Patching of surface mesh and attributes Vmtkbranchmapping -ifile aorta_clipped_metrics.vtp -centerlinesfile aorta_cl.vtp -referencesystemsfile aorta_cl_rs.vtp -normalsarray ParallelTransportNormals -abscissasarray Abscissas -groupidsarray GroupIds -centerlineidsarray CenterlineIds -tractidsarray TractIds -referencesystemsnormalarray Normal -radiusarray MaximumInscribedSphereRadius -blankingarray Blanking -angularmetricarray AngularMetric -abscissametricarray AbscissaMetric -ofile aorta_clipped_mapping.vtp Vmtkbranchmetrics -ifile aorta_clipped.vtp -centerlinesfile aorta_cl.vtp -abscissasarray Abscissas -normalsarray ParallelTransportNormals -groupidsarray GroupIds -centerlineidsarray CenterlineIds -tractidsarray TractIds -blankingarray Blanking -radiusarray MaximumInscribedSphereRadius -ofile aorta_clipped_metrics.vtp Take a look into the Mapping and patching tutorial to learn how to map the surface of a population of vessels onto the same parametric space and enable statistical analyses of surface-based quantities // Longitudinal and circumferential metrics Vmtksurfacereader -ifile foo.vtp -pipe vmtkcenterlines -endpoints 1 -seedselector openprofiles -pipe vmtkdistancetocenterlines -useradius 1 -pipe vmtkmeshgenerator -elementsizemode edgelengtharray -edgelengtharray DistanceToCenterlines -edgelengthfactor 0.3 -boundarylayer 1 -ofile foo.vtu ![]() Vmtksurfacereader -ifile foo.vtp -pipe vmtkcenterlines -endpoints 1 -seedselector openprofiles -pipe vmtkdistancetocenterlines -useradius 1 -pipe vmtkmeshgenerator -elementsizemode edgelengtharray -edgelengtharray DistanceToCenterlines -edgelengthfactor 0.3 -ofile foo.vtu Generating a radius-adaptive element mesh Vmtkmeshgenerator -ifile foo.vtp -ofile foo.vtu -edgelength 0.5 Louvain // generating a uniform element mesh Take a look into the Generating a Mesh tutorial to learn how to generate a mesh from a surface and into Meshing based on centerlines (vmtk+gmsh) tutorial to learn how to generate tetrahedral or mixed hexahedral meshes using vmtk coupled to Gmsh. If anybody have a solution to fix this Thanks in advance. I've been waiting for several weeks before posting this problem, thinking teams of conda, anaconda, qt project will find a solution to getting anaconda running well again but it seems the solution to this problem has not been solved yet. It seems to be a problem related to qt or wayland However, jupyter-lab become sometimes very slow (it freezes) and very rarely crashes. Then I can launch jupyter or jupyterlab using Firefox or chromium. LibGL error: failed to load driver: swrastĭespite this warning error anaconda-navigator opens and runs. LibGL error: MESA-LOADER: failed to open iris: /usr/lib/dri/iris_dri.so: Ne peut ouvrir le fichier d'objet partagé: Aucun fichier ou dossier de ce type (search paths /usr/lib/x86_64-linux-gnu/dri:\$$/dri:/usr/lib/dri, suffix _dri) Use QT_QPA_PLATFORM=wayland to run on Wayland anyway. Warning: Ignoring XDG_SESSION_TYPE=wayland on Gnome. ![]() 14:05:32,051 - WARNING linux_scaling.get_scaling_factor_using_dbus:44Ĭan't detect system scaling factor settings for primary monitor. Since I updated Ubuntu 18 LTS to 22.04 LTS when I run anaconda-navigator in a terminal the following warnings appear on terminal screen anaconda-navigator ![]() Here is my problem : I use jupyterlab across anaconda navigator.
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