Flag status; /**< is the parmap active or being destroyed? */
unsigned work_round; /**< index of the current round */
- xbt_os_thread_t* workers; /**< worker thread handlers */
+ std::vector<std::thread*> workers; /**< worker thread handlers */
unsigned num_workers; /**< total number of worker threads including the controller */
Synchro* synchro; /**< synchronization object */
/* Initialize the thread pool data structure */
this->status = PARMAP_WORK;
this->work_round = 0;
- this->workers = new xbt_os_thread_t[num_workers];
+ this->workers.reserve(num_workers);
this->num_workers = num_workers;
this->synchro = new_synchro(mode);
/* Create the pool of worker threads (the caller of apply() will be worker[0]) */
this->workers[0] = nullptr;
- unsigned int core_bind = 0;
+ XBT_ATTRIB_UNUSED unsigned int core_bind = 0;
+
for (unsigned i = 1; i < num_workers; i++) {
- ThreadData* data = new ThreadData(*this, i);
- this->workers[i] = xbt_os_thread_create(worker_main, data);
- xbt_os_thread_bind(this->workers[i], core_bind);
+ this->workers[i] = new std::thread(worker_main, new ThreadData(*this, i));
+
+ /* Bind the worker to a core if possible */
+#if HAVE_PTHREAD_SETAFFINITY
+ pthread_t pthread = this->workers[i]->native_handle();
+ cpu_set_t cpuset;
+ CPU_ZERO(&cpuset);
+ CPU_SET(core_bind, &cpuset);
+ pthread_setaffinity_np(pthread, sizeof(cpu_set_t), &cpuset);
if (core_bind != std::thread::hardware_concurrency() - 1)
core_bind++;
else
core_bind = 0;
+#endif
}
}
synchro->master_signal();
for (unsigned i = 1; i < num_workers; i++)
- xbt_os_thread_join(workers[i], nullptr);
+ workers[i]->join();
- delete[] workers;
+ workers.clear();
delete synchro;
}