Make interface on given faces and create flat prism in that space. More...

#include <src/interfaces/PrismInterface.hpp>

Inheritance diagram for MoFEM::PrismInterface:

Collaboration diagram for MoFEM::PrismInterface:

Public Member Functions
MoFEMErrorCode	query_interface (const MOFEMuuid &uuid, UnknownInterface **iface) const

	PrismInterface (const MoFEM::Core &core)

	~PrismInterface ()
	destructor More...

MoFEMErrorCode	getSides (const int msId, const CubitBCType cubit_bc_type, const BitRefLevel mesh_bit_level, const bool recursive, int verb=QUIET)
	create two children meshsets in the meshset containing tetrahedral on two sides of faces More...

MoFEMErrorCode	getSides (const EntityHandle sideset, const BitRefLevel mesh_bit_level, const bool recursive, int verb=QUIET)
	create two children meshsets in the meshset containing tetrahedral on two sides of faces More...

MoFEMErrorCode	findIfTringleHasThreeNodesOnInternalSurfaceSkin (const EntityHandle sideset, const BitRefLevel mesh_bit_level, const bool recursive, Range &faces_with_three_nodes_on_front, int verb=QUIET)
	Find if triangle has three nodes on internal surface skin. More...

MoFEMErrorCode	splitSides (const EntityHandle meshset, const BitRefLevel &bit, const int msId, const CubitBCType cubit_bc_type, const bool add_interface_entities, const bool recursive=false, int verb=QUIET)
	split nodes and other entities of tetrahedral in children sets and add prism elements More...

MoFEMErrorCode	splitSides (const EntityHandle meshset, const BitRefLevel &bit, const EntityHandle, const bool add_interface_entities, const bool recursive=false, int verb=QUIET)
	split nodes and other entities of tetrahedral in children sets and add prism elements More...

MoFEMErrorCode	splitSides (const EntityHandle meshset, const BitRefLevel &bit, const BitRefLevel &inhered_from_bit_level, const BitRefLevel &inhered_from_bit_level_mask, const EntityHandle sideset, const bool add_interface_entities, const bool recursive=false, int verb=QUIET)
	split nodes and other entities of tetrahedrons in children sets and add prism elements More...

Public Member Functions inherited from MoFEM::UnknownInterface
template<class IFACE >
MoFEMErrorCode	registerInterface (const MOFEMuuid &uuid, bool error_if_registration_failed=true)
	Register interface. More...

template<class IFACE , bool VERIFY = false>
MoFEMErrorCode	getInterface (const MOFEMuuid &uuid, IFACE *&iface) const
	Get interface by uuid and return reference to pointer of interface. More...

template<class IFACE >
MoFEMErrorCode	getInterface (IFACE *&iface) const
	Get interface refernce to pointer of interface. More...

template<class IFACE >
MoFEMErrorCode	getInterface (IFACE **const iface) const
	Get interface pointer to pointer of interface. More...

template<class IFACE , typename boost::enable_if< boost::is_pointer< IFACE >, int >::type = 0>
IFACE	getInterface () const
	Get interface pointer to pointer of interface. More...

template<class IFACE , typename boost::enable_if< boost::is_reference< IFACE >, int >::type = 0>
IFACE	getInterface () const
	Get reference to interface. More...

template<class IFACE >
IFACE *	getInterface () const
	Function returning pointer to interface. More...

virtual	~UnknownInterface ()

virtual MoFEMErrorCode	getLibVersion (Version &version) const
	Get library version. More...

virtual const MoFEMErrorCode	getFileVersion (moab::Interface &moab, Version &version) const
	Get database major version. More...

virtual MoFEMErrorCode	getInterfaceVersion (Version &version) const
	Get database major version. More...

template<>
MoFEMErrorCode	getInterface (const MOFEMuuid &uuid, UnknownInterface *&iface) const

Public Attributes
MoFEM::Core &	cOre

Additional Inherited Members
Protected Member Functions inherited from MoFEM::UnknownInterface
boost::typeindex::type_index	getClassIdx (const MOFEMuuid &uid) const
	Get type name for interface Id. More...

MOFEMuuid	getUId (const boost::typeindex::type_index &class_idx) const
	Get interface Id for class name. More...

Detailed Description

Make interface on given faces and create flat prism in that space.

Todo:: FIXME Names of methods do not follow naming convention and are difficult to work with.

Examples: forces_and_sources_testing_flat_prism_element.cpp, and split_sideset.cpp.

Definition at line 37 of file PrismInterface.hpp.

Constructor & Destructor Documentation

◆ PrismInterface()

MoFEM::PrismInterface::PrismInterface ( const MoFEM::Core & core )

Definition at line 36 of file PrismInterface.cpp.

37 : cOre(const_cast<Core &>(core)) {}

MoFEM::PrismInterface::cOre

MoFEM::Core & cOre

Definition: PrismInterface.hpp:42

◆ ~PrismInterface()

MoFEM::PrismInterface::~PrismInterface ( )

destructor

Definition at line 46 of file PrismInterface.hpp.

46 {}

Member Function Documentation

◆ findIfTringleHasThreeNodesOnInternalSurfaceSkin()

MoFEMErrorCode MoFEM::PrismInterface::findIfTringleHasThreeNodesOnInternalSurfaceSkin	(	const EntityHandle	sideset,
		const BitRefLevel	mesh_bit_level,
		const bool	recursive,
		Range &	faces_with_three_nodes_on_front,
		int	verb = `QUIET`
	)

Find if triangle has three nodes on internal surface skin.

Internal surface skin is a set of edges in the body on the boundary of the surface. This set of edges is called a surface front. If the surface the face has three nodes on the surface front, none of the face nodes is split and should be removed from the surface. Otherwise, such a triangle cannot be split.

Parameters

sideset	meshset with surface
mesh_bit_level	bit ref level of the volume mesh
recursive	search in sub-meshsets
faces_with_three_nodes_on_front	returned faces
verb	verbosity level

Returns: error code

Definition at line 398 of file PrismInterface.cpp.

                                                                             {
   Interface &m_field = cOre;
   moab::Interface &moab = m_field.get_moab();
   MoFEMFunctionBegin;
 
   Range mesh_level_ents3d;
   Range mesh_level_edges, mesh_level_tris;
   if (mesh_bit_level.any()) {
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBTET, mesh_level_ents3d);
 
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBTRI, mesh_level_tris);
 
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBEDGE, mesh_level_edges);
   }
 
   Skinner skin(&moab);
   // get interface triangles from side set
   Range triangles;
   CHKERR moab.get_entities_by_type(sideset, MBTRI, triangles, recursive);
 
   if (mesh_bit_level.any()) {
     triangles = intersect(triangles, mesh_level_tris);
   }
   if (verb >= VERBOSE) {
     PetscPrintf(m_field.get_comm(), "Nb. of triangles in set %u\n",
                 triangles.size());
   }
   // get nodes, edges and 3d ents (i.e. tets and prisms)
   Range nodes; // nodes from triangles
   CHKERR moab.get_connectivity(triangles, nodes, true);
 
   Range ents3d; // 3d ents form nodes
   CHKERR moab.get_adjacencies(nodes, 3, false, ents3d, moab::Interface::UNION);
 
   if (mesh_bit_level.any()) {
     ents3d = intersect(ents3d, mesh_level_ents3d);
   }
   // take skin faces
   Range skin_faces; // skin faces from 3d ents
   CHKERR skin.find_skin(0, ents3d.subset_by_type(MBTET), false, skin_faces);
 
   // take skin edges (boundary of surface if there is any)
   Range skin_edges_boundary; // skin edges from triangles
   CHKERR skin.find_skin(0, triangles, false, skin_edges_boundary);
 
   if (verb >= VERY_VERBOSE) {
     PetscPrintf(m_field.get_comm(), "skin_edges_boundary %u\n",
                 skin_edges_boundary.size());
   }
   // take all edges on skin faces (i.e. skin surface)
   Range skin_faces_edges; // edges from skin faces of 3d ents
   CHKERR moab.get_adjacencies(skin_faces, 1, false, skin_faces_edges,
                               moab::Interface::UNION);
 
   if (mesh_bit_level.any()) {
     skin_faces_edges = intersect(skin_faces_edges, mesh_level_edges);
   }
   if (verb >= VERY_VERBOSE) {
     PetscPrintf(m_field.get_comm(), "skin_faces_edges %u\n",
                 skin_faces_edges.size());
   }
   // note: that skin faces edges do not contain internal boundary
   // note: that prisms are not included in ents3d, so if ents3d have border with
   // other inteface is like external boundary skin edges boundary are internal
   // edge <- skin_faces_edges contains edges which are on the body boundary <-
   // that is the trick
   skin_edges_boundary =
       subtract(skin_edges_boundary,
                skin_faces_edges); // from skin edges subtract edges from skin
                                   // faces of 3d ents (only internal edges)
 
   if (verb >= VERY_VERBOSE) {
     EntityHandle out_meshset;
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, out_meshset);
     CHKERR moab.add_entities(out_meshset, triangles);
     CHKERR moab.write_file("triangles.vtk", "VTK", "", &out_meshset, 1);
     CHKERR moab.delete_entities(&out_meshset, 1);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, out_meshset);
     CHKERR moab.add_entities(out_meshset, ents3d);
     CHKERR moab.write_file("ents3d.vtk", "VTK", "", &out_meshset, 1);
     CHKERR moab.delete_entities(&out_meshset, 1);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, out_meshset);
     CHKERR moab.add_entities(out_meshset, skin_edges_boundary);
     CHKERR moab.write_file("skin_edges_boundary.vtk", "VTK", "", &out_meshset,
                            1);
     CHKERR moab.delete_entities(&out_meshset, 1);
   }
   if (verb >= VERY_VERBOSE) {
     PetscPrintf(m_field.get_comm(), "subtract skin_edges_boundary %u\n",
                 skin_edges_boundary.size());
   }
 
   // Get nodes on boundary edge
   Range skin_nodes_boundary;
   CHKERR moab.get_connectivity(skin_edges_boundary, skin_nodes_boundary, true);
 
   // Remove node which are boundary with other existing interface
   Range prisms_nodes;
   CHKERR
   moab.get_connectivity(ents3d.subset_by_type(MBPRISM), prisms_nodes, true);
 
   skin_nodes_boundary = subtract(skin_nodes_boundary, prisms_nodes);
   if (verb >= VERY_VERBOSE) {
     PetscPrintf(m_field.get_comm(), "subtract skin_nodes_boundary %u\n",
                 skin_nodes_boundary.size());
   }
   // use nodes on body boundary and interface (without internal boundary) to
   // find adjacent tets
   Range nodes_without_front = subtract(
       nodes, skin_nodes_boundary); // nodes_without_front adjacent to all split
                                    // face edges except those on internal edge
   if (verb >= VERY_VERBOSE) {
     PetscPrintf(m_field.get_comm(),
                 "adj. node if ents3d but not on the internal edge %u\n",
                 nodes_without_front.size());
   }
 
   Range skin_nodes_boundary_tris;
   CHKERR moab.get_adjacencies(skin_nodes_boundary, 2, false,
                               skin_nodes_boundary_tris, moab::Interface::UNION);
   Range skin_nodes_boundary_tris_nodes;
   CHKERR moab.get_connectivity(skin_nodes_boundary_tris,
                                skin_nodes_boundary_tris_nodes, true);
 
   skin_nodes_boundary_tris_nodes =
       subtract(skin_nodes_boundary_tris_nodes, skin_nodes_boundary);
   Range skin_nodes_boundary_tris_nodes_tris;
   CHKERR moab.get_adjacencies(skin_nodes_boundary_tris_nodes, 2, false,
                               skin_nodes_boundary_tris_nodes_tris,
                               moab::Interface::UNION);
 
   // Triangle which has tree nodes on front boundary
   skin_nodes_boundary_tris =
       intersect(triangles, subtract(skin_nodes_boundary_tris,
                                     skin_nodes_boundary_tris_nodes_tris));
   faces_with_three_nodes_on_front.swap(skin_nodes_boundary_tris);
 
   MoFEMFunctionReturn(0);
 }

◆ getSides() [1/2]

MoFEMErrorCode MoFEM::PrismInterface::getSides	(	const int	msId,
		const CubitBCType	cubit_bc_type,
		const BitRefLevel	mesh_bit_level,
		const bool	recursive,
		int	verb = `QUIET`
	)

create two children meshsets in the meshset containing tetrahedral on two sides of faces

Parameters

msId	Id of meshset
cubit_bc_type	type of meshset (NODESET, SIDESET or BLOCKSET and more)
mesh_bit_level	add interface on bit level is bit_level = BitRefLevel.set() then add interface on all bit levels
recursive	if true parent meshset is searched recursively

Examples: forces_and_sources_testing_flat_prism_element.cpp, and split_sideset.cpp.

Definition at line 39 of file PrismInterface.cpp.

                                                                         {
 
   Interface &m_field = cOre;
   MeshsetsManager *meshsets_manager_ptr;
   MoFEMFunctionBegin;
   CHKERR m_field.getInterface(meshsets_manager_ptr);
   CubitMeshSet_multiIndex::index<
       Composite_Cubit_msId_And_MeshSetType_mi_tag>::type::iterator miit =
       meshsets_manager_ptr->getMeshsetsMultindex()
           .get<Composite_Cubit_msId_And_MeshSetType_mi_tag>()
           .find(boost::make_tuple(msId, cubit_bc_type.to_ulong()));
   if (miit != meshsets_manager_ptr->getMeshsetsMultindex()
                   .get<Composite_Cubit_msId_And_MeshSetType_mi_tag>()
                   .end()) {
     CHKERR getSides(miit->meshset, mesh_bit_level, recursive, verb);
   } else {
     SETERRQ(PETSC_COMM_SELF, MOFEM_NOT_FOUND, "msId is not there");
   }
   MoFEMFunctionReturn(0);
 }

◆ getSides() [2/2]

MoFEMErrorCode MoFEM::PrismInterface::getSides	(	const EntityHandle	sideset,
		const BitRefLevel	mesh_bit_level,
		const bool	recursive,
		int	verb = `QUIET`
	)

create two children meshsets in the meshset containing tetrahedral on two sides of faces

Get tets adj to faces. Take skin form tets and get edges from that skin. Take skin form triangles (the face). Subtrac skin faces edges form skin edges in order to get edges on the boundary of the face which is in the volume of the body, but is not on the boundary. Each child set has a child containing nodes which can be split and skin edges. After that simply iterate under all tets on one side which are adjacent to the face are found. Side tets are stored in to children meshsets of the SIDESET meshset.

Definition at line 63 of file PrismInterface.cpp.

                                                                         {
   Interface &m_field = cOre;
   moab::Interface &moab = m_field.get_moab();
   MoFEMFunctionBegin;
   Range mesh_level_ents3d, mesh_level_ents3d_tris;
   Range mesh_level_tris;
   Range mesh_level_edges;
   Range mesh_level_nodes;
   if (mesh_bit_level.any()) {
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBTET, mesh_level_ents3d);
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBTRI, mesh_level_tris);
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBEDGE, mesh_level_edges);
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBVERTEX, mesh_level_nodes);
     CHKERR moab.get_adjacencies(mesh_level_ents3d, 2, false,
                                 mesh_level_ents3d_tris, moab::Interface::UNION);
   }
   Range mesh_level_prisms;
   if (mesh_bit_level.any()) {
     CHKERR m_field.getInterface<BitRefManager>()->getEntitiesByTypeAndRefLevel(
         mesh_bit_level, BitRefLevel().set(), MBPRISM, mesh_level_prisms);
     mesh_level_ents3d.merge(mesh_level_prisms);
   }
   Skinner skin(&moab);
   // get interface triangles from side set
   Range triangles;
   CHKERR moab.get_entities_by_type(sideset, MBTRI, triangles, recursive);
   if (mesh_bit_level.any()) {
     triangles = intersect(triangles, mesh_level_ents3d_tris);
   }
   if (verb >= VERBOSE) {
     PetscPrintf(m_field.get_comm(), "Nb. of triangles in set %u\n",
                 triangles.size());
   }
   // get nodes, edges and 3d ents (i.e. tets and prisms)
   Range nodes; // nodes from triangles
   CHKERR moab.get_connectivity(triangles, nodes, true);
   Range ents3d, ents3d_with_prisms; // 3d ents form nodes
   CHKERR moab.get_adjacencies(nodes, 3, false, ents3d_with_prisms,
                               moab::Interface::UNION);
   if (mesh_bit_level.any()) {
     ents3d_with_prisms = intersect(ents3d_with_prisms, mesh_level_ents3d);
   }
   ents3d = ents3d_with_prisms.subset_by_type(
       MBTET); // take only tets, add prism later
   // take skin faces
   Range skin_faces; // skin faces from 3d ents
   CHKERR skin.find_skin(0, ents3d, false, skin_faces);
   // take skin edges (boundary of surface if there is any)
   Range skin_edges_boundary; // skin edges from triangles
   CHKERR skin.find_skin(0, triangles, false, skin_edges_boundary);
   if (verb >= VERY_VERBOSE)
     PetscPrintf(m_field.get_comm(), "skin_edges_boundary %u\n",
                 skin_edges_boundary.size());
   // take all edges on skin faces (i.e. skin surface)
   Range skin_faces_edges; // edges from skin faces of 3d ents
   CHKERR moab.get_adjacencies(skin_faces, 1, false, skin_faces_edges,
                               moab::Interface::UNION);
   if (mesh_bit_level.any()) {
     skin_faces_edges = intersect(skin_faces_edges, mesh_level_edges);
   }
   if (verb >= VERY_VERBOSE)
     PetscPrintf(m_field.get_comm(), "skin_faces_edges %u\n",
                 skin_faces_edges.size());
   // note: that skin faces edges do not contain internal boundary
   // note: that prisms are not included in ents3d, so if ents3d have border with
   // other inteface is like external boundary skin edges boundary are internal
   // edge <- skin_faces_edges contains edges which are on the body boundary <-
   // that is the trick
   skin_edges_boundary =
       subtract(skin_edges_boundary,
                skin_faces_edges); // from skin edges subtract edges from skin
                                   // faces of 3d ents (only internal edges)
   if (verb >= NOISY) {
     EntityHandle out_meshset;
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, out_meshset);
     CHKERR moab.add_entities(out_meshset, triangles);
     CHKERR moab.write_file("triangles.vtk", "VTK", "", &out_meshset, 1);
     CHKERR moab.delete_entities(&out_meshset, 1);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, out_meshset);
     CHKERR moab.add_entities(out_meshset, ents3d);
     CHKERR moab.write_file("ents3d.vtk", "VTK", "", &out_meshset, 1);
     CHKERR moab.delete_entities(&out_meshset, 1);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, out_meshset);
     CHKERR moab.add_entities(out_meshset, skin_edges_boundary);
     CHKERR moab.write_file("skin_edges_boundary.vtk", "VTK", "", &out_meshset,
                            1);
     CHKERR moab.delete_entities(&out_meshset, 1);
   }
   if (verb >= VERY_VERBOSE)
     PetscPrintf(m_field.get_comm(), "subtract skin_edges_boundary %u\n",
                 skin_edges_boundary.size());
   // Get nodes on boundary edge
   Range skin_nodes_boundary;
   CHKERR moab.get_connectivity(skin_edges_boundary, skin_nodes_boundary, true);
   // Remove node which are boundary with other existing interface
   Range prisms_nodes;
   CHKERR moab.get_connectivity(ents3d_with_prisms.subset_by_type(MBPRISM),
                                prisms_nodes, true);
   skin_nodes_boundary = subtract(skin_nodes_boundary, prisms_nodes);
   if (verb >= VERY_VERBOSE)
     PetscPrintf(m_field.get_comm(), "subtract skin_nodes_boundary %u\n",
                 skin_nodes_boundary.size());
   // use nodes on body boundary and interface (without internal boundary) to
   // find adjacent tets
   Range nodes_without_front = subtract(
       nodes, skin_nodes_boundary); // nodes_without_front adjacent to all split
                                    // face edges except those on internal edge
   if (verb >= VERY_VERBOSE)
     PetscPrintf(m_field.get_comm(),
                 "adj. node if ents3d but not on the internal edge %u\n",
                 nodes_without_front.size());
   // ents3 that are adjacent to front nodes on split faces but not those which
   // are on the front nodes on internal edge
   ents3d.clear();
   ents3d_with_prisms.clear();
   CHKERR moab.get_adjacencies(nodes_without_front, 3, false, ents3d_with_prisms,
                               moab::Interface::UNION);
 
   // Add tets adjacent to front and triangle which has all nodes on crack front
   struct FindTrianglesOnFrontAndAdjacentTet {
     static MoFEMErrorCode
     fUN(moab::Interface &moab, const Range &triangles,
         const Range &skin_nodes_boundary, ///< nodes on front
         const Range &skin_edges_boundary, ///< edges on front
         Range &ents3d_with_prisms) {
       MoFEMFunctionBegin;
       // get all triangles adjacent to front
       Range skin_nodes_boundary_tris;
       CHKERR moab.get_adjacencies(skin_nodes_boundary, 2, false,
                                   skin_nodes_boundary_tris,
                                   moab::Interface::UNION);
       // get nodes of triangles adjacent to front nodes
       Range skin_nodes_boundary_tris_nodes;
       CHKERR moab.get_connectivity(skin_nodes_boundary_tris,
                                    skin_nodes_boundary_tris_nodes, true);
       // get hanging nodes, i.e. nodes which are not on the front but adjacent
       // to triangles adjacent to crack front
       skin_nodes_boundary_tris_nodes =
           subtract(skin_nodes_boundary_tris_nodes, skin_nodes_boundary);
       // get triangles adjacent to hanging nodes
       Range skin_nodes_boundary_tris_nodes_tris;
       CHKERR moab.get_adjacencies(skin_nodes_boundary_tris_nodes, 2, false,
                                   skin_nodes_boundary_tris_nodes_tris,
                                   moab::Interface::UNION);
       // triangles which have tree nodes on front boundary
       skin_nodes_boundary_tris =
           intersect(triangles, subtract(skin_nodes_boundary_tris,
                                         skin_nodes_boundary_tris_nodes_tris));
       if (!skin_nodes_boundary_tris.empty()) {
         // Get internal edges of triangle which has three nodes on boundary
         Range skin_nodes_boundary_tris_edges;
         CHKERR moab.get_adjacencies(skin_nodes_boundary_tris, 1, false,
                                     skin_nodes_boundary_tris_edges,
                                     moab::Interface::UNION);
         skin_nodes_boundary_tris_edges =
             subtract(skin_nodes_boundary_tris_edges, skin_edges_boundary);
         // Get 3d elements adjacent to internal edge which has two nodes on
         // boundary
         CHKERR moab.get_adjacencies(skin_nodes_boundary_tris_edges, 3, false,
                                     ents3d_with_prisms, moab::Interface::UNION);
       }
       MoFEMFunctionReturn(0);
     }
   };
   CHKERR FindTrianglesOnFrontAndAdjacentTet::fUN(
       moab, triangles, skin_nodes_boundary, skin_edges_boundary,
       ents3d_with_prisms);
 
   // prism and tets on both side of interface
   if (mesh_bit_level.any()) {
     ents3d_with_prisms = intersect(ents3d_with_prisms, mesh_level_ents3d);
   }
   ents3d = ents3d_with_prisms.subset_by_type(MBTET);
   if (verb >= VERY_VERBOSE)
     PetscPrintf(m_field.get_comm(), "adj. ents3d to front nodes %u\n",
                 ents3d.size());
 
   Range side_ents3d;
   unsigned int nb_side_ents3d = side_ents3d.size();
   side_ents3d.insert(*ents3d.begin());
   Range side_ents3d_tris_on_surface;
 
   // get all tets adjacent to crack surface, but only on one side of it
   do {
 
     do {
       Range adj_tris, adj_ents3d;
       nb_side_ents3d = side_ents3d.size();
       if (verb >= VERBOSE)
         PetscPrintf(m_field.get_comm(), "nb_side_ents3d %u\n", nb_side_ents3d);
       // get faces
       CHKERR moab.get_adjacencies(side_ents3d.subset_by_type(MBTET), 2, false,
                                   adj_tris, moab::Interface::UNION);
       if (mesh_bit_level.any()) {
         adj_tris = intersect(adj_tris, mesh_level_tris);
       }
       // subtrace from faces interface
       adj_tris = subtract(adj_tris, triangles);
       if (verb >= VERBOSE)
         PetscPrintf(m_field.get_comm(), "adj_tris %u\n", adj_tris.size());
       // get tets adjacent to faces
       CHKERR moab.get_adjacencies(adj_tris, 3, true, adj_ents3d,
                                   moab::Interface::UNION);
       // intersect tets with tets adjacent to inetface
       adj_ents3d = intersect(adj_ents3d, ents3d_with_prisms);
       if (verb >= VERBOSE)
         PetscPrintf(m_field.get_comm(), "adj_ents3d %u\n", adj_ents3d.size());
       // add tets to side
       side_ents3d.insert(adj_ents3d.begin(), adj_ents3d.end());
       if (verb >= VERY_NOISY) {
         EntityHandle out_meshset;
         CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER,
                                    out_meshset);
         CHKERR moab.add_entities(out_meshset, side_ents3d);
         std::string file = "side_ents3d_" +
                            boost::lexical_cast<std::string>(nb_side_ents3d) +
                            ".vtk";
         CHKERR moab.write_file(file.c_str(), "VTK", "", &out_meshset, 1);
         CHKERR moab.delete_entities(&out_meshset, 1);
       }
     } while (nb_side_ents3d != side_ents3d.size());
 
     Range side_ents3d_tris;
     CHKERR moab.get_adjacencies(side_ents3d, 2, false, side_ents3d_tris,
                                 moab::Interface::UNION);
     side_ents3d_tris_on_surface = intersect(side_ents3d_tris, triangles);
 
     if (verb >= VERY_NOISY) {
       Range left_triangles = subtract(triangles, side_ents3d_tris_on_surface);
       if (!left_triangles.empty()) {
         EntityHandle out_meshset;
         CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER,
                                    out_meshset);
         CHKERR moab.add_entities(out_meshset, left_triangles);
         std::string file = "left_triangles_" +
                            boost::lexical_cast<std::string>(nb_side_ents3d) +
                            ".vtk";
         CHKERR moab.write_file(file.c_str(), "VTK", "", &out_meshset, 1);
         CHKERR moab.delete_entities(&out_meshset, 1);
       }
     }
 
     // This is a case when separate sub-domains are split, so wee need
     // additional
     // tetrahedron for seed process
     if (side_ents3d_tris_on_surface.size() != triangles.size()) {
       Range left_triangles = subtract(triangles, side_ents3d_tris_on_surface);
       Range tets;
       CHKERR moab.get_adjacencies(&*left_triangles.begin(), 1, 3, false, tets);
 
       tets = intersect(tets, ents3d_with_prisms);
       if (tets.empty()) {
         Range left_triangles_nodes;
         CHKERR moab.get_connectivity(&*left_triangles.begin(), 1,
                                      left_triangles_nodes, true);
         EntityHandle meshset;
         CHKERR moab.create_meshset(MESHSET_SET, meshset);
         CHKERR moab.add_entities(meshset, left_triangles);
         CHKERR moab.write_file("error.vtk", "VTK", "", &meshset, 1);
         CHKERR moab.delete_entities(&meshset, 1);
         SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                 "Not all faces on surface going to be split, see error.vtk for "
                 "problematic triangle. "
                 "It could be a case where triangle on front (part boundary of "
                 "surface in interior) "
                 "has three nodes front.");
       }
       side_ents3d.insert(*tets.begin());
     }
 
   } while (side_ents3d_tris_on_surface.size() != triangles.size());
 
   if (ents3d_with_prisms.size() == side_ents3d.size()) {
     SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
             "All tets on one side, no-interface");
   }
   // other side ents
   Range other_side = subtract(ents3d_with_prisms, side_ents3d);
   // side nodes
   Range side_nodes;
   CHKERR moab.get_connectivity(side_ents3d.subset_by_type(MBTET), side_nodes,
                                true);
   // nodes on crack surface without front
   nodes_without_front = intersect(nodes_without_front, side_nodes);
   Range side_edges;
   CHKERR moab.get_adjacencies(side_ents3d.subset_by_type(MBTET), 1, false,
                               side_edges, moab::Interface::UNION);
   skin_edges_boundary = intersect(skin_edges_boundary, side_edges);
   // make child meshsets
   std::vector<EntityHandle> children;
   CHKERR moab.get_child_meshsets(sideset, children);
   if (children.empty()) {
     children.resize(3);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, children[0]);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, children[1]);
     CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER, children[2]);
     CHKERR moab.add_child_meshset(sideset, children[0]);
     CHKERR moab.add_child_meshset(sideset, children[1]);
     CHKERR moab.add_child_meshset(sideset, children[2]);
   } else {
     if (children.size() != 3) {
       SETERRQ(PETSC_COMM_SELF, 1,
               "this meshset should have 3 children meshsets");
     }
     children.resize(3);
     CHKERR moab.clear_meshset(&children[0], 3);
   }
   EntityHandle &child_side = children[0];
   EntityHandle &child_other_side = children[1];
   EntityHandle &child_nodes_and_skin_edges = children[2];
   CHKERR moab.add_entities(child_side, side_ents3d);
   CHKERR moab.add_entities(child_other_side, other_side);
   CHKERR moab.add_entities(child_nodes_and_skin_edges, nodes_without_front);
   CHKERR moab.add_entities(child_nodes_and_skin_edges, skin_edges_boundary);
   if (verb >= VERBOSE) {
     PetscPrintf(m_field.get_comm(), "Nb. of side ents3d in set %u\n",
                 side_ents3d.size());
     PetscPrintf(m_field.get_comm(), "Nb. of other side ents3d in set %u\n",
                 other_side.size());
     PetscPrintf(m_field.get_comm(), "Nb. of boundary edges %u\n",
                 skin_edges_boundary.size());
   }
   if (verb >= NOISY) {
     CHKERR moab.write_file("side.vtk", "VTK", "", &children[0], 1);
     CHKERR moab.write_file("other_side.vtk", "VTK", "", &children[1], 1);
   }
   MoFEMFunctionReturn(0);
 }

◆ query_interface()

MoFEMErrorCode MoFEM::PrismInterface::query_interface	(	const MOFEMuuid &	uuid,
		UnknownInterface **	iface
	)		const

virtual

Implements MoFEM::UnknownInterface.

Definition at line 24 of file PrismInterface.cpp.

                                                                                {
   MoFEMFunctionBeginHot;
   *iface = NULL;
   if (uuid == IDD_MOFEMPrismInterface) {
     *iface = const_cast<PrismInterface *>(this);
     MoFEMFunctionReturnHot(0);
   }
   SETERRQ(PETSC_COMM_SELF, MOFEM_DATA_INCONSISTENCY, "unknown interface");
   MoFEMFunctionReturnHot(0);
 }

◆ splitSides() [1/3]

MoFEMErrorCode MoFEM::PrismInterface::splitSides	(	const EntityHandle	meshset,
		const BitRefLevel &	bit,
		const int	msId,
		const CubitBCType	cubit_bc_type,
		const bool	add_interface_entities,
		const bool	recursive = `false`,
		int	verb = `QUIET`
	)

split nodes and other entities of tetrahedral in children sets and add prism elements

The all new entities (prisms, tets) are added to refinement level given by bit

Parameters

meshset	meshset to get entities from
BitRefLevel	new level where refinement would be stored
msId	meshset ID imported from cubit
cubit_bc_type	type of meshset (NODESET, SIDESET or BLOCKSET and more)
add_interface_entities	meshset which contain the interface
recursive	if true parent meshset is searched recursively

Each inteface face has two tags, const int def_side[] = {0}; rval = moab.tag_get_handle("INTERFACE_SIDE",1,MB_TYPE_INTEGER, th_interface_side,MB_TAG_CREAT|MB_TAG_SPARSE,def_side); CHKERRQ_MOAB(rval);

            const EntityHandle def_node[] = {0};
            rval = moab.tag_get_handle("SIDE_INTFACE_ELEMENT",1,MB_TYPE_HANDLE,
              th_side_elem,MB_TAG_CREAT|MB_TAG_SPARSE,def_node); CHKERRQ_MOAB(rval);

First tag inform about inteface side, second tag inform about side adjacent inteface element.

Examples: forces_and_sources_testing_flat_prism_element.cpp, and split_sideset.cpp.

Definition at line 543 of file PrismInterface.cpp.

                                                                           {
 
   Interface &m_field = cOre;
   MeshsetsManager *meshsets_manager_ptr;
   MoFEMFunctionBegin;
   CHKERR m_field.getInterface(meshsets_manager_ptr);
   CubitMeshSet_multiIndex::index<
       Composite_Cubit_msId_And_MeshSetType_mi_tag>::type::iterator miit =
       meshsets_manager_ptr->getMeshsetsMultindex()
           .get<Composite_Cubit_msId_And_MeshSetType_mi_tag>()
           .find(boost::make_tuple(msId, cubit_bc_type.to_ulong()));
   if (miit != meshsets_manager_ptr->getMeshsetsMultindex()
                   .get<Composite_Cubit_msId_And_MeshSetType_mi_tag>()
                   .end()) {
     CHKERR splitSides(meshset, bit, miit->meshset, add_interface_entities,
                       recursive, verb);
   } else {
     SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY, "msId is not there");
   }
   MoFEMFunctionReturn(0);
 }

◆ splitSides() [2/3]

MoFEMErrorCode MoFEM::PrismInterface::splitSides	(	const EntityHandle	meshset,
		const BitRefLevel &	bit,
		const EntityHandle	sideset,
		const bool	add_interface_entities,
		const bool	recursive = `false`,
		int	verb = `QUIET`
	)

split nodes and other entities of tetrahedral in children sets and add prism elements

The all new entities (prisms, tets) are added to refinement level given by bit

Definition at line 570 of file PrismInterface.cpp.

                                                                           {
 
   MoFEMFunctionBegin;
   CHKERR splitSides(meshset, bit, BitRefLevel(), BitRefLevel(), sideset,
                     add_interface_entities, recursive, verb);
   MoFEMFunctionReturn(0);
 }

◆ splitSides() [3/3]

MoFEMErrorCode MoFEM::PrismInterface::splitSides	(	const EntityHandle	meshset,
		const BitRefLevel &	bit,
		const BitRefLevel &	inhered_from_bit_level,
		const BitRefLevel &	inhered_from_bit_level_mask,
		const EntityHandle	sideset,
		const bool	add_interface_entities,
		const bool	recursive = `false`,
		int	verb = `QUIET`
	)

split nodes and other entities of tetrahedrons in children sets and add prism elements

The all new entities (prisms, tets) are added to refinement level given by bit

Parameters

meshset
Refinement	bit level of new mesh
inhered_from_bit_level	inhered nodes and other entities form this bit level.
add_interface_entities	add prism elements at interface
recursive	do meshesets in the meshset

note inhered_from_bit_level is need to be specified to some meshsets with interfaces. Some nodes on some refinement levels dividing edges but not splitting faces. Inheriting those nodes will not split faces.

Definition at line 581 of file PrismInterface.cpp.

                                                                        {
 
   Interface &m_field = cOre;
   moab::Interface &moab = m_field.get_moab();
   const RefEntity_multiIndex *refined_ents_ptr;
   MoFEMFunctionBegin;
 
   CHKERR m_field.get_ref_ents(&refined_ents_ptr);
 
   std::vector<EntityHandle> children;
   // get children meshsets
   CHKERR moab.get_child_meshsets(sideset, children);
   if (children.size() != 3) {
     SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
             "should be 3 child meshsets, each of them contains tets on two "
             "sides of interface");
   }
   // 3d ents on "father" side
   Range side_ents3d;
   CHKERR moab.get_entities_by_handle(children[0], side_ents3d, false);
   // 3d ents on "mather" side
   Range other_ents3d;
   CHKERR moab.get_entities_by_handle(children[1], other_ents3d, false);
   // faces of interface
   Range triangles;
   CHKERR moab.get_entities_by_type(sideset, MBTRI, triangles, recursive);
   Range side_ents3d_tris;
   CHKERR moab.get_adjacencies(side_ents3d, 2, true, side_ents3d_tris,
                               moab::Interface::UNION);
   triangles = intersect(triangles, side_ents3d_tris);
   // nodes on interface but not on crack front (those should not be splitted)
   Range nodes;
   CHKERR moab.get_entities_by_type(children[2], MBVERTEX, nodes, false);
   Range meshset_3d_ents, meshset_2d_ents;
   CHKERR moab.get_entities_by_dimension(meshset, 3, meshset_3d_ents, true);
   Range meshset_tets = meshset_3d_ents.subset_by_type(MBTET);
   CHKERR moab.get_adjacencies(meshset_tets, 2, false, meshset_2d_ents,
                               moab::Interface::UNION);
   side_ents3d = intersect(meshset_3d_ents, side_ents3d);
   other_ents3d = intersect(meshset_3d_ents, other_ents3d);
   triangles = intersect(meshset_2d_ents, triangles);
   if (verb >= VERY_VERBOSE) {
     PetscPrintf(m_field.get_comm(), "split sides triangles %u\n",
                 triangles.size());
     PetscPrintf(m_field.get_comm(), "split sides side_ents3d %u\n",
                 side_ents3d.size());
     PetscPrintf(m_field.get_comm(), "split sides nodes %u\n", nodes.size());
   }
 
   typedef std::map<EntityHandle, /*node on "mather" side*/
                    EntityHandle  /*node on "father" side*/
                    >
       MapNodes;
   MapNodes map_nodes;
 
   // Map nodes on sides, set parent node and set bit ref level
   {
     struct CreateSideNodes {
       MoFEM::Core &cOre;
       MoFEM::Interface &m_field;
       std::vector<EntityHandle> splitNodes;
       std::vector<double> splitCoords[3];
 
       RefEntity_multiIndex_view_by_hashed_parent_entity refParentEntsView;
 
       CreateSideNodes(MoFEM::Core &core, int split_size = 0)
           : cOre(core), m_field(core) {
         splitNodes.reserve(split_size);
         for (int dd = 0; dd != 3; ++dd) {
           splitCoords[dd].reserve(split_size);
         }
       }
       MoFEMErrorCode operator()(const double coords[], const EntityHandle n) {
         MoFEMFunctionBegin;
         splitNodes.push_back(n);
         for (int dd = 0; dd != 3; ++dd) {
           splitCoords[dd].push_back(coords[dd]);
         }
         MoFEMFunctionReturn(0);
       }
 
       MoFEMErrorCode operator()(const BitRefLevel &bit, MapNodes &map_nodes) {
         MoFEMFunctionBegin;
         int num_nodes = splitNodes.size();
         vector<double *> arrays_coord;
         EntityHandle startv;
         {
           ReadUtilIface *iface;
           CHKERR m_field.get_moab().query_interface(iface);
           CHKERR iface->get_node_coords(3, num_nodes, 0, startv, arrays_coord);
         }
         Range verts(startv, startv + num_nodes - 1);
         for (int dd = 0; dd != 3; ++dd) {
           std::copy(splitCoords[dd].begin(), splitCoords[dd].end(),
                     arrays_coord[dd]);
         }
         for (int nn = 0; nn != num_nodes; ++nn) {
           map_nodes[splitNodes[nn]] = verts[nn];
         }
         CHKERR m_field.get_moab().tag_set_data(cOre.get_th_RefParentHandle(),
                                                verts, &*splitNodes.begin());
         CHKERR m_field.getInterface<BitRefManager>()->setEntitiesBitRefLevel(
             verts, bit, QUIET);
 
         MoFEMFunctionReturn(0);
       }
     };
     CreateSideNodes create_side_nodes(cOre, nodes.size());
 
     RefEntity_multiIndex_view_by_hashed_parent_entity ref_parent_ents_view;
     struct CreateParentEntView {
       typedef RefEntity_multiIndex::index<
           Composite_EntType_and_ParentEntType_mi_tag>::type RefEntsByComposite;
       MoFEMErrorCode
       operator()(const BitRefLevel &bit, const BitRefLevel &mask,
                  const RefEntity_multiIndex *refined_ents_ptr,
                  RefEntity_multiIndex_view_by_hashed_parent_entity
                      &ref_parent_ents_view) const {
         MoFEMFunctionBegin;
         const RefEntsByComposite &ref_ents =
             refined_ents_ptr->get<Composite_EntType_and_ParentEntType_mi_tag>();
         RefEntsByComposite::iterator miit;
         RefEntsByComposite::iterator hi_miit;
         // view by parent type (VERTEX)
         miit = ref_ents.lower_bound(boost::make_tuple(MBVERTEX, MBVERTEX));
         hi_miit = ref_ents.upper_bound(boost::make_tuple(MBVERTEX, MBVERTEX));
         for (; miit != hi_miit; miit++) {
           if (((*miit)->getBitRefLevel() & mask) == (*miit)->getBitRefLevel()) {
             if (((*miit)->getBitRefLevel() & bit).any()) {
               std::pair<
                   RefEntity_multiIndex_view_by_hashed_parent_entity::iterator,
                   bool>
                   p_ref_ent_view;
               p_ref_ent_view = ref_parent_ents_view.insert(*miit);
               if (!p_ref_ent_view.second) {
                 SETERRQ(PETSC_COMM_SELF, MOFEM_DATA_INCONSISTENCY,
                         "non unique insertion");
               }
             }
           }
         }
         MoFEMFunctionReturn(0);
       }
     };
     CHKERR CreateParentEntView()(inhered_from_bit_level,
                                  inhered_from_bit_level_mask, refined_ents_ptr,
                                  ref_parent_ents_view);
 
     // add new nodes on interface and create map
     Range add_bit_nodes;
     for (Range::const_iterator nit = nodes.begin(); nit != nodes.end(); ++nit) {
 
       // find ref enet by parent node
       RefEntity_multiIndex::iterator miit_ref_ent =
           refined_ents_ptr->find(*nit);
       if (miit_ref_ent == refined_ents_ptr->end()) {
         SETERRQ(PETSC_COMM_SELF, MOFEM_DATA_INCONSISTENCY,
                 "can not find node in MoFEM database");
       }
       EntityHandle child_entity = 0;
       RefEntity_multiIndex_view_by_hashed_parent_entity::iterator child_it =
           ref_parent_ents_view.find(*nit);
       if (child_it != ref_parent_ents_view.end()) {
         child_entity = (*child_it)->getRefEnt();
       }
 
       if (child_entity == 0) {
         double coords[3];
         CHKERR moab.get_coords(&*nit, 1, coords);
         CHKERR create_side_nodes(coords, *nit);
       } else {
         map_nodes[*nit] = child_entity;
         add_bit_nodes.insert(child_entity);
       }
     }
     add_bit_nodes.merge(nodes);
     CHKERR m_field.getInterface<BitRefManager>()->addBitRefLevel(add_bit_nodes,
                                                                  bit);
     CHKERR create_side_nodes(bit, map_nodes);
   }
 
   // crete meshset for new mesh bit level
   EntityHandle meshset_for_bit_level;
   CHKERR moab.create_meshset(MESHSET_SET | MESHSET_TRACK_OWNER,
                              meshset_for_bit_level);
   // subtract those elements which will be refined, i.e. disconnected form other
   // side elements, and connected to new prisms, if they area created
   meshset_3d_ents = subtract(meshset_3d_ents, side_ents3d);
   CHKERR moab.add_entities(meshset_for_bit_level, meshset_3d_ents);
 
   // create new 3d ents on "father" side
   Range new_3d_ents;
   for (Range::iterator eit3d = side_ents3d.begin(); eit3d != side_ents3d.end();
        eit3d++) {
     RefEntity_multiIndex::iterator miit_ref_ent =
         refined_ents_ptr->find(*eit3d);
     if (miit_ref_ent == refined_ents_ptr->end()) {
       SETERRQ(m_field.get_comm(), MOFEM_OPERATION_UNSUCCESSFUL,
               "tet not in database");
     }
     int num_nodes;
     const EntityHandle *conn;
     CHKERR moab.get_connectivity(*eit3d, conn, num_nodes, true);
     EntityHandle new_conn[num_nodes];
     int nb_new_conn = 0;
     for (int ii = 0; ii < num_nodes; ii++) {
       std::map<EntityHandle, EntityHandle>::iterator mit =
           map_nodes.find(conn[ii]);
       if (mit != map_nodes.end()) {
         new_conn[ii] = mit->second;
         nb_new_conn++;
         if (verb >= VERY_NOISY) {
           PetscPrintf(m_field.get_comm(), "nodes %u -> %d\n", conn[ii],
                       new_conn[ii]);
         }
       } else {
         new_conn[ii] = conn[ii];
       }
     }
     if (nb_new_conn == 0) {
       // Add this tet to bit ref level
       CHKERR moab.add_entities(meshset_for_bit_level, &*eit3d, 1);
       continue;
     }
 
     // here is created new or prism is on interface
     EntityHandle existing_ent = 0;
     /* check if tet element with new connectivity is in database*/
     RefEntity_multiIndex::index<Ent_Ent_mi_tag>::type::iterator child_iit,
         hi_child_iit;
     child_iit = refined_ents_ptr->get<Ent_Ent_mi_tag>().lower_bound(*eit3d);
     hi_child_iit = refined_ents_ptr->get<Ent_Ent_mi_tag>().upper_bound(*eit3d);
 
     // Check if child entity has the same connectivity
     for (; child_iit != hi_child_iit; child_iit++) {
       const EntityHandle *conn_ref_tet;
       CHKERR moab.get_connectivity(child_iit->get()->getRefEnt(), conn_ref_tet,
                                    num_nodes, true);
       int nn = 0;
       for (; nn < num_nodes; nn++) {
         if (conn_ref_tet[nn] != new_conn[nn]) {
           break;
         }
       }
       if (nn == num_nodes) {
         if (existing_ent != 0) {
           SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                   "database inconsistency");
         }
         existing_ent = child_iit->get()->getRefEnt();
       }
     }
 
     switch (moab.type_from_handle(*eit3d)) {
     case MBTET: {
       RefEntity_multiIndex::iterator child_it;
       EntityHandle tet;
       if (existing_ent == 0) {
         Range new_conn_tet;
         CHKERR moab.get_adjacencies(new_conn, 4, 3, false, new_conn_tet);
         if (new_conn_tet.empty()) {
           CHKERR moab.create_element(MBTET, new_conn, 4, tet);
           CHKERR moab.tag_set_data(cOre.get_th_RefParentHandle(), &tet, 1,
                                    &*eit3d);
         } else {
           // RefEntity_multiIndex::index<Ent_mi_tag>::type::iterator rit;
           // rit = refined_ents_ptr->get<Ent_mi_tag>().find(*eit3d);
           // if(rit==refined_ents_ptr->get<Ent_mi_tag>().end()) {
           //   SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
           //           "can't find this in database");
           // }
           // FIXME: That takes firs element form the list. Should throw error
           // if is more than one or handle it properly.
           RefEntity_multiIndex::index<Ent_mi_tag>::type::iterator new_rit =
               refined_ents_ptr->get<Ent_mi_tag>().find(*new_conn_tet.begin());
           if (new_rit == refined_ents_ptr->get<Ent_mi_tag>().end()) {
             SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                     "can't find entity in database");
           }
           tet = *new_conn_tet.begin();
         }
       } else {
         tet = existing_ent;
       }
       CHKERR moab.add_entities(meshset_for_bit_level, &tet, 1);
       new_3d_ents.insert(tet);
     } break;
     case MBPRISM: {
       EntityHandle prism;
       if (existing_ent == 0) {
         Range new_conn_prism;
         CHKERR moab.get_adjacencies(new_conn, 6, 3, false, new_conn_prism);
         if (new_conn_prism.empty()) {
           CHKERR moab.create_element(MBPRISM, new_conn, 6, prism);
           CHKERR moab.tag_set_data(cOre.get_th_RefParentHandle(), &prism, 1,
                                    &*eit3d);
         } else {
           SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                   "It is prism with such connectivity, that case has to be "
                   "handled but this is not implemented");
         }
       } else {
         prism = existing_ent;
       }
       CHKERR moab.add_entities(meshset_for_bit_level, &prism, 1);
       new_3d_ents.insert(prism);
     } break;
     default:
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
               "not implemented element");
     }
   }
 
   Range new_ents;
   // create new entities by adjacencies form new tets
   CHKERR moab.get_adjacencies(new_3d_ents.subset_by_type(MBTET), 2, true,
                               new_ents, moab::Interface::UNION);
   CHKERR moab.get_adjacencies(new_3d_ents.subset_by_type(MBTET), 1, true,
                               new_ents, moab::Interface::UNION);
 
   // Tags for setting side
   Tag th_interface_side;
   const int def_side[] = {0};
   CHKERR moab.tag_get_handle("INTERFACE_SIDE", 1, MB_TYPE_INTEGER,
                              th_interface_side, MB_TAG_CREAT | MB_TAG_SPARSE,
                              def_side);
 
   struct SetParent {
     map<EntityHandle, EntityHandle> parentsToChange;
     MoFEMErrorCode operator()(const EntityHandle ent, const EntityHandle parent,
                               const RefEntity_multiIndex *ref_ents_ptr,
                               MoFEM::Core &cOre) {
       MoFEM::Interface &m_field = cOre;
       MoFEMFunctionBegin;
       RefEntity_multiIndex::iterator it = ref_ents_ptr->find(ent);
       if (it != ref_ents_ptr->end()) {
         if (it->get()->getParentEnt() != parent && ent != parent) {
           parentsToChange[ent] = parent;
         }
       } else {
         if (ent != parent) {
           CHKERR m_field.get_moab().tag_set_data(cOre.get_th_RefParentHandle(),
                                                  &ent, 1, &parent);
         }
       }
       MoFEMFunctionReturn(0);
     }
     MoFEMErrorCode operator()(const RefEntity_multiIndex *ref_ents_ptr) {
       MoFEMFunctionBegin;
       for (map<EntityHandle, EntityHandle>::iterator mit =
                parentsToChange.begin();
            mit != parentsToChange.end(); ++mit) {
         RefEntity_multiIndex::iterator it = ref_ents_ptr->find(mit->first);
         bool success = const_cast<RefEntity_multiIndex *>(ref_ents_ptr)
                            ->modify(it, RefEntity_change_parent(mit->second));
         if (!success) {
           SETERRQ(PETSC_COMM_SELF, MOFEM_DATA_INCONSISTENCY,
                   "impossible to set parent");
         }
       }
       MoFEMFunctionReturn(0);
     }
   };
   SetParent set_parent;
 
   // add new edges and triangles to mofem database
   Range ents;
   CHKERR moab.get_adjacencies(triangles, 1, false, ents,
                               moab::Interface::UNION);
   ents.insert(triangles.begin(), triangles.end());
   for (Range::iterator eit = ents.begin(); eit != ents.end(); eit++) {
     int num_nodes;
     const EntityHandle *conn;
     CHKERR moab.get_connectivity(*eit, conn, num_nodes, true);
     EntityHandle new_conn[num_nodes];
     int nb_new_conn = 0;
     for (int ii = 0; ii != num_nodes; ++ii) {
       std::map<EntityHandle, EntityHandle>::iterator mit =
           map_nodes.find(conn[ii]);
       if (mit != map_nodes.end()) {
         new_conn[ii] = mit->second;
         nb_new_conn++;
         if (verb >= VERY_NOISY) {
           PetscPrintf(m_field.get_comm(), "nodes %u -> %d\n", conn[ii],
                       new_conn[ii]);
         }
       } else {
         new_conn[ii] = conn[ii];
       }
     }
     if (nb_new_conn == 0)
       continue;
     RefEntity_multiIndex::iterator miit_ref_ent = refined_ents_ptr->find(*eit);
     if (miit_ref_ent == refined_ents_ptr->end()) {
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
               "this entity (edge or tri) should be already in database");
     }
     Range new_ent; // contains all entities (edges or triangles) added to mofem
                    // database
     switch (moab.type_from_handle(*eit)) {
     case MBTRI: {
       // get entity based on its connectivity
       CHKERR moab.get_adjacencies(new_conn, 3, 2, false, new_ent);
       if (new_ent.size() != 1)
         SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                 "this tri should be in moab database");
       int new_side = 1;
       CHKERR moab.tag_set_data(th_interface_side, &*new_ent.begin(), 1,
                                &new_side);
       if (verb >= VERY_VERBOSE)
         PetscPrintf(m_field.get_comm(), "new_ent %u\n", new_ent.size());
       // add prism element
       if (add_interface_entities) {
         if (inhered_from_bit_level.any()) {
           SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                   "not implemented for inhered_from_bit_level");
         }
         // set prism connectivity
         EntityHandle prism_conn[6] = {conn[0],     conn[1],     conn[2],
                                       new_conn[0], new_conn[1], new_conn[2]};
         EntityHandle prism;
         CHKERR moab.create_element(MBPRISM, prism_conn, 6, prism);
         CHKERR moab.add_entities(meshset_for_bit_level, &prism, 1);
       }
     } break;
     case MBEDGE: {
       CHKERR moab.get_adjacencies(new_conn, 2, 1, false, new_ent);
       if (new_ent.size() != 1) {
         SETERRQ2(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                  "this edge should be in moab database "
                  "new_ent.size() = %u nb_new_conn = %d",
                  new_ent.size(), nb_new_conn);
       }
     } break;
     default:
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
               "Houston we have a problem !!!");
     }
     if (new_ent.size() != 1) {
       SETERRQ1(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                "new_ent.size() = %u, size always should be 1", new_ent.size());
     }
     CHKERR set_parent(new_ent[0], *eit, refined_ents_ptr, cOre);
   }
 
   // all other entities, some ents like triangles and faces on the side of tets
   Range side_adj_faces_and_edges;
   CHKERR moab.get_adjacencies(side_ents3d.subset_by_type(MBTET), 1, true,
                               side_adj_faces_and_edges, moab::Interface::UNION);
   CHKERR moab.get_adjacencies(side_ents3d.subset_by_type(MBTET), 2, true,
                               side_adj_faces_and_edges, moab::Interface::UNION);
   for (Range::iterator eit = side_adj_faces_and_edges.begin();
        eit != side_adj_faces_and_edges.end(); ++eit) {
     int num_nodes;
     const EntityHandle *conn;
     CHKERR moab.get_connectivity(*eit, conn, num_nodes, true);
     EntityHandle new_conn[num_nodes];
     int nb_new_conn = 0;
     for (int ii = 0; ii < num_nodes; ii++) {
       std::map<EntityHandle, EntityHandle>::iterator mit =
           map_nodes.find(conn[ii]);
       if (mit != map_nodes.end()) {
         new_conn[ii] = mit->second;
         nb_new_conn++;
         if (verb >= VERY_NOISY) {
           PetscPrintf(m_field.get_comm(), "nodes %u -> %d\n", conn[ii],
                       new_conn[ii]);
         }
       } else {
         new_conn[ii] = conn[ii];
       }
     }
     if (nb_new_conn == 0)
       continue;
     RefEntity_multiIndex::iterator miit_ref_ent = refined_ents_ptr->find(*eit);
     if (miit_ref_ent == refined_ents_ptr->end()) {
       SETERRQ1(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                "entity should be in MoFem database, num_nodes = %d", num_nodes);
     }
     Range new_ent;
     switch (moab.type_from_handle(*eit)) {
     case MBEDGE:
       CHKERR moab.get_adjacencies(new_conn, 2, 1, false, new_ent);
       break;
     case MBTRI:
       CHKERR moab.get_adjacencies(new_conn, 3, 2, false, new_ent);
       break;
     default:
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
               "Houston we have a problem");
     }
     if (new_ent.size() != 1) {
       SETERRQ1(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                "database inconsistency, new_ent.size() = %u", new_ent.size());
     }
     CHKERR set_parent(new_ent[0], *eit, refined_ents_ptr, cOre);
   }
 
   // add new prisms which parents are part of other intefaces
   Range new_3d_prims = new_3d_ents.subset_by_type(MBPRISM);
   for (Range::iterator pit = new_3d_prims.begin(); pit != new_3d_prims.end();
        ++pit) {
     // get parent entity
     EntityHandle parent_prism;
     CHKERR moab.tag_get_data(cOre.get_th_RefParentHandle(), &*pit, 1,
                              &parent_prism);
     if (moab.type_from_handle(parent_prism) != MBPRISM) {
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
               "this prism should have parent which is prism as well");
     }
     int num_nodes;
     // parent prism
     const EntityHandle *conn_parent;
     CHKERR moab.get_connectivity(parent_prism, conn_parent, num_nodes, true);
     Range face_side3_parent, face_side4_parent;
     CHKERR moab.get_adjacencies(conn_parent, 3, 2, false, face_side3_parent);
     CHKERR moab.get_adjacencies(&conn_parent[3], 3, 2, false,
                                 face_side4_parent);
     if (face_side3_parent.size() != 1) {
       SETERRQ1(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                "parent face3.size() = %u", face_side3_parent.size());
     }
     if (face_side4_parent.size() != 1) {
       SETERRQ1(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                "parent face4.size() = %u", face_side4_parent.size());
     }
     // new prism
     const EntityHandle *conn;
     CHKERR moab.get_connectivity(*pit, conn, num_nodes, true);
     Range face_side3, face_side4;
     CHKERR moab.get_adjacencies(conn, 3, 2, false, face_side3);
     CHKERR moab.get_adjacencies(&conn[3], 3, 2, false, face_side4);
     if (face_side3.size() != 1) {
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY, "face3 is missing");
     }
     if (face_side4.size() != 1) {
       SETERRQ(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY, "face4 is missing");
     }
     std::vector<EntityHandle> face(2), parent_face(2);
     face[0] = *face_side3.begin();
     face[1] = *face_side4.begin();
     parent_face[0] = *face_side3_parent.begin();
     parent_face[1] = *face_side4_parent.begin();
     for (int ff = 0; ff != 2; ++ff) {
       if (parent_face[ff] == face[ff])
         continue;
       int interface_side;
       CHKERR moab.tag_get_data(th_interface_side, &parent_face[ff], 1,
                                &interface_side);
       CHKERR moab.tag_set_data(th_interface_side, &face[ff], 1,
                                &interface_side);
       EntityHandle parent_tri;
       CHKERR moab.tag_get_data(cOre.get_th_RefParentHandle(), &face[ff], 1,
                                &parent_tri);
       if (parent_tri != parent_face[ff]) {
         SETERRQ1(m_field.get_comm(), MOFEM_DATA_INCONSISTENCY,
                  "wrong parent %lu", parent_tri);
       }
     }
   }
   // finalise by adding new tets and prism ti bit level
 
   CHKERR set_parent(refined_ents_ptr);
   CHKERR m_field.getInterface<BitRefManager>()->setBitRefLevelByDim(
       meshset_for_bit_level, 3, bit);
   CHKERR moab.delete_entities(&meshset_for_bit_level, 1);
   CHKERR moab.clear_meshset(&children[0], 3);
   MoFEMFunctionReturn(0);
 }

Member Data Documentation

◆ cOre

MoFEM::Core& MoFEM::PrismInterface::cOre

Definition at line 42 of file PrismInterface.hpp.

The documentation for this struct was generated from the following files:

src/interfaces/PrismInterface.hpp
src/interfaces/impl/PrismInterface.cpp

Public Member Functions

Public Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ PrismInterface()

◆ ~PrismInterface()

Member Function Documentation

◆ findIfTringleHasThreeNodesOnInternalSurfaceSkin()

◆ getSides() [1/2]

◆ getSides() [2/2]

◆ query_interface()

◆ splitSides() [1/3]

◆ splitSides() [2/3]

◆ splitSides() [3/3]

Member Data Documentation

◆ cOre