you post a screenshot of what the message coming from its readMe! output looks like?2) Close your Grasshopper and Rhino.3) Download "Revo Uninstaller Pro" from here. It is free for first 30 days, which is what we need.4) Right click on the RevoUninProSetup.exe and check if the file is blocked. If it is, unblock it.5) Run the RevoUninProSetup.exe file and install "Revo Uninstaller Pro".6) Uninstall "MapWinGIS" with "Revo Uninstaller Pro". It is important that "Revo Uninstaller Pro" deletes not only files from MapWinGIS installation folder, but also all other leftovers (as registry inputs). Here is a small tutorial on how to do that. Watch it from 6:10 till the end.7) Restart your PC8) When your Windows boots up, make sure that you are logged in as Administrator!9) In your Start menu's search box type: "UAC", which will find your User Account Control Settings. Click on it, and a new window will open. Set the bar on the left to "Never notify".10) Turn off your Windows Firewall.11) Then turn off your custom Firewall (in case you have another one, besides standard Windows Firewall).12) Completely turn off your Antivirus.13) Download again the MapWinGIS-only-v4.9.4.2-x64.exe.exe file from here.14) Right click on the MapWinGIS-only-v4.9.4.2-x64.exe file and see if it is blocked. If it is, unblock it.15) Right click on MapWinGIS-only-v4.9.4.2-x64.exe file and choose: "Run as"... Administrator.16) One the installation preparation steps start, choose "Full installation". Wait for the MapWinGIS installation to finish.17) Right-click on "Rhino 5" icon and then choose: "Run as administrator".18) Open the the ironpython_admin.gh file again, and again post a screenshot of the message coming from its readMe! output.19) Drop the "Gismo Gismo" component to Grasshopper canvas. Post a screenshot of the message coming out from its readMe! output.
So we will need in total three screenshots of the readMe! output messages.
Thank you once again for being patient, and sorry for the large number of steps.…
Added by djordje to Gismo at 1:52am on April 9, 2017
ies a step further towards informative models, how to extract data through a parametric process and design analysis which leads to performance based schema.The workshop will cover some advanced modeling techniques in grasshopper along with some useful grasshopper plugins "GECO,WEAVERBIRD,KANGAROO and more". An introductory to ecotect analysis will also be inculded.The workshop is dedicated to intermediate Grasshopper users " knowledge of GRASSHOPPER equivalent to which gained in Parametricisim WS or higher is preferred".Knowledge of ECOTECT is a plus but not necessary".
Schedule :Deadline for Registration : May 13,2013Workshop Starts : Thursday, May 16, 2013 - 5:30 pmThe workshop consists of 10 lectures, Each lecture lasts for 3 hours.3 lectures per week (Sun, Tues & Thur) ---------------------------------------------------Fees : 600 L.EYou have to fill the Registration Form below for place reservation.We only have few places available. ---------------------------------------------------Prerequisite :-Students should bring their own laptops---------------------------------------------------Registration Form:https://docs.google.com/forms/d/1qd7cTRi8fGJ3OiVPjiNzHA0ZRmXI2qCvk1CUQ-X_4H8/viewformYou can view previous Parametric workshops,Student work & presnetation here :Previous workshophttps://www.facebook.com/events/469048376477647/https://www.facebook.com/media/set/?set=a.548388031851299.1073741826.470747186282051&type=1https://www.facebook.com/events/178326265647678/…
ceros.
Public concerné /
Architectes et designers, utilisateurs de Rhino souhaitant paramétrer Rhinocéros à l’aide de Grasshopper, programme
associant des composants et une structure de graphe interagissants avec le modèle Rhino.
Une bonne connaissance de Rhinocéros est nécessaire. La langue de la formation est le français.
Structure et Objectif de la formation /
La formation se déroule sur 3 jours : les 2 premières journées sont consacrées aux « fondamentaux » de Grasshopper
avec en préambule une introduction au design et à l’architecture paramétrique et leurs impacts dans la conception, la
création et la construction.
La troisième journée sous forme d’atelier est dédiée à l’étude de cas concrets proposés par les stagiaires, qui, quelques
jours avant la formation, pourront envoyer leurs projets par mail à info AT rhinoforyou DOT com
Les stagiaires, après la formation, pourront rester en contact avec les formateurs de HDA par le biais du blog
complexitys.com et le twitter @HDA_Paris. La durée de cette formation permettra d’atteindre une autonomie et une
bonne compréhension basée sur des exemples concrets.
3 Formules possibles /
3 jours ( Initiation+Atelier ) : du lundi 20 septembre au mercredi 22 septembre
2 jours ( Initiation ) : lundi 20 et mardi 21 septembre
1 jour ( Atelier ) : mercredi 22 septembre
Programme ind icatif des notions traitéES pendan t la formation /
Introduction à la conception Paramétrique . Rhinoscript, Grasshopper: différences et similarités . Interface
graphique de Grasshopper . Objets, Données, Listes . Opérateurs scalaires : La mathématique de
Grasshopper . Gestions des données : la logique de Grasshopper . Vecteurs, Points, Lignes, Surfaces : La
géométrie de Grasshopper . Listes, Arbres, Branches . Le dessin paramétrique: exercices divers et exemples
. Références, Bibliographie, Support de cours . Ateliers d’architecture et design paramétrique (3ème jour) .
Moda lité de la formation /
Venir avec un PC portable équipé de Rhinocéros version 4.0 SR 7 et de la dernière version du plug-in
Grasshopper (téléchargeable sur www.grasshopper3d.com).
Le coût du stage est de 350 € HT/jour par personne.
Réserver votre place dès que possible car les places sont limitées à 10 participants maximum.
Inscriptions et renseignements: Jacques Hababou, info AT rhinoforyou DOT com
Pour en savoir plus sur l’architecture paramétrique: www.complexitys.com…
ed to develop a component that reads data from a Tracking Server we have built here in our lab, on top of VRPN Server. We developed a client library to communicate with this server and to read data from different devices through the server, making our life easier. The fact is that I need to update data received from a wiimote for example (at a regular time interval) and output this data to feed other components. Our first approach was to test the inclussion of that library into the context of Grasshopper and it worked, but just and only for the first time the component is created of course. Now the problem is to call this update function inside grasshopper multiple times and update the output. I'm new to grasshopper component coding so, it would be nice if I can get some response of an expereinced developer or at least somebody that have developed something like the example I'm exposing here. Some code is posted below to clarify what I'm saying.
...
using VRPNClassLib; //This is our class lib.namespace MyComp{ public class MyComp : GH_Component { private VRPNController controllerWiimote = new VRPNClassLib.VRPNController("WiiMote0@localhost"); private Wiimote wii = new Wiimote();
...
private double rotX, rotY, rotZ; public MyComp() : base("Al required params ok") { try { controllerWiimote.addDevice(wii); } catch (Exception e) { throw new Exception("No wii controller attached to the PC: -->" + e.Message); } }
...
protected override void RegisterOutputParams(GH_Component.GH_OutputParamManager pManager) { pManager.Register_DoubleParam("Pos X", "X", "Wiimote X"); pManager.Register_DoubleParam("Pos Y", "Y", "Wiimote Y"); pManager.Register_DoubleParam("Pos Z", "Z", "Wiimote Z"); } protected override void SolveInstance(IGH_DataAccess DA) {
// If execute MainLoop() here for the first time it works of course, but I need to continuously read data from wiimote, how do I do that
MainLoop(); DA.SetData(0,rotX); DA.SetData(1,rotY); DA.SetData(2,rotZ); }
protected void MainLoop() { controllerWiimote.UpdateData(); //this is the function that updates device data rotX = Math.Round(wii.getSensorRot1(),2); rotY = Math.Round(wii.getSensorRot2(),2); rotZ = Math.Round(wii.getSensorRot3(),2); }
public override Guid ComponentGuid { //Genere el GUID del componente get { return new Guid("8F9858D8-F18E-45f2-90EC-CC23523ACC4F"); } } ... }}
So any sugestions are welcome.
Cheers :)…
rent actors to work together in real time on an architectural project.
DixieVR was born from the idea that virtual reality could become a fantastic tool for architecture and architects, not only for virtual tours but for the conception at its very core. Inspired by the efficiency of sandbox games, DixieVR will allow you to build a fully parametric 3D model from scratch in a very intuitive way and to simulate various factors like natural and artificial light, gravity, and more. DixieVR is also multi-user oriented : several people, architects or not, are able to work together in real time on the same 3D model and in the same shared immersive environment !
The project started in the Digital Knowledge department of Paris-Malaquais Architecture School.
The DixieVR Softwares can be found here : dixievr.github.io
// Interoperability
DixieVR deals with .dix files. For more information about this file format, please refer to the Interoperability documentation of DixieVR.
You can use this DixieIO plugin for Grasshopper/Rhinoceros for exchanging data between DixieVR (PC) & DixieViewer (Android).
You can import or export objects at any time inside a DixieVR scene. The Software also come with a library of premade objects that you might find useful. Adding your own premade objects to this library might be a good habit.
If you are hosting a scene, you also have the choice to open a .dix file directly from the main menu, this will load the last scene in which the geometry has been saved.
// Plugin
The DixieVR Plugin can be found in the Extra tab, come with 3 components and a example definition:
Dixie2Gh : Import DixieVR geometry to Grasshopper/Rhinoceros reading a .dix file (up to 1000 beams and/or 750 faces).
G2D_Polylines : Export Grasshopper/Rhinoceros Polylines to DixieVR writing a .dix file (up to 1000 line segments).
G2D_Mesh : Export Grasshopper/Rhinoceros Mesh to DixieVR writing a .dix file (up to 750 triangulated faces).
To install:
In Grasshopper, choose File > Special Folders > Components folder. Place the DixieIO_01.gha file there.
Right-click the file > Properties > make sure there is no "blocked" text.
Restart Rhinoceros or Unload Grasshopper.
// Contact - DixieVR
vr.dixie@gmail.com dixievr.github.io
- Oswald Pfeiffer oswaldpfeiffer.com
- Mathieu Venot mathieuvenot.com…
ceros.
Public concerné /
Architectes et designers, utilisateurs de Rhino souhaitant paramétrer Rhinocéros à l’aide de Grasshopper,
programme associant des composants et une structure de graphe interagissants avec le modèle Rhino.
Une bonne connaissance de Rhinocéros est nécessaire. La langue de la formation est le français.
Structure et Objectif de la formation /
La formation se déroule sur 3 jours : les 2 premières journées sont consacrées aux « fondamentaux » de
Grasshopper avec en préambule une introduction au design et à l’architecture paramétrique et leurs impacts
dans la conception, la création et la construction.
La troisième journée sous forme d’atelier est dédiée à l’étude de cas concrets proposés par les stagiaires, qui,
quelques jours avant la formation, pourront envoyer leurs projets par mail à - info AT rhinoforyou DOT com -
Les stagiaires, après la formation, pourront rester en contact avec les formateurs de HDA par le biais du
blog complexitys.com et le twitter @HDA_Paris. La durée de cette formation permettra d’atteindre une
autonomie et une bonne compréhension basée sur des exemples concrets.
Programme ind icatif des notions traitéES pendan t la formation /
Introduction à la conception Paramétrique . Rhinoscript, Grasshopper: différences et similarités . Interface
graphique de Grasshopper . Objets, Données, Listes . Opérateurs scalaires : La mathématique de
Grasshopper . Gestions des données : la logique de Grasshopper . Vecteurs, Points, Lignes, Surfaces : La
géométrie de Grasshopper . Listes, Arbres, Branches . Le dessin paramétrique: exercices divers et exemples
. Références, Bibliographie, Support de cours . Ateliers d’architecture et design paramétrique (3ème jour) .
Moda lité de la formation /
Venir avec un PC portable équipé de Rhinocéros version 4.0 SR 7 et de la dernière version du plug-in
Grasshopper (téléchargeable sur www.grasshopper3d.com).
Le coût du stage de 3 jours est de 1050 € HT par personne.
Réserver votre place dès que possible car les places sont limitées à 10 participants maximum.
Inscriptions et renseignements: Jacques Hababou, info AT rhinoforyou DOT com
Pour en savoir plus sur l’architecture paramétrique: www.complexitys.com…
of the point cloud. It is super quick, compared to what you have seen so far in Rhino, to load and display point clouds, as it works on multiple threads. Amongst others you can section the point cloud for referencing your footbridge, decimate it as needed for creating the enviroment, denoise it, clip and save parts of point clouds etc. You can right click the cloud components, giving you access to dynamic preview of the cloud, so that it does not drag in viewport while panning and zooming and at the same time controlling the "thickness" of the points in viewport, in case your camera gets close to the point cloud. It is a matter of visual preference.
I think that even 200mil points can be loaded with volvox.
Some references
12million points
13million points
13million points (right click dynamic settings low thickness)
13million points (right click dynamic settings high thickness)
15 million points (around 20sec!! to l0ad)
My pc (i7 3820, 32gb ram, gtx670 4gb) felt comfortable working with up to 15 mil point clouds. But that has to do with hardware along with your patience while working.
All clouds have been loaded as .txt files where the mask describing the info was x,y,z,r,g,b,u,v,w. Depends on how your data is in-text formatted.
You can check fly through animations all done with gh and Volvox here
(starting @~2:20)
best
alex
…
r a couple of seconds (say 10) between setting the Boolean Toggle to False and setting it again to True.If you keep getting the same message, even after waiting for those 10 seconds, Try turning off one of the "OSM shapes" components, in case it has been turned on, and then try to turn on the "OSM shapes" component which raises the upper warning message.If it still repeats, try shutting down Rhino, and running it again. Then run first the component which raises the warning.Never leave the _runIt inputs of "OSM Shapes" components to "True" when you are opening the .gh files. Set them to "False" and rerun them to "True" once the .gh file is opened.
To stop going through all of this over, and over, you can internalize the "OSM shapes" outputs, once all of those components have been ran properly.
In general, "shapeType_" = "polylines" should contain non closed polylines. But as you noticed sometimes it can contain closed polylines, but to a lesser degree. I think this has to to do with the way OGR driver which MapWinGIS uses deals with OSM data. "shapeType_" = "polylines", should contain OSM's "way" elements, which sometimes can be closed as well, but limited to 2000 points.In defense of all of this, I can only say that OGR is probably the best open-source OSM to SHP file converter, so I guess we can't get better than this, if we are using SHP file readers, the way Gismo does.
From my limited knowledge, it can be that some online OSM to SHP services (like extract.bbbike.org, which you mentioned), also use the same OGR drivers.Have in mind that what sometimes looks like a house floor plan, may not be that. It can be that the same house floor plan is located in "shapeType_" = "polygons" but labeled as "building=yes/...", while the shape you see is some relation, but not labeled as "building=yes/...".Still I definitively see some closed forest areas in "shapeType_" = "polylines", so I have to agree with your observation. It makes the "OSM shapes" component's input description a bit inconsistent, but that's how OGR works, and we can't change it.
For finding rivers, you can use the Gismo "OSM objects" drop down list.It is using "waterway" as "_requiredTag" and no value for "_requiredValue" (meaning any will be accepted).
In the end, the "radius_" input can greatly determine the final shape of extracted data. Good example are wide rivers, like Seine. If you "radius_" is a bit smaller, then it can be that you won't cover much of the river, so you will not be able to extract its riverbanks. This is why I increased the radius in your definition to "600". This is the result:
I attached the .gh file below.
If you have any other suggestions, we would be grateful to hear them!
If the .gh file is still not working, please let us know!…
Added by djordje to Gismo at 3:56pm on January 14, 2018
ceros.
Public concerné /
Architectes et designers, utilisateurs de Rhino souhaitant paramétrer Rhinocéros à l’aide de Grasshopper, programme
associant des composants et une structure de graphe interagissants avec le modèle Rhino.
Une bonne connaissance de Rhinocéros est nécessaire. La langue de la formation est le français.
Structure et Objectif de la formation /
La formation se déroule sur 3 jours : les 2 premières journées sont consacrées aux « fondamentaux » de Grasshopper
avec en préambule une introduction au design et à l’architecture paramétrique et leurs impacts dans la conception, la
création et la construction.
La troisième journée sous forme d’atelier est dédiée à l’étude de cas concrets proposés par les stagiaires, qui, quelques
jours avant la formation, pourront envoyer leurs projets par mail à info AT rhinoforyou DOT com
Les stagiaires, après la formation, pourront rester en contact avec les formateurs de HDA par le biais du blog
complexitys.com et le twitter @HDA_Paris. La durée de cette formation permettra d’atteindre une autonomie et une
bonne compréhension basée sur des exemples concrets.
3 Formules possibles /
3 jours ( Initiation+Atelier ) : du lundi 20 septembre au mercredi 22 septembre
2 jours ( Initiation ) : lundi 20 et mardi 21 septembre
1 jour ( Atelier ) : mercredi 22 septembre
Programme ind icatif des notions traitéES pendan t la formation /
Introduction à la conception Paramétrique . Rhinoscript, Grasshopper: différences et similarités . Interface
graphique de Grasshopper . Objets, Données, Listes . Opérateurs scalaires : La mathématique de
Grasshopper . Gestions des données : la logique de Grasshopper . Vecteurs, Points, Lignes, Surfaces : La
géométrie de Grasshopper . Listes, Arbres, Branches . Le dessin paramétrique: exercices divers et exemples
. Références, Bibliographie, Support de cours . Ateliers d’architecture et design paramétrique (3ème jour) .
Moda lité de la formation /
Venir avec un PC portable équipé de Rhinocéros version 4.0 SR 7 et de la dernière version du plug-in
Grasshopper (téléchargeable sur www.grasshopper3d.com).
Le coût du stage est de 350 € HT/jour par personne.
Réserver votre place dès que possible car les places sont limitées à 10 participants maximum.
Inscriptions et renseignements: Jacques Hababou, info AT rhinoforyou DOT com
Pour en savoir plus sur l’architecture paramétrique: www.complexitys.com…
o I can apply your color gradient code (not shown but in GH file, off screen) after the Z sort:170316_SpheresStandardizer_2017Mar16b.gh
The fact that sphere 'Volume' is required a second time, after 'Pull' to wires, reminds me of a similar issue we dealt with last week: http://www.grasshopper3d.com/forum/topics/trimming-points-pulled-fr...
Seems to me that 'Pull Point' has a serious defect that requires extraordinary effort and/or kludgy code to remedy. If you don't graft the curves, 'Pull' returns each point pulled to it's nearest curve - exactly what you want, except without knowing which curve puled it?
In this code (above), you are using 'Pull D (Distance)', 'Smaller' with an arbitrary value as 'B' and 'Cull' to associate the closest curve with each point. In the other thread, I ended up creating brep cylinders around the curves to get the correct result. Ridiculous!!
I've spent a lot of time trying and utterly failing to find a truly proper solution. Is there one? (see "AHA!!!!" below!)
Searching the forum, I quickly found a couple old posts referring to the same problem:
pull point (bug?) May 27, 2009http://www.grasshopper3d.com/forum/topics/pull-point-bug
Small request April 18, 2013http://www.grasshopper3d.com/forum/topics/small-request
=========================
AHA!!!! I had given up and was about to post the above when I finally solved it. Created a cluster called 'PullT' that does the job, sorting by 'D (Distance)'. Here's the cluster:
And here's how it's used: 170316_SpheresStandardizer_2017Mar16c.gh
Notice that 'PullT' emits a cull pattern ('Pc') that can be used on related data to structure it into the same tree pattern - 'Volume (V)' in this case, so it's only used once. Could do the same with the original mesh spheres if there was reason to do so.
I've tested it on last week's code in the other thread and it seems to work fine; will post it there shortly.…