// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- /// @file RC_Channel.h /// @brief RC_Channel manager, with EEPROM-backed storage of constants. #ifndef __RC_CHANNEL_H__ #define __RC_CHANNEL_H__ #include #include #define RC_CHANNEL_TYPE_ANGLE 0 #define RC_CHANNEL_TYPE_RANGE 1 #define RC_CHANNEL_TYPE_ANGLE_RAW 2 #define RC_MAX_CHANNELS 14 /// @class RC_Channel /// @brief Object managing one RC channel class RC_Channel { public: /// Constructor /// /// @param key EEPROM storage key for the channel trim parameters. /// @param name Optional name for the group. /// RC_Channel(uint8_t ch_out) : _high(1), _ch_out(ch_out) { AP_Param::setup_object_defaults(this, var_info); if (ch_out < RC_MAX_CHANNELS) { rc_ch[ch_out] = this; } } // used to get min/max/trim limit value based on _reverse enum LimitValue { RC_CHANNEL_LIMIT_TRIM, RC_CHANNEL_LIMIT_MIN, RC_CHANNEL_LIMIT_MAX }; // setup min and max radio values in CLI void update_min_max(); void zero_min_max(); // startup void load_eeprom(void); void save_eeprom(void); void save_trim(void); void set_type(uint8_t t); // setup the control preferences void set_range(int16_t low, int16_t high); void set_range_out(int16_t low, int16_t high); void set_angle(int16_t angle); void set_reverse(bool reverse); bool get_reverse(void) const; void set_default_dead_zone(int16_t dzone); // get the channel number uint8_t get_ch_out(void) const { return _ch_out; }; // get the center stick position expressed as a control_in value int16_t get_control_mid() const; // read input from APM_RC - create a control_in value void set_pwm(int16_t pwm); static void set_pwm_all(void); void set_pwm_no_deadzone(int16_t pwm); // return a limit PWM value uint16_t get_limit_pwm(LimitValue limit) const; // pwm is stored here int16_t radio_in; // call after first set_pwm void trim(); // did our read come in 50µs below the min? bool get_failsafe(void); // value generated from PWM int16_t control_in; int16_t control_mix(float value); // current values to the servos - degrees * 100 (approx assuming servo is -45 to 45 degrees except [3] is 0 to 100 int16_t servo_out; // generate PWM from servo_out value void calc_pwm(void); // PWM is without the offset from radio_min int16_t pwm_out; int16_t radio_out; AP_Int16 radio_min; AP_Int16 radio_trim; AP_Int16 radio_max; // includes offset from PWM //int16_t get_radio_out(void); int16_t pwm_to_angle_dz(uint16_t dead_zone); int16_t pwm_to_angle(); /* return a normalised input for a channel, in range -1 to 1, centered around the channel trim. Ignore deadzone. */ float norm_input(); /* return a normalised input for a channel, in range -1 to 1, centered around the channel trim. Take into account the deadzone */ float norm_input_dz(); uint8_t percent_input(); float norm_output(); int16_t angle_to_pwm(); int16_t pwm_to_range(); int16_t pwm_to_range_dz(uint16_t dead_zone); int16_t range_to_pwm(); void output() const; void output_trim() const; static void output_trim_all(); static void setup_failsafe_trim_all(); uint16_t read() const; void input(); void enable_out(); void disable_out(); static const struct AP_Param::GroupInfo var_info[]; static RC_Channel *rc_channel(uint8_t i); private: AP_Int8 _reverse; AP_Int16 _dead_zone; uint8_t _type; int16_t _high; int16_t _low; int16_t _high_out; int16_t _low_out; static RC_Channel *rc_ch[RC_MAX_CHANNELS]; protected: uint8_t _ch_out; }; // This is ugly, but it fixes poorly architected library #include "RC_Channel_aux.h" #endif