Jim Wilson:
These changes should preserve previous functionality (with the exception of a couple bug fixes). Bugs fixed: - AP no longer resets the error accumulator when switching altitude modes or just closing the autopilot GUI. It will not be necessary to collect the barf bags after selecting a new altitude anymore. Makes things much smoother. - climb_rate calculation in the altitude hold mode included a factor that made sense for the c172. It is now scaled according to the configuration's target climb rate. Additions: Autothrottle (supports speed control only) is more configurable and accurate. VerticalSpeed mode added (automatically arms to altitude if flown toward altitude setting). Exposed various properties, added new lock properties.
This commit is contained in:
parent
36183cbc3d
commit
9c22c5678c
2 changed files with 175 additions and 36 deletions
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@ -98,10 +98,6 @@ void FGAutopilot::MakeTargetHeadingStr( double bearing ) {
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}
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static inline double get_speed( void ) {
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return( cur_fdm_state->get_V_equiv_kts() );
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}
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static inline double get_ground_speed() {
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// starts in ft/s so we convert to kts
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static const SGPropertyNode * speedup_node = fgGetNode("/sim/speed-up");
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@ -213,10 +209,22 @@ void FGAutopilot::init ()
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altitude_node = fgGetNode("/position/altitude-ft", true);
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altitude_agl_node = fgGetNode("/position/altitude-agl-ft", true);
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vertical_speed_node = fgGetNode("/velocities/vertical-speed-fps", true);
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airspeed_node = fgGetNode("/velocities/airspeed-kt", true);
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heading_node = fgGetNode("/orientation/heading-deg", true);
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dg_heading_node
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// support non-dg systems that indicate magnetic heading (e.g. 747-400)
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if (fgGetBool("autopilot/config/indicated-heading-magnetic")) {
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// use magnetic heading indicated
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indicated_heading_node
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= fgGetNode("/orientation/heading-magnetic-deg",
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true);
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} else {
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// use dg heading indicated
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indicated_heading_node
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= fgGetNode("/instrumentation/heading-indicator/indicated-heading-deg",
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true);
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}
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roll_node = fgGetNode("/orientation/roll-deg", true);
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pitch_node = fgGetNode("/orientation/pitch-deg", true);
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@ -241,6 +249,13 @@ void FGAutopilot::init ()
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max_roll_node = fgGetNode("/autopilot/config/max-roll-deg", true);
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roll_out_node = fgGetNode("/autopilot/config/roll-out-deg", true);
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roll_out_smooth_node = fgGetNode("/autopilot/config/roll-out-smooth-deg", true);
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throttle_adj_factor
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= fgGetNode("/autopilot/config/throttle-adj-factor", true);
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throttle_integral
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= fgGetNode("/autopilot/config/throttle-integral", true);
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speed_change_node
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= fgGetNode("/autopilot/output/speed_change_anticipated_kt", true);
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terrain_follow_factor = fgGetNode("/autopilot/config/terrain-follow-factor", true);
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current_throttle = fgGetNode("/controls/engines/engine/throttle");
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@ -270,6 +285,10 @@ void FGAutopilot::init ()
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fgSetFloat( "/autopilot/config/roll-out-deg", 20 );
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if ( roll_out_smooth_node->getFloatValue() < 0.0000001 )
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fgSetFloat( "/autopilot/config/roll-out-smooth-deg", 10 );
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if (throttle_adj_factor->getFloatValue() < 1)
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fgSetFloat( "/autopilot/config/throttle-adj-factor", 5000 );
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if ( throttle_integral->getFloatValue() < 0.0000001 )
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fgSetFloat( "/autopilot/config/throttle-integral", 0.001 );
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if (terrain_follow_factor->getFloatValue() < 1)
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fgSetFloat( "/autopilot/config/terrain-follow-factor", 16 );
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@ -283,6 +302,7 @@ void FGAutopilot::init ()
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DGTargetHeading = fgGetDouble("/autopilot/settings/heading-bug-deg");
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TargetHeading = fgGetDouble("/autopilot/settings/heading-bug-deg");
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TargetAltitude = fgGetDouble("/autopilot/settings/altitude-ft") * SG_FEET_TO_METER;
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TargetSpeed = fgGetDouble("/autopilot/settings/speed-kt");
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// Initialize target location to startup location
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old_lat = latitude_node->getDoubleValue();
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@ -315,6 +335,9 @@ void FGAutopilot::init ()
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// set default aileron max deflection
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MaxAileron = 0.5;
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// used to calculate acceleration
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previous_speed = 0;
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#if !defined( USING_SLIDER_CLASS )
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MaxRollAdjust = 2 * MaxRoll;
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RollOutAdjust = 2 * RollOut;
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@ -349,6 +372,11 @@ FGAutopilot::bind ()
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&FGAutopilot::getAPHeadingLock, &FGAutopilot::setAPHeadingLock);
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fgSetArchivable("/autopilot/locks/heading");
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fgTie("/autopilot/locks/vert-speed", this,
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&FGAutopilot::getAPVertSpeedLock, &FGAutopilot::setAPVertSpeedLock);
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fgSetArchivable("/autopilot/locks/vert-speed");
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fgTie("/autopilot/settings/heading-bug-deg", this,
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&FGAutopilot::getAPHeadingBug, &FGAutopilot::setAPHeadingBug);
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fgSetArchivable("/autopilot/settings/heading-bug-deg");
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@ -369,6 +397,9 @@ FGAutopilot::bind ()
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&FGAutopilot::getAPAutoThrottleLock,
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&FGAutopilot::setAPAutoThrottleLock);
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fgSetArchivable("/autopilot/locks/auto-throttle");
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fgTie("/autopilot/settings/speed-kt", this,
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&FGAutopilot::getAPAutoThrottle, &FGAutopilot::setAPAutoThrottle);
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fgSetArchivable("/autopilot/settings/altitude-ft");
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fgTie("/autopilot/control-overrides/rudder", this,
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&FGAutopilot::getAPRudderControl,
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&FGAutopilot::setAPRudderControl);
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@ -381,6 +412,12 @@ FGAutopilot::bind ()
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&FGAutopilot::getAPThrottleControl,
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&FGAutopilot::setAPThrottleControl);
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fgSetArchivable("/autopilot/control-overrides/throttle");
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fgTie("/autopilot/settings/vertical-speed-fpm", this,
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&FGAutopilot::getAPVertSpeed, &FGAutopilot::setAPVertSpeed);
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fgSetArchivable("/autopilot/settings/vertical-speed-fpm");
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fgSetDouble("/autopilot/settings/vertical-speed-fpm", 0.0f);
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}
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void
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@ -452,11 +489,8 @@ static double LinearExtrapolate( double x, double x1, double y1, double x2, doub
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void
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FGAutopilot::update (double dt)
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{
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// Remove the following lines when the calling funcitons start
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// passing in the data pointer
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// get control settings
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double lat = latitude_node->getDoubleValue();
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double lon = longitude_node->getDoubleValue();
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double alt = altitude_node->getDoubleValue() * SG_FEET_TO_METER;
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@ -499,7 +533,7 @@ FGAutopilot::update (double dt)
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if ( heading_hold == true ) {
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if ( heading_mode == FG_DG_HEADING_LOCK ) {
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double dg_error = heading_node->getDoubleValue()
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- dg_heading_node->getDoubleValue();
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- indicated_heading_node->getDoubleValue();
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TargetHeading = DGTargetHeading + dg_error;
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// cout << "dg_error = " << dg_error << endl;
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while ( TargetHeading < 0.0 ) { TargetHeading += 360.0; }
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@ -712,9 +746,9 @@ FGAutopilot::update (double dt)
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if ( altitude_mode == FG_ALTITUDE_LOCK ) {
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climb_rate =
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( TargetAltitude -
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fgGetDouble("/instrumentation/altimeter/indicated-altitude-ft") * SG_FEET_TO_METER ) * 8.0;
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fgGetDouble("/instrumentation/altimeter/indicated-altitude-ft") * SG_FEET_TO_METER ) * (TargetClimbRate->getDoubleValue() * 0.016);
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} else if ( altitude_mode == FG_TRUE_ALTITUDE_LOCK ) {
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climb_rate = ( TargetAltitude - alt ) * 8.0;
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climb_rate = ( TargetAltitude - alt ) * (TargetClimbRate->getDoubleValue() * 0.016);
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} else if ( altitude_mode == FG_ALTITUDE_GS1 ) {
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double x = current_radiostack->get_navcom1()->get_nav_gs_dist();
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double y = (altitude_node->getDoubleValue()
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@ -740,12 +774,18 @@ FGAutopilot::update (double dt)
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( TargetAGL - altitude_agl_node->getDoubleValue()
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* SG_FEET_TO_METER )
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* terrain_follow_factor->getFloatValue();
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} else if ( altitude_mode == FG_VERT_SPEED ) {
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climb_rate = TargetVertSpeed * SG_FEET_TO_METER;
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// switch to altitude hold, if set, within 500ft of target
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if (fabs(TargetAltitude * SG_METER_TO_FEET - altitude_node->getDoubleValue()) < 500) {
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set_AltitudeMode( FG_ALTITUDE_LOCK );
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}
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} else {
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// just try to zero out rate of climb ...
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climb_rate = 0.0;
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}
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speed = get_speed();
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speed = airspeed_node->getFloatValue();
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if ( speed < min_climb->getFloatValue() ) {
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max_climb = 0.0;
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@ -760,6 +800,8 @@ FGAutopilot::update (double dt)
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+ fabs(TargetClimbRate->getFloatValue() * SG_FEET_TO_METER);
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}
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if (altitude_mode != FG_VERT_SPEED) {
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// this first one could be optional if we wanted to allow
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// better climb performance assuming we have the airspeed to
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// support it.
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@ -779,6 +821,8 @@ FGAutopilot::update (double dt)
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= -fabs(TargetDescentRate->getFloatValue() * SG_FEET_TO_METER);
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}
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}
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error = vertical_speed_node->getDoubleValue() * 60
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- climb_rate * SG_METER_TO_FEET;
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@ -824,8 +868,17 @@ FGAutopilot::update (double dt)
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double error;
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double prop_error, int_error;
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double prop_adj, int_adj, total_adj;
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double lookahead;
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error = TargetSpeed - get_speed();
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// estimate speed in 10 seconds
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lookahead = airspeed_node->getFloatValue() + ( airspeed_node->getFloatValue() - previous_speed) * (10/dt);
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previous_speed = airspeed_node->getFloatValue();
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// compare targetspeed to anticipated airspeed
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error = TargetSpeed - lookahead;
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// output anticipated speed change...
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speed_change_node->setDoubleValue(lookahead - airspeed_node->getFloatValue());
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// accumulate the error under the curve ... this really should
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// be *= delta t
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int_error = speed_error_accum;
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// printf("error = %.2f int_error = %.2f\n", error, int_error);
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int_adj = int_error / 200.0;
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int_adj = int_error / throttle_adj_factor->getFloatValue();
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// caclulate proportional error
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prop_error = error;
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prop_adj = 0.5 + prop_error / 50.0;
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prop_adj = prop_error / throttle_adj_factor->getFloatValue();
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total_adj = (1.0 - throttle_integral->getFloatValue()) * prop_adj +
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throttle_integral->getFloatValue() * int_adj;
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total_adj = current_throttle->getFloatValue() + total_adj;
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total_adj = 0.9 * prop_adj + 0.1 * int_adj;
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if ( total_adj > 1.0 ) {
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total_adj = 1.0;
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}
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@ -956,8 +1013,11 @@ void FGAutopilot::set_HeadingMode( fgAutoHeadingMode mode ) {
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void FGAutopilot::set_AltitudeMode( fgAutoAltitudeMode mode ) {
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altitude_mode = mode;
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// only reset accum error if not in altitude mode for smooth transitions
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// from one altitude mode to another until pitch control damping added.
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if (!altitude_hold) {
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alt_error_accum = 0.0;
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}
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if ( altitude_mode == DEFAULT_AP_ALTITUDE_LOCK ) {
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if ( TargetAltitude < altitude_agl_node->getDoubleValue()
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@ -1098,15 +1158,34 @@ void FGAutopilot::HeadingSet( double new_heading ) {
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void FGAutopilot::AutoThrottleAdjust( double inc ) {
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double target = ( int ) ( TargetSpeed / inc ) * inc + inc;
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TargetSpeed = target;
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set_TargetSpeed( target );
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}
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/**
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* Set the autothrottle speed
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*/
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void
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FGAutopilot::setAPAutoThrottle (double speed_kt)
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{
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set_TargetSpeed( speed_kt );
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}
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/**
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* Get the autothrottle speed
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*/
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double
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FGAutopilot::getAPAutoThrottle () const
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{
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return get_TargetSpeed();
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}
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void FGAutopilot::set_AutoThrottleEnabled( bool value ) {
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auto_throttle = value;
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if ( auto_throttle == true ) {
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if (TargetSpeed < 0.0001) {
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TargetSpeed = fgGetDouble("/velocities/airspeed-kt");
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}
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speed_error_accum = 0.0;
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}
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@ -1221,6 +1300,30 @@ FGAutopilot::setAPTerrainLock (bool lock)
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set_AltitudeEnabled(lock);
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}
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/**
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* Get the autopilot vertical speed lock (true=on).
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*/
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bool
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FGAutopilot::getAPVertSpeedLock () const
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{
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return (get_AltitudeEnabled() &&
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(get_AltitudeMode()
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== FGAutopilot::FG_VERT_SPEED));
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}
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/**
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* Set the autopilot vert speed lock (true=on).
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*/
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void
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FGAutopilot::setAPVertSpeedLock (bool lock)
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{
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if (lock)
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set_AltitudeMode(FGAutopilot::FG_VERT_SPEED);
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if (get_AltitudeMode() == FGAutopilot::FG_VERT_SPEED)
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set_AltitudeEnabled(lock);
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}
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/**
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* Get the autopilot target altitude in feet.
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@ -1469,5 +1572,24 @@ FGAutopilot::setAPThrottleControl (double value)
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globals->get_controls()->set_throttle(FGControls::ALL_ENGINES, value);
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}
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/**
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* Get the vertical speed selected
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*/
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double
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FGAutopilot::getAPVertSpeed () const
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{
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return TargetVertSpeed;
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}
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/**
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* Set the selected vertical speed
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*/
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void
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FGAutopilot::setAPVertSpeed (double speed)
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{
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TargetVertSpeed = speed;
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}
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// end of newauto.cxx
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@ -54,11 +54,11 @@ public:
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FG_ALTITUDE_GS1 = 2, // follow glide slope 1
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FG_ALTITUDE_GS2 = 3, // follow glide slope 2
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FG_ALTITUDE_ARM = 4, // ascend to selected altitude
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FG_TRUE_ALTITUDE_LOCK = 5 // lock to a specific true altitude
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FG_TRUE_ALTITUDE_LOCK = 5, // lock to a specific true altitude
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// (i.e. a perfect world)
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FG_VERT_SPEED = 6 // ascend or descend at selected fpm
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};
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private:
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bool heading_hold; // the current state of the heading hold
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double TargetAltitude; // altitude to hold
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double TargetAGL; // the terrain separation
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double TargetVertSpeed; // vertical speed to shoot for
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double TargetSpeed; // speed to shoot for
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double alt_error_accum; // altitude error accumulator
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double climb_error_accum; // climb error accumulator (for GS)
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double speed_error_accum; // speed error accumulator
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double previous_speed; // used to detect acceleration rate
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double TargetSlope; // the glide slope hold value
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double MaxRoll ; // the max the plane can roll for the turn
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@ -124,9 +128,10 @@ private:
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SGPropertyNode *altitude_agl_node;
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SGPropertyNode *vertical_speed_node;
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SGPropertyNode *heading_node;
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SGPropertyNode *dg_heading_node;
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SGPropertyNode *indicated_heading_node;
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SGPropertyNode *roll_node;
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SGPropertyNode *pitch_node;
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SGPropertyNode *airspeed_node;
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SGPropertyNode *min_climb; // minimum climb speed
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SGPropertyNode *best_climb; // best climb speed
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@ -139,6 +144,10 @@ private:
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SGPropertyNode *max_roll_node; // maximum roll setting in degrees
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SGPropertyNode *roll_out_node; // start rollout offset from desired heading in degrees
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SGPropertyNode *roll_out_smooth_node; // rollout smoothing offset in degrees
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SGPropertyNode *throttle_adj_factor; // factor to optimize autothrottle adjustments
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SGPropertyNode *throttle_integral; // amount of contribution of the integral
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// component of the pid
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SGPropertyNode *speed_change_node; // anticipated speed change
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SGPropertyNode *TargetClimbRate; // target climb rate
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SGPropertyNode *TargetDescentRate; // target decent rate
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@ -207,6 +216,8 @@ public:
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inline void set_TargetDistance( double val ) { TargetDistance = val; }
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inline double get_TargetAltitude() const { return TargetAltitude; }
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inline void set_TargetAltitude( double val ) { TargetAltitude = val; }
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inline double get_TargetSpeed() const { return TargetSpeed; }
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inline void set_TargetSpeed( double val ) { TargetSpeed = val; }
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inline double get_TargetAGL() const { return TargetAGL; }
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inline void set_TargetAGL( double val ) { TargetAGL = val; }
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inline double get_TargetClimbRate() const {
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@ -266,6 +277,8 @@ private:
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void setAPAltitude (double altitude);
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bool getAPGSLock () const;
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void setAPGSLock (bool lock);
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bool getAPVertSpeedLock () const;
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void setAPVertSpeedLock (bool lock);
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bool getAPTerrainLock () const;
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void setAPTerrainLock (bool lock);
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double getAPClimb () const;
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@ -282,12 +295,16 @@ private:
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void setAPNAV1Lock (bool lock);
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bool getAPAutoThrottleLock () const;
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void setAPAutoThrottleLock (bool lock);
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double getAPAutoThrottle () const;
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void setAPAutoThrottle (double altitude);
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double getAPRudderControl () const;
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void setAPRudderControl (double value);
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double getAPElevatorControl () const;
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void setAPElevatorControl (double value);
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double getAPThrottleControl () const;
|
||||
void setAPThrottleControl (double value);
|
||||
double getAPVertSpeed () const;
|
||||
void setAPVertSpeed (double speed);
|
||||
|
||||
};
|
||||
|
||||
|
|
Loading…
Reference in a new issue