esn't do just that. I have 3 inputs which contain curves, one of the inputs usually has <null> items in it, so I am trying to filter out those nulls. The 3 inputs have different amounts of curves in them, normally one of the inputs is grafted as well.
So one would assume it just gets rid of the nulls and thats it. Well it doesn't. In my case it simply takes the curve from the first input (1 curve) and copies it 20 times (the second input contains 20 curves). The nulls are gone, but so are 19 other curves!? Maybe I don't understand the component properly, but its not doing what I am expecting.
Using a Merge component works as expected.
I am aware of checking for Null Items and using Dispatch, but I thought Combine Data is exactly for that purpose!?
Flattening the inputs makes no difference.
…
Added by Armin Seltz at 4:56am on January 25, 2016
be done easier, but later on the geometry will change and therefore this seems the better option. But coming back to the problem
First, there were some problems concerning the zone, although it seems solved still the “runenergysimulation” gives the following warning:
1. The simulation has not run correctly because of this severe error:
** Severe ** UpdateZoneSizing: Cooling supply air temperature (calculated) within 2C of zone temperature
Do one of you know what went wrong? It probably will solve most of it.
Second, “set Zone Thresholds” gives the following warning:
1. Solution exception:global name 'maxHumidity_' is not defined
However, the component is missing the max humidity input on the list, has this to do something with the error?
All the components are up to date.
I hope it will be an easy fix.
Gr Lars
“set Zone Thresholds” runtime error
{0;0;0}0. Runtime error (UnboundNameException): global name 'maxHumidity_' is not defined1. Traceback: line 80, in checkTheInputs, "<string>" line 282, in script
"runenergysimulation” report
{0;0}0. Current document units is in Meters1. Conversion to Meters will be applied = 1.0002. TypeError('Waarde kan niet null zijn.\r\nParameternaam: source',)3. Failed to copy the object. Returning the original objects...This can cause strange behaviour!4. [1 of 8] Writing simulation parameters...5. [2 of 8] No context surfaces...6. [3 of 8] Writing geometry...7. [4 of 8] Writing Electric Load Center - Generator specifications ...8. [5 of 8] Writing materials and constructions...9. [6 of 8] Writing schedules...10. [7 of 8] Writing loads and ideal air system...11. [8 of 8] Writing outputs...12. ...... idf file is successfully written to : c:\ladybug\unnamed\EnergyPlus\unnamed.idf13. 14. Analysis is running!...15. c:\ladybug\unnamed\EnergyPlus\eplusout.csv16. ......
Done! Read below for errors and warnings:
17. 18. Program Version,EnergyPlus, Version 8.3.0-6d97d074ea, YMD=2016.03.02 20:55,IDD_Version 8.3.019. 20. ** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details.21. 22. ************* Beginning Zone Sizing Calculations23. 24. ** Warning ** GetInternalHeatGains: People="CLASSROOMOFFICEPEOPLE", Activity Level Schedule Name values25. 26. ** ~~~ ** fall outside typical range [70,1000] W/person for Thermal Comfort Reporting.27. 28. ** ~~~ ** Odd comfort values may result; Schedule="SCHOCCUPANCYSCHEDULE".29. 30. ** ~~~ ** Entered min/max range=[0.0,1.0] W/person.31. 32. ** Warning ** Calculated design heating load for zone=CLASSROOM is zero.33. 34. ** ~~~ ** Check Sizing:Zone and ZoneControl:Thermostat inputs.35. 36. ** Severe ** UpdateZoneSizing: Cooling supply air temperature (calculated) within 2C of zone temperature37. 38. ** ~~~ ** ...check zone thermostat set point and design supply air temperatures39. 40. ** ~~~ ** ...zone name = CLASSROOM41. 42. ** ~~~ ** ...design sensible cooling load = 25499.10 W43. 44. ** ~~~ ** ...thermostat set point temp = 0.000 C45. 46. ** ~~~ ** ...zone temperature = 15.334 C47. 48. ** ~~~ ** ...supply air temperature = 15.000 C49. 50. ** ~~~ ** ...temperature difference = -0.33433 C51. 52. ** ~~~ ** ...calculated volume flow rate = 197273.21341 m3/s53. 54. ** ~~~ ** ...calculated mass flow rate = 237634.19357 kg/s55. 56. ** Warning ** ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.57. 58. ************* Testing Individual Branch Integrity59. 60. ************* All Branches passed integrity testing61. 62. ************* Testing Individual Supply Air Path Integrity63. 64. ************* All Supply Air Paths passed integrity testing65. 66. ************* Testing Individual Return Air Path Integrity67. 68. ************* All Return Air Paths passed integrity testing69. 70. ************* No node connection errors were found.71. 72. ************* Beginning Simulation73. 74. ************* Simulation Error Summary *************75. 76. ** Warning ** The following Report Variables were requested but not generated77. 78. ** ~~~ ** because IDF did not contain these elements or misspelled variable name -- check .rdd file79. 80. ************* Key=*, VarName=ZONE PACKAGED TERMINAL HEAT PUMP TOTAL COOLING ENERGY, Frequency=Hourly81. 82. ************* Key=*, VarName=ZONE PACKAGED TERMINAL HEAT PUMP TOTAL HEATING ENERGY, Frequency=Hourly83. 84. ************* Key=*, VarName=CHILLER ELECTRIC ENERGY, Frequency=Hourly85. 86. ************* Key=*, VarName=BOILER HEATING ENERGY, Frequency=Hourly87. 88. ************* Key=*, VarName=FAN ELECTRIC ENERGY, Frequency=Hourly89. 90. ************* Key=*, VarName=ZONE VENTILATION FAN ELECTRIC ENERGY, Frequency=Hourly91. 92. ************* Key=*, VarName=EARTH TUBE FAN ELECTRIC ENERGY, Frequency=Hourly93. 94. ************* Key=*, VarName=PUMP ELECTRIC ENERGY, Frequency=Hourly95. 96. ************* Key=*, VarName=ZONE VENTILATION TOTAL HEAT LOSS ENERGY, Frequency=Hourly97. 98. ************* Key=*, VarName=ZONE VENTILATION TOTAL HEAT GAIN ENERGY, Frequency=Hourly99. 100. ************* Key=*, VarName=EARTH TUBE ZONE SENSIBLE COOLING ENERGY, Frequency=Hourly101. 102. ************* Key=*, VarName=EARTH TUBE ZONE SENSIBLE HEATING ENERGY, Frequency=Hourly103. 104. ************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors.105. 106. ************* EnergyPlus Sizing Error Summary. During Sizing: 3 Warning; 1 Severe Errors.107. 108. ************* EnergyPlus Completed Successfully-- 5 Warning; 1 Severe Errors; Elapsed Time=00hr 00min 4.65sec109.…
思った感じになりません。
balls の代わりにplanarカーブを直接入れてみましたがエラーが出ます。
ファンクションにしてみたところ、forループので作った数値が反映されていません。
ファンクションのインスタンス?を出力していないと思い上記のようにしましたがエラーが出てしまいます。
以上の事から自分の認識が正しいのかよくわからなくなりました・・・
python自体の深いところをわかっているわけではないので余計こんがらがりました。
そこで、for b in ballsはどのような条件または使い方であれば使えるのでしょうか?
そして、上記のように別のオブジェクトに対しての使い方はどのようにすればできるのでしょうか?
2:同じファンクション内のdist = rs.Distance(self.pos,b.pos)についてですが
この文章も for b in balls によってbはBallのインスタンスであると定義?されたためb.posがbの位置であると分かるのでしょうか?
pythonは定義しなくても動いてしまうのでどのような時に使えるのか文章見ただけではよくわかりません・・・
大変細かいことかもしれませんが、よりpythonをしっかりと理解するためにも、どなたかわかる方ご教授いただけると幸いです。…
nowledge, tools, materials and machines. The Clusters provide a focus for workshop participants working together within a common framework.
Clusters provide a forum for the exchange of ideas, processes and techniques and act as a catalyst for design resolution. The Workshop is made up of ten Clusters that respond in diverse ways to the sg2012 Challenge Material Intensities. The Call for Clusters is now open to proposals which respond in innovative ways to this year's challenge.
Deadline: September 19 2011
More information can be found here:
http://smartgeometry.org/index.php?option=com_content&view=article&id=129&Itemid=146
sg2012 takes place from 19-24 March 2012 at EMPAC (http://empac.rpi.edu/) and is hosted by Rensselaer Polytechnic Institute in Troy, upstate New York USA. 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.
sg2012 Challenge Material Intensities
Simulation, Energy, Environment
Imagine the design space of architecture was no longer 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…
ceros. Parametrización, panelización y análisis en Grasshopper, así como el proceso de manufactura digital para maquinaria de corte Láser y CNC.
UN solo pago anticipado $4,000.00
Pagos diferidos $4,500.00*
*reserva tu lugar con el 50%
Martes y Jueves de 7 a 10 PM
Del 15 de Mayo al 14 de junio
DURACION: 30 HORAS
SESIONES: 10 DE 3 HORAS
o info@dimensiontallerdigital.com
informes al 55 (50 16 0634) con Mayri Gallegos (o al cel. 55 28 85 24 73)
$4,000.00…
para poder parametrizarla - Entender cómo se gestionan los datos con Grasshopper - Asociar formulaciones matemáticas a modelos paramétricos - Panelizar y triangular superficies - Parametrizar estructuras sencillas - Saber deformar modelos tridimensionales paramétricamente - Elaboración de algoritmos simples y aplicarlos a modelos tridimensionales - Exportar e importar tablas de datos
El curso será impartido por dos Authorized Rhino Trainers.
También te informamos de que hemos renovado el temario del curso, preparado específica y exclusivamente por nosotros, y que es revisado y ampliado continuamente, gracias a la experiencia de cursos anteriores. El curso tiene un formato intensivo de 18 horas, cuyo horario es: - viernes, de 16 a 20; - sábado, de 10 a 14 y de 16 a 20; - domingo, de 11 a 14 y de 16 a 19.
Si estás interesado en apuntarte, contáctanos en: cursos@frikearq.com…
se presentarán una pieza cortada con láser o CNC.Extracto de TemarioIntroducción Fundamentos Grasshopper Image Sampler V-Ray Interiores Que es es CNCFundamentos Interfase Visualización - Grasshopper V-Ray Exteriores Arboles de datos Corte, Laser e impresión 3dTeoria de Curvas Componentes y parametros Listas de datos V-Ray Materiales Clusters ToleranciasTranspocición Vectores y reticulas -Atractores Series y rangos Teoria de Superficies Conexiones Estrategias de modelado para manufacturaSimetrias Transpocisión parametrica Formulas Panelizacion Teoría de Ensambles Teoría de archivos para corteAtractores Cull Random Información del taller:Fechas: del 8 al 26 de Junio de 2015Sesiones: 8 de 3 hrs y presentación finalDuración: 27 hrs.Días: Lunes,Miércoles y ViernesHorario: de 19:00 a 22:00 hrsPrecio : $4,500 Apartado: $2,000Pago oportuno (antes del 1 de Junio): $3,500PAQUETESTaller y Rhino 5.0 Educativa: $6,500.00 Taller y Rhino 5.0 Comercial: $21,000.00 *Sólo hacemos reembolso en cancelaciones con un mínimo de 15 días previos al taller.info@dimensiontallerdigital.comtel oficina (55) 50160634…
ate the sky but CIE skies are standard models (See this file page 19 and 20). Average sky is a climate based sky that averages the values for each hour during the month, and it's useful to get a sense about the sky condition.
2. If you google for CIE sky and Radiance you will find several discussions. Some of them like sunny without sun are made for very particular uses. Read Greg's post here.
3. Yes. If you check the output of the component you can see the file path.
…
each circle's border, let us say 1.0
3) So, the curve will end up with 5 points, in each point will have a circle, each circle will have a different Radius, but the distance in between the borders of each circle is always the same = 1.0 in this case.
4) The end result list here would be like this to evaluate a curve with these values and find the points on the curve:
List = 1, 5, 11, 19 etc If I use these values to eval a line, I will get the perfect points where I can draw the circles.
…
1D when it comes to a location on a surface or a curve. If a 3D point shares a location on a surface we can represent it by means of the U and V co-ordinates of that surface.
In your example above the 4 surface corners are {2,2.5,0}, {17, 2.5, 0}, {17, 19, 0} and {2,19,0}. Unless you reparametrise the domains they will typically take the same domains as the curves that constructed them in this particular case the lengths (but these curves are only that length at the edges and only when you created the surface).
So the U domain is 0 to 15 (17-2) and the V domain is 0 to 16.5 (19-2.5). Even if you transformed the surface to another location or another shape these domains will not change and therefore the UV co-ordinate will not change. If you reparemterise the surface then the domains are set to 0 and 1 in both directions and this might be easier to work with. You can think of them as a percentage then, a UV location of {0.5, 0.5} of a reparameterised surface will always be in the middle of the 2D space.
All points on a surface in 2D have a 3D space co-ordinate as well, but not all 3D points have a 2D co-ordinate. This is why we need to use the Surface CP to get a UV value to evaluate a surface at a given point.
Incidently the 1D co-ordinate of a curve is represented by the parameter t
…