#pragma once #include #include class AP_DAL_Airspeed { public: // Airspeed-like methods: // return health status of sensor bool healthy(uint8_t i) const { return _RASI[i].healthy; } // return health status of primary sensor bool healthy() const { return healthy(get_primary()); } // return true if airspeed is enabled, and airspeed use is set bool use(uint8_t i) const { return _RASI[i].use; } bool use() const { return use(get_primary()); } // return the current airspeed in m/s float get_airspeed(uint8_t i) const { return _RASI[i].airspeed; } float get_airspeed() const { return get_airspeed(get_primary()); } // return time in ms of last update uint32_t last_update_ms(uint8_t i) const { return _RASI[i].last_update_ms; } uint32_t last_update_ms() const { return last_update_ms(get_primary()); } // get number of sensors uint8_t get_num_sensors(void) const { return _RASH.num_sensors; } // get current primary sensor uint8_t get_primary(void) const { return _RASH.primary; } // AP_DAL methods: AP_DAL_Airspeed(); void start_frame(); void handle_message(const log_RASH &msg) { _RASH = msg; } void handle_message(const log_RASI &msg) { _RASI[msg.instance] = msg; } private: struct log_RASH _RASH; struct log_RASI _RASI[AIRSPEED_MAX_SENSORS]; };