void TrilinosMatrix::create(cf3::common::PE::CommPattern& cp, Uint neq, std::vector<Uint>& node_connectivity, std::vector<Uint>& starting_indices, LSS::Vector& solution, LSS::Vector& rhs) { /// @todo structurally symmetricize the matrix /// @todo ensure main diagonal blocks always existent // if already created if (m_is_created) destroy(); // get global ids vector int *gid=(int*)cp.gid()->pack(); // prepare intermediate data int nmyglobalelements=0; int maxrowentries=0; std::vector<int> rowelements(0); std::vector<int> myglobalelements(0); for (int i=0; i<(const int)cp.isUpdatable().size(); i++) if (cp.isUpdatable()[i]) { ++nmyglobalelements; myglobalelements.push_back((int)gid[i]); rowelements.push_back((int)(starting_indices[i+1]-starting_indices[i])); maxrowentries=maxrowentries<(starting_indices[i+1]-starting_indices[i])?(starting_indices[i+1]-starting_indices[i]):maxrowentries; } std::vector<double>dummy_entries(maxrowentries*neq*neq,0.); std::vector<int>global_columns(maxrowentries); // process local to matrix local numbering mapper int iupd=0; int ighost=nmyglobalelements; m_p2m.resize(0); m_p2m.reserve(cp.isUpdatable().size()); for (int i=0; i<(const int)cp.isUpdatable().size(); i++) { if (cp.isUpdatable()[i]) { m_p2m.push_back(iupd++); } else { m_p2m.push_back(ighost++); } } // blockmaps (colmap is gid 1 to 1, rowmap is gid with ghosts filtered out) Epetra_BlockMap rowmap(-1,nmyglobalelements,&myglobalelements[0],neq,0,m_comm); for (int i=0; i<(const int)cp.isUpdatable().size(); i++) if (!cp.isUpdatable()[i]) myglobalelements.push_back((int)gid[i]); Epetra_BlockMap colmap(-1,cp.isUpdatable().size(),&myglobalelements[0],neq,0,m_comm); myglobalelements.clear(); // create matrix m_mat=Teuchos::rcp(new Epetra_FEVbrMatrix(Copy,rowmap,colmap,&rowelements[0])); /*must be a bug in Trilinos, Epetra_FEVbrMatrix constructor is in Copy mode but it hangs up anyway more funny, when it gets out of scope and gets dealloc'd, everything survives according to memcheck rowmap.~Epetra_BlockMap(); colmap.~Epetra_BlockMap(); */ rowelements.clear(); // prepare the entries for (int i=0; i<(const int)cp.isUpdatable().size(); i++) if (cp.isUpdatable()[i]) { // for(int j=(const int)starting_indices[i]; j<(const int)starting_indices[i+1]; j++) global_columns[j-starting_indices[i]]=gid[m_p2m[node_connectivity[j]]]; for(int j=(const int)starting_indices[i]; j<(const int)starting_indices[i+1]; j++) global_columns[j-starting_indices[i]]=myglobalelements[m_p2m[node_connectivity[j]]]; TRILINOS_THROW(m_mat->BeginInsertGlobalValues(gid[i],(int)(starting_indices[i+1]-starting_indices[i]),&global_columns[0])); for(int j=(const int)starting_indices[i]; j<(const int)starting_indices[i+1]; j++) TRILINOS_THROW(m_mat->SubmitBlockEntry(&dummy_entries[0],0,neq,neq)); TRILINOS_THROW(m_mat->EndSubmitEntries()); } TRILINOS_THROW(m_mat->FillComplete()); TRILINOS_THROW(m_mat->OptimizeStorage()); // in theory fillcomplete calls optimizestorage from Trilinos 8.x+ delete[] gid; // set class properties m_is_created=true; m_neq=neq; m_blockrow_size=nmyglobalelements; m_blockcol_size=cp.gid()->size(); }
void TrilinosFEVbrMatrix::create(cf3::common::PE::CommPattern& cp, const Uint neq, const std::vector<Uint>& node_connectivity, const std::vector<Uint>& starting_indices, LSS::Vector& solution, LSS::Vector& rhs, const std::vector<Uint>& periodic_links_nodes, const std::vector<bool>& periodic_links_active) { /// @todo structurally symmetricize the matrix /// @todo ensure main diagonal blocks always existent // if already created if (m_is_created) destroy(); // Copy node connectivity m_node_connectivity.resize(node_connectivity.size()); m_starting_indices.resize(starting_indices.size()); std::copy(node_connectivity.begin(), node_connectivity.end(), m_node_connectivity.begin()); std::copy(starting_indices.begin(), starting_indices.end(), m_starting_indices.begin()); const int nb_nodes = cp.isUpdatable().size(); std::vector<int> myglobalelements(0); std::vector<Uint> my_ranks; int nmyglobalelements=0; boost::shared_ptr<VariablesDescriptor> single_var_descriptor = common::allocate_component<VariablesDescriptor>("SingleVariableDescriptor"); single_var_descriptor->options().set(common::Tags::dimension(), 1); // Use one equation that represents the entire block single_var_descriptor->push_back("LSSvars", VariablesDescriptor::Dimensionalities::VECTOR); create_map_data(cp, *single_var_descriptor, m_p2m, myglobalelements, my_ranks, nmyglobalelements, periodic_links_nodes, periodic_links_active); std::vector<int> rowelements; rowelements.reserve(nmyglobalelements); std::vector<int> indices_per_row; create_indices_per_row(cp, *single_var_descriptor, node_connectivity, starting_indices, m_p2m, rowelements, indices_per_row, periodic_links_nodes, periodic_links_active); const int maxrowentries = *std::max_element(rowelements.begin(), rowelements.end()); std::vector<double>dummy_entries(maxrowentries*neq*neq,0.); // blockmaps (colmap is gid 1 to 1, rowmap is gid with ghosts filtered out) Epetra_BlockMap rowmap(-1,nmyglobalelements,&myglobalelements[0],neq,0,m_comm); Epetra_BlockMap colmap(-1,myglobalelements.size(),&myglobalelements[0],neq,0,m_comm); myglobalelements.clear(); // create matrix m_mat=Teuchos::rcp(new Epetra_FEVbrMatrix(Copy,rowmap,colmap,&rowelements[0])); // prepare the entries int row_start = 0; cf3_assert(rowelements.size() == nmyglobalelements); for(int i = 0; i != nmyglobalelements; ++i) { const int row_nb_elems = rowelements[i]; cf3_assert( (row_start + row_nb_elems) <= indices_per_row.size() ); TRILINOS_THROW(m_mat->BeginInsertMyValues(i,row_nb_elems,&indices_per_row[row_start])); for(int j=0; j<row_nb_elems; j++) { TRILINOS_THROW(m_mat->SubmitBlockEntry(&dummy_entries[0],0,neq,neq)); } TRILINOS_THROW(m_mat->EndSubmitEntries()); row_start += row_nb_elems; } TRILINOS_THROW(m_mat->FillComplete()); // set class properties m_is_created=true; m_neq=neq; m_blockrow_size=nmyglobalelements; m_blockcol_size=cp.gid()->size(); CFdebug << "Created a " << m_mat->NumGlobalCols() << " x " << m_mat->NumGlobalRows() << " trilinos matrix with " << m_mat->NumGlobalNonzeros() << " non-zero elements. CrsGraph rows: " << m_mat->Graph().NumGlobalRows() << CFendl; }