// apt_loader.cxx -- a front end loader of the apt.dat file. This loader // populates the runway and basic classes. // // Written by Curtis Olson, started August 2000. // // Copyright (C) 2000 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // $Id$ #ifdef HAVE_CONFIG_H # include #endif #include "apt_loader.hxx" #include #include // atof(), atoi() #include // memchr() #include // isspace() #include #include #include #include #include #include #include #include "simple.hxx" #include "runways.hxx" #include "pavement.hxx" #if ENABLE_ATCDCL # include #else #include #endif #include using namespace std; static FGPositioned::Type fptypeFromRobinType(int aType) { switch (aType) { case 1: return FGPositioned::AIRPORT; case 16: return FGPositioned::SEAPORT; case 17: return FGPositioned::HELIPORT; default: SG_LOG(SG_GENERAL, SG_ALERT, "unsupported type:" << aType); throw sg_range_exception("Unsupported airport type", "fptypeFromRobinType"); } } class APTLoader { public: APTLoader() : last_apt_id(""), last_apt_name(""), last_apt_elev(0.0), last_apt_info(""), last_apt_type("") {} void parseAPT(const string &aptdb_file, FGCommList *comm_list) { sg_gzifstream in( aptdb_file ); if ( !in.is_open() ) { SG_LOG( SG_GENERAL, SG_ALERT, "Cannot open file: " << aptdb_file ); exit(-1); } string line; char tmp[2049]; tmp[2048] = 0; unsigned int line_id = 0; unsigned int line_num = 0; while ( ! in.eof() ) { in.getline(tmp, 2048); line = tmp; // string copy, ack line_num++; if ( !line.size() || isspace(tmp[0])) { continue; } if (line.size() >= 3) { char *p = (char *)memchr(tmp, ' ', 3); if ( p ) *p = 0; } line_id = atoi(tmp); if ( tmp[0] == 'I' ) { // First line, indicates IBM (i.e. DOS line endings I // believe.) // move past this line and read and discard the next line // which is the version and copyright information in.getline(tmp, 2048); // vector vers_token = simgear::strutils::split( tmp ); if ( strlen(tmp) > 4 ) { char *p = (char *)memchr(tmp, ' ', 4); if ( p ) *p = 0; } SG_LOG( SG_GENERAL, SG_INFO, "Data file version = " << tmp ); } else if ( line_id == 1 /* Airport */ || line_id == 16 /* Seaplane base */ || line_id == 17 /* Heliport */ ) { parseAirportLine(simgear::strutils::split(line)); } else if ( line_id == 10 ) { // Runway v810 parseRunwayLine810(simgear::strutils::split(line)); } else if ( line_id == 100 ) { // Runway v850 parseRunwayLine850(simgear::strutils::split(line)); } else if ( line_id == 101 ) { // Water Runway v850 parseWaterRunwayLine850(simgear::strutils::split(line)); } else if ( line_id == 102 ) { // Helipad v850 parseHelipadLine850(simgear::strutils::split(line)); } else if ( line_id == 18 ) { // beacon entry (ignore) } else if ( line_id == 14 ) { // control tower entry vector token(simgear::strutils::split(line)); double lat = atof( token[1].c_str() ); double lon = atof( token[2].c_str() ); double elev = atof( token[3].c_str() ); tower = SGGeod::fromDegFt(lon, lat, elev + last_apt_elev); got_tower = true; } else if ( line_id == 19 ) { // windsock entry (ignore) } else if ( line_id == 20 ) { // Taxiway sign (ignore) } else if ( line_id == 21 ) { // lighting objects (ignore) } else if ( line_id == 15 ) { // custom startup locations (ignore) } else if ( line_id == 0 ) { // ?? } else if ( line_id == 50 ) { parseATISLine(comm_list, simgear::strutils::split(line)); } else if ( line_id >= 51 && line_id <= 56 ) { // other frequency entries (ignore) } else if ( line_id == 110 ) { pavement = true; parsePavementLine850(simgear::strutils::split(line, 0, 4)); } else if ( line_id >= 111 && line_id <= 114 ) { if ( pavement ) parsePavementNodeLine850(line_id, simgear::strutils::split(line)); } else if ( line_id >= 115 && line_id <= 116 ) { // other pavement nodes (ignore) } else if ( line_id == 120 ) { pavement = false; } else if ( line_id == 130 ) { pavement = false; } else if ( line_id == 99 ) { SG_LOG( SG_GENERAL, SG_DEBUG, "End of file reached" ); } else { SG_LOG( SG_GENERAL, SG_ALERT, "Unknown line(#" << line_num << ") in file: " << line ); exit( -1 ); } } addAirport(); } private: vector token; double rwy_lat_accum; double rwy_lon_accum; double last_rwy_heading; int rwy_count; bool got_tower; string last_apt_id; string last_apt_name; double last_apt_elev; SGGeod tower; string last_apt_info; string last_apt_type; string pavement_ident; bool pavement; vector runways; vector taxiways; vector pavements; void addAirport() { if (last_apt_id.empty()) { return; } if (!rwy_count) { SG_LOG(SG_GENERAL, SG_ALERT, "ERROR: No runways for " << last_apt_id << ", skipping." ); return; } double lat = rwy_lat_accum / (double)rwy_count; double lon = rwy_lon_accum / (double)rwy_count; if (!got_tower) { // tower height hard coded for now... const float tower_height = 50.0f; // make a little off the heading for 1 runway airports... float fudge_lon = fabs(sin(last_rwy_heading * SGD_DEGREES_TO_RADIANS)) * .003f; float fudge_lat = .003f - fudge_lon; tower = SGGeod::fromDegFt(lon + fudge_lon, lat + fudge_lat, last_apt_elev + tower_height); } SGGeod pos(SGGeod::fromDegFt(lon, lat, last_apt_elev)); FGAirport* apt = new FGAirport(last_apt_id, pos, tower, last_apt_name, false, fptypeFromRobinType(atoi(last_apt_type.c_str()))); apt->setRunwaysAndTaxiways(runways, taxiways, pavements); } void parseAirportLine(const vector& token) { const string& id(token[4]); double elev = atof( token[1].c_str() ); addAirport(); last_apt_id = id; last_apt_elev = elev; last_apt_name = ""; got_tower = false; // build the name for ( unsigned int i = 5; i < token.size() - 1; ++i ) { last_apt_name += token[i]; last_apt_name += " "; } last_apt_name += token[token.size() - 1]; last_apt_type = token[0]; // clear runway list for start of next airport rwy_lon_accum = 0.0; rwy_lat_accum = 0.0; rwy_count = 0; } void parseRunwayLine810(const vector& token) { double lat = atof( token[1].c_str() ); double lon = atof( token[2].c_str() ); rwy_lat_accum += lat; rwy_lon_accum += lon; rwy_count++; const string& rwy_no(token[3]); double heading = atof( token[4].c_str() ); double length = atoi( token[5].c_str() ); double width = atoi( token[8].c_str() ); last_rwy_heading = heading; int surface_code = atoi( token[10].c_str() ); SGGeod pos(SGGeod::fromDegFt(lon, lat, last_apt_elev)); if (rwy_no[0] == 'x') { // taxiway FGTaxiway* t = new FGTaxiway(rwy_no, pos, heading, length, width, surface_code); taxiways.push_back(t); } else { // (pair of) runways string rwy_displ_threshold = token[6]; vector displ = simgear::strutils::split( rwy_displ_threshold, "." ); double displ_thresh1 = atof( displ[0].c_str() ); double displ_thresh2 = atof( displ[1].c_str() ); string rwy_stopway = token[7]; vector stop = simgear::strutils::split( rwy_stopway, "." ); double stopway1 = atof( stop[0].c_str() ); double stopway2 = atof( stop[1].c_str() ); FGRunway* rwy = new FGRunway(NULL, rwy_no, pos, heading, length, width, displ_thresh1, stopway1, surface_code, false); runways.push_back(rwy); FGRunway* reciprocal = new FGRunway(NULL, FGRunway::reverseIdent(rwy_no), pos, heading + 180.0, length, width, displ_thresh2, stopway2, surface_code, true); runways.push_back(reciprocal); rwy->setReciprocalRunway(reciprocal); reciprocal->setReciprocalRunway(rwy); } } void parseRunwayLine850(const vector& token) { double width = atof( token[1].c_str() ) * SG_METER_TO_FEET; int surface_code = atoi( token[2].c_str() ); double lat_1 = atof( token[9].c_str() ); double lon_1 = atof( token[10].c_str() ); SGGeod pos_1(SGGeod::fromDegFt(lon_1, lat_1, 0.0)); rwy_lat_accum += lat_1; rwy_lon_accum += lon_1; rwy_count++; double lat_2 = atof( token[18].c_str() ); double lon_2 = atof( token[19].c_str() ); SGGeod pos_2(SGGeod::fromDegFt(lon_2, lat_2, 0.0)); rwy_lat_accum += lat_2; rwy_lon_accum += lon_2; rwy_count++; double length, heading_1, heading_2, dummy; SGGeodesy::inverse( pos_1, pos_2, heading_1, heading_2, length ); SGGeod pos; SGGeodesy::direct( pos_1, heading_1, length / 2.0, pos, dummy ); length *= SG_METER_TO_FEET; last_rwy_heading = heading_1; const string& rwy_no_1(token[8]); const string& rwy_no_2(token[17]); if ( rwy_no_1.size() == 0 || rwy_no_2.size() == 0 ) return; double displ_thresh1 = atof( token[11].c_str() ); double displ_thresh2 = atof( token[20].c_str() ); double stopway1 = atof( token[12].c_str() ); double stopway2 = atof( token[21].c_str() ); FGRunway* rwy = new FGRunway(NULL, rwy_no_1, pos, heading_1, length, width, displ_thresh1, stopway1, surface_code, false); runways.push_back(rwy); FGRunway* reciprocal = new FGRunway(NULL, rwy_no_2, pos, heading_2, length, width, displ_thresh2, stopway2, surface_code, true); runways.push_back(reciprocal); rwy->setReciprocalRunway(reciprocal); reciprocal->setReciprocalRunway(rwy); } void parseWaterRunwayLine850(const vector& token) { double width = atof( token[1].c_str() ) * SG_METER_TO_FEET; double lat_1 = atof( token[4].c_str() ); double lon_1 = atof( token[5].c_str() ); SGGeod pos_1(SGGeod::fromDegFt(lon_1, lat_1, 0.0)); rwy_lat_accum += lat_1; rwy_lon_accum += lon_1; rwy_count++; double lat_2 = atof( token[7].c_str() ); double lon_2 = atof( token[8].c_str() ); SGGeod pos_2(SGGeod::fromDegFt(lon_2, lat_2, 0.0)); rwy_lat_accum += lat_2; rwy_lon_accum += lon_2; rwy_count++; double length, heading_1, heading_2, dummy; SGGeodesy::inverse( pos_1, pos_2, heading_1, heading_2, length ); SGGeod pos; SGGeodesy::direct( pos_1, heading_1, length / 2.0, pos, dummy ); last_rwy_heading = heading_1; const string& rwy_no_1(token[3]); const string& rwy_no_2(token[6]); FGRunway* rwy = new FGRunway(NULL, rwy_no_1, pos, heading_1, length, width, 0.0, 0.0, 13, false); runways.push_back(rwy); FGRunway* reciprocal = new FGRunway(NULL, rwy_no_2, pos, heading_2, length, width, 0.0, 0.0, 13, true); runways.push_back(reciprocal); rwy->setReciprocalRunway(reciprocal); reciprocal->setReciprocalRunway(rwy); } void parseHelipadLine850(const vector& token) { double length = atof( token[5].c_str() ) * SG_METER_TO_FEET; double width = atof( token[6].c_str() ) * SG_METER_TO_FEET; double lat = atof( token[2].c_str() ); double lon = atof( token[3].c_str() ); SGGeod pos(SGGeod::fromDegFt(lon, lat, 0.0)); rwy_lat_accum += lat; rwy_lon_accum += lon; rwy_count++; double heading = atof( token[4].c_str() ); last_rwy_heading = heading; const string& rwy_no(token[1]); int surface_code = atoi( token[7].c_str() ); FGRunway* rwy = new FGRunway(NULL, rwy_no, pos, heading, length, width, 0.0, 0.0, surface_code, false); runways.push_back(rwy); } void parsePavementLine850(const vector& token) { if ( token.size() >= 5 ) { pavement_ident = token[4]; if ( !pavement_ident.empty() && pavement_ident[pavement_ident.size()-1] == '\r' ) pavement_ident.erase( pavement_ident.size()-1 ); } else { pavement_ident = "xx"; } } void parsePavementNodeLine850(int num, const vector& token) { double lat = atof( token[1].c_str() ); double lon = atof( token[2].c_str() ); SGGeod pos(SGGeod::fromDegFt(lon, lat, 0.0)); FGPavement* pvt = 0; if ( !pavement_ident.empty() ) { pvt = new FGPavement( pavement_ident, pos ); pavements.push_back( pvt ); pavement_ident = ""; } else { pvt = pavements.back(); } if ( num == 112 || num == 114 ) { double lat_b = atof( token[3].c_str() ); double lon_b = atof( token[4].c_str() ); SGGeod pos_b(SGGeod::fromDegFt(lon_b, lat_b, 0.0)); pvt->addBezierNode(pos, pos_b, num == 114); } else { pvt->addNode(pos, num == 113); } } void parseATISLine(FGCommList *comm_list, const vector& token) { if ( rwy_count <= 0 ) { SG_LOG( SG_GENERAL, SG_ALERT, "No runways; skipping AWOS for " + last_apt_id); } // This assumes/requires that any code-50 line (ATIS or AWOS) // applies to the preceding code-1 line (airport ID and name) // and that a full set of code-10 lines (runway descriptors) // has come between the code-1 and code-50 lines. // typical code-50 lines: // 50 11770 ATIS // 50 11770 AWOS 3 // This code parallels code found in "operator>>" in ATC.hxx; // FIXME: unify the code. #if ENABLE_ATCDCL ATCData a; a.geod = SGGeod::fromDegFt(rwy_lon_accum / (double)rwy_count, rwy_lat_accum / (double)rwy_count, last_apt_elev); a.range = 50; // give all ATISs small range a.ident = last_apt_id; a.name = last_apt_name; // short int representing tens of kHz: a.freq = atoi(token[1].c_str()); if (token[2] == "ATIS") a.type = ATIS; else a.type = AWOS; // ASOS same as AWOS // generate cartesian coordinates a.cart = SGVec3d::fromGeod(a.geod); comm_list->commlist_freq[a.freq].push_back(a); SGBucket bucket(a.geod); int bucknum = bucket.gen_index(); comm_list->commlist_bck[bucknum].push_back(a); #else #endif #if 0 SG_LOG( SG_GENERAL, SG_ALERT, "Loaded ATIS/AWOS for airport: " << a.ident << " lat: " << a.geod.getLatitudeDeg() << " lon: " << a.geod.getLongitudeDeg() << " freq: " << a.freq << " type: " << a.type ); #endif } }; // Load the airport data base from the specified aptdb file. The // metar file is used to mark the airports as having metar available // or not. bool fgAirportDBLoad( const string &aptdb_file, FGCommList *comm_list, const std::string &metar_file ) { APTLoader ld; ld.parseAPT(aptdb_file, comm_list); // // Load the metar.dat file and update apt db with stations that // have metar data. // sg_gzifstream metar_in( metar_file ); if ( !metar_in.is_open() ) { SG_LOG( SG_GENERAL, SG_ALERT, "Cannot open file: " << metar_file ); } string ident; while ( metar_in ) { metar_in >> ident; if ( ident == "#" || ident == "//" ) { metar_in >> skipeol; } else { FGAirport* apt = FGAirport::findByIdent(ident); if (apt) { apt->setMetar(true); } } } SG_LOG(SG_GENERAL, SG_INFO, "[FINISHED LOADING]"); return true; }