string may contain any number of curly bracket pairs with non-negative integers in them:
"When {0} brings back {1} days and {2}"
The number inside the brackets refers to the data to insert in that location. In effect, {x} is a placeholder for actual data. The data inserted into a specific bracket pair is the data supplied in the latter part of the function. {0} refers to the first item, {1} to the second, {2} to the third and so on ad infinitum.
If I supply some data the entire expression may look like this:
Format("When {0} brings back {1} days and {2}", "Spring", "blue", "fair")
which will result in the string "When Spring brings back blue days and fair".
If the data you're inserting is a number (or a date) then you have additional formatting flags that you can use. These additional flags appear behind the placeholder index integer separated by a colon.
Format("Pi = {0:0.00} ({0:0.000000})", Pi)
The :0.00 means the number will be formatted using two digits. The other flag will enforce six digits, resulting in: "Pi = 3.14 (3.141593)"
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 3:00pm on February 3, 2013
n the inability to be a real-life member within a parametric workflow (same kind of issue with Evolute Tools Pro).
As regards strictly AEC matters the main problem with GH is Rhino itself (not feature/constrain driven, not a solid modeler, not AEC oriented by any means and not biased towards assembly/component modeling). Other than that and due to the known GH inability to handle/manage blocks/nested blocks at bake time ... well... I hardly can see how "to set up work flows between different tools such as ..."
I'll post soon 5 - rather "trivial" - AEC cases that are totally undoable (shop drawing level) with anything other than CATIA (or NX).
BTW: since international practices grow and grow in numbers these days (and individuals are dead) I can't see any realistic limitation for creating dedicated teams (kinda like Frank Gerhy did) that can easily deal with the "extremely heavy" nature of the beast.
BTW: this is a job ad (Project Architect role) from one of the biggest US AEC practices (rather a corporation, he he)
How things change these days ... don't you agree?
best, Peter
…
nette for years.. but without the nice GUI. It also allows combining constraints solving to be part of the DAG.
What is parameterics? Or parametric associative as GC has been described. Can't remember. History or procedural modeling? Even constraints solving or rules based solving all use parameters. Is it generative or merely parametric? I guess the difference is a parametric door doe not generate other parameteric doors?
BIM has opened the door to a more data centric view and manipulation of the design model. To old skoolers a wall is a linear construct that can be abstracted into parameters... beginning and end points of wall in plan + height and thickness. But start adding other stuff and need to ineteroperate with others and things get problematic.
Pretty soon, all those abstractions (parametric or otherwise) need to be structured and you end up talking about schemas etc to control the format of the parameters using rules as checks or constraints..so that your parameters can interface with parameters from others without causing data quality issues. It all gets very database thinking like.
So, I would say parametrics as GH does it is more free form and ad hoc and at some point if it goes BIM, the parametrics will be need to be (re)structured..
BIM is dependent on IFC development which is not very fast. IFC4 is only beginning to think about parametrics and 'Design Transfer'.
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humacher (Zaha Hadid) and in fact most issues of AD (Architecture Design)
The Politics of Parametricism: Digital Technologies in Architecture by Matthew Poole, which is kind of a follow up
In my opinion learning Grasshopper will be enough and there is no need to learn Python to use it successfully. Best to have a deep understanding of Grasshopper and what it can do then to try and learn too many things at once. It will help you in applying the principles to other code and not the other way round (ie. learning the concepts first and then going into grasshopper). The best way to learn the concepts is by applying and trying them in a tool like Grasshopper.
I absolutely recommend that you visit a Grasshopper workshop, as that will teach you a lot more than Youtube videos. If you cant visit a workshop, then I recommend the rese.arch video series on Grasshopper. They're really indepth and go from simple introduction to very advanced. You should ideally buy and complete all of them.
Also there is of course Dynamo and its integration with Revit and BIM, which is something to look at, although Grasshopper covers all of that as well, at least with the integration with ArchiCad. Autodesk products are more common around the world though.
Be aware that a lot of the power of Grasshopper is also in the plugins you can get for it, like Kangaroo (physics simulation), Ladybug&Honeybee (environmental analysis), Karamba (finite element analysis), Hoopsnake or Anemone (looping) and many, many more. You can find them at food4rhino.com.
Good luck!…
2d grid from
grasshopper but in 3d, fully controllable of course. I want to do something
like the image in this web
site:http://news.cnet.com/Photos-Weaving-high-tech-fabrics-of-the-future—page-12/2009-1008_3-5667576-12.html
I figured that connecting points and lines kind of works (point and line input AB command) but the line length changes when I move a
point. What I want to be able to do is to move a point and drag others but keep
the line segments constant, just as a real net.
…
Added by Jesus Garza at 8:28am on February 23, 2010
ehow acquire different settings/are calculated differently. Appears at random “rows” of points, sometimes it all works fine, so I need to do a series for the error to show. See images below.
In the Ladybug fly run the VT of the window changes.
It’s taken me a day and a half to track this error down. Phew.
I get the same error on two different comps.
What is causing this? Does anyone get the same error? Images below created with RADquality set to 2, and 7 cores. Fiddling with Radsettings dont help, I think, except error goes away with very low ab.
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diseño, construcción y entendimiento de nuestro entorno.
BIM está poniendo a disposición de los diseñadores y gestores auténticas bases de datos que pueden generarse, conectarse y editarse de forma paramétrica, proporcionando una sólida capa de realidad a los ejercicios de diseño generativo y computación que son objeto de estudio en Algomad, el seminario que busca popularizar la programación y la parametrización en el diseño y en la experiencia de nuestro entorno construido.
Tras un paréntesis en 2015, Algomad vuelve con el objetivo de demostrar cómo una visión computacional del BIM es una oportunidad para mejorar la forma de trabajar de ingenieros, arquitectos, constructoras y operadores de edificios e infraestructuras, tendiendo un puente entre las técnicas de diseño digital más avanzadas y la realidad de la construcción.
Algomad 2016 tendrá lugar en el centro de Madrid, en IE School of Architecture and Design, IE University, los días 3, 4 y 5 de Noviembre de 2016 y comprenderá 4 talleres así como ponencias a cargo de expertos de primer nivel.
Estructura de Algomad 2016
Algomad 2016 se estructura en torno a tres áreas temáticas principales:
BIM, como la metodología total específica para el sector de la construcción.
Computación, englobando las aplicaciones de programación y parametrización al diseño de edificios e infraestructuras.
Realidad, como marco de trabajo, buscando siempre resolver problemas reales a través de los dos puntos anteriores.
Público objetivo
Arquitectos, arquitectos técnicos, ingenieros y en general académicos, estudiantes de últimos cursos y profesionales del mundo inmobiliario y de la construcción que compartan un interés por la digitalización de nuestro sector. Se espera un nivel mínimo en el uso de herramientas BIM y de parametrización. Algomad proporcionará formación adicional y gratuita en las herramientas básicas a emplear en los talleres para asegurar un correcto desempeño.…
mmon.sdk ,but i herad its used in rhino5.
or example: the book grasshopper primer second edition ,page 98
i dont know what is the "doc.absolutetolerance" and where i can find about it....i dont kow it should be a class or a fuction,i tried to search the rhino4. net sdk,i cant find it ....maybe its my searching problem.
but according to the grasshopper primer, i indeed know many kind of Variables,many functions,basic structure, loops, and conditions,and what is onutil.xxxx and rhutil.xxxx.but i found all this imformation is not helpful enough to me when reading the examples downloaded from many disscussions.when i found a new variable or new funcion,i dont know where i can find the introduction about them,such as the upper coding:"doc.absolutetolerance".i tried to use the auto complete such as
dim xxxx as oncurve
xxxx. to find the class oncurve's funtions and variables ,but its too uneffcient.
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And,i dont know the difference between the components vb script and dotnet vb script....
because i found when i type onutil. the auto complete has noting appear...and the variables declaring is not the same. in vb script dim xxxx as curve but in dotnet vb script its dim xxxx as oncurve,which is the same as the grasshopper primer teached me...but i guess.... the vb script component is just like the rhinoscript(not the same),and the dotnet vb script is more powerful than it. am i right?
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at last i dont know these.
Imports System Imports System.IO Imports System.Xml Imports System.Data Imports System.Drawing Imports System.Reflection Imports System.Collections Imports System.Windows.Forms Imports Microsoft.VisualBasic Imports System.Collections.Generic Imports System.Runtime.InteropServices
when i search google about them,the introduction about them is too professinal for me to understand......i just want to know what i can do by using them ...
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sorry for disturbing you so much!!!
best regards!
yours truly
YUAN.T
…
sinergetici associati alla compresenza simultanea di differenti strumenti di analisi e digital design all'interno di un processo di progettazione in svolgimento. I partecipanti utilizzeranno Grasshopper (modellatore parametrico per Rhino): l'uso di questo editor grafico di algoritmi si integra alla perfezione con gli strumenti di modellazione di Rhinoceros 3D espandendo le possibilità di corstruire modelli parametrici altamente complessi. Per generare una complessità simile saranno utilizzati collegamenti live ai diversi programmi elencati di seguito: . Autodesk Ecotect Analysis via GECO . FEA software GSA via SSI Durante questi intensi 3 giorni, i partecipanti impareranno il workflow dei plug-ins con l'aiuto di esempi esplorando una panoramica dei differenti software, le possibilità di testare le performances di un progetto o l'uso di strumenti addizionali non legati ad un singolo sistema (es. accentuazione, formazione, reazione parametrica) [english text] The focus of the workshop is to integrate and correlate the synergistic effect associated with simultaneous presence of different digital design- and analysis tools in an ongoing design process. The main attention is set on easy to handle interface , which should be used at a early stage of conceptual design to respond to external and internal influences in a intelligent and sustainable way. Participants will use the software Grasshopper as a parametric modeling plug-in for Rhino. The usage of this graphical algorithm editor tightly integrated with Rhino's 3-D modeling tools open up the possibility to construct highly parametrical complex models. To generate this complexity we will use live linkages to several programs listed below: . Autodesk Ecotect Analysis via GECO . FEA software GSA via SSI In this 3 intense days, the participants should learn the workflow of the plug-ins with the help of examples and get an overview of the different software's, there possibilities for evaluating the performance of a design or the usage of additional tools to be not chained to a single system . (e.g. parametrical accentuation, parametrical formation, parametrical reaction) [.] Dettagli : Istruttori: Thomas Grabner & Ursula Frick from [uto]. lingua del corso: inglese (saranno disponibili tutor di supporto ma è richiesta una conoscenza di base della lingua unglese).
Quote d'iscrizione (min 12 max 20 posti): educational* : € 280.00 + iva professional: € 450.00 + iva * studenti, docenti, ricercatori, dottorandi e laureati fino a un anno dalla data di laurea OFFERTA EARLY BIRD SPECIAL: le prime 5 domande di iscrizione pervenute entro il 31 Dicembre 2011 avranno diritto ad una quota di iscrizione scontata del 20% Quote d'iscrizione E.B. SPECIAL: E.B. SPECIAL educational* : € 224.00+ iva E.B. SPECIAL professional: € 360.00+ iva. ulteriori info, dettagli e iscrizioni: http://www.co-de-it.com/wordpress/nexus-advanced-grasshopper-workshop-with-uto.html…