From: vsr Date: Thu, 4 Apr 2013 07:09:59 +0000 (+0000) Subject: Merge from BR_plugins_pbyacs 03/04/2013 X-Git-Tag: V7_2_0~7 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=009772f8b3d74d414c19285447c6125f99369fc9;p=plugins%2Fhybridplugin.git Merge from BR_plugins_pbyacs 03/04/2013 --- diff --git a/configure.ac b/configure.ac index 6708ddb..985d94b 100644 --- a/configure.ac +++ b/configure.ac @@ -425,6 +425,7 @@ AC_OUTPUT([ \ GHS3DPLUGIN_version.h \ doc/Makefile \ doc/salome/Makefile \ + doc/salome/examples/Makefile \ doc/salome/gui/Makefile \ doc/salome/gui/GHS3DPLUGIN/Makefile \ doc/salome/gui/GHS3DPLUGIN/doxyfile \ diff --git a/doc/salome/Makefile.am b/doc/salome/Makefile.am index 9fd2b2d..f55ed01 100644 --- a/doc/salome/Makefile.am +++ b/doc/salome/Makefile.am @@ -17,7 +17,7 @@ # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com # -SUBDIRS = gui +SUBDIRS = examples gui SUBDIRSGUI = gui usr_docs: diff --git a/doc/salome/examples/Makefile.am b/doc/salome/examples/Makefile.am new file mode 100644 index 0000000..2eab4ae --- /dev/null +++ b/doc/salome/examples/Makefile.am @@ -0,0 +1,33 @@ +# Copyright (C) 2007-2013 CEA/DEN, EDF R&D, OPEN CASCADE +# +# This library is free software; you can redistribute it and/or +# modify it under the terms of the GNU Lesser General Public +# License as published by the Free Software Foundation; either +# version 2.1 of the License. +# +# This library is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU +# Lesser General Public License for more details. +# +# You should have received a copy of the GNU Lesser General Public +# License along with this library; if not, write to the Free Software +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +# +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +# + +# File : Makefile +# Author : Alexander KOVALEV (Open Cascade NN) +# Modified by : +# Module : doc +# +include $(top_srcdir)/adm_local/unix/make_common_starter.am + +pyexamplesdir = $(docdir)/examples/GHS3DPLUGIN + +pyexamples_SCRIPTS = ghs3ddemo.py \ + ghs3d_enfvert.py \ + ghs3d_enfmesh.py + +EXTRA_DIST += $(pyexamples_SCRIPTS) diff --git a/doc/salome/examples/ghs3d_enfmesh.py b/doc/salome/examples/ghs3d_enfmesh.py new file mode 100644 index 0000000..4da517e --- /dev/null +++ b/doc/salome/examples/ghs3d_enfmesh.py @@ -0,0 +1,107 @@ + +# It is possible to constrain GHS3D with another mesh or group. +# The constraint can refer to the nodes, edges or faces. +# This feature is available only on 2D meshes without geometry. +# The constraining elements are called enforced elements for the mesh. +# They can be recovered using groups if necessary. + +# In the following examples, a box and a cylinder are meshed in 2D. +# The mesh of the cylinder will be used as a constraint for the +# 3D mesh of the box. + +import salome +salome.salome_init() +import GEOM +from salome.geom import geomBuilder +geompy = geomBuilder.New(salome.myStudy) + +import SMESH, SALOMEDS +from salome.smesh import smeshBuilder +smesh = smeshBuilder.New(salome.myStudy) + +box = geompy.MakeBoxDXDYDZ(200, 200, 200) +geompy.addToStudy( box, "box" ) +cylindre = geompy.MakeCylinderRH(50, 50) +geompy.TranslateDXDYDZ(cylindre, 100, 100, 30) +face_cyl = geompy.ExtractShapes(cylindre, geompy.ShapeType["FACE"], True)[1] +geompy.addToStudy( cylindre, 'cylindre' ) +geompy.addToStudyInFather( cylindre, face_cyl, 'face_cyl' ) +p1 = geompy.MakeVertex(20, 20, 20) +p2 = geompy.MakeVertex(180, 180, 20) +c = geompy.MakeCompound([p1,p2]) +geompy.addToStudy( p1, "p1" ) +geompy.addToStudy( p2, "p2" ) +geompy.addToStudy( c, "c" ) + +# Create the 2D algorithm and hypothesis +BLSURF = smesh.CreateHypothesis('BLSURF', 'BLSURFEngine') +# For the box +BLSURF_Parameters = smesh.CreateHypothesis('BLSURF_Parameters', 'BLSURFEngine') +BLSURF_Parameters.SetPhysicalMesh( 1 ) +BLSURF_Parameters.SetPhySize( 200 ) +# For the cylinder +BLSURF_Parameters2 = smesh.CreateHypothesis('BLSURF_Parameters', 'BLSURFEngine') +BLSURF_Parameters2.SetGeometricMesh( 1 ) + +# Create the 3D algorithm and hypothesis +GHS3D = smesh.CreateHypothesis('GHS3D_3D', 'GHS3DEngine') +GHS3D_Parameters_node = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') +#GHS3D_Parameters_node.SetToMeshHoles( 1 ) +GHS3D_Parameters_edge = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') +#GHS3D_Parameters_edge.SetToMeshHoles( 1 ) +GHS3D_Parameters_face = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') +GHS3D_Parameters_face.SetToMeshHoles( 1 ) # to mesh inside the cylinder +GHS3D_Parameters_mesh = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') +GHS3D_Parameters_mesh.SetToMeshHoles( 1 ) # to mesh inside the cylinder + +# Create the mesh on the cylinder +Mesh_cylindre = smesh.Mesh(cylindre) +smesh.SetName(Mesh_cylindre,"Mesh_cylindre") +Mesh_cylindre.AddHypothesis( BLSURF ) +Mesh_cylindre.AddHypothesis( BLSURF_Parameters2 ) +# Create some groups +face_cyl_faces = Mesh_cylindre.GroupOnGeom(face_cyl,'group_face_cyl', SMESH.FACE) +face_cyl_edges = Mesh_cylindre.GroupOnGeom(face_cyl,'group_edge_cyl', SMESH.EDGE) +face_cyl_nodes = Mesh_cylindre.GroupOnGeom(face_cyl,'group_node_cyl', SMESH.NODE) +Mesh_cylindre.Compute() + +# Create the mesh on the cylinder +Mesh_box_tri = smesh.Mesh(box) +smesh.SetName(Mesh_box_tri,"Mesh_box_tri") +Mesh_box_tri.AddHypothesis( BLSURF ) +Mesh_box_tri.AddHypothesis( BLSURF_Parameters ) +Mesh_box_tri.Compute() + +# Create 4 copies of the 2D mesh to test the 3 types of contraints (NODE, EDGE, FACE) +# from the whole mesh and from groups of elements. +# Then the 3D algo and hypothesis are assigned to them. + +mesh_mesh = smesh.CopyMesh( Mesh_box_tri, 'Enforced by faces of mesh', 0, 0) +mesh_mesh.AddHypothesis( GHS3D ) +mesh_mesh.AddHypothesis( GHS3D_Parameters_mesh) + +mesh_node = smesh.CopyMesh( Mesh_box_tri, 'Enforced by group of nodes', 0, 0) +mesh_node.AddHypothesis( GHS3D ) +mesh_node.AddHypothesis( GHS3D_Parameters_node) + +mesh_edge = smesh.CopyMesh( Mesh_box_tri, 'Enforced by group of edges', 0, 0) +mesh_edge.AddHypothesis( GHS3D ) +mesh_edge.AddHypothesis( GHS3D_Parameters_edge) + +mesh_face = smesh.CopyMesh( Mesh_box_tri, 'Enforced by group of faces', 0, 0) +mesh_face.AddHypothesis( GHS3D ) +mesh_face.AddHypothesis( GHS3D_Parameters_face) + +# Add the enforced elements +GHS3D_Parameters_mesh.SetEnforcedMeshWithGroup(Mesh_cylindre.GetMesh(),SMESH.FACE,"faces from cylinder") +GHS3D_Parameters_node.SetEnforcedMeshWithGroup(face_cyl_nodes,SMESH.NODE,"nodes from face_cyl_nodes") +GHS3D_Parameters_edge.SetEnforcedMeshWithGroup(face_cyl_edges,SMESH.EDGE,"edges from face_cyl_edges") +GHS3D_Parameters_face.SetEnforcedMeshWithGroup(face_cyl_faces,SMESH.FACE,"faces from face_cyl_faces") + +#Compute the meshes +mesh_node.Compute() +mesh_edge.Compute() +mesh_face.Compute() +mesh_mesh.Compute() + +# End of script diff --git a/doc/salome/examples/ghs3d_enfvert.py b/doc/salome/examples/ghs3d_enfvert.py new file mode 100644 index 0000000..319ca32 --- /dev/null +++ b/doc/salome/examples/ghs3d_enfvert.py @@ -0,0 +1,68 @@ + +# An enforced vertex can be added via: +# - the coordinates x,y,z +# - a GEOM vertex or compound (No geometry, TUI only) +# +# The created enforced nodes can also be stored in +# a group. +# +# This feature is available only on meshes without geometry. + +# Ex1: Add one enforced vertex with coordinates (50,50,100) +# and physical size 2. + +import salome +salome.salome_init() +import GEOM +from salome.geom import geomBuilder +geompy = geomBuilder.New(salome.myStudy) + +import SMESH, SALOMEDS +from salome.smesh import smeshBuilder +smesh = smeshBuilder.New(salome.myStudy) + +# create a box +box = geompy.MakeBoxDXDYDZ(200., 200., 200.) +geompy.addToStudy(box, "box") +# create a mesh on the box +ghs3dMesh = smesh.Mesh(box,"box: Ghs3D and BLSurf mesh") +# create a BLSurf algorithm for faces +ghs3dMesh.Triangle(algo=smeshBuilder.BLSURF) +# compute the mesh +ghs3dMesh.Compute() + +# Make a copy of the 2D mesh +ghs3dMesh_wo_geometry = smesh.CopyMesh( ghs3dMesh, 'Ghs3D wo geometry', 0, 0) + +# create a Ghs3D algorithm and hypothesis and assign them to the mesh +GHS3D = smesh.CreateHypothesis('GHS3D_3D', 'GHS3DEngine') +GHS3D_Parameters = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') +ghs3dMesh.AddHypothesis( GHS3D ) +ghs3dMesh.AddHypothesis( GHS3D_Parameters ) +# Create the enforced vertex +GHS3D_Parameters.SetEnforcedVertex( 50, 50, 100, 2) # no group +# Compute the mesh +ghs3dMesh.Compute() + + +# Ex2: Add one vertex enforced by a GEOM vertex at (50,50,100) +# with physical size 5 and add it to a group called "My special nodes" + +# Create another GHS3D hypothesis and assign it to the mesh without geometry +GHS3D_Parameters_wo_geometry = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') +ghs3dMesh_wo_geometry.AddHypothesis( GHS3D ) +ghs3dMesh_wo_geometry.AddHypothesis( GHS3D_Parameters_wo_geometry ) + +# Create the enforced vertex +p1 = geompy.MakeVertex(150, 150, 100) +geompy.addToStudy(p1, "p1") +GHS3D_Parameters_wo_geometry.SetEnforcedVertexGeomWithGroup( p1, 5 , "My special nodes") +#GHS3D_Parameters.SetEnforcedVertexGeom( p1, 5 ) # no group + +# compute the mesh +ghs3dMesh_wo_geometry.Compute() + +# Erase all enforced vertices +GHS3D_Parameters.ClearEnforcedVertices() + +# End of script diff --git a/doc/salome/examples/ghs3ddemo.py b/doc/salome/examples/ghs3ddemo.py new file mode 100644 index 0000000..2e43838 --- /dev/null +++ b/doc/salome/examples/ghs3ddemo.py @@ -0,0 +1,27 @@ + +import salome +salome.salome_init() +import GEOM +from salome.geom import geomBuilder +geompy = geomBuilder.New(salome.myStudy) + +import SMESH, SALOMEDS +from salome.smesh import smeshBuilder +smesh = smeshBuilder.New(salome.myStudy) + +# create a box +box = geompy.MakeBoxDXDYDZ(200., 200., 200.) +geompy.addToStudy(box, "box") + +# create a mesh on the box +ghs3dMesh = smesh.Mesh(box,"box: Ghs3D and BLSurf mesh") + +# create a BLSurf algorithm for faces +BLSURF = ghs3dMesh.Triangle(algo=smeshBuilder.BLSURF) +GHS3D = ghs3dMesh.Tetrahedron(algo=smeshBuilder.GHS3D) + +# compute the mesh +ghs3dMesh.Compute() + +# End of script + diff --git a/doc/salome/gui/GHS3DPLUGIN/Makefile.am b/doc/salome/gui/GHS3DPLUGIN/Makefile.am index 84a38aa..c1fd421 100755 --- a/doc/salome/gui/GHS3DPLUGIN/Makefile.am +++ b/doc/salome/gui/GHS3DPLUGIN/Makefile.am @@ -27,10 +27,7 @@ DOC_PYTHONPATH=$(prefix)/bin/salome:$(SMESH_ROOT_DIR)/bin/salome:$(SMESH_ROOT_DI DOC_LD_LIBRARY_PATH=$(prefix)/lib/salome:${SMESH_ROOT_DIR}/lib/salome:${MED_ROOT_DIR}/lib/salome:${GEOM_ROOT_DIR}/lib/salome:${KERNEL_ROOT_DIR}/lib/salome DOC_SMESH_MeshersList=GHS3DPlugin -smesh.py: $(top_srcdir)/src/GHS3DPlugin/GHS3DPluginDC.py - @PYTHONPATH=$(DOC_PYTHONPATH):${PYTHONPATH} LD_LIBRARY_PATH=$(DOC_LD_LIBRARY_PATH):${LD_LIBRARY_PATH} SMESH_MeshersList=$(DOC_SMESH_MeshersList) $(PYTHON) $(SMESH_ROOT_DIR)/bin/salome/collect_mesh_methods.py -d -o $@ GHS3DPlugin - -usr_docs: doxyfile_py doxyfile smesh.py +usr_docs: doxyfile_py doxyfile @$(DOXYGEN) doxyfile_py ; \ $(DOXYGEN) doxyfile diff --git a/doc/salome/gui/GHS3DPLUGIN/doxyfile.in b/doc/salome/gui/GHS3DPLUGIN/doxyfile.in index cbb8f6a..46366d3 100755 --- a/doc/salome/gui/GHS3DPLUGIN/doxyfile.in +++ b/doc/salome/gui/GHS3DPLUGIN/doxyfile.in @@ -39,7 +39,7 @@ INPUT = @srcdir@/input FILE_PATTERNS = *.doc EXCLUDE = IMAGE_PATH = @srcdir@/images -EXAMPLE_PATH = +EXAMPLE_PATH = @top_srcdir@/doc/salome/examples #--------------------------------------------------------------------------- #HTML related options @@ -78,4 +78,9 @@ GENERATE_RTF = NO #rnv: 07.04.2011 Workaround for the doxygen 1.7.3: #because it wrongly defines location of the html files for search. TAGFILES = ghs3dpluginpy_doc.tag=../GHS3DPLUGIN/ghs3dpluginpy_doc -SEARCHENGINE = YES \ No newline at end of file +SEARCHENGINE = YES + +#--------------------------------------------------------------------------- +#Custom commands +#--------------------------------------------------------------------------- +ALIASES += tui_script{1}="\include \1 Download this script" diff --git a/doc/salome/gui/GHS3DPLUGIN/doxyfile_py.in b/doc/salome/gui/GHS3DPLUGIN/doxyfile_py.in index 9a63aa6..e4e2f9d 100755 --- a/doc/salome/gui/GHS3DPLUGIN/doxyfile_py.in +++ b/doc/salome/gui/GHS3DPLUGIN/doxyfile_py.in @@ -96,9 +96,9 @@ EXAMPLE_RECURSIVE = NO #--------------------------------------------------------------------------- #Input related options #--------------------------------------------------------------------------- -INPUT = @top_srcdir@/src/GHS3DPlugin/GHS3DPluginDC.py \ - smesh.py \ - @SMESH_ROOT_DIR@/bin/salome/smesh_algorithm.py +INPUT = @top_srcdir@/src/GHS3DPlugin/GHS3DPluginBuilder.py \ + @SMESH_ROOT_DIR@/lib/python@PYTHON_VERSION@/site-packages/salome/salome/smesh/smeshBuilder.py \ + @SMESH_ROOT_DIR@/lib/python@PYTHON_VERSION@/site-packages/salome/salome/smesh/smesh_algorithm.py FILE_PATTERNS = IMAGE_PATH = @srcdir@/images RECURSIVE = NO diff --git a/doc/salome/gui/GHS3DPLUGIN/input/ghs3dplugin_python_interface.doc b/doc/salome/gui/GHS3DPLUGIN/input/ghs3dplugin_python_interface.doc index 220bd07..73c4639 100644 --- a/doc/salome/gui/GHS3DPLUGIN/input/ghs3dplugin_python_interface.doc +++ b/doc/salome/gui/GHS3DPLUGIN/input/ghs3dplugin_python_interface.doc @@ -2,9 +2,9 @@ \page ghs3dplugin_python_interface_page Python Interface -Python package GHS3DPluginDC defines several classes, destined for creation of the 3D meshes. +Python package GHS3DPlugin defines several classes, destined for creation of the 3D meshes. -GHS3D meshing plugin dynamically adds several methods to the smesh.Mesh class to create meshing algorithms. +GHS3D meshing plugin dynamically adds several methods to the \ref SMESH_SWIG.smeshBuilder.Mesh "class Mesh" class to create meshing algorithms. Below you can see an example of usage of the GHS3DPlugin Python API for mesh generation: @@ -16,28 +16,10 @@ Below you can see an example of usage of the GHS3DPlugin Python API for mesh gen \section tui_ghs3d_basic Construction of Mesh using Ghs3D algorithm -\code -import geompy -import smesh -import BLSURFPlugin -import GHS3DPlugin +\anchor example_BLSURFPlugin +

Example of mesh generation with GHS3D algorithm:

+\tui_script{ghs3ddemo.py} -# create a box -box = geompy.MakeBoxDXDYDZ(200., 200., 200.) -geompy.addToStudy(box, "box") - -# create a mesh on the box -ghs3dMesh = smesh.Mesh(box,"box: Ghs3D and BLSurf mesh") - -# create a BLSurf algorithm for faces -BLSURF = ghs3dMesh.Triangle(algo=smesh.BLSURF) -GHS3D = ghs3dMesh.Tetrahedron(algo=smesh.GHS3D) - -# compute the mesh -ghs3dMesh.Compute() - -# End of script -\endcode \image html ghs3d_screenshot.png Ghs3d mesh without hypothesis @@ -45,72 +27,9 @@ ghs3dMesh.Compute() \section tui_ghs3d_enforced_vertices Adding enforced vertices -\code - -# An enforced vertex can be added via: -# - the coordinates x,y,z -# - a GEOM vertex or compound (No geometry, TUI only) -# -# The created enforced nodes can also be stored in -# a group. -# -# This feature is available only on meshes without geometry. - -# Ex1: Add one enforced vertex with coordinates (50,50,100) -# and physical size 2. - -import geompy -import smesh -import BLSURFPlugin -import GHS3DPlugin - -# create a box -box = geompy.MakeBoxDXDYDZ(200., 200., 200.) -geompy.addToStudy(box, "box") -# create a mesh on the box -ghs3dMesh = smesh.Mesh(box,"box: Ghs3D and BLSurf mesh") -# create a BLSurf algorithm for faces -ghs3dMesh.Triangle(algo=smesh.BLSURF) -# compute the mesh -ghs3dMesh.Compute() - -# Make a copy of the 2D mesh -ghs3dMesh_wo_geometry = smesh.CopyMesh( ghs3dMesh, 'Ghs3D wo geometry', 0, 0) - -# create a Ghs3D algorithm and hypothesis and assign them to the mesh -GHS3D = smesh.CreateHypothesis('GHS3D_3D', 'GHS3DEngine') -GHS3D_Parameters = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') -ghs3dMesh.AddHypothesis( GHS3D ) -ghs3dMesh.AddHypothesis( GHS3D_Parameters ) -# Create the enforced vertex -GHS3D_Parameters.SetEnforcedVertex( 50, 50, 100, 2) # no group -# Compute the mesh -ghs3dMesh.Compute() - - -# Ex2: Add one vertex enforced by a GEOM vertex at (50,50,100) -# with physical size 5 and add it to a group called "My special nodes" - -# Create another GHS3D hypothesis and assign it to the mesh without geometry -GHS3D_Parameters_wo_geometry = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') -ghs3dMesh_wo_geometry.AddHypothesis( GHS3D ) -ghs3dMesh_wo_geometry.AddHypothesis( GHS3D_Parameters_wo_geometry ) - -# Create the enforced vertex -p1 = geompy.MakeVertex(150, 150, 100) -geompy.addToStudy(p1, "p1") -GHS3D_Parameters_wo_geometry.SetEnforcedVertexGeomWithGroup( p1, 5 , "My special nodes") -#GHS3D_Parameters.SetEnforcedVertexGeom( p1, 5 ) # no group - -# compute the mesh -ghs3dMesh_wo_geometry.Compute() - -# Erase all enforced vertices -GHS3D_Parameters.ClearEnforcedVertices() - -# End of script - -\endcode +

Example of enforced vertices with GHS3D algorithm:

+\tui_script{ghs3d_enfvert.py} + \image html ghs3d_screenshot_enf1.png Ghs3d mesh with enforced vertex \image html ghs3d_screenshot_enf2.png Ghs3d mesh with enforced vertex from GEOM vertex @@ -119,111 +38,8 @@ GHS3D_Parameters.ClearEnforcedVertices() \section tui_ghs3d_enforced_meshes Adding enforced mesh -\code - -# It is possible to constrain GHS3D with another mesh or group. -# The constraint can refer to the nodes, edges or faces. -# This feature is available only on 2D meshes without geometry. -# The constraining elements are called enforced elements for the mesh. -# They can be recovered using groups if necessary. - -# In the following examples, a box and a cylinder are meshed in 2D. -# The mesh of the cylinder will be used as a constraint for the -# 3D mesh of the box. - -import geompy -import smesh -import BLSURFPlugin -import GHS3DPlugin - -box = geompy.MakeBoxDXDYDZ(200, 200, 200) -geompy.addToStudy( box, "box" ) -cylindre = geompy.MakeCylinderRH(50, 50) -geompy.TranslateDXDYDZ(cylindre, 100, 100, 30) -face_cyl = geompy.ExtractShapes(cylindre, geompy.ShapeType["FACE"], True)[1] -geompy.addToStudy( cylindre, 'cylindre' ) -geompy.addToStudyInFather( cylindre, face_cyl, 'face_cyl' ) -p1 = geompy.MakeVertex(20, 20, 20) -p2 = geompy.MakeVertex(180, 180, 20) -c = geompy.MakeCompound([p1,p2]) -geompy.addToStudy( p1, "p1" ) -geompy.addToStudy( p2, "p2" ) -geompy.addToStudy( c, "c" ) - -# Create the 2D algorithm and hypothesis -BLSURF = smesh.CreateHypothesis('BLSURF', 'BLSURFEngine') -# For the box -BLSURF_Parameters = smesh.CreateHypothesis('BLSURF_Parameters', 'BLSURFEngine') -BLSURF_Parameters.SetPhysicalMesh( 1 ) -BLSURF_Parameters.SetPhySize( 200 ) -# For the cylinder -BLSURF_Parameters2 = smesh.CreateHypothesis('BLSURF_Parameters', 'BLSURFEngine') -BLSURF_Parameters2.SetGeometricMesh( 1 ) - -# Create the 3D algorithm and hypothesis -GHS3D = smesh.CreateHypothesis('GHS3D_3D', 'GHS3DEngine') -GHS3D_Parameters_node = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') -#GHS3D_Parameters_node.SetToMeshHoles( 1 ) -GHS3D_Parameters_edge = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') -#GHS3D_Parameters_edge.SetToMeshHoles( 1 ) -GHS3D_Parameters_face = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') -GHS3D_Parameters_face.SetToMeshHoles( 1 ) # to mesh inside the cylinder -GHS3D_Parameters_mesh = smesh.CreateHypothesis('GHS3D_Parameters', 'GHS3DEngine') -GHS3D_Parameters_mesh.SetToMeshHoles( 1 ) # to mesh inside the cylinder - -# Create the mesh on the cylinder -Mesh_cylindre = smesh.Mesh(cylindre) -smesh.SetName(Mesh_cylindre,"Mesh_cylindre") -Mesh_cylindre.AddHypothesis( BLSURF ) -Mesh_cylindre.AddHypothesis( BLSURF_Parameters2 ) -# Create some groups -face_cyl_faces = Mesh_cylindre.GroupOnGeom(face_cyl,'group_face_cyl', smesh.FACE) -face_cyl_edges = Mesh_cylindre.GroupOnGeom(face_cyl,'group_edge_cyl', smesh.EDGE) -face_cyl_nodes = Mesh_cylindre.GroupOnGeom(face_cyl,'group_node_cyl', smesh.NODE) -Mesh_cylindre.Compute() - -# Create the mesh on the cylinder -Mesh_box_tri = smesh.Mesh(box) -smesh.SetName(Mesh_box_tri,"Mesh_box_tri") -Mesh_box_tri.AddHypothesis( BLSURF ) -Mesh_box_tri.AddHypothesis( BLSURF_Parameters ) -Mesh_box_tri.Compute() - -# Create 4 copies of the 2D mesh to test the 3 types of contraints (NODE, EDGE, FACE) -# from the whole mesh and from groups of elements. -# Then the 3D algo and hypothesis are assigned to them. - -mesh_mesh = smesh.CopyMesh( Mesh_box_tri, 'Enforced by faces of mesh', 0, 0) -mesh_mesh.AddHypothesis( GHS3D ) -mesh_mesh.AddHypothesis( GHS3D_Parameters_mesh) - -mesh_node = smesh.CopyMesh( Mesh_box_tri, 'Enforced by group of nodes', 0, 0) -mesh_node.AddHypothesis( GHS3D ) -mesh_node.AddHypothesis( GHS3D_Parameters_node) - -mesh_edge = smesh.CopyMesh( Mesh_box_tri, 'Enforced by group of edges', 0, 0) -mesh_edge.AddHypothesis( GHS3D ) -mesh_edge.AddHypothesis( GHS3D_Parameters_edge) - -mesh_face = smesh.CopyMesh( Mesh_box_tri, 'Enforced by group of faces', 0, 0) -mesh_face.AddHypothesis( GHS3D ) -mesh_face.AddHypothesis( GHS3D_Parameters_face) - -# Add the enforced elements -GHS3D_Parameters_mesh.SetEnforcedMeshWithGroup(Mesh_cylindre.GetMesh(),smesh.FACE,"faces from cylinder") -GHS3D_Parameters_node.SetEnforcedMeshWithGroup(face_cyl_nodes,smesh.NODE,"nodes from face_cyl_nodes") -GHS3D_Parameters_edge.SetEnforcedMeshWithGroup(face_cyl_edges,smesh.EDGE,"edges from face_cyl_edges") -GHS3D_Parameters_face.SetEnforcedMeshWithGroup(face_cyl_faces,smesh.FACE,"faces from face_cyl_faces") - -#Compute the meshes -mesh_node.Compute() -mesh_edge.Compute() -mesh_face.Compute() -mesh_mesh.Compute() - -# End of script - -\endcode +

Example of enforced meshes with GHS3D algorithm:

+\tui_script{ghs3d_enfmesh.py} \image html ghs3d_screenshot_enf3.png \image html ghs3d_screenshot_enf4.png diff --git a/resources/GHS3DPlugin.xml b/resources/GHS3DPlugin.xml index fcea00f..144cb6d 100644 --- a/resources/GHS3DPlugin.xml +++ b/resources/GHS3DPlugin.xml @@ -61,7 +61,7 @@ opt-hypos="GHS3D_Parameters, ViscousLayers" dim="3"> - GHS3D_3D=Tetrahedron(algo=smesh.GHS3D) + GHS3D_3D=Tetrahedron(algo=smeshBuilder.GHS3D) GHS3D_Parameters=Parameters() ViscousLayers=ViscousLayers(SetTotalThickness(),SetNumberLayers(),SetStretchFactor(),SetIgnoreFaces()) diff --git a/src/GHS3DPlugin/GHS3DPluginBuilder.py b/src/GHS3DPlugin/GHS3DPluginBuilder.py new file mode 100644 index 0000000..daefa79 --- /dev/null +++ b/src/GHS3DPlugin/GHS3DPluginBuilder.py @@ -0,0 +1,241 @@ +# Copyright (C) 2007-2013 CEA/DEN, EDF R&D +# +# This library is free software; you can redistribute it and/or +# modify it under the terms of the GNU Lesser General Public +# License as published by the Free Software Foundation; either +# version 2.1 of the License. +# +# This library is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU +# Lesser General Public License for more details. +# +# You should have received a copy of the GNU Lesser General Public +# License along with this library; if not, write to the Free Software +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +# +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +# + +## +# @package GHS3DPluginBuilder +# Python API for the GHS3D meshing plug-in module. + +from salome.smesh.smesh_algorithm import Mesh_Algorithm +from salome.smesh.smeshBuilder import AssureGeomPublished + +# import GHS3DPlugin module if possible +noGHS3DPlugin = 0 +try: + import GHS3DPlugin +except ImportError: + noGHS3DPlugin = 1 + pass + +# Optimization level of GHS3D +# V3.1 +None_Optimization, Light_Optimization, Medium_Optimization, Strong_Optimization = 0,1,2,3 +# V4.1 (partialy redefines V3.1). Issue 0020574 +None_Optimization, Light_Optimization, Standard_Optimization, StandardPlus_Optimization, Strong_Optimization = 0,1,2,3,4 + +#---------------------------- +# Mesh algo type identifiers +#---------------------------- + +## Algorithm type: GHS3D tetrahedron 3D algorithm, see GHS3D_Algorithm +GHS3D = "GHS3D_3D" + +## Tetrahedron GHS3D 3D algorithm +# +# It can be created by calling smesh.Mesh.Tetrahedron( smesh.GHS3D, geom=0 ) +class GHS3D_Algorithm(Mesh_Algorithm): + + ## name of the dynamic method in smesh.Mesh class + # @internal + meshMethod = "Tetrahedron" + ## type of algorithm used with helper function in smesh.Mesh class + # @internal + algoType = GHS3D + ## doc string of the method in smesh.Mesh class + # @internal + docHelper = "Creates tetrahedron 3D algorithm for volumes" + + ## Private constructor. + # @param mesh parent mesh object algorithm is assigned to + # @param geom geometry (shape/sub-shape) algorithm is assigned to; + # if it is @c 0 (default), the algorithm is assigned to the main shape + def __init__(self, mesh, geom=0): + Mesh_Algorithm.__init__(self) + if noGHS3DPlugin: print "Warning: GHS3DPlugin module unavailable" + self.Create(mesh, geom, self.algoType, "libGHS3DEngine.so") + self.params = None + pass + + ## Defines hypothesis having several parameters + # @return hypothesis object + def Parameters(self): + if not self.params: + self.params = self.Hypothesis("GHS3D_Parameters", [], + "libGHS3DEngine.so", UseExisting=0) + pass + return self.params + + ## To mesh "holes" in a solid or not. Default is to mesh. + # @param toMesh "mesh holes" flag value + def SetToMeshHoles(self, toMesh): + self.Parameters().SetToMeshHoles(toMesh) + pass + + ## Set Optimization level: + # @param level optimization level, one of the following values + # - None_Optimization + # - Light_Optimization + # - Standard_Optimization + # - StandardPlus_Optimization + # - Strong_Optimization. + # . + # Default is Standard_Optimization + def SetOptimizationLevel(self, level): + self.Parameters().SetOptimizationLevel(level) + pass + + ## Set maximal size of memory to be used by the algorithm (in Megabytes). + # @param MB maximal size of memory + def SetMaximumMemory(self, MB): + self.Parameters().SetMaximumMemory(MB) + pass + + ## Set initial size of memory to be used by the algorithm (in Megabytes) in + # automatic memory adjustment mode. + # @param MB initial size of memory + def SetInitialMemory(self, MB): + self.Parameters().SetInitialMemory(MB) + pass + + ## Set path to working directory. + # @param path working directory + def SetWorkingDirectory(self, path): + self.Parameters().SetWorkingDirectory(path) + pass + + ## To keep working files or remove them. Log file remains in case of errors anyway. + # @param toKeep "keep working files" flag value + def SetKeepFiles(self, toKeep): + self.Parameters().SetKeepFiles(toKeep) + pass + + ## Set verbosity level [0-10]. + # @param level verbosity level + # - 0 - no standard output, + # - 2 - prints the data, quality statistics of the skin and final meshes and + # indicates when the final mesh is being saved. In addition the software + # gives indication regarding the CPU time. + # - 10 - same as 2 plus the main steps in the computation, quality statistics + # histogram of the skin mesh, quality statistics histogram together with + # the characteristics of the final mesh. + def SetVerboseLevel(self, level): + self.Parameters().SetVerboseLevel(level) + pass + + ## To create new nodes. + # @param toCreate "create new nodes" flag value + def SetToCreateNewNodes(self, toCreate): + self.Parameters().SetToCreateNewNodes(toCreate) + pass + + ## To use boundary recovery version which tries to create mesh on a very poor + # quality surface mesh. + # @param toUse "use boundary recovery version" flag value + def SetToUseBoundaryRecoveryVersion(self, toUse): + self.Parameters().SetToUseBoundaryRecoveryVersion(toUse) + pass + + ## Applies finite-element correction by replacing overconstrained elements where + # it is possible. The process is cutting first the overconstrained edges and + # second the overconstrained facets. This insure that no edges have two boundary + # vertices and that no facets have three boundary vertices. + # @param toUseFem "apply finite-element correction" flag value + def SetFEMCorrection(self, toUseFem): + self.Parameters().SetFEMCorrection(toUseFem) + pass + + ## To remove initial central point. + # @param toRemove "remove initial central point" flag value + def SetToRemoveCentralPoint(self, toRemove): + self.Parameters().SetToRemoveCentralPoint(toRemove) + pass + + ## To set an enforced vertex. + # @param x : x coordinate + # @param y : y coordinate + # @param z : z coordinate + # @param size : size of 1D element around enforced vertex + # @param vertexName : name of the enforced vertex + # @param groupName : name of the group + def SetEnforcedVertex(self, x, y, z, size, vertexName = "", groupName = ""): + if vertexName == "": + if groupName == "": + return self.Parameters().SetEnforcedVertex(x, y, z, size) + else: + return self.Parameters().SetEnforcedVertexWithGroup(x, y, z, size, groupName) + pass + else: + if groupName == "": + return self.Parameters().SetEnforcedVertexNamed(x, y, z, size, vertexName) + else: + return self.Parameters().SetEnforcedVertexNamedWithGroup(x, y, z, size, vertexName, groupName) + pass + pass + + ## To set an enforced vertex given a GEOM vertex, group or compound. + # @param theVertex : GEOM vertex (or group, compound) to be projected on theFace. + # @param size : size of 1D element around enforced vertex + # @param groupName : name of the group + def SetEnforcedVertexGeom(self, theVertex, size, groupName = ""): + AssureGeomPublished( self.mesh, theVertex ) + if groupName == "": + return self.Parameters().SetEnforcedVertexGeom(theVertex, size) + else: + return self.Parameters().SetEnforcedVertexGeomWithGroup(theVertex, size, groupName) + pass + + ## To remove an enforced vertex. + # @param x : x coordinate + # @param y : y coordinate + # @param z : z coordinate + def RemoveEnforcedVertex(self, x, y, z): + return self.Parameters().RemoveEnforcedVertex(x, y, z) + + ## To remove an enforced vertex given a GEOM vertex, group or compound. + # @param theVertex : GEOM vertex (or group, compound) to be projected on theFace. + def RemoveEnforcedVertexGeom(self, theVertex): + AssureGeomPublished( self.mesh, theVertex ) + return self.Parameters().RemoveEnforcedVertexGeom(theVertex) + + ## To set an enforced mesh with given size and add the enforced elements in the group "groupName". + # @param theSource : source mesh which provides constraint elements/nodes + # @param elementType : SMESH.ElementType (NODE, EDGE or FACE) + # @param size : size of elements around enforced elements. Unused if -1. + # @param groupName : group in which enforced elements will be added. Unused if "". + def SetEnforcedMesh(self, theSource, elementType, size = -1, groupName = ""): + if size < 0: + if groupName == "": + return self.Parameters().SetEnforcedMesh(theSource, elementType) + else: + return self.Parameters().SetEnforcedMeshWithGroup(theSource, elementType, groupName) + pass + else: + if groupName == "": + return self.Parameters().SetEnforcedMeshSize(theSource, elementType, size) + else: + return self.Parameters().SetEnforcedMeshSizeWithGroup(theSource, elementType, size, groupName) + pass + pass + + ## Sets command line option as text. + # @param option command line option + def SetTextOption(self, option): + self.Parameters().SetTextOption(option) + pass + + pass # end of GHS3D_Algorithm class diff --git a/src/GHS3DPlugin/GHS3DPluginDC.py b/src/GHS3DPlugin/GHS3DPluginDC.py deleted file mode 100644 index 3c1028b..0000000 --- a/src/GHS3DPlugin/GHS3DPluginDC.py +++ /dev/null @@ -1,241 +0,0 @@ -# Copyright (C) 2007-2013 CEA/DEN, EDF R&D -# -# This library is free software; you can redistribute it and/or -# modify it under the terms of the GNU Lesser General Public -# License as published by the Free Software Foundation; either -# version 2.1 of the License. -# -# This library is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU -# Lesser General Public License for more details. -# -# You should have received a copy of the GNU Lesser General Public -# License along with this library; if not, write to the Free Software -# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -# -# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -# - -## -# @package GHS3DPluginDC -# Python API for the GHS3D meshing plug-in module. - -from smesh_algorithm import Mesh_Algorithm -from smesh import AssureGeomPublished - -# import GHS3DPlugin module if possible -noGHS3DPlugin = 0 -try: - import GHS3DPlugin -except ImportError: - noGHS3DPlugin = 1 - pass - -# Optimization level of GHS3D -# V3.1 -None_Optimization, Light_Optimization, Medium_Optimization, Strong_Optimization = 0,1,2,3 -# V4.1 (partialy redefines V3.1). Issue 0020574 -None_Optimization, Light_Optimization, Standard_Optimization, StandardPlus_Optimization, Strong_Optimization = 0,1,2,3,4 - -#---------------------------- -# Mesh algo type identifiers -#---------------------------- - -## Algorithm type: GHS3D tetrahedron 3D algorithm, see GHS3D_Algorithm -GHS3D = "GHS3D_3D" - -## Tetrahedron GHS3D 3D algorithm -# -# It can be created by calling smesh.Mesh.Tetrahedron( smesh.GHS3D, geom=0 ) -class GHS3D_Algorithm(Mesh_Algorithm): - - ## name of the dynamic method in smesh.Mesh class - # @internal - meshMethod = "Tetrahedron" - ## type of algorithm used with helper function in smesh.Mesh class - # @internal - algoType = GHS3D - ## doc string of the method in smesh.Mesh class - # @internal - docHelper = "Creates tetrahedron 3D algorithm for volumes" - - ## Private constructor. - # @param mesh parent mesh object algorithm is assigned to - # @param geom geometry (shape/sub-shape) algorithm is assigned to; - # if it is @c 0 (default), the algorithm is assigned to the main shape - def __init__(self, mesh, geom=0): - Mesh_Algorithm.__init__(self) - if noGHS3DPlugin: print "Warning: GHS3DPlugin module unavailable" - self.Create(mesh, geom, self.algoType, "libGHS3DEngine.so") - self.params = None - pass - - ## Defines hypothesis having several parameters - # @return hypothesis object - def Parameters(self): - if not self.params: - self.params = self.Hypothesis("GHS3D_Parameters", [], - "libGHS3DEngine.so", UseExisting=0) - pass - return self.params - - ## To mesh "holes" in a solid or not. Default is to mesh. - # @param toMesh "mesh holes" flag value - def SetToMeshHoles(self, toMesh): - self.Parameters().SetToMeshHoles(toMesh) - pass - - ## Set Optimization level: - # @param level optimization level, one of the following values - # - None_Optimization - # - Light_Optimization - # - Standard_Optimization - # - StandardPlus_Optimization - # - Strong_Optimization. - # . - # Default is Standard_Optimization - def SetOptimizationLevel(self, level): - self.Parameters().SetOptimizationLevel(level) - pass - - ## Set maximal size of memory to be used by the algorithm (in Megabytes). - # @param MB maximal size of memory - def SetMaximumMemory(self, MB): - self.Parameters().SetMaximumMemory(MB) - pass - - ## Set initial size of memory to be used by the algorithm (in Megabytes) in - # automatic memory adjustment mode. - # @param MB initial size of memory - def SetInitialMemory(self, MB): - self.Parameters().SetInitialMemory(MB) - pass - - ## Set path to working directory. - # @param path working directory - def SetWorkingDirectory(self, path): - self.Parameters().SetWorkingDirectory(path) - pass - - ## To keep working files or remove them. Log file remains in case of errors anyway. - # @param toKeep "keep working files" flag value - def SetKeepFiles(self, toKeep): - self.Parameters().SetKeepFiles(toKeep) - pass - - ## Set verbosity level [0-10]. - # @param level verbosity level - # - 0 - no standard output, - # - 2 - prints the data, quality statistics of the skin and final meshes and - # indicates when the final mesh is being saved. In addition the software - # gives indication regarding the CPU time. - # - 10 - same as 2 plus the main steps in the computation, quality statistics - # histogram of the skin mesh, quality statistics histogram together with - # the characteristics of the final mesh. - def SetVerboseLevel(self, level): - self.Parameters().SetVerboseLevel(level) - pass - - ## To create new nodes. - # @param toCreate "create new nodes" flag value - def SetToCreateNewNodes(self, toCreate): - self.Parameters().SetToCreateNewNodes(toCreate) - pass - - ## To use boundary recovery version which tries to create mesh on a very poor - # quality surface mesh. - # @param toUse "use boundary recovery version" flag value - def SetToUseBoundaryRecoveryVersion(self, toUse): - self.Parameters().SetToUseBoundaryRecoveryVersion(toUse) - pass - - ## Applies finite-element correction by replacing overconstrained elements where - # it is possible. The process is cutting first the overconstrained edges and - # second the overconstrained facets. This insure that no edges have two boundary - # vertices and that no facets have three boundary vertices. - # @param toUseFem "apply finite-element correction" flag value - def SetFEMCorrection(self, toUseFem): - self.Parameters().SetFEMCorrection(toUseFem) - pass - - ## To remove initial central point. - # @param toRemove "remove initial central point" flag value - def SetToRemoveCentralPoint(self, toRemove): - self.Parameters().SetToRemoveCentralPoint(toRemove) - pass - - ## To set an enforced vertex. - # @param x : x coordinate - # @param y : y coordinate - # @param z : z coordinate - # @param size : size of 1D element around enforced vertex - # @param vertexName : name of the enforced vertex - # @param groupName : name of the group - def SetEnforcedVertex(self, x, y, z, size, vertexName = "", groupName = ""): - if vertexName == "": - if groupName == "": - return self.Parameters().SetEnforcedVertex(x, y, z, size) - else: - return self.Parameters().SetEnforcedVertexWithGroup(x, y, z, size, groupName) - pass - else: - if groupName == "": - return self.Parameters().SetEnforcedVertexNamed(x, y, z, size, vertexName) - else: - return self.Parameters().SetEnforcedVertexNamedWithGroup(x, y, z, size, vertexName, groupName) - pass - pass - - ## To set an enforced vertex given a GEOM vertex, group or compound. - # @param theVertex : GEOM vertex (or group, compound) to be projected on theFace. - # @param size : size of 1D element around enforced vertex - # @param groupName : name of the group - def SetEnforcedVertexGeom(self, theVertex, size, groupName = ""): - AssureGeomPublished( self.mesh, theVertex ) - if groupName == "": - return self.Parameters().SetEnforcedVertexGeom(theVertex, size) - else: - return self.Parameters().SetEnforcedVertexGeomWithGroup(theVertex, size, groupName) - pass - - ## To remove an enforced vertex. - # @param x : x coordinate - # @param y : y coordinate - # @param z : z coordinate - def RemoveEnforcedVertex(self, x, y, z): - return self.Parameters().RemoveEnforcedVertex(x, y, z) - - ## To remove an enforced vertex given a GEOM vertex, group or compound. - # @param theVertex : GEOM vertex (or group, compound) to be projected on theFace. - def RemoveEnforcedVertexGeom(self, theVertex): - AssureGeomPublished( self.mesh, theVertex ) - return self.Parameters().RemoveEnforcedVertexGeom(theVertex) - - ## To set an enforced mesh with given size and add the enforced elements in the group "groupName". - # @param theSource : source mesh which provides constraint elements/nodes - # @param elementType : SMESH.ElementType (NODE, EDGE or FACE) - # @param size : size of elements around enforced elements. Unused if -1. - # @param groupName : group in which enforced elements will be added. Unused if "". - def SetEnforcedMesh(self, theSource, elementType, size = -1, groupName = ""): - if size < 0: - if groupName == "": - return self.Parameters().SetEnforcedMesh(theSource, elementType) - else: - return self.Parameters().SetEnforcedMeshWithGroup(theSource, elementType, groupName) - pass - else: - if groupName == "": - return self.Parameters().SetEnforcedMeshSize(theSource, elementType, size) - else: - return self.Parameters().SetEnforcedMeshSizeWithGroup(theSource, elementType, size, groupName) - pass - pass - - ## Sets command line option as text. - # @param option command line option - def SetTextOption(self, option): - self.Parameters().SetTextOption(option) - pass - - pass # end of GHS3D_Algorithm class diff --git a/src/GHS3DPlugin/Makefile.am b/src/GHS3DPlugin/Makefile.am index f6a9005..4af27ab 100644 --- a/src/GHS3DPlugin/Makefile.am +++ b/src/GHS3DPlugin/Makefile.am @@ -63,4 +63,8 @@ libGHS3DEngine_la_LDFLAGS = \ $(KERNEL_LDFLAGS) -lSalomeGenericObj -lSALOMELocalTrace -lSALOMEBasics -lSalomeNS -lOpUtil # Scripts to be installed. -dist_salomescript_DATA= GHS3DPluginDC.py +#dist_salomescript_DATA= GHS3DPluginDC.py +mypkgpythondir = $(salomepythondir)/salome/GHS3DPlugin +mypkgpython_PYTHON = \ + __init__.py \ + GHS3DPluginBuilder.py diff --git a/src/GHS3DPlugin/__init__.py b/src/GHS3DPlugin/__init__.py new file mode 100644 index 0000000..72bdea5 --- /dev/null +++ b/src/GHS3DPlugin/__init__.py @@ -0,0 +1,23 @@ +# Copyright (C) 2007-2013 CEA/DEN, EDF R&D +# +# This library is free software; you can redistribute it and/or +# modify it under the terms of the GNU Lesser General Public +# License as published by the Free Software Foundation; either +# version 2.1 of the License. +# +# This library is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU +# Lesser General Public License for more details. +# +# You should have received a copy of the GNU Lesser General Public +# License along with this library; if not, write to the Free Software +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +# +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +# + +## +# @package GHS3DPluginBuilder +# Python API for the GHS3D meshing plug-in module. +