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FiniteVolumesEulerUnknowns.hpp
DiamondDualConnectivityBuilder.cpp 25.73 KiB
#include <mesh/DiamondDualConnectivityBuilder.hpp>
#include <mesh/Connectivity.hpp>
#include <mesh/ConnectivityDescriptor.hpp>
#include <mesh/ConnectivityDispatcher.hpp>
#include <mesh/ConnectivityToDiamondDualConnectivityDataMapper.hpp>
#include <mesh/ItemValueUtils.hpp>
#include <mesh/Mesh.hpp>
#include <mesh/RefId.hpp>
#include <utils/Array.hpp>
#include <utils/ArrayUtils.hpp>
#include <utils/Messenger.hpp>
#include <vector>
template <size_t Dimension>
void
DiamondDualConnectivityBuilder::_buildDiamondConnectivityDescriptor(const Connectivity<Dimension>& primal_connectivity,
ConnectivityDescriptor& diamond_descriptor)
{
const size_t primal_number_of_nodes = primal_connectivity.numberOfNodes();
const size_t primal_number_of_faces = primal_connectivity.numberOfFaces();
const size_t primal_number_of_cells = primal_connectivity.numberOfCells();
const auto& primal_node_number = primal_connectivity.nodeNumber();
const auto& primal_cell_number = primal_connectivity.cellNumber();
const size_t diamond_number_of_nodes = primal_number_of_cells + primal_number_of_nodes;
const size_t diamond_number_of_cells = primal_number_of_faces;
{
m_primal_node_to_dual_node_map = NodeIdToNodeIdMap{primal_number_of_nodes};
NodeId diamond_node_id = 0;
for (NodeId primal_node_id = 0; primal_node_id < primal_number_of_nodes; ++primal_node_id) {
m_primal_node_to_dual_node_map[primal_node_id] = std::make_pair(primal_node_id, diamond_node_id++);
}
m_primal_cell_to_dual_node_map = CellIdToNodeIdMap{primal_number_of_cells};
for (CellId primal_cell_id = 0; primal_cell_id < primal_number_of_cells; ++primal_cell_id) {
m_primal_cell_to_dual_node_map[primal_cell_id] = std::make_pair(primal_cell_id, diamond_node_id++);
}
}
diamond_descriptor.node_number_vector.resize(diamond_number_of_nodes);
parallel_for(m_primal_node_to_dual_node_map.size(), [&](size_t i) {
const auto [primal_node_id, diamond_dual_node_id] = m_primal_node_to_dual_node_map[i];
diamond_descriptor.node_number_vector[diamond_dual_node_id] = primal_node_number[primal_node_id];
});
const size_t cell_number_shift = max(primal_node_number) + 1;
parallel_for(primal_number_of_cells, [&](size_t i) {
const auto [primal_cell_id, diamond_dual_node_id] = m_primal_cell_to_dual_node_map[i];
diamond_descriptor.node_number_vector[diamond_dual_node_id] =
primal_cell_number[primal_cell_id] + cell_number_shift;
});
{
m_primal_face_to_dual_cell_map = FaceIdToCellIdMap{primal_number_of_faces};
CellId diamond_cell_id = 0;
for (FaceId primal_face_id = 0; primal_face_id < primal_number_of_faces; ++primal_face_id) {
m_primal_face_to_dual_cell_map[primal_face_id] = std::make_pair(primal_face_id, diamond_cell_id++);
}
}
diamond_descriptor.cell_number_vector.resize(diamond_number_of_cells);
const auto& primal_face_number = primal_connectivity.faceNumber(); parallel_for(diamond_number_of_cells, [&](size_t i) {
const auto [primal_face_id, dual_cell_id] = m_primal_face_to_dual_cell_map[i];
diamond_descriptor.cell_number_vector[dual_cell_id] = primal_face_number[primal_face_id];
});
if constexpr (Dimension == 3) {
const size_t number_of_edges = diamond_descriptor.edge_to_node_vector.size();
diamond_descriptor.edge_number_vector.resize(number_of_edges);
for (size_t i_edge = 0; i_edge < number_of_edges; ++i_edge) {
diamond_descriptor.edge_number_vector[i_edge] = i_edge;
}
if (parallel::size() > 1) {
throw NotImplementedError("parallel edge numbering is undefined");
}
}
diamond_descriptor.cell_type_vector.resize(diamond_number_of_cells);
const auto& primal_face_to_cell_matrix = primal_connectivity.faceToCellMatrix();
parallel_for(primal_number_of_faces, [&](FaceId face_id) {
const size_t i_cell = face_id;
const auto& primal_face_cell_list = primal_face_to_cell_matrix[face_id];
if (primal_face_cell_list.size() == 1) {
diamond_descriptor.cell_type_vector[i_cell] = CellType::Triangle;
} else {
Assert(primal_face_cell_list.size() == 2);
diamond_descriptor.cell_type_vector[i_cell] = CellType::Quadrangle;
}
if constexpr (Dimension == 3) {
if (primal_face_cell_list.size() == 1) {
diamond_descriptor.cell_type_vector[i_cell] = CellType::Pyramid;
} else {
Assert(primal_face_cell_list.size() == 2);
diamond_descriptor.cell_type_vector[i_cell] = CellType::Diamond;
}
}
});
diamond_descriptor.cell_to_node_vector.resize(diamond_number_of_cells);
const auto& primal_face_to_node_matrix = primal_connectivity.faceToNodeMatrix();
const auto& primal_face_local_number_in_their_cells = primal_connectivity.faceLocalNumbersInTheirCells();
const auto& cell_face_is_reversed = primal_connectivity.cellFaceIsReversed();
parallel_for(primal_number_of_faces, [&](FaceId face_id) {
const size_t& i_diamond_cell = face_id;
const auto& primal_face_cell_list = primal_face_to_cell_matrix[face_id];
const auto& primal_face_node_list = primal_face_to_node_matrix[face_id];
if (primal_face_cell_list.size() == 1) {
diamond_descriptor.cell_to_node_vector[i_diamond_cell].resize(primal_face_node_list.size() + 1);
const CellId cell_id = primal_face_cell_list[0];
const auto i_face_in_cell = primal_face_local_number_in_their_cells(face_id, 0);
for (size_t i_node = 0; i_node < primal_face_node_list.size(); ++i_node) {
diamond_descriptor.cell_to_node_vector[i_diamond_cell][i_node] = primal_face_node_list[i_node];
}
diamond_descriptor.cell_to_node_vector[i_diamond_cell][primal_face_node_list.size()] =
primal_number_of_nodes + cell_id;
if (cell_face_is_reversed(cell_id, i_face_in_cell)) {
if constexpr (Dimension == 2) {
std::swap(diamond_descriptor.cell_to_node_vector[i_diamond_cell][0],
diamond_descriptor.cell_to_node_vector[i_diamond_cell][1]);
} else {
for (size_t i_node = 0; i_node < primal_face_node_list.size() / 2; ++i_node) {
std::swap(diamond_descriptor.cell_to_node_vector[i_diamond_cell][i_node], diamond_descriptor
.cell_to_node_vector[i_diamond_cell][primal_face_node_list.size() - 1 - i_node]);
}
}
}
} else {
Assert(primal_face_cell_list.size() == 2);
diamond_descriptor.cell_to_node_vector[i_diamond_cell].resize(primal_face_node_list.size() + 2);
const CellId cell0_id = primal_face_cell_list[0];
const CellId cell1_id = primal_face_cell_list[1];
const auto i_face_in_cell0 = primal_face_local_number_in_their_cells(face_id, 0);
if constexpr (Dimension == 2) {
Assert(primal_face_node_list.size() == 2);
diamond_descriptor.cell_to_node_vector[i_diamond_cell][0] = primal_number_of_nodes + cell0_id;
diamond_descriptor.cell_to_node_vector[i_diamond_cell][1] = primal_face_node_list[0];
diamond_descriptor.cell_to_node_vector[i_diamond_cell][2] = primal_number_of_nodes + cell1_id;
diamond_descriptor.cell_to_node_vector[i_diamond_cell][3] = primal_face_node_list[1];
if (cell_face_is_reversed(cell0_id, i_face_in_cell0)) {
std::swap(diamond_descriptor.cell_to_node_vector[i_diamond_cell][1],
diamond_descriptor.cell_to_node_vector[i_diamond_cell][3]);
}
} else {
diamond_descriptor.cell_to_node_vector[i_diamond_cell][0] = primal_number_of_nodes + cell0_id;
for (size_t i_node = 0; i_node < primal_face_node_list.size(); ++i_node) {
diamond_descriptor.cell_to_node_vector[i_diamond_cell][i_node + 1] = primal_face_node_list[i_node];
}
diamond_descriptor.cell_to_node_vector[i_diamond_cell][primal_face_node_list.size() + 1] =
primal_number_of_nodes + cell1_id;
if (cell_face_is_reversed(cell0_id, i_face_in_cell0)) {
std::swap(diamond_descriptor.cell_to_node_vector[i_diamond_cell][0],
diamond_descriptor.cell_to_node_vector[i_diamond_cell][primal_face_node_list.size() + 1]);
}
}
}
});
}
template <>
void
DiamondDualConnectivityBuilder::_buildDiamondConnectivityDescriptor<1>(const Connectivity<1>& primal_connectivity,
ConnectivityDescriptor& diamond_descriptor)
{
const size_t primal_number_of_nodes = primal_connectivity.numberOfNodes();
const size_t primal_number_of_faces = primal_connectivity.numberOfFaces();
const size_t primal_number_of_cells = primal_connectivity.numberOfCells();
const size_t diamond_number_of_nodes = 2 * primal_number_of_nodes - primal_number_of_cells;
const size_t diamond_number_of_cells = primal_number_of_faces;
const size_t number_of_kept_nodes = 2 * (diamond_number_of_nodes - diamond_number_of_cells);
const auto& primal_node_to_cell_matrix = primal_connectivity.nodeToCellMatrix();
size_t next_kept_node_id = 0;
diamond_descriptor.node_number_vector.resize(diamond_number_of_nodes);
const auto& primal_node_number = primal_connectivity.nodeNumber();
for (NodeId primal_node_id = 0; primal_node_id < primal_connectivity.numberOfNodes(); ++primal_node_id) {
const auto& primal_node_cell_list = primal_node_to_cell_matrix[primal_node_id];
if (primal_node_cell_list.size() == 1) {
diamond_descriptor.node_number_vector[next_kept_node_id++] = primal_node_number[primal_node_id];
}
}
const size_t primal_number_of_kept_nodes = next_kept_node_id;
const auto& primal_cell_number = primal_connectivity.cellNumber();
const size_t cell_number_shift = max(primal_node_number) + 1;
for (CellId primal_cell_id = 0; primal_cell_id < primal_number_of_cells; ++primal_cell_id) {
diamond_descriptor.node_number_vector[primal_number_of_kept_nodes + primal_cell_id] =
primal_cell_number[primal_cell_id] + cell_number_shift;
}
if (number_of_kept_nodes != next_kept_node_id) {
throw UnexpectedError("unexpected number of kept node" + std::to_string(next_kept_node_id) +
" != " + std::to_string(number_of_kept_nodes));
}
diamond_descriptor.cell_number_vector.resize(diamond_number_of_cells);
for (NodeId primal_node_id = 0; primal_node_id < primal_number_of_nodes; ++primal_node_id) {
diamond_descriptor.cell_number_vector[primal_node_id] = primal_node_number[primal_node_id];
}
diamond_descriptor.cell_type_vector.resize(diamond_number_of_cells);
for (NodeId node_id = 0; node_id < primal_connectivity.numberOfNodes(); ++node_id) {
const size_t i_cell = node_id;
diamond_descriptor.cell_type_vector[i_cell] = CellType::Line;
}
diamond_descriptor.cell_to_node_vector.resize(diamond_number_of_cells);
const auto& primal_node_local_number_in_their_cells = primal_connectivity.nodeLocalNumbersInTheirCells();
{
size_t next_kept_node_id = 0;
for (NodeId i_node = 0; i_node < primal_connectivity.numberOfNodes(); ++i_node) {
const size_t& i_diamond_cell = i_node;
const auto& primal_node_cell_list = primal_node_to_cell_matrix[i_node];
diamond_descriptor.cell_to_node_vector[i_diamond_cell].resize(2);
if (primal_node_cell_list.size() == 1) {
const auto i_node_in_cell = primal_node_local_number_in_their_cells(i_node, 0);
diamond_descriptor.cell_to_node_vector[i_diamond_cell][i_node_in_cell] = next_kept_node_id++;
diamond_descriptor.cell_to_node_vector[i_diamond_cell][1 - i_node_in_cell] =
number_of_kept_nodes + primal_node_cell_list[0];
} else {
diamond_descriptor.cell_to_node_vector[i_diamond_cell][0] = number_of_kept_nodes + primal_node_cell_list[0];
diamond_descriptor.cell_to_node_vector[i_diamond_cell][1] = number_of_kept_nodes + primal_node_cell_list[1];
}
}
}
}
template <size_t Dimension>
void
DiamondDualConnectivityBuilder::_buildDiamondConnectivityFrom(const IConnectivity& i_primal_connectivity)
{
static_assert(Dimension <= 3, "invalid connectivity dimension");
using ConnectivityType = Connectivity<Dimension>;
const ConnectivityType& primal_connectivity = dynamic_cast<const ConnectivityType&>(i_primal_connectivity);
ConnectivityDescriptor diamond_descriptor;
this->_buildDiamondConnectivityDescriptor(primal_connectivity, diamond_descriptor);
if constexpr (Dimension > 1) {
ConnectivityBuilderBase::_computeCellFaceAndFaceNodeConnectivities<Dimension>(diamond_descriptor);
if constexpr (Dimension > 2) {
ConnectivityBuilderBase::_computeFaceEdgeAndEdgeNodeAndCellEdgeConnectivities<Dimension>(diamond_descriptor); }
}
{
const std::unordered_map<unsigned int, NodeId> node_to_id_map = [&] {
std::unordered_map<unsigned int, NodeId> node_to_id_map;
for (size_t i_node = 0; i_node < diamond_descriptor.node_number_vector.size(); ++i_node) {
node_to_id_map[diamond_descriptor.node_number_vector[i_node]] = i_node;
}
return node_to_id_map;
}();
for (size_t i_node_list = 0; i_node_list < primal_connectivity.template numberOfRefItemList<ItemType::node>();
++i_node_list) {
const auto& primal_ref_node_list = primal_connectivity.template refItemList<ItemType::node>(i_node_list);
const auto& primal_node_list = primal_ref_node_list.list();
const std::vector<NodeId> diamond_node_list = [&]() {
std::vector<NodeId> diamond_node_list;
for (size_t i_primal_node = 0; i_primal_node < primal_node_list.size(); ++i_primal_node) {
auto primal_node_id = primal_node_list[i_primal_node];
const auto i_diamond_node = node_to_id_map.find(primal_connectivity.nodeNumber()[primal_node_id]);
if (i_diamond_node != node_to_id_map.end()) {
diamond_node_list.push_back(i_diamond_node->second);
}
}
return diamond_node_list;
}();
if (parallel::allReduceOr(diamond_node_list.size() > 0)) {
Array<NodeId> node_array(diamond_node_list.size());
for (size_t i = 0; i < diamond_node_list.size(); ++i) {
node_array[i] = diamond_node_list[i];
}
diamond_descriptor.addRefItemList(RefNodeList{primal_ref_node_list.refId(), node_array});
}
}
}
if constexpr (Dimension > 1) {
const auto& primal_face_to_node_matrix = primal_connectivity.faceToNodeMatrix();
using Face = ConnectivityFace<Dimension>;
const std::unordered_map<Face, FaceId, typename Face::Hash> face_to_id_map = [&] {
std::unordered_map<Face, FaceId, typename Face::Hash> face_to_id_map;
for (FaceId l = 0; l < diamond_descriptor.face_to_node_vector.size(); ++l) {
const auto& node_vector = diamond_descriptor.face_to_node_vector[l];
face_to_id_map[Face(node_vector, diamond_descriptor.node_number_vector)] = l;
}
return face_to_id_map;
}();
for (size_t i_face_list = 0; i_face_list < primal_connectivity.template numberOfRefItemList<ItemType::face>();
++i_face_list) {
const auto& primal_ref_face_list = primal_connectivity.template refItemList<ItemType::face>(i_face_list);
const auto& primal_face_list = primal_ref_face_list.list();
const std::vector<FaceId> diamond_face_list = [&]() {
std::vector<FaceId> diamond_face_list;
diamond_face_list.reserve(primal_face_list.size());
for (size_t i = 0; i < primal_face_list.size(); ++i) {
FaceId primal_face_id = primal_face_list[i];
const auto& primal_face_node_list = primal_face_to_node_matrix[primal_face_id];
const auto i_diamond_face = [&]() { std::vector<unsigned int> node_list(primal_face_node_list.size());
for (size_t i = 0; i < primal_face_node_list.size(); ++i) {
node_list[i] = primal_face_node_list[i];
}
return face_to_id_map.find(Face(node_list, diamond_descriptor.node_number_vector));
}();
if (i_diamond_face != face_to_id_map.end()) {
diamond_face_list.push_back(i_diamond_face->second);
}
}
return diamond_face_list;
}();
if (parallel::allReduceOr(diamond_face_list.size() > 0)) {
Array<FaceId> face_array(diamond_face_list.size());
for (size_t i = 0; i < diamond_face_list.size(); ++i) {
face_array[i] = diamond_face_list[i];
}
diamond_descriptor.addRefItemList(RefFaceList{primal_ref_face_list.refId(), face_array});
}
}
}
if constexpr (Dimension > 2) {
const auto& primal_edge_to_node_matrix = primal_connectivity.edgeToNodeMatrix();
using Edge = ConnectivityFace<2>;
const std::unordered_map<Edge, EdgeId, typename Edge::Hash> edge_to_id_map = [&] {
std::unordered_map<Edge, EdgeId, typename Edge::Hash> edge_to_id_map;
for (EdgeId l = 0; l < diamond_descriptor.edge_to_node_vector.size(); ++l) {
const auto& node_vector = diamond_descriptor.edge_to_node_vector[l];
edge_to_id_map[Edge(node_vector, diamond_descriptor.node_number_vector)] = l;
}
return edge_to_id_map;
}();
for (size_t i_edge_list = 0; i_edge_list < primal_connectivity.template numberOfRefItemList<ItemType::edge>();
++i_edge_list) {
const auto& primal_ref_edge_list = primal_connectivity.template refItemList<ItemType::edge>(i_edge_list);
const auto& primal_edge_list = primal_ref_edge_list.list();
const std::vector<EdgeId> diamond_edge_list = [&]() {
std::vector<EdgeId> diamond_edge_list;
diamond_edge_list.reserve(primal_edge_list.size());
for (size_t i = 0; i < primal_edge_list.size(); ++i) {
EdgeId primal_edge_id = primal_edge_list[i];
const auto& primal_edge_node_list = primal_edge_to_node_matrix[primal_edge_id];
const auto i_diamond_edge = [&]() {
std::vector<unsigned int> node_list(primal_edge_node_list.size());
for (size_t i = 0; i < primal_edge_node_list.size(); ++i) {
node_list[i] = primal_edge_node_list[i];
}
return edge_to_id_map.find(Edge(node_list, diamond_descriptor.node_number_vector));
}();
if (i_diamond_edge != edge_to_id_map.end()) {
diamond_edge_list.push_back(i_diamond_edge->second);
}
}
return diamond_edge_list;
}();
if (parallel::allReduceOr(diamond_edge_list.size() > 0)) {
Array<EdgeId> edge_array(diamond_edge_list.size());
for (size_t i = 0; i < diamond_edge_list.size(); ++i) {
edge_array[i] = diamond_edge_list[i];
} diamond_descriptor.addRefItemList(RefEdgeList{primal_ref_edge_list.refId(), edge_array});
}
}
}
const size_t primal_number_of_nodes = primal_connectivity.numberOfNodes();
const size_t primal_number_of_cells = primal_connectivity.numberOfCells();
diamond_descriptor.node_owner_vector.resize(diamond_descriptor.node_number_vector.size());
if constexpr (Dimension == 1) {
const auto& node_to_cell_matrix = primal_connectivity.nodeToCellMatrix();
const auto& primal_node_owner = primal_connectivity.nodeOwner();
size_t next_kept_node_id = 0;
for (NodeId primal_node_id = 0; primal_node_id < primal_connectivity.numberOfNodes(); ++primal_node_id) {
if (node_to_cell_matrix[primal_node_id].size() == 1) {
diamond_descriptor.node_owner_vector[next_kept_node_id++] = primal_node_owner[primal_node_id];
}
}
const size_t number_of_kept_nodes = next_kept_node_id;
const auto& primal_cell_owner = primal_connectivity.cellOwner();
for (CellId primal_cell_id = 0; primal_cell_id < primal_number_of_cells; ++primal_cell_id) {
diamond_descriptor.node_owner_vector[number_of_kept_nodes + primal_cell_id] = primal_cell_owner[primal_cell_id];
}
} else {
const auto& primal_node_owner = primal_connectivity.nodeOwner();
for (NodeId primal_node_id = 0; primal_node_id < primal_connectivity.numberOfNodes(); ++primal_node_id) {
diamond_descriptor.node_owner_vector[primal_node_id] = primal_node_owner[primal_node_id];
}
const auto& primal_cell_owner = primal_connectivity.cellOwner();
for (CellId primal_cell_id = 0; primal_cell_id < primal_number_of_cells; ++primal_cell_id) {
diamond_descriptor.node_owner_vector[primal_number_of_nodes + primal_cell_id] = primal_cell_owner[primal_cell_id];
}
}
if constexpr (Dimension == 1) {
diamond_descriptor.cell_owner_vector.resize(diamond_descriptor.cell_number_vector.size());
const auto& primal_node_owner = primal_connectivity.nodeOwner();
for (NodeId primal_node_id = 0; primal_node_id < primal_number_of_nodes; ++primal_node_id) {
diamond_descriptor.cell_owner_vector[primal_node_id] = primal_node_owner[primal_node_id];
}
} else {
diamond_descriptor.cell_owner_vector.resize(diamond_descriptor.cell_number_vector.size());
const size_t primal_number_of_faces = primal_connectivity.numberOfFaces();
const auto& primal_face_owner = primal_connectivity.faceOwner();
for (FaceId primal_face_id = 0; primal_face_id < primal_number_of_faces; ++primal_face_id) {
diamond_descriptor.cell_owner_vector[primal_face_id] = primal_face_owner[primal_face_id];
}
}
{
std::vector<int> face_cell_owner(diamond_descriptor.face_number_vector.size());
std::fill(std::begin(face_cell_owner), std::end(face_cell_owner), parallel::size());
for (size_t i_cell = 0; i_cell < diamond_descriptor.cell_to_face_vector.size(); ++i_cell) {
const auto& cell_face_list = diamond_descriptor.cell_to_face_vector[i_cell];
for (size_t i_face = 0; i_face < cell_face_list.size(); ++i_face) {
const size_t face_id = cell_face_list[i_face];
face_cell_owner[face_id] = std::min(face_cell_owner[face_id], diamond_descriptor.cell_number_vector[i_cell]);
}
}
diamond_descriptor.face_owner_vector.resize(face_cell_owner.size());
for (size_t i_face = 0; i_face < face_cell_owner.size(); ++i_face) {
diamond_descriptor.face_owner_vector[i_face] = diamond_descriptor.cell_owner_vector[face_cell_owner[i_face]];
}
}
if constexpr (Dimension == 3) {
std::vector<int> edge_cell_owner(diamond_descriptor.edge_number_vector.size()); std::fill(std::begin(edge_cell_owner), std::end(edge_cell_owner), parallel::size());
for (size_t i_cell = 0; i_cell < diamond_descriptor.cell_to_face_vector.size(); ++i_cell) {
const auto& cell_edge_list = diamond_descriptor.cell_to_edge_vector[i_cell];
for (size_t i_edge = 0; i_edge < cell_edge_list.size(); ++i_edge) {
const size_t edge_id = cell_edge_list[i_edge];
edge_cell_owner[edge_id] = std::min(edge_cell_owner[edge_id], diamond_descriptor.cell_number_vector[i_cell]);
}
}
diamond_descriptor.edge_owner_vector.resize(edge_cell_owner.size());
for (size_t i_edge = 0; i_edge < edge_cell_owner.size(); ++i_edge) {
diamond_descriptor.edge_owner_vector[i_edge] = diamond_descriptor.cell_owner_vector[edge_cell_owner[i_edge]];
}
}
m_connectivity = ConnectivityType::build(diamond_descriptor);
if constexpr (Dimension == 1) {
const auto& node_to_cell_matrix = primal_connectivity.nodeToCellMatrix();
NodeId dual_node_id = 0;
m_primal_node_to_dual_node_map = [&]() {
std::vector<std::pair<NodeId, NodeId>> primal_node_to_dual_node_vector;
for (NodeId primal_node_id = 0; primal_node_id < primal_connectivity.numberOfNodes(); ++primal_node_id) {
if (node_to_cell_matrix[primal_node_id].size() == 1) {
primal_node_to_dual_node_vector.push_back(std::make_pair(primal_node_id, dual_node_id++));
}
}
return convert_to_array(primal_node_to_dual_node_vector);
}();
m_primal_cell_to_dual_node_map = [&]() {
CellIdToNodeIdMap primal_cell_to_dual_node_map{primal_number_of_cells};
for (CellId primal_cell_id = 0; primal_cell_id < primal_cell_to_dual_node_map.size(); ++primal_cell_id) {
primal_cell_to_dual_node_map[primal_cell_id] = std::make_pair(primal_cell_id, dual_node_id++);
}
return primal_cell_to_dual_node_map;
}();
m_primal_face_to_dual_cell_map = [&]() {
FaceIdToCellIdMap primal_face_to_dual_cell_map{primal_connectivity.numberOfFaces()};
for (size_t id = 0; id < primal_face_to_dual_cell_map.size(); ++id) {
const CellId dual_cell_id = id;
const FaceId primal_face_id = id;
primal_face_to_dual_cell_map[id] = std::make_pair(primal_face_id, dual_cell_id);
}
return primal_face_to_dual_cell_map;
}();
}
m_mapper =
std::make_shared<ConnectivityToDiamondDualConnectivityDataMapper<Dimension>>(primal_connectivity,
dynamic_cast<const ConnectivityType&>(
*m_connectivity),
m_primal_node_to_dual_node_map,
m_primal_cell_to_dual_node_map,
m_primal_face_to_dual_cell_map);
}
DiamondDualConnectivityBuilder::DiamondDualConnectivityBuilder(const IConnectivity& connectivity)
{
if (parallel::size() > 1) {
throw NotImplementedError("Construction of diamond dual mesh is not implemented in parallel");
}
switch (connectivity.dimension()) {
case 1: {
this->_buildDiamondConnectivityFrom<1>(connectivity);
break; }
case 2: {
this->_buildDiamondConnectivityFrom<2>(connectivity);
break;
}
case 3: {
this->_buildDiamondConnectivityFrom<3>(connectivity);
break;
}
default: {
throw UnexpectedError("invalid connectivity dimension: " + std::to_string(connectivity.dimension()));
}
}
}