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286 lines
10 KiB
C++
286 lines
10 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./lib/communicator/Communicator_none.cc
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Copyright (C) 2015
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Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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See the full license in the file "LICENSE" in the top level distribution directory
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*************************************************************************************/
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/* END LEGAL */
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#include <Grid/GridCore.h>
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#include <fcntl.h>
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#include <unistd.h>
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#include <limits.h>
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#include <sys/mman.h>
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namespace Grid {
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///////////////////////////////////////////////////////////////
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// Info that is setup once and indept of cartesian layout
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///////////////////////////////////////////////////////////////
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void * CartesianCommunicator::ShmCommBuf;
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uint64_t CartesianCommunicator::MAX_MPI_SHM_BYTES = 1024LL*1024LL*1024LL;
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CartesianCommunicator::CommunicatorPolicy_t
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CartesianCommunicator::CommunicatorPolicy= CartesianCommunicator::CommunicatorPolicyConcurrent;
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int CartesianCommunicator::nCommThreads = -1;
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int CartesianCommunicator::Hugepages = 0;
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/////////////////////////////////
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// Alloc, free shmem region
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/////////////////////////////////
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void *CartesianCommunicator::ShmBufferMalloc(size_t bytes){
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// bytes = (bytes+sizeof(vRealD))&(~(sizeof(vRealD)-1));// align up bytes
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void *ptr = (void *)heap_top;
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heap_top += bytes;
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heap_bytes+= bytes;
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if (heap_bytes >= MAX_MPI_SHM_BYTES) {
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std::cout<< " ShmBufferMalloc exceeded shared heap size -- try increasing with --shm <MB> flag" <<std::endl;
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std::cout<< " Parameter specified in units of MB (megabytes) " <<std::endl;
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std::cout<< " Current value is " << (MAX_MPI_SHM_BYTES/(1024*1024)) <<std::endl;
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assert(heap_bytes<MAX_MPI_SHM_BYTES);
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}
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return ptr;
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}
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void CartesianCommunicator::ShmBufferFreeAll(void) {
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heap_top =(size_t)ShmBufferSelf();
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heap_bytes=0;
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}
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/////////////////////////////////
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// Grid information queries
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/////////////////////////////////
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int CartesianCommunicator::Dimensions(void) { return _ndimension; };
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int CartesianCommunicator::IsBoss(void) { return _processor==0; };
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int CartesianCommunicator::BossRank(void) { return 0; };
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int CartesianCommunicator::ThisRank(void) { return _processor; };
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const std::vector<int> & CartesianCommunicator::ThisProcessorCoor(void) { return _processor_coor; };
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const std::vector<int> & CartesianCommunicator::ProcessorGrid(void) { return _processors; };
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int CartesianCommunicator::ProcessorCount(void) { return _Nprocessors; };
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////////////////////////////////////////////////////////////////////////////////
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// very VERY rarely (Log, serial RNG) we need world without a grid
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////////////////////////////////////////////////////////////////////////////////
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void CartesianCommunicator::GlobalSum(ComplexF &c)
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{
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GlobalSumVector((float *)&c,2);
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}
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void CartesianCommunicator::GlobalSumVector(ComplexF *c,int N)
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{
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GlobalSumVector((float *)c,2*N);
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}
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void CartesianCommunicator::GlobalSum(ComplexD &c)
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{
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GlobalSumVector((double *)&c,2);
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}
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void CartesianCommunicator::GlobalSumVector(ComplexD *c,int N)
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{
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GlobalSumVector((double *)c,2*N);
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}
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#if defined( GRID_COMMS_MPI) || defined (GRID_COMMS_MPIT)
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CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors,const CartesianCommunicator &parent)
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{
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_ndimension = processors.size();
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assert(_ndimension = parent._ndimension);
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// split the communicator
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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int Nparent;
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MPI_Comm_size(parent.communicator,&Nparent);
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int childsize=1;
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for(int d=0;d<processors.size();d++) {
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childsize *= processors[d];
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}
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int Nchild = Nparent/childsize;
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assert (childsize * Nchild == Nparent);
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std::vector<int> ccoor(_ndimension); // coor within subcommunicator
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std::vector<int> scoor(_ndimension); // coor of split within parent
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std::vector<int> ssize(_ndimension); // coor of split within parent
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for(int d=0;d<_ndimension;d++){
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ccoor[d] = parent._processor_coor[d] % processors[d];
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scoor[d] = parent._processor_coor[d] / processors[d];
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ssize[d] = parent._processors[d]/ processors[d];
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}
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int crank,srank; // rank within subcomm ; rank of subcomm within blocks of subcomms
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Lexicographic::IndexFromCoor(ccoor,crank,processors);
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Lexicographic::IndexFromCoor(scoor,srank,ssize);
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MPI_Comm comm_split;
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if ( Nchild > 1 ) {
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// std::cout << GridLogMessage<<"Child communicator of "<< std::hex << parent.communicator << std::dec<<std::endl;
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// std::cout << GridLogMessage<<" parent grid["<< parent._ndimension<<"] ";
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// for(int d=0;d<parent._processors.size();d++) std::cout << parent._processors[d] << " ";
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// std::cout<<std::endl;
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// std::cout << GridLogMessage<<" child grid["<< _ndimension <<"] ";
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// for(int d=0;d<processors.size();d++) std::cout << processors[d] << " ";
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// std::cout<<std::endl;
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int ierr= MPI_Comm_split(parent.communicator,srank,crank,&comm_split);
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assert(ierr==0);
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// Declare victory
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// std::cout << GridLogMessage<<"Divided communicator "<< parent._Nprocessors<<" into "
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// << Nchild <<" communicators with " << childsize << " ranks"<<std::endl;
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} else {
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comm_split=parent.communicator;
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}
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// Set up from the new split communicator
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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InitFromMPICommunicator(processors,comm_split);
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}
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// Take an MPI_Comm and self assemble
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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void CartesianCommunicator::InitFromMPICommunicator(const std::vector<int> &processors, MPI_Comm communicator_base)
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{
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// if ( communicator_base != communicator_world ) {
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// std::cout << "Cartesian communicator created with a non-world communicator"<<std::endl;
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// }
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_ndimension = processors.size();
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_processor_coor.resize(_ndimension);
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/////////////////////////////////
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// Count the requested nodes
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/////////////////////////////////
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_Nprocessors=1;
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_processors = processors;
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for(int i=0;i<_ndimension;i++){
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_Nprocessors*=_processors[i];
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}
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std::vector<int> periodic(_ndimension,1);
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MPI_Cart_create(communicator_base, _ndimension,&_processors[0],&periodic[0],1,&communicator);
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MPI_Comm_rank(communicator,&_processor);
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MPI_Cart_coords(communicator,_processor,_ndimension,&_processor_coor[0]);
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int Size;
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MPI_Comm_size(communicator,&Size);
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#ifdef GRID_COMMS_MPIT
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communicator_halo.resize (2*_ndimension);
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for(int i=0;i<_ndimension*2;i++){
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MPI_Comm_dup(communicator,&communicator_halo[i]);
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}
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#endif
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assert(Size==_Nprocessors);
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}
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CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors)
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{
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InitFromMPICommunicator(processors,communicator_world);
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}
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#endif
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#if !defined( GRID_COMMS_MPI3)
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int CartesianCommunicator::NodeCount(void) { return ProcessorCount();};
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int CartesianCommunicator::RankCount(void) { return ProcessorCount();};
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#endif
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#if !defined( GRID_COMMS_MPI3) && !defined (GRID_COMMS_MPIT)
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double CartesianCommunicator::StencilSendToRecvFrom( void *xmit,
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int xmit_to_rank,
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void *recv,
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int recv_from_rank,
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int bytes, int dir)
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{
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std::vector<CommsRequest_t> list;
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// Discard the "dir"
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SendToRecvFromBegin (list,xmit,xmit_to_rank,recv,recv_from_rank,bytes);
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SendToRecvFromComplete(list);
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return 2.0*bytes;
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}
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double CartesianCommunicator::StencilSendToRecvFromBegin(std::vector<CommsRequest_t> &list,
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void *xmit,
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int xmit_to_rank,
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void *recv,
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int recv_from_rank,
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int bytes, int dir)
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{
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// Discard the "dir"
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SendToRecvFromBegin(list,xmit,xmit_to_rank,recv,recv_from_rank,bytes);
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return 2.0*bytes;
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}
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void CartesianCommunicator::StencilSendToRecvFromComplete(std::vector<CommsRequest_t> &waitall,int dir)
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{
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SendToRecvFromComplete(waitall);
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}
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#endif
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#if !defined( GRID_COMMS_MPI3)
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void CartesianCommunicator::StencilBarrier(void){};
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commVector<uint8_t> CartesianCommunicator::ShmBufStorageVector;
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void *CartesianCommunicator::ShmBufferSelf(void) { return ShmCommBuf; }
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void *CartesianCommunicator::ShmBuffer(int rank) {
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return NULL;
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}
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void *CartesianCommunicator::ShmBufferTranslate(int rank,void * local_p) {
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return NULL;
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}
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void CartesianCommunicator::ShmInitGeneric(void){
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#if 1
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int mmap_flag =0;
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#ifdef MAP_ANONYMOUS
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mmap_flag = mmap_flag| MAP_SHARED | MAP_ANONYMOUS;
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#endif
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#ifdef MAP_ANON
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mmap_flag = mmap_flag| MAP_SHARED | MAP_ANON;
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#endif
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#ifdef MAP_HUGETLB
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if ( Hugepages ) mmap_flag |= MAP_HUGETLB;
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#endif
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ShmCommBuf =(void *) mmap(NULL, MAX_MPI_SHM_BYTES, PROT_READ | PROT_WRITE, mmap_flag, -1, 0);
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if (ShmCommBuf == (void *)MAP_FAILED) {
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perror("mmap failed ");
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exit(EXIT_FAILURE);
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}
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#ifdef MADV_HUGEPAGE
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if (!Hugepages ) madvise(ShmCommBuf,MAX_MPI_SHM_BYTES,MADV_HUGEPAGE);
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#endif
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#else
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ShmBufStorageVector.resize(MAX_MPI_SHM_BYTES);
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ShmCommBuf=(void *)&ShmBufStorageVector[0];
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#endif
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bzero(ShmCommBuf,MAX_MPI_SHM_BYTES);
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}
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#endif
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}
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