// $Id$
-#include <simgear/math/fg_geodesy.hxx>
+#include <simgear/math/sg_geodesy.hxx>
#include <simgear/math/point3d.hxx>
#include <simgear/math/polar3d.hxx>
#include <Controls/controls.hxx>
-#include <Main/options.hxx>
+#include <Main/globals.hxx>
+#include <Main/fg_props.hxx>
#include "MagicCarpet.hxx"
+FGMagicCarpet::FGMagicCarpet( double dt ) {
+// set_delta_t( dt );
+}
+
+
+FGMagicCarpet::~FGMagicCarpet() {
+}
+
+
// Initialize the Magic Carpet flight model, dt is the time increment
// for each subsequent iteration through the EOM
-int FGMagicCarpet::init( double dt ) {
- // set valid time for this record
- stamp_time();
-
- return 1;
+void FGMagicCarpet::init() {
+ common_init();
}
// Run an iteration of the EOM (equations of motion)
-int FGMagicCarpet::update( int multiloop ) {
+void FGMagicCarpet::update( double dt ) {
// cout << "FGLaRCsim::update()" << endl;
- double time_step = (1.0 / current_options.get_model_hz()) * multiloop;
+ if (is_suspended())
+ return;
+
+ int multiloop = _calc_multiloop(dt);
+
+ double time_step = dt;
// speed and distance traveled
- double speed = controls.get_throttle( 0 ) * 2000; // meters/sec
+ double speed = globals->get_controls()->get_throttle( 0 ) * 2000; // meters/sec
+ if ( globals->get_controls()->get_brake( 0 ) ) {
+ speed = -speed;
+ }
+
double dist = speed * time_step;
- double kts = speed * METER_TO_NM * 3600.0;
- set_V_equiv_kts( kts );
- set_V_calibrated_kts( kts );
- set_V_ground_speed( kts );
- set_Mach_number(0);
+ double kts = speed * SG_METER_TO_NM * 3600.0;
+ _set_V_equiv_kts( kts );
+ _set_V_calibrated_kts( kts );
+ _set_V_ground_speed( kts );
// angle of turn
- double turn_rate = controls.get_aileron() * FG_PI_4; // radians/sec
+ double turn_rate = globals->get_controls()->get_aileron() * SGD_PI_4; // radians/sec
double turn = turn_rate * time_step;
// update euler angles
- set_Euler_Angles( get_Phi(), get_Theta(), fmod(get_Psi() + turn, FG_2PI) );
- set_Euler_Rates(0,0,0);
+ _set_Euler_Angles( get_Phi(), get_Theta(),
+ fmod(get_Psi() + turn, SGD_2PI) );
+ _set_Euler_Rates(0,0,0);
// update (lon/lat) position
double lat2, lon2, az2;
- geo_direct_wgs_84 ( get_Altitude(),
- get_Latitude() * RAD_TO_DEG,
- get_Longitude() * RAD_TO_DEG,
- get_Psi() * RAD_TO_DEG,
- dist, &lat2, &lon2, &az2 );
- set_Longitude( lon2 * DEG_TO_RAD );
- set_Latitude( lat2 * DEG_TO_RAD );
-
- // cout << "lon error = " << fabs(end.x()*RAD_TO_DEG - lon2)
- // << " lat error = " << fabs(end.y()*RAD_TO_DEG - lat2)
+ if ( fabs( speed ) > SG_EPSILON ) {
+ geo_direct_wgs_84 ( get_Altitude(),
+ get_Latitude() * SGD_RADIANS_TO_DEGREES,
+ get_Longitude() * SGD_RADIANS_TO_DEGREES,
+ get_Psi() * SGD_RADIANS_TO_DEGREES,
+ dist, &lat2, &lon2, &az2 );
+
+ _set_Longitude( lon2 * SGD_DEGREES_TO_RADIANS );
+ _set_Latitude( lat2 * SGD_DEGREES_TO_RADIANS );
+ }
+
+ // cout << "lon error = " << fabs(end.x()*SGD_RADIANS_TO_DEGREES - lon2)
+ // << " lat error = " << fabs(end.y()*SGD_RADIANS_TO_DEGREES - lat2)
// << endl;
double sl_radius, lat_geoc;
- fgGeodToGeoc( get_Latitude(), get_Altitude(), &sl_radius, &lat_geoc );
+ sgGeodToGeoc( get_Latitude(), get_Altitude(), &sl_radius, &lat_geoc );
// update altitude
- double real_climb_rate = -controls.get_elevator() * 5000; // feet/sec
- set_Climb_Rate( real_climb_rate / 500.0 );
+ double real_climb_rate = -globals->get_controls()->get_elevator() * 5000; // feet/sec
+ _set_Climb_Rate( real_climb_rate / 500.0 );
double climb = real_climb_rate * time_step;
- set_Geocentric_Position( lat_geoc, get_Longitude(),
+ _set_Geocentric_Position( lat_geoc, get_Longitude(),
sl_radius + get_Altitude() + climb );
// cout << "sea level radius (ft) = " << sl_radius << endl;
// cout << "(setto) sea level radius (ft) = " << get_Sea_level_radius() << endl;
- set_Sea_level_radius( sl_radius * METER_TO_FEET);
- set_Altitude( get_Altitude() + climb );
-
- return 1;
+ _set_Sea_level_radius( sl_radius * SG_METER_TO_FEET);
+ _set_Altitude( get_Altitude() + climb );
}
projects / flightgear.git / blobdiff