#pragma once #include #include #include #include "AP_AutoTune.h" #include #include #include class AP_RollController { public: AP_RollController(AP_AHRS &ahrs, const AP_Vehicle::FixedWing &parms); /* Do not allow copies */ AP_RollController(const AP_RollController &other) = delete; AP_RollController &operator=(const AP_RollController&) = delete; int32_t get_rate_out(float desired_rate, float scaler); int32_t get_servo_out(int32_t angle_err, float scaler, bool disable_integrator); void reset_I(); /* reduce the integrator, used when we have a low scale factor in a quadplane hover */ void decay_I() { // this reduces integrator by 95% over 2s _pid_info.I *= 0.995f; rate_pid.set_integrator(rate_pid.get_i() * 0.995); } void autotune_start(void); void autotune_restore(void); const AP_Logger::PID_Info& get_pid_info(void) const { return _pid_info; } static const struct AP_Param::GroupInfo var_info[]; // tuning accessors void kP(float v) { rate_pid.kP().set(v); } void kI(float v) { rate_pid.kI().set(v); } void kD(float v) { rate_pid.kD().set(v); } void kFF(float v) { rate_pid.ff().set(v); } AP_Float &kP(void) { return rate_pid.kP(); } AP_Float &kI(void) { return rate_pid.kI(); } AP_Float &kD(void) { return rate_pid.kD(); } AP_Float &kFF(void) { return rate_pid.ff(); } void convert_pid(); private: const AP_Vehicle::FixedWing &aparm; AP_AutoTune::ATGains gains; AP_AutoTune *autotune; bool failed_autotune_alloc; uint32_t _last_t; float _last_out; AC_PID rate_pid{0.08, 0.15, 0, 0.345, 0.666, 3, 7, 4, 0.02, 150, 1}; float angle_err_deg; AP_Logger::PID_Info _pid_info; int32_t _get_rate_out(float desired_rate, float scaler, bool disable_integrator); AP_AHRS &_ahrs; };