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# pragma once
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/*
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 3 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 , see < http : //www.gnu.org/licenses/>.
*/
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/*
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* AHRS ( Attitude Heading Reference System ) interface for ArduPilot
*
*/
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# include <AP_Math/AP_Math.h>
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# include <inttypes.h>
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# include <AP_Airspeed/AP_Airspeed.h>
# include <AP_InertialSensor/AP_InertialSensor.h>
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# define AP_AHRS_TRIM_LIMIT 10.0f // maximum trim angle in degrees
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# define AP_AHRS_RP_P_MIN 0.05f // minimum value for AHRS_RP_P parameter
# define AP_AHRS_YAW_P_MIN 0.05f // minimum value for AHRS_YAW_P parameter
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enum class GPSUse : uint8_t {
Disable = 0 ,
Enable = 1 ,
EnableWithHeight = 2 ,
} ;
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class AP_AHRS_Backend
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{
public :
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// Constructor
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AP_AHRS_Backend ( ) { }
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// empty virtual destructor
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virtual ~ AP_AHRS_Backend ( ) { }
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CLASS_NO_COPY ( AP_AHRS_Backend ) ;
// structure to retrieve results from backends:
struct Estimates {
float roll_rad ;
float pitch_rad ;
float yaw_rad ;
Matrix3f dcm_matrix ;
Vector3f gyro_estimate ;
Vector3f gyro_drift ;
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Vector3f accel_ef ;
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Vector3f accel_bias ;
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} ;
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// init sets up INS board orientation
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virtual void init ( ) ;
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// return the index of the primary core or -1 if no primary core selected
virtual int8_t get_primary_core_index ( ) const { return - 1 ; }
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// get the index of the current primary accelerometer sensor
virtual uint8_t get_primary_accel_index ( void ) const {
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return AP : : ins ( ) . get_primary_accel ( ) ;
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}
// get the index of the current primary gyro sensor
virtual uint8_t get_primary_gyro_index ( void ) const {
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return AP : : ins ( ) . get_primary_gyro ( ) ;
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}
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// Methods
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virtual void update ( ) = 0 ;
virtual void get_results ( Estimates & results ) = 0 ;
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// returns false if we fail arming checks, in which case the buffer will be populated with a failure message
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// requires_position should be true if horizontal position configuration should be checked
virtual bool pre_arm_check ( bool requires_position , char * failure_msg , uint8_t failure_msg_len ) const = 0 ;
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// check all cores providing consistent attitudes for prearm checks
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virtual bool attitudes_consistent ( char * failure_msg , const uint8_t failure_msg_len ) const { return true ; }
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// see if EKF lane switching is possible to avoid EKF failsafe
virtual void check_lane_switch ( void ) { }
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// check if non-compass sensor is providing yaw. Allows compass pre-arm checks to be bypassed
virtual bool using_noncompass_for_yaw ( void ) const { return false ; }
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// check if external nav is providing yaw
virtual bool using_extnav_for_yaw ( void ) const { return false ; }
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// request EKF yaw reset to try and avoid the need for an EKF lane switch or failsafe
virtual void request_yaw_reset ( void ) { }
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// set position, velocity and yaw sources to either 0=primary, 1=secondary, 2=tertiary
virtual void set_posvelyaw_source_set ( uint8_t source_set_idx ) { }
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// reset the current gyro drift estimate
// should be called if gyro offsets are recalculated
virtual void reset_gyro_drift ( void ) = 0 ;
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// reset the current attitude, used on new IMU calibration
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virtual void reset ( ) = 0 ;
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// get our current position estimate. Return true if a position is available,
// otherwise false. This call fills in lat, lng and alt
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virtual bool get_location ( class Location & loc ) const WARN_IF_UNUSED = 0 ;
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// get latest altitude estimate above ground level in meters and validity flag
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virtual bool get_hagl ( float & height ) const WARN_IF_UNUSED { return false ; }
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// return a wind estimation vector, in m/s
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virtual bool wind_estimate ( Vector3f & wind ) const = 0 ;
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// return an airspeed estimate if available. return true
// if we have an estimate
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virtual bool airspeed_estimate ( float & airspeed_ret ) const WARN_IF_UNUSED { return false ; }
virtual bool airspeed_estimate ( uint8_t airspeed_index , float & airspeed_ret ) const { return false ; }
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// return a true airspeed estimate (navigation airspeed) if
// available. return true if we have an estimate
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bool airspeed_estimate_true ( float & airspeed_ret ) const WARN_IF_UNUSED {
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if ( ! airspeed_estimate ( airspeed_ret ) ) {
return false ;
}
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airspeed_ret * = get_EAS2TAS ( ) ;
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return true ;
}
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// return estimate of true airspeed vector in body frame in m/s
// returns false if estimate is unavailable
virtual bool airspeed_vector_true ( Vector3f & vec ) const WARN_IF_UNUSED {
return false ;
}
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// get apparent to true airspeed ratio
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float get_EAS2TAS ( void ) const ;
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// return true if airspeed comes from an airspeed sensor, as
// opposed to an IMU estimate
bool airspeed_sensor_enabled ( void ) const {
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# if AP_AIRSPEED_ENABLED
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const AP_Airspeed * _airspeed = AP : : airspeed ( ) ;
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return _airspeed ! = nullptr & & _airspeed - > use ( ) & & _airspeed - > healthy ( ) ;
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# else
return false ;
# endif
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}
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// return true if airspeed comes from a specific airspeed sensor, as
// opposed to an IMU estimate
bool airspeed_sensor_enabled ( uint8_t airspeed_index ) const {
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# if AP_AIRSPEED_ENABLED
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const AP_Airspeed * _airspeed = AP : : airspeed ( ) ;
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return _airspeed ! = nullptr & & _airspeed - > use ( airspeed_index ) & & _airspeed - > healthy ( airspeed_index ) ;
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# else
return false ;
# endif
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}
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// return a ground vector estimate in meters/second, in North/East order
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virtual Vector2f groundspeed_vector ( void ) = 0 ;
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// return a ground velocity in meters/second, North/East/Down
// order. This will only be accurate if have_inertial_nav() is
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// true
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virtual bool get_velocity_NED ( Vector3f & vec ) const WARN_IF_UNUSED {
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return false ;
}
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// Get a derivative of the vertical position in m/s which is kinematically consistent with the vertical position is required by some control loops.
// This is different to the vertical velocity from the EKF which is not always consistent with the vertical position due to the various errors that are being corrected for.
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virtual bool get_vert_pos_rate_D ( float & velocity ) const = 0 ;
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// returns the estimated magnetic field offsets in body frame
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virtual bool get_mag_field_correction ( Vector3f & ret ) const WARN_IF_UNUSED {
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return false ;
}
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virtual bool get_mag_field_NED ( Vector3f & vec ) const {
return false ;
}
virtual bool get_mag_offsets ( uint8_t mag_idx , Vector3f & magOffsets ) const {
return false ;
}
//
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virtual bool set_origin ( const Location & loc ) {
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return false ;
}
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virtual bool get_origin ( Location & ret ) const = 0 ;
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// return a position relative to origin in meters, North/East/Down
// order. This will only be accurate if have_inertial_nav() is
// true
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virtual bool get_relative_position_NED_origin ( Vector3f & vec ) const WARN_IF_UNUSED {
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return false ;
}
// return a position relative to origin in meters, North/East
// order. Return true if estimate is valid
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virtual bool get_relative_position_NE_origin ( Vector2f & vecNE ) const WARN_IF_UNUSED {
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return false ;
}
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// return a Down position relative to origin in meters
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// Return true if estimate is valid
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virtual bool get_relative_position_D_origin ( float & posD ) const WARN_IF_UNUSED {
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return false ;
}
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// return ground speed estimate in meters/second. Used by ground vehicles.
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float groundspeed ( void ) {
return groundspeed_vector ( ) . length ( ) ;
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}
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// return true if we will use compass for yaw
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virtual bool use_compass ( void ) = 0 ;
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// return the quaternion defining the rotation from NED to XYZ (body) axes
virtual bool get_quaternion ( Quaternion & quat ) const WARN_IF_UNUSED = 0 ;
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// return true if the AHRS object supports inertial navigation,
// with very accurate position and velocity
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virtual bool have_inertial_nav ( void ) const {
return false ;
}
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// is the AHRS subsystem healthy?
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virtual bool healthy ( void ) const = 0 ;
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// true if the AHRS has completed initialisation
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virtual bool initialised ( void ) const {
return true ;
} ;
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virtual bool started ( void ) const {
return initialised ( ) ;
} ;
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// return the amount of yaw angle change due to the last yaw angle reset in radians
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// returns the time of the last yaw angle reset or 0 if no reset has ever occurred
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virtual uint32_t getLastYawResetAngle ( float & yawAng ) {
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return 0 ;
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} ;
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// return the amount of NE position change in metres due to the last reset
// returns the time of the last reset or 0 if no reset has ever occurred
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virtual uint32_t getLastPosNorthEastReset ( Vector2f & pos ) WARN_IF_UNUSED {
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return 0 ;
} ;
// return the amount of NE velocity change in metres/sec due to the last reset
// returns the time of the last reset or 0 if no reset has ever occurred
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virtual uint32_t getLastVelNorthEastReset ( Vector2f & vel ) const WARN_IF_UNUSED {
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return 0 ;
} ;
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// return the amount of vertical position change due to the last reset in meters
// returns the time of the last reset or 0 if no reset has ever occurred
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virtual uint32_t getLastPosDownReset ( float & posDelta ) WARN_IF_UNUSED {
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return 0 ;
} ;
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// Resets the baro so that it reads zero at the current height
// Resets the EKF height to zero
// Adjusts the EKf origin height so that the EKF height + origin height is the same as before
// Returns true if the height datum reset has been performed
// If using a range finder for height no reset is performed and it returns false
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virtual bool resetHeightDatum ( void ) WARN_IF_UNUSED {
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return false ;
}
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// return the innovations for the specified instance
// An out of range instance (eg -1) returns data for the primary instance
virtual bool get_innovations ( Vector3f & velInnov , Vector3f & posInnov , Vector3f & magInnov , float & tasInnov , float & yawInnov ) const {
return false ;
}
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virtual bool get_filter_status ( union nav_filter_status & status ) const {
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return false ;
}
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// get_variances - provides the innovations normalised using the innovation variance where a value of 0
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// indicates perfect consistency between the measurement and the EKF solution and a value of 1 is the maximum
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// inconsistency that will be accepted by the filter
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// boolean false is returned if variances are not available
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virtual bool get_variances ( float & velVar , float & posVar , float & hgtVar , Vector3f & magVar , float & tasVar ) const {
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return false ;
}
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// get a source's velocity innovations. source should be from 0 to 7 (see AP_NavEKF_Source::SourceXY)
// returns true on success and results are placed in innovations and variances arguments
virtual bool get_vel_innovations_and_variances_for_source ( uint8_t source , Vector3f & innovations , Vector3f & variances ) const WARN_IF_UNUSED {
return false ;
}
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virtual void send_ekf_status_report ( class GCS_MAVLINK & link ) const = 0 ;
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// Retrieves the corrected NED delta velocity in use by the inertial navigation
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virtual void getCorrectedDeltaVelocityNED ( Vector3f & ret , float & dt ) const {
ret . zero ( ) ;
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AP : : ins ( ) . get_delta_velocity ( ret , dt ) ;
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}
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// get_hgt_ctrl_limit - get maximum height to be observed by the
// control loops in meters and a validity flag. It will return
// false when no limiting is required
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virtual bool get_hgt_ctrl_limit ( float & limit ) const WARN_IF_UNUSED { return false ; } ;
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// Set to true if the terrain underneath is stable enough to be used as a height reference
// this is not related to terrain following
virtual void set_terrain_hgt_stable ( bool stable ) { }
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virtual void get_control_limits ( float & ekfGndSpdLimit , float & controlScaleXY ) const = 0 ;
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} ;