mirror of https://github.com/ArduPilot/ardupilot
509 lines
18 KiB
C++
509 lines
18 KiB
C++
#include "Copter.h"
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#if MODE_RTL_ENABLED == ENABLED
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/*
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* Init and run calls for RTL flight mode
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*
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* There are two parts to RTL, the high level decision making which controls which state we are in
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* and the lower implementation of the waypoint or landing controllers within those states
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*/
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// rtl_init - initialise rtl controller
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bool Copter::ModeRTL::init(bool ignore_checks)
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{
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if (!ignore_checks) {
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if (!AP::ahrs().home_is_set()) {
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return false;
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}
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}
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// initialise waypoint and spline controller
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wp_nav->wp_and_spline_init();
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_state = RTL_Starting;
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_state_complete = true; // see run() method below
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terrain_following_allowed = !copter.failsafe.terrain;
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return true;
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}
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// re-start RTL with terrain following disabled
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void Copter::ModeRTL::restart_without_terrain()
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{
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AP::logger().Write_Error(LogErrorSubsystem::NAVIGATION, LogErrorCode::RESTARTED_RTL);
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if (rtl_path.terrain_used) {
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terrain_following_allowed = false;
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_state = RTL_Starting;
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_state_complete = true;
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gcs().send_text(MAV_SEVERITY_CRITICAL,"Restarting RTL - Terrain data missing");
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}
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}
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// rtl_run - runs the return-to-launch controller
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// should be called at 100hz or more
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void Copter::ModeRTL::run(bool disarm_on_land)
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{
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if (!motors->armed()) {
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return;
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}
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// check if we need to move to next state
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if (_state_complete) {
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switch (_state) {
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case RTL_Starting:
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build_path();
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climb_start();
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break;
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case RTL_InitialClimb:
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return_start();
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break;
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case RTL_ReturnHome:
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loiterathome_start();
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break;
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case RTL_LoiterAtHome:
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if (rtl_path.land || copter.failsafe.radio) {
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land_start();
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}else{
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descent_start();
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}
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break;
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case RTL_FinalDescent:
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// do nothing
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break;
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case RTL_Land:
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// do nothing - rtl_land_run will take care of disarming motors
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break;
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}
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}
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// call the correct run function
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switch (_state) {
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case RTL_Starting:
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// should not be reached:
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_state = RTL_InitialClimb;
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FALLTHROUGH;
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case RTL_InitialClimb:
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climb_return_run();
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break;
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case RTL_ReturnHome:
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climb_return_run();
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break;
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case RTL_LoiterAtHome:
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loiterathome_run();
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break;
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case RTL_FinalDescent:
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descent_run();
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break;
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case RTL_Land:
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land_run(disarm_on_land);
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break;
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}
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}
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// rtl_climb_start - initialise climb to RTL altitude
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void Copter::ModeRTL::climb_start()
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{
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_state = RTL_InitialClimb;
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_state_complete = false;
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// RTL_SPEED == 0 means use WPNAV_SPEED
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if (g.rtl_speed_cms != 0) {
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wp_nav->set_speed_xy(g.rtl_speed_cms);
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}
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// set the destination
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if (!wp_nav->set_wp_destination(rtl_path.climb_target)) {
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// this should not happen because rtl_build_path will have checked terrain data was available
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AP::logger().Write_Error(LogErrorSubsystem::NAVIGATION, LogErrorCode::FAILED_TO_SET_DESTINATION);
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copter.set_mode(LAND, MODE_REASON_TERRAIN_FAILSAFE);
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return;
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}
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wp_nav->set_fast_waypoint(true);
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// hold current yaw during initial climb
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auto_yaw.set_mode(AUTO_YAW_HOLD);
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}
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// rtl_return_start - initialise return to home
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void Copter::ModeRTL::return_start()
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{
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_state = RTL_ReturnHome;
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_state_complete = false;
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if (!wp_nav->set_wp_destination(rtl_path.return_target)) {
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// failure must be caused by missing terrain data, restart RTL
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restart_without_terrain();
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}
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// initialise yaw to point home (maybe)
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auto_yaw.set_mode_to_default(true);
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}
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// rtl_climb_return_run - implements the initial climb, return home and descent portions of RTL which all rely on the wp controller
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// called by rtl_run at 100hz or more
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void Copter::ModeRTL::climb_return_run()
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{
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// if not armed set throttle to zero and exit immediately
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if (is_disarmed_or_landed()) {
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make_safe_spool_down();
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return;
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}
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// process pilot's yaw input
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float target_yaw_rate = 0;
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if (!copter.failsafe.radio) {
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// get pilot's desired yaw rate
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target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->get_control_in());
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if (!is_zero(target_yaw_rate)) {
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auto_yaw.set_mode(AUTO_YAW_HOLD);
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}
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}
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// set motors to full range
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motors->set_desired_spool_state(AP_Motors::DesiredSpoolState::THROTTLE_UNLIMITED);
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// run waypoint controller
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copter.failsafe_terrain_set_status(wp_nav->update_wpnav());
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// call z-axis position controller (wpnav should have already updated it's alt target)
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pos_control->update_z_controller();
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// call attitude controller
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if (auto_yaw.mode() == AUTO_YAW_HOLD) {
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// roll & pitch from waypoint controller, yaw rate from pilot
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attitude_control->input_euler_angle_roll_pitch_euler_rate_yaw(wp_nav->get_roll(), wp_nav->get_pitch(), target_yaw_rate);
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}else{
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// roll, pitch from waypoint controller, yaw heading from auto_heading()
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attitude_control->input_euler_angle_roll_pitch_yaw(wp_nav->get_roll(), wp_nav->get_pitch(), auto_yaw.yaw(),true);
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}
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// check if we've completed this stage of RTL
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_state_complete = wp_nav->reached_wp_destination();
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}
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// rtl_loiterathome_start - initialise return to home
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void Copter::ModeRTL::loiterathome_start()
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{
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_state = RTL_LoiterAtHome;
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_state_complete = false;
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_loiter_start_time = millis();
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// yaw back to initial take-off heading yaw unless pilot has already overridden yaw
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if(auto_yaw.default_mode(true) != AUTO_YAW_HOLD) {
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auto_yaw.set_mode(AUTO_YAW_RESETTOARMEDYAW);
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} else {
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auto_yaw.set_mode(AUTO_YAW_HOLD);
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}
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}
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// rtl_climb_return_descent_run - implements the initial climb, return home and descent portions of RTL which all rely on the wp controller
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// called by rtl_run at 100hz or more
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void Copter::ModeRTL::loiterathome_run()
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{
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// if not armed set throttle to zero and exit immediately
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if (is_disarmed_or_landed()) {
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make_safe_spool_down();
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return;
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}
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// process pilot's yaw input
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float target_yaw_rate = 0;
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if (!copter.failsafe.radio) {
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// get pilot's desired yaw rate
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target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->get_control_in());
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if (!is_zero(target_yaw_rate)) {
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auto_yaw.set_mode(AUTO_YAW_HOLD);
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}
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}
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// set motors to full range
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motors->set_desired_spool_state(AP_Motors::DesiredSpoolState::THROTTLE_UNLIMITED);
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// run waypoint controller
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copter.failsafe_terrain_set_status(wp_nav->update_wpnav());
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// call z-axis position controller (wpnav should have already updated it's alt target)
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pos_control->update_z_controller();
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// call attitude controller
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if (auto_yaw.mode() == AUTO_YAW_HOLD) {
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// roll & pitch from waypoint controller, yaw rate from pilot
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attitude_control->input_euler_angle_roll_pitch_euler_rate_yaw(wp_nav->get_roll(), wp_nav->get_pitch(), target_yaw_rate);
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}else{
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// roll, pitch from waypoint controller, yaw heading from auto_heading()
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attitude_control->input_euler_angle_roll_pitch_yaw(wp_nav->get_roll(), wp_nav->get_pitch(), auto_yaw.yaw(),true);
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}
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// check if we've completed this stage of RTL
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if ((millis() - _loiter_start_time) >= (uint32_t)g.rtl_loiter_time.get()) {
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if (auto_yaw.mode() == AUTO_YAW_RESETTOARMEDYAW) {
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// check if heading is within 2 degrees of heading when vehicle was armed
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if (fabsf(wrap_180_cd(ahrs.yaw_sensor-copter.initial_armed_bearing)) <= 200) {
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_state_complete = true;
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}
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} else {
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// we have loitered long enough
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_state_complete = true;
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}
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}
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}
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// rtl_descent_start - initialise descent to final alt
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void Copter::ModeRTL::descent_start()
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{
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_state = RTL_FinalDescent;
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_state_complete = false;
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// Set wp navigation target to above home
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loiter_nav->init_target(wp_nav->get_wp_destination());
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// initialise altitude target to stopping point
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pos_control->set_target_to_stopping_point_z();
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// initialise yaw
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auto_yaw.set_mode(AUTO_YAW_HOLD);
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}
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// rtl_descent_run - implements the final descent to the RTL_ALT
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// called by rtl_run at 100hz or more
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void Copter::ModeRTL::descent_run()
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{
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float target_roll = 0.0f;
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float target_pitch = 0.0f;
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float target_yaw_rate = 0.0f;
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// if not armed set throttle to zero and exit immediately
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if (is_disarmed_or_landed()) {
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make_safe_spool_down();
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return;
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}
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// process pilot's input
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if (!copter.failsafe.radio) {
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if ((g.throttle_behavior & THR_BEHAVE_HIGH_THROTTLE_CANCELS_LAND) != 0 && copter.rc_throttle_control_in_filter.get() > LAND_CANCEL_TRIGGER_THR){
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Log_Write_Event(DATA_LAND_CANCELLED_BY_PILOT);
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// exit land if throttle is high
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if (!copter.set_mode(LOITER, MODE_REASON_THROTTLE_LAND_ESCAPE)) {
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copter.set_mode(ALT_HOLD, MODE_REASON_THROTTLE_LAND_ESCAPE);
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}
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}
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if (g.land_repositioning) {
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// apply SIMPLE mode transform to pilot inputs
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update_simple_mode();
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// convert pilot input to lean angles
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get_pilot_desired_lean_angles(target_roll, target_pitch, loiter_nav->get_angle_max_cd(), attitude_control->get_althold_lean_angle_max());
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// record if pilot has overridden roll or pitch
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if (!is_zero(target_roll) || !is_zero(target_pitch)) {
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if (!ap.land_repo_active) {
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copter.Log_Write_Event(DATA_LAND_REPO_ACTIVE);
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}
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ap.land_repo_active = true;
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}
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}
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// get pilot's desired yaw rate
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target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->get_control_in());
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}
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// set motors to full range
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motors->set_desired_spool_state(AP_Motors::DesiredSpoolState::THROTTLE_UNLIMITED);
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// process roll, pitch inputs
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loiter_nav->set_pilot_desired_acceleration(target_roll, target_pitch, G_Dt);
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// run loiter controller
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loiter_nav->update();
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// call z-axis position controller
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pos_control->set_alt_target_with_slew(rtl_path.descent_target.alt, G_Dt);
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pos_control->update_z_controller();
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// roll & pitch from waypoint controller, yaw rate from pilot
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attitude_control->input_euler_angle_roll_pitch_euler_rate_yaw(loiter_nav->get_roll(), loiter_nav->get_pitch(), target_yaw_rate);
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// check if we've reached within 20cm of final altitude
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_state_complete = labs(rtl_path.descent_target.alt - copter.current_loc.alt) < 20;
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}
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// rtl_loiterathome_start - initialise controllers to loiter over home
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void Copter::ModeRTL::land_start()
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{
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_state = RTL_Land;
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_state_complete = false;
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// Set wp navigation target to above home
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loiter_nav->init_target(wp_nav->get_wp_destination());
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// initialise position and desired velocity
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if (!pos_control->is_active_z()) {
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pos_control->set_alt_target_to_current_alt();
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pos_control->set_desired_velocity_z(inertial_nav.get_velocity_z());
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}
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// initialise yaw
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auto_yaw.set_mode(AUTO_YAW_HOLD);
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}
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bool Copter::ModeRTL::is_landing() const
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{
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return _state == RTL_Land;
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}
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bool Copter::ModeRTL::landing_gear_should_be_deployed() const
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{
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switch(_state) {
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case RTL_LoiterAtHome:
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case RTL_Land:
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case RTL_FinalDescent:
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return true;
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default:
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return false;
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}
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return false;
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}
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// rtl_returnhome_run - return home
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// called by rtl_run at 100hz or more
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void Copter::ModeRTL::land_run(bool disarm_on_land)
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{
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// check if we've completed this stage of RTL
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_state_complete = ap.land_complete;
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// disarm when the landing detector says we've landed
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if (disarm_on_land && ap.land_complete && motors->get_spool_state() == AP_Motors::SpoolState::GROUND_IDLE) {
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copter.arming.disarm();
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}
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// if not armed set throttle to zero and exit immediately
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if (is_disarmed_or_landed()) {
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make_safe_spool_down();
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loiter_nav->init_target();
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return;
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}
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// set motors to full range
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motors->set_desired_spool_state(AP_Motors::DesiredSpoolState::THROTTLE_UNLIMITED);
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land_run_horizontal_control();
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land_run_vertical_control();
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}
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void Copter::ModeRTL::build_path()
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{
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// origin point is our stopping point
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Vector3f stopping_point;
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pos_control->get_stopping_point_xy(stopping_point);
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pos_control->get_stopping_point_z(stopping_point);
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rtl_path.origin_point = Location(stopping_point);
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rtl_path.origin_point.change_alt_frame(Location::AltFrame::ABOVE_HOME);
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// compute return target
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compute_return_target();
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// climb target is above our origin point at the return altitude
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rtl_path.climb_target = Location(rtl_path.origin_point.lat, rtl_path.origin_point.lng, rtl_path.return_target.alt, rtl_path.return_target.get_alt_frame());
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// descent target is below return target at rtl_alt_final
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rtl_path.descent_target = Location(rtl_path.return_target.lat, rtl_path.return_target.lng, g.rtl_alt_final, Location::AltFrame::ABOVE_HOME);
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// set land flag
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rtl_path.land = g.rtl_alt_final <= 0;
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}
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// compute the return target - home or rally point
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// return altitude in cm above home at which vehicle should return home
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// return target's altitude is updated to a higher altitude that the vehicle can safely return at (frame may also be set)
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void Copter::ModeRTL::compute_return_target()
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{
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// set return target to nearest rally point or home position (Note: alt is absolute)
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#if AC_RALLY == ENABLED
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rtl_path.return_target = copter.rally.calc_best_rally_or_home_location(copter.current_loc, ahrs.get_home().alt);
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#else
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rtl_path.return_target = ahrs.get_home();
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#endif
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// curr_alt is current altitude above home or above terrain depending upon use_terrain
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int32_t curr_alt = copter.current_loc.alt;
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// decide if we should use terrain altitudes
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rtl_path.terrain_used = copter.terrain_use() && terrain_following_allowed;
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if (rtl_path.terrain_used) {
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// attempt to retrieve terrain alt for current location, stopping point and origin
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int32_t origin_terr_alt, return_target_terr_alt;
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if (!rtl_path.origin_point.get_alt_cm(Location::AltFrame::ABOVE_TERRAIN, origin_terr_alt) ||
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!rtl_path.return_target.get_alt_cm(Location::AltFrame::ABOVE_TERRAIN, return_target_terr_alt) ||
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!copter.current_loc.get_alt_cm(Location::AltFrame::ABOVE_TERRAIN, curr_alt)) {
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rtl_path.terrain_used = false;
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AP::logger().Write_Error(LogErrorSubsystem::TERRAIN, LogErrorCode::MISSING_TERRAIN_DATA);
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}
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}
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// convert return-target alt (which is an absolute alt) to alt-above-home or alt-above-terrain
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if (!rtl_path.terrain_used || !rtl_path.return_target.change_alt_frame(Location::AltFrame::ABOVE_TERRAIN)) {
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if (!rtl_path.return_target.change_alt_frame(Location::AltFrame::ABOVE_HOME)) {
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// this should never happen but just in case
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rtl_path.return_target.set_alt_cm(0, Location::AltFrame::ABOVE_HOME);
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}
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rtl_path.terrain_used = false;
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}
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// set new target altitude to return target altitude
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// Note: this is alt-above-home or terrain-alt depending upon use_terrain
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// Note: ignore negative altitudes which could happen if user enters negative altitude for rally point or terrain is higher at rally point compared to home
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int32_t target_alt = MAX(rtl_path.return_target.alt, 0);
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// increase target to maximum of current altitude + climb_min and rtl altitude
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target_alt = MAX(target_alt, curr_alt + MAX(0, g.rtl_climb_min));
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target_alt = MAX(target_alt, MAX(g.rtl_altitude, RTL_ALT_MIN));
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// reduce climb if close to return target
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float rtl_return_dist_cm = rtl_path.return_target.get_distance(rtl_path.origin_point) * 100.0f;
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// don't allow really shallow slopes
|
|
if (g.rtl_cone_slope >= RTL_MIN_CONE_SLOPE) {
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|
target_alt = MAX(curr_alt, MIN(target_alt, MAX(rtl_return_dist_cm*g.rtl_cone_slope, curr_alt+RTL_ABS_MIN_CLIMB)));
|
|
}
|
|
|
|
// set returned target alt to new target_alt
|
|
rtl_path.return_target.set_alt_cm(target_alt, rtl_path.terrain_used ? Location::AltFrame::ABOVE_TERRAIN : Location::AltFrame::ABOVE_HOME);
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|
|
|
#if AC_FENCE == ENABLED
|
|
// ensure not above fence altitude if alt fence is enabled
|
|
// Note: because the rtl_path.climb_target's altitude is simply copied from the return_target's altitude,
|
|
// if terrain altitudes are being used, the code below which reduces the return_target's altitude can lead to
|
|
// the vehicle not climbing at all as RTL begins. This can be overly conservative and it might be better
|
|
// to apply the fence alt limit independently on the origin_point and return_target
|
|
if ((copter.fence.get_enabled_fences() & AC_FENCE_TYPE_ALT_MAX) != 0) {
|
|
// get return target as alt-above-home so it can be compared to fence's alt
|
|
if (rtl_path.return_target.get_alt_cm(Location::AltFrame::ABOVE_HOME, target_alt)) {
|
|
float fence_alt = copter.fence.get_safe_alt_max()*100.0f;
|
|
if (target_alt > fence_alt) {
|
|
// reduce target alt to the fence alt
|
|
rtl_path.return_target.alt -= (target_alt - fence_alt);
|
|
}
|
|
}
|
|
}
|
|
#endif
|
|
|
|
// ensure we do not descend
|
|
rtl_path.return_target.alt = MAX(rtl_path.return_target.alt, curr_alt);
|
|
}
|
|
|
|
uint32_t Copter::ModeRTL::wp_distance() const
|
|
{
|
|
return wp_nav->get_wp_distance_to_destination();
|
|
}
|
|
|
|
int32_t Copter::ModeRTL::wp_bearing() const
|
|
{
|
|
return wp_nav->get_wp_bearing_to_destination();
|
|
}
|
|
|
|
#endif
|