// runways.cxx -- a simple class to manage airport runway info // // 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 // fabs() #include // sprintf() #include #include #include STL_STRING #include #include "runways.hxx" SG_USING_NAMESPACE(std); SG_USING_STD(istream); SG_USING_STD(multimap); // add an entry to the list void FGRunwayList::add( const string& id, const string& rwy_no, const double longitude, const double latitude, const double heading, const double length, const double width, const double displ_thresh1, const double displ_thresh2, const double stopway1, const double stopway2, const string& lighting_flags, const int surface_code, const string& shoulder_code, const int marking_code, const double smoothness, const bool dist_remaining ) { FGRunway rwy; rwy._id = id; rwy._rwy_no = rwy_no; // strip trailing "x" if it exists in runway number string tmp = rwy._rwy_no.substr(2, 1); if ( tmp == "x" ) { rwy._rwy_no = rwy._rwy_no.substr(0, 2); } rwy._lon = longitude; rwy._lat = latitude; rwy._heading = heading; rwy._length = length; rwy._width = width; rwy._displ_thresh1 = displ_thresh1; rwy._displ_thresh2 = displ_thresh2; rwy._stopway1 = stopway1; rwy._stopway2 = stopway2; rwy._lighting_flags = lighting_flags; rwy._surface_code = surface_code; rwy._shoulder_code = shoulder_code; rwy._marking_code = marking_code; rwy._smoothness = smoothness; rwy._dist_remaining = dist_remaining; if ( rwy_no[0] == 'x' ) { rwy._type = "taxiway"; } else { rwy._type = "runway"; } runways.insert(pair(rwy._id, rwy)); } // Return reverse rwy number // eg 01 -> 19 // 03L -> 21R static string GetReverseRunwayNo(string& rwyno) { // cout << "Original rwyno = " << rwyNo << '\n'; // Helipads don't have a seperate number per end if(rwyno.size() && (rwyno[0] == 'H' || rwyno[0] == 'h' || rwyno[0] == 'x')) { return rwyno; } // standardize input number string tmp = rwyno.substr(1, 1); if (( tmp == "L" || tmp == "R" || tmp == "C" ) || (rwyno.size() == 1)) { tmp = rwyno; rwyno = "0" + tmp; SG_LOG( SG_GENERAL, SG_INFO, "Standardising rwy number from " << tmp << " to " << rwyno ); } char buf[4]; int rn = atoi(rwyno.substr(0,2).c_str()); rn += 18; while(rn > 36) { rn -= 36; } sprintf(buf, "%02i", rn); if(rwyno.size() == 3) { if(rwyno.substr(2,1) == "L") { buf[2] = 'R'; buf[3] = '\0'; } else if (rwyno.substr(2,1) == "R") { buf[2] = 'L'; buf[3] = '\0'; } else if (rwyno.substr(2,1) == "C") { buf[2] = 'C'; buf[3] = '\0'; } else if (rwyno.substr(2,1) == "T") { buf[2] = 'T'; buf[3] = '\0'; } else { SG_LOG(SG_GENERAL, SG_ALERT, "Unknown runway code " << rwyno << " passed to GetReverseRunwayNo(...)"); } } return(buf); } // search for the specified apt id (wierd!) bool FGRunwayList::search( const string& aptid, FGRunway* r ) { runway_map_iterator pos; pos = runways.lower_bound(aptid); if ( pos != runways.end() ) { current = pos; *r = pos->second; return true; } else { return false; } } // search for the specified apt id and runway no bool FGRunwayList::search( const string& aptid, const string& rwyno, FGRunway *r ) { string revrwyno = ""; string runwayno = rwyno; if ( runwayno.length() ) { // standardize input number string tmp = runwayno.substr(1, 1); if (( tmp == "L" || tmp == "R" || tmp == "C" ) || (runwayno.size() == 1)) { tmp = runwayno; runwayno = "0" + tmp; SG_LOG( SG_GENERAL, SG_INFO, "Standardising rwy number from " << tmp << " to " << runwayno ); } revrwyno = GetReverseRunwayNo(runwayno); } runway_map_iterator pos; for ( pos = runways.lower_bound( aptid ); pos != runways.upper_bound( aptid ); ++pos) { if ( pos->second._rwy_no == runwayno ) { current = pos; *r = pos->second; return true; } else if ( pos->second._rwy_no == revrwyno ) { // Search again with the other-end runway number. // Remember we have to munge the heading and rwy_no // results if this one matches current = pos; *r = pos->second; // NOTE - matching revrwyno implies that runwayno was // actually correct. r->_rwy_no = runwayno; r->_heading += 180.0; return true; } } return false; } // (wierd!) FGRunway FGRunwayList::search( const string& aptid ) { FGRunway a; search( aptid, &a ); return a; } // Return the runway closest to a given heading bool FGRunwayList::search( const string& aptid, const int tgt_hdg, FGRunway *runway ) { string rwyNo = search(aptid, tgt_hdg); return(rwyNo == "NN" ? false : search(aptid, rwyNo, runway)); } // Return the runway number of the runway closest to a given heading #include
// FIXME remove string FGRunwayList::search( const string& aptid, const int hdg ) { //SG_LOG(SG_GENERAL, SG_DEBUG, "searching runway for " << aptid // << " with target heading " << hdg); FGRunway r; if (!search(aptid, &r)) { SG_LOG(SG_GENERAL, SG_ALERT, "Failed to find " << aptid << " in database."); return "NN"; } double LENWGT = fgGetDouble("/tmp/runway-search/length", 0.01); double WIDWGT = fgGetDouble("/tmp/runway-search/width", 0.01); double SURFWGT = fgGetDouble("/tmp/runway-search/surface", 10); double DEVWGT = fgGetDouble("/tmp/runway-search/deviation", 1); FGRunway best; double max = 0.0; bool reversed = false; do { if (r._id != aptid) break; if (r._type != "runway") continue; int surface = 0; if (r._surface_code == 1 || r._surface_code == 2) // asphalt & concrete surface = 2; else if (r._surface_code == 12 || r._surface_code == 5) // dry lakebed & gravel surface = 1; double quality, bad, diff; double good = LENWGT * r._length + WIDWGT * r._width + SURFWGT * surface; // this side diff = hdg - r._heading; while (diff < -180) diff += 360; while (diff >= 180) diff -= 360; bad = DEVWGT * fabs(diff) + 1e-20; quality = good / bad; //SG_LOG(SG_GENERAL, SG_DEBUG, " runway " << r._rwy_no << " -> " << quality); if (quality > max) { max = quality; best = r; reversed = false; } // other side diff = hdg - r._heading - 180; while (diff < -180) diff += 360; while (diff >= 180) diff -= 360; bad = DEVWGT * fabs(diff) + 1e-20; quality = good / bad; //SG_LOG(SG_GENERAL, SG_DEBUG, " runway " << GetReverseRunwayNo(r._rwy_no) // << " -> " << quality); if (quality > max) { max = quality; best = r; reversed = true; } } while (!next(&r)); return reversed ? GetReverseRunwayNo(best._rwy_no) : best._rwy_no; } bool FGRunwayList::next( FGRunway* runway ) { ++current; if ( current != runways.end() ) { *runway = current->second; return true; } else { return false; } } FGRunway FGRunwayList::next() { FGRunway result; ++current; if ( current != runways.end() ) { result = current->second; } return result; } // Destructor FGRunwayList::~FGRunwayList( void ) { }