component that let you modify an existent .EPW file as you want, also just few hours or days or months of it.
This is a preview of it.
This new potential component creates a copy of Epw file automatically starting from an existing EPW file. In this case I modified dry bulb temperature from June to September, I added 5 °C to the original values.
or you can create your own values, for example here I plugged random values.
Or you can copy and paste your values from .xls column of a weather data into a panel component.
All your modified files are stored into a folder that you want.
I think should be useful a component like this. Anyway, I'll try to finish it as soon as possible.
Best
Antonello
…
try at the perpendicular planes.
All the data lists seem to be properly matched up and the points seem be listed in the correct order, but the script is working only if the polyline is not closed and I am trying to wrap all the way around. Also, in either case the corners are not working.
Hopefully someone knows how to get past this. I've posted the script below and the screenshots hopefully explain where the problem lies.
Thanks for any help!
Derin
…
Added by Derin Yilmaz at 7:10pm on November 30, 2014
eight, but it seems that i cant seem to make it work.
As I understand the component below has to create the a panel type per row (or storey), or am I misunderstanding the function of it. If yes how can I specify the panel type per floor? Should the surface that I am applying the panels be divided as well?
On a side note, is it also possible to specify panel type per orientation (north,east, etc)?
…
, the same for C+D. E is the curvature. Afterwards create two interpolated curves from the vertices and loft them. If the steps are small enough, the resulting smooth surface will be 100% developable (and straight when unrolled).
…
work just for one section curve after another, if there is a kind of a crotch(?) I have to do it seperately for each Volume and bool it later, with the Problems at the top of the thread
2. try: out of a rough mesh structure and then mesh relaxation. Problem is to inflate the mesh
no more ideas...
thank you for your help
…
y testing Breps individually and found the errors occur in the case of Open Breps (especially those which seem to have lines in them).
Closed Breps and Untrimmed surfaces seem to work fine.
Can anyone point me to a solution/workaround for this ? My gh file with internalized geometry is attached.
Thanks,
Sarith…
lem that makes them a weird vertice that doesn't let me generate the final Sweep...
I would like if anyone here know the solution for this problem
Here the hexagons look nice, but whenever we zoom :
Also, this thing creates lots of planes instead of one single one for each vertice, which causes problems to the Sweep 1.
I'm a beginner in this software actually, and I'm sorry bothering you, but it's for a project I'm trying to develop for school.
Thanks a lot !
…
he "View" tab, check if "File name extensions" options is checked. If it is not, then check it:
2) rename your main_ file as TerrainGenerator v20200827.gh.3) Open that TerrainGenerator v20200827.gh file as any other grasshopper file.
…
Added by djordje to Gismo at 11:42pm on August 27, 2020
from 0 to 1 and multiply those two lists.
So if a point is close to the attractors (building and blocks outlines) then its Z value is multiplied by 0 (or something close to 0) and so the surface becomes flat at this point.
Likewise, if a point is away from the attractors it's Z value is multiplied by 1 and so the surface is left unchanged at this point.
Now, if you already have a surface, you can do (more or less) the same. But instead of having all your starting points at z=0 and move them on Z, you now have to get each point's coordinates, multiply it's Z value with the same list (from 0 to 1) and rebuild the points with this new Z value:
Now, if you want some more control over the "flattening" effect, you could add a single expression component after the Distance output of [Pull], with 3 inputs (X=Distance, Y=slider for min distance, Z=slider for max distance) and the expression: If(x<y, y, if(x>z, z, x))
This is similar to what both you and Joseph did at some part of your definitions.
So with the expression component you keep the areas near the attractor curves flat and the areas away from them unchanged and with the graph mapper you create a smooth transition in between.
Hope this is clear,
cheers,
Nikos
…