#include "mode.h" #include "Rover.h" // constructor ModeAuto::ModeAuto(ModeRTL& mode_rtl) : _mode_rtl(mode_rtl) { } bool ModeAuto::_enter() { // fail to enter auto if no mission commands if (mission.num_commands() == 0) { gcs().send_text(MAV_SEVERITY_NOTICE, "No Mission. Can't set AUTO."); return false; } // initialise waypoint speed set_desired_speed_to_default(); // init location target set_desired_location(rover.current_loc); // other initialisation auto_triggered = false; // initialise reversed to be false set_reversed(false); // restart mission processing mission.start_or_resume(); return true; } void ModeAuto::_exit() { // stop running the mission if (mission.state() == AP_Mission::MISSION_RUNNING) { mission.stop(); } } void ModeAuto::update() { switch (_submode) { case Auto_WP: { _distance_to_destination = get_distance(rover.current_loc, _destination); // check if we've reached the destination if (!_reached_destination) { if (_distance_to_destination <= rover.g.waypoint_radius || location_passed_point(rover.current_loc, _origin, _destination)) { // trigger reached _reached_destination = true; } } if (!_reached_destination || rover.is_boat()) { // continue driving towards destination calc_steering_to_waypoint(_reached_destination ? rover.current_loc : _origin, _destination, _reversed); calc_throttle(calc_reduced_speed_for_turn_or_distance(_reversed ? -_desired_speed : _desired_speed), true); } else { // we have reached the destination so stop stop_vehicle(); } break; } case Auto_HeadingAndSpeed: { if (!_reached_heading) { // run steering and throttle controllers calc_steering_to_heading(_desired_yaw_cd, _desired_speed < 0); calc_throttle(_desired_speed, true); // check if we have reached within 5 degrees of target _reached_heading = (fabsf(_desired_yaw_cd - ahrs.yaw_sensor) < 500); } else { stop_vehicle(); } break; } case Auto_RTL: _mode_rtl.update(); break; } } // return distance (in meters) to destination float ModeAuto::get_distance_to_destination() const { if (_submode == Auto_RTL) { return _mode_rtl.get_distance_to_destination(); } return _distance_to_destination; } // set desired location to drive to void ModeAuto::set_desired_location(const struct Location& destination, float next_leg_bearing_cd) { // call parent Mode::set_desired_location(destination, next_leg_bearing_cd); _submode = Auto_WP; } // return true if vehicle has reached or even passed destination bool ModeAuto::reached_destination() { if (_submode == Auto_WP) { return _reached_destination; } if (_submode == Auto_RTL) { return _mode_rtl.reached_destination(); } // we should never reach here but just in case, return true to allow missions to continue return true; } // set desired heading in centidegrees (vehicle will turn to this heading) void ModeAuto::set_desired_heading_and_speed(float yaw_angle_cd, float target_speed) { // call parent Mode::set_desired_heading_and_speed(yaw_angle_cd, target_speed); _submode = Auto_HeadingAndSpeed; _reached_heading = false; } // return true if vehicle has reached desired heading bool ModeAuto::reached_heading() { if (_submode == Auto_HeadingAndSpeed) { return _reached_heading; } // we should never reach here but just in case, return true to allow missions to continue return true; } // start RTL (within auto) void ModeAuto::start_RTL() { if (_mode_rtl.enter()) { _submode = Auto_RTL; } } // execute the mission in reverse (i.e. backing up) void ModeAuto::set_reversed(bool value) { if (_reversed != value) { _reversed = value; rover.set_reverse(_reversed); } } /* check for triggering of start of auto mode */ bool ModeAuto::check_trigger(void) { // check for user pressing the auto trigger to off if (auto_triggered && g.auto_trigger_pin != -1 && rover.check_digital_pin(g.auto_trigger_pin) == 1) { gcs().send_text(MAV_SEVERITY_WARNING, "AUTO triggered off"); auto_triggered = false; return false; } // if already triggered, then return true, so you don't // need to hold the switch down if (auto_triggered) { return true; } // return true if auto trigger and kickstart are disabled if (g.auto_trigger_pin == -1 && is_zero(g.auto_kickstart)) { // no trigger configured - let's go! auto_triggered = true; return true; } // check if trigger pin has been pushed if (g.auto_trigger_pin != -1 && rover.check_digital_pin(g.auto_trigger_pin) == 0) { gcs().send_text(MAV_SEVERITY_WARNING, "Triggered AUTO with pin"); auto_triggered = true; return true; } // check if mission is started by giving vehicle a kick with acceleration > AUTO_KICKSTART if (!is_zero(g.auto_kickstart)) { const float xaccel = rover.ins.get_accel().x; if (xaccel >= g.auto_kickstart) { gcs().send_text(MAV_SEVERITY_WARNING, "Triggered AUTO xaccel=%.1f", static_cast(xaccel)); auto_triggered = true; return true; } } return false; } void ModeAuto::calc_throttle(float target_speed, bool nudge_allowed) { // If not autostarting set the throttle to minimum if (!check_trigger()) { stop_vehicle(); return; } Mode::calc_throttle(target_speed, nudge_allowed); }