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flightgear/src/FDM/LaRCsim.cxx

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// LaRCsim.cxx -- interface to the LaRCsim flight model
//
// Written by Curtis Olson, started October 1998.
//
// Copyright (C) 1998 Curtis L. Olson - curt@me.umn.edu
//
// 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., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
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#include <simgear/constants.h>
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#include <simgear/debug/logstream.hxx>
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#include <Aircraft/aircraft.hxx>
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#include <Controls/controls.hxx>
#include <FDM/flight.hxx>
#include <FDM/LaRCsim/ls_cockpit.h>
#include <FDM/LaRCsim/ls_generic.h>
#include <FDM/LaRCsim/ls_interface.h>
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#include "IO360.hxx"
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#include "LaRCsim.hxx"
#define USE_NEW_ENGINE_CODE 1
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FGEngine eng;
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// Initialize the LaRCsim flight model, dt is the time increment for
// each subsequent iteration through the EOM
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int FGLaRCsim::init( double dt ) {
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#ifdef USE_NEW_ENGINE_CODE
// Initialize our little engine that hopefully might
eng.init();
#endif
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// cout << "FGLaRCsim::init()" << endl;
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double save_alt = 0.0;
if ( get_Altitude() < -9000.0 ) {
save_alt = get_Altitude();
set_Altitude( 0.0 );
}
// translate FG to LaRCsim structure
copy_to_LaRCsim();
// actual LaRCsim top level init
ls_toplevel_init( dt, (char *)current_options.get_aircraft().c_str() );
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FG_LOG( FG_FLIGHT, FG_INFO, "FG pos = " <<
get_Latitude() );
// translate LaRCsim back to FG structure
copy_from_LaRCsim();
// but lets restore our original bogus altitude when we are done
if ( save_alt < -9000.0 ) {
set_Altitude( save_alt );
}
// set valid time for this record
stamp_time();
return 1;
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}
// Run an iteration of the EOM (equations of motion)
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int FGLaRCsim::update( int multiloop ) {
// cout << "FGLaRCsim::update()" << endl;
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#ifdef USE_NEW_ENGINE_CODE
// update simple engine model
eng.set_IAS( V_calibrated_kts );
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eng.set_Throttle_Lever_Pos( controls.get_throttle( 0 ) * 100.0 );
eng.set_Propeller_Lever_Pos( 100 );
eng.set_Mixture_Lever_Pos( 80 );
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eng.update();
#if 0
cout << "Throttle = " << controls.get_throttle( 0 ) * 100.0;
cout << " Mixture = " << 80;
cout << " RPM = " << eng.get_RPM();
cout << " MP = " << eng.get_Manifold_Pressure();
cout << " HP = " << ( eng.get_MaxHP() * eng.get_Percentage_Power()
/ 100.0 );
cout << " EGT = " << eng.get_EGT();
cout << " Thrust (N) " << eng.get_prop_thrust_SI(); // Thrust in Newtons
cout << '\n';
#endif // 0
F_X_engine = eng.get_prop_thrust_SI() * 0.07;
#endif // USE_NEW_ENGINE_CODE
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double save_alt = 0.0;
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double time_step = (1.0 / current_options.get_model_hz()) * multiloop;
double start_elev = get_Altitude();
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// lets try to avoid really screwing up the LaRCsim model
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if ( get_Altitude() < -9000.0 ) {
save_alt = get_Altitude();
set_Altitude( 0.0 );
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}
// copy control positions into the LaRCsim structure
Lat_control = controls.get_aileron() / current_options.get_speed_up();
Long_control = controls.get_elevator();
Long_trim = controls.get_elevator_trim();
Rudder_pedal = controls.get_rudder() / current_options.get_speed_up();
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Flap_handle = 30.0 * controls.get_flaps();
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#ifdef USE_NEW_ENGINE_CODE
Throttle_pct = -1.0; // tells engine model to use propellor thrust
#else
Throttle_pct = controls.get_throttle( 0 ) * 1.0;
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#endif
Brake_pct[0] = controls.get_brake( 1 );
Brake_pct[1] = controls.get_brake( 0 );
// Inform LaRCsim of the local terrain altitude
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Runway_altitude = get_Runway_altitude();
// Weather
V_north_airmass = get_V_north_airmass();
V_east_airmass = get_V_east_airmass();
V_down_airmass = get_V_down_airmass();
// old -- FGInterface_2_LaRCsim() not needed except for Init()
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// translate FG to LaRCsim structure
// FGInterface_2_LaRCsim(f);
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// printf("FG_Altitude = %.2f\n", FG_Altitude * 0.3048);
// printf("Altitude = %.2f\n", Altitude * 0.3048);
// printf("Radius to Vehicle = %.2f\n", Radius_to_vehicle * 0.3048);
ls_update(multiloop);
// printf("%d FG_Altitude = %.2f\n", i, FG_Altitude * 0.3048);
// printf("%d Altitude = %.2f\n", i, Altitude * 0.3048);
// translate LaRCsim back to FG structure so that the
// autopilot (and the rest of the sim can use the updated
// values
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copy_from_LaRCsim();
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// but lets restore our original bogus altitude when we are done
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if ( save_alt < -9000.0 ) {
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set_Altitude( save_alt );
}
double end_elev = get_Altitude();
if ( time_step > 0.0 ) {
// feet per second
set_Climb_Rate( (end_elev - start_elev) / time_step );
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}
return 1;
}
// Convert from the FGInterface struct to the LaRCsim generic_ struct
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int FGLaRCsim::copy_to_LaRCsim () {
Mass = get_Mass();
I_xx = get_I_xx();
I_yy = get_I_yy();
I_zz = get_I_zz();
I_xz = get_I_xz();
// Dx_pilot = get_Dx_pilot();
// Dy_pilot = get_Dy_pilot();
// Dz_pilot = get_Dz_pilot();
Dx_cg = get_Dx_cg();
Dy_cg = get_Dy_cg();
Dz_cg = get_Dz_cg();
// F_X = get_F_X();
// F_Y = get_F_Y();
// F_Z = get_F_Z();
// F_north = get_F_north();
// F_east = get_F_east();
// F_down = get_F_down();
// F_X_aero = get_F_X_aero();
// F_Y_aero = get_F_Y_aero();
// F_Z_aero = get_F_Z_aero();
// F_X_engine = get_F_X_engine();
// F_Y_engine = get_F_Y_engine();
// F_Z_engine = get_F_Z_engine();
// F_X_gear = get_F_X_gear();
// F_Y_gear = get_F_Y_gear();
// F_Z_gear = get_F_Z_gear();
// M_l_rp = get_M_l_rp();
// M_m_rp = get_M_m_rp();
// M_n_rp = get_M_n_rp();
// M_l_cg = get_M_l_cg();
// M_m_cg = get_M_m_cg();
// M_n_cg = get_M_n_cg();
// M_l_aero = get_M_l_aero();
// M_m_aero = get_M_m_aero();
// M_n_aero = get_M_n_aero();
// M_l_engine = get_M_l_engine();
// M_m_engine = get_M_m_engine();
// M_n_engine = get_M_n_engine();
// M_l_gear = get_M_l_gear();
// M_m_gear = get_M_m_gear();
// M_n_gear = get_M_n_gear();
// V_dot_north = get_V_dot_north();
// V_dot_east = get_V_dot_east();
// V_dot_down = get_V_dot_down();
// U_dot_body = get_U_dot_body();
// V_dot_body = get_V_dot_body();
// W_dot_body = get_W_dot_body();
// A_X_cg = get_A_X_cg();
// A_Y_cg = get_A_Y_cg();
// A_Z_cg = get_A_Z_cg();
// A_X_pilot = get_A_X_pilot();
// A_Y_pilot = get_A_Y_pilot();
// A_Z_pilot = get_A_Z_pilot();
// N_X_cg = get_N_X_cg();
// N_Y_cg = get_N_Y_cg();
// N_Z_cg = get_N_Z_cg();
// N_X_pilot = get_N_X_pilot();
// N_Y_pilot = get_N_Y_pilot();
// N_Z_pilot = get_N_Z_pilot();
// P_dot_body = get_P_dot_body();
// Q_dot_body = get_Q_dot_body();
// R_dot_body = get_R_dot_body();
V_north = get_V_north();
V_east = get_V_east();
V_down = get_V_down();
// V_north_rel_ground = get_V_north_rel_ground();
// V_east_rel_ground = get_V_east_rel_ground();
// V_down_rel_ground = get_V_down_rel_ground();
// V_north_airmass = get_V_north_airmass();
// V_east_airmass = get_V_east_airmass();
// V_down_airmass = get_V_down_airmass();
// V_north_rel_airmass = get_V_north_rel_airmass();
// V_east_rel_airmass = get_V_east_rel_airmass();
// V_down_rel_airmass = get_V_down_rel_airmass();
// U_gust = get_U_gust();
// V_gust = get_V_gust();
// W_gust = get_W_gust();
// U_body = get_U_body();
// V_body = get_V_body();
// W_body = get_W_body();
// V_rel_wind = get_V_rel_wind();
// V_true_kts = get_V_true_kts();
// V_rel_ground = get_V_rel_ground();
// V_inertial = get_V_inertial();
// V_ground_speed = get_V_ground_speed();
// V_equiv = get_V_equiv();
// V_equiv_kts = get_V_equiv_kts();
// V_calibrated = get_V_calibrated();
// V_calibrated_kts = get_V_calibrated_kts();
P_body = get_P_body();
Q_body = get_Q_body();
R_body = get_R_body();
// P_local = get_P_local();
// Q_local = get_Q_local();
// R_local = get_R_local();
// P_total = get_P_total();
// Q_total = get_Q_total();
// R_total = get_R_total();
// Phi_dot = get_Phi_dot();
// Theta_dot = get_Theta_dot();
// Psi_dot = get_Psi_dot();
// Latitude_dot = get_Latitude_dot();
// Longitude_dot = get_Longitude_dot();
// Radius_dot = get_Radius_dot();
Lat_geocentric = get_Lat_geocentric();
Lon_geocentric = get_Lon_geocentric();
Radius_to_vehicle = get_Radius_to_vehicle();
Latitude = get_Latitude();
Longitude = get_Longitude();
Altitude = get_Altitude();
Phi = get_Phi();
Theta = get_Theta();
Psi = get_Psi();
// T_local_to_body_11 = get_T_local_to_body_11();
// T_local_to_body_12 = get_T_local_to_body_12();
// T_local_to_body_13 = get_T_local_to_body_13();
// T_local_to_body_21 = get_T_local_to_body_21();
// T_local_to_body_22 = get_T_local_to_body_22();
// T_local_to_body_23 = get_T_local_to_body_23();
// T_local_to_body_31 = get_T_local_to_body_31();
// T_local_to_body_32 = get_T_local_to_body_32();
// T_local_to_body_33 = get_T_local_to_body_33();
// Gravity = get_Gravity();
// Centrifugal_relief = get_Centrifugal_relief();
// Alpha = get_Alpha();
// Beta = get_Beta();
// Alpha_dot = get_Alpha_dot();
// Beta_dot = get_Beta_dot();
// Cos_alpha = get_Cos_alpha();
// Sin_alpha = get_Sin_alpha();
// Cos_beta = get_Cos_beta();
// Sin_beta = get_Sin_beta();
// Cos_phi = get_Cos_phi();
// Sin_phi = get_Sin_phi();
// Cos_theta = get_Cos_theta();
// Sin_theta = get_Sin_theta();
// Cos_psi = get_Cos_psi();
// Sin_psi = get_Sin_psi();
// Gamma_vert_rad = get_Gamma_vert_rad();
// Gamma_horiz_rad = get_Gamma_horiz_rad();
// Sigma = get_Sigma();
// Density = get_Density();
// V_sound = get_V_sound();
// Mach_number = get_Mach_number();
// Static_pressure = get_Static_pressure();
// Total_pressure = get_Total_pressure();
// Impact_pressure = get_Impact_pressure();
// Dynamic_pressure = get_Dynamic_pressure();
// Static_temperature = get_Static_temperature();
// Total_temperature = get_Total_temperature();
Sea_level_radius = get_Sea_level_radius();
Earth_position_angle = get_Earth_position_angle();
Runway_altitude = get_Runway_altitude();
// Runway_latitude = get_Runway_latitude();
// Runway_longitude = get_Runway_longitude();
// Runway_heading = get_Runway_heading();
// Radius_to_rwy = get_Radius_to_rwy();
// D_cg_north_of_rwy = get_D_cg_north_of_rwy();
// D_cg_east_of_rwy = get_D_cg_east_of_rwy();
// D_cg_above_rwy = get_D_cg_above_rwy();
// X_cg_rwy = get_X_cg_rwy();
// Y_cg_rwy = get_Y_cg_rwy();
// H_cg_rwy = get_H_cg_rwy();
// D_pilot_north_of_rwy = get_D_pilot_north_of_rwy();
// D_pilot_east_of_rwy = get_D_pilot_east_of_rwy();
// D_pilot_above_rwy = get_D_pilot_above_rwy();
// X_pilot_rwy = get_X_pilot_rwy();
// Y_pilot_rwy = get_Y_pilot_rwy();
// H_pilot_rwy = get_H_pilot_rwy();
return 1;
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}
// Convert from the LaRCsim generic_ struct to the FGInterface struct
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int FGLaRCsim::copy_from_LaRCsim() {
// Mass properties and geometry values
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set_Inertias( Mass, I_xx, I_yy, I_zz, I_xz );
// set_Pilot_Location( Dx_pilot, Dy_pilot, Dz_pilot );
set_CG_Position( Dx_cg, Dy_cg, Dz_cg );
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// Forces
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// set_Forces_Body_Total( F_X, F_Y, F_Z );
// set_Forces_Local_Total( F_north, F_east, F_down );
// set_Forces_Aero( F_X_aero, F_Y_aero, F_Z_aero );
// set_Forces_Engine( F_X_engine, F_Y_engine, F_Z_engine );
// set_Forces_Gear( F_X_gear, F_Y_gear, F_Z_gear );
// Moments
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// set_Moments_Total_RP( M_l_rp, M_m_rp, M_n_rp );
// set_Moments_Total_CG( M_l_cg, M_m_cg, M_n_cg );
// set_Moments_Aero( M_l_aero, M_m_aero, M_n_aero );
// set_Moments_Engine( M_l_engine, M_m_engine, M_n_engine );
// set_Moments_Gear( M_l_gear, M_m_gear, M_n_gear );
// Accelerations
set_Accels_Local( V_dot_north, V_dot_east, V_dot_down );
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set_Accels_Body( U_dot_body, V_dot_body, W_dot_body );
set_Accels_CG_Body( A_X_cg, A_Y_cg, A_Z_cg );
set_Accels_Pilot_Body( A_X_pilot, A_Y_pilot, A_Z_pilot );
// set_Accels_CG_Body_N( N_X_cg, N_Y_cg, N_Z_cg );
// set_Accels_Pilot_Body_N( N_X_pilot, N_Y_pilot, N_Z_pilot );
// set_Accels_Omega( P_dot_body, Q_dot_body, R_dot_body );
// Velocities
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set_Velocities_Local( V_north, V_east, V_down );
// set_Velocities_Ground( V_north_rel_ground, V_east_rel_ground,
// V_down_rel_ground );
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// set_Velocities_Local_Airmass( V_north_airmass, V_east_airmass,
// V_down_airmass );
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// set_Velocities_Local_Rel_Airmass( V_north_rel_airmass,
// V_east_rel_airmass, V_down_rel_airmass );
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// set_Velocities_Gust( U_gust, V_gust, W_gust );
set_Velocities_Wind_Body( U_body, V_body, W_body );
// set_V_rel_wind( V_rel_wind );
// set_V_true_kts( V_true_kts );
// set_V_rel_ground( V_rel_ground );
// set_V_inertial( V_inertial );
set_V_ground_speed( V_ground_speed );
// set_V_equiv( V_equiv );
set_V_equiv_kts( V_equiv_kts );
// set_V_calibrated( V_calibrated );
set_V_calibrated_kts( V_calibrated_kts );
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set_Omega_Body( P_body, Q_body, R_body );
// set_Omega_Local( P_local, Q_local, R_local );
// set_Omega_Total( P_total, Q_total, R_total );
set_Euler_Rates( Phi_dot, Theta_dot, Psi_dot );
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set_Geocentric_Rates( Latitude_dot, Longitude_dot, Radius_dot );
set_Mach_number( Mach_number );
FG_LOG( FG_FLIGHT, FG_DEBUG, "lon = " << Longitude
<< " lat_geoc = " << Lat_geocentric << " lat_geod = " << Latitude
<< " alt = " << Altitude << " sl_radius = " << Sea_level_radius
<< " radius_to_vehicle = " << Radius_to_vehicle );
double tmp_lon_geoc = Lon_geocentric;
while ( tmp_lon_geoc < -FG_PI ) { tmp_lon_geoc += FG_2PI; }
while ( tmp_lon_geoc > FG_PI ) { tmp_lon_geoc -= FG_2PI; }
double tmp_lon = Longitude;
while ( tmp_lon < -FG_PI ) { tmp_lon += FG_2PI; }
while ( tmp_lon > FG_PI ) { tmp_lon -= FG_2PI; }
// Positions
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set_Geocentric_Position( Lat_geocentric, tmp_lon_geoc,
Radius_to_vehicle );
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set_Geodetic_Position( Latitude, tmp_lon, Altitude );
set_Euler_Angles( Phi, Theta, Psi );
// Miscellaneous quantities
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set_T_Local_to_Body(T_local_to_body_m);
// set_Gravity( Gravity );
// set_Centrifugal_relief( Centrifugal_relief );
set_Alpha( Alpha );
set_Beta( Beta );
// set_Alpha_dot( Alpha_dot );
// set_Beta_dot( Beta_dot );
// set_Cos_alpha( Cos_alpha );
// set_Sin_alpha( Sin_alpha );
// set_Cos_beta( Cos_beta );
// set_Sin_beta( Sin_beta );
set_Cos_phi( Cos_phi );
// set_Sin_phi( Sin_phi );
set_Cos_theta( Cos_theta );
// set_Sin_theta( Sin_theta );
// set_Cos_psi( Cos_psi );
// set_Sin_psi( Sin_psi );
set_Gamma_vert_rad( Gamma_vert_rad );
// set_Gamma_horiz_rad( Gamma_horiz_rad );
// set_Sigma( Sigma );
set_Density( Density );
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// set_V_sound( V_sound );
// set_Mach_number( Mach_number );
set_Static_pressure( Static_pressure );
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// set_Total_pressure( Total_pressure );
// set_Impact_pressure( Impact_pressure );
// set_Dynamic_pressure( Dynamic_pressure );
set_Static_temperature( Static_temperature );
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// set_Total_temperature( Total_temperature );
set_Sea_level_radius( Sea_level_radius );
set_Earth_position_angle( Earth_position_angle );
set_Runway_altitude( Runway_altitude );
// set_Runway_latitude( Runway_latitude );
// set_Runway_longitude( Runway_longitude );
// set_Runway_heading( Runway_heading );
// set_Radius_to_rwy( Radius_to_rwy );
// set_CG_Rwy_Local( D_cg_north_of_rwy, D_cg_east_of_rwy, D_cg_above_rwy);
// set_CG_Rwy_Rwy( X_cg_rwy, Y_cg_rwy, H_cg_rwy );
// set_Pilot_Rwy_Local( D_pilot_north_of_rwy, D_pilot_east_of_rwy,
// D_pilot_above_rwy );
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// set_Pilot_Rwy_Rwy( X_pilot_rwy, Y_pilot_rwy, H_pilot_rwy );
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set_sin_lat_geocentric(Lat_geocentric);
set_cos_lat_geocentric(Lat_geocentric);
set_sin_cos_longitude(Longitude);
set_sin_cos_latitude(Latitude);
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// printf("sin_lat_geo %f cos_lat_geo %f\n", sin_Lat_geoc, cos_Lat_geoc);
// printf("sin_lat %f cos_lat %f\n",
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// get_sin_latitude(), get_cos_latitude());
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// printf("sin_lon %f cos_lon %f\n",
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// get_sin_longitude(), get_cos_longitude());
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return 1;
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}