bool convertMeshToGeo(const MeshLib::Mesh &mesh, GeoLib::GEOObjects &geo_objects, double eps) { if (mesh.getDimension() != 2) { ERR ("Mesh to geometry conversion is only working for 2D meshes."); return false; } // nodes to points conversion std::string mesh_name(mesh.getName()); { auto points = std::make_unique<std::vector<GeoLib::Point*>>(); points->reserve(mesh.getNumberOfNodes()); for (auto node_ptr : mesh.getNodes()) points->push_back(new GeoLib::Point(*node_ptr, node_ptr->getID())); geo_objects.addPointVec(std::move(points), mesh_name, nullptr, eps); } const std::vector<std::size_t> id_map (geo_objects.getPointVecObj(mesh_name)->getIDMap()); // elements to surface triangles conversion std::string const mat_name ("MaterialIDs"); auto bounds (MeshInformation::getValueBounds<int>(mesh, mat_name)); const unsigned nMatGroups(bounds.second-bounds.first+1); auto sfcs = std::make_unique<std::vector<GeoLib::Surface*>>(); sfcs->reserve(nMatGroups); auto const& points = *geo_objects.getPointVec(mesh_name); for (unsigned i=0; i<nMatGroups; ++i) sfcs->push_back(new GeoLib::Surface(points)); const std::vector<MeshLib::Element*> &elements = mesh.getElements(); const std::size_t nElems (mesh.getNumberOfElements()); MeshLib::PropertyVector<int> const*const materialIds = mesh.getProperties().existsPropertyVector<int>("MaterialIDs") ? mesh.getProperties().getPropertyVector<int>("MaterialIDs") : nullptr; for (unsigned i=0; i<nElems; ++i) { auto surfaceId = !materialIds ? 0 : ((*materialIds)[i] - bounds.first); MeshLib::Element* e (elements[i]); if (e->getGeomType() == MeshElemType::TRIANGLE) (*sfcs)[surfaceId]->addTriangle(id_map[e->getNodeIndex(0)], id_map[e->getNodeIndex(1)], id_map[e->getNodeIndex(2)]); if (e->getGeomType() == MeshElemType::QUAD) { (*sfcs)[surfaceId]->addTriangle(id_map[e->getNodeIndex(0)], id_map[e->getNodeIndex(1)], id_map[e->getNodeIndex(2)]); (*sfcs)[surfaceId]->addTriangle(id_map[e->getNodeIndex(0)], id_map[e->getNodeIndex(2)], id_map[e->getNodeIndex(3)]); } // all other element types are ignored (i.e. lines) } std::for_each(sfcs->begin(), sfcs->end(), [](GeoLib::Surface* sfc){ if (sfc->getNumberOfTriangles()==0) delete sfc; sfc = nullptr;}); auto sfcs_end = std::remove(sfcs->begin(), sfcs->end(), nullptr); sfcs->erase(sfcs_end, sfcs->end()); geo_objects.addSurfaceVec(std::move(sfcs), mesh_name); return true; }
void createSurfaces() { auto const points = geo_objects.getPointVec(geo_name); const std::vector<std::size_t> pnt_id_map( geo_objects.getPointVecObj(geo_name)->getIDMap()); auto sfcs = std::unique_ptr<std::vector<GeoLib::Surface*>>( new std::vector<GeoLib::Surface*>(2)); std::map<std::string, std::size_t>* sfc_names = new std::map<std::string, std::size_t>; (*sfcs)[0] = new GeoLib::Surface(*points); (*sfcs)[0]->addTriangle(pnt_id_map[0], pnt_id_map[3], pnt_id_map[1]); (*sfcs)[0]->addTriangle(pnt_id_map[1], pnt_id_map[3], pnt_id_map[4]); (*sfcs)[0]->addTriangle(pnt_id_map[1], pnt_id_map[4], pnt_id_map[2]); (*sfcs)[0]->addTriangle(pnt_id_map[2], pnt_id_map[4], pnt_id_map[5]); (*sfc_names)["FirstSurface"] = 0; (*sfcs)[1] = new GeoLib::Surface(*points); (*sfcs)[1]->addTriangle(pnt_id_map[3], pnt_id_map[6], pnt_id_map[8]); (*sfcs)[1]->addTriangle(pnt_id_map[3], pnt_id_map[8], pnt_id_map[5]); (*sfc_names)["SecondSurface"] = 1; geo_objects.addSurfaceVec(std::move(sfcs), geo_name, sfc_names); }