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e85ddd2bb0
Rename the algorithms in the dialog box: - Use existing faces => Use faces to be created manually - Use existing 2D elements => Import 1D-2D elements from another mesh - Use existing edges => Use edges to be created manually - Use existing 1D elements => Import 1D elements from another mesh
80 lines
3.1 KiB
Plaintext
80 lines
3.1 KiB
Plaintext
/*!
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\page smeshpy_interface_page Python interface
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Python API for SALOME %Mesh module defines several classes that can
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be used for easy mesh creation and edition.
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Documentation for SALOME %Mesh module Python API is available in two forms:
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- <a href="smeshpy_doc/modules.html">Structured documentation</a>, where all methods and
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classes are grouped by their functionality, like it is done in the GUI documentation
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- <a href="smeshpy_doc/namespaces.html">Linear documentation</a> grouped only by classes, declared
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in the \ref smeshBuilder and \ref StdMeshersBuilder Python packages.
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\n With SALOME 7.2, the Python interface for %Mesh has been slightly modified to offer new functionality,
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\n You may have to modify your scripts generated with SALOME 6 or older versions.
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\n Please see \ref smesh_migration_page
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The SMESH python package contains helper functions to manipulate mesh elements and
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interact with these elements.
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Note that these functions either encapsulate the python programming interface of SMESH core
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(the CORBA or SWIG interface for example) or extend existing utilities as the smesh.py module.
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The functions are distributed in the python package \b salome.smesh.
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\note
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The main package \b salome contains other sub-packages that are distributed with the other
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SALOME modules. For example, the KERNEL module provides the python package \b salome.kernel
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and GEOM the package \b salome.geom.
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Class \ref smeshBuilder.smeshBuilder "smeshBuilder" provides an interface to create and handle
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meshes. It can be used to create an empty mesh or to import mesh from the data file.
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Class \ref smeshstudytools.SMeshStudyTools "SMeshStudyTools" provides several methods to manipulate mesh objects in Salome study.
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As soon as mesh is created, it is possible to manage it via its own
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methods, described in class \ref smeshBuilder.Mesh "Mesh" documentation.
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Class \ref smeshBuilder.Mesh "Mesh" allows assigning algorithms to a mesh.
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Please note that some algorithms, included in the standard SALOME
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distribution are always available. Python package \ref StdMeshersBuilder "StdMeshersBuilder"
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provides an interface for standard meshing algorithms included into
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the SALOME %Mesh module distribution, like:
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- REGULAR (1D)
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- COMPOSITE (1D)
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- MEFISTO (2D)
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- Quadrangle (2D)
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- Hexa(3D)
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- etc ...
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To add meshing hypotheses, it is possible to use the functions provided by the
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algorithms interfaces.
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An example below demonstrates usage of the Python API for 3d mesh generation.
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\anchor example_3d_mesh
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<h2>Example of 3d mesh generation:</h2>
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\tui_script{3dmesh.py}
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Examples of Python scripts for Mesh operations are available by
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the following links:
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- \subpage tui_creating_meshes_page
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- \subpage tui_cartesian_algo
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- \subpage tui_use_existing_faces
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- \subpage tui_viewing_meshes_page
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- \subpage tui_defining_hypotheses_page
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- \subpage tui_quality_controls_page
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- \subpage tui_filters_page
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- \subpage tui_grouping_elements_page
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- \subpage tui_modifying_meshes_page
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- \subpage tui_transforming_meshes_page
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- \subpage tui_notebook_smesh_page
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- \subpage tui_measurements_page
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- \subpage tui_generate_flat_elements_page
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- \subpage tui_work_on_objects_from_gui
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- \subpage tui_prism_3d_algo
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*/
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