libs/mpi/test/test_scatter.cpp
// Copyright (C) 2005, 2006 Douglas Gregor. // Use, modification and distribution is subject to 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) // A test of the scatter() and scatterv() collectives. #include <iterator> #include <boost/mpi/collectives/scatter.hpp> #include <boost/mpi/collectives/scatterv.hpp> #include <boost/mpi/communicator.hpp> #include <boost/mpi/environment.hpp> #include "gps_position.hpp" #include <boost/serialization/string.hpp> #include <boost/serialization/list.hpp> #include <boost/iterator/counting_iterator.hpp> #include <boost/lexical_cast.hpp> #include "mpi_test_utils.hpp" using namespace boost::mpi; template<typename Generator> int scatter_test(const communicator& comm, Generator generator, const char* kind, int root = -1) { typedef typename Generator::result_type value_type; int failed = 0; if (root == -1) { for (root = 0; root < comm.size(); ++root) scatter_test(comm, generator, kind, root); } else { using boost::mpi::scatter; value_type value; if (comm.rank() == root) { std::vector<value_type> values; for (int p = 0; p < comm.size(); ++p) values.push_back(generator(p)); std::cout << "Scattering " << kind << " from root " << root << "..." << std::endl; scatter(comm, values, value, root); } else { scatter(comm, value, root); } BOOST_MPI_CHECK(value == generator(comm.rank()), failed); } comm.barrier(); return failed; } // // Generators to test with scatter/scatterv // struct int_generator { typedef int result_type; int operator()(int p) const { return 17 + p; } }; struct gps_generator { typedef gps_position result_type; gps_position operator()(int p) const { return gps_position(39 + p, 16, 20.2799); } }; struct string_generator { typedef std::string result_type; std::string operator()(int p) const { std::string result = boost::lexical_cast<std::string>(p); result += " rosebud"; if (p != 1) result += 's'; return result; } }; struct string_list_generator { typedef std::list<std::string> result_type; std::list<std::string> operator()(int p) const { std::list<std::string> result; for (int i = 0; i <= p; ++i) { std::string value = boost::lexical_cast<std::string>(i); result.push_back(value); } return result; } }; std::ostream& operator<<(std::ostream& out, std::list<std::string> const& l) { out << '['; std::copy(l.begin(), l.end(), std::ostream_iterator<std::string>(out, " ")); out << ']'; return out; } template<typename Generator> int scatterv_test(const communicator& comm, Generator generator, const char* kind, int root = -1) { typedef typename Generator::result_type value_type; int failed = 0; if (root == -1) { for (root = 0; root < comm.size(); ++root) scatterv_test(comm, generator, kind, root); } else { using boost::mpi::scatterv; int mysize = comm.rank() + 1; std::vector<value_type> myvalues(mysize); if (comm.rank() == root) { std::vector<value_type> values; std::vector<int> sizes(comm.size()); // process p will receive p+1 identical generator(p) elements for (int p = 0; p < comm.size(); ++p) { for (int i = 0; i < p+1; ++i) values.push_back(generator(p)); sizes[p] = p + 1; } std::cout << "Scatteringv " << kind << " from root " << root << "..." << std::endl; assert(mysize == sizes[comm.rank()]); scatterv(comm, values, sizes, &(myvalues[0]), root); } else { scatterv(comm, &(myvalues[0]), mysize, root); } for (int i = 0; i < mysize; ++i) BOOST_MPI_CHECK(myvalues[i] == generator(comm.rank()), failed); } comm.barrier(); return failed; } template<typename Generator> int scatterd_test(const communicator& comm, Generator generator, const char* kind, int root = -1) { typedef typename Generator::result_type value_type; int failed = 0; if (root == -1) { for (root = 0; root < comm.size(); ++root) scatterv_test(comm, generator, kind, root); } else { using boost::mpi::scatterv; int mysize = comm.rank() + 1; std::vector<value_type> myvalues(mysize); if (comm.rank() == root) { std::vector<value_type> values; std::vector<int> sizes(comm.size()); std::vector<int> displs(comm.size()); value_type noise = generator(comm.size()+1); // process p will receive a payload of p+1 identical generator(p) elements // root will insert pseudo random pading between each payload. int shift = 0; // the current position of next payload in source array for (int p = 0; p < comm.size(); ++p) { int size = p+1; int pad = p % 3; // padding for (int i = 0; i < pad; ++i) { values.push_back(noise); } // payload for (int i = 0; i < size; ++i) values.push_back(generator(p)); shift += pad; displs[p] = shift; sizes[p] = size; shift += size; } std::cout << "Scatteringv " << kind << " from root " << root << "..." << std::endl; assert(mysize == sizes[comm.rank()]); scatterv(comm, values, sizes, displs, &(myvalues[0]), mysize, root); } else { scatterv(comm, &(myvalues[0]), mysize, root); } for (int i = 0; i < mysize; ++i) BOOST_MPI_CHECK(myvalues[i] == generator(comm.rank()), failed); } comm.barrier(); return failed; } int main() { environment env; communicator comm; int failed = 0; BOOST_MPI_COUNT_FAILED(scatter_test(comm, int_generator(), "integers"), failed); BOOST_MPI_COUNT_FAILED(scatter_test(comm, gps_generator(), "GPS positions"), failed); BOOST_MPI_COUNT_FAILED(scatter_test(comm, string_generator(), "string"), failed); BOOST_MPI_COUNT_FAILED(scatter_test(comm, string_list_generator(), "list of strings"), failed); BOOST_MPI_COUNT_FAILED(scatterv_test(comm, int_generator(), "integers"), failed); BOOST_MPI_COUNT_FAILED(scatterv_test(comm, gps_generator(), "GPS positions"), failed); BOOST_MPI_COUNT_FAILED(scatterv_test(comm, string_generator(), "string"), failed); BOOST_MPI_COUNT_FAILED(scatterv_test(comm, string_list_generator(), "list of strings"), failed); BOOST_MPI_COUNT_FAILED(scatterd_test(comm, int_generator(), "integers"), failed); BOOST_MPI_COUNT_FAILED(scatterd_test(comm, gps_generator(), "GPS positions"), failed); BOOST_MPI_COUNT_FAILED(scatterd_test(comm, string_generator(), "string"), failed); BOOST_MPI_COUNT_FAILED(scatterd_test(comm, string_list_generator(), "list of strings"), failed); return failed; }