edan ser cortadas en la CNC, esto es tomar en cuenta el tamaño máximo de la cama y limitar todo el modelo a estas medidas, en cualquier caso esto no es lo que te interesa.
La tercera definición convierte la superficie en una sucesión de curvas, la distancia entre estas será el grosor del material, luego permite generar tres capas (layers) que responden, 1. uno a la estructura 2. otro a una "pipe" que atravieza el modelo de manera longitudinal y que cambia constantemente de posicion a lo largo de su trayectorio y 3. el mismo que la primera solo que escalada 15% mas pequeño.
Como existen ahora 3 capas de información en el mismo lugar usando Tautologias, se indica que capa va en determinada sección y cual no. Así se logra el cambio de densidades y las distintas capas de información simplemente se combinan permitiendo la emergencia de un nuevo sistema.
Espero poder ayudar...
Saludos,
LF…
hen in maxwell render there is a built in batch render script where you just select the folder that contains the scene files. It just does one at a time until they are all done (when they reach a given time or sampling level).It's true that maxwell renders take a long ass time, but the way it deals with light just by default is sooo much better than other renderers (in my opinion).There is also a progressive rendering mode (which I haven't messed with yet) but the idea is that you tell it an initial sampling level (of say 5 for example) and then a final one (of 15 or whatever). This creates a quick rendering that you can use to start doing post production on (an make little grainy test animations) and then it will continue on to the higher sampling level afterwards. Might be nice to integrate that into the process somehow.…
the 'point count' (because the points are closer together), a high number reduces the point count.
Set to 15 generates 4020 points and takes 11.2 seconds on my machine.
Set to 10 generates 9045 points and takes 24.7 seconds.
Set to 5 generates 36582 points and takes 1.7 minutes.
Set to 2 generates 228362 points and takes 10.5 minutes. (not recommended)
It adapts to changes in the horizontal and vertical angles (width and height) of the "flashlight" beam, changing the point count appropriately.
…
rom another component within the file.
on 3, i'm not quite sure what you mean. i am looking to use the same graph but have 2 inputs and 2 outputs. OR make 2 graphs while the second one should get the graph info from the first one but use different input values. otherwise said, i want to with only one graph to control 2 (or more) series.
on 4, i might have not been clear what i was referring to. sorry about that.
what i am saying, is that the panel component should adapt it's height so that it shows all list elements. Therefore if it receives a 15 element list, it should adjust the height accordingly, and if the list length changes, it should modify it's own height so that it isn't bigger or smaller than necessary.…
've used [Mass Addition] to add all my vectors together and then the [Angle] to measure it against the X axis. note the result has been converted from radians to degrees.
Or
I've use [Vector XYZ] to compose my vector first.
Note also its best to post questions like this in the Discussion Forum. your more likely to get a quick response there. Also you cannot edit these comments where as a reply you've got 15 minutes to correct mistakes or add material.
…
Added by Danny Boyes at 10:50am on October 26, 2011
oints when you divide the isocurves. So if on one level you only have 1 isocurve, divide it in to 30; 2 isocurves divide each into 15 (15x2=30); 3 isocurves divide each by 10; etc. Then make sure that the levels are a proper distance apart, and that the isocurves are divided densely enough. You still may get some artifacts in your mesh, which is why I am interested in what panhao has done here, although I don't know any scripting to translate and java classes to C# classes, although it may be "nothing new".…
nth". It complains about "global name "orange" not defined. When you define this situation through Series component it works fine. Checked with other LB components that use input from the AnalysisPeriod and they seem to work well, so the issue is only with SunPath.
2. Another one with the same components: defining, for instance, fromHour 10 - toHour 15, in the model you get from 10 to 14 (one hour less than you asked for), even though that the report output and analysisPeriod input are correct.
3. If already there, defining the "center point" for the Sunpath will be usefull. Not always you want the 0,0,0, or the center of the model. I mentioned this after seeing the part of the video when you intersect the lofted sun positions with a building. Of course you can move the model or move the fan but this can make a shortcut for the user.
Thanks,
-A.…
sible fitness for each component have the same value.
Let's say you have your three components as mentioned before, A, B and C. A is to be minimized, B is to be maximized and C is to be optimised at 15. Furthermore, the possible values of A can vary somewhere between 10 and 500, B can vary between 0.1 and 0.8 and C can be anywhere roughly in between 5 and 60.
So the best possible fitness will be {A=10, B=0.8, C=15} and the worst possible fitness will be {A=500, B=0.1, C=60}.
In table form:
A {min = 10; max = 500; range = 490; target = 10}
B {min = 0.1; max = 0.8; range = 0.7; target = 0.8}
C {min = 5; max = 60; range = 55; target = 15}
The range value is the important here because it tells you the 'strength' of the variable in the total fitness. Typically you aim to make all variables roughly equally strong. Which means our fitness function needs to have weighting factors, so that the components of the fitness function are all {0.0, 1.0}. The old function (without weighting) looked like this:
f = -A + B - Abs(C - 15)
The new function might look like this:
f = -((A-10) / 490) + ((B-0.1) / 0.7) - Abs((C-15) / 55)
The 'rules' could be summarised roughly as follows I suppose:
The sign in front of each variable indicates whether we want to maximize (+), minimize (-) or optimize (-) the variable.
If a variable is to be optimized, then the fitness is defined as Abs(x - c), where x is the variable, and c is the target value. (I.e. optimization equals minimization of the difference between the variable and the target, hence the minus-symbol).
Variables need to be 'centered' at zero (or any other constant numeric, but zero is easiest), so subtract the lowest possible value it can have from the variable.
Variables need to be normalised to the (0~1) domain (or any other constant domain, but 0~1 is easiest), so divide the centered variable by the domain range.
Assuming the fitness progression is linear (which is not a given at all), the fitness ranges before normalisation looked like this:
and the normalisation weighting factors pull them towards each other.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 5:58am on August 14, 2011
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。…
Sunpath component. This is what I essentially did in the upper photo of my hometown's mask.For now this is working only for metric units. I will make sure that for the next release at least feets are supported as well.As for the saving of the time: try increasing the maxVisibilityRadius_ to say 300. Depending on your PC configuration and internet speed it may take as long as 15 minutes for the component to run. The topography file will first be downloaded from opentopography.org. That's the .tif file you noticed. Once the mask is created it will be saved to an .obj file. The next time you run it the mask will be imported from the .obj file, skipping the previous 15 minutes:
It still may take a a couple of minutes (depending on your PC configuration) for the component to complete loading of the mask. The reason why is: the mask needs to be scaled and centered according to the context_ input.Also the next time a user decides to change the maskStyle_ input or context_ input, the topography data will not be downloaded from the opentopography.org website, but rather created from the .tif file.For default maximalVisibility_ of 100, these .tif files are mostly a couple of megabytes, which is not that much of a burden on user's hard drive space. On the other hand keeping these .tif files on user's hard drive helps saving the opentopography bandwidth cap.Let me know if I can answer any further detail or if this one hasn't been clear.Hi Chris,
Thank you too.Please provide the following data:
1) Zip the "terrain shading mask libraries 32-bit" folder in "c:\ladybug" in case you have x86 version of Rhino 5, or "terrain shading mask libraries 64-bit" folder in case you have the 64 bit version of Rhino 5. Upload the zipped folder, and post the link in here, please.Zip the whole folder, not its content only.
2) What is the full name of the GDAL libraries .zip file that you downloaded? What is your Windows version and Rhino 5 version?
On genDayMtx.exe and install of the GDAL libraries: I am reluctant to avoid manual install due to blocking issue. Copying two folders manually is quite a small price to pay in comparison with finding the blocked library among tens of them.…