--------------------------------------------------------------------------*/
-#include "ls_interface.h"
-
-#include "ls_types.h"
-#include "ls_constants.h"
-#include "ls_generic.h"
-#include "ls_sim_control.h"
-#include "ls_cockpit.h"
-/* #include "ls_tape.h" */
-#ifndef linux
-# include <libgen.h>
-#endif
#include <sys/types.h>
#include <sys/stat.h>
#include <stdlib.h>
#include <math.h>
#include <time.h>
+#include "ls_types.h"
+#include "ls_constants.h"
+#include "ls_generic.h"
+#include "ls_sim_control.h"
+#include "ls_cockpit.h"
+#include "ls_interface.h"
+#include "ls_step.h"
+#include "ls_accel.h"
+#include "ls_aux.h"
+#include "ls_model.h"
+#include "ls_init.h"
+#include <Flight/flight.h>
+#include <Aircraft/aircraft.h>
+
/* global variable declarations */
/* TAPE *Tape; */
-void ls_stamp()
-{
+void ls_stamp( void ) {
char rcsid[] = "$Id$";
char revid[] = "$Revision$";
char dateid[] = "$Date$";
sprintf(sim_control_.date_string, "%06d\0", date);
sprintf(sim_control_.time_stamp, "%02d:%02d:%02d\0",
nowtime->tm_hour, nowtime->tm_min, nowtime->tm_sec);
+#ifdef COMPILE_THIS_CODE_THIS_USELESS_CODE
cuserid( sim_control_.userid ); /* set up user id */
-
+#endif /* COMPILE_THIS_CODE_THIS_USELESS_CODE */
return;
}
-void ls_setdefopts()
-{
+void ls_setdefopts( void ) {
/* set default values for most options */
sim_control_.debug = 0; /* change to non-zero if in dbx! */
sim_control_.write_mat = 0; /* write matrix-x/matlab script */
sim_control_.write_tab = 0; /* write tab delim. history file */
sim_control_.write_asc1 = 0; /* write GetData file */
- sim_control_.sim_type = GLmouse; /* hook up to mouse */
sim_control_.save_spacing = DEFAULT_SAVE_SPACING;
/* interpolation on recording */
sim_control_.write_spacing = DEFAULT_WRITE_SPACING;
sim_control_.end_time = DEFAULT_END_TIME;
sim_control_.model_hz = DEFAULT_MODEL_HZ;
sim_control_.term_update_hz = DEFAULT_TERM_UPDATE_HZ;
- sim_control_.time_slices = DEFAULT_END_TIME * DEFAULT_MODEL_HZ /
- DEFAULT_SAVE_SPACING;
+ sim_control_.time_slices = (long int)(DEFAULT_END_TIME * DEFAULT_MODEL_HZ /
+ DEFAULT_SAVE_SPACING);
sim_control_.paused = 0;
speedup = 1.0;
#define OPT_OK 0
#define OPT_ERR 1
+#ifdef COMPILE_THIS_CODE_THIS_USELESS_CODE
+
extern char *optarg;
extern int optind;
return OPT_OK;
}
+#endif /* COMPILE_THIS_CODE_THIS_USELESS_CODE */
-void ls_loop( dt, initialize )
-
-SCALAR dt;
-int initialize;
-
-{
+void ls_loop( SCALAR dt, int initialize ) {
/* printf (" In ls_loop()\n"); */
ls_step( dt, initialize );
/* if (sim_control_.sim_type == cockpit ) ls_ACES(); */
-int ls_cockpit() {
+int ls_cockpit( void ) {
+ struct fgCONTROLS *c;
sim_control_.paused = 0;
- Throttle_pct = 0.85;
+ c = ¤t_aircraft.controls;
+
+ Lat_control = FG_Aileron;
+ Long_control = FG_Elevator;
+ Long_trim = FG_Elev_Trim;
+ Rudder_pedal = FG_Rudder;
+ Throttle_pct = FG_Throttle[0];
/* printf("Mach = %.2f ", Mach_number);
printf("%.4f,%.4f,%.2f ", Latitude, Longitude, Altitude);
printf("%.2f,%.2f,%.2f\n", Phi, Theta, Psi); */
+ return( 0 );
}
/* Initialize the LaRCsim flight model, dt is the time increment for
each subsequent iteration through the EOM */
int fgLaRCsimInit(double dt) {
-
model_dt = dt;
ls_setdefopts(); /* set default options */
- /* Number_of_Continuous_States = 22; */
-
- generic_.geodetic_position_v[0] = 2.793445E-05;
- generic_.geodetic_position_v[1] = 3.262070E-07;
- generic_.geodetic_position_v[2] = 3.758099E+00;
- generic_.v_local_v[0] = 7.287719E+00;
- generic_.v_local_v[1] = 1.521770E+03;
- generic_.v_local_v[2] = -1.265722E-05;
- generic_.euler_angles_v[0] = -2.658474E-06;
- generic_.euler_angles_v[1] = 7.401790E-03;
- generic_.euler_angles_v[2] = 1.391358E-03;
- generic_.omega_body_v[0] = 7.206685E-05;
- generic_.omega_body_v[1] = 0.000000E+00;
- generic_.omega_body_v[2] = 9.492658E-05;
- generic_.earth_position_angle = 0.000000E+00;
- generic_.mass = 8.547270E+01;
- generic_.i_xx = 1.048000E+03;
- generic_.i_yy = 3.000000E+03;
- generic_.i_zz = 3.530000E+03;
- generic_.i_xz = 0.000000E+00;
- generic_.d_cg_rp_body_v[0] = 0.000000E+00;
- generic_.d_cg_rp_body_v[1] = 0.000000E+00;
- generic_.d_cg_rp_body_v[2] = 0.000000E+00;
-
ls_stamp(); /* ID stamp; record time and date of run */
if (speedup == 0.0) {
return 1;
}
+ printf("LS pre Init pos = %.2f\n", Latitude);
+
ls_init();
+ printf("LS post Init pos = %.2f\n", Latitude);
+
if (speedup > 0) {
/* Initialize (get) cockpit (controls) settings */
ls_cockpit();
}
+/* Convert from the fgFLIGHT struct to the LaRCsim generic_ struct */
+int fgFlight_2_LaRCsim (struct fgFLIGHT *f) {
+ Mass = FG_Mass;
+ I_xx = FG_I_xx;
+ I_yy = FG_I_yy;
+ I_zz = FG_I_zz;
+ I_xz = FG_I_xz;
+ Dx_pilot = FG_Dx_pilot;
+ Dy_pilot = FG_Dy_pilot;
+ Dz_pilot = FG_Dz_pilot;
+ Dx_cg = FG_Dx_cg;
+ Dy_cg = FG_Dy_cg;
+ Dz_cg = FG_Dz_cg;
+ F_X = FG_F_X;
+ F_Y = FG_F_Y;
+ F_Z = FG_F_Z;
+ F_north = FG_F_north;
+ F_east = FG_F_east;
+ F_down = FG_F_down;
+ F_X_aero = FG_F_X_aero;
+ F_Y_aero = FG_F_Y_aero;
+ F_Z_aero = FG_F_Z_aero;
+ F_X_engine = FG_F_X_engine;
+ F_Y_engine = FG_F_Y_engine;
+ F_Z_engine = FG_F_Z_engine;
+ F_X_gear = FG_F_X_gear;
+ F_Y_gear = FG_F_Y_gear;
+ F_Z_gear = FG_F_Z_gear;
+ M_l_rp = FG_M_l_rp;
+ M_m_rp = FG_M_m_rp;
+ M_n_rp = FG_M_n_rp;
+ M_l_cg = FG_M_l_cg;
+ M_m_cg = FG_M_m_cg;
+ M_n_cg = FG_M_n_cg;
+ M_l_aero = FG_M_l_aero;
+ M_m_aero = FG_M_m_aero;
+ M_n_aero = FG_M_n_aero;
+ M_l_engine = FG_M_l_engine;
+ M_m_engine = FG_M_m_engine;
+ M_n_engine = FG_M_n_engine;
+ M_l_gear = FG_M_l_gear;
+ M_m_gear = FG_M_m_gear;
+ M_n_gear = FG_M_n_gear;
+ V_dot_north = FG_V_dot_north;
+ V_dot_east = FG_V_dot_east;
+ V_dot_down = FG_V_dot_down;
+ U_dot_body = FG_U_dot_body;
+ V_dot_body = FG_V_dot_body;
+ W_dot_body = FG_W_dot_body;
+ A_X_cg = FG_A_X_cg;
+ A_Y_cg = FG_A_Y_cg;
+ A_Z_cg = FG_A_Z_cg;
+ A_X_pilot = FG_A_X_pilot;
+ A_Y_pilot = FG_A_Y_pilot;
+ A_Z_pilot = FG_A_Z_pilot;
+ N_X_cg = FG_N_X_cg;
+ N_Y_cg = FG_N_Y_cg;
+ N_Z_cg = FG_N_Z_cg;
+ N_X_pilot = FG_N_X_pilot;
+ N_Y_pilot = FG_N_Y_pilot;
+ N_Z_pilot = FG_N_Z_pilot;
+ P_dot_body = FG_P_dot_body;
+ Q_dot_body = FG_Q_dot_body;
+ R_dot_body = FG_R_dot_body;
+ V_north = FG_V_north;
+ V_east = FG_V_east;
+ V_down = FG_V_down;
+ V_north_rel_ground = FG_V_north_rel_ground;
+ V_east_rel_ground = FG_V_east_rel_ground;
+ V_down_rel_ground = FG_V_down_rel_ground;
+ V_north_airmass = FG_V_north_airmass;
+ V_east_airmass = FG_V_east_airmass;
+ V_down_airmass = FG_V_down_airmass;
+ V_north_rel_airmass = FG_V_north_rel_airmass;
+ V_east_rel_airmass = FG_V_east_rel_airmass;
+ V_down_rel_airmass = FG_V_down_rel_airmass;
+ U_gust = FG_U_gust;
+ V_gust = FG_V_gust;
+ W_gust = FG_W_gust;
+ U_body = FG_U_body;
+ V_body = FG_V_body;
+ W_body = FG_W_body;
+ V_rel_wind = FG_V_rel_wind;
+ V_true_kts = FG_V_true_kts;
+ V_rel_ground = FG_V_rel_ground;
+ V_inertial = FG_V_inertial;
+ V_ground_speed = FG_V_ground_speed;
+ V_equiv = FG_V_equiv;
+ V_equiv_kts = FG_V_equiv_kts;
+ V_calibrated = FG_V_calibrated;
+ V_calibrated_kts = FG_V_calibrated_kts;
+ P_body = FG_P_body;
+ Q_body = FG_Q_body;
+ R_body = FG_R_body;
+ P_local = FG_P_local;
+ Q_local = FG_Q_local;
+ R_local = FG_R_local;
+ P_total = FG_P_total;
+ Q_total = FG_Q_total;
+ R_total = FG_R_total;
+ Phi_dot = FG_Phi_dot;
+ Theta_dot = FG_Theta_dot;
+ Psi_dot = FG_Psi_dot;
+ Latitude_dot = FG_Latitude_dot;
+ Longitude_dot = FG_Longitude_dot;
+ Radius_dot = FG_Radius_dot;
+ Lat_geocentric = FG_Lat_geocentric;
+ Lon_geocentric = FG_Lon_geocentric;
+ Radius_to_vehicle = FG_Radius_to_vehicle;
+ Latitude = FG_Latitude;
+ Longitude = FG_Longitude;
+ Altitude = FG_Altitude;
+ Phi = FG_Phi;
+ Theta = FG_Theta;
+ Psi = FG_Psi;
+ T_local_to_body_11 = FG_T_local_to_body_11;
+ T_local_to_body_12 = FG_T_local_to_body_12;
+ T_local_to_body_13 = FG_T_local_to_body_13;
+ T_local_to_body_21 = FG_T_local_to_body_21;
+ T_local_to_body_22 = FG_T_local_to_body_22;
+ T_local_to_body_23 = FG_T_local_to_body_23;
+ T_local_to_body_31 = FG_T_local_to_body_31;
+ T_local_to_body_32 = FG_T_local_to_body_32;
+ T_local_to_body_33 = FG_T_local_to_body_33;
+ Gravity = FG_Gravity;
+ Centrifugal_relief = FG_Centrifugal_relief;
+ Alpha = FG_Alpha;
+ Beta = FG_Beta;
+ Alpha_dot = FG_Alpha_dot;
+ Beta_dot = FG_Beta_dot;
+ Cos_alpha = FG_Cos_alpha;
+ Sin_alpha = FG_Sin_alpha;
+ Cos_beta = FG_Cos_beta;
+ Sin_beta = FG_Sin_beta;
+ Cos_phi = FG_Cos_phi;
+ Sin_phi = FG_Sin_phi;
+ Cos_theta = FG_Cos_theta;
+ Sin_theta = FG_Sin_theta;
+ Cos_psi = FG_Cos_psi;
+ Sin_psi = FG_Sin_psi;
+ Gamma_vert_rad = FG_Gamma_vert_rad;
+ Gamma_horiz_rad = FG_Gamma_horiz_rad;
+ Sigma = FG_Sigma;
+ Density = FG_Density;
+ V_sound = FG_V_sound;
+ Mach_number = FG_Mach_number;
+ Static_pressure = FG_Static_pressure;
+ Total_pressure = FG_Total_pressure;
+ Impact_pressure = FG_Impact_pressure;
+ Dynamic_pressure = FG_Dynamic_pressure;
+ Static_temperature = FG_Static_temperature;
+ Total_temperature = FG_Total_temperature;
+ Sea_level_radius = FG_Sea_level_radius;
+ Earth_position_angle = FG_Earth_position_angle;
+ Runway_altitude = FG_Runway_altitude;
+ Runway_latitude = FG_Runway_latitude;
+ Runway_longitude = FG_Runway_longitude;
+ Runway_heading = FG_Runway_heading;
+ Radius_to_rwy = FG_Radius_to_rwy;
+ D_cg_north_of_rwy = FG_D_cg_north_of_rwy;
+ D_cg_east_of_rwy = FG_D_cg_east_of_rwy;
+ D_cg_above_rwy = FG_D_cg_above_rwy;
+ X_cg_rwy = FG_X_cg_rwy;
+ Y_cg_rwy = FG_Y_cg_rwy;
+ H_cg_rwy = FG_H_cg_rwy;
+ D_pilot_north_of_rwy = FG_D_pilot_north_of_rwy;
+ D_pilot_east_of_rwy = FG_D_pilot_east_of_rwy;
+ D_pilot_above_rwy = FG_D_pilot_above_rwy;
+ X_pilot_rwy = FG_X_pilot_rwy;
+ Y_pilot_rwy = FG_Y_pilot_rwy;
+ H_pilot_rwy = FG_H_pilot_rwy;
+
+ return( 0 );
+}
+
+
+/* Convert from the LaRCsim generic_ struct to the fgFLIGHT struct */
+int fgLaRCsim_2_Flight (struct fgFLIGHT *f) {
+ FG_Mass = Mass;
+ FG_I_xx = I_xx;
+ FG_I_yy = I_yy;
+ FG_I_zz = I_zz;
+ FG_I_xz = I_xz;
+ FG_Dx_pilot = Dx_pilot;
+ FG_Dy_pilot = Dy_pilot;
+ FG_Dz_pilot = Dz_pilot;
+ FG_Dx_cg = Dx_cg;
+ FG_Dy_cg = Dy_cg;
+ FG_Dz_cg = Dz_cg;
+ FG_F_X = F_X;
+ FG_F_Y = F_Y;
+ FG_F_Z = F_Z;
+ FG_F_north = F_north;
+ FG_F_east = F_east;
+ FG_F_down = F_down;
+ FG_F_X_aero = F_X_aero;
+ FG_F_Y_aero = F_Y_aero;
+ FG_F_Z_aero = F_Z_aero;
+ FG_F_X_engine = F_X_engine;
+ FG_F_Y_engine = F_Y_engine;
+ FG_F_Z_engine = F_Z_engine;
+ FG_F_X_gear = F_X_gear;
+ FG_F_Y_gear = F_Y_gear;
+ FG_F_Z_gear = F_Z_gear;
+ FG_M_l_rp = M_l_rp;
+ FG_M_m_rp = M_m_rp;
+ FG_M_n_rp = M_n_rp;
+ FG_M_l_cg = M_l_cg;
+ FG_M_m_cg = M_m_cg;
+ FG_M_n_cg = M_n_cg;
+ FG_M_l_aero = M_l_aero;
+ FG_M_m_aero = M_m_aero;
+ FG_M_n_aero = M_n_aero;
+ FG_M_l_engine = M_l_engine;
+ FG_M_m_engine = M_m_engine;
+ FG_M_n_engine = M_n_engine;
+ FG_M_l_gear = M_l_gear;
+ FG_M_m_gear = M_m_gear;
+ FG_M_n_gear = M_n_gear;
+ FG_V_dot_north = V_dot_north;
+ FG_V_dot_east = V_dot_east;
+ FG_V_dot_down = V_dot_down;
+ FG_U_dot_body = U_dot_body;
+ FG_V_dot_body = V_dot_body;
+ FG_W_dot_body = W_dot_body;
+ FG_A_X_cg = A_X_cg;
+ FG_A_Y_cg = A_Y_cg;
+ FG_A_Z_cg = A_Z_cg;
+ FG_A_X_pilot = A_X_pilot;
+ FG_A_Y_pilot = A_Y_pilot;
+ FG_A_Z_pilot = A_Z_pilot;
+ FG_N_X_cg = N_X_cg;
+ FG_N_Y_cg = N_Y_cg;
+ FG_N_Z_cg = N_Z_cg;
+ FG_N_X_pilot = N_X_pilot;
+ FG_N_Y_pilot = N_Y_pilot;
+ FG_N_Z_pilot = N_Z_pilot;
+ FG_P_dot_body = P_dot_body;
+ FG_Q_dot_body = Q_dot_body;
+ FG_R_dot_body = R_dot_body;
+ FG_V_north = V_north;
+ FG_V_east = V_east;
+ FG_V_down = V_down;
+ FG_V_north_rel_ground = V_north_rel_ground;
+ FG_V_east_rel_ground = V_east_rel_ground;
+ FG_V_down_rel_ground = V_down_rel_ground;
+ FG_V_north_airmass = V_north_airmass;
+ FG_V_east_airmass = V_east_airmass;
+ FG_V_down_airmass = V_down_airmass;
+ FG_V_north_rel_airmass = V_north_rel_airmass;
+ FG_V_east_rel_airmass = V_east_rel_airmass;
+ FG_V_down_rel_airmass = V_down_rel_airmass;
+ FG_U_gust = U_gust;
+ FG_V_gust = V_gust;
+ FG_W_gust = W_gust;
+ FG_U_body = U_body;
+ FG_V_body = V_body;
+ FG_W_body = W_body;
+ FG_V_rel_wind = V_rel_wind;
+ FG_V_true_kts = V_true_kts;
+ FG_V_rel_ground = V_rel_ground;
+ FG_V_inertial = V_inertial;
+ FG_V_ground_speed = V_ground_speed;
+ FG_V_equiv = V_equiv;
+ FG_V_equiv_kts = V_equiv_kts;
+ FG_V_calibrated = V_calibrated;
+ FG_V_calibrated_kts = V_calibrated_kts;
+ FG_P_body = P_body;
+ FG_Q_body = Q_body;
+ FG_R_body = R_body;
+ FG_P_local = P_local;
+ FG_Q_local = Q_local;
+ FG_R_local = R_local;
+ FG_P_total = P_total;
+ FG_Q_total = Q_total;
+ FG_R_total = R_total;
+ FG_Phi_dot = Phi_dot;
+ FG_Theta_dot = Theta_dot;
+ FG_Psi_dot = Psi_dot;
+ FG_Latitude_dot = Latitude_dot;
+ FG_Longitude_dot = Longitude_dot;
+ FG_Radius_dot = Radius_dot;
+ FG_Lat_geocentric = Lat_geocentric;
+ FG_Lon_geocentric = Lon_geocentric;
+ FG_Radius_to_vehicle = Radius_to_vehicle;
+ FG_Latitude = Latitude;
+ FG_Longitude = Longitude;
+ FG_Altitude = Altitude;
+ FG_Phi = Phi;
+ FG_Theta = Theta;
+ FG_Psi = Psi;
+ FG_T_local_to_body_11 = T_local_to_body_11;
+ FG_T_local_to_body_12 = T_local_to_body_12;
+ FG_T_local_to_body_13 = T_local_to_body_13;
+ FG_T_local_to_body_21 = T_local_to_body_21;
+ FG_T_local_to_body_22 = T_local_to_body_22;
+ FG_T_local_to_body_23 = T_local_to_body_23;
+ FG_T_local_to_body_31 = T_local_to_body_31;
+ FG_T_local_to_body_32 = T_local_to_body_32;
+ FG_T_local_to_body_33 = T_local_to_body_33;
+ FG_Gravity = Gravity;
+ FG_Centrifugal_relief = Centrifugal_relief;
+ FG_Alpha = Alpha;
+ FG_Beta = Beta;
+ FG_Alpha_dot = Alpha_dot;
+ FG_Beta_dot = Beta_dot;
+ FG_Cos_alpha = Cos_alpha;
+ FG_Sin_alpha = Sin_alpha;
+ FG_Cos_beta = Cos_beta;
+ FG_Sin_beta = Sin_beta;
+ FG_Cos_phi = Cos_phi;
+ FG_Sin_phi = Sin_phi;
+ FG_Cos_theta = Cos_theta;
+ FG_Sin_theta = Sin_theta;
+ FG_Cos_psi = Cos_psi;
+ FG_Sin_psi = Sin_psi;
+ FG_Gamma_vert_rad = Gamma_vert_rad;
+ FG_Gamma_horiz_rad = Gamma_horiz_rad;
+ FG_Sigma = Sigma;
+ FG_Density = Density;
+ FG_V_sound = V_sound;
+ FG_Mach_number = Mach_number;
+ FG_Static_pressure = Static_pressure;
+ FG_Total_pressure = Total_pressure;
+ FG_Impact_pressure = Impact_pressure;
+ FG_Dynamic_pressure = Dynamic_pressure;
+ FG_Static_temperature = Static_temperature;
+ FG_Total_temperature = Total_temperature;
+ FG_Sea_level_radius = Sea_level_radius;
+ FG_Earth_position_angle = Earth_position_angle;
+ FG_Runway_altitude = Runway_altitude;
+ FG_Runway_latitude = Runway_latitude;
+ FG_Runway_longitude = Runway_longitude;
+ FG_Runway_heading = Runway_heading;
+ FG_Radius_to_rwy = Radius_to_rwy;
+ FG_D_cg_north_of_rwy = D_cg_north_of_rwy;
+ FG_D_cg_east_of_rwy = D_cg_east_of_rwy;
+ FG_D_cg_above_rwy = D_cg_above_rwy;
+ FG_X_cg_rwy = X_cg_rwy;
+ FG_Y_cg_rwy = Y_cg_rwy;
+ FG_H_cg_rwy = H_cg_rwy;
+ FG_D_pilot_north_of_rwy = D_pilot_north_of_rwy;
+ FG_D_pilot_east_of_rwy = D_pilot_east_of_rwy;
+ FG_D_pilot_above_rwy = D_pilot_above_rwy;
+ FG_X_pilot_rwy = X_pilot_rwy;
+ FG_Y_pilot_rwy = Y_pilot_rwy;
+ FG_H_pilot_rwy = H_pilot_rwy;
+
+ return ( 0 );
+}
+
/* Flight Gear Modification Log
*
* $Log$
+ * Revision 1.14 1998/01/19 19:27:04 curt
+ * Merged in make system changes from Bob Kuehne <rpk@sgi.com>
+ * This should simplify things tremendously.
+ *
+ * Revision 1.13 1998/01/19 18:40:26 curt
+ * Tons of little changes to clean up the code and to remove fatal errors
+ * when building with the c++ compiler.
+ *
+ * Revision 1.12 1998/01/06 01:20:16 curt
+ * Tweaks to help building with MSVC++
+ *
+ * Revision 1.11 1998/01/05 22:19:26 curt
+ * #ifdef'd out some unused code that was problematic for MSVC++ to compile.
+ *
+ * Revision 1.10 1997/12/10 22:37:43 curt
+ * Prepended "fg" on the name of all global structures that didn't have it yet.
+ * i.e. "struct WEATHER {}" became "struct fgWEATHER {}"
+ *
+ * Revision 1.9 1997/08/27 03:30:08 curt
+ * Changed naming scheme of basic shared structures.
+ *
+ * Revision 1.8 1997/06/21 17:12:50 curt
+ * Capitalized subdirectory names.
+ *
+ * Revision 1.7 1997/05/31 19:16:28 curt
+ * Elevator trim added.
+ *
+ * Revision 1.6 1997/05/31 04:13:53 curt
+ * WE CAN NOW FLY!!!
+ *
+ * Continuing work on the LaRCsim flight model integration.
+ * Added some MSFS-like keyboard input handling.
+ *
+ * Revision 1.5 1997/05/30 23:26:25 curt
+ * Added elevator/aileron controls.
+ *
+ * Revision 1.4 1997/05/30 19:30:15 curt
+ * The LaRCsim flight model is starting to look like it is working.
+ *
+ * Revision 1.3 1997/05/30 03:54:12 curt
+ * Made a bit more progress towards integrating the LaRCsim flight model.
+ *
+ * Revision 1.2 1997/05/29 22:39:59 curt
+ * Working on incorporating the LaRCsim flight model.
+ *
* Revision 1.1 1997/05/29 00:09:57 curt
* Initial Flight Gear revision.
*