#pragma once #include #include "AccelCalibrator.h" #include "AP_Vehicle/AP_Vehicle_Type.h" #define AP_ACCELCAL_MAX_NUM_CLIENTS 4 class GCS_MAVLINK; class AP_AccelCal_Client; class AP_AccelCal { public: AP_AccelCal(): _use_gcs_snoop(true), _started(false), _saving(false) { update_status(); } // start all the registered calibrations void start(GCS_MAVLINK *gcs); // called on calibration cancellation void cancel(); // Run an iteration of all registered calibrations void update(); // get the status of the calibrator server as a whole accel_cal_status_t get_status() { return _status; } // Set vehicle position sent by the GCS bool gcs_vehicle_position(float position); // interface to the clients for registration static void register_client(AP_AccelCal_Client* client); void handleMessage(const mavlink_message_t &msg); // true if we are in a calibration process bool running(void) const; private: GCS_MAVLINK *_gcs; bool _use_gcs_snoop; bool _waiting_for_mavlink_ack = false; uint32_t _last_position_request_ms; uint8_t _step; accel_cal_status_t _status; accel_cal_status_t _last_result; static uint8_t _num_clients; static AP_AccelCal_Client* _clients[AP_ACCELCAL_MAX_NUM_CLIENTS]; // called on calibration success void success(); // called on calibration failure void fail(); // reset all the calibrators to there pre calibration stage so as to make them ready for next calibration request void clear(); // proceed through the collection step for each of the registered calibrators void collect_sample(); // update the state of the Accel calibrator server void update_status(); // checks if no new sample has been received for considerable amount of time bool check_for_timeout(); // check if client's calibrator is active bool client_active(uint8_t client_num); bool _started; bool _saving; uint8_t _num_active_calibrators; AccelCalibrator* get_calibrator(uint8_t i); }; class AP_AccelCal_Client { friend class AP_AccelCal; private: // getters virtual bool _acal_get_saving() { return false; } virtual bool _acal_get_ready_to_sample() { return true; } virtual bool _acal_get_fail() { return false; } virtual AccelCalibrator* _acal_get_calibrator(uint8_t instance) = 0; // events virtual void _acal_save_calibrations() = 0; virtual void _acal_event_success() {}; virtual void _acal_event_cancellation() {}; virtual void _acal_event_failure() {}; };