}
}
-Plant::Plant(const string& filename): simulator(filename), filename(filename) {
+Plant::Plant(const string& filename): simulator(filename), filename(filename),
+ wait_time(DEFAULT_WAIT_TIME), paused(true) {
#ifdef DEBUG
cerr << __FILE__ << "(" << __LINE__ << ")"
<< ": constructor. filename = " << filename << endl;
#endif // DEBUG
- // TODO plant
-/* simulator.add_pump("bomba1");
- simulator.add_conduct("c");
- simulator.add_conduct("c1");
- simulator.add_drainage("d");
- simulator.add_tank("tanque");
-
- simulator.connect("bomba1", "c", Model::IConector::OUT);
- simulator.connect("c", "tanque", Model::IConector::OUT);
- simulator.connect("tanque", "c1", Model::IConector::OUT);
- simulator.connect("c1", "d", Model::IConector::OUT);
-*/
}
void Plant::real_run(void) throw() {
cerr << __FILE__ << "(" << __LINE__ << ")"
<< ": real_run." << endl;
#endif // DEBUG
+ unsigned wait;
while (!stop()) {
- simulator_mutex.lock();
- simulator.simulate();
- string plantstatus = simulator.get_state_as_xml();
- simulator_mutex.unlock();
- transmissions_mutex.lock();
- for (TransmitterList::iterator i = transmissions.begin();
- i != transmissions.end(); i++) {
- (*i)->send(plantstatus);
+ if (paused) { // Si está pausada, espera un tiempo sin simular.
+ Glib::usleep(DEFAULT_WAIT_TIME);
+ } else { // Si está andando, simula y manda estado.
+ simulator_mutex.lock();
+ simulator.simulate();
+ string plantstatus = simulator.get_state_as_xml();
+ simulator_mutex.unlock();
+ transmissions_mutex.lock();
+ for (TransmitterList::iterator i = transmissions.begin();
+ i != transmissions.end(); i++) {
+ (*i)->send(plantstatus);
+ }
+ transmissions_mutex.unlock();
+ wait_time_mutex.lock();
+ wait = wait_time;
+ wait_time_mutex.unlock();
+ Glib::usleep(wait);
}
- transmissions_mutex.unlock();
- Glib::usleep(100000);
}
}
Transmitter* trans;
try {
trans = new Transmitter(host, port);
- } catch (const sockerr& e) { // TODO - Hace mas selectivo el catch?
+ } catch (const sockerr& e) {
#ifdef DEBUG
cerr << __FILE__ << "(" << __LINE__ << ")"
<< ": transmission_start ERROR (" << e.serrno()
<< "): " << e.errstr() << endl;
#endif // DEBUG
- //delete trans;
return false;
-// } catch (...) { // TODO - Hace mas selectivo el catch?
-//#ifdef DEBUG
-// cerr << __FILE__ << "(" << __LINE__ << ")"
-// << ": transmission_start ERROR: desconocido."
-// << endl;
-//#endif // DEBUG
-// //delete trans;
-// return false;
}
transmissions.push_back(trans);
trans->signal_finished().connect(SigC::bind(
#endif // DEBUG
ostringstream oss;
ifstream ifs(filename.c_str());
+ // FIXME Saco la línea de definición de XML (<?xml ?>), ver si esta hecho muy
+ // feo.
+ ifs.ignore(50, '\n'); // Ignora 50 caracteres o hasta un enter.
ifs >> oss.rdbuf();
return oss.str();
}
-/*
-bool Plant::transmission_exists(const string& host,
- const Connection::Port& port) {
- Glib::Mutex::Lock lock(transmissions_mutex);
- for (TransmitterList::const_iterator i = transmissions.begin();
- i != transmissions.end(); i++) {
- if (((*i)->get_host() == host) && ((*i)->get_oprt() == port)) {
- return true;
- }
- }
- return false; // No la encontró.
+void Plant::set_frequency(unsigned hz) {
+ Glib::Mutex::Lock lock(wait_time_mutex);
+ wait_time = hz ? (1000000u/hz) : DEFAULT_WAIT_TIME;
}
-*/
-
-//const std::string& Plant::get_filename(void) const {
-// return filename;
-//}
-/// \todo FIXME esto deberia estar protegido por un mutex.
-//Plant::SignalUpdated& Plant::signal_updated(void) {
-// return updated;
-//}
+void Plant::set_paused(bool paused_) {
+ Glib::Mutex::Lock lock(paused_mutex);
+ paused = paused_;
+}
} // namespace Server