libs/mpi/test/cartesian_topology_test.cpp
// Copyright Alain Miniussi 2014. // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // Authors: Alain Miniussi #include <vector> #include <iostream> #include <sstream> #include <iterator> #include <algorithm> #include <functional> #include <boost/mpi/communicator.hpp> #include <boost/mpi/collectives.hpp> #include <boost/mpi/environment.hpp> #include <boost/mpi/cartesian_communicator.hpp> #define BOOST_TEST_MODULE mpi_cartesian_topolohy #include <boost/test/included/unit_test.hpp> namespace mpi = boost::mpi; struct topo_minimum { mpi::cartesian_dimension operator()(mpi::cartesian_dimension const& d1, mpi::cartesian_dimension const& d2 ) const { return mpi::cartesian_dimension(std::min(d1.size, d2.size), d1.periodic && d2.periodic); } }; std::string topology_description( mpi::cartesian_topology const& topo ) { std::ostringstream out; std::copy(topo.begin(), topo.end(), std::ostream_iterator<mpi::cartesian_dimension>(out, " ")); out << std::flush; return out.str(); } // Check that everyone agrees on the coordinates void test_coordinates_consistency( mpi::cartesian_communicator const& cc, std::vector<int> const& coords ) { cc.barrier(); // flush IOs for nice printing bool master = cc.rank() == 0; if (master) { std::cout << "Test coordinates consistency.\n"; } for(int p = 0; p < cc.size(); ++p) { std::vector<int> min(cc.ndims()); std::vector<int> local(cc.coordinates(p)); mpi::reduce(cc, &local.front(), local.size(), &(min[0]), mpi::minimum<int>(), p); cc.barrier(); if (p == cc.rank()) { BOOST_CHECK(std::equal(coords.begin(), coords.end(), min.begin())); std::ostringstream out; out << "proc " << p << " at ("; std::copy(min.begin(), min.end(), std::ostream_iterator<int>(out, " ")); out << ")\n"; std::cout << out.str(); } } } void test_shifted_coords( mpi::cartesian_communicator const& cc, int pos, mpi::cartesian_dimension desc, int dim ) { if (desc.periodic) { for (int i = -(desc.size); i < desc.size; ++i) { std::pair<int,int> rks = cc.shifted_ranks(dim, i); int src = cc.coordinates(rks.first)[dim]; int dst = cc.coordinates(rks.second)[dim]; if (pos == (dim/2)) { std::ostringstream out; out << "Rank " << cc.rank() << ", dim. " << dim << ", pos " << pos << ", in " << desc << ' '; out << "shifted pos: " << src << ", " << dst << '\n'; std::cout << out.str(); } } } } void test_shifted_coords( mpi::cartesian_communicator const& cc) { cc.barrier(); // flush IOs for nice printing std::vector<int> coords; mpi::cartesian_topology topo(cc.ndims()); cc.topology(topo, coords); bool master = cc.rank() == 0; if (master) { std::cout << "Testing shifts with topology " << topo << '\n'; } for(int i = 0; i < cc.ndims(); ++i) { if (master) { std::cout << " for dimension " << i << ": " << topo[i] << '\n'; } test_shifted_coords( cc, coords[i], topo[i], i ); } } void test_topology_consistency( mpi::cartesian_communicator const& cc) { cc.barrier(); // flush IOs for nice printing mpi::cartesian_topology itopo(cc.ndims()); mpi::cartesian_topology otopo(cc.ndims()); std::vector<int> coords(cc.ndims()); cc.topology(itopo, coords); bool master = cc.rank() == 0; if (master) { std::cout << "Test topology consistency of" << itopo << "(on master)\n"; std::cout << "Check that everyone agrees on the dimensions.\n"; } mpi::all_reduce(cc, &(itopo[0]), itopo.size(), &(otopo[0]), topo_minimum()); BOOST_CHECK(std::equal(itopo.begin(), itopo.end(), otopo.begin())); if (master) { std::cout << "We agree on " << topology_description(otopo) << '\n'; } test_coordinates_consistency( cc, coords ); } void test_cartesian_topology( mpi::cartesian_communicator const& cc) { BOOST_CHECK(cc.has_cartesian_topology()); for( int r = 0; r < cc.size(); ++r) { cc.barrier(); if (r == cc.rank()) { std::vector<int> coords = cc.coordinates(r); std::cout << "Process of cartesian rank " << cc.rank() << " has coordinates ("; std::copy(coords.begin(), coords.end(), std::ostream_iterator<int>(std::cout," ")); std::cout << ")\n"; } } test_topology_consistency(cc); test_shifted_coords(cc); std::vector<int> even; for(int i = 0; i < cc.ndims(); i += 2) { even.push_back(i); } cc.barrier(); mpi::cartesian_communicator cce(cc, even); } void test_cartesian_topology( mpi::communicator const& world, mpi::cartesian_topology const& topo) { mpi::cartesian_communicator cc(world, topo, true); if (cc) { BOOST_CHECK(cc.has_cartesian_topology()); BOOST_CHECK(cc.ndims() == int(topo.size())); if (cc.rank() == 0) { std::cout << "Asked topology " << topo << ", got " << cc.topology() << '\n'; } test_cartesian_topology(cc); } else { std::ostringstream out; out << world.rank() << " was left outside the cartesian grid\n"; std::cout << out.str(); } } BOOST_AUTO_TEST_CASE(cartesian_topology) { mpi::environment env; mpi::communicator world; int const ndim = world.size() >= 24 ? 3 : 2; mpi::cartesian_topology topo(ndim); typedef mpi::cartesian_dimension cd; if (topo.size() == 3) { topo[0] = cd(2,true); topo[1] = cd(3,false); topo[2] = cd(4, true); } else { if (world.size() >= 6) { topo[0] = cd(2,true); topo[1] = cd(3, false); } else { topo[0] = cd(1,true); topo[1] = cd(1, false); } } test_cartesian_topology( world, topo); #if !defined(BOOST_NO_CXX11_DEFAULTED_MOVES) world.barrier(); if (world.rank()==0) { std::cout << "Testing move constructor.\n"; } test_cartesian_topology( world, std::move(topo)); #endif }