Or just use the wavelet source to make the image data to sample onto. David E DeMarle Kitware, Inc. R&D Engineer 21 Corporate Drive Clifton Park, NY 12065-8662 Phone: 518-881-4909
On Tue, Nov 1, 2011 at 9:07 AM, Sebastien Jourdain <[email protected]> wrote: > Hi Gena, > > you can also use "Resample with dataset". The only missing part will > be your destination dataset that you want to use for sampling your > original data. > You can look at that documentation to create an empty one manually by > creating a legacy VTK file. > http://www.vtk.org/VTK/img/file-formats.pdf > I've paste the content of a rectilinear one below. You will just need > to tweak some parameters. > > Seb > > ===== Your sampling dataset could look like that file: probe.vtk ===== > > # vtk DataFile Version 3.0 > vtk output > ASCII > DATASET STRUCTURED_POINTS > DIMENSIONS 11 11 11 > SPACING 0.004 0.004 0.012 > ORIGIN -0.02 -0.02 -0.06 > > On Tue, Nov 1, 2011 at 3:57 AM, Gena Bug <[email protected]> wrote: >> Hello, Robert! >> >> Thank you for quick response! Seems, this plugin is what I'm looking for. >> But can you >> explain me how can I compile it? I can't find any readme in the repository >> and I don't have >> enough experience with building paraview plugins. My platform is Debian >> testing amd64. >> >> -----|- >> Gena. >> >> On Mon October 31 2011 19:54:25 Robert Maynard wrote: >>> You might be interested in the code at: >>> https://github.com/berkgeveci/ComparativeVis >>> >>> It has a filter called Cross Mesh Field Evaluation which maps a >>> property from a unstructured mesh >>> onto a structured mesh in parallel. >>> >>> On Mon, Oct 31, 2011 at 10:48 AM, Gena Bug <[email protected]> wrote: >>> > Hello! >>> > >>> > I have an interesting task -- I need to move the cell data from an >>> > unstructured mesh to corresponding cartesian mesh. Original domain is an >>> > alpha-degree 3D sector (alpha is a parameter, sector' angle, may be >>> > pi/3, pi/4, ...) with periodic side boundaries and unstructured >>> > discretization (hexahedral and wedge cells). The target domain is a cube >>> > that contains the whole cylinder (sum of N sectors: N*alpha = 2*pi). And >>> > my task is to generate cartezian mesh in the target domain (cube) and >>> > interpolate data from the original mesh to the cartezian. >>> > >>> > I'm almost sure about answer, but I must ask: is there a combination of >>> > filters that can do the trick? >>> > >>> > I think to write a python script that can do this, but I don't know how >>> > to: a) create a cartezian mesh and >>> > b) iterate throw mesh cells and their nodes. >>> > >>> > ----|- >>> > Gena. >>> > _______________________________________________ >>> > Powered by www.kitware.com >>> > >>> > Visit other Kitware open-source projects at >>> > http://www.kitware.com/opensource/opensource.html >>> > >>> > Please keep messages on-topic and check the ParaView Wiki at: >>> > http://paraview.org/Wiki/ParaView >>> > >>> > Follow this link to subscribe/unsubscribe: >>> > http://www.paraview.org/mailman/listinfo/paraview >> _______________________________________________ >> Powered by www.kitware.com >> >> Visit other Kitware open-source projects at >> http://www.kitware.com/opensource/opensource.html >> >> Please keep messages on-topic and check the ParaView Wiki at: >> http://paraview.org/Wiki/ParaView >> >> Follow this link to subscribe/unsubscribe: >> http://www.paraview.org/mailman/listinfo/paraview >> > _______________________________________________ > Powered by www.kitware.com > > Visit other Kitware open-source projects at > http://www.kitware.com/opensource/opensource.html > > Please keep messages on-topic and check the ParaView Wiki at: > http://paraview.org/Wiki/ParaView > > Follow this link to subscribe/unsubscribe: > http://www.paraview.org/mailman/listinfo/paraview > _______________________________________________ Powered by www.kitware.com Visit other Kitware open-source projects at http://www.kitware.com/opensource/opensource.html Please keep messages on-topic and check the ParaView Wiki at: http://paraview.org/Wiki/ParaView Follow this link to subscribe/unsubscribe: http://www.paraview.org/mailman/listinfo/paraview
