};
}
-typedef std::tuple</*sender*/ int, /* receiver */ int, /* tag */ int> req_key_t;
-typedef std::unordered_map<req_key_t, MPI_Request, hash_tuple::hash<std::tuple<int,int,int>>> req_storage_t;
+using req_key_t = std::tuple</*sender*/ int, /* receiver */ int, /* tag */ int>;
+using req_storage_t = std::unordered_map<req_key_t, MPI_Request, hash_tuple::hash<std::tuple<int, int, int>>>;
void log_timed_action(const simgrid::xbt::ReplayAction& action, double clock)
{
req_storage.remove(request);
if (request == MPI_REQUEST_NULL) {
- /* Assume that the trace is well formed, meaning the comm might have been caught by a MPI_test. Then just
+ /* Assume that the trace is well formed, meaning the comm might have been caught by an MPI_test. Then just
* return.*/
return;
}
unsigned int count_requests = storage[simgrid::s4u::this_actor::get_pid()].size();
XBT_DEBUG("There are %ud elements in reqq[*]", count_requests);
if (count_requests > 0) {
- auto* requests = new MPI_Request[count_requests];
+ std::vector<MPI_Request> requests(count_requests);
unsigned int i=0;
for (auto const& pair : storage[simgrid::s4u::this_actor::get_pid()].get_store()) {
requests[i] = pair.second;
i++;
}
- simgrid::smpi::Request::waitall(count_requests, requests, MPI_STATUSES_IGNORE);
- delete[] requests;
+ simgrid::smpi::Request::waitall(count_requests, requests.data(), MPI_STATUSES_IGNORE);
}
active_processes--;