// marker_beacon.cxx -- class to manage the marker beacons // // Written by Curtis Olson, started April 2000. // // Copyright (C) 2000 Curtis L. Olson - curt@flightgear.org // // 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., 675 Mass Ave, Cambridge, MA 02139, USA. // // $Id$ #ifdef HAVE_CONFIG_H # include #endif #include // snprintf #include #include #include #include #include "marker_beacon.hxx" #include SG_USING_STD(string); // Constructor FGMarkerBeacon::FGMarkerBeacon() : lon_node(fgGetNode("/position/longitude-deg", true)), lat_node(fgGetNode("/position/latitude-deg", true)), alt_node(fgGetNode("/position/altitude-ft", true)), bus_power(fgGetNode("/systems/electrical/outputs/navcom[0]", true)), power_btn(fgGetNode("/radios/marker-beacon/power-btn", true)), audio_btn(fgGetNode("/radios/marker-beacon/audio-btn", true)), serviceable(fgGetNode("/instrumentation/marker-beacons/serviceable", true)), need_update(true), outer_blink(false), middle_blink(false), inner_blink(false) { SGPath path( globals->get_fg_root() ); SGPath term = path; term.append( "Navaids/range.term" ); SGPath low = path; low.append( "Navaids/range.low" ); SGPath high = path; high.append( "Navaids/range.high" ); term_tbl = new SGInterpTable( term.str() ); low_tbl = new SGInterpTable( low.str() ); high_tbl = new SGInterpTable( high.str() ); power_btn->setBoolValue( true ); audio_btn->setBoolValue( true ); serviceable->setBoolValue( true ); } // Destructor FGMarkerBeacon::~FGMarkerBeacon() { delete term_tbl; delete low_tbl; delete high_tbl; } void FGMarkerBeacon::init () { morse.init(); beacon.init(); blink.stamp(); } void FGMarkerBeacon::bind () { fgTie("/radios/marker-beacon/inner", this, &FGMarkerBeacon::get_inner_blink); fgTie("/radios/marker-beacon/middle", this, &FGMarkerBeacon::get_middle_blink); fgTie("/radios/marker-beacon/outer", this, &FGMarkerBeacon::get_outer_blink); } void FGMarkerBeacon::unbind () { fgUntie("/radios/marker-beacon/inner"); fgUntie("/radios/marker-beacon/middle"); fgUntie("/radios/marker-beacon/outer"); } // Update the various nav values based on position and valid tuned in navs void FGMarkerBeacon::update(double dt) { need_update = false; if ( has_power() && serviceable->getBoolValue() ) { // marker beacon blinking bool light_on = ( outer_blink || middle_blink || inner_blink ); SGTimeStamp current; current.stamp(); if ( light_on && (current - blink > 400000) ) { light_on = false; blink.stamp(); } else if ( !light_on && (current - blink > 100000) ) { light_on = true; blink.stamp(); } if ( outer_marker ) { outer_blink = light_on; } else { outer_blink = false; } if ( middle_marker ) { middle_blink = light_on; } else { middle_blink = false; } if ( inner_marker ) { inner_blink = light_on; } else { inner_blink = false; } // cout << outer_blink << " " << middle_blink << " " // << inner_blink << endl; } else { inner_blink = middle_blink = outer_blink = false; } } static bool check_beacon_range( double lon_rad, double lat_rad, double elev_m, FGNavRecord *b ) { Point3D aircraft = sgGeodToCart( Point3D(lon_rad, lat_rad, elev_m) ); Point3D station = Point3D( b->get_x(), b->get_y(), b->get_z() ); // cout << " aircraft = " << aircraft << " station = " << station // << endl; double d = aircraft.distance3Dsquared( station ); // meters^2 // cout << " distance = " << d << " (" // << FG_ILS_DEFAULT_RANGE * SG_NM_TO_METER // * FG_ILS_DEFAULT_RANGE * SG_NM_TO_METER // << ")" << endl; // cout << " range = " << sqrt(d) << endl; // cout << "elev = " << elev * SG_METER_TO_FEET // << " current->get_elev() = " << current->get_elev() << endl; double elev_ft = elev_m * SG_METER_TO_FEET; double delev = elev_ft - b->get_elev_ft(); // max range is the area under r = 2.4 * alt or r^2 = 4000^2 - alt^2 // whichever is smaller. The intersection point is 1538 ... double maxrange2; // feet^2 if ( delev < 1538.0 ) { maxrange2 = 2.4 * 2.4 * delev * delev; } else if ( delev < 4000.0 ) { maxrange2 = 4000 * 4000 - delev * delev; } else { maxrange2 = 0.0; } maxrange2 *= SG_FEET_TO_METER * SG_FEET_TO_METER; // convert to meter^2 // cout << "delev = " << delev << " maxrange = " << maxrange << endl; // match up to twice the published range so we can model // reduced signal strength if ( d < maxrange2 ) { return true; } else { return false; } } // Update current nav/adf radio stations based on current postition void FGMarkerBeacon::search() { static fgMkrBeacType last_beacon = NOBEACON; double lon_rad = lon_node->getDoubleValue() * SGD_DEGREES_TO_RADIANS; double lat_rad = lat_node->getDoubleValue() * SGD_DEGREES_TO_RADIANS; double elev_m = alt_node->getDoubleValue() * SG_FEET_TO_METER; //////////////////////////////////////////////////////////////////////// // Beacons. //////////////////////////////////////////////////////////////////////// // get closest marker beacon FGNavRecord *b = globals->get_mkrlist()->findClosest( lon_rad, lat_rad, elev_m ); // cout << "marker beacon = " << b << " (" << b->get_type() << ")" << endl; fgMkrBeacType beacon_type = NOBEACON; bool inrange = false; if ( b != NULL ) { if ( b->get_type() == 7 ) { beacon_type = OUTER; } else if ( b->get_type() == 8 ) { beacon_type = MIDDLE; } else if ( b->get_type() == 9 ) { beacon_type = INNER; } inrange = check_beacon_range( lon_rad, lat_rad, elev_m, b ); // cout << " inrange = " << inrange << endl; } outer_marker = middle_marker = inner_marker = false; if ( b == NULL || !inrange || !has_power() || !serviceable->getBoolValue() ) { // cout << "no marker" << endl; globals->get_soundmgr()->stop( "outer-marker" ); globals->get_soundmgr()->stop( "middle-marker" ); globals->get_soundmgr()->stop( "inner-marker" ); } else if ( beacon_type == OUTER ) { outer_marker = true; // cout << "OUTER MARKER" << endl; if ( last_beacon != OUTER ) { if ( ! globals->get_soundmgr()->exists( "outer-marker" ) ) { SGSoundSample *sound = beacon.get_outer(); sound->set_volume( 0.3 ); globals->get_soundmgr()->add( sound, "outer-marker" ); } } if ( audio_btn->getBoolValue() ) { if ( !globals->get_soundmgr()->is_playing("outer-marker") ) { globals->get_soundmgr()->play_looped( "outer-marker" ); } } else { globals->get_soundmgr()->stop( "outer-marker" ); } } else if ( beacon_type == MIDDLE ) { middle_marker = true; // cout << "MIDDLE MARKER" << endl; if ( last_beacon != MIDDLE ) { if ( ! globals->get_soundmgr()->exists( "middle-marker" ) ) { SGSoundSample *sound = beacon.get_middle(); sound->set_volume( 0.3 ); globals->get_soundmgr()->add( sound, "middle-marker" ); } } if ( audio_btn->getBoolValue() ) { if ( !globals->get_soundmgr()->is_playing("middle-marker") ) { globals->get_soundmgr()->play_looped( "middle-marker" ); } } else { globals->get_soundmgr()->stop( "middle-marker" ); } } else if ( beacon_type == INNER ) { inner_marker = true; // cout << "INNER MARKER" << endl; if ( last_beacon != INNER ) { if ( ! globals->get_soundmgr()->exists( "inner-marker" ) ) { SGSoundSample *sound = beacon.get_inner(); sound->set_volume( 0.3 ); globals->get_soundmgr()->add( sound, "inner-marker" ); } } if ( audio_btn->getBoolValue() ) { if ( !globals->get_soundmgr()->is_playing("inner-marker") ) { globals->get_soundmgr()->play_looped( "inner-marker" ); } } else { globals->get_soundmgr()->stop( "inner-marker" ); } } if ( inrange ) { last_beacon = beacon_type; } else { last_beacon = NOBEACON; } }