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I have a set of data stored in a VTK file which represents a cut through a domain with scalar point data in an array. I am trying to produce a contour plot of said scalar to make it look somewhat like the attached picture made using ParaView. I'd rather stick with the vtk libraries than use something else, like Matplotlib, as I think they produce better visualisations in general.Preview of what I want to achieve.

I have looked at several examples on-line but none of them work for me (no errors are thrown, all I end up with is an empty render with just the background), all I have been able to do is a surface plot of the data (e.g.: here ).

Here's the current version of the code I have (very similar to the one that successfully produces the surface plot):

# import data
reader = vtk.vtkDataSetReader()
reader.SetFileName('inputDataFiles/k_zCut.vtk')
reader.ReadAllVectorsOn()
reader.ReadAllScalarsOn()
reader.Update()

# access data
data = reader.GetOutput()
d = data.GetPointData()
array=d.GetArray('k')

# create the filter
contours = vtk.vtkContourFilter()
contours.SetInput(reader.GetOutput())
contours.GenerateValues(5,1.,5.)

# create the mapper
mapper = vtk.vtkPolyDataMapper()
mapper.SetInput(contours.GetOutput())
mapper.ScalarVisibilityOff()
mapper.SetScalarRange(1., 5.)

# create the actor
actor = vtk.vtkActor()
actor.SetMapper(mapper)

# create a rendering window and renderer
ren = vtk.vtkRenderer()
ren.SetBackground( 0.329412, 0.34902, 0.427451 ) #Paraview blue

# Assign actor to the renderer
ren.AddActor(actor)

renWin = vtk.vtkRenderWindow()
renWin.AddRenderer(ren)
renWin.SetSize(750, 750)

# create a renderwindowinteractor
iren = vtk.vtkRenderWindowInteractor()
iren.SetRenderWindow(renWin)

# render
renWin.Render()

# screenshot
w2if = vtk.vtkWindowToImageFilter()
w2if.SetInput(renWin)
w2if.Update()
w2if.SetMagnification(5.)

writer = vtk.vtkPNGWriter()
writer.SetFileName("screenshot.png")
writer.SetInput(w2if.GetOutput())
writer.Write()

# Enable user interface interactor
iren.Initialize()
iren.Start()

Below you can see a shortened part of my input file. Any help will be much appreciated.

# vtk DataFile Version 2.0
sampleSurface
ASCII
DATASET POLYDATA
POINTS 34813 float
0 0 0
0 -0.000191589 0
0.000264399 0.000157061 0
0 0.000313389 0
0.000264347 -0.000191923 0
0 -0.000383178 0
-0.000395709 0 0
-0.000395709 0.000156695 0
3.60174e-05 0.000486922 0
0.000528387 0 0

POLYGONS 69284 277136
3 4105 4371 3861
3 4102 3861 4371
3 4656 4371 4373
3 4105 4373 4371
3 3624 3861 3390
3 3621 3390 3861
3 4105 3863 3861
3 3624 3861 3863
3 3188 3390 2990
3 3187 2990 3390
3 3624 3390 3391
3 3188 3391 3390

POINT_DATA 34813
FIELD attributes 1
k 1 34813 float
0.849464 0.391519 1.52947 1.05206 0.391519 0.253736 1.39481 1.39481 0.636517 1.21019
0.640193 0.114295 1.12557 0.644143 0.629569 0.114295 0.485032 0.477396 1.39961 0.0860201
1.66665 1.24058 1.45939 0.483719 1.01318 0.163198 0.317574 0.792821 0.317125 0.658835
6

If you'd like to use a more "pythonic" interface to VTK, consider using mayavi/tvtk/mlab. (Either way, VTK is an excellent choice for this!)

tvtk is a slightly more pythonic, low-level, python binding to VTK with a handful of really nice features (e.g. transparent usage of numpy arrays).

Mayavi and mlab give a more high-level interface to VTK.

The snippet of the data file that you showed is invalid as-is, but if we use a similar one:

# vtk DataFile Version 2.0
Simple VTK file example
ASCII

DATASET POLYDATA
POINTS 9 float
3.0 0.0 0.0
1.0 1.0 0.0
0.0 3.0 0.0
3.0 0.0 1.0
1.0 1.0 1.0
0.0 3.0 1.0
3.0 2.0 2.0
2.0 2.0 2.0
2.0 3.0 2.0

TRIANGLE_STRIPS 2 14
6 0 3 1 4 2 5
6 3 6 4 7 5 8

POINT_DATA 9
SCALARS nodal float
LOOKUP_TABLE default
0.0 0.1 0.0 0.3 0.6 0.3 0.8 1.0 0.8

Rendering contours on the surface can be as simple as:

from mayavi import mlab

source = mlab.pipeline.open('test.vtk')
lines = mlab.pipeline.contour_surface(source)

mlab.show()

enter image description here

Or we can get a bit fancier:

from mayavi import mlab

# Make a figure with a black background
fig = mlab.figure(bgcolor=(0,0,0))
# Also see methods like: fig.scene.z_plus_view(), etc
fig.scene.camera.azimuth(215)

source = mlab.pipeline.open('test.vtk')
# Show the surface, colored by the scalars
surf = mlab.pipeline.surface(source)
# Draw contours of the scalars on the surface
lines = mlab.pipeline.contour_surface(source)

mlab.show()

enter image description here

4
  • Hi! Thanks a lot for the answer. It seems that indeed mayavi is much simpler to use, I'll have a look at it. I'm afraid that I don't have much control over the input file, it comes as is. Can you please explain in what way it is 'invalid'? – Artur Feb 1 '14 at 21:13
  • @Artur - I think it's just because you truncated parts of the file to show in your question without changing the counts in each section header. The original file is probably perfectly fine. (For example, POINTS 34813 float should be POINTS 10 float, as only 10 points are listed.) Also the POLYGONS portion is a list of indicies into the points, so all of the numbers listed are invalid because they're greater than 10. Again, the original file is probably perfectly fine, it's just that what you gave as an example in your question isn't valid exactly as it's posted. – Joe Kington Feb 2 '14 at 1:07
  • Hi! You're right, I just cut out bits from it to make it compact, in reality it's far too long to be posted. I deliberately left the actual number of points and polys as I thought that might be relevant. – Artur Feb 2 '14 at 9:24
  • I used mlab at it worked brilliantly, thanks! If anyone knows why the vtk code doesn't work it would still be nice to know. Peace – Artur Feb 2 '14 at 10:21

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