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# include "Plane.h"
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/*
get a speed scaling number for control surfaces . This is applied to
PIDs to change the scaling of the PID with speed . At high speed we
move the surfaces less , and at low speeds we move them more .
*/
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float Plane : : get_speed_scaler ( void )
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{
float aspeed , speed_scaler ;
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if ( ahrs . airspeed_estimate ( aspeed ) ) {
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if ( aspeed > auto_state . highest_airspeed ) {
auto_state . highest_airspeed = aspeed ;
}
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if ( aspeed > 0.0001f ) {
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speed_scaler = g . scaling_speed / aspeed ;
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} else {
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speed_scaler = 2.0 ;
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}
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// ensure we have scaling over the full configured airspeed
float scale_min = MIN ( 0.5 , ( 0.5 * aparm . airspeed_min ) / g . scaling_speed ) ;
float scale_max = MAX ( 2.0 , ( 1.5 * aparm . airspeed_max ) / g . scaling_speed ) ;
speed_scaler = constrain_float ( speed_scaler , scale_min , scale_max ) ;
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# if HAL_QUADPLANE_ENABLED
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if ( quadplane . in_vtol_mode ( ) & & hal . util - > get_soft_armed ( ) ) {
// when in VTOL modes limit surface movement at low speed to prevent instability
float threshold = aparm . airspeed_min * 0.5 ;
if ( aspeed < threshold ) {
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float new_scaler = linear_interpolate ( 0.001 , g . scaling_speed / threshold , aspeed , 0 , threshold ) ;
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speed_scaler = MIN ( speed_scaler , new_scaler ) ;
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// we also decay the integrator to prevent an integrator from before
// we were at low speed persistint at high speed
rollController . decay_I ( ) ;
pitchController . decay_I ( ) ;
yawController . decay_I ( ) ;
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}
}
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# endif
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} else if ( hal . util - > get_soft_armed ( ) ) {
// scale assumed surface movement using throttle output
float throttle_out = MAX ( SRV_Channels : : get_output_scaled ( SRV_Channel : : k_throttle ) , 1 ) ;
speed_scaler = sqrtf ( THROTTLE_CRUISE / throttle_out ) ;
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// This case is constrained tighter as we don't have real speed info
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speed_scaler = constrain_float ( speed_scaler , 0.6f , 1.67f ) ;
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} else {
// no speed estimate and not armed, use a unit scaling
speed_scaler = 1 ;
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}
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if ( ! plane . ahrs . airspeed_sensor_enabled ( ) & &
( plane . g2 . flight_options & FlightOptions : : SURPRESS_TKOFF_SCALING ) & &
( plane . flight_stage = = AP_Vehicle : : FixedWing : : FLIGHT_TAKEOFF ) ) { //scaling is surpressed during climb phase of automatic takeoffs with no airspeed sensor being used due to problems with inaccurate airspeed estimates
return MIN ( speed_scaler , 1.0f ) ;
}
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return speed_scaler ;
}
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/*
return true if the current settings and mode should allow for stick mixing
*/
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bool Plane : : stick_mixing_enabled ( void )
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{
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# if AC_FENCE == ENABLED
const bool stickmixing = fence_stickmixing ( ) ;
# else
const bool stickmixing = true ;
# endif
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# if HAL_QUADPLANE_ENABLED
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if ( control_mode = = & mode_qrtl & &
quadplane . poscontrol . get_state ( ) > = QuadPlane : : QPOS_POSITION1 ) {
// user may be repositioning
return false ;
}
if ( quadplane . in_vtol_land_poscontrol ( ) ) {
// user may be repositioning
return false ;
}
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# endif
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if ( control_mode - > does_auto_throttle ( ) & & plane . control_mode - > does_auto_navigation ( ) ) {
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// we're in an auto mode. Check the stick mixing flag
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if ( g . stick_mixing ! = StickMixing : : NONE & &
g . stick_mixing ! = StickMixing : : VTOL_YAW & &
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stickmixing & &
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failsafe . state = = FAILSAFE_NONE & &
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! rc_failsafe_active ( ) ) {
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// we're in an auto mode, and haven't triggered failsafe
return true ;
} else {
return false ;
}
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}
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if ( failsafe . rc_failsafe & & g . fs_action_short = = FS_ACTION_SHORT_FBWA ) {
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// don't do stick mixing in FBWA glide mode
return false ;
}
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// non-auto mode. Always do stick mixing
return true ;
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}
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/*
this is the main roll stabilization function . It takes the
previously set nav_roll calculates roll servo_out to try to
stabilize the plane at the given roll
*/
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void Plane : : stabilize_roll ( float speed_scaler )
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{
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if ( fly_inverted ( ) ) {
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// we want to fly upside down. We need to cope with wrap of
// the roll_sensor interfering with wrap of nav_roll, which
// would really confuse the PID code. The easiest way to
// handle this is to ensure both go in the same direction from
// zero
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nav_roll_cd + = 18000 ;
if ( ahrs . roll_sensor < 0 ) nav_roll_cd - = 36000 ;
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}
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const float roll_out = stabilize_roll_get_roll_out ( speed_scaler ) ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , roll_out ) ;
}
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float Plane : : stabilize_roll_get_roll_out ( float speed_scaler )
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{
# if HAL_QUADPLANE_ENABLED
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if ( ! quadplane . use_fw_attitude_controllers ( ) ) {
// use the VTOL rate for control, to ensure consistency
const auto & pid_info = quadplane . attitude_control - > get_rate_roll_pid ( ) . get_pid_info ( ) ;
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const float roll_out = rollController . get_rate_out ( degrees ( pid_info . target ) , speed_scaler ) ;
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/* when slaving fixed wing control to VTOL control we need to decay the integrator to prevent
opposing integrators balancing between the two controllers
*/
rollController . decay_I ( ) ;
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return roll_out ;
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}
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# endif
bool disable_integrator = false ;
if ( control_mode = = & mode_stabilize & & channel_roll - > get_control_in ( ) ! = 0 ) {
disable_integrator = true ;
}
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return rollController . get_servo_out ( nav_roll_cd - ahrs . roll_sensor , speed_scaler , disable_integrator ,
ground_mode & & ! ( plane . g2 . flight_options & FlightOptions : : DISABLE_GROUND_PID_SUPPRESSION ) ) ;
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}
/*
this is the main pitch stabilization function . It takes the
previously set nav_pitch and calculates servo_out values to try to
stabilize the plane at the given attitude .
*/
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void Plane : : stabilize_pitch ( float speed_scaler )
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{
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int8_t force_elevator = takeoff_tail_hold ( ) ;
if ( force_elevator ! = 0 ) {
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// we are holding the tail down during takeoff. Just convert
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// from a percentage to a -4500..4500 centidegree angle
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , 45 * force_elevator ) ;
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return ;
}
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const float pitch_out = stabilize_pitch_get_pitch_out ( speed_scaler ) ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , pitch_out ) ;
}
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float Plane : : stabilize_pitch_get_pitch_out ( float speed_scaler )
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{
# if HAL_QUADPLANE_ENABLED
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if ( ! quadplane . use_fw_attitude_controllers ( ) ) {
// use the VTOL rate for control, to ensure consistency
const auto & pid_info = quadplane . attitude_control - > get_rate_pitch_pid ( ) . get_pid_info ( ) ;
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const int32_t pitch_out = pitchController . get_rate_out ( degrees ( pid_info . target ) , speed_scaler ) ;
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/* when slaving fixed wing control to VTOL control we need to decay the integrator to prevent
opposing integrators balancing between the two controllers
*/
pitchController . decay_I ( ) ;
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return pitch_out ;
}
# endif
// if LANDING_FLARE RCx_OPTION switch is set and in FW mode, manual throttle,throttle idle then set pitch to LAND_PITCH_CD if flight option FORCE_FLARE_ATTITUDE is set
# if HAL_QUADPLANE_ENABLED
const bool quadplane_in_transition = quadplane . in_transition ( ) ;
# else
const bool quadplane_in_transition = false ;
# endif
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int32_t demanded_pitch = nav_pitch_cd + g . pitch_trim_cd + SRV_Channels : : get_output_scaled ( SRV_Channel : : k_throttle ) * g . kff_throttle_to_pitch ;
bool disable_integrator = false ;
if ( control_mode = = & mode_stabilize & & channel_pitch - > get_control_in ( ) ! = 0 ) {
disable_integrator = true ;
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}
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/* force landing pitch if:
- flare switch high
- throttle stick at zero thrust
- in fixed wing non auto - throttle mode
*/
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if ( ! quadplane_in_transition & &
! control_mode - > is_vtol_mode ( ) & &
! control_mode - > does_auto_throttle ( ) & &
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flare_mode = = FlareMode : : ENABLED_PITCH_TARGET & &
throttle_at_zero ( ) ) {
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demanded_pitch = landing . get_pitch_cd ( ) ;
}
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return pitchController . get_servo_out ( demanded_pitch - ahrs . pitch_sensor , speed_scaler , disable_integrator ,
ground_mode & & ! ( plane . g2 . flight_options & FlightOptions : : DISABLE_GROUND_PID_SUPPRESSION ) ) ;
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}
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/*
this gives the user control of the aircraft in stabilization modes
*/
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void Plane : : stabilize_stick_mixing_direct ( )
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{
if ( ! stick_mixing_enabled ( ) | |
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control_mode = = & mode_acro | |
control_mode = = & mode_fbwa | |
control_mode = = & mode_autotune | |
control_mode = = & mode_fbwb | |
control_mode = = & mode_cruise | |
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# if HAL_QUADPLANE_ENABLED
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control_mode = = & mode_qstabilize | |
control_mode = = & mode_qhover | |
control_mode = = & mode_qloiter | |
control_mode = = & mode_qland | |
control_mode = = & mode_qrtl | |
control_mode = = & mode_qacro | |
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# if QAUTOTUNE_ENABLED
control_mode = = & mode_qautotune | |
# endif
# endif
control_mode = = & mode_training ) {
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return ;
}
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float aileron = SRV_Channels : : get_output_scaled ( SRV_Channel : : k_aileron ) ;
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aileron = channel_roll - > stick_mixing ( aileron ) ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , aileron ) ;
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float elevator = SRV_Channels : : get_output_scaled ( SRV_Channel : : k_elevator ) ;
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elevator = channel_pitch - > stick_mixing ( elevator ) ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , elevator ) ;
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}
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/*
this gives the user control of the aircraft in stabilization modes
using FBW style controls
*/
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void Plane : : stabilize_stick_mixing_fbw ( )
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{
if ( ! stick_mixing_enabled ( ) | |
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control_mode = = & mode_acro | |
control_mode = = & mode_fbwa | |
control_mode = = & mode_autotune | |
control_mode = = & mode_fbwb | |
control_mode = = & mode_cruise | |
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# if HAL_QUADPLANE_ENABLED
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control_mode = = & mode_qstabilize | |
control_mode = = & mode_qhover | |
control_mode = = & mode_qloiter | |
control_mode = = & mode_qland | |
control_mode = = & mode_qrtl | |
control_mode = = & mode_qacro | |
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# if QAUTOTUNE_ENABLED
control_mode = = & mode_qautotune | |
# endif
# endif // HAL_QUADPLANE_ENABLED
control_mode = = & mode_training ) {
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return ;
}
// do FBW style stick mixing. We don't treat it linearly
// however. For inputs up to half the maximum, we use linear
// addition to the nav_roll and nav_pitch. Above that it goes
// non-linear and ends up as 2x the maximum, to ensure that
// the user can direct the plane in any direction with stick
// mixing.
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float roll_input = channel_roll - > norm_input ( ) ;
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if ( roll_input > 0.5f ) {
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roll_input = ( 3 * roll_input - 1 ) ;
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} else if ( roll_input < - 0.5f ) {
roll_input = ( 3 * roll_input + 1 ) ;
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}
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nav_roll_cd + = roll_input * roll_limit_cd ;
nav_roll_cd = constrain_int32 ( nav_roll_cd , - roll_limit_cd , roll_limit_cd ) ;
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float pitch_input = channel_pitch - > norm_input ( ) ;
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if ( pitch_input > 0.5f ) {
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pitch_input = ( 3 * pitch_input - 1 ) ;
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} else if ( pitch_input < - 0.5f ) {
pitch_input = ( 3 * pitch_input + 1 ) ;
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}
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if ( fly_inverted ( ) ) {
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pitch_input = - pitch_input ;
}
if ( pitch_input > 0 ) {
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nav_pitch_cd + = pitch_input * aparm . pitch_limit_max_cd ;
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} else {
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nav_pitch_cd + = - ( pitch_input * pitch_limit_min_cd ) ;
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}
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nav_pitch_cd = constrain_int32 ( nav_pitch_cd , pitch_limit_min_cd , aparm . pitch_limit_max_cd . get ( ) ) ;
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}
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/*
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stabilize the yaw axis . There are 3 modes of operation :
- hold a specific heading with ground steering
- rate controlled with ground steering
- yaw control for coordinated flight
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*/
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void Plane : : stabilize_yaw ( float speed_scaler )
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{
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if ( landing . is_flaring ( ) ) {
// in flaring then enable ground steering
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steering_control . ground_steering = true ;
} else {
// otherwise use ground steering when no input control and we
// are below the GROUND_STEER_ALT
ArduPlane: Fix up after refactoring RC_Channel class
Further to refactor of RC_Channel class which included
adding get_xx set_xx methods, change reads and writes to the public members
to calls to get and set functionsss
old public member(int16_t) get function -> int16_t set function (int16_t)
(expression where c is an object of type RC_Channel)
c.radio_in c.get_radio_in() c.set_radio_in(v)
c.control_in c.get_control_in() c.set_control_in(v)
c.servo_out c.get_servo_out() c.set_servo_out(v)
c.pwm_out c.get_pwm_out() // use existing
c.radio_out c.get_radio_out() c.set_radio_out(v)
c.radio_max c.get_radio_max() c.set_radio_max(v)
c.radio_min c.get_radio_min() c.set_radio_min(v)
c.radio_trim c.get_radio_trim() c.set_radio_trim(v);
c.min_max_configured() // return true if min and max are configured
Because data members of RC_Channels are now private and so cannot be written directly
some overloads are provided in the Plane classes to provide the old functionality
new overload Plane::stick_mix_channel(RC_Channel *channel)
which forwards to the previously existing
void stick_mix_channel(RC_Channel *channel, int16_t &servo_out);
new overload Plane::channel_output_mixer(Rc_Channel* , RC_Channel*)const
which forwards to
(uint8_t mixing_type, int16_t & chan1, int16_t & chan2)const;
Rename functions
RC_Channel_aux::set_radio_trim(Aux_servo_function_t function)
to RC_Channel_aux::set_trim_to_radio_in_for(Aux_servo_function_t function)
RC_Channel_aux::set_servo_out(Aux_servo_function_t function, int16_t value)
to RC_Channel_aux::set_servo_out_for(Aux_servo_function_t function, int16_t value)
Rationale:
RC_Channel is a complicated class, which combines
several functionalities dealing with stick inputs
in pwm and logical units, logical and actual actuator
outputs, unit conversion etc, etc
The intent of this PR is to clarify existing use of
the class. At the basic level it should now be possible
to grep all places where private variable is set by
searching for the set_xx function.
(The wider purpose is to provide a more generic and
logically simpler method of output mixing. This is a small step)
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steering_control . ground_steering = ( channel_roll - > get_control_in ( ) = = 0 & &
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fabsf ( relative_altitude ) < g . ground_steer_alt ) ;
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if ( ! landing . is_ground_steering_allowed ( ) ) {
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// don't use ground steering on landing approach
steering_control . ground_steering = false ;
}
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}
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/*
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first calculate steering_control . steering for a nose or tail
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wheel . We use " course hold " mode for the rudder when either performing
a flare ( when the wings are held level ) or when in course hold in
FBWA mode ( when we are below GROUND_STEER_ALT )
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*/
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if ( landing . is_flaring ( ) | |
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( steer_state . hold_course_cd ! = - 1 & & steering_control . ground_steering ) ) {
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calc_nav_yaw_course ( ) ;
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} else if ( steering_control . ground_steering ) {
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calc_nav_yaw_ground ( ) ;
}
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/*
now calculate steering_control . rudder for the rudder
*/
calc_nav_yaw_coordinated ( speed_scaler ) ;
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}
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/*
a special stabilization function for training mode
*/
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void Plane : : stabilize_training ( float speed_scaler )
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{
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const float rexpo = roll_in_expo ( false ) ;
const float pexpo = pitch_in_expo ( false ) ;
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if ( training_manual_roll ) {
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , rexpo ) ;
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} else {
// calculate what is needed to hold
stabilize_roll ( speed_scaler ) ;
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if ( ( nav_roll_cd > 0 & & rexpo < SRV_Channels : : get_output_scaled ( SRV_Channel : : k_aileron ) ) | |
( nav_roll_cd < 0 & & rexpo > SRV_Channels : : get_output_scaled ( SRV_Channel : : k_aileron ) ) ) {
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// allow user to get out of the roll
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , rexpo ) ;
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}
}
if ( training_manual_pitch ) {
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , pexpo ) ;
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} else {
stabilize_pitch ( speed_scaler ) ;
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if ( ( nav_pitch_cd > 0 & & pexpo < SRV_Channels : : get_output_scaled ( SRV_Channel : : k_elevator ) ) | |
( nav_pitch_cd < 0 & & pexpo > SRV_Channels : : get_output_scaled ( SRV_Channel : : k_elevator ) ) ) {
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// allow user to get back to level
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , pexpo ) ;
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}
}
stabilize_yaw ( speed_scaler ) ;
}
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/*
this is the ACRO mode stabilization function . It does rate
stabilization on roll and pitch axes
*/
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void Plane : : stabilize_acro ( float speed_scaler )
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{
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const float rexpo = roll_in_expo ( true ) ;
const float pexpo = pitch_in_expo ( true ) ;
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float roll_rate = ( rexpo / SERVO_MAX ) * g . acro_roll_rate ;
float pitch_rate = ( pexpo / SERVO_MAX ) * g . acro_pitch_rate ;
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/*
check for special roll handling near the pitch poles
*/
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if ( g . acro_locking & & is_zero ( roll_rate ) ) {
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/*
we have no roll stick input , so we will enter " roll locked "
mode , and hold the roll we had when the stick was released
*/
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if ( ! acro_state . locked_roll ) {
acro_state . locked_roll = true ;
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acro_state . locked_roll_err = 0 ;
} else {
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acro_state . locked_roll_err + = ahrs . get_gyro ( ) . x * G_Dt ;
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}
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int32_t roll_error_cd = - ToDeg ( acro_state . locked_roll_err ) * 100 ;
nav_roll_cd = ahrs . roll_sensor + roll_error_cd ;
// try to reduce the integrated angular error to zero. We set
// 'stabilze' to true, which disables the roll integrator
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , rollController . get_servo_out ( roll_error_cd ,
speed_scaler ,
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true , false ) ) ;
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} else {
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/*
aileron stick is non - zero , use pure rate control until the
user releases the stick
*/
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acro_state . locked_roll = false ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , rollController . get_rate_out ( roll_rate , speed_scaler ) ) ;
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}
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if ( g . acro_locking & & is_zero ( pitch_rate ) ) {
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/*
user has zero pitch stick input , so we lock pitch at the
point they release the stick
*/
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if ( ! acro_state . locked_pitch ) {
acro_state . locked_pitch = true ;
acro_state . locked_pitch_cd = ahrs . pitch_sensor ;
}
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// try to hold the locked pitch. Note that we have the pitch
// integrator enabled, which helps with inverted flight
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nav_pitch_cd = acro_state . locked_pitch_cd ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , pitchController . get_servo_out ( nav_pitch_cd - ahrs . pitch_sensor ,
speed_scaler ,
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false , false ) ) ;
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} else {
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/*
user has non - zero pitch input , use a pure rate controller
*/
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acro_state . locked_pitch = false ;
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , pitchController . get_rate_out ( pitch_rate , speed_scaler ) ) ;
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}
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steering_control . steering = rudder_input ( ) ;
if ( plane . g2 . flight_options & FlightOptions : : ACRO_YAW_DAMPER ) {
// use yaw controller
calc_nav_yaw_coordinated ( speed_scaler ) ;
} else {
/*
manual rudder
*/
steering_control . rudder = steering_control . steering ;
}
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}
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/*
main stabilization function for all 3 axes
*/
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void Plane : : stabilize ( )
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{
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if ( control_mode = = & mode_manual ) {
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// reset steering controls
steer_state . locked_course = false ;
steer_state . locked_course_err = 0 ;
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return ;
}
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float speed_scaler = get_speed_scaler ( ) ;
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uint32_t now = AP_HAL : : millis ( ) ;
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bool allow_stick_mixing = true ;
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# if HAL_QUADPLANE_ENABLED
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if ( quadplane . available ( ) ) {
quadplane . transition - > set_FW_roll_pitch ( nav_pitch_cd , nav_roll_cd , allow_stick_mixing ) ;
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}
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# endif
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if ( now - last_stabilize_ms > 2000 ) {
// if we haven't run the rate controllers for 2 seconds then
// reset the integrators
rollController . reset_I ( ) ;
pitchController . reset_I ( ) ;
yawController . reset_I ( ) ;
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// and reset steering controls
steer_state . locked_course = false ;
steer_state . locked_course_err = 0 ;
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}
last_stabilize_ms = now ;
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if ( control_mode = = & mode_training ) {
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stabilize_training ( speed_scaler ) ;
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} else if ( control_mode = = & mode_acro ) {
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stabilize_acro ( speed_scaler ) ;
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# if HAL_QUADPLANE_ENABLED
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} else if ( control_mode - > is_vtol_mode ( ) & & ! quadplane . tailsitter . in_vtol_transition ( now ) ) {
// run controlers specific to this mode
plane . control_mode - > run ( ) ;
// we also stabilize using fixed wing surfaces
if ( plane . control_mode - > mode_number ( ) = = Mode : : Number : : QACRO ) {
plane . stabilize_acro ( speed_scaler ) ;
} else {
plane . stabilize_roll ( speed_scaler ) ;
plane . stabilize_pitch ( speed_scaler ) ;
}
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# endif
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# if AP_SCRIPTING_ENABLED
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} else if ( control_mode = = & mode_auto & &
mission . get_current_nav_cmd ( ) . id = = MAV_CMD_NAV_SCRIPT_TIME ) {
// scripting is in control of roll and pitch rates and throttle
const float aileron = rollController . get_rate_out ( nav_scripting . roll_rate_dps , speed_scaler ) ;
const float elevator = pitchController . get_rate_out ( nav_scripting . pitch_rate_dps , speed_scaler ) ;
SRV_Channels : : set_output_scaled ( SRV_Channel : : k_aileron , aileron ) ;
SRV_Channels : : set_output_scaled ( SRV_Channel : : k_elevator , elevator ) ;
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# endif
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} else {
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if ( allow_stick_mixing & & g . stick_mixing = = StickMixing : : FBW & & control_mode ! = & mode_stabilize ) {
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stabilize_stick_mixing_fbw ( ) ;
}
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stabilize_roll ( speed_scaler ) ;
stabilize_pitch ( speed_scaler ) ;
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if ( allow_stick_mixing & & ( g . stick_mixing = = StickMixing : : DIRECT | | control_mode = = & mode_stabilize ) ) {
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stabilize_stick_mixing_direct ( ) ;
}
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stabilize_yaw ( speed_scaler ) ;
}
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/*
see if we should zero the attitude controller integrators .
*/
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if ( is_zero ( get_throttle_input ( ) ) & &
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fabsf ( relative_altitude ) < 5.0f & &
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fabsf ( barometer . get_climb_rate ( ) ) < 0.5f & &
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ahrs . groundspeed ( ) < 3 ) {
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// we are low, with no climb rate, and zero throttle, and very
// low ground speed. Zero the attitude controller
// integrators. This prevents integrator buildup pre-takeoff.
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rollController . reset_I ( ) ;
pitchController . reset_I ( ) ;
yawController . reset_I ( ) ;
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// if moving very slowly also zero the steering integrator
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if ( ahrs . groundspeed ( ) < 1 ) {
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steerController . reset_I ( ) ;
}
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}
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}
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void Plane : : calc_throttle ( )
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{
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if ( aparm . throttle_cruise < = 1 ) {
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// user has asked for zero throttle - this may be done by a
// mission which wants to turn off the engine for a parachute
// landing
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_throttle , 0.0 ) ;
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return ;
}
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float commanded_throttle = TECS_controller . get_throttle_demand ( ) ;
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// Received an external msg that guides throttle in the last 3 seconds?
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if ( control_mode - > is_guided_mode ( ) & &
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plane . guided_state . last_forced_throttle_ms > 0 & &
millis ( ) - plane . guided_state . last_forced_throttle_ms < 3000 ) {
commanded_throttle = plane . guided_state . forced_throttle ;
}
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_throttle , commanded_throttle ) ;
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}
/*****************************************
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* Calculate desired roll / pitch / yaw angles ( in medium freq loop )
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/*
calculate yaw control for coordinated flight
*/
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void Plane : : calc_nav_yaw_coordinated ( float speed_scaler )
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{
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bool disable_integrator = false ;
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int16_t rudder_in = rudder_input ( ) ;
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int16_t commanded_rudder ;
// Received an external msg that guides yaw in the last 3 seconds?
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if ( control_mode - > is_guided_mode ( ) & &
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plane . guided_state . last_forced_rpy_ms . z > 0 & &
millis ( ) - plane . guided_state . last_forced_rpy_ms . z < 3000 ) {
commanded_rudder = plane . guided_state . forced_rpy_cd . z ;
} else {
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if ( control_mode = = & mode_stabilize & & rudder_in ! = 0 ) {
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disable_integrator = true ;
}
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commanded_rudder = yawController . get_servo_out ( speed_scaler , disable_integrator ) ;
// add in rudder mixing from roll
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commanded_rudder + = SRV_Channels : : get_output_scaled ( SRV_Channel : : k_aileron ) * g . kff_rudder_mix ;
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commanded_rudder + = rudder_in ;
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}
steering_control . rudder = constrain_int16 ( commanded_rudder , - 4500 , 4500 ) ;
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}
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/*
calculate yaw control for ground steering with specific course
*/
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void Plane : : calc_nav_yaw_course ( void )
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{
// holding a specific navigation course on the ground. Used in
// auto-takeoff and landing
int32_t bearing_error_cd = nav_controller - > bearing_error_cd ( ) ;
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steering_control . steering = steerController . get_steering_out_angle_error ( bearing_error_cd ) ;
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if ( stick_mixing_enabled ( ) ) {
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steering_control . steering = channel_rudder - > stick_mixing ( steering_control . steering ) ;
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}
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steering_control . steering = constrain_int16 ( steering_control . steering , - 4500 , 4500 ) ;
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}
/*
calculate yaw control for ground steering
*/
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void Plane : : calc_nav_yaw_ground ( void )
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{
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if ( gps . ground_speed ( ) < 1 & &
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is_zero ( get_throttle_input ( ) ) & &
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flight_stage ! = AP_Vehicle : : FixedWing : : FLIGHT_TAKEOFF & &
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flight_stage ! = AP_Vehicle : : FixedWing : : FLIGHT_ABORT_LAND ) {
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// manual rudder control while still
steer_state . locked_course = false ;
steer_state . locked_course_err = 0 ;
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steering_control . steering = rudder_input ( ) ;
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return ;
}
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float steer_rate = ( rudder_input ( ) / 4500.0f ) * g . ground_steer_dps ;
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if ( flight_stage = = AP_Vehicle : : FixedWing : : FLIGHT_TAKEOFF | |
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flight_stage = = AP_Vehicle : : FixedWing : : FLIGHT_ABORT_LAND ) {
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steer_rate = 0 ;
}
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if ( ! is_zero ( steer_rate ) ) {
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// pilot is giving rudder input
steer_state . locked_course = false ;
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} else if ( ! steer_state . locked_course ) {
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// pilot has released the rudder stick or we are still - lock the course
steer_state . locked_course = true ;
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if ( flight_stage ! = AP_Vehicle : : FixedWing : : FLIGHT_TAKEOFF & &
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flight_stage ! = AP_Vehicle : : FixedWing : : FLIGHT_ABORT_LAND ) {
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steer_state . locked_course_err = 0 ;
}
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}
if ( ! steer_state . locked_course ) {
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// use a rate controller at the pilot specified rate
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steering_control . steering = steerController . get_steering_out_rate ( steer_rate ) ;
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} else {
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// use a error controller on the summed error
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int32_t yaw_error_cd = - ToDeg ( steer_state . locked_course_err ) * 100 ;
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steering_control . steering = steerController . get_steering_out_angle_error ( yaw_error_cd ) ;
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}
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steering_control . steering = constrain_int16 ( steering_control . steering , - 4500 , 4500 ) ;
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}
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/*
calculate a new nav_pitch_cd from the speed height controller
*/
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void Plane : : calc_nav_pitch ( )
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{
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// Calculate the Pitch of the plane
// --------------------------------
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int32_t commanded_pitch = TECS_controller . get_pitch_demand ( ) ;
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// Received an external msg that guides roll in the last 3 seconds?
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if ( control_mode - > is_guided_mode ( ) & &
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plane . guided_state . last_forced_rpy_ms . y > 0 & &
millis ( ) - plane . guided_state . last_forced_rpy_ms . y < 3000 ) {
commanded_pitch = plane . guided_state . forced_rpy_cd . y ;
}
nav_pitch_cd = constrain_int32 ( commanded_pitch , pitch_limit_min_cd , aparm . pitch_limit_max_cd . get ( ) ) ;
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}
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/*
calculate a new nav_roll_cd from the navigation controller
*/
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void Plane : : calc_nav_roll ( )
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{
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int32_t commanded_roll = nav_controller - > nav_roll_cd ( ) ;
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// Received an external msg that guides roll in the last 3 seconds?
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if ( control_mode - > is_guided_mode ( ) & &
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plane . guided_state . last_forced_rpy_ms . x > 0 & &
millis ( ) - plane . guided_state . last_forced_rpy_ms . x < 3000 ) {
commanded_roll = plane . guided_state . forced_rpy_cd . x ;
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# if OFFBOARD_GUIDED == ENABLED
// guided_state.target_heading is radians at this point between -pi and pi ( defaults to -4 )
} else if ( ( control_mode = = & mode_guided ) & & ( guided_state . target_heading_type ! = GUIDED_HEADING_NONE ) ) {
uint32_t tnow = AP_HAL : : millis ( ) ;
float delta = ( tnow - guided_state . target_heading_time_ms ) * 1e-3 f ;
guided_state . target_heading_time_ms = tnow ;
float error = 0.0f ;
if ( guided_state . target_heading_type = = GUIDED_HEADING_HEADING ) {
error = wrap_PI ( guided_state . target_heading - AP : : ahrs ( ) . yaw ) ;
} else {
Vector2f groundspeed = AP : : ahrs ( ) . groundspeed_vector ( ) ;
error = wrap_PI ( guided_state . target_heading - atan2f ( - groundspeed . y , - groundspeed . x ) + M_PI ) ;
}
float bank_limit = degrees ( atanf ( guided_state . target_heading_accel_limit / GRAVITY_MSS ) ) * 1e2 f ;
g2 . guidedHeading . update_error ( error ) ; // push error into AC_PID , possible improvement is to use update_all instead.?
g2 . guidedHeading . set_dt ( delta ) ;
float i = g2 . guidedHeading . get_i ( ) ; // get integrator TODO
if ( ( ( is_negative ( error ) & & ! guided_state . target_heading_limit_low ) | | ( is_positive ( error ) & & ! guided_state . target_heading_limit_high ) ) ) {
i = g2 . guidedHeading . get_i ( ) ;
}
float desired = g2 . guidedHeading . get_p ( ) + i + g2 . guidedHeading . get_d ( ) ;
guided_state . target_heading_limit_low = ( desired < = - bank_limit ) ;
guided_state . target_heading_limit_high = ( desired > = bank_limit ) ;
commanded_roll = constrain_float ( desired , - bank_limit , bank_limit ) ;
# endif // OFFBOARD_GUIDED == ENABLED
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}
nav_roll_cd = constrain_int32 ( commanded_roll , - roll_limit_cd , roll_limit_cd ) ;
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update_load_factor ( ) ;
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}
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/*
adjust nav_pitch_cd for STAB_PITCH_DOWN_CD . This is used to make
keeping up good airspeed in FBWA mode easier , as the plane will
automatically pitch down a little when at low throttle . It makes
FBWA landings without stalling much easier .
*/
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void Plane : : adjust_nav_pitch_throttle ( void )
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{
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int8_t throttle = throttle_percentage ( ) ;
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if ( throttle > = 0 & & throttle < aparm . throttle_cruise & & flight_stage ! = AP_Vehicle : : FixedWing : : FLIGHT_VTOL ) {
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float p = ( aparm . throttle_cruise - throttle ) / ( float ) aparm . throttle_cruise ;
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nav_pitch_cd - = g . stab_pitch_down * 100.0f * p ;
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}
}
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/*
calculate a new aerodynamic_load_factor and limit nav_roll_cd to
ensure that the load factor does not take us below the sustainable
airspeed
*/
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void Plane : : update_load_factor ( void )
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{
float demanded_roll = fabsf ( nav_roll_cd * 0.01f ) ;
if ( demanded_roll > 85 ) {
// limit to 85 degrees to prevent numerical errors
demanded_roll = 85 ;
}
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aerodynamic_load_factor = 1.0f / safe_sqrt ( cosf ( radians ( demanded_roll ) ) ) ;
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# if HAL_QUADPLANE_ENABLED
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if ( quadplane . available ( ) & & quadplane . transition - > set_FW_roll_limit ( roll_limit_cd ) ) {
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nav_roll_cd = constrain_int32 ( nav_roll_cd , - roll_limit_cd , roll_limit_cd ) ;
return ;
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}
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# endif
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if ( ! aparm . stall_prevention ) {
// stall prevention is disabled
return ;
}
if ( fly_inverted ( ) ) {
// no roll limits when inverted
return ;
}
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# if HAL_QUADPLANE_ENABLED
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if ( quadplane . tailsitter . active ( ) ) {
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// no limits while hovering
return ;
}
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# endif
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float max_load_factor = smoothed_airspeed / MAX ( aparm . airspeed_min , 1 ) ;
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if ( max_load_factor < = 1 ) {
// our airspeed is below the minimum airspeed. Limit roll to
// 25 degrees
nav_roll_cd = constrain_int32 ( nav_roll_cd , - 2500 , 2500 ) ;
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roll_limit_cd = MIN ( roll_limit_cd , 2500 ) ;
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} else if ( max_load_factor < aerodynamic_load_factor ) {
// the demanded nav_roll would take us past the aerodymamic
// load limit. Limit our roll to a bank angle that will keep
// the load within what the airframe can handle. We always
// allow at least 25 degrees of roll however, to ensure the
// aircraft can be maneuvered with a bad airspeed estimate. At
// 25 degrees the load factor is 1.1 (10%)
int32_t roll_limit = degrees ( acosf ( sq ( 1.0f / max_load_factor ) ) ) * 100 ;
if ( roll_limit < 2500 ) {
roll_limit = 2500 ;
}
nav_roll_cd = constrain_int32 ( nav_roll_cd , - roll_limit , roll_limit ) ;
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roll_limit_cd = MIN ( roll_limit_cd , roll_limit ) ;
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}
}