#include "Sub.h" // change flight mode and perform any necessary initialisation // returns true if mode was successfully set bool Sub::set_mode(control_mode_t mode, mode_reason_t reason) { // boolean to record if flight mode could be set bool success = false; // return immediately if we are already in the desired mode if (mode == control_mode) { prev_control_mode = control_mode; prev_control_mode_reason = control_mode_reason; control_mode_reason = reason; return true; } switch (mode) { case ACRO: success = acro_init(); break; case STABILIZE: success = stabilize_init(); break; case ALT_HOLD: success = althold_init(); break; case AUTO: success = auto_init(); break; case CIRCLE: success = circle_init(); break; case GUIDED: success = guided_init(); break; case SURFACE: success = surface_init(); break; #if POSHOLD_ENABLED == ENABLED case POSHOLD: success = poshold_init(); break; #endif case MANUAL: success = manual_init(); break; case MOTOR_DETECT: success = motordetect_init(); break; case CLEAN: success = clean_init(); break; case SPORT: success = sport_init(); break; default: success = false; break; } // update flight mode if (success) { // perform any cleanup required by previous flight mode exit_mode(control_mode, mode); prev_control_mode = control_mode; prev_control_mode_reason = control_mode_reason; control_mode = mode; control_mode_reason = reason; logger.Write_Mode(control_mode, control_mode_reason); gcs().send_message(MSG_HEARTBEAT); // update notify object notify_flight_mode(control_mode); #if CAMERA == ENABLED camera.set_is_auto_mode(control_mode == AUTO); #endif #if AC_FENCE == ENABLED // pilot requested flight mode change during a fence breach indicates pilot is attempting to manually recover // this flight mode change could be automatic (i.e. fence, battery, GPS or GCS failsafe) // but it should be harmless to disable the fence temporarily in these situations as well fence.manual_recovery_start(); #endif } else { // Log error that we failed to enter desired flight mode AP::logger().Write_Error(LogErrorSubsystem::FLIGHT_MODE, LogErrorCode(mode)); } // return success or failure return success; } // update_flight_mode - calls the appropriate attitude controllers based on flight mode // called at 100hz or more void Sub::update_flight_mode() { switch (control_mode) { case ACRO: acro_run(); break; case STABILIZE: stabilize_run(); break; case ALT_HOLD: althold_run(); break; case AUTO: auto_run(); break; case CIRCLE: circle_run(); break; case GUIDED: guided_run(); break; case SURFACE: surface_run(); break; #if POSHOLD_ENABLED == ENABLED case POSHOLD: poshold_run(); break; #endif case MANUAL: manual_run(); break; case MOTOR_DETECT: motordetect_run(); break; case CLEAN: clean_run(); break; case SPORT: //sport_run(); sport_run_alt(); break; default: break; } } // exit_mode - high level call to organise cleanup as a flight mode is exited void Sub::exit_mode(control_mode_t old_control_mode, control_mode_t new_control_mode) { // stop mission when we leave auto mode if (old_control_mode == AUTO) { if (mission.state() == AP_Mission::MISSION_RUNNING) { mission.stop(); } #if MOUNT == ENABLED camera_mount.set_mode_to_default(); #endif // MOUNT == ENABLED } } // returns true or false whether mode requires GPS bool Sub::mode_requires_GPS(control_mode_t mode) { switch (mode) { case AUTO: case GUIDED: case CIRCLE: case POSHOLD: return true; default: return false; } return false; } // mode_has_manual_throttle - returns true if the flight mode has a manual throttle (i.e. pilot directly controls throttle) bool Sub::mode_has_manual_throttle(control_mode_t mode) { switch (mode) { case ACRO: case STABILIZE: case MANUAL: return true; default: return false; } return false; } // mode_allows_arming - returns true if vehicle can be armed in the specified mode // arming_from_gcs should be set to true if the arming request comes from the ground station bool Sub::mode_allows_arming(control_mode_t mode, bool arming_from_gcs) { return (mode_has_manual_throttle(mode) || mode == ALT_HOLD || mode == POSHOLD || (arming_from_gcs&& mode == GUIDED) ); } // notify_flight_mode - sets notify object based on flight mode. Only used for OreoLED notify device void Sub::notify_flight_mode(control_mode_t mode) { switch (mode) { case AUTO: case GUIDED: case CIRCLE: case SURFACE: // autopilot modes AP_Notify::flags.autopilot_mode = true; break; default: // all other are manual flight modes AP_Notify::flags.autopilot_mode = false; break; } }