#pragma once #include #include class AP_DAL_Beacon { public: // Beacon-like methods: uint8_t count() const { return _RBCH.count; } bool get_origin(Location &loc) const { loc.zero(); loc.lat = _RBCH.origin_lat; loc.lng = _RBCH.origin_lng; loc.alt = _RBCH.origin_alt; return _RBCH.get_origin_returncode; } // return beacon enabled bool enabled(void) const { return _RBCH.enabled; } // return beacon health bool beacon_healthy(uint8_t i) const { return _RBCI[i].healthy; } // return last update time from beacon in milliseconds uint32_t beacon_last_update_ms(uint8_t i) const { return _RBCI[i].last_update_ms; } // return distance to beacon in meters float beacon_distance(uint8_t i) const { return _RBCI[i].distance; } // return NED position of beacon in meters relative to the beacon systems origin const Vector3f &beacon_position(uint8_t i) const { return _RBCI[i].position; } // return vehicle position in NED from position estimate system's origin in meters bool get_vehicle_position_ned(Vector3f& pos, float& accuracy_estimate) const { pos = _RBCH.vehicle_position_ned; accuracy_estimate = _RBCH.accuracy_estimate; return _RBCH.get_vehicle_position_ned_returncode; } // AP_DAL methods: AP_DAL_Beacon(); AP_DAL_Beacon *beacon() { return this; } void start_frame(); void handle_message(const log_RBCH &msg) { _RBCH = msg; } void handle_message(const log_RBCI &msg) { _RBCI[msg.instance] = msg; } private: struct log_RBCH _RBCH; struct log_RBCI _RBCI[AP_BEACON_MAX_BEACONS]; };