This is an automated email from the git hooks/post-receive script. tkoyama010 pushed a commit to branch fixmisspell in repository getfem.
The following commit(s) were added to refs/heads/fixmisspell by this push: new 8a98021 Add VTU(XML) binary option and slices 8a98021 is described below commit 8a98021108db03cebc81a7bd92eaecad68c67a8b Author: Tetsuo Koyama <tkoyama...@gmail.com> AuthorDate: Tue Oct 6 00:49:27 2020 +0900 Add VTU(XML) binary option and slices --- doc/sphinx/source/tutorial/intro.rst | 2 +- doc/sphinx/source/tutorial/thermo_coupling.rst | 2 +- doc/sphinx/source/userdoc/export.rst | 3 +-- 3 files changed, 3 insertions(+), 4 deletions(-) diff --git a/doc/sphinx/source/tutorial/intro.rst b/doc/sphinx/source/tutorial/intro.rst index f08c793..7f785aa 100644 --- a/doc/sphinx/source/tutorial/intro.rst +++ b/doc/sphinx/source/tutorial/intro.rst @@ -30,7 +30,7 @@ C++, Python, Scilab or Matlab ? -|gf| is basically a library written in C++. However, it has an interface that is available in Python, Scilab and Matlab versions and allows to use all the advanced features. It is recommended to start by using the interface with scripting languages, which makes programming easier. The three versions of the interface differ only by small syntax elements, except for the graphics post-processing (Scilab and Matlab interfaces offer the possibility of integrated post-processing while it is n [...] +|gf| is basically a library written in C++. However, it has an interface that is available in Python, Scilab and Matlab versions and allows to use all the advanced features. It is recommended to start by using the interface with scripting languages, which makes programming easier. The three versions of the interface differ only by small syntax elements, except for the graphics post-processing (Scilab and Matlab interfaces offer the possibility of integrated post-processing while it is n [...] Use |gf| interface is a good strategy even for complex applications, the performance is comparable to the direct use of the C++ library and it is more flexible to use. However, only the Python interface allows for the parallelization (with MPI). The possible addition of functionality to the interface being a relatively simple operation. diff --git a/doc/sphinx/source/tutorial/thermo_coupling.rst b/doc/sphinx/source/tutorial/thermo_coupling.rst index a1abd70..a18c7b4 100644 --- a/doc/sphinx/source/tutorial/thermo_coupling.rst +++ b/doc/sphinx/source/tutorial/thermo_coupling.rst @@ -402,7 +402,7 @@ In order to preview the mesh and to control its validity, the following instruct ========== =========================================================================== -In C++ and with the Python interface, an external graphical post-processor has to be used (for instance, gmsh, Mayavi2 or Paraview). With Scilab and Matlab interfaces, the internal plot facilities can be used (see the result :ref:`tut-fig-meshthermo`). +In C++ and with the Python interface, an external graphical post-processor has to be used (for instance, gmsh, Mayavi2, PyVista or Paraview). With Scilab and Matlab interfaces, the internal plot facilities can be used (see the result :ref:`tut-fig-meshthermo`). Definition of finite element methods and integration method diff --git a/doc/sphinx/source/userdoc/export.rst b/doc/sphinx/source/userdoc/export.rst index 1433153..c1340a5 100644 --- a/doc/sphinx/source/userdoc/export.rst +++ b/doc/sphinx/source/userdoc/export.rst @@ -12,7 +12,7 @@ Export and view a solution There are essentially four ways to view the result of getfem computations: * Scilab, Octave or Matlab, with the interface. -* The open-source Paraview or Mayavi or any other VTK/VTU file viewer. +* The open-source Paraview, Mayavi2, PyVista or any other VTK/VTU file viewer. * The open-source OpenDX program. * The open-source Gmsh program. @@ -215,7 +215,6 @@ It is also possible to export a |mf| ``mfu`` without having to build a slice:: An |mf| ``mfu`` can also be exported in the VTU format with:: - // VTU export is limitted to ascii output and cannot be used for slices vtu_export exp("output.vtu); exp.exporting(mfu); // will save the geometrical structure of the mesh_fem exp.write_point_data(mfp, P, "pressure"); // write a scalar field