mirror of https://github.com/ArduPilot/ardupilot
462 lines
15 KiB
C++
462 lines
15 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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main Rover class, containing all vehicle specific state
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*/
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#pragma once
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#include <cmath>
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#include <stdarg.h>
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// Libraries
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#include <AP_Common/AP_Common.h>
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#include <AP_HAL/AP_HAL.h>
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#include <AC_PID/AC_P.h>
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#include <AC_PID/AC_PID.h>
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#include <AP_AccelCal/AP_AccelCal.h> // interface and maths for accelerometer calibration
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#include <AP_AHRS/AP_AHRS.h> // ArduPilot Mega DCM Library
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#include <AP_Airspeed/AP_Airspeed.h> // needed for AHRS build
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#include <AP_Baro/AP_Baro.h>
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#include <AP_BattMonitor/AP_BattMonitor.h> // Battery monitor library
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#include <AP_Beacon/AP_Beacon.h>
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#include <AP_Camera/AP_Camera.h> // Camera triggering
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#include <AP_Compass/AP_Compass.h> // ArduPilot Mega Magnetometer Library
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#include <AP_Declination/AP_Declination.h> // Compass declination library
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#include <AP_InertialSensor/AP_InertialSensor.h> // Inertial Sensor (uncalibated IMU) Library
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#include <AP_L1_Control/AP_L1_Control.h>
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#include <AP_Math/AP_Math.h> // ArduPilot Mega Vector/Matrix math Library
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#include <AP_Mission/AP_Mission.h> // Mission command library
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#include <AP_Mount/AP_Mount.h> // Camera/Antenna mount
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#include <AP_NavEKF2/AP_NavEKF2.h>
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#include <AP_NavEKF3/AP_NavEKF3.h>
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#include <AP_Navigation/AP_Navigation.h>
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#include <AP_OpticalFlow/AP_OpticalFlow.h> // Optical Flow library
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#include <AP_Param/AP_Param.h>
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#include <AP_RangeFinder/AP_RangeFinder.h> // Range finder library
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#include <AP_RCMapper/AP_RCMapper.h> // RC input mapping library
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#include <AP_Scheduler/AP_Scheduler.h> // main loop scheduler
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#include <AP_Stats/AP_Stats.h> // statistics library
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#include <AP_Terrain/AP_Terrain.h>
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#include <AP_Vehicle/AP_Vehicle.h> // needed for AHRS build
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#include <AP_VisualOdom/AP_VisualOdom.h>
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#include <AP_WheelEncoder/AP_WheelEncoder.h>
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#include <AP_WheelEncoder/AP_WheelRateControl.h>
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#include <APM_Control/AR_AttitudeControl.h>
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#include <AR_WPNav/AR_WPNav.h>
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#include <AP_SmartRTL/AP_SmartRTL.h>
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#include <AP_Logger/AP_Logger.h>
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#include <Filter/AverageFilter.h> // Mode Filter from Filter library
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#include <Filter/Butter.h> // Filter library - butterworth filter
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#include <Filter/Filter.h> // Filter library
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#include <Filter/LowPassFilter.h>
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#include <Filter/ModeFilter.h> // Mode Filter from Filter library
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#include <AC_Fence/AC_Fence.h>
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#include <AP_Proximity/AP_Proximity.h>
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#include <AC_Avoidance/AC_Avoid.h>
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#include <AC_Avoidance/AP_OAPathPlanner.h>
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#include <AP_Follow/AP_Follow.h>
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#include <AP_OSD/AP_OSD.h>
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#include <AP_WindVane/AP_WindVane.h>
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#ifdef ENABLE_SCRIPTING
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#include <AP_Scripting/AP_Scripting.h>
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#endif
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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#include <SITL/SITL.h>
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#endif
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// Local modules
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#include "AP_MotorsUGV.h"
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#include "mode.h"
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#include "AP_Arming.h"
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#include "sailboat.h"
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// Configuration
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#include "config.h"
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#include "defines.h"
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#if ADVANCED_FAILSAFE == ENABLED
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#include "afs_rover.h"
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#endif
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#include "Parameters.h"
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#include "GCS_Mavlink.h"
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#include "GCS_Rover.h"
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#include "AP_Rally.h"
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#include "RC_Channel.h" // RC Channel Library
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class Rover : public AP_Vehicle {
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public:
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friend class GCS_MAVLINK_Rover;
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friend class Parameters;
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friend class ParametersG2;
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friend class AP_Rally_Rover;
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friend class AP_Arming_Rover;
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#if ADVANCED_FAILSAFE == ENABLED
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friend class AP_AdvancedFailsafe_Rover;
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#endif
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friend class GCS_Rover;
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friend class Mode;
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friend class ModeAcro;
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friend class ModeAuto;
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friend class ModeGuided;
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friend class ModeHold;
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friend class ModeLoiter;
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friend class ModeSteering;
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friend class ModeManual;
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friend class ModeRTL;
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friend class ModeSmartRTL;
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friend class ModeFollow;
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friend class ModeSimple;
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friend class RC_Channel_Rover;
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friend class RC_Channels_Rover;
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friend class Sailboat;
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Rover(void);
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// HAL::Callbacks implementation.
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void setup(void) override;
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void loop(void) override;
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private:
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// must be the first AP_Param variable declared to ensure its
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// constructor runs before the constructors of the other AP_Param
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// variables
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AP_Param param_loader;
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// all settable parameters
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Parameters g;
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ParametersG2 g2;
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// main loop scheduler
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AP_Scheduler scheduler;
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// mapping between input channels
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RCMapper rcmap;
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// primary control channels
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RC_Channel *channel_steer;
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RC_Channel *channel_throttle;
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RC_Channel *channel_lateral;
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AP_Logger logger;
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// flight modes convenience array
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AP_Int8 *modes;
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const uint8_t num_modes = 6;
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// AP_RPM Module
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AP_RPM rpm_sensor;
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// Inertial Navigation EKF
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#if AP_AHRS_NAVEKF_AVAILABLE
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NavEKF2 EKF2{&ahrs, rangefinder};
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NavEKF3 EKF3{&ahrs, rangefinder};
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AP_AHRS_NavEKF ahrs{EKF2, EKF3};
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#else
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AP_AHRS_DCM ahrs;
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#endif
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// Arming/Disarming management class
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AP_Arming_Rover arming;
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AP_L1_Control L1_controller{ahrs, nullptr};
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#if AP_AHRS_NAVEKF_AVAILABLE
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OpticalFlow optflow;
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#endif
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#if OSD_ENABLED == ENABLED
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AP_OSD osd;
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#endif
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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SITL::SITL sitl;
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#endif
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// GCS handling
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GCS_Rover _gcs; // avoid using this; use gcs()
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GCS_Rover &gcs() { return _gcs; }
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// RC Channels:
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RC_Channels_Rover &rc() { return g2.rc_channels; }
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// The rover's current location
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struct Location current_loc;
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// Camera
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#if CAMERA == ENABLED
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AP_Camera camera{MASK_LOG_CAMERA, current_loc};
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#endif
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// Camera/Antenna mount tracking and stabilisation stuff
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#if MOUNT == ENABLED
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// current_loc uses the baro/gps solution for altitude rather than gps only.
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AP_Mount camera_mount{current_loc};
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#endif
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// true if initialisation has completed
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bool initialised;
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// This is the state of the flight control system
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// There are multiple states defined such as MANUAL, AUTO, ...
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Mode *control_mode;
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mode_reason_t control_mode_reason = MODE_REASON_INITIALISED;
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// Used to maintain the state of the previous control switch position
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// This is set to -1 when we need to re-read the switch
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uint8_t oldSwitchPosition;
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// structure for holding failsafe state
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struct {
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uint8_t bits; // bit flags of failsafes that have started (but not necessarily triggered an action)
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uint32_t start_time; // start time of the earliest failsafe
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uint8_t triggered; // bit flags of failsafes that have triggered an action
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uint32_t last_valid_rc_ms; // system time of most recent RC input from pilot
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uint32_t last_heartbeat_ms; // system time of most recent heartbeat from ground station
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bool ekf;
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} failsafe;
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// true if we have a position estimate from AHRS
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bool have_position;
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// range finder last update (used for DPTH logging)
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uint32_t rangefinder_last_reading_ms;
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// Ground speed
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// The amount current ground speed is below min ground speed. meters per second
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float ground_speed;
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// Battery Sensors
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AP_BattMonitor battery{MASK_LOG_CURRENT,
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FUNCTOR_BIND_MEMBER(&Rover::handle_battery_failsafe, void, const char*, const int8_t),
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_failsafe_priorities};
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// true if the compass's initial location has been set
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bool compass_init_location;
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// IMU variables
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// The main loop execution time. Seconds
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// This is the time between calls to the DCM algorithm and is the Integration time for the gyros.
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float G_Dt;
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// flyforward timer
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uint32_t flyforward_start_ms;
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static const AP_Scheduler::Task scheduler_tasks[];
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static const AP_Param::Info var_info[];
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static const LogStructure log_structure[];
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// time that rudder/steering arming has been running
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uint32_t rudder_arm_timer;
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// Store the time the last GPS message was received.
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uint32_t last_gps_msg_ms{0};
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// last wheel encoder update times
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float wheel_encoder_last_angle_rad[WHEELENCODER_MAX_INSTANCES]; // distance in radians at time of last update to EKF
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float wheel_encoder_last_distance_m[WHEELENCODER_MAX_INSTANCES]; // distance in meters at time of last update to EKF (for reporting to GCS)
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uint32_t wheel_encoder_last_update_ms[WHEELENCODER_MAX_INSTANCES]; // system time of last ping from each encoder
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uint32_t wheel_encoder_last_ekf_update_ms; // system time of last encoder data push to EKF
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// True when we are doing motor test
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bool motor_test;
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ModeInitializing mode_initializing;
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ModeHold mode_hold;
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ModeManual mode_manual;
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ModeAcro mode_acro;
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ModeGuided mode_guided;
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ModeAuto mode_auto;
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ModeLoiter mode_loiter;
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ModeSteering mode_steering;
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ModeRTL mode_rtl;
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ModeSmartRTL mode_smartrtl;
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ModeFollow mode_follow;
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ModeSimple mode_simple;
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// cruise throttle and speed learning
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typedef struct {
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LowPassFilterFloat speed_filt = LowPassFilterFloat(2.0f);
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LowPassFilterFloat throttle_filt = LowPassFilterFloat(2.0f);
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uint32_t learn_start_ms;
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uint32_t log_count;
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} cruise_learn_t;
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cruise_learn_t cruise_learn;
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private:
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// APMrover2.cpp
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void stats_update();
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void ahrs_update();
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void gcs_failsafe_check(void);
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void update_logging1(void);
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void update_logging2(void);
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void one_second_loop(void);
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void update_GPS(void);
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void update_current_mode(void);
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void update_mission(void);
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// balance_bot.cpp
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void balancebot_pitch_control(float &throttle);
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bool is_balancebot() const;
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// commands.cpp
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bool set_home_to_current_location(bool lock) WARN_IF_UNUSED;
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bool set_home(const Location& loc, bool lock) WARN_IF_UNUSED;
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void update_home();
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// compat.cpp
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void delay(uint32_t ms);
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// crash_check.cpp
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void crash_check();
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// cruise_learn.cpp
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void cruise_learn_start();
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void cruise_learn_update();
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void cruise_learn_complete();
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void log_write_cruise_learn();
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// ekf_check.cpp
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void ekf_check();
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bool ekf_over_threshold();
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bool ekf_position_ok();
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void failsafe_ekf_event();
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void failsafe_ekf_off_event(void);
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// failsafe.cpp
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void failsafe_trigger(uint8_t failsafe_type, bool on);
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void handle_battery_failsafe(const char* type_str, const int8_t action);
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#if ADVANCED_FAILSAFE == ENABLED
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void afs_fs_check(void);
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#endif
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// fence.cpp
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void fence_check();
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// GCS_Mavlink.cpp
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void send_servo_out(mavlink_channel_t chan);
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void send_wheel_encoder_distance(mavlink_channel_t chan);
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// Log.cpp
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void Log_Write_Attitude();
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void Log_Write_Depth();
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void Log_Write_GuidedTarget(uint8_t target_type, const Vector3f& pos_target, const Vector3f& vel_target);
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void Log_Write_Nav_Tuning();
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void Log_Write_Sail();
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void Log_Write_Startup(uint8_t type);
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void Log_Write_Steering();
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void Log_Write_Throttle();
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void Log_Write_RC(void);
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void Log_Write_Vehicle_Startup_Messages();
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void Log_Read(uint16_t log_num, uint16_t start_page, uint16_t end_page);
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void log_init(void);
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// mode.cpp
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Mode *mode_from_mode_num(enum Mode::Number num);
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// Parameters.cpp
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void load_parameters(void);
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// radio.cpp
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void set_control_channels(void);
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void init_rc_in();
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void rudder_arm_disarm_check();
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void read_radio();
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void radio_failsafe_check(uint16_t pwm);
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bool trim_radio();
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// sensors.cpp
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void update_compass(void);
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void compass_save(void);
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void init_beacon();
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void init_visual_odom();
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void update_wheel_encoder();
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void accel_cal_update(void);
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void read_rangefinders(void);
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void init_proximity();
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void read_airspeed();
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void rpm_update(void);
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// Steering.cpp
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void set_servos(void);
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// system.cpp
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void init_ardupilot();
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void startup_ground(void);
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void update_ahrs_flyforward();
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bool set_mode(Mode &new_mode, mode_reason_t reason);
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bool mavlink_set_mode(uint8_t mode);
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void startup_INS_ground(void);
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void notify_mode(const Mode *new_mode);
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uint8_t check_digital_pin(uint8_t pin);
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bool should_log(uint32_t mask);
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bool is_boat() const;
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#if OSD_ENABLED == ENABLED
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void publish_osd_info();
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#endif
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enum Failsafe_Action {
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Failsafe_Action_None = 0,
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Failsafe_Action_RTL = 1,
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Failsafe_Action_Hold = 2,
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Failsafe_Action_SmartRTL = 3,
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Failsafe_Action_SmartRTL_Hold = 4,
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Failsafe_Action_Terminate = 5
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};
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enum class Failsafe_Options : uint32_t {
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Failsafe_Option_Active_In_Hold = (1<<0)
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};
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static constexpr int8_t _failsafe_priorities[] = {
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Failsafe_Action_Terminate,
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Failsafe_Action_Hold,
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Failsafe_Action_RTL,
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Failsafe_Action_SmartRTL_Hold,
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Failsafe_Action_SmartRTL,
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Failsafe_Action_None,
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-1 // the priority list must end with a sentinel of -1
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};
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static_assert(_failsafe_priorities[ARRAY_SIZE(_failsafe_priorities) - 1] == -1,
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"_failsafe_priorities is missing the sentinel");
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public:
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void mavlink_delay_cb();
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void failsafe_check();
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// Motor test
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void motor_test_output();
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bool mavlink_motor_test_check(const GCS_MAVLINK &gcs_chan, bool check_rc, AP_MotorsUGV::motor_test_order motor_instance, uint8_t throttle_type, int16_t throttle_value);
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MAV_RESULT mavlink_motor_test_start(const GCS_MAVLINK &gcs_chan, AP_MotorsUGV::motor_test_order motor_instance, uint8_t throttle_type, int16_t throttle_value, float timeout_sec);
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void motor_test_stop();
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// frame type
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uint8_t get_frame_type() { return g2.frame_type.get(); }
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AP_WheelRateControl& get_wheel_rate_control() { return g2.wheel_rate_control; }
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// Simple mode
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float simple_sin_yaw;
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};
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extern Rover rover;
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using AP_HAL::millis;
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using AP_HAL::micros;
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