void
nonblocking_test(const communicator& comm, const T* values, int num_values,
const char* kind, method_kind method = mk_all)
{
using boost::mpi::wait_any;
using boost::mpi::test_any;
using boost::mpi::wait_all;
using boost::mpi::test_all;
using boost::mpi::wait_some;
using boost::mpi::test_some;
if (method == mk_all || method == mk_all_except_test_all) {
nonblocking_test(comm, values, num_values, kind, mk_wait_any);
nonblocking_test(comm, values, num_values, kind, mk_test_any);
nonblocking_test(comm, values, num_values, kind, mk_wait_all);
nonblocking_test(comm, values, num_values, kind, mk_wait_all_keep);
if (method == mk_all) {
nonblocking_test(comm, values, num_values, kind, mk_test_all);
nonblocking_test(comm, values, num_values, kind, mk_test_all_keep);
}
nonblocking_test(comm, values, num_values, kind, mk_wait_some);
nonblocking_test(comm, values, num_values, kind, mk_wait_some_keep);
nonblocking_test(comm, values, num_values, kind, mk_test_some);
nonblocking_test(comm, values, num_values, kind, mk_test_some_keep);
} else {
if (comm.rank() == 0) {
std::cout << "Testing " << method_kind_names[method]
<< " with " << kind << "...";
std::cout.flush();
}
typedef std::pair<status, std::vector<request>::iterator>
status_iterator_pair;
T incoming_value;
std::vector<T> incoming_values(num_values);
std::vector<request> reqs;
// Send/receive the first value
reqs.push_back(comm.isend((comm.rank() + 1) % comm.size(), 0, values[0]));
reqs.push_back(comm.irecv((comm.rank() + comm.size() - 1) % comm.size(),
0, incoming_value));
if (method != mk_wait_any && method != mk_test_any) {
#ifndef LAM_MPI
// We've run into problems here (with 0-length messages) with
// LAM/MPI on Mac OS X and x86-86 Linux. Will investigate
// further at a later time, but the problem only seems to occur
// when using shared memory, not TCP.
// Send/receive an empty message
reqs.push_back(comm.isend((comm.rank() + 1) % comm.size(), 1));
reqs.push_back(comm.irecv((comm.rank() + comm.size() - 1) % comm.size(),
1));
#endif
// Send/receive an array
reqs.push_back(comm.isend((comm.rank() + 1) % comm.size(), 2, values,
num_values));
reqs.push_back(comm.irecv((comm.rank() + comm.size() - 1) % comm.size(),
2, &incoming_values.front(), num_values));
}
switch (method) {
case mk_wait_any:
if (wait_any(reqs.begin(), reqs.end()).second == reqs.begin())
reqs[1].wait();
else
reqs[0].wait();
break;
case mk_test_any:
{
boost::optional<status_iterator_pair> result;
do {
result = test_any(reqs.begin(), reqs.end());
} while (!result);
if (result->second == reqs.begin())
reqs[1].wait();
else
reqs[0].wait();
break;
}
case mk_wait_all:
wait_all(reqs.begin(), reqs.end());
break;
case mk_wait_all_keep:
{
std::vector<status> stats;
wait_all(reqs.begin(), reqs.end(), std::back_inserter(stats));
}
break;
case mk_test_all:
while (!test_all(reqs.begin(), reqs.end())) { /* Busy wait */ }
break;
case mk_test_all_keep:
{
std::vector<status> stats;
while (!test_all(reqs.begin(), reqs.end(), std::back_inserter(stats)))
/* Busy wait */;
}
break;
case mk_wait_some:
{
std::vector<request>::iterator pos = reqs.end();
do {
pos = wait_some(reqs.begin(), pos);
} while (pos != reqs.begin());
}
break;
case mk_wait_some_keep:
{
std::vector<status> stats;
std::vector<request>::iterator pos = reqs.end();
do {
pos = wait_some(reqs.begin(), pos, std::back_inserter(stats)).second;
} while (pos != reqs.begin());
}
break;
case mk_test_some:
{
std::vector<request>::iterator pos = reqs.end();
do {
pos = test_some(reqs.begin(), pos);
} while (pos != reqs.begin());
}
break;
case mk_test_some_keep:
{
std::vector<status> stats;
std::vector<request>::iterator pos = reqs.end();
do {
pos = test_some(reqs.begin(), pos, std::back_inserter(stats)).second;
} while (pos != reqs.begin());
}
break;
default:
BOOST_CHECK(false);
}
if (comm.rank() == 0) {
bool okay = true;
if (!((incoming_value == values[0])))
okay = false;
if (method != mk_wait_any && method != mk_test_any
&& !std::equal(incoming_values.begin(), incoming_values.end(),
values))
okay = false;
if (okay)
std::cout << "OK." << std::endl;
else
std::cerr << "ERROR!" << std::endl;
}
BOOST_CHECK(incoming_value == values[0]);
if (method != mk_wait_any && method != mk_test_any)
BOOST_CHECK(std::equal(incoming_values.begin(), incoming_values.end(),
values));
}
}
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<int> 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<request> 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<request> 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<request> 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<int>'s used later to be different across processes.
std::list<int> junk_list(comm.rank() * 3 + 1, 17);
// Receive the skeleton to build up the transferred list
std::list<int> 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)();
}
