#include

#include #include "adf.hxx" #include #include #include #include #include using std::string; // Use a bigger number to be more responsive, or a smaller number // to be more sluggish. #define RESPONSIVENESS 0.5 /** * Fiddle with the reception range a bit. * * TODO: better reception at night (??). */ static double adjust_range (double transmitter_elevation_ft, double aircraft_altitude_ft, double max_range_nm) { double delta_elevation_ft = aircraft_altitude_ft - transmitter_elevation_ft; double range_nm = max_range_nm; // kludge slightly better reception at // altitude if (delta_elevation_ft < 0) delta_elevation_ft = 200; if (delta_elevation_ft <= 1000) range_nm *= sqrt(delta_elevation_ft / 1000); else if (delta_elevation_ft >= 5000) range_nm *= sqrt(delta_elevation_ft / 5000); if (range_nm >= max_range_nm * 3) range_nm = max_range_nm * 3; double rand = sg_random(); return range_nm + (range_nm * rand * rand); } ADF::ADF (SGPropertyNode *node ) : _name(node->getStringValue("name", "adf")), _num(node->getIntValue("number", 0)), _time_before_search_sec(0), _last_frequency_khz(-1), _transmitter_valid(false), _transmitter_pos(SGGeod::fromDeg(0, 0)), _transmitter_cart(0, 0, 0), _transmitter_range_nm(0), _ident_count(0), _last_ident_time(0), _last_volume(-1), _sgr(0) { } ADF::~ADF () { } void ADF::init () { string branch; branch = "/instrumentation/" + _name; SGPropertyNode *node = fgGetNode(branch.c_str(), _num, true ); // instrument properties _error_node = node->getChild("error-deg", 0, true); _mode_node = node->getChild("mode", 0, true); _volume_node = node->getChild("volume-norm", 0, true); _in_range_node = node->getChild("in-range", 0, true); _bearing_node = node->getChild("indicated-bearing-deg", 0, true); _ident_node = node->getChild("ident", 0, true); _ident_audible_node = node->getChild("ident-audible", 0, true); _serviceable_node = node->getChild("serviceable", 0, true); _power_btn_node = node->getChild("power-btn", 0, true); _operable_node = node->getChild("operable", 0, true); // frequency properties SGPropertyNode *fnode = node->getChild("frequencies", 0, true); _frequency_node = fnode->getChild("selected-khz", 0, true); // foreign simulator properties _electrical_node = fgGetNode("/systems/electrical/outputs/adf", true); _heading_node = fgGetNode("/orientation/heading-deg", true); // backward compatibility check if (_power_btn_node->getType() == simgear::props::NONE) _power_btn_node->setBoolValue(true); // front end didn't implement a power button // sound support (audible ident code) SGSoundMgr *smgr = globals->get_subsystem(); _sgr = smgr->find("avionics", true); _sgr->tie_to_listener(); std::ostringstream temp; temp << _name << _num; _adf_ident = temp.str(); } void ADF::update (double delta_time_sec) { // If it's off, don't waste any time. if (_electrical_node->getDoubleValue() < 8.0 || !_serviceable_node->getBoolValue() || !_power_btn_node->getBoolValue() ) { _in_range_node->setBoolValue(false); _operable_node->setBoolValue(false); _ident_node->setStringValue(""); return; } _operable_node->setBoolValue(true); string mode = _mode_node->getStringValue(); if (mode == "ant" || mode == "test") set_bearing(delta_time_sec, 90); if (mode != "bfo" && mode != "adf") { _in_range_node->setBoolValue(false); _ident_node->setStringValue(""); return; } // Get the frequency int frequency_khz = _frequency_node->getIntValue(); if (frequency_khz != _last_frequency_khz) { _time_before_search_sec = 0; _last_frequency_khz = frequency_khz; } SGGeod acPos(globals->get_aircraft_position()); // On timeout, scan again _time_before_search_sec -= delta_time_sec; if (_time_before_search_sec < 0) search(frequency_khz, acPos); if (!_transmitter_valid) { _in_range_node->setBoolValue(false); _ident_node->setStringValue(""); return; } // Calculate the bearing to the transmitter SGVec3d location = globals->get_aircraft_position_cart(); double distance_nm = dist(_transmitter_cart, location) * SG_METER_TO_NM; double range_nm = adjust_range(_transmitter_pos.getElevationFt(), acPos.getElevationFt(), _transmitter_range_nm); if (distance_nm <= range_nm) { double bearing, az2, s; double heading = _heading_node->getDoubleValue(); geo_inverse_wgs_84(acPos, _transmitter_pos, &bearing, &az2, &s); _in_range_node->setBoolValue(true); _ident_node->setStringValue(_last_ident); bearing -= heading; if (bearing < 0) bearing += 360; set_bearing(delta_time_sec, bearing); // adf ident sound float volume; if ( _ident_audible_node->getBoolValue() ) volume = _volume_node->getFloatValue(); else volume = 0.0; if ( volume != _last_volume ) { _last_volume = volume; SGSoundSample *sound; sound = _sgr->find( _adf_ident ); if ( sound != NULL ) sound->set_volume( volume ); else SG_LOG( SG_INSTR, SG_ALERT, "Can't find adf-ident sound" ); } time_t cur_time = globals->get_time_params()->get_cur_time(); if ( _last_ident_time < cur_time - 30 ) { _last_ident_time = cur_time; _ident_count = 0; } if ( _ident_count < 4 ) { if ( !_sgr->is_playing(_adf_ident) && (volume > 0.05) ) { _sgr->play_once( _adf_ident ); ++_ident_count; } } } else { _in_range_node->setBoolValue(false); _ident_node->setStringValue(""); _sgr->stop( _adf_ident ); } } void ADF::search (double frequency_khz, const SGGeod& pos) { string ident = ""; // reset search time _time_before_search_sec = 1.0; FGNavList::TypeFilter filter(FGPositioned::NDB); FGNavRecord *nav = FGNavList::findByFreq(frequency_khz, pos, &filter); _transmitter_valid = (nav != NULL); if ( _transmitter_valid ) { ident = nav->get_trans_ident(); if ( ident != _last_ident ) { _transmitter_pos = nav->geod(); _transmitter_cart = nav->cart(); _transmitter_range_nm = nav->get_range(); } } if ( _last_ident != ident ) { _last_ident = ident; _ident_node->setStringValue(ident.c_str()); if ( _sgr->exists( _adf_ident ) ) { // stop is required! -- remove alone wouldn't stop immediately _sgr->stop( _adf_ident ); _sgr->remove( _adf_ident ); } SGSoundSample *sound; sound = FGMorse::instance()->make_ident( ident, FGMorse::LO_FREQUENCY ); sound->set_volume(_last_volume = 0); _sgr->add( sound, _adf_ident ); int offset = (int)(sg_random() * 30.0); _ident_count = offset / 4; _last_ident_time = globals->get_time_params()->get_cur_time() - offset; } } void ADF::set_bearing (double dt, double bearing_deg) { double old_bearing_deg = _bearing_node->getDoubleValue(); while ((bearing_deg - old_bearing_deg) >= 180) old_bearing_deg += 360; while ((bearing_deg - old_bearing_deg) <= -180) old_bearing_deg -= 360; bearing_deg += _error_node->getDoubleValue(); bearing_deg = fgGetLowPass(old_bearing_deg, bearing_deg, dt * RESPONSIVENESS); _bearing_node->setDoubleValue(bearing_deg); } // end of adf.cxx