right? When the dataTree is this simple its not really a problem, but when it grows and I want to be able to refer to a specific GH branch e.g. {11;320} and I need to read this specific branch in Python? How do I do this?
I know that there is the function tree.Path(x) this will give me the GH Path, but how do I figure out what x needs to be? I guess there must be a simple answer :).
Thanks Rasmus…
Added by Rasmus Holst at 1:24am on October 14, 2013
s the "Surface Populating" definition: I manage to populate my geometry over the surface, but after I bake it, I have to delete the boxes that define my components limits as well! Is there any way of populating and baking only the chosen component, without having to delete the boxes afterwards?
Secondly:
Basically: I am trying to cover a surface with two types of components [ an open one and a closed one] , which will be proliferated over my tubular surface according to the main sunlight direction.
1. I introduce the surface component.
2. I use "Divide Interval2" in order to have division into U and V.
3. i generate the target boxes [ "surfaceBox"] .
4. I use "Isotrim" ( same intervals) and "BRepArea" to find centroid of each area.
5. My "Curve" component introduces sun angle, with its "End Points".
6. I use "Vector 2Pt" to specify sun-light direction.
7. I want to measure the angle between sun-light and the surface normals, at the position of each component; after generating the centre points, I need the normals of each centre point to get the surface's points' UV, and "Evaluate" the srf at points.
8."Angle" and "Vector" components: I use them in order to evaluate the angle between the sun direction and the srf.
9. I convert this angle to degree by using a "Function" [ to see if the angle is bigger from the max.angle or not...]
10. Function "x,y" gives me boolean data.
11. Data become "Dispatch"ed...
12. Two "Morph" components , each one linked to one part of the "Dispatch" data, generate "closed" and "open" components over the srf.
The result should have been different types of components, based on the surface's curvature, diraction and sun-light direction...
I do not understand where the mistake is in this definition...
Thx in advance1
Spyros K.…
ells new products like the Firefly Interactive Prototyping Shield which mounts on top of your Arduino Uno and provides access to a number of useful input (ie. sensors) and output (ie. motors) devices. It includes features like:
Three linear slide potentiometers connected to analog pins 0, 1, and 2
Two-axis joystick connected to analog pins 3 and 4
Light sensor (photocell) connected to analog pin 5
Three push buttons connected to digital pins 2, 4, and 7
Red LED connected to digital pin 13
RGB LED connected to digital pins 3, 5, and 6
Two servo connections on digital pins 8 and 9
A connection to the Easy Stepper Driver (co-designed by Sparkfun Electronics and Brian Schmalz) to control stepper motors. The direction of the motor is controlled through digital pin 10 and the number of steps through digital pin 12
High-voltage MOSFET circuit capable of driving lights, valves, DC motors, solenoids, or anything else requiring higher voltage or current. The gate of the MOSFET is connected to digital pin 11 (PWM).
Some come take a look and let us know what you think!
…
he default for Rhino, degree=5 gives you smoother curves, but each control point matters less, degree=11 is the highest degree Rhino allows. Apart from 2, degrees tend to be odd rather than even, though Rhino supports both.
In addition to the degree and the control points, Nurbs curves have knots. A single knot is just a number, and the list of all knots is called the knot-vector of a curve. The number of knots depends on both the degree and the control-point count, and the spacing of the knots affects the shape of the curve a little bit. If there are <degree> knots with the same value, then the curve is somewhat discontinuous at that location which could manifest itself as a kink or as a clamped end-point. However it is not possible by just looking at the shape of a curve to say where stacked knots might be, but you can use the Rhino _List command to inspect all details of a Nurbs curve.…
eroberfläche des Grasshopper Programms
Funktionsprinzip eines grafischen Algorithmus-Editors (Datenfluss)
Unterscheidung von Parametern (Datentypen) und Komponenten (Datenverarbeitung)
Erzeugung, Bearbeitung und Analyse von Geometrie-Typen: Punkte, Vektoren, Linien, Kurven, Flächen (surfaces, brep) und Netze (meshes)
Strukturierung der Daten anhand von Listen und Bäumen
unterschiedliche Verknüpfungsmöglichkeiten von Parametern (data matching)
praxisnahe Grundlagen der Geometrie und Vektorrechnung für generatives Design
effizienter Aufbau von parametrischen Modellen anhand Übungsaufgaben
Auszug von Daten aus Modellen für die Fertigung; Daten aus Tabellen (Excel, CSV) importieren, exportieren
Einsatz von benutzerdefinierten Komponenten (custom components)
Vorkenntnisse: Rhinoceros3d Benutzeroberfläche der Software: Englisch Unterrichtssprache: Deutsch
Details und Anmeldung:
www.vhs-sha.de
click: SUCHE
Kurstitel: GRASSHOPPER
oder direkt:
http://www.vhs-sha.de/index.php?id=90&kathaupt=11&knr=3151053&kursname=Grasshopper+I
Trainer: Peter Mehrtens
Kursdauer: 3 Tage / 8 Stunden pro Tag
Freitag, 19.07.2013, 08:00-17:00 Uhr Samstag, 20.07.2013, 08:00-17:00 Uhr Sonntag, 21.07.2013, 08:00-17:00 Uhr Ort: Volkshochschule Schwäbisch Hall, im Haus der Bildung
Teilnahmegebühr: 349,00 € Teilnehmerzahl: 4-10 Personen
…
ncepts and features of Grasshopper at an accelerated pace in an instructor-led online environment.
Session Schedule: 9:00am-10:45am Lecture/Classwork Break 10:45am-11:00am 11:00am-12:30pm Lecture/Classwork 12:30pm-1:00pm Questions (optional participation)
Details: An outline of the class material is available here. The class will be conducted in English using the GoToTraining software. You will need Rhino 4.0 for Windows or the Rhino 5.0 for Windows beta installed. You will also need the latest build of Grasshopper. You may use the Rhino 4.0 for Windows evaluation version, however you will be limited to 25 saves. Using the Rhino for OSX WIP is not acceptable for this class.…
R Light Studio - Georg Sochurek Schnelle Beleuchtungsoptimierung mit HDR Light Studio: HDRI-Environment-Maps in Echtzeit ganz einfach erstellen und bearbeiten 10:45 - 11:45: C4D und Adobe Photoshop - Christoph Schindelar Prototyping für einen Wintersportartikel-Hersteller mit Cinema 4D 12:00 - 13:00: Autodesk 3ds max - Daniel Daghofer Software für 3D-Modellierung und Animation 13:30 - 13:30 Pause 13:30 - 14:30: MODO - Mathias Zellerhof Produktdesign leicht gemacht - mit modo 701 von TheFoundry 14:45 - 15:45: Rhino 5 - Dipl. Ing. Fabio Palvelli Advanced NURBS-Modelling mit Rhino 5 für Designer und Architekten 16:00 - 17:00: Autodesk Maya - David Wuchte Umfassende 3D-Animationssoftware 17:15 - 18:15: 3D Coat - Christoph Schindelar Feinmodellierung (Sculpting) & Design von Handy-Designelementen mit 3D Coat Zusätzlich haben Sie die Möglichkeit in den Pausen / im Anschluß div. Hardware zu testen / anzusehen: Monitore: CG Serie von EIZO (inkl. Swing Sensor/Colorimeter) EIZO Foris mit EIZO Spyder EIZO Touchscreen NEC Spectraview Reference inkl. X-Rite Colorimeter Stiftdisplays: WACOM Cintiqs 3D Mäuse: SpaceMouse Pro SpacePilot Pro…
lane that looks like the outline of a gear wheel
2. Scale a bunch of copies of the curve to different sizes (I use 11 different sized curves.)
3. Move each curve vertically to a different Z-height
4. Rotate each curve to get the desired wavy/wiggly effect
5. Create a Loft surface using all the curves.
A critical step when creating the Loft is to add the curves in order - either top to bottom or bottom to top.
Step 4 can be omitted if you want a constant curvature throughout the final part. In this case all you have to do is Twist by the desired amount the Loft surface made from un-rotated curves. …
Added by Birk Binnard at 2:18pm on October 15, 2016
ings" [every person on the experiment is one ring] which show the time duration. The outer sphere is divided in 11 segments [which are basically the segments of a human brain] I hav imported the data so far but what i aim is to find a way to connect each moment[time, second] from the inner sphere to a number of points from a specific segment in the outer. For example for Person number1, at 5th second the segments that are activated are 4th , 6th, 11th with 2, 3, 2 points.
It could be done manually but since the connections are a few thousands and i got the lists, i wonder whether there is a better way.
Any help is appreciated, i do not attach files since you need the excel files aswell. If anyone would like to help i can email the files.
Thanks in advance.…