// 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 <config.h>
#endif
-#include <math.h>
+#include <cmath>
#include <boost/tuple/tuple.hpp>
-#include <plib/sg.h>
-
-#include <simgear/constants.h>
-#include <simgear/debug/logstream.hxx>
-#include <simgear/math/interpolater.hxx>
#include <simgear/props/props.hxx>
-#include <simgear/environment/visual_enviro.hxx>
+#include <simgear/math/SGMath.hxx>
#include <Main/fg_props.hxx>
-#include <signal.h>
#include "environment.hxx"
#include "atmosphere.hxx"
void FGEnvironment::_init()
{
+ live_update = false;
elevation_ft = 0;
visibility_m = 32000;
temperature_sea_level_degc = 15;
dewpoint_degc = 5;
pressure_sea_level_inhg = 29.92;
pressure_inhg = 29.92;
+ density_slugft3 = 0;
turbulence_magnitude_norm = 0;
turbulence_rate_hz = 1;
wind_from_heading_deg = 0;
wind_from_north_fps = 0;
wind_from_east_fps = 0;
wind_from_down_fps = 0;
- thermal_lift_fps = 0;
- ridge_lift_fps= 0;
altitude_half_to_sun_m = 1000;
altitude_tropo_top_m = 10000;
#ifdef USING_TABLES
FGEnvironment::~FGEnvironment()
{
+ Untie();
+}
+
+FGEnvironment & FGEnvironment::operator = ( const FGEnvironment & other )
+{
+ copy( other );
+ return *this;
}
void
wind_from_north_fps = env.wind_from_north_fps;
wind_from_east_fps = env.wind_from_east_fps;
wind_from_down_fps = env.wind_from_down_fps;
- thermal_lift_fps = env.thermal_lift_fps;
- ridge_lift_fps= env.ridge_lift_fps;
turbulence_magnitude_norm = env.turbulence_magnitude_norm;
turbulence_rate_hz = env.turbulence_rate_hz;
+ pressure_inhg = env.pressure_inhg;
+ density_slugft3 = env.density_slugft3;
+ density_tropo_avg_kgm3 = env.density_tropo_avg_kgm3;
+ relative_humidity = env.relative_humidity;
+ altitude_half_to_sun_m = env.altitude_half_to_sun_m;
+ altitude_tropo_top_m = env.altitude_tropo_top_m;
+ live_update = env.live_update;
}
static inline bool
maybe_copy_value(this, node, "visibility-m",
&FGEnvironment::set_visibility_m);
+ maybe_copy_value(this, node, "elevation-ft",
+ &FGEnvironment::set_elevation_ft);
+
if (!maybe_copy_value(this, node, "temperature-sea-level-degc",
- &FGEnvironment::set_temperature_sea_level_degc))
- maybe_copy_value(this, node, "temperature-degc",
- &FGEnvironment::set_temperature_degc);
+ &FGEnvironment::set_temperature_sea_level_degc)) {
+ if( maybe_copy_value(this, node, "temperature-degc",
+ &FGEnvironment::set_temperature_degc)) {
+ _recalc_sl_temperature();
+ }
+ }
if (!maybe_copy_value(this, node, "dewpoint-sea-level-degc",
- &FGEnvironment::set_dewpoint_sea_level_degc))
- maybe_copy_value(this, node, "dewpoint-degc",
- &FGEnvironment::set_dewpoint_degc);
+ &FGEnvironment::set_dewpoint_sea_level_degc)) {
+ if( maybe_copy_value(this, node, "dewpoint-degc",
+ &FGEnvironment::set_dewpoint_degc)) {
+ _recalc_sl_dewpoint();
+ }
+ }
if (!maybe_copy_value(this, node, "pressure-sea-level-inhg",
- &FGEnvironment::set_pressure_sea_level_inhg))
- maybe_copy_value(this, node, "pressure-inhg",
- &FGEnvironment::set_pressure_inhg);
+ &FGEnvironment::set_pressure_sea_level_inhg)) {
+ if( maybe_copy_value(this, node, "pressure-inhg",
+ &FGEnvironment::set_pressure_inhg)) {
+ _recalc_sl_pressure();
+ }
+ }
maybe_copy_value(this, node, "wind-from-heading-deg",
&FGEnvironment::set_wind_from_heading_deg);
maybe_copy_value(this, node, "wind-speed-kt",
&FGEnvironment::set_wind_speed_kt);
- maybe_copy_value(this, node, "elevation-ft",
- &FGEnvironment::set_elevation_ft);
-
maybe_copy_value(this, node, "turbulence/magnitude-norm",
&FGEnvironment::set_turbulence_magnitude_norm);
maybe_copy_value(this, node, "turbulence/rate-hz",
&FGEnvironment::set_turbulence_rate_hz);
+
// calculate derived properties here to avoid duplicate expensive computations
_recalc_ne();
_recalc_alt_pt();
set_live_update(live_update);
}
+void FGEnvironment::Tie( SGPropertyNode_ptr base, bool archivable )
+{
+ _tiedProperties.setRoot( base );
+
+ _tiedProperties.Tie( "visibility-m", this,
+ &FGEnvironment::get_visibility_m,
+ &FGEnvironment::set_visibility_m);
+
+ _tiedProperties.Tie("temperature-sea-level-degc", this,
+ &FGEnvironment::get_temperature_sea_level_degc,
+ &FGEnvironment::set_temperature_sea_level_degc);
+
+ _tiedProperties.Tie("temperature-degc", this,
+ &FGEnvironment::get_temperature_degc,
+ &FGEnvironment::set_temperature_degc);
+
+ _tiedProperties.Tie("dewpoint-sea-level-degc", this,
+ &FGEnvironment::get_dewpoint_sea_level_degc,
+ &FGEnvironment::set_dewpoint_sea_level_degc);
+
+ _tiedProperties.Tie("dewpoint-degc", this,
+ &FGEnvironment::get_dewpoint_degc,
+ &FGEnvironment::set_dewpoint_degc);
+
+ _tiedProperties.Tie("pressure-sea-level-inhg", this,
+ &FGEnvironment::get_pressure_sea_level_inhg,
+ &FGEnvironment::set_pressure_sea_level_inhg);
+
+ _tiedProperties.Tie("pressure-inhg", this,
+ &FGEnvironment::get_pressure_inhg,
+ &FGEnvironment::set_pressure_inhg);
+
+ _tiedProperties.Tie("atmosphere/altitude-half-to-sun", this,
+ &FGEnvironment::get_altitude_half_to_sun_m,
+ &FGEnvironment::set_altitude_half_to_sun_m);
+
+ _tiedProperties.Tie("atmosphere/altitude-troposphere-top", this,
+ &FGEnvironment::get_altitude_tropo_top_m,
+ &FGEnvironment::set_altitude_tropo_top_m);
+
+ _tiedProperties.Tie("wind-from-heading-deg", this,
+ &FGEnvironment::get_wind_from_heading_deg,
+ &FGEnvironment::set_wind_from_heading_deg);
+
+ _tiedProperties.Tie("wind-speed-kt", this,
+ &FGEnvironment::get_wind_speed_kt,
+ &FGEnvironment::set_wind_speed_kt);
+
+ _tiedProperties.Tie("wind-from-north-fps", this,
+ &FGEnvironment::get_wind_from_north_fps,
+ &FGEnvironment::set_wind_from_north_fps);
+
+ _tiedProperties.Tie("wind-from-east-fps", this,
+ &FGEnvironment::get_wind_from_east_fps,
+ &FGEnvironment::set_wind_from_east_fps);
+
+ _tiedProperties.Tie("wind-from-down-fps", this,
+ &FGEnvironment::get_wind_from_down_fps,
+ &FGEnvironment::set_wind_from_down_fps);
+
+ _tiedProperties.Tie("turbulence/magnitude-norm", this,
+ &FGEnvironment::get_turbulence_magnitude_norm,
+ &FGEnvironment::set_turbulence_magnitude_norm);
+
+ _tiedProperties.Tie("turbulence/rate-hz", this,
+ &FGEnvironment::get_turbulence_rate_hz,
+ &FGEnvironment::set_turbulence_rate_hz);
+
+ _tiedProperties.setAttribute( SGPropertyNode::ARCHIVE, archivable );
+
+ _tiedProperties.Tie("temperature-degf", this,
+ &FGEnvironment::get_temperature_degf);
+
+ _tiedProperties.Tie("density-slugft3", this,
+ &FGEnvironment::get_density_slugft3); // read-only
+
+ _tiedProperties.Tie("relative-humidity", this,
+ &FGEnvironment::get_relative_humidity); //ro
+
+ _tiedProperties.Tie("atmosphere/density-tropo-avg", this,
+ &FGEnvironment::get_density_tropo_avg_kgm3); //ro
+}
+
+void FGEnvironment::Untie()
+{
+ _tiedProperties.Untie();
+}
double
FGEnvironment::get_visibility_m () const
return wind_from_down_fps;
}
-double
-FGEnvironment::get_thermal_lift_fps () const
-{
- return thermal_lift_fps;
-}
-
-double
-FGEnvironment::get_ridge_lift_fps () const
-{
- return ridge_lift_fps;
-}
-
double
FGEnvironment::get_turbulence_magnitude_norm () const
{
- if( sgEnviro.get_turbulence_enable_state() )
- if (fgGetBool("/environment/params/real-world-weather-fetch") == true)
- return sgEnviro.get_cloud_turbulence();
return turbulence_magnitude_norm;
}
}
}
-void
-FGEnvironment::set_thermal_lift_fps (double th)
-{
- thermal_lift_fps = th;
- if( live_update ) {
- _recalc_updraft();
- }
-}
-
-void
-FGEnvironment::set_ridge_lift_fps (double ri)
-{
- ridge_lift_fps = ri;
- if( live_update ) {
- _recalc_updraft();
-}
-}
-
void
FGEnvironment::set_turbulence_magnitude_norm (double t)
{
{
elevation_ft = e;
if( live_update ) {
- _recalc_alt_dewpoint();
_recalc_alt_pt();
+ _recalc_alt_dewpoint();
_recalc_density();
_recalc_relative_humidity();
}
void
FGEnvironment::_recalc_hdgspd ()
{
- double angle_rad;
+ wind_from_heading_deg =
+ atan2(wind_from_east_fps, wind_from_north_fps) * SGD_RADIANS_TO_DEGREES;
- if (wind_from_east_fps == 0) {
- angle_rad = (wind_from_north_fps >= 0 ? SGD_PI_2 : -SGD_PI_2);
- } else {
- angle_rad = atan(wind_from_north_fps/wind_from_east_fps);
- }
- wind_from_heading_deg = angle_rad * SGD_RADIANS_TO_DEGREES;
- if (wind_from_east_fps >= 0)
- wind_from_heading_deg = 90 - wind_from_heading_deg;
- else
- wind_from_heading_deg = 270 - wind_from_heading_deg;
+ if( wind_from_heading_deg < 0 )
+ wind_from_heading_deg += 360.0;
-#if 0
- // FIXME: Windspeed can become negative with these formulas.
- // which can cause problems for animations that rely
- // on the windspeed property.
- if (angle_rad == 0)
- wind_speed_kt = fabs(wind_from_east_fps
- * SG_METER_TO_NM * SG_FEET_TO_METER * 3600);
- else
- wind_speed_kt = (wind_from_north_fps / sin(angle_rad))
- * SG_METER_TO_NM * SG_FEET_TO_METER * 3600;
-#else
wind_speed_kt = sqrt(wind_from_north_fps * wind_from_north_fps +
wind_from_east_fps * wind_from_east_fps)
* SG_METER_TO_NM * SG_FEET_TO_METER * 3600;
-#endif
}
void
sin(wind_from_heading_deg * SGD_DEGREES_TO_RADIANS);
}
-void
-FGEnvironment::_recalc_updraft ()
-{
- wind_from_down_fps = thermal_lift_fps + ridge_lift_fps ;
-}
-
// Intended to help with the interpretation of METAR data,
// not for random in-flight outside-air temperatures.
void
#if 0
{
- SG_LOG(SG_GENERAL, SG_DEBUG, "recalc_sl_temperature: using "
+ SG_LOG(SG_ENVIRONMENT, SG_DEBUG, "recalc_sl_temperature: using "
<< temperature_degc << " @ " << elevation_ft << " :: " << this);
}
#endif
- if (elevation_ft >= ISA_def[1].height) {
- SG_LOG(SG_GENERAL, SG_ALERT, "recalc_sl_temperature: "
+ if (elevation_ft * atmodel::foot >= ISA_def[1].height) {
+ SG_LOG(SG_ENVIRONMENT, SG_ALERT, "recalc_sl_temperature: "
<< "valid only in troposphere, not " << elevation_ft);
return;
}
double t_strato = ISA_def[1].temp - atmodel::freezing;
if (temperature_degc < t_strato) temperature_sea_level_degc = t_strato;
else temperature_sea_level_degc =
- temperature_degc - elevation_ft * ISA_def[0].lapse;
+ temperature_degc + elevation_ft * atmodel::foot * ISA_def[0].lapse;
// Alternative implemenation:
// else temperature_sea_level_inhg = T_layer(0., elevation_ft * foot,
using namespace atmodel;
#if 0
{
- SG_LOG(SG_GENERAL, SG_ALERT, "recalc_sl_pressure: using "
+ SG_LOG(SG_ENVIRONMENT, SG_ALERT, "recalc_sl_pressure: using "
<< pressure_inhg << " and "
<< temperature_degc << " @ " << elevation_ft << " :: " << this);
}
{
static int count(0);
if (++count % 1000 == 0) {
- SG_LOG(SG_GENERAL, SG_ALERT,
+ SG_LOG(SG_ENVIRONMENT, SG_ALERT,
"recalc_alt_pt for: " << elevation_ft
<< " using " << pressure_sea_level_inhg
<< " and " << temperature_sea_level_degc
}
}
#endif
- double press, temp;
+ double press = pressure_inhg * inHg;
+ double temp = temperature_degc + freezing;
boost::tie(press, temp) = PT_vs_hpt(elevation_ft * foot,
pressure_sea_level_inhg * inHg, temperature_sea_level_degc + freezing);
temperature_degc = temp - freezing;
return fmod(do_interp(a, b, fraction), 360);
}
-void
-interpolate (const FGEnvironment * env1, const FGEnvironment * env2,
- double fraction, FGEnvironment * result)
+FGEnvironment &
+FGEnvironment::interpolate( const FGEnvironment & env2,
+ double fraction, FGEnvironment * result) const
{
// don't calculate each internal property every time we set a single value
// we trigger that at the end of the interpolation process
bool live_update = result->set_live_update( false );
result->set_visibility_m
- (do_interp(env1->get_visibility_m(),
- env2->get_visibility_m(),
+ (do_interp(get_visibility_m(),
+ env2.get_visibility_m(),
fraction));
result->set_temperature_sea_level_degc
- (do_interp(env1->get_temperature_sea_level_degc(),
- env2->get_temperature_sea_level_degc(),
+ (do_interp(get_temperature_sea_level_degc(),
+ env2.get_temperature_sea_level_degc(),
fraction));
- result->set_dewpoint_degc
- (do_interp(env1->get_dewpoint_sea_level_degc(),
- env2->get_dewpoint_sea_level_degc(),
+ result->set_dewpoint_sea_level_degc
+ (do_interp(get_dewpoint_sea_level_degc(),
+ env2.get_dewpoint_sea_level_degc(),
fraction));
result->set_pressure_sea_level_inhg
- (do_interp(env1->get_pressure_sea_level_inhg(),
- env2->get_pressure_sea_level_inhg(),
+ (do_interp(get_pressure_sea_level_inhg(),
+ env2.get_pressure_sea_level_inhg(),
fraction));
result->set_wind_from_heading_deg
- (do_interp_deg(env1->get_wind_from_heading_deg(),
- env2->get_wind_from_heading_deg(),
+ (do_interp_deg(get_wind_from_heading_deg(),
+ env2.get_wind_from_heading_deg(),
fraction));
result->set_wind_speed_kt
- (do_interp(env1->get_wind_speed_kt(),
- env2->get_wind_speed_kt(),
+ (do_interp(get_wind_speed_kt(),
+ env2.get_wind_speed_kt(),
fraction));
result->set_elevation_ft
- (do_interp(env1->get_elevation_ft(),
- env2->get_elevation_ft(),
+ (do_interp(get_elevation_ft(),
+ env2.get_elevation_ft(),
fraction));
result->set_turbulence_magnitude_norm
- (do_interp(env1->get_turbulence_magnitude_norm(),
- env2->get_turbulence_magnitude_norm(),
+ (do_interp(get_turbulence_magnitude_norm(),
+ env2.get_turbulence_magnitude_norm(),
fraction));
result->set_turbulence_rate_hz
- (do_interp(env1->get_turbulence_rate_hz(),
- env2->get_turbulence_rate_hz(),
+ (do_interp(get_turbulence_rate_hz(),
+ env2.get_turbulence_rate_hz(),
fraction));
// calculate derived properties here to avoid duplicate expensive computations
result->_recalc_relative_humidity();
result->set_live_update(live_update);
+
+ return *result;
}
// end of environment.cxx