int main(int argc, char *argv[]) { ApplicationsLib::LogogSetup logog_setup; TCLAP::CmdLine cmd( "Query mesh information.\n\n" "OpenGeoSys-6 software, version " + BaseLib::BuildInfo::git_describe + ".\n" "Copyright (c) 2012-2019, OpenGeoSys Community " "(http://www.opengeosys.org)", ' ', BaseLib::BuildInfo::git_describe); TCLAP::UnlabeledValueArg<std::string> mesh_arg("mesh-file","input mesh file",true,"","string"); cmd.add( mesh_arg ); TCLAP::MultiArg<std::size_t> eleId_arg("e","element-id","element ID",false,"number"); cmd.add( eleId_arg ); TCLAP::MultiArg<std::size_t> nodeId_arg("n","node-id","node ID",false,"number"); cmd.add( nodeId_arg ); TCLAP::SwitchArg showNodeWithMaxEle_arg("", "show-node-with-max-elements", "show a node having the max number of connected elements", false); cmd.add( showNodeWithMaxEle_arg ); cmd.parse( argc, argv ); const std::string filename(mesh_arg.getValue()); // read the mesh file auto const mesh = std::unique_ptr<MeshLib::Mesh>( MeshLib::IO::readMeshFromFile(filename)); if (!mesh) { return EXIT_FAILURE; } std::vector<std::size_t> selected_node_ids; if (showNodeWithMaxEle_arg.getValue()) { auto itr = std::max_element(mesh->getNodes().begin(), mesh->getNodes().end(), [](MeshLib::Node* i, MeshLib::Node* j) { return i->getNumberOfElements() < j->getNumberOfElements(); }); if (itr != mesh->getNodes().end()) { MeshLib::Node* node = *itr; selected_node_ids.push_back(node->getID()); } } selected_node_ids.insert(selected_node_ids.end(), nodeId_arg.getValue().begin(), nodeId_arg.getValue().end()); auto const materialIds = materialIDs(*mesh); for (auto ele_id : eleId_arg.getValue()) { std::stringstream out; out << std::scientific << std::setprecision(std::numeric_limits<double>::digits10); out << "--------------------------------------------------------" << std::endl; auto* ele = mesh->getElement(ele_id); out << "# Element " << ele->getID() << std::endl; out << "Type : " << CellType2String(ele->getCellType()) << std::endl; if (materialIds) { out << "Mat ID : " << (*materialIds)[ele_id] << std::endl; } out << "Nodes: " << std::endl; for (unsigned i = 0; i < ele->getNumberOfNodes(); i++) { out << ele->getNode(i)->getID() << " " << *ele->getNode(i) << std::endl; } out << "Content: " << ele->getContent() << std::endl; out << "Neighbors: "; for (unsigned i=0; i<ele->getNumberOfNeighbors(); i++) { if (ele->getNeighbor(i)) { out << ele->getNeighbor(i)->getID() << " "; } else { out << "none "; } } out << std::endl; INFO("%s", out.str().c_str()); } for (auto node_id : selected_node_ids) { std::stringstream out; out << std::scientific << std::setprecision(std::numeric_limits<double>::digits10); out << "--------------------------------------------------------" << std::endl; MeshLib::Node const* node = mesh->getNode(node_id); out << "# Node " << node->getID() << std::endl; out << "Coordinates: " << *node << std::endl; out << "Connected elements (" << node->getNumberOfElements() << "): "; for (auto ele : node->getElements()) { out << ele->getID() << " "; } out << std::endl; out << "Connected nodes (" << node->getConnectedNodes().size() << "): "; for (auto nd : node->getConnectedNodes()) { out << nd->getID() << " "; } out << std::endl; INFO("%s", out.str().c_str()); } }
int main(int argc, char *argv[]) { ApplicationsLib::LogogSetup logog_setup; TCLAP::CmdLine cmd("Query mesh information", ' ', BaseLib::BuildInfo::git_describe); TCLAP::UnlabeledValueArg<std::string> mesh_arg("mesh-file","input mesh file",true,"","string"); cmd.add( mesh_arg ); TCLAP::MultiArg<std::size_t> eleId_arg("e","element-id","element ID",false,"number"); cmd.add( eleId_arg ); TCLAP::MultiArg<std::size_t> nodeId_arg("n","node-id","node ID",false,"number"); cmd.add( nodeId_arg ); cmd.parse( argc, argv ); const std::string filename(mesh_arg.getValue()); // read the mesh file auto const mesh = std::unique_ptr<MeshLib::Mesh>( MeshLib::IO::readMeshFromFile(filename)); if (!mesh) return EXIT_FAILURE; auto materialIds = mesh->getProperties().getPropertyVector<int>("MaterialIDs"); for (auto ele_id : eleId_arg.getValue()) { std::stringstream out; out << std::scientific << std::setprecision(std::numeric_limits<double>::digits10); out << "--------------------------------------------------------" << std::endl; auto* ele = mesh->getElement(ele_id); out << "# Element " << ele->getID() << std::endl; out << "Type : " << CellType2String(ele->getCellType()) << std::endl; if (materialIds) out << "Mat ID : " << (*materialIds)[ele_id] << std::endl; out << "Nodes: " << std::endl; for (unsigned i=0; i<ele->getNNodes(); i++) out << ele->getNode(i)->getID() << " " << *ele->getNode(i) << std::endl; out << "Content: " << ele->getContent() << std::endl; out << "Neighbors: "; for (unsigned i=0; i<ele->getNNeighbors(); i++) { if (ele->getNeighbor(i)) out << ele->getNeighbor(i)->getID() << " "; else out << "none "; } out << std::endl; INFO("%s", out.str().c_str()); } for (auto node_id : nodeId_arg.getValue()) { std::stringstream out; out << std::scientific << std::setprecision(std::numeric_limits<double>::digits10); out << "--------------------------------------------------------" << std::endl; auto* node = mesh->getNode(node_id); out << "# Node" << node->getID() << std::endl; out << "Coordinates: " << *node << std::endl; out << "Connected elements: " ; for (unsigned i=0; i<node->getNElements(); i++) out << node->getElement(i)->getID() << " "; out << std::endl; INFO("%s", out.str().c_str()); } }
int main(int argc, char *argv[]) { LOGOG_INITIALIZE(); logog::Cout* logog_cout (new logog::Cout); BaseLib::LogogSimpleFormatter *custom_format (new BaseLib::LogogSimpleFormatter); logog_cout->SetFormatter(*custom_format); TCLAP::CmdLine cmd("Query mesh information", ' ', BaseLib::BuildInfo::git_describe); TCLAP::UnlabeledValueArg<std::string> mesh_arg("mesh-file","input mesh file",true,"","string"); cmd.add( mesh_arg ); TCLAP::MultiArg<std::size_t> eleId_arg("e","element-id","element ID",false,"number"); cmd.add( eleId_arg ); TCLAP::MultiArg<std::size_t> nodeId_arg("n","node-id","node ID",false,"number"); cmd.add( nodeId_arg ); cmd.parse( argc, argv ); const std::string filename(mesh_arg.getValue()); // read the mesh file const MeshLib::Mesh* mesh = FileIO::readMeshFromFile(filename); if (!mesh) return 1; std::cout << std::scientific << std::setprecision(12); for (auto ele_id : eleId_arg.getValue()) { std::cout << "--------------------------------------------------------" << std::endl; auto* ele = mesh->getElement(ele_id); std::cout << "# Element " << ele->getID() << std::endl; std::cout << "Type : " << CellType2String(ele->getCellType()) << std::endl; std::cout << "Mat ID : " << ele->getValue() << std::endl; std::cout << "Nodes: " << std::endl; for (unsigned i=0; i<ele->getNNodes(); i++) std::cout << ele->getNode(i)->getID() << " " << *ele->getNode(i) << std::endl; std::cout << "Content: " << ele->getContent() << std::endl; std::cout << "Neighbors: "; for (unsigned i=0; i<ele->getNNeighbors(); i++) { if (ele->getNeighbor(i)) std::cout << ele->getNeighbor(i)->getID() << " "; else std::cout << "none "; } std::cout << std::endl; } for (auto node_id : nodeId_arg.getValue()) { std::cout << "--------------------------------------------------------" << std::endl; auto* node = mesh->getNode(node_id); std::cout << "# Node" << node->getID() << std::endl; std::cout << "Coordinates: " << *node << std::endl; std::cout << "Connected elements: " ; for (unsigned i=0; i<node->getNElements(); i++) std::cout << node->getElement(i)->getID() << " "; std::cout << std::endl; } delete mesh; delete custom_format; delete logog_cout; LOGOG_SHUTDOWN(); }