ere are ways to remap the data (PathMapper etc) and there's an excellent tutorial by David Rutten about path mapper on this forum somewhere.
And always look at whether you simply need to flatten your data to ba able to work with it.
For point lists I often use the PointNumber component to help visualise the data and the good old Panel component helps too!
When you see some of the elegant, compact definitions on here, there often seems to be some mystical foresight needed right from the first component but hopefully this jedi skill comes with practice!…
Added by martyn hogg at 12:24pm on January 13, 2014
"Z" elevation and get their heights.
As this will be used by people in my office, the letter tagging vs numbered indices might get confusing.
I can't really leave them as numbers as the points are separated into various groups, ie. Pt Aa, Ab, Ac...
Pt Ba, Bb. Bc... and so forth.
With that being said, is it possible to rename indices and/or paths to strings other than their default numbering?…
o be less from a tool-centric perspective, and more often geared toward general platforms (like BIM, or "computational" design).
For papers, I would search Cumincad first, as it captures a great deal of history as well as more current research from the proceedings of the eCAADe and ACADIA family of conferences. There are thousands of articles there.
Robert Woodbury's "Elements of Parametric Design" is considered pretty foundational. Sean Ahlquist and Achim Menges also put together a good anthology a few years back called "Computational Design Thinking" that collects several texts that are in line with the ICD's interests in biomimesis and emergence. "Inside Smartgeometry" is a good combination of theory, historical reflection, and state-of-the-art and edited by Brady and Terri Peters.
But really there is so much out there! One of my favorite short papers is Tom Maver's "CAAD's Seven Deadly Sins" which was basically a keynote mic-drop at the 1995 CAAD Futures conference. I'll spoil the end for you:
"7 Failure to criticise: Above all we have failed to exercise our critical faculties in relation to almost all of the research and development carried out by ourselves and by our peers in recent years. There has been a cosy conspiracy in the community to condone, even encourage, selfindulgent speculation and solipsism - a thoroughly bad example to set for young people in the academic community.
Conclusion: Perhaps these criticism are unjustly hard. Hopefully CAAD Futures 95 will prove me wrong or at least provide the opportunity for discussion."
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Added by David Stasiuk at 11:10am on August 25, 2015
tween them)
However its not possible (Well its very tricky) for me to go back to the original geometry and merge the perimeter and the core into one zone.
As a result I thought that adding internal glazing would do the trick. However apart from using the addGlazing component I couldn't see any other way of adding internal glazing to the core zone without exploding it and putting it back together. So I modified the Glazing based on Ratio component so that the internal walls of the core would automatically be 95% glazing.
After passing the core zone through the modified Glazing based on Ratio component and then passing all the HB zones through the Solve Adjacency component I ran the daylight simulation. However the result is not what you would expect it appears as though there are no internal windows. (See the picture).
So two questions.
1. Is there a better way to merge these zones for a daylight study without going back to the original geometry?
2. From the illuminance map it appears that no light is passing through the internal windows. Why is this the case? Should I create a material that is like air so that the light can effectively pass through and then use this material instead?
…
ple I have to drag it through a panel before I can use it as an input to my python script. The supports comes as a list of strings (see figure) and I want to extract some of that information (e.g. what nodes are fixed) and write that to my txt file.
I extract the info with these lines:
for row in Support: node = row[8:row.find(' DOF')] file.write(" %s,\n" % node)
print node
>> 95
If I however don't drag it via a panel i get the following output:
for row in Support: node = row[8:row.find(' DOF')] file.write(" %s,\n" % node)
print node
>> Supports.Suppor
It's like the script doesn't get that each row is a string.
I have the input set to "list access" and type hint to "str" and I've tried to simplifying and flatten the list.
Greatful for help…
have some spare time please fill in my 3D Printing Open Survey - If you could make almost anything, what would it be ? Updated results are publicly available after completing questionnaire (Please press "Wyślij" - Send button and "Wyniki ankiety" - Results button at the end). This survey will be used to evaluate demand for 3d printing services globally. It consist of 30 questions about: - open-source 3d printers - future of additive manufacturing - 3d printing services - ecology in 3d printing - copyright issues and 3d printing Three example questions: 2. Which of the following 3d printing applications is the most interesting? * - Things personalization - Printing food - Attempts to print structures resembles in functioning living tissues or blood vessels - Creating impossible or difficult to create by using conventional technology things - Printing rooms or buildings on earth/moon - Printing chemical compounds (for example drugs) - Using in renewable energy sources - Printing parts and/or mechanical vehicles 3 . Have you ever heard about cheap DIY 3D Printers (for example RepRap, PrintrBot, MakiBox A6) ? * DIY - Do It Yourself - Yes - No 4 . When 3D Printers will become one of the typical household appliances ? * - After 5 years - After 10 years - After 15 years - After 20 years or later - Never - I don't know Feel free to ask questions!…
answer further on Friday.
The "ghdoc" variable and rhinoscriptsyntaxThe ghdoc variable is provided by the component if you select it as "target".You might ask yourself: "why do we need it"?Its use comes from the very design of the established RhinoScript library. This library is imperative, which means it is build from a set of procedures or functions that act on various geometrical types. Additionally, there is one level of indirection: most of the time, the user does not work with the geometry itself in the variable, but rather with Guid of geometry that is present in a document. This is exactly what ghdoc is: it is the document that the RhinoScript library always implicitly targets with all AddSomething() calls (for example, AddLine()).
Based on this comment...RhinoScript use within GhPython may be less idealThat comment is from a previous version of this component that did not have the ghdoc yet.With the ghdoc variable, the standard Rhino document target of RhinoScript is replaced, therefore we can use Grasshopper while leaving the Rhino document unchanged. This saves uncountable Undo's, and makes it easy to structure ideas through the definition graph
...is the rhinoscriptsyntax target irrelevant if using solely RhinoCommon classesYes. If you create class instances (objects), you will need to create also your own collection objects to store them (mostly lists, trees). You can imagine the ghdoc as being an alternative to them, just that you do not access data by index (number), but by Guid. So you can use the RhinoScript or the RhinoCommon libraries independently or mix them. The RhinoScript implementation in Rhino is open-source and is all written in RhinoCommon. Also the ghdoc implementation is open-source, and is here.
RhinoScript and/or RhinoCommon objects which are not recognized as valid Grasshopper geometryYes, sure, Grasshopper handles only a portion of all available types. Basically, unhandled types are all the types that do not exists in the 'Params' tab. For example, there is no textdot and no leader, so on line 149 there is a throw statement and all TextDot calls (about line 350) are commented out. When/if Grasshopper one day will support these types, these calls will be implemented.
DataTreeHere is a small sample. However, I think that 80% of the times it is not necessary to program for DataTrees, as the logic itself can be applied per-list and Grasshopper handles list-iteration.
I hope this helps,
- Giulio_______________giulio@mcneel.comMcNeel Europe…
ger at the scale of rooms, walls and atria, but that of cells, grains and vapour droplets. Rather than the flow of people, services, or construction schedules, the focus becomes the flow of light, vapour, molecular vibrations and growth schedules: design from the inside out.
The sg2012 challenge, Material Intensities, is intended to dissolve our notion of the built environment as inert constructions enclosing physically sealed spaces. Spaces and boundaries are abundant with vibration, fluctuating intensities, shifting gradients and flows. The materials that define them are in a continual state of becoming: a dance of energy and information.Material potential is defined by multiple properties: acoustical, chemical, electrical, environmental, magnetic, manufacturing, mechanical, optical, radiological, sensorial, and thermal. The challenge for sg2012 Material Intensities is to consider material economy when creating environments, micro-climates and contexts congenial for social interaction, activities and organisation. This challenge calls for design innovation and dialogue between disciplines and responsibilities.sg2010 Working Prototypes strove to emancipate digital design from the hard drive by moving from the virtual to the actual in wrestling with the tangible world of physical fabrication. sg2011 Building the Invisible focused on informing digital design with real world data. sg2012 Material Intensities strives to energise our digital prototypes and infuse them with material behaviour. They have the potential to become rich simulations informed by the material dynamics, chemical composition, energy flows, force fields and environmental conditions that feed back into the design process.
More information can be found at http://www.smartgeometry.org
sg2012 take place at Rensselaer Polytechnic Institute, Troy, in upstate New York from 19-24 March 2012. The Workshop and Conference will be a gathering of the global community of innovators and pioneers in the fields of architecture, design and engineering.
The event will be in two parts, a four day Workshop 19-22 March, and a public conference beginning with Talkshop 23 March, followed by a Symposium 24 March. The event follows the format of the highly successful preceding events sg2010 Barcelona and sg2011 Copenhagen.…