[Paraview] How to export .x3d files from python script?
Cook, Rich
cook47 at llnl.gov
Wed Oct 30 20:05:28 EDT 2013
I recorded a script to try to understand how to export a time series of an isosurface as .x3d files so I can muck with them using blender. But when I look at the script, the crucial bit of exporting the .x3d did not get captured. Is that part not scriptable? How can I go about finding out for myself which file formats can be exported from python scripts, if any?
Thanks
Here is the script that got captured:
try: paraview.simple
except: from paraview.simple import *
paraview.simple._DisableFirstRenderCameraReset()
plot_raw = VisItMirandaReader( FileName='/nfs/tmp2/rcook/miranda/IRM_512_r1/plot.raw' )
AnimationScene2 = GetAnimationScene()
AnimationScene1 = GetAnimationScene()
plot_raw.CellArrays = []
plot_raw.Materials = []
plot_raw.Meshes = ['mesh']
plot_raw.PointArrays = []
AnimationScene2.EndTime = 110.0
AnimationScene2.PlayMode = 'Snap To TimeSteps'
AnimationScene1.EndTime = 110.0
AnimationScene1.PlayMode = 'Snap To TimeSteps'
RenderView2 = GetRenderView()
DataRepresentation4 = Show()
DataRepresentation4.Representation = 'Outline'
DataRepresentation4.ScaleFactor = 51.200000000000003
DataRepresentation4.EdgeColor = [0.0, 0.0, 0.50000762951094835]
DataRepresentation4.SelectionCellFieldDataArrayName = 'density'
plot_raw.CellArrays = ['density']
CellDatatoPointData2 = CellDatatoPointData()
RenderView2.CameraFocalPoint = [255.5, 255.5, -0.5]
RenderView2.CameraClippingRange = [829.67380753909174, 2829.4767488865327]
RenderView2.CameraPosition = [-979.92119013571846, 1113.4340644820502, -820.67547187352602]
DataRepresentation5 = Show()
DataRepresentation5.EdgeColor = [0.0, 0.0, 0.50000762951094835]
DataRepresentation5.SelectionPointFieldDataArrayName = 'density'
DataRepresentation5.SelectionCellFieldDataArrayName = 'density'
DataRepresentation5.Representation = 'Outline'
DataRepresentation5.ScaleFactor = 51.200000000000003
DataRepresentation4.Visibility = 0
Contour2 = Contour( PointMergeMethod="Uniform Binning" )
Contour2.PointMergeMethod = "Uniform Binning"
Contour2.ContourBy = ['POINTS', 'density']
Contour2.Isosurfaces = [2.0]
DataRepresentation6 = Show()
DataRepresentation6.ScaleFactor = 51.200000000000003
DataRepresentation6.EdgeColor = [0.0, 0.0, 0.50000762951094835]
DataRepresentation6.SelectionPointFieldDataArrayName = 'Normals'
DataRepresentation6.SelectionCellFieldDataArrayName = 'density'
AnimationScene2.AnimationTime = 10.0
RenderView2.CameraViewUp = [-0.80853642549145055, -0.58010037415785698, 0.098754263479722132]
RenderView2.CacheKey = 10.0
RenderView2.CameraPosition = [402.40688029765732, -227.93136313665994, -1637.4840153022406]
RenderView2.CameraClippingRange = [1504.1196765479444, 1981.483268233957]
RenderView2.ViewTime = 10.0
RenderView2.RemoteRenderThreshold = 2.0
RenderView2.UseCache = 0
RenderView2.CameraFocalPoint = [255.5, 255.49999999999989, -0.49999999999999883]
Render()
--
✐Richard Cook
✇ Lawrence Livermore National Laboratory
Bldg-453 Rm-4024, Mail Stop L-557
7000 East Avenue, Livermore, CA, 94550, USA
☎ (office) (925) 423-9605
☎ (fax) (925) 423-6961
---
Information Management & Graphics Grp., Services & Development Div., Integrated Computing & Communications Dept.
(opinions expressed herein are mine and not those of LLNL)
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