/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- #ifndef __AP_BARO_H__ #define __AP_BARO_H__ #include #include #include class AP_Baro { public: bool healthy; AP_Baro() { } virtual bool init()=0; virtual uint8_t read() = 0; virtual float get_pressure() = 0; virtual float get_temperature() = 0; virtual int32_t get_raw_pressure() = 0; virtual int32_t get_raw_temp() = 0; // calibrate the barometer. This must be called on startup if the // altitude/climb_rate/acceleration interfaces are ever used // the callback is a delay() like routine void calibrate(); // get current altitude in meters relative to altitude at the time // of the last calibrate() call float get_altitude(void); // return how many pressure samples were used to obtain // the last pressure reading uint8_t get_pressure_samples(void) { return _pressure_samples; } // get current climb rate in meters/s. A positive number means // going up float get_climb_rate(void); // the ground values are only valid after calibration float get_ground_temperature(void) { return _ground_temperature.get(); } float get_ground_pressure(void) { return _ground_pressure.get(); } // get last time sample was taken uint32_t get_last_update() { return _last_update; }; static const struct AP_Param::GroupInfo var_info[]; protected: uint32_t _last_update; uint8_t _pressure_samples; private: AP_Float _ground_temperature; AP_Float _ground_pressure; float _altitude; uint32_t _last_altitude_t; DerivativeFilterFloat_Size7 _climb_rate_filter; }; #include "AP_Baro_MS5611.h" #include "AP_Baro_BMP085.h" #include "AP_Baro_BMP085_hil.h" #endif // __AP_BARO_H__