As soon as a mesh is created, it is possible to manage it via its own
methods, described in class :class:`smeshBuilder.Mesh` documentation.
-Class :class:`smeshstudytools.SMeshStudyTools` provides several methods to manipulate mesh objects in Salome study.
+Class :class:`smeshstudytools.SMeshStudyTools` provides several methods to manipulate mesh objects in Salome study.
A usual workflow to generate a mesh on geometry is following:
maxArea = mefisto.LocalLength( 100. )
netgen.SetMaxSize( 20. )
netgen.SetFineness( smeshBuilder.VeryCoarse )
-
-#. :ref:`compute_anchor` the mesh (generate mesh nodes and elements):
+
+#. :ref:`Compute the mesh <compute_anchor>` (generate mesh nodes and elements):
.. code-block:: python
mesh.Compute()
An easiest way to start with Python scripting is to do something in
-GUI and then to get a corresponding Python script via
+GUI and then to get a corresponding Python script via
**File > Dump Study** menu item. Don't forget that you can get
all methods of any object in hand (e.g. a mesh group or a hypothesis)
by calling *dir()* Python built-in function.
-All methods of the Mesh Group can be found in :ref:`tui_create_standalone_group` sample script.
+All methods of the :class:`Mesh Group <SMESH.SMESH_GroupBase>` can be found in :ref:`tui_create_standalone_group` sample script.
An example below demonstrates usage of the Python API for 3D mesh
-generation and for retrieving information on mesh nodes and elements.
+generation and for retrieving basic information on mesh nodes, elements and groups.
.. _example_3d_mesh:
tui_transforming_meshes
tui_viewing_meshes
tui_quality_controls
+ tui_adaptation
tui_measurements
tui_work_on_objects_from_gui
tui_notebook_smesh