/*! \file ep_create.cpp \since 2 may 2016 \brief Definitions of MPI endpoint function: MPI_Comm_create_endpoints */ #include "ep_lib.hpp" #include #include "ep_declaration.hpp" #include "ep_mpi.hpp" using namespace std; namespace ep_lib { /*! Dynamic creation of endpoints for each MPI process. The output of this function is an array of communicator handles of length num_ep, where each handle corresponds to a nez local randk in the output communicator. Once created, endpoints behave as MPI processes. \param [in] mpi_comm Parent MPI communicator. \param [in] num_ep Number of endpoints per process. \param [out] info Information of the EP creation. \param [out] out_comm_hdls Handles of EP communicators. */ int MPI_Comm_create_endpoints(void* base_comm_ptr, int num_ep, MPI_Info info, MPI_Comm *& out_comm_hdls) { int base_rank; int base_size; ::MPI_Comm mpi_base_comm = to_mpi_comm(base_comm_ptr); ::MPI_Comm_size(mpi_base_comm, &base_size); // ep_lib::mpi_comm_size ::MPI_Comm_rank(mpi_base_comm, &base_rank); // ep_lib::mpi_comm_rank // parent_comm can also be endpoints communicators std::vector recv_num_ep(base_size); out_comm_hdls = new MPI_Comm[num_ep]; for (int idx = 0; idx < num_ep; ++idx) { out_comm_hdls[idx] = new ep_comm; out_comm_hdls[idx]->is_ep = true; out_comm_hdls[idx]->is_intercomm = false; out_comm_hdls[idx]->ep_comm_ptr = new ep_communicator; *(static_cast< ::MPI_Comm*>(out_comm_hdls[idx]->mpi_comm)) = *(static_cast< ::MPI_Comm*>(base_comm_ptr)); out_comm_hdls[idx]->ep_comm_ptr->comm_list = out_comm_hdls; out_comm_hdls[idx]->ep_comm_ptr->comm_label = 0; } ::MPI_Allgather(&num_ep, 1, to_mpi_type(MPI_INT), &recv_num_ep[0], 1, to_mpi_type(MPI_INT), mpi_base_comm); int sum = 0; // representing total ep number of process with smaller rank for (int i = 0; i < base_rank; ++i) {sum += recv_num_ep[i]; } int ep_size = std::accumulate(recv_num_ep.begin(), recv_num_ep.end(), 0); out_comm_hdls[0]->ep_barrier = new ep_barrier(num_ep); out_comm_hdls[0]->my_buffer = new BUFFER; out_comm_hdls[0]->ep_rank_map = new EP_RANK_MAP; for (int i = 1; i < num_ep; i++) { out_comm_hdls[i]->ep_barrier = out_comm_hdls[0]->ep_barrier; out_comm_hdls[i]->my_buffer = out_comm_hdls[0]->my_buffer; out_comm_hdls[i]->ep_rank_map= out_comm_hdls[0]->ep_rank_map; } for (int i = 0; i < num_ep; i++) { out_comm_hdls[i]->ep_comm_ptr->size_rank_info[0] = std::make_pair(sum+i, ep_size); out_comm_hdls[i]->ep_comm_ptr->size_rank_info[1] = std::make_pair(i, num_ep); out_comm_hdls[i]->ep_comm_ptr->size_rank_info[2] = std::make_pair(base_rank, base_size); out_comm_hdls[i]->ep_comm_ptr->message_queue = new Message_list; } int ind = 0; for(int i=0; irank_map->at(ind) = make_pair(j, i); out_comm_hdls[0]->ep_rank_map->insert(std::pair< int, std::pair >(ind, j, i)); ind++; } } return 0; } //MPI_Comm_create_endpoints } //namespace ep_lib