nition. Using RenderAnimation component from http://www.giuliopiacentino.com/grasshopper-tools/, I could do all of above except for the Toon material part.
I have found a post regarding same matter ( http://www.grasshopper3d.com/forum/topics/how-to-add-materials-to-material-table ), but since I am not very familiar with scripts, this is what I think his definition does. Correct me if I am wrong.
Since Rhino Vray only supports Toon environment per material (unlike Max Vray has global override feature),
1. import toon material from Rhino material editor
2. add colors to the toon material and make new toon materials with color (as many as needed)
3. import that new materials back into grasshopper
4. match them with designated geometries and render. (RenderAnimation component by Giulio does this job) Here is the final work he did : http://vimeo.com/34728433
Grasshopper + Vray from Marc Syp on Vimeo.
I am using rhino 4 with vray 1.5.
I have uploaded my definition, simple definition that transforms box height along with color as frame advances. The definition works but toon effect is not there.…
march june sep and dec.
my project is to determine the optimum opening size on each elevation separately (north, south, east and west) that can provide best daylight around the year.
what i did as following: modeled a parametric opening window with number sliders to control the window size on each elevation, and each window has 5 to 9 different dimensions ( Sizes in terms of H and W), then i want to run a simulation for each elevation to define the best window size that can provide maximum value of 500 lux average as an office space by examining the opening size against lux value each hour of the day from 8:00am to 6:00pm using galapagos. but the problem is when i used galapagos to run the simulation i couldn't find a way to get average window size of the 10 hours but instead i have to run the simulation each hour of the day which will result in 10 different windows instead of having a single window size that can provide me a decent daylight value during the whole day.
i don't know if there is anyway around ?…
B, as needed). I read lot of topics on forum and as I know it definetely works perfectly in older versions of grasshopper. In recent version is that problem, that´s not possible take data A and make difference with all of the data B. The choice which you mentioned works, but it takes data A and every one item make diference with all data from B - so it makes duplicates with holes on different places (see picture, its from example model from post before, you can try it)
I found 3 possible solutions:
1) C# script (made by S.Schiefer )
2) Python script (made by Ionut Anton)
3) get older version of GH
If am I right, it´s a pitty. Thank you , again
regards
J.…
y using the Honeybee_Update Honeybee component.
The video below (best viewed in full-screen mode) provides an idea of what these components are capable of being used for:
The video below shows how these components can be used in an existing Honeybee project (for additional links please open this video in youtube):
I have uploaded two examples as Hydra files that show how these components can be used for grid-point and image-based simulations:
Example1 : Grid Point Calculations
Example2: Image based simulation
Finally, a more esoteric application is demonstrated in this video:
These components are still in the beta-testing stage. Some of the limitations of the components are:
1. Only Type C photometry IES files are supported at present.
2. Rhino is likely to get sluggish if there are too many luminaires (i.e. light fixtures) present in a scene.
3. Due to the spectral limitations of the ray-tracing software (RADIANCE), simulations involving color mixing might not be physically realizable.
Additional details about photometric and spectral calculations are probably an overkill for this forum. However, I'd be glad to answer any related questions. Please report any bugs or request new features either on this forum or on Github.
Mostapha, Leland Curtis, Reinhardt Swart and Dr. Richard Mistrick provided valuable inputs during the development of these components.
Thanks,
Sarith
Update 16th January 2017:
An example with some new components and bug fixes since the initial release announcement can be found here
…
goal ist to use a component to tell the brick, you either be the same as the 1. selfmade brick or the 2.
to compare those I drew lines from the center point of each surface to their cornerpoints:
Then I took the overall length of all these lines together. and divided the area by this length:
The endpart of the script looks like this:
i'm trying to figure it out with galapagos, it somehow works but it can either make the 1. Equals-component to be true (so every item is true) or the 2. component but i'd like to have a list that for example says: True, True, True, False, True, False, False,...
Thanks for help
…
). forgive me if Iam wrong, but Iam partially colorblind so I cant see which axis is red/green :)
(Probably) plane with given z vector (normal plane) gets x and y axis by looking for world coordinate system, and so it can differ respectively to normal vector direction...
I preassume that .normalAt(u,v) works same as in surface divide component, which generates correct normal vectors (vector field ;))...
I'am also quite sure that David will add a new component which will be more flexible in planes generation (he wrote some time about it)...
"What is the best way to get 'smooth' transitioning normals across a row of points?" IMO the best, but not perfect :
evaluate reparametrized surface e.g. at uv = (0.5,0.5) (point A)
then evaluate it at uv (0.6,0.5) (u+0.1, v) (point B)
now you have 2 points, make vector -> (AB)
next use this vector + normal vector do define properly oriented normal plane (origin, normal vector as x axis, ab vector as y axis)
…
ated in all editions of Architektura Parametryczna Workshops!Architektura Parametryczna Workshops Optimization Warsaw 2016 FAQWHEN?21-22nd May 2016 (Saturday-Sunday)HOW LONG DO THE WORKHSOPS LAST?The workshops last in total 16 hours.Saturday 10AM -7PM (with lunch break), Sunday 10AM -7PM (with lunch break)WHAT WILL I LEARN?On Saturday the optimization processes with solar, views and structural analysis will be explored. We will be discovering optimal solutions with the help of plug-ins such as Galapagos, Silvereye, Octopus, Karamba and Ladybug. In the Sunday morning we will learn how to present the results of the optimization: creating catalogues of solutions and printing the optimization graphs. In the afternoon participants will have time for the development of the personal project. HOW MUCH DOES IT COST?The workshops cost 600 PLN (or 160€) for Early Bird payments and 700 PLN (or 190€) for the regular payments. The 3-person group - 1500 PLN (or 440€ )EARLY BIRD?For those who are certain that they will attend the workshops, we have a special Early Bird offer till 30th of April 2016.HOW CAN I SIGN UP?Send an email to info@architekturaparametryczna.pl with the title: “OPTI WAW 16”.HOW MANY PLACES ARE AVAILABLE?We have only 11 places!WORKSHOPS: Level: intermediate – advancePerquisites: the basic knowledge of Rhino and Grasshopper3D. Plug-ins: Silvereye, Octopus, Ladybug, Karamba. Weaverbird. Python GHThe main aim of the 16-hour workshops is to give the participants the understanding of how the optimization process can be used in practice and how it can help in solving everyday design problems. The practical exercise will be supported with the short lectures explaining the theoretical background of the optimization algorithms. The general program of the Optimization Warsaw 2016 Workshops*:1. Optimization of the facade geometry with solar analysis.2. Optimization of the roof structures with Karamba.3. Finding the optimal configuration of the space frame structures with Karamba.4. Discovering the best location or/and geometry of the building in accordance to the best views from the plot.5. Presentation of the discovered solutions. *Some of the exercises might be changed.…
imension(new Plane(new Point3d(5, 3, 0), Vector3d.ZAxis), new Point2d(0, 0), new Point2d(10, 10), new Point2d(5, 5));
myDim.TextHeight = 500;
doc.Objects.AddLinearDimension(myDim);
The bold line seems to be not working because I can't see any changes of text size in the rhino document.
2. I failed to add my DimStyle Object to the LinearDimension object I created above.
Rhino.DocObjects.DimensionStyle myDimStyle = new Rhino.DocObjects.DimensionStyle();
myDimStyle.ArrowLength = 100; myDimStyle.TextGap = 200; myDimStyle.TextHeight = 500;
int dimStyleIndex = doc.DimStyles.Add("myDimStyle", false);
myDim.DimensionStyleIndex = dimStyleIndex;
The bold line seems to be not changing the style of my LinearDimension object.
Could anyone help me with these two failures?
Thanks!
-Jerome
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