+ * \brief Identify the elements that will be affected by node duplication (actual duplication is not performed.
+ * This method is the first step of DoubleNodeElemGroupsInRegion.
+ * \param theElems - list of groups of elements (edges or faces) to be replicated
+ * \param theNodesNot - list of groups of nodes not to replicated
+ * \param theShape - shape to detect affected elements (element which geometric center
+ * located on or inside shape).
+ * The replicated nodes should be associated to affected elements.
+ * \return groups of affected elements
+ * \sa DoubleNodeElemGroupsInRegion()
+ */
+ SMESH::ListOfGroups* AffectedElemGroupsInRegion( const SMESH::ListOfGroups& theElems,
+ const SMESH::ListOfGroups& theNodesNot,
+ GEOM::GEOM_Object_ptr theShape )
+ throw (SALOME::SALOME_Exception);
+
+ /*!
+ * \brief Double nodes on shared faces between groups of volumes and create flat elements on demand.
+ * The list of groups must describe a partition of the mesh volumes.
+ * The nodes of the internal faces at the boundaries of the groups are doubled.
+ * In option, the internal faces are replaced by flat elements.
+ * Triangles are transformed in prisms, and quadrangles in hexahedrons.
+ * \param theDomains - list of groups of volumes
+ * \param createJointElems - if TRUE, create the elements
+ * \param onAllBoundaries - if TRUE, the nodes and elements are also create on
+ * the boundary between \a theDomains and the rest mesh
+ * \return TRUE if operation has been completed successfully, FALSE otherwise
+ */
+ CORBA::Boolean DoubleNodesOnGroupBoundaries( const SMESH::ListOfGroups& theDomains,
+ CORBA::Boolean createJointElems,
+ CORBA::Boolean onAllBoundaries )
+ throw (SALOME::SALOME_Exception);
+ /*!
+ * \brief Double nodes on some external faces and create flat elements.
+ * Flat elements are mainly used by some types of mechanic calculations.
+ *
+ * Each group of the list must be constituted of faces.
+ * Triangles are transformed in prisms, and quadrangles in hexahedrons.
+ * @param theGroupsOfFaces - list of groups of faces
+ * @return TRUE if operation has been completed successfully, FALSE otherwise
+ */
+ CORBA::Boolean CreateFlatElementsOnFacesGroups( const SMESH::ListOfGroups& theGroupsOfFaces )
+ throw (SALOME::SALOME_Exception);
+
+ /*!
+ * \brief identify all the elements around a geom shape, get the faces delimiting the hole
+ * Build groups of volume to remove, groups of faces to replace on the skin of the object,
+ * groups of faces to remove insidethe object, (idem edges).
+ * Build ordered list of nodes at the border of each group of faces to replace (to be used to build a geom subshape)
+ */
+ void CreateHoleSkin(CORBA::Double radius,
+ GEOM::GEOM_Object_ptr theShape,
+ const char* groupName,
+ const SMESH::double_array& theNodesCoords,
+ SMESH::array_of_long_array_out GroupsOfNodes)
+ throw (SALOME::SALOME_Exception);
+
+ /*!
+ * \brief Generated skin mesh (containing 2D cells) from 3D mesh
+ * The created 2D mesh elements based on nodes of free faces of boundary volumes
+ * \return TRUE if operation has been completed successfully, FALSE otherwise
+ */
+ CORBA::Boolean Make2DMeshFrom3D()
+ throw (SALOME::SALOME_Exception);
+
+ SMESH::SMESH_Mesh_ptr MakeBoundaryMesh(SMESH::SMESH_IDSource_ptr elements,
+ SMESH::Bnd_Dimension dimension,
+ const char* groupName,
+ const char* meshName,
+ CORBA::Boolean toCopyElements,
+ CORBA::Boolean toCopyMissingBondary,
+ SMESH::SMESH_Group_out group)
+ throw (SALOME::SALOME_Exception);
+
+ CORBA::Long MakeBoundaryElements(SMESH::Bnd_Dimension dimension,
+ const char* groupName,
+ const char* meshName,
+ CORBA::Boolean toCopyAll,
+ const SMESH::ListOfIDSources& groups,
+ SMESH::SMESH_Mesh_out mesh,
+ SMESH::SMESH_Group_out group)
+ throw (SALOME::SALOME_Exception);
+
+ /*!
+ * \brief Create a polyline consisting of 1D mesh elements each lying on a 2D element of
+ * the initial mesh. Positions of new nodes are found by cutting the mesh by the
+ * plane passing through pairs of points specified by each PolySegment structure.
+ * If there are several paths connecting a pair of points, the shortest path is
+ * selected by the module. Position of the cutting plane is defined by the two
+ * points and an optional vector lying on the plane specified by a PolySegment.
+ * By default the vector is defined by Mesh module as following. A middle point
+ * of the two given points is computed. The middle point is projected to the mesh.
+ * The vector goes from the middle point to the projection point. In case of planar
+ * mesh, the vector is normal to the mesh.
+ * \param [inout] segments - PolySegment's defining positions of cutting planes.
+ * Return the used vector and position of the middle point.
+ * \param [in] groupName - optional name of a group where created mesh segments will
+ * be added.
+ */
+ void MakePolyLine(SMESH::ListOfPolySegments& segments,
+ const char* groupName)
+ throw (SALOME::SALOME_Exception);
+
+ /*!
+ * \brief Create a slot of given width around given 1D elements lying on a triangle mesh.
+ * The slot is consrtucted by cutting faces by cylindrical surfaces made
+ * around each segment. Segments are expected to be created by MakePolyLine().
+ * \return Edges located at the slot boundary
+ */
+ SMESH::ListOfEdges* MakeSlot(SMESH::SMESH_GroupBase_ptr segments,
+ CORBA::Double width)
+ throw (SALOME::SALOME_Exception);
+
+
+ private: //!< private methods
+
+ ::SMESH_MeshEditor& getEditor();
+
+ SMESHDS_Mesh * getMeshDS() { return myMesh->GetMeshDS(); }
+
+ MeshEditor_I::TPreviewMesh * getPreviewMesh( SMDSAbs_ElementType previewType = SMDSAbs_All );
+
+ void declareMeshModified( bool isReComputeSafe );
+
+ /*!
+ * \brief Clear myLastCreated* or myPreviewData
+ */
+ void initData(bool deleteSearchers=true);
+
+ /*!
+ * \brief Return groups by their IDs