// opengc.cxx - Network interface program to send data to display processor over LAN // // Created by: J. Wojnaroski -- castle@mminternet.com // Date: 21 Nov 2001 // // Extended from original network code developed by C. Olson // // Modified 12/02/01 - Update engine structure for multi-engine models // - Added data preamble to id msg types // // Modified 01/23/02 - Converted portions of the Engine and Gear accesssors to properties // - Removed data from navigation functions. OpenGC provides own nav functions // // Modified 03/05/03 - Modified to reduce need to search property tree for each node per frame // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include "opengc.hxx" #include #include
#include
using std::vector; FGOpenGC::FGOpenGC() : press_node(fgGetNode("/environment/pressure-inhg[0]", true)), temp_node(fgGetNode("/environment/temperature-degc[0]", true)), wind_dir_node(fgGetNode("/environment/wind-from-heading-deg[0]", true)), wind_speed_node(fgGetNode("/environment/wind-speed-kt[0]", true)), magvar_node(fgGetNode("/environment/magnetic-variation-deg[0]", true)), p_latitude(fgGetNode("/position/latitude-deg", true)), p_longitude(fgGetNode("/position/longitude-deg", true)), p_elev_node(fgGetNode("/position/altitude-ft", true)), p_altitude_agl(fgGetNode("/position/altitude-agl-ft", true)), p_pitch(fgGetNode("/orientation/pitch-deg[0]", true)), p_bank(fgGetNode("/orientation/roll-deg[0]", true)), p_heading(fgGetNode("/orientation/heading-magnetic-deg[0]", true)), p_yaw(fgGetNode("/fdm/jsbsim/aero/beta-rad[0]", true)), p_yaw_rate(fgGetNode("/fdm/jsbsim/aero/betadot-rad_sec[0]", true)), vel_kcas(fgGetNode("/velocities/airspeed-kt[0]", true)), p_vvi(fgGetNode("/velocities/vertical-speed-fps[0]", true )), p_mach(fgGetNode("/velocities/mach[0]", true )), p_left_aileron(fgGetNode("surface-positions/left-aileron-pos-norm", true)), p_right_aileron(fgGetNode("surface-positions/right-aileron-pos-norm", true)), p_elevator(fgGetNode("surface-positions/elevator-pos-norm", true)), p_elevator_trim(fgGetNode("surface-positions/elevator_trim-pos-norm", true)), p_rudder(fgGetNode("surface-positions/rudder-pos-norm", true)), p_flaps(fgGetNode("surface-positions/flap-pos-norm", true)), p_flaps_cmd(fgGetNode("/controls/flight/flaps", true)), p_park_brake(fgGetNode("/controls/gear/brake-parking", true)), egt0_node(fgGetNode("/engines/engine/EGT_degC[0]", true)), egt1_node(fgGetNode("/engines/engine[1]/EGT_degC[0]", true)), egt2_node(fgGetNode("/engines/engine[2]/EGT_degC[0]", true)), egt3_node(fgGetNode("/engines/engine[3]/EGT_degC[0]", true)), epr0_node(fgGetNode("/engines/engine/EPR[0]", true)), epr1_node(fgGetNode("/engines/engine[1]/EPR[0]", true)), epr2_node(fgGetNode("/engines/engine[2]/EPR[0]", true)), epr3_node(fgGetNode("/engines/engine[3]/EPR[0]", true)), n10_node(fgGetNode("/engines/engine/N1[0]", true)), n11_node(fgGetNode("/engines/engine[1]/N1[0]", true)), n12_node(fgGetNode("/engines/engine[2]/N1[0]", true)), n13_node(fgGetNode("/engines/engine[3]/N1[0]", true)), n20_node(fgGetNode("/engines/engine/N2[0]", true)), n21_node(fgGetNode("/engines/engine[1]/N2[0]", true)), n22_node(fgGetNode("/engines/engine[2]/N2[0]", true)), n23_node(fgGetNode("/engines/engine[3]/N2[0]", true)), oil_temp0(fgGetNode("engines/engine/oil-temp-degF[0]", true)), oil_temp1(fgGetNode("engines/engine[1]/oil-temp-degF[0]", true)), oil_temp2(fgGetNode("engines/engine[2]/oil-temp-degF[0]", true)), oil_temp3(fgGetNode("engines/engine[3]/oil-temp-degF[0]", true)), tank0_node(fgGetNode("/consumables/fuel/tank/level-lb[0]", true)), tank1_node(fgGetNode("/consumables/fuel/tank[1]/level-lb[0]", true)), tank2_node(fgGetNode("/consumables/fuel/tank[2]/level-lb[0]", true)), tank3_node(fgGetNode("/consumables/fuel/tank[3]/level-lb[0]", true)), tank4_node(fgGetNode("/consumables/fuel/tank[4]/level-lb[0]", true)), tank5_node(fgGetNode("/consumables/fuel/tank[5]/level-lb[0]", true)), tank6_node(fgGetNode("/consumables/fuel/tank[6]/level-lb[0]", true)), tank7_node(fgGetNode("/consumables/fuel/tank[7]/level-lb[0]", true)), p_alphadot(fgGetNode("/fdm/jsbsim/aero/alphadot-rad_sec[0]", true)), p_betadot(fgGetNode("/fdm/jsbsim/aero/betadot-rad_sec[0]", true)) { fdm = new FlightProperties; } FGOpenGC::~FGOpenGC() { delete fdm; } // open hailing frequencies bool FGOpenGC::open() { if ( is_enabled() ) { SG_LOG( SG_IO, SG_ALERT, "This shouldn't happen, but the channel " << "is already in use, ignoring" ); return false; } SGIOChannel *io = get_io_channel(); if ( ! io->open( get_direction() ) ) { SG_LOG( SG_IO, SG_ALERT, "Error opening channel communication layer." ); return false; } set_enabled( true ); return true; } //static void collect_data( const FGInterface *fdm, ogcFGData *data ) { void FGOpenGC::collect_data(ogcFGData *data ) { data->version_id = OGC_VERSION; data->longitude = p_longitude->getDoubleValue(); data->latitude = p_latitude->getDoubleValue(); data->elevation = p_elev_node->getDoubleValue(); data->magvar = magvar_node->getDoubleValue(); data->pitch = p_pitch->getDoubleValue(); data->bank = p_bank->getDoubleValue(); data->heading = p_heading->getDoubleValue(); //data->altitude = p_altitude->getDoubleValue(); data->altitude_agl = p_altitude_agl->getDoubleValue(); data->vvi = p_vvi->getDoubleValue(); data->mach = p_mach->getDoubleValue(); data->groundspeed = fdm->get_V_ground_speed(); data->v_keas = fdm->get_V_equiv_kts(); data->v_kcas = vel_kcas->getDoubleValue(); data->phi_dot = fdm->get_Phi_dot(); data->theta_dot = fdm->get_Theta_dot(); data->psi_dot = fdm->get_Psi_dot(); data->alpha = fdm->get_Alpha(); data->beta = p_yaw->getDoubleValue(); data->alpha_dot = p_alphadot->getDoubleValue(); data->beta_dot = p_yaw_rate->getDoubleValue(); //data->rudder_trim = p_Controls->get_rudder_trim(); data->parking_brake = p_park_brake->getDoubleValue(); data->left_aileron = p_left_aileron->getDoubleValue(); data->right_aileron = p_right_aileron->getDoubleValue(); data->elevator = p_elevator->getDoubleValue(); data->elevator_trim = p_elevator_trim->getDoubleValue(); data->rudder = p_rudder->getDoubleValue(); data->flaps = p_flaps->getDoubleValue(); data->flaps_cmd = p_flaps_cmd->getDoubleValue(); data->gear_nose = fgGetDouble("gear/gear[0]/position-norm[0]"); data->gear_left = fgGetDouble("gear/gear[1]/position-norm[0]"); data->gear_right = fgGetDouble("gear/gear[2]/position-norm[0]"); data->gear_left_rear = fgGetDouble("gear/gear[3]/position-norm[0]"); data->gear_right_rear = fgGetDouble("gear/gear[4]/position-norm[0]"); data->parking_brake = p_park_brake->getDoubleValue(); data->wow_main = fgGetBool("gear/gear[1]/wow[0]") && fgGetBool("gear/gear[2]/wow[0]"); data->wow_nose = fgGetBool("gear/gear[0]/wow[0]"); //cout << "Nose " << data->wow_nose << " Main " << wow_main << endl; //data->rpm[0] = fgGetDouble("/engines/engine[0]/rpm"); //data->rpm[1] = fgGetDouble("/engines/engine[1]/rpm"); data->epr[0] = epr0_node->getDoubleValue(); data->epr[1] = epr1_node->getDoubleValue(); data->epr[2] = epr2_node->getDoubleValue(); data->epr[3] = epr3_node->getDoubleValue(); data->egt[0] = egt0_node->getDoubleValue(); data->egt[1] = egt1_node->getDoubleValue(); data->egt[2] = egt2_node->getDoubleValue(); data->egt[3] = egt3_node->getDoubleValue(); data->n2_turbine[0] = n20_node->getDoubleValue(); data->n2_turbine[1] = n21_node->getDoubleValue(); data->n2_turbine[2] = n22_node->getDoubleValue(); data->n2_turbine[3] = n23_node->getDoubleValue(); data->n1_turbine[0] = n10_node->getDoubleValue(); data->n1_turbine[1] = n11_node->getDoubleValue(); data->n1_turbine[2] = n12_node->getDoubleValue(); data->n1_turbine[3] = n13_node->getDoubleValue(); // This is really lbs/hr (pph), converted in FGSimTurbine data->fuel_flow[0] = fgGetDouble("/engines/engine[0]/fuel-flow-gph"); data->fuel_flow[1] = fgGetDouble("/engines/engine[1]/fuel-flow-gph"); data->fuel_flow[2] = fgGetDouble("/engines/engine[2]/fuel-flow-gph"); data->fuel_flow[3] = fgGetDouble("/engines/engine[3]/fuel-flow-gph"); data->oil_pressure[0] = fgGetDouble("/engines/engine[0]/oil-pressure-psi"); data->oil_pressure[1] = fgGetDouble("/engines/engine[1]/oil-pressure-psi"); data->oil_pressure[2] = fgGetDouble("/engines/engine[2]/oil-pressure-psi"); data->oil_pressure[3] = fgGetDouble("/engines/engine[3]/oil-pressure-psi"); //data->oil_temp[0] = fgGetDouble("/engines/engine[0]/oil-temperature-degf"); //data->oil_temp[1] = fgGetDouble("/engines/engine[1]/oil-temperature-degf"); //data->oil_temp[2] = fgGetDouble("/engines/engine[2]/oil-temperature-degf"); //data->oil_temp[3] = fgGetDouble("/engines/engine[3]/oil-temperature-degf"); data->oil_temp[0] = oil_temp0->getDoubleValue(); data->oil_temp[1] = oil_temp1->getDoubleValue(); data->oil_temp[2] = oil_temp2->getDoubleValue(); data->oil_temp[3] = oil_temp3->getDoubleValue(); data->hyd_pressure[0] = fgGetDouble("/engines/engine[0]/hyd-pressure-psi"); data->hyd_pressure[1] = fgGetDouble("/engines/engine[1]/hyd-pressure-psi"); data->hyd_pressure[2] = fgGetDouble("/engines/engine[2]/hyd-pressure-psi"); data->hyd_pressure[3] = fgGetDouble("/engines/engine[3]/hyd-pressure-psi"); // just a temp thing until htdraulic model built // data->hyd_pressure[0] = 2750.0; // data->hyd_pressure[1] = 2755.0; // data->hyd_pressure[2] = 2747.0; // data->hyd_pressure[3] = 2851.0; //data->man_pressure[0] = fgGetDouble("/engines/engine[0]/mp-osi"); //data->man_pressure[1] = fgGetDouble("/engines/engine[1]/mp-osi"); data->fuel_tank[0] = tank0_node->getDoubleValue() * 0.001; data->fuel_tank[1] = tank1_node->getDoubleValue() * 0.001; data->fuel_tank[2] = tank2_node->getDoubleValue() * 0.001; data->fuel_tank[3] = tank3_node->getDoubleValue() * 0.001; data->fuel_tank[4] = tank4_node->getDoubleValue() * 0.001; data->fuel_tank[5] = tank5_node->getDoubleValue() * 0.001; // 747 stab tank data->fuel_tank[6] = tank6_node->getDoubleValue() * 0.001; // 747 res2 tank data->fuel_tank[7] = tank7_node->getDoubleValue() * 0.001; // 747 res3 tank double total_fuel = 0.0; for ( int t= 0; t<8; t++ ) total_fuel += data->fuel_tank[t]; data->fuel_tank[8] = total_fuel; //data->fuel_tank[8] = 386000.0; // total fuel load //cout << endl << "Send " << data->fuel_tank[0] << endl; /********* data->boost_pumps[0] = boost1_node->getBoolValue(); data->boost_pumps[1] = boost2_node->getBoolValue(); data->boost_pumps[2] = boost3_node->getBoolValue(); data->boost_pumps[3] = boost4_node->getBoolValue(); data->boost_pumps[4] = boost5_node->getBoolValue(); data->boost_pumps[5] = boost6_node->getBoolValue(); data->boost_pumps[6] = boost7_node->getBoolValue(); data->boost_pumps[7] = boost8_node->getBoolValue(); data->over_ride_pumps[0] = ovride0_node->getBoolValue(); data->over_ride_pumps[1] = ovride1_node->getBoolValue(); data->over_ride_pumps[2] = ovride2_node->getBoolValue(); data->over_ride_pumps[3] = ovride3_node->getBoolValue(); data->over_ride_pumps[4] = ovride4_node->getBoolValue(); data->over_ride_pumps[5] = ovride5_node->getBoolValue(); data->x_feed_valve[0] = x_feed0_node->getBoolValue(); data->x_feed_valve[1] = x_feed1_node->getBoolValue(); data->x_feed_valve[2] = x_feed2_node->getBoolValue(); data->x_feed_valve[3] = x_feed3_node->getBoolValue(); **********/ data->total_temperature = fdm->get_Total_temperature(); data->total_pressure = fdm->get_Total_pressure(); data->dynamic_pressure = fdm->get_Dynamic_pressure(); data->static_pressure = press_node->getDoubleValue(); data->static_temperature = temp_node->getDoubleValue(); data->wind = wind_speed_node->getDoubleValue(); data->wind_dir = wind_dir_node->getDoubleValue(); data->sea_level_pressure = fgGetDouble("/environment/sea-level-pressure-inhg"); } static void distribute_data( const ogcFGData *data ) { // just a place holder until the CDU is developed } // process work for this port bool FGOpenGC::process() { SGIOChannel *io = get_io_channel(); int length = sizeof(buf); if ( get_direction() == SG_IO_OUT ) { collect_data( &buf ); //collect_data( &buf ); if ( ! io->write( (char *)(& buf), length ) ) { SG_LOG( SG_IO, SG_ALERT, "Error writing data." ); return false; } } else if ( get_direction() == SG_IO_IN ) { if ( io->get_type() == sgFileType ) { if ( io->read( (char *)(& buf), length ) == length ) { SG_LOG( SG_IO, SG_DEBUG, "Success reading data." ); distribute_data( &buf ); } } else { while ( io->read( (char *)(& buf), length ) == length ) { SG_LOG( SG_IO, SG_DEBUG, "Success reading data." ); distribute_data( &buf ); } } } return true; } // close the channel bool FGOpenGC::close() { SGIOChannel *io = get_io_channel(); set_enabled( false ); if ( ! io->close() ) { return false; } return true; }