mirror of https://github.com/ArduPilot/ardupilot
253 lines
6.1 KiB
C++
253 lines
6.1 KiB
C++
#include "Tracker.h"
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// mission storage
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static const StorageAccess wp_storage(StorageManager::StorageMission);
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void Tracker::init_ardupilot()
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{
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// initialise stats module
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stats.init();
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BoardConfig.init();
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#if HAL_WITH_UAVCAN
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BoardConfig_CAN.init();
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#endif
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// initialise notify
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notify.init();
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AP_Notify::flags.pre_arm_check = true;
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AP_Notify::flags.pre_arm_gps_check = true;
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// initialise battery
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battery.init();
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// init baro before we start the GCS, so that the CLI baro test works
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barometer.set_log_baro_bit(MASK_LOG_IMU);
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barometer.init();
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// setup telem slots with serial ports
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gcs().setup_uarts();
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#if LOGGING_ENABLED == ENABLED
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log_init();
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#endif
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#ifdef ENABLE_SCRIPTING
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scripting.init();
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#endif // ENABLE_SCRIPTING
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// initialise compass
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AP::compass().set_log_bit(MASK_LOG_COMPASS);
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AP::compass().init();
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// GPS Initialization
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gps.set_log_gps_bit(MASK_LOG_GPS);
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gps.init(serial_manager);
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ahrs.init();
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ahrs.set_fly_forward(false);
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ins.init(scheduler.get_loop_rate_hz());
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ahrs.reset();
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barometer.calibrate();
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// initialise AP_Logger library
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logger.setVehicle_Startup_Writer(FUNCTOR_BIND(&tracker, &Tracker::Log_Write_Vehicle_Startup_Messages, void));
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// set serial ports non-blocking
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serial_manager.set_blocking_writes_all(false);
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// initialise rc channels including setting mode
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rc().init();
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// initialise servos
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init_servos();
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// use given start positions - useful for indoor testing, and
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// while waiting for GPS lock
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// sanity check location
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if (fabsf(g.start_latitude) <= 90.0f && fabsf(g.start_longitude) <= 180.0f) {
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current_loc.lat = g.start_latitude * 1.0e7f;
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current_loc.lng = g.start_longitude * 1.0e7f;
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} else {
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gcs().send_text(MAV_SEVERITY_NOTICE, "Ignoring invalid START_LATITUDE or START_LONGITUDE parameter");
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}
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// see if EEPROM has a default location as well
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if (current_loc.lat == 0 && current_loc.lng == 0) {
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get_home_eeprom(current_loc);
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}
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gcs().send_text(MAV_SEVERITY_INFO,"Ready to track");
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hal.scheduler->delay(1000); // Why????
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Mode *newmode = mode_from_mode_num((Mode::Number)g.initial_mode.get());
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if (newmode == nullptr) {
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newmode = &mode_manual;
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}
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set_mode(*newmode, ModeReason::STARTUP);
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if (g.startup_delay > 0) {
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// arm servos with trim value to allow them to start up (required
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// for some servos)
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prepare_servos();
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}
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// disable safety if requested
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BoardConfig.init_safety();
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}
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/*
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fetch HOME from EEPROM
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*/
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bool Tracker::get_home_eeprom(struct Location &loc)
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{
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// Find out proper location in memory by using the start_byte position + the index
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// --------------------------------------------------------------------------------
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if (g.command_total.get() == 0) {
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return false;
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}
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// read WP position
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loc = {
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int32_t(wp_storage.read_uint32(5)),
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int32_t(wp_storage.read_uint32(9)),
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int32_t(wp_storage.read_uint32(1)),
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Location::AltFrame::ABSOLUTE
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};
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return true;
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}
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bool Tracker::set_home_eeprom(const Location &temp)
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{
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wp_storage.write_byte(0, 0);
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wp_storage.write_uint32(1, temp.alt);
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wp_storage.write_uint32(5, temp.lat);
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wp_storage.write_uint32(9, temp.lng);
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// Now have a home location in EEPROM
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g.command_total.set_and_save(1); // At most 1 entry for HOME
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return true;
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}
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bool Tracker::set_home(const Location &temp)
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{
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// check EKF origin has been set
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Location ekf_origin;
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if (ahrs.get_origin(ekf_origin)) {
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if (!ahrs.set_home(temp)) {
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return false;
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}
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}
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if (!set_home_eeprom(temp)) {
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return false;
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}
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current_loc = temp;
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return true;
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}
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void Tracker::arm_servos()
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{
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hal.util->set_soft_armed(true);
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logger.set_vehicle_armed(true);
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}
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void Tracker::disarm_servos()
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{
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hal.util->set_soft_armed(false);
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logger.set_vehicle_armed(false);
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}
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/*
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setup servos to trim value after initialising
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*/
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void Tracker::prepare_servos()
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{
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start_time_ms = AP_HAL::millis();
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SRV_Channels::set_output_limit(SRV_Channel::k_tracker_yaw, SRV_Channel::Limit::TRIM);
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SRV_Channels::set_output_limit(SRV_Channel::k_tracker_pitch, SRV_Channel::Limit::TRIM);
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SRV_Channels::calc_pwm();
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SRV_Channels::output_ch_all();
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}
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void Tracker::set_mode(Mode &newmode, const ModeReason reason)
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{
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if (mode == &newmode) {
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// don't switch modes if we are already in the correct mode.
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return;
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}
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mode = &newmode;
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if (mode->requires_armed_servos()) {
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arm_servos();
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} else {
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disarm_servos();
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}
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// log mode change
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logger.Write_Mode((uint8_t)mode->number(), reason);
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gcs().send_message(MSG_HEARTBEAT);
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nav_status.bearing = ahrs.yaw_sensor * 0.01f;
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}
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bool Tracker::set_mode(const uint8_t new_mode, const ModeReason reason)
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{
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Mode *fred = nullptr;
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switch ((Mode::Number)new_mode) {
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case Mode::Number::INITIALISING:
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return false;
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case Mode::Number::AUTO:
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fred = &mode_auto;
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break;
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case Mode::Number::MANUAL:
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fred = &mode_manual;
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break;
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case Mode::Number::SCAN:
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fred = &mode_scan;
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break;
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case Mode::Number::SERVOTEST:
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fred = &mode_servotest;
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break;
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case Mode::Number::STOP:
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fred = &mode_stop;
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break;
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case Mode::Number::GUIDED:
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fred = &mode_guided;
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break;
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}
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if (fred == nullptr) {
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return false;
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}
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set_mode(*fred, reason);
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return true;
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}
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/*
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should we log a message type now?
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*/
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bool Tracker::should_log(uint32_t mask)
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{
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if (!logger.should_log(mask)) {
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return false;
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}
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return true;
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}
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#include <AP_AdvancedFailsafe/AP_AdvancedFailsafe.h>
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#include <AP_Avoidance/AP_Avoidance.h>
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#include <AP_ADSB/AP_ADSB.h>
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// dummy method to avoid linking AFS
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bool AP_AdvancedFailsafe::gcs_terminate(bool should_terminate, const char *reason) {return false;}
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AP_AdvancedFailsafe *AP::advancedfailsafe() { return nullptr; }
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// dummy method to avoid linking AP_Avoidance
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AP_Avoidance *AP::ap_avoidance() { return nullptr; }
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