#pragma once #include #include class AP_DAL_Compass { public: // Compass-like methods: bool use_for_yaw(uint8_t i) const { return _RMGI[i].use_for_yaw; } bool healthy(uint8_t i) const { return _RMGI[i].healthy; } const Vector3f &get_offsets(uint8_t i) const { return _RMGI[i].offsets; } bool have_scale_factor(uint8_t i) const { return _RMGI[i].have_scale_factor; } bool auto_declination_enabled() const { return _RMGH.auto_declination_enabled; } uint8_t get_count() const { return _RMGH.count; } float get_declination() const { return _RMGH.declination; } bool available() const { return _RMGH.available; } // return the number of enabled sensors uint8_t get_num_enabled(void) const { return _RMGH.num_enabled; } // learn offsets accessor bool learn_offsets_enabled() const { return _RMGH.learn_offsets_enabled; } // return last update time in microseconds uint32_t last_update_usec(uint8_t i) const { return _RMGI[i].last_update_usec; } /// Return the current field as a Vector3f in milligauss const Vector3f &get_field(uint8_t i) const { return _RMGI[i].field; } // check if the compasses are pointing in the same direction bool consistent() const { return _RMGH.consistent; } // returns first usable compass uint8_t get_first_usable() const { return _RMGH.first_usable; } // AP_DAL methods: AP_DAL_Compass(); void start_frame(); void handle_message(const log_RMGH &msg) { _RMGH = msg; } void handle_message(const log_RMGI &msg) { _RMGI[msg.instance] = msg; } private: struct log_RMGH _RMGH; struct log_RMGI _RMGI[COMPASS_MAX_INSTANCES]; };