mirror of https://github.com/ArduPilot/ardupilot
513 lines
17 KiB
C++
513 lines
17 KiB
C++
#pragma once
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#include <stdint.h>
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#include <GCS_MAVLink/GCS_MAVLink.h>
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#include <AP_Math/AP_Math.h>
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#include "defines.h"
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#define MODE_NEXT_HEADING_UNKNOWN 99999.0f // used to indicate to set_desired_location method that next leg's heading is unknown
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// pre-define ModeRTL so Auto can appear higher in this file
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class ModeRTL;
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class Mode
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{
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public:
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// Auto Pilot modes
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// ----------------
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enum Number {
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MANUAL = 0,
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ACRO = 1,
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STEERING = 3,
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HOLD = 4,
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LOITER = 5,
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FOLLOW = 6,
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SIMPLE = 7,
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AUTO = 10,
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RTL = 11,
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SMART_RTL = 12,
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GUIDED = 15,
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INITIALISING = 16
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};
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// Constructor
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Mode();
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// enter this mode, returns false if we failed to enter
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bool enter();
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// perform any cleanups required:
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void exit();
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// returns a unique number specific to this mode
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virtual uint32_t mode_number() const = 0;
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// returns short text name (up to 4 bytes)
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virtual const char *name4() const = 0;
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//
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// methods that sub classes should override to affect movement of the vehicle in this mode
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//
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// convert user input to targets, implement high level control for this mode
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virtual void update() = 0;
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//
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// attributes of the mode
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//
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// return if in non-manual mode : Auto, Guided, RTL, SmartRTL
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virtual bool is_autopilot_mode() const { return false; }
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// returns true if vehicle can be armed or disarmed from the transmitter in this mode
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virtual bool allows_arming_from_transmitter() { return !is_autopilot_mode(); }
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//
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// attributes for mavlink system status reporting
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//
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// returns true if any RC input is used
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virtual bool has_manual_input() const { return false; }
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// true if heading is controlled
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virtual bool attitude_stabilized() const { return true; }
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// true if mode requires position and/or velocity estimate
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virtual bool requires_position() const { return true; }
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virtual bool requires_velocity() const { return true; }
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//
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// navigation methods
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//
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// return distance (in meters) to destination
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virtual float get_distance_to_destination() const { return 0.0f; }
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// set desired location and speed (used in RTL, Guided, Auto)
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// next_leg_bearing_cd should be heading to the following waypoint (used to slow the vehicle in order to make the turn)
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virtual void set_desired_location(const struct Location& destination, float next_leg_bearing_cd = MODE_NEXT_HEADING_UNKNOWN);
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// set desired location as offset from the EKF origin, return true on success
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bool set_desired_location_NED(const Vector3f& destination, float next_leg_bearing_cd = MODE_NEXT_HEADING_UNKNOWN);
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// true if vehicle has reached desired location. defaults to true because this is normally used by missions and we do not want the mission to become stuck
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virtual bool reached_destination() { return true; }
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// set desired heading and speed - supported in Auto and Guided modes
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virtual void set_desired_heading_and_speed(float yaw_angle_cd, float target_speed);
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// get speed error in m/s, returns zero for modes that do not control speed
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float speed_error() const { return _speed_error; }
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// get default speed for this mode (held in CRUISE_SPEED, WP_SPEED or RTL_SPEED)
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// rtl argument should be true if called from RTL or SmartRTL modes (handled here to avoid duplication)
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float get_speed_default(bool rtl = false) const;
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// set desired speed in m/s
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bool set_desired_speed(float speed);
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// restore desired speed to default from parameter values (CRUISE_SPEED or WP_SPEED)
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// rtl argument should be true if called from RTL or SmartRTL modes (handled here to avoid duplication)
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void set_desired_speed_to_default(bool rtl = false);
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// execute the mission in reverse (i.e. backing up)
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void set_reversed(bool value);
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protected:
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// subclasses override this to perform checks before entering the mode
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virtual bool _enter() { return true; }
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// subclasses override this to perform any required cleanup when exiting the mode
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virtual void _exit() { return; }
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// decode pilot steering and throttle inputs and return in steer_out and throttle_out arguments
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// steering_out is in the range -4500 ~ +4500 with positive numbers meaning rotate clockwise
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// throttle_out is in the range -100 ~ +100
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void get_pilot_desired_steering_and_throttle(float &steering_out, float &throttle_out);
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// decode pilot input steering and return steering_out and speed_out (in m/s)
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void get_pilot_desired_steering_and_speed(float &steering_out, float &speed_out);
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// decode pilot lateral movement input and return in lateral_out argument
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void get_pilot_desired_lateral(float &lateral_out);
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// decode pilot's input and return heading_out (in cd) and speed_out (in m/s)
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void get_pilot_desired_heading_and_speed(float &heading_out, float &speed_out);
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// calculate steering output to drive along line from origin to destination waypoint
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void calc_steering_to_waypoint(const struct Location &origin, const struct Location &destination, bool reversed = false);
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// calculate steering angle given a desired lateral acceleration
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void calc_steering_from_lateral_acceleration(float lat_accel, bool reversed = false);
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// calculate steering output to drive towards desired heading
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// rate_max is a maximum turn rate in deg/s. set to zero to use default turn rate limits
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void calc_steering_to_heading(float desired_heading_cd, float rate_max_degs = 0.0f);
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// calculates the amount of throttle that should be output based
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// on things like proximity to corners and current speed
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virtual void calc_throttle(float target_speed, bool nudge_allowed, bool avoidance_enabled);
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// performs a controlled stop. returns true once vehicle has stopped
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bool stop_vehicle();
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// estimate maximum vehicle speed (in m/s)
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// cruise_speed is in m/s, cruise_throttle should be in the range -1 to +1
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float calc_speed_max(float cruise_speed, float cruise_throttle) const;
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// calculate pilot input to nudge speed up or down
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// target_speed should be in meters/sec
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// cruise_speed is vehicle's cruising speed, cruise_throttle is the throttle (from -1 to +1) that achieves the cruising speed
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// return value is a new speed (in m/s) which up to the projected maximum speed based on the cruise speed and cruise throttle
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float calc_speed_nudge(float target_speed, float cruise_speed, float cruise_throttle);
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// calculated a reduced speed(in m/s) based on yaw error and lateral acceleration and/or distance to a waypoint
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// should be called after calc_steering_to_waypoint and before calc_throttle
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// relies on these internal members being updated: lateral_acceleration, _yaw_error_cd, _distance_to_destination
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float calc_reduced_speed_for_turn_or_distance(float desired_speed);
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// calculate vehicle stopping location using current location, velocity and maximum acceleration
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void calc_stopping_location(Location& stopping_loc);
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protected:
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// decode pilot steering and throttle inputs and return in steer_out and throttle_out arguments
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// steering_out is in the range -4500 ~ +4500 with positive numbers meaning rotate clockwise
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// throttle_out is in the range -100 ~ +100
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void get_pilot_input(float &steering_out, float &throttle_out);
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// references to avoid code churn:
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class AP_AHRS &ahrs;
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class Parameters &g;
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class ParametersG2 &g2;
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class RC_Channel *&channel_steer;
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class RC_Channel *&channel_throttle;
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class RC_Channel *&channel_lateral;
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class AP_Mission &mission;
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class AR_AttitudeControl &attitude_control;
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// private members for waypoint navigation
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Location _origin; // origin Location (vehicle will travel from the origin to the destination)
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Location _destination; // destination Location when in Guided_WP
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float _distance_to_destination; // distance from vehicle to final destination in meters
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bool _reached_destination; // true once the vehicle has reached the destination
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float _desired_yaw_cd; // desired yaw in centi-degrees
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float _yaw_error_cd; // error between desired yaw and actual yaw in centi-degrees
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float _desired_speed; // desired speed in m/s
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float _desired_speed_final; // desired speed in m/s when we reach the destination
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float _speed_error; // ground speed error in m/s
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uint32_t last_steer_to_wp_ms; // system time of last call to calc_steering_to_waypoint
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bool _reversed; // execute the mission by backing up
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};
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class ModeAcro : public Mode
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{
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public:
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uint32_t mode_number() const override { return ACRO; }
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const char *name4() const override { return "ACRO"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes for mavlink system status reporting
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bool has_manual_input() const override { return true; }
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// acro mode requires a velocity estimate for non skid-steer rovers
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bool requires_position() const override { return false; }
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bool requires_velocity() const override;
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};
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class ModeAuto : public Mode
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{
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public:
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// constructor
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ModeAuto(ModeRTL& mode_rtl);
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uint32_t mode_number() const override { return AUTO; }
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const char *name4() const override { return "AUTO"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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void calc_throttle(float target_speed, bool nudge_allowed, bool avoidance_enabled);
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// attributes of the mode
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bool is_autopilot_mode() const override { return true; }
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// return distance (in meters) to destination
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float get_distance_to_destination() const override;
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// set desired location, heading and speed
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void set_desired_location(const struct Location& destination, float next_leg_bearing_cd = MODE_NEXT_HEADING_UNKNOWN);
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bool reached_destination() override;
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// heading and speed control
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void set_desired_heading_and_speed(float yaw_angle_cd, float target_speed) override;
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bool reached_heading();
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// start RTL (within auto)
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void start_RTL();
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protected:
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bool _enter() override;
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void _exit() override;
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enum AutoSubMode {
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Auto_WP, // drive to a given location
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Auto_HeadingAndSpeed, // turn to a given heading
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Auto_RTL // perform RTL within auto mode
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} _submode;
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private:
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bool check_trigger(void);
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// references
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ModeRTL& _mode_rtl;
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// this is set to true when auto has been triggered to start
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bool auto_triggered;
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bool _reached_heading; // true when vehicle has reached desired heading in TurnToHeading sub mode
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};
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class ModeGuided : public Mode
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{
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public:
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uint32_t mode_number() const override { return GUIDED; }
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const char *name4() const override { return "GUID"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes of the mode
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bool is_autopilot_mode() const override { return true; }
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// return distance (in meters) to destination
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float get_distance_to_destination() const override;
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// set desired location, heading and speed
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void set_desired_location(const struct Location& destination);
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void set_desired_heading_and_speed(float yaw_angle_cd, float target_speed) override;
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// set desired heading-delta, turn-rate and speed
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void set_desired_heading_delta_and_speed(float yaw_delta_cd, float target_speed);
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void set_desired_turn_rate_and_speed(float turn_rate_cds, float target_speed);
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protected:
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enum GuidedMode {
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Guided_WP,
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Guided_HeadingAndSpeed,
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Guided_TurnRateAndSpeed
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};
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bool _enter() override;
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GuidedMode _guided_mode; // stores which GUIDED mode the vehicle is in
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// attitude control
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bool have_attitude_target; // true if we have a valid attitude target
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uint32_t _des_att_time_ms; // system time last call to set_desired_attitude was made (used for timeout)
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float _desired_yaw_rate_cds;// target turn rate centi-degrees per second
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};
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class ModeHold : public Mode
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{
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public:
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uint32_t mode_number() const override { return HOLD; }
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const char *name4() const override { return "HOLD"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes for mavlink system status reporting
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bool attitude_stabilized() const override { return false; }
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// hold mode does not require position or velocity estimate
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bool requires_position() const override { return false; }
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bool requires_velocity() const override { return false; }
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};
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class ModeLoiter : public Mode
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{
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public:
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uint32_t mode_number() const override { return LOITER; }
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const char *name4() const override { return "LOIT"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// return distance (in meters) to destination
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float get_distance_to_destination() const override { return _distance_to_destination; }
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protected:
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bool _enter() override;
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};
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class ModeManual : public Mode
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{
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public:
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uint32_t mode_number() const override { return MANUAL; }
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const char *name4() const override { return "MANU"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes for mavlink system status reporting
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bool has_manual_input() const override { return true; }
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bool attitude_stabilized() const override { return false; }
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// manual mode does not require position or velocity estimate
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bool requires_position() const override { return false; }
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bool requires_velocity() const override { return false; }
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protected:
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void _exit() override;
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};
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class ModeRTL : public Mode
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{
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public:
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uint32_t mode_number() const override { return RTL; }
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const char *name4() const override { return "RTL"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes of the mode
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bool is_autopilot_mode() const override { return true; }
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float get_distance_to_destination() const override { return _distance_to_destination; }
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bool reached_destination() override { return _reached_destination; }
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protected:
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bool _enter() override;
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};
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class ModeSmartRTL : public Mode
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{
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public:
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uint32_t mode_number() const override { return SMART_RTL; }
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const char *name4() const override { return "SRTL"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes of the mode
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bool is_autopilot_mode() const override { return true; }
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float get_distance_to_destination() const override { return _distance_to_destination; }
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bool reached_destination() override { return smart_rtl_state == SmartRTL_StopAtHome; }
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// save current position for use by the smart_rtl flight mode
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void save_position();
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protected:
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// Safe RTL states
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enum SmartRTLState {
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SmartRTL_WaitForPathCleanup,
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SmartRTL_PathFollow,
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SmartRTL_StopAtHome,
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SmartRTL_Failure
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} smart_rtl_state;
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bool _enter() override;
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bool _load_point;
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};
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class ModeSteering : public Mode
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{
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public:
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uint32_t mode_number() const override { return STEERING; }
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const char *name4() const override { return "STER"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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// attributes for mavlink system status reporting
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bool has_manual_input() const override { return true; }
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// steering requires velocity but not position
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bool requires_position() const override { return false; }
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bool requires_velocity() const override { return true; }
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};
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class ModeInitializing : public Mode
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{
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public:
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uint32_t mode_number() const override { return INITIALISING; }
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const char *name4() const override { return "INIT"; }
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// methods that affect movement of the vehicle in this mode
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void update() override { }
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// attributes for mavlink system status reporting
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bool has_manual_input() const override { return true; }
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bool attitude_stabilized() const override { return false; }
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};
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class ModeFollow : public Mode
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{
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public:
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uint32_t mode_number() const override { return FOLLOW; }
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const char *name4() const override { return "FOLL"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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protected:
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bool _enter() override;
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};
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class ModeSimple : public Mode
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{
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public:
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uint32_t mode_number() const override { return SIMPLE; }
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const char *name4() const override { return "SMPL"; }
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// methods that affect movement of the vehicle in this mode
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void update() override;
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void init_heading();
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private:
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// simple type enum used for SIMPLE_TYPE parameter
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enum simple_type {
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Simple_InitialHeading = 0,
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Simple_CardinalDirections = 1,
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};
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float _initial_heading_cd; // vehicle heading (in centi-degrees) at moment vehicle was armed
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float _desired_heading_cd; // latest desired heading (in centi-degrees) from pilot
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};
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