//
// 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.
+// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
# include "config.h"
#endif
-#include <simgear/debug/logstream.hxx>
-
-#include <stdlib.h>
#include <algorithm>
+#include <simgear/debug/logstream.hxx>
#include <simgear/structure/commands.hxx>
#include <simgear/structure/exception.hxx>
#include <Main/fg_props.hxx>
#include <Main/util.hxx>
-#include "environment_mgr.hxx"
+#include "atmosphere.hxx"
+#include "fgmetar.hxx"
#include "environment_ctrl.hxx"
-SG_USING_STD(sort);
+using std::sort;
+class AirportWithMetar : public FGAirport::AirportFilter {
+public:
+ virtual bool passAirport(FGAirport* aApt) const {
+ return aApt->getMetar();
+ }
+};
+static AirportWithMetar airportWithMetarFilter;
\f
////////////////////////////////////////////////////////////////////////
// Implementation of FGEnvironmentCtrl abstract base class.
////////////////////////////////////////////////////////////////////////
FGEnvironmentCtrl::FGEnvironmentCtrl ()
- : _environment(0),
- _lon_deg(0),
- _lat_deg(0),
- _elev_ft(0)
+ : _environment(0),
+ _lon_deg(0),
+ _lat_deg(0),
+ _elev_ft(0)
{
}
void
FGEnvironmentCtrl::setEnvironment (FGEnvironment * environment)
{
- _environment = environment;
+ _environment = environment;
}
void
FGEnvironmentCtrl::setLongitudeDeg (double lon_deg)
{
- _lon_deg = lon_deg;
+ _lon_deg = lon_deg;
}
void
FGEnvironmentCtrl::setLatitudeDeg (double lat_deg)
{
- _lat_deg = lat_deg;
+ _lat_deg = lat_deg;
}
void
FGEnvironmentCtrl::setElevationFt (double elev_ft)
{
- _elev_ft = elev_ft;
+ _elev_ft = elev_ft;
}
void
FGEnvironmentCtrl::setPosition (double lon_deg, double lat_deg, double elev_ft)
{
- _lon_deg = lon_deg;
- _lat_deg = lat_deg;
- _elev_ft = elev_ft;
-}
-
-
-\f
-////////////////////////////////////////////////////////////////////////
-// Implementation of FGUserDefEnvironmentCtrl.
-////////////////////////////////////////////////////////////////////////
-
-FGUserDefEnvironmentCtrl::FGUserDefEnvironmentCtrl ()
- : _base_wind_speed_node(0),
- _gust_wind_speed_node(0),
- _current_wind_speed_kt(0),
- _delta_wind_speed_kt(0)
-{
-}
-
-FGUserDefEnvironmentCtrl::~FGUserDefEnvironmentCtrl ()
-{
-}
-
-void
-FGUserDefEnvironmentCtrl::init ()
-{
- // Fill in some defaults.
- if (!fgHasNode("/environment/params/base-wind-speed-kt"))
- fgSetDouble("/environment/params/base-wind-speed-kt",
- fgGetDouble("/environment/wind-speed-kt"));
- if (!fgHasNode("/environment/params/gust-wind-speed-kt"))
- fgSetDouble("/environment/params/gust-wind-speed-kt",
- fgGetDouble("/environment/params/base-wind-speed-kt"));
-
- _base_wind_speed_node =
- fgGetNode("/environment/params/base-wind-speed-kt", true);
- _gust_wind_speed_node =
- fgGetNode("/environment/params/gust-wind-speed-kt", true);
-
- _current_wind_speed_kt = _base_wind_speed_node->getDoubleValue();
- _delta_wind_speed_kt = 0.1;
-}
-
-void
-FGUserDefEnvironmentCtrl::update (double dt)
-{
- double base_wind_speed = _base_wind_speed_node->getDoubleValue();
- double gust_wind_speed = _gust_wind_speed_node->getDoubleValue();
-
- if (gust_wind_speed < base_wind_speed) {
- gust_wind_speed = base_wind_speed;
- _gust_wind_speed_node->setDoubleValue(gust_wind_speed);
- }
-
- if (base_wind_speed == gust_wind_speed) {
- _current_wind_speed_kt = base_wind_speed;
- } else {
- int rn = rand() % 128;
- int sign = (_delta_wind_speed_kt < 0 ? -1 : 1);
- double gust = _current_wind_speed_kt - base_wind_speed;
- double incr = gust / 50;
-
- if (rn == 0)
- _delta_wind_speed_kt = - _delta_wind_speed_kt;
- else if (rn < 4)
- _delta_wind_speed_kt -= incr * sign;
- else if (rn < 16)
- _delta_wind_speed_kt += incr * sign;
-
- _current_wind_speed_kt += _delta_wind_speed_kt;
-
- if (_current_wind_speed_kt < base_wind_speed) {
- _current_wind_speed_kt = base_wind_speed;
- _delta_wind_speed_kt = 0.01;
- } else if (_current_wind_speed_kt > gust_wind_speed) {
- _current_wind_speed_kt = gust_wind_speed;
- _delta_wind_speed_kt = -0.01;
- }
- }
-
- if (_environment != 0)
- _environment->set_wind_speed_kt(_current_wind_speed_kt);
+ _lon_deg = lon_deg;
+ _lat_deg = lat_deg;
+ _elev_ft = elev_ft;
}
// Implementation of FGInterpolateEnvironmentCtrl.
////////////////////////////////////////////////////////////////////////
+
FGInterpolateEnvironmentCtrl::FGInterpolateEnvironmentCtrl ()
{
+ altitude_n = fgGetNode("/position/altitude-ft", true);
+ altitude_agl_n = fgGetNode("/position/altitude-agl-ft", true);
+ boundary_transition_n = fgGetNode("/environment/config/boundary-transition-ft", false );
+ boundary_n = fgGetNode("/environment/config/boundary", true );
+ aloft_n = fgGetNode("/environment/config/aloft", true );
}
FGInterpolateEnvironmentCtrl::~FGInterpolateEnvironmentCtrl ()
{
- unsigned int i;
- for (i = 0; i < _boundary_table.size(); i++)
- delete _boundary_table[i];
- for (i = 0; i < _aloft_table.size(); i++)
- delete _aloft_table[i];
+ unsigned int i;
+ for (i = 0; i < _boundary_table.size(); i++)
+ delete _boundary_table[i];
+ for (i = 0; i < _aloft_table.size(); i++)
+ delete _aloft_table[i];
}
void
FGInterpolateEnvironmentCtrl::init ()
{
- read_table(fgGetNode("/environment/config/boundary", true),
- _boundary_table);
- read_table(fgGetNode("/environment/config/aloft", true),
- _aloft_table);
+ read_table( boundary_n, _boundary_table);
+ read_table( aloft_n, _aloft_table);
}
void
FGInterpolateEnvironmentCtrl::reinit ()
{
- unsigned int i;
- for (i = 0; i < _boundary_table.size(); i++)
- delete _boundary_table[i];
- for (i = 0; i < _aloft_table.size(); i++)
- delete _aloft_table[i];
- _boundary_table.clear();
- _aloft_table.clear();
- init();
+ init();
}
void
-FGInterpolateEnvironmentCtrl::read_table (const SGPropertyNode * node,
- vector<bucket *> &table)
-{
- for (int i = 0; i < node->nChildren(); i++) {
- const SGPropertyNode * child = node->getChild(i);
- if ( strcmp(child->getName(), "entry") == 0
- && child->getStringValue("elevation-ft", "")[0] != '\0'
- && ( child->getDoubleValue("elevation-ft") > 0.1 || i == 0 ) )
+FGInterpolateEnvironmentCtrl::read_table (const SGPropertyNode * node, vector<bucket *> &table)
+{
+ double last_altitude_ft = 0.0;
+ double sort_required = false;
+ size_t i;
+
+ for (i = 0; i < (size_t)node->nChildren(); i++) {
+ const SGPropertyNode * child = node->getChild(i);
+ if ( strcmp(child->getName(), "entry") == 0
+ && child->getStringValue("elevation-ft", "")[0] != '\0'
+ && ( child->getDoubleValue("elevation-ft") > 0.1 || i == 0 ) )
{
- bucket * b = new bucket;
- if (i > 0)
- b->environment.copy(table[i-1]->environment);
- b->environment.read(child);
- b->altitude_ft = b->environment.get_elevation_ft();
- table.push_back(b);
- }
- }
- sort(table.begin(), table.end());
+ bucket * b;
+ if( i < table.size() ) {
+ // recycle existing bucket
+ b = table[i];
+ } else {
+ // more nodes than buckets in table, add a new one
+ b = new bucket;
+ table.push_back(b);
+ }
+ if (i > 0)
+ b->environment.copy(table[i-1]->environment);
+ b->environment.read(child);
+ b->altitude_ft = b->environment.get_elevation_ft();
+
+ // check, if altitudes are in ascending order
+ if( b->altitude_ft < last_altitude_ft )
+ sort_required = true;
+ last_altitude_ft = b->altitude_ft;
+ }
+ }
+ // remove leftover buckets
+ while( table.size() > i ) {
+ bucket * b = *(table.end() - 1);
+ delete b;
+ table.pop_back();
+ }
+
+ if( sort_required )
+ sort(table.begin(), table.end(), bucket::lessThan);
}
void
FGInterpolateEnvironmentCtrl::update (double delta_time_sec)
{
- // FIXME
- double altitude_ft = fgGetDouble("/position/altitude-ft");
- double altitude_agl_ft = fgGetDouble("/position/altitude-agl-ft");
- double boundary_transition =
- fgGetDouble("/environment/config/boundary-transition-ft", 500);
-
- // double ground_elevation_ft = altitude_ft - altitude_agl_ft;
-
- int length = _boundary_table.size();
-
- if (length > 0) {
- // boundary table
- double boundary_limit = _boundary_table[length-1]->altitude_ft;
- if (boundary_limit >= altitude_agl_ft) {
- do_interpolate(_boundary_table, altitude_agl_ft,
- _environment);
- return;
- } else if ((boundary_limit + boundary_transition) >= altitude_agl_ft) {
- // both tables
- do_interpolate(_boundary_table, altitude_agl_ft, &env1);
- do_interpolate(_aloft_table, altitude_ft, &env2);
- double fraction =
- (altitude_agl_ft - boundary_limit) / boundary_transition;
- interpolate(&env1, &env2, fraction, _environment);
- return;
- }
- }
-
- // aloft table
- do_interpolate(_aloft_table, altitude_ft, _environment);
+ double altitude_ft = altitude_n->getDoubleValue();
+ double altitude_agl_ft = altitude_agl_n->getDoubleValue();
+ double boundary_transition =
+ boundary_transition_n == NULL ? 500 : boundary_transition_n->getDoubleValue();
+
+ int length = _boundary_table.size();
+
+ if (length > 0) {
+ // boundary table
+ double boundary_limit = _boundary_table[length-1]->altitude_ft;
+ if (boundary_limit >= altitude_agl_ft) {
+ do_interpolate(_boundary_table, altitude_agl_ft, _environment);
+ return;
+ } else if ((boundary_limit + boundary_transition) >= altitude_agl_ft) {
+ //TODO: this is 500ft above the top altitude of boundary layer
+ //shouldn't this be +/-250 ft off of the top altitude?
+ // both tables
+ do_interpolate(_boundary_table, altitude_agl_ft, &env1);
+ do_interpolate(_aloft_table, altitude_ft, &env2);
+ double fraction =
+ (altitude_agl_ft - boundary_limit) / boundary_transition;
+ interpolate(&env1, &env2, fraction, _environment);
+ return;
+ }
+ }
+ // aloft table
+ do_interpolate(_aloft_table, altitude_ft, _environment);
}
void
-FGInterpolateEnvironmentCtrl::do_interpolate (vector<bucket *> &table,
- double altitude_ft,
- FGEnvironment * environment)
-{
- int length = table.size();
- if (length == 0)
- return;
-
- // Boundary conditions
- if ((length == 1) || (table[0]->altitude_ft >= altitude_ft)) {
- environment->copy(table[0]->environment);
- return;
- } else if (table[length-1]->altitude_ft <= altitude_ft) {
- environment->copy(table[length-1]->environment);
- return;
- }
-
- // Search the interpolation table
- for (int i = 0; i < length - 1; i++) {
- if ((i == length - 1) || (table[i]->altitude_ft <= altitude_ft)) {
- FGEnvironment * env1 = &(table[i]->environment);
- FGEnvironment * env2 = &(table[i+1]->environment);
- double fraction;
- if (table[i]->altitude_ft == table[i+1]->altitude_ft)
- fraction = 1.0;
- else
- fraction =
- ((altitude_ft - table[i]->altitude_ft) /
- (table[i+1]->altitude_ft - table[i]->altitude_ft));
- interpolate(env1, env2, fraction, environment);
-
- return;
- }
- }
+FGInterpolateEnvironmentCtrl::do_interpolate (vector<bucket *> &table, double altitude_ft, FGEnvironment * environment)
+{
+ int length = table.size();
+ if (length == 0)
+ return;
+
+ // Boundary conditions
+ if ((length == 1) || (table[0]->altitude_ft >= altitude_ft)) {
+ environment->copy(table[0]->environment);
+ return;
+ } else if (table[length-1]->altitude_ft <= altitude_ft) {
+ environment->copy(table[length-1]->environment);
+ return;
+ }
+ // Search the interpolation table
+ for (int i = 0; i < length - 1; i++) {
+ if ((i == length - 1) || (table[i]->altitude_ft <= altitude_ft)) {
+ FGEnvironment * env1 = &(table[i]->environment);
+ FGEnvironment * env2 = &(table[i+1]->environment);
+ double fraction;
+ if (table[i]->altitude_ft == table[i+1]->altitude_ft)
+ fraction = 1.0;
+ else
+ fraction =
+ ((altitude_ft - table[i]->altitude_ft) /
+ (table[i+1]->altitude_ft - table[i]->altitude_ft));
+ interpolate(env1, env2, fraction, environment);
+
+ return;
+ }
+ }
}
bool
FGInterpolateEnvironmentCtrl::bucket::operator< (const bucket &b) const
{
- return (altitude_ft < b.altitude_ft);
+ return (altitude_ft < b.altitude_ft);
}
+bool
+FGInterpolateEnvironmentCtrl::bucket::lessThan(bucket *a, bucket *b)
+{
+ return (a->altitude_ft) < (b->altitude_ft);
+}
\f
////////////////////////////////////////////////////////////////////////
-// Implementation of FGMetarEnvironmentCtrl.
+// Implementation of FGMetarCtrl.
////////////////////////////////////////////////////////////////////////
-FGMetarEnvironmentCtrl::FGMetarEnvironmentCtrl ()
- : env( new FGInterpolateEnvironmentCtrl ),
- _icao( "" ),
- search_interval_sec( 60.0 ), // 1 minute
- same_station_interval_sec( 900.0 ), // 15 minutes
- search_elapsed( 9999.0 ),
- fetch_elapsed( 9999.0 ),
- proxy_host( fgGetNode("/sim/presets/proxy/host", true) ),
- proxy_port( fgGetNode("/sim/presets/proxy/port", true) ),
- proxy_auth( fgGetNode("/sim/presets/proxy/authentication", true) ),
- metar_max_age( fgGetNode("/environment/params/metar-max-age-min", true) ),
- _error_count( 0 ),
- _stale_count( 0 ),
- _dt( 0.0 ),
- _error_dt( 0.0 ),
- last_apt(0)
+FGMetarCtrl::FGMetarCtrl( SGSubsystem * environmentCtrl )
+ :
+ metar_valid(false),
+ setup_winds_aloft(true),
+ wind_interpolation_required(true),
+ // Interpolation constant definitions.
+ EnvironmentUpdatePeriodSec( 0.2 ),
+ MaxWindChangeKtsSec( 0.2 ),
+ MaxVisChangePercentSec( 0.05 ),
+ MaxPressureChangeInHgSec( 0.0033 ),
+ MaxCloudAltitudeChangeFtSec( 20.0 ),
+ MaxCloudThicknessChangeFtSec( 50.0 ),
+ MaxCloudInterpolationHeightFt( 5000.0 ),
+ MaxCloudInterpolationDeltaFt( 4000.0 ),
+ _environmentCtrl(environmentCtrl)
{
-#if defined(ENABLE_THREADS)
- thread = new MetarThread(this);
- thread->start( 1 );
-#endif // ENABLE_THREADS
+ windModulator = new FGBasicWindModulator();
+
+ metar_base_n = fgGetNode( "/environment/metar", true );
+ station_id_n = metar_base_n->getNode("station-id", true );
+ station_elevation_n = metar_base_n->getNode("station-elevation-ft", true );
+ min_visibility_n = metar_base_n->getNode("min-visibility-m", true );
+ max_visibility_n = metar_base_n->getNode("max-visibility-m", true );
+ base_wind_range_from_n = metar_base_n->getNode("base-wind-range-from", true );
+ base_wind_range_to_n = metar_base_n->getNode("base-wind-range-to", true );
+ base_wind_speed_n = metar_base_n->getNode("base-wind-speed-kt", true );
+ base_wind_dir_n = metar_base_n->getNode("base-wind-dir-deg", true );
+ gust_wind_speed_n = metar_base_n->getNode("gust-wind-speed-kt", true );
+ temperature_n = metar_base_n->getNode("temperature-degc", true );
+ dewpoint_n = metar_base_n->getNode("dewpoint-degc", true );
+ humidity_n = metar_base_n->getNode("rel-humidity-norm", true );
+ pressure_n = metar_base_n->getNode("pressure-inhg", true );
+ clouds_n = metar_base_n->getNode("clouds", true );
+ rain_n = metar_base_n->getNode("rain-norm", true );
+ hail_n = metar_base_n->getNode("hail-norm", true );
+ snow_n = metar_base_n->getNode("snow-norm", true );
+ snow_cover_n = metar_base_n->getNode("snow-cover", true );
+ magnetic_variation_n = fgGetNode( "/environment/magnetic-variation-deg", true );
+ ground_elevation_n = fgGetNode( "/position/ground-elev-m", true );
+ longitude_n = fgGetNode( "/position/longitude-deg", true );
+ latitude_n = fgGetNode( "/position/latitude-deg", true );
+ environment_clouds_n = fgGetNode("/environment/clouds");
+
+ boundary_wind_speed_n = fgGetNode("/environment/config/boundary/entry/wind-speed-kt");
+ boundary_wind_from_heading_n = fgGetNode("/environment/config/boundary/entry/wind-from-heading-deg");
+ boundary_visibility_n = fgGetNode("/environment/config/boundary/entry/visibility-m");
+ boundary_sea_level_pressure_n = fgGetNode("/environment/config/boundary/entry/pressure-sea-level-inhg");
}
-FGMetarEnvironmentCtrl::~FGMetarEnvironmentCtrl ()
+FGMetarCtrl::~FGMetarCtrl ()
{
-#if defined(ENABLE_THREADS)
- thread->cancel();
- thread->join();
-#endif // ENABLE_THREADS
+}
- delete env;
- env = NULL;
+void FGMetarCtrl::bind ()
+{
+ fgTie("/environment/metar/valid", this, &FGMetarCtrl::get_valid );
+ fgTie("/environment/params/metar-updates-environment", this, &FGMetarCtrl::get_enabled, &FGMetarCtrl::set_enabled );
+ fgTie("/environment/params/metar-updates-winds-aloft", this, &FGMetarCtrl::get_setup_winds_aloft, &FGMetarCtrl::set_setup_winds_aloft );
}
+void FGMetarCtrl::unbind ()
+{
+ fgUntie("/environment/metar/valid");
+ fgUntie("/environment/params/metar-updates-environment");
+ fgUntie("/environment/params/metar-updates-winds-aloft");
+}
// use a "command" to set station temp at station elevation
static void set_temp_at_altitude( float temp_degc, float altitude_ft ) {
- SGPropertyNode args;
- SGPropertyNode *node = args.getNode("temp-degc", 0, true);
- node->setFloatValue( temp_degc );
- node = args.getNode("altitude-ft", 0, true);
- node->setFloatValue( altitude_ft );
- globals->get_commands()->execute("set-outside-air-temp-degc", &args);
+ SGPropertyNode args;
+ SGPropertyNode *node = args.getNode("temp-degc", 0, true);
+ node->setFloatValue( temp_degc );
+ node = args.getNode("altitude-ft", 0, true);
+ node->setFloatValue( altitude_ft );
+ globals->get_commands()->execute("set-outside-air-temp-degc", &args);
}
-
static void set_dewpoint_at_altitude( float dewpoint_degc, float altitude_ft ) {
- SGPropertyNode args;
- SGPropertyNode *node = args.getNode("dewpoint-degc", 0, true);
- node->setFloatValue( dewpoint_degc );
- node = args.getNode("altitude-ft", 0, true);
- node->setFloatValue( altitude_ft );
- globals->get_commands()->execute("set-dewpoint-temp-degc", &args);
+ SGPropertyNode args;
+ SGPropertyNode *node = args.getNode("dewpoint-degc", 0, true);
+ node->setFloatValue( dewpoint_degc );
+ node = args.getNode("altitude-ft", 0, true);
+ node->setFloatValue( altitude_ft );
+ globals->get_commands()->execute("set-dewpoint-temp-degc", &args);
}
+/*
+ Setup the wind nodes for a branch in the /environment/config/<branchName>/entry nodes
-void
-FGMetarEnvironmentCtrl::update_env_config ()
+ Output properties:
+ wind-from-heading-deg
+ wind-speed-kt
+ turbulence/magnitude-norm
+
+ Input properties:
+ wind-heading-change-deg how many degrees does the wind direction change at this level
+ wind-speed-change-rel relative change of wind speed at this level
+ turbulence/factor factor for the calculated turbulence magnitude at this level
+ */
+static void setupWindBranch( string branchName, double dir, double speed, double gust )
{
- fgSetupWind( fgGetDouble("/environment/metar/base-wind-range-from"),
- fgGetDouble("/environment/metar/base-wind-range-to"),
- fgGetDouble("/environment/metar/base-wind-speed-kt"),
- fgGetDouble("/environment/metar/gust-wind-speed-kt") );
+ SGPropertyNode_ptr branch = fgGetNode("/environment/config", true)->getNode(branchName,true);
+ vector<SGPropertyNode_ptr> entries = branch->getChildren("entry");
+ for ( vector<SGPropertyNode_ptr>::iterator it = entries.begin(); it != entries.end(); it++) {
+
+ // change wind direction as configured
+ double layer_dir = dir + (*it)->getDoubleValue("wind-heading-change-deg", 0.0 );
+ if( layer_dir >= 360.0 ) layer_dir -= 360.0;
+ if( layer_dir < 0.0 ) layer_dir += 360.0;
+ (*it)->setDoubleValue("wind-from-heading-deg", layer_dir);
+
+ double layer_speed = speed*(1 + (*it)->getDoubleValue("wind-speed-change-rel", 0.0 ));
+ (*it)->setDoubleValue("wind-speed-kt", layer_speed );
+
+ // add some turbulence
+ SGPropertyNode_ptr turbulence = (*it)->getNode("turbulence",true);
+
+ double turbulence_norm = speed/50;
+ if( gust > speed ) {
+ turbulence_norm += (gust-speed)/25;
+ }
+ if( turbulence_norm > 1.0 ) turbulence_norm = 1.0;
+
+ turbulence_norm *= turbulence->getDoubleValue("factor", 0.0 );
+ turbulence->setDoubleValue( "magnitude-norm", turbulence_norm );
+ }
+}
- fgDefaultWeatherValue( "visibility-m",
- fgGetDouble("/environment/metar/min-visibility-m") );
- set_temp_at_altitude( fgGetDouble("/environment/metar/temperature-degc"),
- station_elevation_ft );
- set_dewpoint_at_altitude( fgGetDouble("/environment/metar/dewpoint-degc"),
- station_elevation_ft );
- fgDefaultWeatherValue( "pressure-sea-level-inhg",
- fgGetDouble("/environment/metar/pressure-inhg") );
+static void setupWind( bool setup_aloft, double dir, double speed, double gust )
+{
+ setupWindBranch( "boundary", dir, speed, gust );
+ if( setup_aloft )
+ setupWindBranch( "aloft", dir, speed, gust );
+}
+
+double FGMetarCtrl::interpolate_val(double currentval, double requiredval, double dt)
+{
+ double dval = EnvironmentUpdatePeriodSec * dt;
+
+ if (fabs(currentval - requiredval) < dval) return requiredval;
+ if (currentval < requiredval) return (currentval + dval);
+ if (currentval > requiredval) return (currentval - dval);
+ return requiredval;
}
void
-FGMetarEnvironmentCtrl::init ()
-{
- const SGPropertyNode *longitude
- = fgGetNode( "/position/longitude-deg", true );
- const SGPropertyNode *latitude
- = fgGetNode( "/position/latitude-deg", true );
-
- bool found_metar = false;
- long max_age = metar_max_age->getLongValue();
- // Don't check max age during init so that we don't loop over a lot
- // of airports metar if there is a problem.
- // The update() calls will find a correct metar if things went wrong here
- metar_max_age->setLongValue(0);
-
- while ( !found_metar && (_error_count < 3) ) {
- const FGAirport* a = globals->get_airports()
- ->search( longitude->getDoubleValue(),
- latitude->getDoubleValue(),
- true );
- if ( a ) {
- FGMetarResult result = fetch_data( a->getId() );
- if ( result.m != NULL ) {
- SG_LOG( SG_GENERAL, SG_INFO, "closest station w/ metar = "
- << a->getId());
- last_apt = a;
- _icao = a->getId();
- search_elapsed = 0.0;
- fetch_elapsed = 0.0;
- update_metar_properties( result.m );
- update_env_config();
- env->init();
- found_metar = true;
- } else {
- // mark as no metar so it doesn't show up in subsequent
- // searches.
- SG_LOG( SG_GENERAL, SG_INFO, "no metar at metar = "
- << a->getId() );
- globals->get_airports()->no_metar( a->getId() );
- }
- }
- }
- metar_max_age->setLongValue(max_age);
+FGMetarCtrl::init ()
+{
+ first_update = true;
+ wind_interpolation_required = true;
}
void
-FGMetarEnvironmentCtrl::reinit ()
+FGMetarCtrl::reinit ()
{
- _error_count = 0;
- _error_dt = 0.0;
+ init();
+}
-#if 0
- update_env_config();
-#endif
+static inline double convert_to_360( double d )
+{
+ if( d < 0.0 ) return d + 360.0;
+ if( d >= 360.0 ) return d - 360.0;
+ return d;
+}
- env->reinit();
+static inline double convert_to_180( double d )
+{
+ return d > 180.0 ? d - 360.0 : d;
}
-void
-FGMetarEnvironmentCtrl::update(double delta_time_sec)
-{
-
- _dt += delta_time_sec;
- if (_error_count >= 3)
- return;
-
- FGMetarResult result;
-
- static const SGPropertyNode *longitude
- = fgGetNode( "/position/longitude-deg", true );
- static const SGPropertyNode *latitude
- = fgGetNode( "/position/latitude-deg", true );
- search_elapsed += delta_time_sec;
- fetch_elapsed += delta_time_sec;
-
- // if time for a new search request, push it onto the request
- // queue
- if ( search_elapsed > search_interval_sec ) {
- const FGAirport* a = globals->get_airports()
- ->search( longitude->getDoubleValue(),
- latitude->getDoubleValue(),
- true );
- if ( a ) {
- if ( !last_apt || last_apt->getId() != a->getId()
- || fetch_elapsed > same_station_interval_sec )
- {
- SG_LOG( SG_GENERAL, SG_INFO, "closest station w/ metar = "
- << a->getId());
- request_queue.push( a->getId() );
- last_apt = a;
- _icao = a->getId();
- search_elapsed = 0.0;
- fetch_elapsed = 0.0;
- } else {
- search_elapsed = 0.0;
- SG_LOG( SG_GENERAL, SG_INFO, "same station, waiting = "
- << same_station_interval_sec - fetch_elapsed );
- }
- } else {
- SG_LOG( SG_GENERAL, SG_WARN,
- "Unable to find any airports with metar" );
- }
- }
-
-#if !defined(ENABLE_THREADS)
- // No loader thread running so manually fetch the data
- string id = "";
- while ( !request_queue.empty() ) {
- id = request_queue.front();
- request_queue.pop();
- }
-
- if ( !id.empty() ) {
- SG_LOG( SG_GENERAL, SG_INFO, "inline fetching = " << id );
- result = fetch_data( id );
- result_queue.push( result );
- }
-#endif // ENABLE_THREADS
+// Return the sea level pressure for a metar observation, in inHg.
+// This is different from QNH because it accounts for the current
+// temperature at the observation point.
+// metarPressure in inHg
+// fieldHt in ft
+// fieldTemp in C
- // process any results from the loader.
- while ( !result_queue.empty() ) {
- result = result_queue.front();
- result_queue.pop();
- if ( result.m != NULL ) {
- update_metar_properties( result.m );
- delete result.m;
- update_env_config();
- env->reinit();
- } else {
- // mark as no metar so it doesn't show up in subsequent
- // searches, and signal an immediate re-search.
- SG_LOG( SG_GENERAL, SG_WARN,
- "no metar at station = " << result.icao );
- globals->get_airports()->no_metar( result.icao );
- search_elapsed = 9999.0;
- }
- }
-
- env->update(delta_time_sec);
+static double reducePressureSl(double metarPressure, double fieldHt,
+ double fieldTemp)
+{
+ double elev = fieldHt * SG_FEET_TO_METER;
+ double fieldPressure
+ = FGAtmo::fieldPressure(elev, metarPressure * atmodel::inHg);
+ double slPressure = P_layer(0, elev, fieldPressure,
+ fieldTemp + atmodel::freezing,
+ atmodel::ISA::lam0);
+ return slPressure / atmodel::inHg;
}
-
void
-FGMetarEnvironmentCtrl::setEnvironment (FGEnvironment * environment)
-{
- env->setEnvironment(environment);
-}
-
-FGMetarResult
-FGMetarEnvironmentCtrl::fetch_data( const string &icao )
-{
- FGMetarResult result;
- result.icao = icao;
-
- // if the last error was more than three seconds ago,
- // then pretent nothing happened.
- if (_error_dt < 3) {
- _error_dt += _dt;
-
- } else {
- _error_dt = 0.0;
- _error_count = 0;
- }
-
- // fetch station elevation if exists
- const FGAirport* a = globals->get_airports()->search( icao );
- if ( a ) {
- station_elevation_ft = a->getElevation();
- }
-
- // fetch current metar data
- try {
- string host = proxy_host->getStringValue();
- string auth = proxy_auth->getStringValue();
- string port = proxy_port->getStringValue();
- result.m = new FGMetar( icao, host, port, auth);
-
- long max_age = metar_max_age->getLongValue();
- long age = result.m->getAge_min();
- if (max_age && age > max_age) {
- SG_LOG( SG_GENERAL, SG_WARN, "METAR data too old (" << age << " min).");
- delete result.m;
- result.m = NULL;
-
- if (++_stale_count > 10) {
- _error_count = 1000;
- throw sg_io_exception("More than 10 stale METAR messages in a row."
- " Check your system time!");
- }
- } else
- _stale_count = 0;
-
- } catch (const sg_io_exception& e) {
- SG_LOG( SG_GENERAL, SG_WARN, "Error fetching live weather data: "
- << e.getFormattedMessage().c_str() );
-#if defined(ENABLE_THREADS)
- if (_error_count++ >= 3) {
- SG_LOG( SG_GENERAL, SG_WARN, "Stop fetching data permanently.");
- thread->cancel();
- thread->join();
- }
-#endif
-
- result.m = NULL;
- }
+FGMetarCtrl::update(double dt)
+{
+ if( dt <= 0 || !metar_valid ||!enabled)
+ return;
- _dt = 0;
+ windModulator->update(dt);
+ // Interpolate the current configuration closer to the actual METAR
+
+ bool reinit_required = false;
+ bool layer_rebuild_required = false;
+ double station_elevation_ft = station_elevation_n->getDoubleValue();
+
+ if (first_update) {
+ double dir = base_wind_dir_n->getDoubleValue()+magnetic_variation_n->getDoubleValue();
+ double speed = base_wind_speed_n->getDoubleValue();
+ double gust = gust_wind_speed_n->getDoubleValue();
+ setupWind(setup_winds_aloft, dir, speed, gust);
+
+ double metarvis = min_visibility_n->getDoubleValue();
+ fgDefaultWeatherValue("visibility-m", metarvis);
+
+ double metarpressure = pressure_n->getDoubleValue();
+ fgDefaultWeatherValue("pressure-sea-level-inhg",
+ reducePressureSl(metarpressure,
+ station_elevation_ft,
+ temperature_n->getDoubleValue()));
+
+ // We haven't already loaded a METAR, so apply it immediately.
+ vector<SGPropertyNode_ptr> layers = clouds_n->getChildren("layer");
+ vector<SGPropertyNode_ptr>::const_iterator layer;
+ vector<SGPropertyNode_ptr>::const_iterator layers_end = layers.end();
+
+ int i;
+ for (i = 0, layer = layers.begin(); layer != layers_end; ++layer, i++) {
+ SGPropertyNode *target = environment_clouds_n->getChild("layer", i, true);
+
+ target->setStringValue("coverage",
+ (*layer)->getStringValue("coverage", "clear"));
+ target->setDoubleValue("elevation-ft",
+ (*layer)->getDoubleValue("elevation-ft"));
+ target->setDoubleValue("thickness-ft",
+ (*layer)->getDoubleValue("thickness-ft"));
+ target->setDoubleValue("span-m", 40000.0);
+ }
+
+ first_update = false;
+ reinit_required = true;
+ layer_rebuild_required = true;
+
+ } else {
+ if( wind_interpolation_required ) {
+ // Generate interpolated values between the METAR and the current
+ // configuration.
+
+ // Pick up the METAR wind values and convert them into a vector.
+ double metar[2];
+ double metar_speed = base_wind_speed_n->getDoubleValue();
+ double metar_heading = base_wind_dir_n->getDoubleValue()+magnetic_variation_n->getDoubleValue();
+
+ metar[0] = metar_speed * sin(metar_heading * SG_DEGREES_TO_RADIANS );
+ metar[1] = metar_speed * cos(metar_heading * SG_DEGREES_TO_RADIANS);
+
+ // Convert the current wind values and convert them into a vector
+ double current[2];
+ double speed = boundary_wind_speed_n->getDoubleValue();
+ double dir_from = boundary_wind_from_heading_n->getDoubleValue();;
+
+ current[0] = speed * sin(dir_from * SG_DEGREES_TO_RADIANS );
+ current[1] = speed * cos(dir_from * SG_DEGREES_TO_RADIANS );
+
+ // Determine the maximum component-wise value that the wind can change.
+ // First we determine the fraction in the X and Y component, then
+ // factor by the maximum wind change.
+ double x = fabs(current[0] - metar[0]);
+ double y = fabs(current[1] - metar[1]);
+
+ // only interpolate if we have a difference
+ if (x + y > 0.01 ) {
+ double dx = x / (x + y);
+ double dy = 1 - dx;
+
+ double maxdx = dx * MaxWindChangeKtsSec;
+ double maxdy = dy * MaxWindChangeKtsSec;
+
+ // Interpolate each component separately.
+ current[0] = interpolate_val(current[0], metar[0], maxdx);
+ current[1] = interpolate_val(current[1], metar[1], maxdy);
+
+ // Now convert back to polar coordinates.
+ if ((fabs(current[0]) > 0.1) || (fabs(current[1]) > 0.1)) {
+ // Some real wind to convert back from. Work out the speed
+ // and direction value in degrees.
+ speed = sqrt((current[0] * current[0]) + (current[1] * current[1]));
+ dir_from = (atan2(current[0], current[1]) * SG_RADIANS_TO_DEGREES );
+
+ // Normalize the direction.
+ if (dir_from < 0.0)
+ dir_from += 360.0;
+
+ SG_LOG( SG_GENERAL, SG_DEBUG, "Wind : " << dir_from << "@" << speed);
+ } else {
+ // Special case where there is no wind (otherwise atan2 barfs)
+ speed = 0.0;
+ }
+ double gust = gust_wind_speed_n->getDoubleValue();
+ setupWind(setup_winds_aloft, dir_from, speed, gust);
+ reinit_required = true;
+ } else {
+ wind_interpolation_required = false;
+ }
+ } else { // if(wind_interpolation_required)
+ // interpolation of wind vector is finished, apply wind
+ // variations and gusts for the boundary layer only
+
+
+ bool wind_modulated = false;
+
+ // start with the main wind direction
+ double wind_dir = base_wind_dir_n->getDoubleValue()+magnetic_variation_n->getDoubleValue();
+ double min = convert_to_180(base_wind_range_from_n->getDoubleValue()+magnetic_variation_n->getDoubleValue());
+ double max = convert_to_180(base_wind_range_to_n->getDoubleValue()+magnetic_variation_n->getDoubleValue());
+ if( max > min ) {
+ // if variable winds configured, modulate the wind direction
+ double f = windModulator->get_direction_offset_norm();
+ wind_dir = min+(max-min)*f;
+ double old = convert_to_180(boundary_wind_from_heading_n->getDoubleValue());
+ wind_dir = convert_to_360(fgGetLowPass(old, wind_dir, dt ));
+ wind_modulated = true;
+ }
+
+ // start with main wind speed
+ double wind_speed = base_wind_speed_n->getDoubleValue();
+ max = gust_wind_speed_n->getDoubleValue();
+ if( max > wind_speed ) {
+ // if gusts are configured, modulate wind magnitude
+ double f = windModulator->get_magnitude_factor_norm();
+ wind_speed = wind_speed+(max-wind_speed)*f;
+ wind_speed = fgGetLowPass(boundary_wind_speed_n->getDoubleValue(), wind_speed, dt );
+ wind_modulated = true;
+ }
+ if( wind_modulated ) {
+ setupWind(false, wind_dir, wind_speed, max);
+ reinit_required = true;
+ }
+ }
+
+ // Now handle the visibility. We convert both visibility values
+ // to X-values, then interpolate from there, then back to real values.
+ // The length_scale is fixed to 1000m, so the visibility changes by
+ // by MaxVisChangePercentSec or 1000m X MaxVisChangePercentSec,
+ // whichever is more.
+ double vis = boundary_visibility_n->getDoubleValue();;
+ double metarvis = min_visibility_n->getDoubleValue();
+ if( vis != metarvis ) {
+ double currentxval = log(1000.0 + vis);
+ double metarxval = log(1000.0 + metarvis);
+
+ currentxval = interpolate_val(currentxval, metarxval, MaxVisChangePercentSec);
+
+ // Now convert back from an X-value to a straightforward visibility.
+ vis = exp(currentxval) - 1000.0;
+ fgDefaultWeatherValue("visibility-m", vis);
+ reinit_required = true;
+ }
+
+ double pressure = boundary_sea_level_pressure_n->getDoubleValue();
+ double metarpressure = pressure_n->getDoubleValue();
+ double newpressure = reducePressureSl(metarpressure,
+ station_elevation_ft,
+ temperature_n->getDoubleValue());
+ if( pressure != newpressure ) {
+ pressure = interpolate_val( pressure, newpressure, MaxPressureChangeInHgSec );
+ fgDefaultWeatherValue("pressure-sea-level-inhg", pressure);
+ reinit_required = true;
+ }
+
+ // Set the cloud layers by interpolating over the METAR versions.
+ vector<SGPropertyNode_ptr> layers = clouds_n->getChildren("layer");
+ vector<SGPropertyNode_ptr>::const_iterator layer;
+ vector<SGPropertyNode_ptr>::const_iterator layers_end = layers.end();
+
+ double aircraft_alt = fgGetDouble("/position/altitude-ft");
+ int i;
+
+ for (i = 0, layer = layers.begin(); layer != layers_end; ++layer, i++) {
+ SGPropertyNode *target = environment_clouds_n->getChild("layer", i, true);
+
+ // In the case of clouds, we want to avoid writing if nothing has
+ // changed, as these properties are tied to the renderer and will
+ // cause the clouds to be updated, reseting the texture locations.
+
+ // We don't interpolate the coverage values as no-matter how we
+ // do it, it will be quite a sudden change of texture. Better to
+ // have a single change than four or five.
+ const char *coverage = (*layer)->getStringValue("coverage", "clear");
+ SGPropertyNode *cov = target->getNode("coverage", true);
+ if (strcmp(cov->getStringValue(), coverage) != 0) {
+ cov->setStringValue(coverage);
+ layer_rebuild_required = true;
+ }
+
+ double required_alt = (*layer)->getDoubleValue("elevation-ft");
+ double current_alt = target->getDoubleValue("elevation-ft");
+ double required_thickness = (*layer)->getDoubleValue("thickness-ft");
+ SGPropertyNode *thickness = target->getNode("thickness-ft", true);
+
+ if (current_alt < -9000 || required_alt < -9000 ||
+ fabs(aircraft_alt - required_alt) > MaxCloudInterpolationHeightFt ||
+ fabs(current_alt - required_alt) > MaxCloudInterpolationDeltaFt) {
+ // We don't interpolate any layers that are
+ // - too far above us to be visible
+ // - too far below us to be visible
+ // - with too large a difference to make interpolation sensible
+ // - to or from -9999 (used as a placeholder)
+ // - any values that are too high above us,
+ if (current_alt != required_alt)
+ target->setDoubleValue("elevation-ft", required_alt);
+
+ if (thickness->getDoubleValue() != required_thickness)
+ thickness->setDoubleValue(required_thickness);
+
+ } else {
+ // Interpolate the other values in the usual way
+ if (current_alt != required_alt) {
+ current_alt = interpolate_val(current_alt, required_alt, MaxCloudAltitudeChangeFtSec);
+ target->setDoubleValue("elevation-ft", current_alt);
+ }
+
+ double current_thickness = thickness->getDoubleValue();
+
+ if (current_thickness != required_thickness) {
+ current_thickness = interpolate_val(current_thickness,
+ required_thickness,
+ MaxCloudThicknessChangeFtSec);
+ thickness->setDoubleValue(current_thickness);
+ }
+ }
+ }
+ }
+ set_temp_at_altitude(temperature_n->getDoubleValue(), station_elevation_ft);
+ set_dewpoint_at_altitude(dewpoint_n->getDoubleValue(), station_elevation_ft);
+ //TODO: check if temperature/dewpoint have changed. This requires reinit.
+
+ // Force an update of the 3D clouds
+ if( layer_rebuild_required )
+ fgSetInt("/environment/rebuild-layers", 1 );
+
+ // Reinitializing of the environment controller required
+ if( reinit_required )
+ _environmentCtrl->reinit();
+}
- return result;
+const char * FGMetarCtrl::get_metar(void) const
+{
+ return metar.c_str();
}
+static const char *coverage_string[] = { "clear", "few", "scattered", "broken", "overcast" };
+static const double thickness_value[] = { 0, 65, 600, 750, 1000 };
-void
-FGMetarEnvironmentCtrl::update_metar_properties( const FGMetar *m )
+void FGMetarCtrl::set_metar( const char * metar_string )
{
- int i;
- double d;
- char s[128];
+ int i;
- fgSetString("/environment/metar/real-metar", m->getData());
- // don't update with real weather when we use a custom weather scenario
- const char *current_scenario = fgGetString("/environment/weather-scenario", "METAR");
- if( strcmp(current_scenario, "METAR") && strcmp(current_scenario, "none"))
+ metar = metar_string;
+
+ SGSharedPtr<FGMetar> m;
+ try {
+ m = new FGMetar( metar_string );
+ }
+ catch( sg_io_exception ) {
+ fprintf( stderr, "can't get metar: %s\n", metar_string );
+ metar_valid = false;
return;
- fgSetString("/environment/metar/last-metar", m->getData());
- fgSetString("/environment/metar/station-id", m->getId());
- fgSetDouble("/environment/metar/min-visibility-m",
- m->getMinVisibility().getVisibility_m() );
- fgSetDouble("/environment/metar/max-visibility-m",
- m->getMaxVisibility().getVisibility_m() );
-
- const SGMetarVisibility *dirvis = m->getDirVisibility();
- for (i = 0; i < 8; i++, dirvis++) {
- const char *min = "/environment/metar/visibility[%d]/min-m";
- const char *max = "/environment/metar/visibility[%d]/max-m";
-
- d = dirvis->getVisibility_m();
-
- snprintf(s, 128, min, i);
- fgSetDouble(s, d);
- snprintf(s, 128, max, i);
- fgSetDouble(s, d);
- }
-
- fgSetInt("/environment/metar/base-wind-range-from",
- m->getWindRangeFrom() );
- fgSetInt("/environment/metar/base-wind-range-to",
- m->getWindRangeTo() );
- fgSetDouble("/environment/metar/base-wind-speed-kt",
- m->getWindSpeed_kt() );
- fgSetDouble("/environment/metar/gust-wind-speed-kt",
- m->getGustSpeed_kt() );
- fgSetDouble("/environment/metar/temperature-degc",
- m->getTemperature_C() );
- fgSetDouble("/environment/metar/dewpoint-degc",
- m->getDewpoint_C() );
- fgSetDouble("/environment/metar/rel-humidity-norm",
- m->getRelHumidity() );
- fgSetDouble("/environment/metar/pressure-inhg",
- m->getPressure_inHg() );
-
- vector<SGMetarCloud> cv = m->getClouds();
- vector<SGMetarCloud>::const_iterator cloud;
-
- const char *cl = "/environment/clouds/layer[%i]";
- for (i = 0, cloud = cv.begin(); cloud != cv.end(); cloud++, i++) {
- const char *coverage_string[5] =
- { "clear", "few", "scattered", "broken", "overcast" };
- const double thickness[5] = { 0, 65, 600,750, 1000};
- int q;
-
- snprintf(s, 128, cl, i);
- strncat(s, "/coverage", 128);
- q = cloud->getCoverage();
- fgSetString(s, coverage_string[q] );
-
- snprintf(s, 128, cl, i);
- strncat(s, "/elevation-ft", 128);
- fgSetDouble(s, cloud->getAltitude_ft() + station_elevation_ft);
-
- snprintf(s, 128, cl, i);
- strncat(s, "/thickness-ft", 128);
- fgSetDouble(s, thickness[q]);
-
- snprintf(s, 128, cl, i);
- strncat(s, "/span-m", 128);
- fgSetDouble(s, 40000.0);
- }
-
- for (; i < FGEnvironmentMgr::MAX_CLOUD_LAYERS; i++) {
- snprintf(s, 128, cl, i);
- strncat(s, "/coverage", 128);
- fgSetString(s, "clear");
-
- snprintf(s, 128, cl, i);
- strncat(s, "/elevation-ft", 128);
- fgSetDouble(s, -9999);
-
- snprintf(s, 128, cl, i);
- strncat(s, "/thickness-ft", 128);
- fgSetDouble(s, 0);
-
- snprintf(s, 128, cl, i);
- strncat(s, "/span-m", 128);
- fgSetDouble(s, 40000.0);
- }
-
- fgSetDouble("/environment/metar/rain-norm", m->getRain());
- fgSetDouble("/environment/metar/hail-norm", m->getHail());
- fgSetDouble("/environment/metar/snow-norm", m->getSnow());
- fgSetBool("/environment/metar/snow-cover", m->getSnowCover());
-}
+ }
+ wind_interpolation_required = true;
+
+ min_visibility_n->setDoubleValue( m->getMinVisibility().getVisibility_m() );
+ max_visibility_n->setDoubleValue( m->getMaxVisibility().getVisibility_m() );
+
+ const SGMetarVisibility *dirvis = m->getDirVisibility();
+ for (i = 0; i < 8; i++, dirvis++) {
+ SGPropertyNode *vis = metar_base_n->getChild("visibility", i, true);
+ double v = dirvis->getVisibility_m();
+
+ vis->setDoubleValue("min-m", v);
+ vis->setDoubleValue("max-m", v);
+ }
+
+ base_wind_dir_n->setIntValue( m->getWindDir() );
+ base_wind_range_from_n->setIntValue( m->getWindRangeFrom() );
+ base_wind_range_to_n->setIntValue( m->getWindRangeTo() );
+ base_wind_speed_n->setDoubleValue( m->getWindSpeed_kt() );
+ gust_wind_speed_n->setDoubleValue( m->getGustSpeed_kt() );
+ temperature_n->setDoubleValue( m->getTemperature_C() );
+ dewpoint_n->setDoubleValue( m->getDewpoint_C() );
+ humidity_n->setDoubleValue( m->getRelHumidity() );
+ pressure_n->setDoubleValue( m->getPressure_inHg() );
+
+
+ // get station elevation to compute cloud base
+ double station_elevation_ft = 0;
+ {
+ // 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_ft = a->getElevation();
+ station_id_n->setStringValue( a->ident());
+ } else {
+ station_elevation_ft = ground_elevation_n->getDoubleValue() * SG_METER_TO_FEET;
+ station_id_n->setStringValue( m->getId());
+ }
+ }
+
+ station_elevation_n->setDoubleValue( station_elevation_ft );
+
+ vector<SGMetarCloud> cv = m->getClouds();
+ vector<SGMetarCloud>::const_iterator cloud, cloud_end = cv.end();
+
+ int layer_cnt = environment_clouds_n->getChildren("layer").size();
+ for (i = 0, cloud = cv.begin(); i < layer_cnt; i++) {
+
+
+ const char *coverage = "clear";
+ double elevation = -9999.0;
+ double thickness = 0.0;
+ const double span = 40000.0;
+
+ if (cloud != cloud_end) {
+ int c = cloud->getCoverage();
+ coverage = coverage_string[c];
+ elevation = cloud->getAltitude_ft() + station_elevation_ft;
+ thickness = thickness_value[c];
+ ++cloud;
+ }
+
+ SGPropertyNode *layer = clouds_n->getChild("layer", i, true );
+
+ // if the coverage has changed, a rebuild of the layer is needed
+ if( strcmp(layer->getStringValue("coverage"), coverage ) ) {
+ layer->setStringValue("coverage", coverage);
+ }
+ layer->setDoubleValue("elevation-ft", elevation);
+ layer->setDoubleValue("thickness-ft", thickness);
+ layer->setDoubleValue("span-m", span);
+ }
+
+ rain_n->setDoubleValue(m->getRain());
+ hail_n->setDoubleValue(m->getHail());
+ snow_n->setDoubleValue(m->getSnow());
+ snow_cover_n->setBoolValue(m->getSnowCover());
+ metar_valid = true;
+}
#if defined(ENABLE_THREADS)
/**
- * Ensure mutex is unlocked.
+ * This class represents the thread of execution responsible for
+ * fetching the metar data.
*/
-void
-metar_cleanup_handler( void* arg )
+class MetarThread : public OpenThreads::Thread {
+public:
+ MetarThread( FGMetarFetcher * f ) : metar_fetcher(f) {}
+ ~MetarThread() {}
+
+ /**
+ * Fetche the metar data from the NOAA.
+ */
+ void run();
+
+private:
+ FGMetarFetcher * metar_fetcher;
+};
+
+void MetarThread::run()
{
- FGMetarEnvironmentCtrl* fetcher = (FGMetarEnvironmentCtrl*) arg;
- fetcher->mutex.unlock();
+ for( ;; ) {
+ string airport_id = metar_fetcher->request_queue.pop();
+
+ if( airport_id.size() == 0 )
+ break;
+
+ if( metar_fetcher->_error_count > 3 ) {
+ SG_LOG( SG_GENERAL, SG_WARN, "Too many erros fetching METAR, thread stopped permanently.");
+ break;
+ }
+
+ metar_fetcher->fetch( airport_id );
+ }
}
+#endif
-/**
- *
- */
-void
-FGMetarEnvironmentCtrl::MetarThread::run()
+FGMetarFetcher::FGMetarFetcher() :
+#if defined(ENABLE_THREADS)
+ metar_thread(NULL),
+#endif
+ fetch_timer(0.0),
+ search_timer(0.0),
+ error_timer(0.0),
+ _stale_count(0),
+ _error_count(0),
+ enabled(false)
{
- pthread_cleanup_push( metar_cleanup_handler, fetcher );
- while ( true )
- {
- set_cancel( SGThread::CANCEL_DISABLE );
-
- string icao = fetcher->request_queue.pop();
- SG_LOG( SG_GENERAL, SG_INFO, "Thread: fetch metar data = " << icao );
- FGMetarResult result = fetcher->fetch_data( icao );
+ longitude_n = fgGetNode( "/position/longitude-deg", true );
+ latitude_n = fgGetNode( "/position/latitude-deg", true );
+ enable_n = fgGetNode( "/environment/params/real-world-weather-fetch", true );
- set_cancel( SGThread::CANCEL_DEFERRED );
+ proxy_host_n = fgGetNode("/sim/presets/proxy/host", true);
+ proxy_port_n = fgGetNode("/sim/presets/proxy/port", true);
+ proxy_auth_n = fgGetNode("/sim/presets/proxy/authentication", true);
+ max_age_n = fgGetNode("/environment/params/metar-max-age-min", true);
- fetcher->result_queue.push( result );
- }
- pthread_cleanup_pop(1);
+ output_n = fgGetNode("/environment/metar/data", true );
+#if defined(ENABLE_THREADS)
+ metar_thread = new MetarThread(this);
+// FIXME: do we really need setProcessorAffinity()?
+// metar_thread->setProcessorAffinity(1);
+ metar_thread->start();
+#endif // ENABLE_THREADS
}
+
+
+FGMetarFetcher::~FGMetarFetcher()
+{
+#if defined(ENABLE_THREADS)
+ request_queue.push("");
+ metar_thread->join();
+ delete metar_thread;
#endif // ENABLE_THREADS
+}
+
+void FGMetarFetcher::init ()
+{
+ fetch_timer = 0.0;
+ search_timer = 0.0;
+ error_timer = 0.0;
+ _stale_count = 0;
+ _error_count = 0;
+ current_airport_id.clear();
+ /* Torsten Dreyer:
+ hack to stop startup.nas complaining if metar arrives after nasal-dir-initialized
+ is fired. Immediately fetch and wait for the METAR before continuing. This gets the
+ /environment/metar/xxx properties filled before nasal-dir is initialized.
+ Maybe the runway selection should happen here to make startup.nas obsolete?
+ */
+ const char * startup_airport = fgGetString("/sim/startup/options/airport");
+ if( *startup_airport ) {
+ FGAirport * a = FGAirport::getByIdent( startup_airport );
+ if( a ) {
+ SGGeod pos = SGGeod::fromDeg(a->getLongitude(), a->getLatitude());
+ a = FGAirport::findClosest(pos, 10000.0, &airportWithMetarFilter);
+ current_airport_id = a->getId();
+ fetch( current_airport_id );
+ }
+ }
+}
+
+void FGMetarFetcher::reinit ()
+{
+ init();
+}
+/* search for closest airport with metar every xx seconds */
+static const int search_interval_sec = 60;
+
+/* fetch metar for airport, even if airport has not changed every xx seconds */
+static const int fetch_interval_sec = 900;
+
+/* reset error counter after xxx seconds */
+static const int error_timer_sec = 3;
+
+void FGMetarFetcher::update (double delta_time_sec)
+{
+ fetch_timer -= delta_time_sec;
+ search_timer -= delta_time_sec;
+ error_timer -= delta_time_sec;
+
+ if( error_timer <= 0.0 ) {
+ error_timer = error_timer_sec;
+ _error_count = 0;
+ }
+
+ if( enable_n->getBoolValue() == false ) {
+ enabled = false;
+ return;
+ }
+
+ // we were just enabled, reset all timers to
+ // trigger immediate metar fetch
+ if( !enabled ) {
+ search_timer = 0.0;
+ fetch_timer = 0.0;
+ error_timer = error_timer_sec;
+ enabled = true;
+ }
+
+ FGAirport * a = NULL;
+
+ if( search_timer <= 0.0 ) {
+ // search timer expired, search closest airport with metar
+ SGGeod pos = SGGeod::fromDeg(longitude_n->getDoubleValue(), latitude_n->getDoubleValue());
+ a = FGAirport::findClosest(pos, 10000.0, &airportWithMetarFilter);
+ search_timer = search_interval_sec;
+ }
+
+ if( a == NULL )
+ return;
+
+
+ if( a->ident() != current_airport_id || fetch_timer <= 0 ) {
+ // fetch timer expired or airport has changed, schedule a fetch
+ current_airport_id = a->ident();
+ fetch_timer = fetch_interval_sec;
+#if defined(ENABLE_THREADS)
+ // push this airport id into the queue for the worker thread
+ request_queue.push( current_airport_id );
+#else
+ // if there is no worker thread, immediately fetch the data
+ fetch( current_airport_id );
+#endif
+ }
+}
+
+void FGMetarFetcher::fetch( const string & id )
+{
+ if( enable_n->getBoolValue() == false )
+ return;
+
+ SGSharedPtr<FGMetar> result = NULL;
+
+ // fetch current metar data
+ try {
+ string host = proxy_host_n->getStringValue();
+ string auth = proxy_auth_n->getStringValue();
+ string port = proxy_port_n->getStringValue();
+
+ result = new FGMetar( id, host, port, auth);
+
+ long max_age = max_age_n->getLongValue();
+ long age = result->getAge_min();
+
+ if (max_age && age > max_age) {
+ SG_LOG( SG_GENERAL, SG_WARN, "METAR data too old (" << age << " min).");
+ if (++_stale_count > 10) {
+ _error_count = 1000;
+ throw sg_io_exception("More than 10 stale METAR messages in a row." " Check your system time!");
+ }
+ } else {
+ _stale_count = 0;
+ }
+
+ } catch (const sg_io_exception& e) {
+ SG_LOG( SG_GENERAL, SG_WARN, "Error fetching live weather data: " << e.getFormattedMessage().c_str() );
+ result = NULL;
+ // remove METAR flag from the airport
+ FGAirport * a = FGAirport::findByIdent( id );
+ if( a ) a->setMetar( false );
+ // immediately schedule a new search
+ search_timer = 0.0;
+ }
+
+ // write the metar to the property node, the rest is done by the methods tied to this property
+ // don't write the metar data, if real-weather-fetch has been disabled in the meantime
+ if( result != NULL && enable_n->getBoolValue() == true )
+ output_n->setStringValue( result->getData() );
+}
// end of environment_ctrl.cxx
+