did wheni found out about you?
msxf6688@163.com
…
've input a random rotation value from 0 to 360, but what I really want as an input rotation value is a list like this:
0.5
0.8
0.5
1.57
0.5
0.8
0.8
1.57
How can I create this kind of list? Any ideas??
Thank you very much in advance
Have a nice day
Eduardo
…
vature it makes things somewhat easier, but the surface in your file also has regions of negative Gaussian curvature.
To approximate a surface of negative curvature with a discrete mesh, we need the angles around some of the vertices to sum to less than 360°. This is impossible to do in a mesh with 3 hexagons around each vertex without making some of these hexagons non-convex.
There are a few possible approaches, but I would say how to automatically cover an arbitrary surface with nicely shaped planar hexagons is still an unsolved problem.…
Added by Daniel Piker at 10:25am on December 17, 2013
t. This was a reasonably effective workflow for the purposes of solving the initial problem. (in reviewing this post, it seems a bit lengthy, but hopefully it's of use to others).
Link to Illustrator Script example:https://forums.adobe.com/thread/508138
Portion I used: This applies to entire illustrator document. I am using Illustrator CC 64 bit and this worked okay. Tested a few times and it failed once, but a restart of Illustrator fixed it.
var v_selection = app.activeDocument.pathItems;SwapFillStroke(v_selection); function SwapFillStroke(objSel) { for(k = 0; k < objSel.length; k++){ var subSel = objSel[k]; var c_fill = subSel.fillColor; var c_stroke = subSel.strokeColor; subSel.fillColor = c_stroke; if(!subSel.stroked) subSel.stroked = true; subSel.strokeColor = c_fill; }} redraw();
My goal was to export colored geometry, (analysis meshes for example), from Rhino and get it into illustrator with solid fills.
If you want to know how meshes are colored in rhino...there are many explanations here on the forum, a quick search will get you more detailed information.
Short version: export your lines from rhino to illustrator and run the script listed above to make the stroke color the fill color. (in illustrator, shift+X will swap the fill and stroke colors on individual objects, but does not work on multiple objects..hence the need for the script).
Detailed Version:
In my case, I had 2 case studies I was working with.1 - wind rose meshes generated from Ladybug/honeybee2 - A mesh terrain that was colored by pre-set slope values.
NOTE: There are a few plugins to bake objects with color. I used Human tools, (Bake Geometry and JustifiedText3D).http://www.grasshopper3d.com/group/human (lots of other great stuff in there too!)
I had two types of geometry. (2 different definitions)
1- An analysis mesh, (HoneyBee/LadyBug),
2 - Lines generated from mesh faces. (mesh terrain/slope values).
Export results as a DXF, and choose "do not explode". (these were my settings)
DXF seemed to produce the most consistent results.
(you could export/save as an AI file and just open them in illustrator, but that seemed to give inconsistent results with the script).
Open DXF in Illustrator:
Apply Script in illustrator:
In the terrain example, there are only 5 colors, so selection in illustrator, by color, is very easy. In the results from honeybee/ladybug, (or any analysis process I imagine), the default colors are created with a much wider range of values. I presume the legend is then created by an average of those values within a range. My point is that, with the analysis results, selecting objects by color in Illustrator is probably not a very effective workflow.
I only tested this on my instance of rhino and Illustrator. mileage may vary.
In summation, at this point, it seems that the best way to get colored mesh faces, into illustrator, is to export the meshes, (which really ends up being the mesh face edges...curves), and bringing them into illustrator and running a quick script to swap the colors. Once that is complete, you can then select ALL the objects, and change the stroke color/weight at once.…
ine will require a points and normal vectors. Give ArrPolar the same parameters used to position the diamonds, but use a point instead of a gem object. This will give you your points. The normals are just a vectors from origin to the points.
4. I added components to the attached file that includes a VB fillet routine. (I don't recall where I found it.) You have to play with the 2 Boolean values depending on the 2 surfaces you feed the routine. Also, be aware that Rhino does not handle filleted surfaces well when they come from Grasshopper. To fix this you have to invoke the Rhino command _DivideALongCreases - otherwise your filleted surfaces will have corners in them.
…
the use of digital technologies as architectural design tools. The workshop " Computer Aided Design: parametric design and digital fabrication " aims to do some introductory teaching in the use of some of these tools.
The workshop will focus on the use of computational models of parametric behavior for generating architectural forms. The generative capacity of these models it will be tested in the development of designs defined by repetitive non-standard components, based on the parametric control of its variations and series differentiations. This process will be developed by the use of a three-dimensional modeling software - Rhinoceros, associated with an application for visual programming - Grasshopper.
The last day of the workshop is dedicated to the use of digital manufacturing tools in architecture. Part of the work will take place at the facilities of the Institute of Design of Guimarães (IDEGUI) providing for the use of their laboratories and manufacturing CNC machines (computer numerically controlled).
At the end of the workshop, it is intended the students to understand that the use of digital technologies in architecture can overcome representational functions, and their integration in the design conception, analysis and construction enriches the methodology of project development.
Terms & Participants
The workshop will take place at the School of Architecture of the University of Minho (Campus Azurém, Guimarães) and the Institute of Design of Guimarães (Couros, Guimarães).
The workshop is pointed at students who attend the 3rd year and 4th year from MiArq, EAUM.
The maximum acceptance is 20 students and a minimum of 10 students.
Deadline for entries is April 11 and must be performed by eaum.pac@gmail.com.
Program summary :
Day 23 April 14 -20h
Introduction to 3D modeling in Rhinoceros. Regular geometries, ruled surfaces and NURBS surfaces.
Day 30 April 14 -20h
Parametric design in architecture. Introduction to methods of visual programming.
May 1, 9 -13h 14 -18h
Development of a design idea by the use visual programming processes in Grasshopper.
May 2, 9 -13h 14 -18h
Introduction to methods of digital fabrication. Manufacture physical models of the proposals made.
It is expected that this meeting will take place in the IDEGUI labs.
team:
Bruno Figueiredo ( Lecturer, EAUM )
Paulo Sousa ( PhD candidate , EAUM )
Nuno Cruz ( Invited Lecturer , EAUM )
Cláudia Alvares ( 5th year MiArq student , EAUM )
Javier Bono ( 4th year MiArq student, EAUM )
João Amaro ( 5th year MiArq student, EAUM )…