// metarproperties.cxx -- Parse a METAR and write properties // // Written by David Megginson, started May 2002. // Rewritten by Torsten Dreyer, August 2010 // // Copyright (C) 2002 David Megginson - david@megginson.com // // 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. // #ifdef HAVE_CONFIG_H # include #endif #include "metarproperties.hxx" #include "fgmetar.hxx" #include "environment.hxx" #include "atmosphere.hxx" #include #include using std::string; namespace Environment { static vector coverage_string; MetarProperties::MetarProperties( SGPropertyNode_ptr rootNode ) : _rootNode(rootNode), _metarValidNode( rootNode->getNode( "valid", true ) ), _station_elevation(0.0), _station_latitude(0.0), _station_longitude(0.0), _min_visibility(16000.0), _max_visibility(16000.0), _base_wind_dir(0), _base_wind_range_from(0), _base_wind_range_to(0), _wind_speed(0.0), _wind_from_north_fps(0.0), _wind_from_east_fps(0.0), _gusts(0.0), _temperature(0.0), _dewpoint(0.0), _humidity(0.0), _pressure(0.0), _sea_level_temperature(0.0), _sea_level_dewpoint(0.0), _sea_level_pressure(29.92), _rain(0.0), _hail(0.0), _snow(0.0), _snow_cover(false) { // Hack to avoid static initialization order problems on OSX if( coverage_string.size() == 0 ) { coverage_string.push_back(SGCloudLayer::SG_CLOUD_CLEAR_STRING); coverage_string.push_back(SGCloudLayer::SG_CLOUD_FEW_STRING); coverage_string.push_back(SGCloudLayer::SG_CLOUD_SCATTERED_STRING); coverage_string.push_back(SGCloudLayer::SG_CLOUD_BROKEN_STRING); coverage_string.push_back(SGCloudLayer::SG_CLOUD_OVERCAST_STRING); } // don't tie metar-valid, so listeners get triggered _metarValidNode->setBoolValue( false ); _tiedProperties.setRoot( _rootNode ); _tiedProperties.Tie("data", this, &MetarProperties::get_metar, &MetarProperties::set_metar ); _tiedProperties.Tie("station-id", this, &MetarProperties::get_station_id ); _tiedProperties.Tie("station-elevation-ft", &_station_elevation ); _tiedProperties.Tie("station-latitude-deg", &_station_latitude ); _tiedProperties.Tie("station-longitude-deg", &_station_longitude ); _tiedProperties.Tie("min-visibility-m", &_min_visibility ); _tiedProperties.Tie("max-visibility-m", &_max_visibility ); _tiedProperties.Tie("base-wind-range-from", &_base_wind_range_from ); _tiedProperties.Tie("base-wind-range-to", &_base_wind_range_to ); _tiedProperties.Tie("base-wind-speed-kt", &_wind_speed ); _tiedProperties.Tie("base-wind-dir-deg", &_base_wind_dir ); _tiedProperties.Tie("base-wind-from-north-fps", &_wind_from_north_fps ); _tiedProperties.Tie("base-wind-from-east-fps", &_wind_from_east_fps ); _tiedProperties.Tie("gust-wind-speed-kt", &_gusts ); _tiedProperties.Tie("temperature-degc", &_temperature ); _tiedProperties.Tie("dewpoint-degc", &_dewpoint ); _tiedProperties.Tie("rel-humidity-norm", &_humidity ); _tiedProperties.Tie("pressure-inhg", &_pressure ); _tiedProperties.Tie("temperature-sea-level-degc", &_sea_level_temperature ); _tiedProperties.Tie("dewpoint-sea-level-degc", &_sea_level_dewpoint ); _tiedProperties.Tie("pressure-sea-level-inhg", &_sea_level_pressure ); _tiedProperties.Tie("rain-norm", &_rain ); _tiedProperties.Tie("hail-norm", &_hail ); _tiedProperties.Tie("snow-norm", &_snow); _tiedProperties.Tie("snow-cover", &_snow_cover ); _tiedProperties.Tie("decoded", this, &MetarProperties::get_decoded ); } MetarProperties::~MetarProperties() { } static const double thickness_value[] = { 0, 65, 600, 750, 1000 }; void MetarProperties::set_metar( const char * metar ) { _metar = metar; SGSharedPtr m; try { m = new FGMetar( _metar ); } catch( sg_io_exception ) { SG_LOG( SG_GENERAL, SG_WARN, "Can't parse metar: " << _metar ); _metarValidNode->setBoolValue(false); return; } _decoded.clear(); const vector weather = m->getWeather(); for( vector::const_iterator it = weather.begin(); it != weather.end(); it++ ) { if( false == _decoded.empty() ) _decoded.append(", "); _decoded.append(*it); } _min_visibility = m->getMinVisibility().getVisibility_m(); _max_visibility = m->getMaxVisibility().getVisibility_m(); const SGMetarVisibility *dirvis = m->getDirVisibility(); for ( int i = 0; i < 8; i++, dirvis++) { SGPropertyNode *vis = _rootNode->getChild("visibility", i, true); double v = dirvis->getVisibility_m(); vis->setDoubleValue("min-m", v); vis->setDoubleValue("max-m", v); } _base_wind_dir = m->getWindDir(); _base_wind_range_from = m->getWindRangeFrom(); _base_wind_range_to = m->getWindRangeTo(); _wind_speed = m->getWindSpeed_kt(); double speed_fps = _wind_speed * SG_NM_TO_METER * SG_METER_TO_FEET / 3600.0; _wind_from_north_fps = speed_fps * cos((double)_base_wind_dir * SGD_DEGREES_TO_RADIANS); _wind_from_east_fps = speed_fps * sin((double)_base_wind_dir * SGD_DEGREES_TO_RADIANS); _gusts = m->getGustSpeed_kt(); _temperature = m->getTemperature_C(); _dewpoint = m->getDewpoint_C(); _humidity = m->getRelHumidity(); _pressure = m->getPressure_inHg(); { // 1. check the id given in the metar FGAirport* a = FGAirport::findByIdent(m->getId()); /* // 2. if unknown, find closest airport with metar to current position if( a == NULL ) { SGGeod pos = SGGeod::fromDeg(_longitude_n->getDoubleValue(), _latitude_n->getDoubleValue()); a = FGAirport::findClosest(pos, 10000.0, &_airportWithMetarFilter); } */ // 3. otherwise use ground elevation if( a != NULL ) { _station_elevation = a->getElevation(); const SGGeod & towerPosition = a->getTowerLocation(); _station_latitude = towerPosition.getLatitudeDeg(); _station_longitude = towerPosition.getLongitudeDeg(); _station_id = a->ident(); } else { _station_elevation = 0.0; _station_latitude = 0.0; _station_longitude = 0.0; _station_id = "XXXX"; // station_elevation_ft = _ground_elevation_n->getDoubleValue() * SG_METER_TO_FEET; // _station_id = m->getId(); } } { // calculate sea level temperature, dewpoint and pressure FGEnvironment dummy; // instantiate a dummy so we can leech a method dummy.set_elevation_ft( _station_elevation ); dummy.set_temperature_degc( _temperature ); dummy.set_dewpoint_degc( _dewpoint ); _sea_level_temperature = dummy.get_temperature_sea_level_degc(); _sea_level_dewpoint = dummy.get_dewpoint_sea_level_degc(); double elevation_m = _station_elevation * SG_FEET_TO_METER; double fieldPressure = FGAtmo::fieldPressure( elevation_m, _pressure * atmodel::inHg ); _sea_level_pressure = P_layer(0, elevation_m, fieldPressure, _temperature + atmodel::freezing, atmodel::ISA::lam0) / atmodel::inHg; } bool isBC = false; bool isBR = false; bool isFG = false; bool isMI = false; bool isHZ = false; { for( unsigned i = 0; i < 3; i++ ) { SGPropertyNode_ptr n = _rootNode->getChild("weather", i, true ); vector weather = m->getWeather2(); struct SGMetar::Weather * w = i < weather.size() ? &weather[i] : NULL; n->getNode("intensity",true)->setIntValue( w != NULL ? w->intensity : 0 ); n->getNode("vincinity",true)->setBoolValue( w != NULL ? w->vincinity : false ); for( unsigned j = 0; j < 3; j++ ) { const string & phenomenon = w != NULL && j < w->phenomena.size() ? w->phenomena[j].c_str() : ""; n->getChild( "phenomenon", j, true )->setStringValue( phenomenon ); const string & description = w != NULL && j < w->descriptions.size() ? w->descriptions[j].c_str() : ""; n->getChild( "description", j, true )->setStringValue( description ); // need to know later, // if its fog(FG) (might be shallow(MI) or patches(BC)) or haze (HZ) or mist(BR) if( phenomenon == "FG" ) isFG = true; if( phenomenon == "HZ" ) isHZ = true; if( description == "MI" ) isMI = true; if( description == "BC" ) isBC = true; if( description == "BR" ) isBR = true; } } } vector cv = m->getClouds(); vector::const_iterator cloud, cloud_end = cv.end(); { static const char * LAYER = "layer"; SGPropertyNode_ptr cloudsNode = _rootNode->getNode("clouds", true ); const vector & metarClouds = m->getClouds(); unsigned layerOffset = 0; // Oh, this is ugly! bool setGroundCloudLayer = _rootNode->getBoolValue("set-ground-cloud-layer", false ); if( setGroundCloudLayer ) { // create a cloud layer #0 starting at the ground if its fog, mist or haze // make sure layer actually starts at ground and set it's bottom at a constant // value below the station's elevation const double LAYER_BOTTOM_BELOW_STATION_ELEVATION=200; SGMetarCloud::Coverage coverage = SGMetarCloud::COVERAGE_NIL; double thickness = 0; double alpha = 1.0; if( isFG ) { // fog coverage = isBC ? SGMetarCloud::COVERAGE_SCATTERED : SGMetarCloud::COVERAGE_BROKEN; thickness = isMI ? 30 + LAYER_BOTTOM_BELOW_STATION_ELEVATION : // shallow fog, 10m/30ft 500 + LAYER_BOTTOM_BELOW_STATION_ELEVATION; // fog, 150m/500ft alpha = 1.0; } else if( isBR ) { // mist coverage = SGMetarCloud::COVERAGE_OVERCAST; thickness = 2000 + LAYER_BOTTOM_BELOW_STATION_ELEVATION; alpha = 0.8; } else if( isHZ ) { // hase coverage = SGMetarCloud::COVERAGE_OVERCAST; thickness = 2000 + LAYER_BOTTOM_BELOW_STATION_ELEVATION; alpha = 0.6; } // fog is "overcast" by default of "broken" for patches of fog if( coverage != SGMetarCloud::COVERAGE_NIL ) { SGPropertyNode_ptr layerNode = cloudsNode->getChild(LAYER, 0, true ); layerNode->setDoubleValue( "coverage-type", SGCloudLayer::getCoverageType(coverage_string[coverage]) ); layerNode->setStringValue( "coverage", coverage_string[coverage] ); layerNode->setDoubleValue( "elevation-ft", _station_elevation - LAYER_BOTTOM_BELOW_STATION_ELEVATION ); layerNode->setDoubleValue( "thickness-ft", thickness ); layerNode->setDoubleValue( "visibility-m", _min_visibility ); layerNode->setDoubleValue( "alpha", alpha ); _min_visibility = _max_visibility = 20000.0; // assume good visibility above the fog layerOffset = 1; // shudder } } for( unsigned i = 0; i < 5-layerOffset; i++ ) { SGPropertyNode_ptr layerNode = cloudsNode->getChild(LAYER, i+layerOffset, true ); SGMetarCloud::Coverage coverage = i < metarClouds.size() ? metarClouds[i].getCoverage() : SGMetarCloud::COVERAGE_CLEAR; double elevation = i >= metarClouds.size() || coverage == SGMetarCloud::COVERAGE_CLEAR ? -9999.0 : metarClouds[i].getAltitude_ft() + _station_elevation; layerNode->setStringValue( "coverage", coverage_string[coverage] ); layerNode->setDoubleValue( "coverage-type", SGCloudLayer::getCoverageType(coverage_string[coverage]) ); layerNode->setDoubleValue( "elevation-ft", elevation ); layerNode->setDoubleValue( "thickness-ft", thickness_value[coverage]); layerNode->setDoubleValue( "span-m", 40000 ); layerNode->setDoubleValue( "visibility-m", 50.0 ); } } _rain = m->getRain(); _hail = m->getHail(); _snow = m->getSnow(); _snow_cover = m->getSnowCover(); _metarValidNode->setBoolValue(true); } } // namespace Environment