Ejemplos de topology::num_sides en C++ (Cpp)

Lenguaje de programación: C++ (Cpp)

Namespace/Package Name: stk

Clase / Tipo: topology

Método / Función: num_sides

Ejemplos en hotexamples.com: 2

C++ (Cpp) topology::num_sides - 2 ejemplos encontrados. Estos son los ejemplos en C++ (Cpp) del mundo real mejor valorados de stk::topology::num_sides extraídos de proyectos de código abierto. Puedes valorar ejemplos para ayudarnos a mejorar la calidad de los ejemplos.

Métodos usados con frecuencia

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num_nodes(4)

edge_topology(2)

equivalent(2)

num_edges(2)

num_sides(2)

side_rank(2)

side_topology(2)

name(1)

Ejemplo n.º 1

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Archivo: UnitTestFEMHelper.cpp Proyecto: mhoemmen/Trilinos

void verify_unbuildable_element(stk::mesh::BulkData &bulk,
                                const stk::topology topo,
                                const stk::mesh::EntityIdVector & elem_node_ids,
                                const stk::mesh::EntityIdVector & side_ids,
                                const std::vector < std::vector < unsigned > > &gold_side_node_ids,
                                bool *sides_connectibility_check,
                                const stk::mesh::EntityIdVector & edge_ids,
                                const std::vector < std::vector < unsigned > > &gold_edge_node_ids,
                                bool *edges_connectibility_check)
{
  stk::mesh::EntityId element_id[1] = {1};
  stk::mesh::MetaData &meta = bulk.mesh_meta_data();
  stk::mesh::Part &elem_part = meta.declare_part_with_topology("elem_part", topo);

  meta.commit();
  bulk.modification_begin();

  stk::mesh::Entity elem = stk::mesh::declare_element(bulk, elem_part, element_id[0], elem_node_ids);

  stk::mesh::EntityVector side_nodes;
  uint num_sides = topo.num_sides();
  stk::topology::rank_t sub_topo_rank = topo.side_rank();

  for(uint i = 0; i < num_sides; ++i)
  {
    stk::topology sub_topo = topo.side_topology(i);
    side_nodes.clear();

    stk::mesh::Entity side = bulk.declare_entity(sub_topo_rank, side_ids[i], meta.get_topology_root_part(sub_topo));

    for (uint j = 0; j < sub_topo.num_nodes(); ++j)
    {
      stk::mesh::Entity side_node = bulk.get_entity(stk::topology::NODE_RANK, gold_side_node_ids[i][j]);
      side_nodes.push_back(side_node);
      bulk.declare_relation(side, side_node, j);
    }

    std::pair<stk::mesh::ConnectivityOrdinal, stk::mesh::Permutation> ordinalAndPermutation
      = stk::mesh::get_ordinal_and_permutation(bulk, elem, sub_topo_rank, side_nodes);

    if (sides_connectibility_check[i])
    {
      EXPECT_NE(ordinalAndPermutation.first, stk::mesh::ConnectivityOrdinal::INVALID_CONNECTIVITY_ORDINAL);
      EXPECT_NE(ordinalAndPermutation.second, stk::mesh::Permutation::INVALID_PERMUTATION);
    }
    else
    {
      EXPECT_EQ(ordinalAndPermutation.first, stk::mesh::ConnectivityOrdinal::INVALID_CONNECTIVITY_ORDINAL);
      EXPECT_EQ(ordinalAndPermutation.second, stk::mesh::Permutation::INVALID_PERMUTATION);
    }
  }

  if (edge_ids.empty()) {
    bulk.modification_end();
    return;
  }

  stk::mesh::EntityVector edge_nodes;
  uint num_edges = topo.num_edges();

  for(uint i = 0; i < num_edges; ++i)
  {
    edge_nodes.clear();

    stk::mesh::Entity edge = bulk.declare_entity(stk::topology::EDGE_RANK, edge_ids[i],
                                                 meta.get_topology_root_part(topo.edge_topology()));

    for (uint j = 0; j < topo.edge_topology().num_nodes(); ++j)
    {
      stk::mesh::Entity edge_node = bulk.get_entity(stk::topology::NODE_RANK, gold_edge_node_ids[i][j]);
      edge_nodes.push_back(edge_node);
      bulk.declare_relation(edge, edge_node, j);
    }

    std::pair<stk::mesh::ConnectivityOrdinal, stk::mesh::Permutation> ordinalAndPermutation
      = stk::mesh::get_ordinal_and_permutation(bulk, elem, stk::topology::EDGE_RANK, edge_nodes);

    if (edges_connectibility_check[i])
    {
      EXPECT_NE(ordinalAndPermutation.first, stk::mesh::ConnectivityOrdinal::INVALID_CONNECTIVITY_ORDINAL);
      EXPECT_NE(ordinalAndPermutation.second, stk::mesh::Permutation::INVALID_PERMUTATION);
    }
    else
    {
      EXPECT_EQ(ordinalAndPermutation.first, stk::mesh::ConnectivityOrdinal::INVALID_CONNECTIVITY_ORDINAL);
      EXPECT_EQ(ordinalAndPermutation.second, stk::mesh::Permutation::INVALID_PERMUTATION);
    }
  }

  bulk.modification_end();
}

Ejemplo n.º 2

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Archivo: UnitTestFEMHelper.cpp Proyecto: mhoemmen/Trilinos

void build_element_from_topology_verify_ordinals_and_permutations(stk::mesh::BulkData &bulk,
                                                                 const stk::topology topo,
                                                                 const stk::mesh::EntityIdVector & elem_node_ids,
                                                                 const stk::mesh::EntityIdVector & edge_ids,
                                                                 const std::vector < std::vector < unsigned > > &gold_side_node_ids,
                                                                 const unsigned * gold_side_permutations,
                                                                 const std::vector < std::vector < unsigned > > &gold_edge_node_ids,
                                                                 const unsigned * gold_edge_permutations)
{
  stk::mesh::EntityId element_id[1] = {1};
  stk::mesh::MetaData &meta = bulk.mesh_meta_data();
  stk::mesh::Part &elem_part = meta.declare_part_with_topology("elem_part", topo);

  meta.commit();
  bulk.modification_begin();

  stk::mesh::Entity elem = stk::mesh::declare_element(bulk, elem_part, element_id[0], elem_node_ids);

  stk::mesh::EntityVector side_nodes;
  uint num_sides = topo.num_sides();
  stk::topology::rank_t sub_topo_rank = topo.side_rank();

  for(uint i = 0; i < num_sides; ++i)
  {
    stk::topology sub_topo = topo.side_topology(i);
    bulk.declare_element_side(elem, i, {&meta.get_topology_root_part(sub_topo)});

    side_nodes.clear();

    for (uint j = 0; j < sub_topo.num_nodes(); ++j)
    {
      stk::mesh::Entity side_node = bulk.get_entity(stk::topology::NODE_RANK, gold_side_node_ids[i][j]);
      side_nodes.push_back(side_node);
    }

    stk::mesh::OrdinalAndPermutation ordinalAndPermutation = stk::mesh::get_ordinal_and_permutation(bulk, elem, sub_topo_rank, side_nodes);

    EXPECT_EQ(ordinalAndPermutation.second, gold_side_permutations[i]) << topo;
    EXPECT_EQ(ordinalAndPermutation.first, i) << topo;
  }

  if (edge_ids.empty()) {
    bulk.modification_end();
    return;
  }

  stk::mesh::EntityVector edge_nodes;
  uint num_edges = topo.num_edges();

  for(uint i = 0; i < num_edges; ++i)
  {
    edge_nodes.clear();

    stk::mesh::Entity edge = bulk.declare_entity(stk::topology::EDGE_RANK, edge_ids[i],
                                                 meta.get_topology_root_part(topo.edge_topology()));

    for (uint j = 0; j < topo.edge_topology().num_nodes(); ++j)
    {
      stk::mesh::Entity edge_node = bulk.get_entity(stk::topology::NODE_RANK, gold_edge_node_ids[i][j]);
      edge_nodes.push_back(edge_node);
      bulk.declare_relation(edge, edge_node, j);
    }

    std::pair<stk::mesh::ConnectivityOrdinal, stk::mesh::Permutation> ordinalAndPermutation
      = stk::mesh::get_ordinal_and_permutation(bulk, elem, stk::topology::EDGE_RANK, edge_nodes);

    EXPECT_EQ(ordinalAndPermutation.second, gold_edge_permutations[i]) << topo;
    EXPECT_EQ(ordinalAndPermutation.first, i) << topo;
  }

  bulk.modification_end();
}