#ifdef NG_PYTHON #include <../general/ngpython.hpp> #include #ifdef WIN32 #define DLL_HEADER __declspec(dllexport) #endif using namespace netgen; namespace netgen { //extern shared_ptr mesh; extern shared_ptr ng_geometry; } DLL_HEADER void ExportSTL(py::module & m) { py::class_, NetgenGeometry> (m,"STLGeometry") .def(py::init<>()) .def("_visualizationData", [](shared_ptr stl_geo) { std::vector vertices; std::vector trigs; std::vector normals; std::vector min = {std::numeric_limits::max(), std::numeric_limits::max(), std::numeric_limits::max()}; std::vector max = {std::numeric_limits::lowest(), std::numeric_limits::lowest(), std::numeric_limits::lowest()}; std::vector surfnames; surfnames.push_back("stl"); vertices.reserve(stl_geo->GetNT()*3*3); trigs.reserve(stl_geo->GetNT()*4); normals.reserve(stl_geo->GetNT()*3*3); size_t ii = 0; for(int i = 0; i < stl_geo->GetNT(); i++) { auto& trig = stl_geo->GetTriangle(i+1); for(int k = 0; k < 3; k++) { trigs.push_back(ii++); auto& pnt = stl_geo->GetPoint(trig[k]); for (int l = 0; l < 3; l++) { float val = pnt[l]; vertices.push_back(val); min[l] = min2(min[l], val); max[l] = max2(max[l], val); normals.push_back(trig.Normal()[l]); } } trigs.push_back(0); } py::gil_scoped_acquire ac; py::dict res; py::list snames; for(auto name : surfnames) snames.append(py::cast(name)); res["vertices"] = MoveToNumpy(vertices); res["triangles"] = MoveToNumpy(trigs); res["normals"] = MoveToNumpy(normals); res["surfnames"] = snames; res["min"] = MoveToNumpy(min); res["max"] = MoveToNumpy(max); return res; }, py::call_guard()) ; m.def("LoadSTLGeometry", FunctionPointer([] (const string & filename) { ifstream ist(filename); return shared_ptr(STLGeometry::Load(ist)); }),py::call_guard()); m.def("GenerateMesh", FunctionPointer([] (shared_ptr geo, MeshingParameters ¶m) { auto mesh = make_shared(); SetGlobalMesh(mesh); mesh->SetGeometry(geo); ng_geometry = geo; try { geo->GenerateMesh(mesh,param); } catch (NgException ex) { cout << "Caught NgException: " << ex.What() << endl; } return mesh; }),py::call_guard()) ; } PYBIND11_MODULE(libstl, m) { ExportSTL(m); } #endif