#ifdef PARALLEL #include #include #include #include "ng_mpi.hpp" #include "ngstream.hpp" #ifdef NG_PYTHON #include "python_ngcore.hpp" #endif // NG_PYTHON #include "utils.hpp" using std::cerr; using std::cout; using std::endl; #ifndef NG_MPI_WRAPPER #ifdef NG_PYTHON #define MPI4PY_LIMITED_API 1 #define MPI4PY_LIMITED_API_SKIP_MESSAGE 1 #define MPI4PY_LIMITED_API_SKIP_SESSION 1 #include "mpi4py_pycapi.h" // mpi4py < 4.0.0 #endif // NG_PYTHON #endif // NG_MPI_WRAPPER namespace ngcore { #ifdef NG_MPI_WRAPPER static std::unique_ptr mpi_lib, ng_mpi_lib; static bool need_mpi_finalize = false; struct MPIFinalizer { ~MPIFinalizer() { if (need_mpi_finalize) { cout << IM(5) << "Calling MPI_Finalize" << endl; NG_MPI_Finalize(); } } } mpi_finalizer; bool MPI_Loaded() { return ng_mpi_lib != nullptr; } void InitMPI(std::optional mpi_lib_path) { if (ng_mpi_lib) return; cout << IM(3) << "InitMPI" << endl; std::string vendor = ""; std::string mpi4py_lib_file = ""; if (mpi_lib_path) { // Dynamic load of given shared MPI library // Then call MPI_Init, read the library version and set the vender name try { typedef int (*init_handle)(int *, char ***); typedef int (*mpi_initialized_handle)(int *); mpi_lib = std::make_unique(*mpi_lib_path, std::nullopt, true); auto mpi_init = mpi_lib->GetSymbol("MPI_Init"); auto mpi_initialized = mpi_lib->GetSymbol("MPI_Initialized"); int flag = 0; mpi_initialized(&flag); if (!flag) { typedef const char *pchar; int argc = 1; pchar args[] = {"netgen", nullptr}; pchar *argv = &args[0]; cout << IM(5) << "Calling MPI_Init" << endl; mpi_init(&argc, (char ***)argv); need_mpi_finalize = true; } char c_version_string[65536]; c_version_string[0] = '\0'; int result_len = 0; typedef void (*get_version_handle)(char *, int *); auto get_version = mpi_lib->GetSymbol("MPI_Get_library_version"); get_version(c_version_string, &result_len); std::string version = c_version_string; if (version.substr(0, 8) == "Open MPI") vendor = "Open MPI"; else if (version.substr(0, 5) == "MPICH") vendor = "MPICH"; else if (version.substr(0, 13) == "Microsoft MPI") vendor = "Microsoft MPI"; else if (version.substr(0, 12) == "Intel(R) MPI") vendor = "Intel MPI"; else throw std::runtime_error( std::string("Unknown MPI version: " + version)); } catch (std::runtime_error &e) { cerr << "Could not load MPI: " << e.what() << endl; throw e; } } else { #ifdef NG_PYTHON // Use mpi4py to init MPI library and get the vendor name auto mpi4py = py::module::import("mpi4py.MPI"); vendor = mpi4py.attr("get_vendor")()[py::int_(0)].cast(); #ifndef WIN32 // Load mpi4py library (it exports all MPI symbols) to have all MPI symbols // available before the ng_mpi wrapper is loaded This is not necessary on // windows as the matching mpi dll is linked to the ng_mpi wrapper directly mpi4py_lib_file = mpi4py.attr("__file__").cast(); mpi_lib = std::make_unique(mpi4py_lib_file, std::nullopt, true); #endif // WIN32 #endif // NG_PYTHON } std::string ng_lib_name = ""; if (vendor == "Open MPI") ng_lib_name = "ng_openmpi"; else if (vendor == "MPICH") ng_lib_name = "ng_mpich"; else if (vendor == "Microsoft MPI") ng_lib_name = "ng_microsoft_mpi"; else if (vendor == "Intel MPI") ng_lib_name = "ng_intel_mpi"; else throw std::runtime_error("Unknown MPI vendor: " + vendor); ng_lib_name += NETGEN_SHARED_LIBRARY_SUFFIX; // Load the ng_mpi wrapper and call ng_init_mpi to set all function pointers typedef void (*ng_init_handle)(); ng_mpi_lib = std::make_unique(ng_lib_name); ng_mpi_lib->GetSymbol("ng_init_mpi")(); std::cout << IM(3) << "MPI wrapper loaded, vendor: " << vendor << endl; } static std::runtime_error no_mpi() { return std::runtime_error("MPI not enabled"); } #ifdef NG_PYTHON decltype(NG_MPI_CommFromMPI4Py) NG_MPI_CommFromMPI4Py = [](py::handle py_obj, NG_MPI_Comm &ng_comm) -> bool { // If this gets called, it means that we want to convert an mpi4py // communicator to a Netgen MPI communicator, but the Netgen MPI wrapper // runtime was not yet initialized. // store the current address of this function auto old_converter_address = NG_MPI_CommFromMPI4Py; // initialize the MPI wrapper runtime, this sets all the function pointers InitMPI(); // if the initialization was successful, the function pointer should have // changed // -> call the actual conversion function if (NG_MPI_CommFromMPI4Py != old_converter_address) return NG_MPI_CommFromMPI4Py(py_obj, ng_comm); // otherwise, something strange happened throw no_mpi(); }; decltype(NG_MPI_CommToMPI4Py) NG_MPI_CommToMPI4Py = [](NG_MPI_Comm) -> py::handle { throw no_mpi(); }; #endif // NG_PYTHON #include "ng_mpi_generated_dummy_init.hpp" #else // NG_MPI_WRAPPER static bool imported_mpi4py = false; #ifdef NG_PYTHON decltype(NG_MPI_CommFromMPI4Py) NG_MPI_CommFromMPI4Py = [](py::handle src, NG_MPI_Comm &dst) -> bool { if (!imported_mpi4py) { import_mpi4py__MPI(); imported_mpi4py = true; } PyObject *py_src = src.ptr(); auto type = Py_TYPE(py_src); if (PyObject_TypeCheck(py_src, &PyMPIComm_Type)) { dst = *PyMPIComm_Get(py_src); return !PyErr_Occurred(); } return false; }; decltype(NG_MPI_CommToMPI4Py) NG_MPI_CommToMPI4Py = [](NG_MPI_Comm src) -> py::handle { if (!imported_mpi4py) { import_mpi4py__MPI(); imported_mpi4py = true; } return py::handle(PyMPIComm_New(src)); }; #endif // NG_PYTHON bool MPI_Loaded() { return true; } void InitMPI(std::optional) {} #endif // NG_MPI_WRAPPER } // namespace ngcore #endif // PARALLEL