// -*- c++ -*- // // Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana // University Research and Technology // Corporation. All rights reserved. // Copyright (c) 2004-2005 The University of Tennessee and The University // of Tennessee Research Foundation. All rights // reserved. // Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, // University of Stuttgart. All rights reserved. // Copyright (c) 2004-2005 The Regents of the University of California. // All rights reserved. // Copyright (c) 2007 Sun Microsystems, Inc. All rights reserved. // Copyright (c) 2011 FUJITSU LIMITED. All rights reserved. // $COPYRIGHT$ // // Additional copyrights may follow // // $HEADER$ // // // ======== Cartcomm member functions ======== // inline MPI::Cartcomm::Cartcomm(const MPI_Comm& data) { int status = 0; if (MPI::Is_initialized() && (data != MPI_COMM_NULL)) { (void)MPI_Topo_test(data, &status) ; if (status == MPI_CART) mpi_comm = data; else mpi_comm = MPI_COMM_NULL; } else { mpi_comm = data; } } // // Groups, Contexts, and Communicators // inline MPI::Cartcomm MPI::Cartcomm::Dup() const { MPI_Comm newcomm; (void)MPI_Comm_dup(mpi_comm, &newcomm); return newcomm; } // // Process Topologies // inline int MPI::Cartcomm::Get_dim() const { int ndims; (void)MPI_Cartdim_get(mpi_comm, &ndims); return ndims; } inline void MPI::Cartcomm::Get_topo(int maxdims, int dims[], bool periods[], int coords[]) const { int *int_periods = new int [maxdims]; int i; for (i=0; i(coords), &rank); return rank; } inline void MPI::Cartcomm::Get_coords(int rank, int maxdims, int coords[]) const { (void)MPI_Cart_coords(mpi_comm, rank, maxdims, coords); } inline void MPI::Cartcomm::Shift(int direction, int disp, int &rank_source, int &rank_dest) const { (void)MPI_Cart_shift(mpi_comm, direction, disp, &rank_source, &rank_dest); } inline MPI::Cartcomm MPI::Cartcomm::Sub(const bool remain_dims[]) const { int ndims; MPI_Cartdim_get(mpi_comm, &ndims); int* int_remain_dims = new int[ndims]; for (int i=0; i(dims), int_periods, &newrank); delete [] int_periods; return newrank; } inline MPI::Cartcomm& MPI::Cartcomm::Clone() const { MPI_Comm newcomm; (void)MPI_Comm_dup(mpi_comm, &newcomm); MPI::Cartcomm* dup = new MPI::Cartcomm(newcomm); return *dup; } // // ======== Graphcomm member functions ======== // inline MPI::Graphcomm::Graphcomm(const MPI_Comm& data) { int status = 0; if (MPI::Is_initialized() && (data != MPI_COMM_NULL)) { (void)MPI_Topo_test(data, &status) ; if (status == MPI_GRAPH) mpi_comm = data; else mpi_comm = MPI_COMM_NULL; } else { mpi_comm = data; } } // // Groups, Contexts, and Communicators // inline MPI::Graphcomm MPI::Graphcomm::Dup() const { MPI_Comm newcomm; (void)MPI_Comm_dup(mpi_comm, &newcomm); return newcomm; } // // Process Topologies // inline void MPI::Graphcomm::Get_dims(int nnodes[], int nedges[]) const { (void)MPI_Graphdims_get(mpi_comm, nnodes, nedges); } inline void MPI::Graphcomm::Get_topo(int maxindex, int maxedges, int index[], int edges[]) const { (void)MPI_Graph_get(mpi_comm, maxindex, maxedges, index, edges); } inline int MPI::Graphcomm::Get_neighbors_count(int rank) const { int nneighbors; (void)MPI_Graph_neighbors_count(mpi_comm, rank, &nneighbors); return nneighbors; } inline void MPI::Graphcomm::Get_neighbors(int rank, int maxneighbors, int neighbors[]) const { (void)MPI_Graph_neighbors(mpi_comm, rank, maxneighbors, neighbors); } inline int MPI::Graphcomm::Map(int nnodes, const int index[], const int edges[]) const { int newrank; (void)MPI_Graph_map(mpi_comm, nnodes, const_cast(index), const_cast(edges), &newrank); return newrank; } inline MPI::Graphcomm& MPI::Graphcomm::Clone() const { MPI_Comm newcomm; (void)MPI_Comm_dup(mpi_comm, &newcomm); MPI::Graphcomm* dup = new MPI::Graphcomm(newcomm); return *dup; }