// // simple.cxx -- a really simplistic class to manage airport ID, // lat, lon of the center of one of it's runways, and // elevation in feet. // // Written by Curtis Olson, started April 1998. // Updated by Durk Talsma, started December, 2004. // // Copyright (C) 1998 Curtis L. Olson - http://www.flightgear.org/~curt // // 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 #include #include #include #include #include #include #include #include
#include
#include #include STL_STRING #include "simple.hxx" SG_USING_NAMESPACE(std); /****************************************************************************** * ScheduleTime ***************e*************************************************************/ void ScheduleTime::clear() { start.clear(); end.clear(); scheduleNames.clear(); } ScheduleTime::ScheduleTime(const ScheduleTime &other) { //timeVec start; timeVecConstIterator i; for (i = other.start.begin(); i != other.start.end(); i++) start.push_back(*i); for (i = other.end.begin(); i != other.end.end(); i++) end.push_back(*i); stringVecConstIterator k; for (k = other.scheduleNames.begin(); k != other.scheduleNames.end(); k++) scheduleNames.push_back(*k); //timeVec end; //stringVec scheduleNames; tailWind = other.tailWind; crssWind = other.tailWind; } ScheduleTime & ScheduleTime::operator= (const ScheduleTime &other) { //timeVec start; clear(); timeVecConstIterator i; for (i = other.start.begin(); i != other.start.end(); i++) start.push_back(*i); for (i = other.end.begin(); i != other.end.end(); i++) end.push_back(*i); stringVecConstIterator k; for (k = other.scheduleNames.begin(); k != other.scheduleNames.end(); k++) scheduleNames.push_back(*k); //timeVec end; //stringVec scheduleNames; tailWind = other.tailWind; crssWind = other.tailWind; return *this; } string ScheduleTime::getName(time_t dayStart) { if ((start.size() != end.size()) || (start.size() != scheduleNames.size())) { cerr << "Unable to parse schedule times" << endl; exit(1); } else { int nrItems = start.size(); //cerr << "Nr of items to process: " << nrItems << endl; if (nrItems > 0) { for (int i = 0; i < start.size(); i++) { //cerr << i << endl; if ((dayStart >= start[i]) && (dayStart <= end[i])) return scheduleNames[i]; } } //couldn't find one so return 0; //cerr << "Returning 0 " << endl; return string(0); } } /****************************************************************************** * RunwayList *****************************************************************************/ RunwayList::RunwayList(const RunwayList &other) { type = other.type; stringVecConstIterator i; for (i = other.preferredRunways.begin(); i != other.preferredRunways.end(); i++) preferredRunways.push_back(*i); } RunwayList& RunwayList::operator= (const RunwayList &other) { type = other.type; preferredRunways.clear(); stringVecConstIterator i; for (i = other.preferredRunways.begin(); i != other.preferredRunways.end(); i++) preferredRunways.push_back(*i); return *this; } void RunwayList::set(string tp, string lst) { //weekday = atoi(timeCopy.substr(0,1).c_str()); // timeOffsetInDays = weekday - currTimeDate->getGmt()->tm_wday; // timeCopy = timeCopy.substr(2,timeCopy.length()); type = tp; string rwys = lst; string rwy; while (rwys.find(",") != string::npos) { rwy = rwys.substr(0, rwys.find(",",0)); //cerr << "adding runway [" << rwy << "] to the list " << endl; preferredRunways.push_back(rwy); rwys.erase(0, rwys.find(",",0)+1); // erase until after the first whitspace while (rwys[0] == ' ') rwys.erase(0, 1); // Erase any leading whitespaces. //cerr << "Remaining runway list " << rwys; } preferredRunways.push_back(rwys); //exit(1); } void RunwayList::clear() { type = ""; preferredRunways.clear(); } /**************************************************************************** * ***************************************************************************/ RunwayGroup::RunwayGroup(const RunwayGroup &other) { name = other.name; RunwayListVecConstIterator i; for (i = other.rwyList.begin(); i != other.rwyList.end(); i++) rwyList.push_back(*i); choice[0] = other.choice[0]; choice[1] = other.choice[1]; nrActive = other.nrActive; } RunwayGroup& RunwayGroup:: operator= (const RunwayGroup &other) { rwyList.clear(); name = other.name; RunwayListVecConstIterator i; for (i = other.rwyList.begin(); i != other.rwyList.end(); i++) rwyList.push_back(*i); choice[0] = other.choice[0]; choice[1] = other.choice[1]; nrActive = other.nrActive; } void RunwayGroup::setActive(string aptId, double windSpeed, double windHeading, double maxTail, double maxCross) { FGRunway rwy; int activeRwys = rwyList.size(); // get the number of runways active int nrOfPreferences; bool found = true; double heading; double hdgDiff; double crossWind; double tailWind; string name; if (activeRwys > 0) { nrOfPreferences = rwyList[0].getRwyList()->size(); for (int i = 0; i < nrOfPreferences; i++) { bool validSelection = true; for (int j = 0; j < activeRwys; j++) { //cerr << "I J " << i << " " << j << endl; name = rwyList[j].getRwyList(i); //cerr << "Name of Runway: " << name << endl; if (globals->get_runways()->search( aptId, name, &rwy)) { //cerr << "Succes" << endl; hdgDiff = fabs(windHeading - rwy._heading); //cerr << "Wind Heading: " << windHeading << "Runway Heading: " < 180) hdgDiff = 360 - hdgDiff; //cerr << "Heading diff: " << hdgDiff << endl; hdgDiff *= ((2*M_PI)/360.0); // convert to radians crossWind = windSpeed * sin(hdgDiff); tailWind = -windSpeed * cos(hdgDiff); //cerr << "Tailwind : " << tailWind << endl; //cerr << "Crosswnd : " << crossWind << endl; if ((tailWind > maxTail) || (crossWind > maxCross)) validSelection = false; }else { cerr << "Failed to find runway " << name << " at " << aptId << endl; exit(1); } } if (validSelection) { //cerr << "Valid runay selection : " << i << endl; nrActive = activeRwys; active = i; return; } } // If this didn't work, due to heavy winds, try again // but select only one landing and one takeoff runway. choice[0] = 0; choice[1] = 0; for (int i = activeRwys-1; i; i--) { if (rwyList[i].getType() == string("landing")) choice[0] = i; if (rwyList[i].getType() == string("takeoff")) choice[1] = i; } //cerr << "Choosing " << choice[0] << " for landing and " << choice[1] << "for takeoff" << endl; nrOfPreferences = rwyList[0].getRwyList()->size(); for (int i = 0; i < nrOfPreferences; i++) { bool validSelection = true; for (int j = 0; j < 2; j++) { //cerr << "I J " << i << " " << j << endl; name = rwyList[choice[j]].getRwyList(i); //cerr << "Name of Runway: " << name << endl; if (globals->get_runways()->search( aptId, name, &rwy)) { //cerr << "Succes" << endl; hdgDiff = fabs(windHeading - rwy._heading); //cerr << "Wind Heading: " << windHeading << "Runway Heading: " < 180) hdgDiff = 360 - hdgDiff; //cerr << "Heading diff: " << hdgDiff << endl; hdgDiff *= ((2*M_PI)/360.0); // convert to radians crossWind = windSpeed * sin(hdgDiff); tailWind = -windSpeed * cos(hdgDiff); //cerr << "Tailwind : " << tailWind << endl; //cerr << "Crosswnd : " << crossWind << endl; if ((tailWind > maxTail) || (crossWind > maxCross)) validSelection = false; }else { cerr << "Failed to find runway " << name << " at " << aptId << endl; exit(1); } } if (validSelection) { //cerr << "Valid runay selection : " << i << endl; active = i; nrActive = 2; return; } } } active = -1; //RunwayListVectorIterator i; // = rwlist.begin(); //stringVecIterator j; //for (i = rwyList.begin(); i != rwyList.end(); i++) // { // cerr << i->getType(); // for (j = i->getRwyList()->begin(); j != i->getRwyList()->end(); j++) // { // cerr << (*j); // } // cerr << endl; // } //for (int } void RunwayGroup::getActive(int i, string *name, string *type) { if (i == -1) { return; } if (nrActive == rwyList.size()) { *name = rwyList[i].getRwyList(active); *type = rwyList[i].getType(); } else { *name = rwyList[choice[i]].getRwyList(active); *type = rwyList[choice[i]].getType(); } } /***************************************************************************** * FGRunway preference ****************************************************************************/ FGRunwayPreference::FGRunwayPreference() { //cerr << "Running default Constructor" << endl; initialized = false; } FGRunwayPreference::FGRunwayPreference(const FGRunwayPreference &other) { initialized = other.initialized; value = other.value; scheduleName = other.scheduleName; comTimes = other.comTimes; // Commercial Traffic; genTimes = other.genTimes; // General Aviation; milTimes = other.milTimes; // Military Traffic; currTimes= other.currTimes; // Needed for parsing; rwyList = other.rwyList; rwyGroup = other.rwyGroup; PreferenceListConstIterator i; for (i = other.preferences.begin(); i != other.preferences.end(); i++) preferences.push_back(*i); } FGRunwayPreference & FGRunwayPreference::operator= (const FGRunwayPreference &other) { initialized = other.initialized; value = other.value; scheduleName = other.scheduleName; comTimes = other.comTimes; // Commercial Traffic; genTimes = other.genTimes; // General Aviation; milTimes = other.milTimes; // Military Traffic; currTimes= other.currTimes; // Needed for parsing; rwyList = other.rwyList; rwyGroup = other.rwyGroup; PreferenceListConstIterator i; preferences.clear(); for (i = other.preferences.begin(); i != other.preferences.end(); i++) preferences.push_back(*i); return *this; } ScheduleTime *FGRunwayPreference::getSchedule(const char *trafficType) { if (!(strcmp(trafficType, "com"))) { return &comTimes; } if (!(strcmp(trafficType, "gen"))) { return &genTimes; } if (!(strcmp(trafficType, "mil"))) { return &milTimes; } } RunwayGroup *FGRunwayPreference::getGroup(const string groupName) { PreferenceListIterator i = preferences.begin(); if (preferences.begin() == preferences.end()) return 0; while (!(i == preferences.end() || i->getName() == groupName)) i++; if (i != preferences.end()) return &(*i); else return 0; } void FGRunwayPreference::startXML () { // cout << "Start XML" << endl; } void FGRunwayPreference::endXML () { cout << "End XML" << endl; } void FGRunwayPreference::startElement (const char * name, const XMLAttributes &atts) { //cout << "StartElement " << name << endl; value = string(""); if (!(strcmp(name, "wind"))) { //cerr << "Will be processing Wind" << endl; for (int i = 0; i < atts.size(); i++) { //cout << " " << atts.getName(i) << '=' << atts.getValue(i) << endl; //attname = atts.getName(i); if (atts.getName(i) == string("tail")) { //cerr << "Tail Wind = " << atts.getValue(i) << endl; currTimes.setTailWind(atof(atts.getValue(i))); } if (atts.getName(i) == string("cross")) { //cerr << "Cross Wind = " << atts.getValue(i) << endl; currTimes.setCrossWind(atof(atts.getValue(i))); } } } if (!(strcmp(name, "time"))) { //cerr << "Will be processing time" << endl; for (int i = 0; i < atts.size(); i++) { if (atts.getName(i) == string("start")) { //cerr << "Start Time = " << atts.getValue(i) << endl; currTimes.addStartTime(processTime(atts.getValue(i))); } if (atts.getName(i) == string("end")) { //cerr << "End time = " << atts.getValue(i) << endl; currTimes.addEndTime(processTime(atts.getValue(i))); } if (atts.getName(i) == string("schedule")) { //cerr << "Schedule Name = " << atts.getValue(i) << endl; currTimes.addScheduleName(atts.getValue(i)); } } } if (!(strcmp(name, "takeoff"))) { rwyList.clear(); } if (!(strcmp(name, "landing"))) { rwyList.clear(); } if (!(strcmp(name, "schedule"))) { for (int i = 0; i < atts.size(); i++) { //cout << " " << atts.getName(i) << '=' << atts.getValue(i) << endl; //attname = atts.getName(i); if (atts.getName(i) == string("name")) { //cerr << "Schedule name = " << atts.getValue(i) << endl; scheduleName = atts.getValue(i); } } } } //based on a string containing hour and minute, return nr seconds since day start. time_t FGRunwayPreference::processTime(string tme) { string hour = tme.substr(0, tme.find(":",0)); string minute = tme.substr(tme.find(":",0)+1, tme.length()); //cerr << "hour = " << hour << " Minute = " << minute << endl; return (atoi(hour.c_str()) * 3600 + atoi(minute.c_str()) * 60); } void FGRunwayPreference::endElement (const char * name) { //cout << "End element " << name << endl; if (!(strcmp(name, "rwyuse"))) { initialized = true; } if (!(strcmp(name, "com"))) { // Commercial Traffic //cerr << "Setting time table for commerical traffic" << endl; comTimes = currTimes; currTimes.clear(); } if (!(strcmp(name, "gen"))) { // General Aviation //cerr << "Setting time table for general aviation" << endl; genTimes = currTimes; currTimes.clear(); } if (!(strcmp(name, "mil"))) { // Military Traffic //cerr << "Setting time table for military traffic" << endl; genTimes = currTimes; currTimes.clear(); } if (!(strcmp(name, "takeoff"))) { //cerr << "Adding takeoff: " << value << endl; rwyList.set(name, value); rwyGroup.add(rwyList); } if (!(strcmp(name, "landing"))) { //cerr << "Adding landing: " << value << endl; rwyList.set(name, value); rwyGroup.add(rwyList); } if (!(strcmp(name, "schedule"))) { //cerr << "Adding schedule" << scheduleName << endl; rwyGroup.setName(scheduleName); //rwyGroup.addRunways(rwyList); preferences.push_back(rwyGroup); rwyGroup.clear(); //exit(1); } } void FGRunwayPreference::data (const char * s, int len) { string token = string(s,len); //cout << "Character data " << string(s,len) << endl; //if ((token.find(" ") == string::npos && (token.find('\n')) == string::npos)) // value += token; //else // value = string(""); value += token; } void FGRunwayPreference::pi (const char * target, const char * data) { //cout << "Processing instruction " << target << ' ' << data << endl; } void FGRunwayPreference::warning (const char * message, int line, int column) { cout << "Warning: " << message << " (" << line << ',' << column << ')' << endl; } void FGRunwayPreference::error (const char * message, int line, int column) { cout << "Error: " << message << " (" << line << ',' << column << ')' << endl; } /********************************************************************************* * FGParking ********************************************************************************/ FGParking::FGParking(double lat, double lon, double hdg, double rad, int idx, string name, string tpe, string codes) { latitude = lat; longitude = lon; heading = hdg; parkingName = name; index = idx; type = tpe; airlineCodes = codes; } double FGParking::processPosition(string pos) { string prefix; string subs; string degree; string decimal; int sign = 1; double value; subs = pos; prefix= subs.substr(0,1); if (prefix == string("S") || (prefix == string("W"))) sign = -1; subs = subs.substr(1, subs.length()); degree = subs.substr(0, subs.find(" ",0)); decimal = subs.substr(subs.find(" ",0), subs.length()); //cerr << sign << " "<< degree << " " << decimal << endl; value = sign * (atof(degree.c_str()) + atof(decimal.c_str())/60.0); //cerr << value <getIndex() // << " Type : " << i->getType() // << " Codes : " << i->getCodes() // << " Radius: " << i->getRadius() // << " Name : " << i->getName() // << " Available: " << i->isAvailable() << endl; available = true; // Taken by another aircraft if (!(i->isAvailable())) { available = false; continue; } // No airline codes, so skip if (i->getCodes().empty()) { available = false; continue; } else // Airline code doesn't match if (i->getCodes().find(airline, 0) == string::npos) { available = false; continue; } // Type doesn't match if (i->getType() != flType) { available = false; continue; } // too small if (i->getRadius() < rad) { available = false; continue; } if (available) { *lat = i->getLatitude (); *lon = i->getLongitude(); *heading = i->getHeading (); *gateId = i->getIndex (); i->setAvailable(false); found = true; } } // then try again for those without codes. for (i = parkings.begin(); !(i == parkings.end() || found); i++) { available = true; if (!(i->isAvailable())) { available = false; continue; } if (!(i->getCodes().empty())) { if ((i->getCodes().find(airline,0) == string::npos)) { available = false; continue; } } if (i->getType() != flType) { available = false; continue; } if (i->getRadius() < rad) { available = false; continue; } if (available) { *lat = i->getLatitude (); *lon = i->getLongitude(); *heading = i->getHeading (); *gateId = i->getIndex (); i->setAvailable(false); found = true; } } // And finally once more if that didn't work. Now ignore the airline codes, as a last resort for (i = parkings.begin(); !(i == parkings.end() || found); i++) { available = true; if (!(i->isAvailable())) { available = false; continue; } if (i->getType() != flType) { available = false; continue; } if (i->getRadius() < rad) { available = false; continue; } if (available) { *lat = i->getLatitude (); *lon = i->getLongitude(); *heading = i->getHeading (); *gateId = i->getIndex (); i->setAvailable(false); found = true; } } } if (!found) { //cerr << "Traffic overflow at" << _id // << ". flType = " << flType // << ". airline = " << airline // << " Radius = " <getIndex()) { *lat = i->getLatitude(); *lon = i->getLongitude(); *heading = i->getLongitude(); } } } } FGParking *FGAirport::getParking(int i) { if (i < parkings.size()) return &(parkings[i]); else return 0; } string FGAirport::getParkingName(int i) { if (i < parkings.size() && i >= 0) return (parkings[i].getName()); else return string("overflow"); } void FGAirport::releaseParking(int id) { if (id >= 0) { FGParkingVecIterator i = parkings.begin(); for (i = parkings.begin(); i != parkings.end(); i++) { if (id == i->getIndex()) { i -> setAvailable(true); } } } } void FGAirport::startXML () { //cout << "Start XML" << endl; } void FGAirport::endXML () { //cout << "End XML" << endl; } void FGAirport::startElement (const char * name, const XMLAttributes &atts) { const char * attval; FGParking park; //cout << "Start element " << name << endl; string attname; string value; string gateName; string gateNumber; string lat; string lon; if (name == string("Parking")) { for (int i = 0; i < atts.size(); i++) { //cout << " " << atts.getName(i) << '=' << atts.getValue(i) << endl; attname = atts.getName(i); if (attname == string("index")) park.setIndex(atoi(atts.getValue(i))); else if (attname == string("type")) park.setType(atts.getValue(i)); else if (attname == string("name")) gateName = atts.getValue(i); else if (attname == string("number")) gateNumber = atts.getValue(i); else if (attname == string("lat")) park.setLatitude(atts.getValue(i)); else if (attname == string("lon")) park.setLongitude(atts.getValue(i)); else if (attname == string("heading")) park.setHeading(atof(atts.getValue(i))); else if (attname == string("radius")) { string radius = atts.getValue(i); if (radius.find("M") != string::npos) radius = radius.substr(0, radius.find("M",0)); //cerr << "Radius " << radius < 600) || trafficType != prevTrafficType) { landing.clear(); takeoff.clear(); //lastUpdate = dayStart; prevTrafficType = trafficType; FGEnvironment stationweather = ((FGEnvironmentMgr *) globals->get_subsystem("environment")) ->getEnvironment(getLatitude(), getLongitude(), getElevation()); windSpeed = stationweather.get_wind_speed_kt(); windHeading = stationweather.get_wind_from_heading_deg(); double averageWindSpeed = 0; double averageWindHeading = 0; double cosHeading = 0; double sinHeading = 0; // Initialize at the beginning of the next day or startup if ((lastUpdate == 0) || (dayStart < lastUpdate)) { for (int i = 0; i < 10; i++) { avWindHeading [i] = windHeading; avWindSpeed [i] = windSpeed; } } else { if (windSpeed != avWindSpeed[9]) // update if new metar data { // shift the running average for (int i = 0; i < 9 ; i++) { avWindHeading[i] = avWindHeading[i+1]; avWindSpeed [i] = avWindSpeed [i+1]; } } avWindHeading[9] = windHeading; avWindSpeed [9] = windSpeed; } for (int i = 0; i < 10; i++) { averageWindSpeed += avWindSpeed [i]; //averageWindHeading += avWindHeading [i]; cosHeading += cos(avWindHeading[i] * SG_DEGREES_TO_RADIANS); sinHeading += sin(avWindHeading[i] * SG_DEGREES_TO_RADIANS); } averageWindSpeed /= 10; //averageWindHeading /= 10; cosHeading /= 10; sinHeading /= 10; averageWindHeading = atan2(sinHeading, cosHeading) *SG_RADIANS_TO_DEGREES; if (averageWindHeading < 0) averageWindHeading += 360.0; //cerr << "Wind Heading " << windHeading << " average " << averageWindHeading << endl; //cerr << "Wind Speed " << windSpeed << " average " << averageWindSpeed << endl; lastUpdate = dayStart; //if (wind_speed == 0) { // wind_heading = 270; This forces West-facing rwys to be used in no-wind situations // which is consistent with Flightgear's initial setup. //} //string rwy_no = globals->get_runways()->search(apt->getId(), int(wind_heading)); string scheduleName; //cerr << "finding active Runway for" << _id << endl; //cerr << "Nr of seconds since day start << " << dayStart << endl; ScheduleTime *currSched; //cerr << "A"<< endl; currSched = rwyPrefs.getSchedule(trafficType.c_str()); if (!(currSched)) return; //cerr << "B"<< endl; scheduleName = currSched->getName(dayStart); maxTail = currSched->getTailWind (); maxCross = currSched->getCrossWind (); //cerr << "SChedule anme = " << scheduleName << endl; if (scheduleName.empty()) return; //cerr << "C"<< endl; currRunwayGroup = rwyPrefs.getGroup(scheduleName); //cerr << "D"<< endl; if (!(currRunwayGroup)) return; nrActiveRunways = currRunwayGroup->getNrActiveRunways(); //cerr << "Nr of Active Runways = " << nrActiveRunways << endl; currRunwayGroup->setActive(_id, averageWindSpeed, averageWindHeading, maxTail, maxCross); nrActiveRunways = currRunwayGroup->getNrActiveRunways(); for (int i = 0; i < nrActiveRunways; i++) { type = "unknown"; // initialize to something other than landing or takeoff currRunwayGroup->getActive(i, &name, &type); if (type == "landing") { landing.push_back(name); //cerr << "Landing " << name << endl; } if (type == "takeoff") { takeoff.push_back(name); //cerr << "takeoff " << name << endl; } } } if (action == 1) // takeoff { int nr = takeoff.size(); if (nr) { *runway = takeoff[(rand() % nr)]; } else { // Fallback chooseRunwayFallback(runway); } } if (action == 2) // landing { int nr = landing.size(); if (nr) { *runway = landing[(rand() % nr)]; } else { //fallback chooseRunwayFallback(runway); } } //*runway = globals->get_runways()->search(_id, int(windHeading)); //cerr << "Seleceted runway: " << *runway << endl; } } void FGAirport::chooseRunwayFallback(string *runway) { FGEnvironment stationweather = ((FGEnvironmentMgr *) globals->get_subsystem("environment")) ->getEnvironment(getLatitude(), getLongitude(), getElevation()); double windSpeed = stationweather.get_wind_speed_kt(); double windHeading = stationweather.get_wind_from_heading_deg(); if (windSpeed == 0) { windHeading = 270; // This forces West-facing rwys to be used in no-wind situations //which is consistent with Flightgear's initial setup. } *runway = globals->get_runways()->search(_id, int(windHeading)); return; // generic fall back goes here } /****************************************************************************** * FGAirportList *****************************************************************************/ // add an entry to the list void FGAirportList::add( const string id, const double longitude, const double latitude, const double elevation, const string name, const bool has_metar ) { FGRunwayPreference rwyPrefs; FGAirport a(id, longitude, latitude, elevation, name, has_metar); //a._id = id; //a._longitude = longitude; //a._latitude = latitude; //a._elevation = elevation; //a._name = name; //a._has_metar = has_metar; SGPath parkpath( globals->get_fg_root() ); parkpath.append( "/Airports/AI/" ); parkpath.append(id); parkpath.append("parking.xml"); SGPath rwyPrefPath( globals->get_fg_root() ); rwyPrefPath.append( "/Airports/AI/" ); rwyPrefPath.append(id); rwyPrefPath.append("rwyuse.xml"); if (parkpath.exists()) { try { readXML(parkpath.str(),a); } catch (const sg_exception &e) { //cerr << "unable to read " << parkpath.str() << endl; } } if (rwyPrefPath.exists()) { try { readXML(rwyPrefPath.str(), rwyPrefs); a.setRwyUse(rwyPrefs); } catch (const sg_exception &e) { //cerr << "unable to read " << rwyPrefPath.str() << endl; //exit(1); } } airports_by_id[a.getId()] = a; // try and read in an auxilary file airports_array.push_back( &airports_by_id[a.getId()] ); SG_LOG( SG_GENERAL, SG_BULK, "Adding " << id << " pos = " << longitude << ", " << latitude << " elev = " << elevation ); } // search for the specified id FGAirport FGAirportList::search( const string& id) { return airports_by_id[id]; } // search for the specified id and return a pointer FGAirport* FGAirportList::search( const string& id, FGAirport *result) { FGAirport* retval = airports_by_id[id].getAddress(); //cerr << "Returning Airport of string " << id << " results in " << retval->getId(); return retval; } // search for the airport nearest the specified position FGAirport FGAirportList::search( double lon_deg, double lat_deg, bool with_metar ) { int closest = 0; double min_dist = 360.0; unsigned int i; for ( i = 0; i < airports_array.size(); ++i ) { // crude manhatten distance based on lat/lon difference double d = fabs(lon_deg - airports_array[i]->getLongitude()) + fabs(lat_deg - airports_array[i]->getLatitude()); if ( d < min_dist ) { if ( !with_metar || (with_metar&&airports_array[i]->getMetar()) ) { closest = i; min_dist = d; } } } return *airports_array[closest]; } // Destructor FGAirportList::~FGAirportList( void ) { } int FGAirportList::size () const { return airports_array.size(); } const FGAirport *FGAirportList::getAirport( int index ) const { return airports_array[index]; } /** * Mark the specified airport record as not having metar */ void FGAirportList::no_metar( const string &id ) { airports_by_id[id].setMetar(false); } /** * Mark the specified airport record as (yes) having metar */ void FGAirportList::has_metar( const string &id ) { airports_by_id[id].setMetar(true); }