// Copyright 2005 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 communicator that transmits skeletons and // content for data types. #include #include #include #include #include #include #include #include #define BOOST_TEST_MODULE mpi_skeleton_content #include using boost::mpi::communicator; using boost::mpi::packed_skeleton_iarchive; using boost::mpi::packed_skeleton_oarchive; void test_skeleton_and_content(const communicator& comm, int root, bool manual_broadcast) { using boost::mpi::skeleton; using boost::mpi::content; using boost::mpi::get_content; using boost::make_counting_iterator; using boost::mpi::broadcast; int list_size = comm.size() + 7; if (comm.rank() == root) { // Fill in the seed data std::list original_list; for (int i = 0; i < list_size; ++i) original_list.push_back(i); std::cout << "Broadcasting integer list skeleton from root " << root << "..."; if (manual_broadcast) { // Broadcast the skeleton (manually) for (int p = 0; p < comm.size(); ++p) if (p != root) comm.send(p, 0, skeleton(original_list)); } else { broadcast(comm, skeleton(original_list), root); } std::cout << "OK." << std::endl; // Broadcast the content (manually) std::cout << "Broadcasting integer list content from root " << root << "..."; { content c = get_content(original_list); for (int p = 0; p < comm.size(); ++p) if (p != root) comm.send(p, 1, c); } std::cout << "OK." << std::endl; // Reverse the list, broadcast the content again std::reverse(original_list.begin(), original_list.end()); std::cout << "Broadcasting reversed integer list content from root " << root << "..."; { content c = get_content(original_list); for (int p = 0; p < comm.size(); ++p) if (p != root) comm.send(p, 2, c); } std::cout << "OK." << std::endl; } else { // Allocate some useless data, to try to get the addresses of the // list's used later to be different across processes. std::list junk_list(comm.rank() * 3 + 1, 17); // Receive the skeleton to build up the transferred list std::list transferred_list; if (manual_broadcast) { comm.recv(root, 0, skeleton(transferred_list)); } else { broadcast(comm, skeleton(transferred_list), root); } BOOST_CHECK((int)transferred_list.size() == list_size); // Receive the content and check it comm.recv(root, 1, get_content(transferred_list)); BOOST_CHECK(std::equal(make_counting_iterator(0), make_counting_iterator(list_size), transferred_list.begin())); // Receive the reversed content and check it comm.recv(root, 2, get_content(transferred_list)); BOOST_CHECK(std::equal(make_counting_iterator(0), make_counting_iterator(list_size), transferred_list.rbegin())); } (comm.barrier)(); } void test_skeleton_and_content_nonblocking(const communicator& comm, int root) { using boost::mpi::skeleton; using boost::mpi::content; using boost::mpi::get_content; using boost::make_counting_iterator; using boost::mpi::broadcast; using boost::mpi::request; using boost::mpi::wait_all; int list_size = comm.size() + 7; if (comm.rank() == root) { // Fill in the seed data std::list original_list; for (int i = 0; i < list_size; ++i) original_list.push_back(i); std::cout << "Non-blocking broadcast of integer list skeleton from root " << root << "..."; // Broadcast the skeleton (manually) { std::vector reqs; for (int p = 0; p < comm.size(); ++p) if (p != root) reqs.push_back(comm.isend(p, 0, skeleton(original_list))); wait_all(reqs.begin(), reqs.end()); } std::cout << "OK." << std::endl; // Broadcast the content (manually) std::cout << "Non-blocking broadcast of integer list content from root " << root << "..."; { content c = get_content(original_list); std::vector reqs; for (int p = 0; p < comm.size(); ++p) if (p != root) reqs.push_back(comm.isend(p, 1, c)); wait_all(reqs.begin(), reqs.end()); } std::cout << "OK." << std::endl; // Reverse the list, broadcast the content again std::reverse(original_list.begin(), original_list.end()); std::cout << "Non-blocking broadcast of reversed integer list content from root " << root << "..."; { std::vector reqs; content c = get_content(original_list); for (int p = 0; p < comm.size(); ++p) if (p != root) reqs.push_back(comm.isend(p, 2, c)); wait_all(reqs.begin(), reqs.end()); } std::cout << "OK." << std::endl; } else { // Allocate some useless data, to try to get the addresses of the // list's used later to be different across processes. std::list junk_list(comm.rank() * 3 + 1, 17); // Receive the skeleton to build up the transferred list std::list transferred_list; request req = comm.irecv(root, 0, skeleton(transferred_list)); req.wait(); BOOST_CHECK((int)transferred_list.size() == list_size); // Receive the content and check it req = comm.irecv(root, 1, get_content(transferred_list)); req.wait(); BOOST_CHECK(std::equal(make_counting_iterator(0), make_counting_iterator(list_size), transferred_list.begin())); // Receive the reversed content and check it req = comm.irecv(root, 2, get_content(transferred_list)); req.wait(); BOOST_CHECK(std::equal(make_counting_iterator(0), make_counting_iterator(list_size), transferred_list.rbegin())); } (comm.barrier)(); } BOOST_AUTO_TEST_CASE(sendrecv) { boost::mpi::environment env; communicator comm; BOOST_TEST_REQUIRE(comm.size() > 1); test_skeleton_and_content(comm, 0, true); test_skeleton_and_content(comm, 0, false); test_skeleton_and_content(comm, 1, true); test_skeleton_and_content(comm, 1, false); test_skeleton_and_content_nonblocking(comm, 0); test_skeleton_and_content_nonblocking(comm, 1); }