ning with a presentation on the main principles of working with NURBS surfaces, this webinar will incrementally unpack a diverse set of surface-related techniques through a series of “live” exercises with Grasshopper. With two instructors offering guided curriculum and continuous support it is our goal to provide you with an in-depth and personal learning experience. Additional topics covered will include: how to move through “surface space”, creating and analyzing simple surface panels, and how to create custom panels on a surface.
Topics:
What is a Surface? How do I make one and what are its parts?
Wait!.. A Surface has its own Space? How can I navigate this Space?
How can I divide my Surface into Panels? Can I ensure they are flat -or- How do I keep them curvy?
I just tested all of my Panels for planarity but what do those numbers mean? How can I more intuitively visualize the results?
Now I have simple Panels, but can I create my own custom Panel Object at each original Panel location?
Details:
Level: Some experience suggested. Beginners can review our Introduction to Grasshopper Webinar here: vimeo.com/album/2103407
Suitable For: All Creative Professionals: Artists, Architects, Designers, Engineers, Programmers, Students.
Software: Rhino 4SR9 or Rhino5Beta + Grasshopper 0.9.
Instructors: Ronnie Parsons + Gil Akos | Partners, Studio Mode
Pricing: $99/$59 : Professional/Student Rate. Register now to Access the Full Webinar Content and Videos: http://modelab.nu/?p=7238.…
d the workshop PDF from this link: http://goo.gl/bcvRNH Download event poster from this link: http://goo.gl/Q0KWCM Brief: Cairo is filled with barriers controlling people movements, suppressing them as well as detaining green and public spaces to the extent that most people have been taking these spaces for granted. Public spaces have been for a while the periphery of our daily life. We will explore in this workshop how we can manipulate and alter people’s perception and direct their attention to how these spaces are integral for city life. This exploration will be backed up by intensive technical tutorials introducing computational design and fabrication techniques and tools mainly Rhino, Grasshopper, Geco and Ecotect. Not only will this be the typical technical workshop, but rather you will also have the chance to be guided step by step on how these tools are used through out different design stages in a real world scenario. Design prototypes will be produced through 3D printing, the main workshop output will be a fabricated one to one functional model for one of the designs using our new in-house CNC machine. Tutors (check the PDF for bio): Olga Kovrikova, MArch DIA Alexandr Kalachev, MArch DIA Karim Soliman, MArch DIA Islam Ibrahim, MArch DIA Sherif Tarabishy, B.Sc. AAST Application: Application deadline 1 September 2013 ** For students (undergrad / Master), teachers and PhD proof of status is required (university ID with a date or a certificate of enrollment) to apply for the students package. Packages (choose one of the following in the application form): 1. Standard registration Course fee is 4250 EGP For Students 3500 EGP 2. Early bird registration discounted fee For Professionals 3750 EGP For Students 3000 EGP ** Early bird offer ends on 14 August 2013 3. Group registrations discounted fee (5 or more) For Students 20% off - You will have to fill out an application form here: http://goo.gl/0QxAga - You will need to submit your CV and Short Portfolio (max. 10 MB) to info@morph-d.com, email subject: “Morphing Norms Application” (we will decide if you are eligible for an early bird discount or not based on the date of your email submission) - We will confirm receiving emails from all applicants. Successful applicants will be contacted 5 days after each deadline (early bird/final) and will have to confirm participation within 3 days, if they fail to do so, places will be given to others on the waiting list. - A maximum of 30 applicants will be selected.
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.5,-3.0; 2.1,-6.7;0.35: 2: 7.2,-8.1; 6.2,-7.0; 5.7,-2.3;0.5: 0: 1.5,3.5; 2.3,-0.4; 2.6,-1.2;0.5: 1: 5.6,-3.1; 5.2,-1.5; 6.3,-6.0;0.5: 2: -3.4,6.4; -3.0,5.5; -2.9,7.6;The first number of each line is the z value. Each z value is used multiple times with a list of x,y values. That second number is the index of the list of points for the z value, and the following ordered pairs are the x,y values.
I attached my script, which outputs each line of data as a branch containing the points on that line (paired with the z value at the start of the line). The paths output are {0;0;#} where # ranges from 0 to 799. I'd like to collect all the lines with the same z values into one branch, however, resulting in something like {0;$;#} where $ ranges from 0 to 7 (the number of different z values) and # ranges from 0 to 99 (the number of lists of points associated with each z value), rather than having them all compressed into one list.
I'm reading the input line by line, but if I read it all at once, I could create a loop that examines each line's z value and stores the line into a list specific to that z value, then output all those lists of lists as a list/DataTree? Is that what you are suggesting, David Stasiuk? …
Added by Mark Bank at 2:55pm on September 27, 2012
y to heaven (or hell) is full of pain,frustration and tears. In plain English: if you are not totally committed (and willing to pay the heavy price) ... well ... what about forgetting all that freaky stuff? (the best option, trust me)
Note: 99% of beginners dream to learn programing in order to make geometry. But the truth is that this is the least (and rather the most insignificant) that you can achieve especially when working in teams with lot's of CAD/MCAD apps (and verticals) in the practice of tomorrow (bad news: tomorrow is already yesterday).
Anyway: How to go to Hell in just 123 easy steps
Step 1: get the cookiesThe bible PlanA: C# In depth (Jon Skeet).The bible PlanB: C# Step by step (John Sharp).The bible PlanC: C# 5.0 (J/B Albahari) > my favoriteThe reference: C# Language specs ECMA-334The candidates:C# Fundamentals (Nakov/Kolev & Co)C# Head First (Stellman/Greene)C# Language (Jones)Step 2: read the cookies (computer OFF)Step 3: re-read the cookies (computer OFF)...
Step 122: re-read the cookies (computer OFF)Step 123: Open computer > burn computer > computers are a bad thing (not to mention the Skynet trivial thingy).May The Force (the Dark Option) be with you.
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ore simplest way, for example i need to declare min distance (minDist) like huge number to avoid overlapping values. may be find way do not use second loop in script at all . In the neoarchaic's script has line 99 (j = pts.ClosestIndex(pt)) but i have no idea how to do it in C#.
2. In a file i prepared GH+Hoopsnake and GH+Anemone solution for this script . Can i use the same principle in C# (shipt list with wrap values )? This solution I need for studying list operations in C#.
Thank you for helping .
ps..My script:
int num = x.Count; double minDist,dist; int minI = 0; int i = 0;
Point3d pt; List<Point3d> z = new List<Point3d>();
while (i < num) { i++; z.Add(x[minI]); pt = x[minI]; minDist = 1000000000000; x.RemoveAt(minI);
for (int n = 0; n < x.Count; n++){
dist = x[n].DistanceTo(pt);
if ( dist < minDist) { minI = n; minDist = dist; } } } A = z;
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13;2} ... 20.{13;12}
21. {21;0}22. {21;1}23. {21;2} ... 41. {21;20}
42. {34;0}43. {34;1}44. {34;2} ... 75. {34;33}
76. {55;0}77. {55;1} ... ....
I want to grab the first 8 [0-7], the next 13[8-20], the next 21[21-42] etc
so i have the (known fibonacci seq) list of numbers on the left here:
C S
8 0
13 8
21 21
34 42
55 76
89 131
144 220
233 364
and i need the list on the right, so that i can select items using a Series (N=1 and S and C from the list above) and a List Item component.
the simple question is:
is there a component that can take a list and accumulate it in this way that I need?
if not, is there anyone that can point me to a simple relevant VB example so i could easily adapt it?
many thanks,
gotjosh…
rection: there's no visible demand. Explanation: a lot of AEC oriented people (Smart Geo daydreamers) they think - potentially - about GH but they are rejecting it for more than obvious reasons: our job is 1% about the smart thing and 99% about the structured aspect of the smart (or stupid thing).
Back to that "hangar" : The primary role of this GH definition provided herein (and hopefully some future updates) is NOT to outline some academic solution (via some abstract collection of pipes/lines/points/surfaces) ...but to place in 3d space - properly structured - all the real-life (hmm, he he) bits that can compose the actual project. Of course if the bits could be parametrically driven assemblies ...well...you get the gist of the message.
All in all: I think that Engineers who are GH skeptics could see GH with a totally new perspective if, say, a collection of similar examples/test cases could be available for demo/evaluation/whatever > Ah! at last : this appears to be a real thing > what software did it? > say it again - Grass Components you said? > what sort of name is this? ... etc etc etc.
But since a similar development is quite expensive (and requires a team of several gurus), maybe this is rather a future potential task for the GH/Rhino people if they think that the AEC market segment could be beneficial for their products. Combine a similar capability with tools like yours and/or Evolute (planar quads are "a-la-mode" these days).
PS: forget trivial stuff > what about Stefanie? (plan B : better something than nothing)…
e case pictured already: don't bother how this truss is made and never mind that the def attached looks like an "add-on" (no components) - because it could be (so don't get stuck on that, it's irrelevant). In fact since the critical part (the 99% of the whole) if only doable with code ... it makes sense to do the rest with code as well (but that's my personal preference anyway, he he). Note: Balls are excluded from the demo.
You can toggle what "class" of struts is gonna being made with these booleans:
You can vary the sliders and if the code thinks that you make a valid input ... it obeys, he he.
But the big questions are:
1. Can you work with this in some interactive way? I mean vary any slider and ... wait ... for some change. Although the MERO components here are created ONCE and then placed around (minus obviously the tubes) ... they are placed as copies of the "donor" object (not instance definitions) creating a vast "pool" of "unnecessary" data.
2. What happens if you bake these little thingies? What file size you get? Is it OK?
But the bad news are that as I said ... this is ... NOT a task for a novice ... nor you can handle this get-a-truss-and-make-a-MERO-thing goal with half-measures: either you should do it properly ... or abandon ship.
NOTE: Load R file first (nothing is internalized).
Moral: even if this was made with components ... it wouldn't serve much.
best, Peter…
H are automated by using them as an ActiveX, the C# script object fails on the simplest tasks. That is, when initiating Rhino and GH externally (as by the following C# code):
Rhino5Application rhino_app = new Rhino5Application();
dynamic grasshopper = newRhino.rhino_app.GetPlugInObject("b45a29b1-4343-4035-989e-044e8580d9cf", "00000000-0000-0000-0000-000000000000") as dynamic;
The following very simple C# script component fails because it cant cast its input:
The c# code at the component is only:
Line 89 is simply casting of the input. Clearly, this makes the usage of C# component, under automation, impossible which is a major loss.
As said, when initiating Rhino and GH manually , all works well as in the following:
Any ideas why it misbehaves under automation (as an Active X ) ?
I added the gh file of this example.…
he concept, moving on to decision making and continuing with digital and generative design tools TO GET THE BEST SOLUTION for each problem.
WHY? The world is complex and ever-changing and we need to be able to handle the volume of information we receive and, of course, to find and choose the best solution. Therefore, we direct our ATTENTION TO THE CAUSE, and not only on the effects/solutions.
We will learn from NATURE, the only “company” that has not gone bankrupt in over 4000M years, and it’s GENERATIVE SOLUTIONS.
> OBJECTIVES <
The participants will work in multidisciplinary groups (ex. architect + designer + business manager + constructor + communication specialist etc.) applying knowledge management tools, different approaches and nature-based optimization methods.
Listed objectives:
1. Improving the generative way of TURNING AN IDEA INTO A PROJECT through problem-solving thinking
2. Discovering nature’s ways of shaping evolutionary solutions
3. Getting out from our comfort zone and working together with other professionals in groups in order to achieve better solutions: Multidisciplinary Design Optimization
4. Learning to use technology to manage information in the decision making process
& surviving the whole week
> ATTENDANCE & COSTS <
> Early bird – until 17th March 2013
Lecture – 15 euro (includes presentations, food& drinks)
Workshop – 100 euro (includes lecture, food& drinks)
> Late bird – until 6th April 2013
Lecture – 25 euro (includes presentations, food& drinks)
Workshop – 120 euro (includes lecture, food& drinks)
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