mirror of https://github.com/ArduPilot/ardupilot
656 lines
29 KiB
C++
656 lines
29 KiB
C++
/// @file RC_Channel.h
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/// @brief RC_Channel manager, with EEPROM-backed storage of constants.
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#pragma once
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#include "RC_Channel_config.h"
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#if AP_RC_CHANNEL_ENABLED
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#include <AP_Common/AP_Common.h>
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#include <AP_Param/AP_Param.h>
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#include <AP_Math/AP_Math.h>
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#include <AP_Common/Bitmask.h>
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#define NUM_RC_CHANNELS 16
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/// @class RC_Channel
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/// @brief Object managing one RC channel
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class RC_Channel {
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public:
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friend class RC_Channels;
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// Constructor
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RC_Channel(void);
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enum class ControlType {
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ANGLE = 0,
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RANGE = 1,
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};
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// setup the control preferences
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void set_range(uint16_t high);
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uint16_t get_range() const { return high_in; }
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void set_angle(uint16_t angle);
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bool get_reverse(void) const;
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void set_default_dead_zone(int16_t dzone);
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uint16_t get_dead_zone(void) const { return dead_zone; }
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// get the center stick position expressed as a control_in value
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int16_t get_control_mid() const;
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// read input from hal.rcin - create a control_in value
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bool update(void);
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// calculate an angle given dead_zone and trim. This is used by the quadplane code
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// for hover throttle
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int16_t pwm_to_angle_dz_trim(uint16_t dead_zone, uint16_t trim) const;
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// return a normalised input for a channel, in range -1 to 1,
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// centered around the channel trim. Ignore deadzone.
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float norm_input() const;
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// return a normalised input for a channel, in range -1 to 1,
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// centered around the channel trim. Take into account the deadzone
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float norm_input_dz() const;
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// return a normalised input for a channel, in range -1 to 1,
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// ignores trim and deadzone
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float norm_input_ignore_trim() const;
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// returns true if input is within deadzone of min
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bool in_min_dz() const;
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uint8_t percent_input() const;
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static const struct AP_Param::GroupInfo var_info[];
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// return true if input is within deadzone of trim
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bool in_trim_dz() const;
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int16_t get_radio_in() const { return radio_in;}
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void set_radio_in(int16_t val) {radio_in = val;}
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int16_t get_control_in() const { return control_in;}
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void set_control_in(int16_t val) { control_in = val;}
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void clear_override();
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void set_override(const uint16_t v, const uint32_t timestamp_ms);
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bool has_override() const;
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float stick_mixing(const float servo_in);
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// get control input with zero deadzone
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int16_t get_control_in_zero_dz(void) const;
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int16_t get_radio_min() const {return radio_min.get();}
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int16_t get_radio_max() const {return radio_max.get();}
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int16_t get_radio_trim() const { return radio_trim.get();}
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void set_and_save_trim() { radio_trim.set_and_save_ifchanged(radio_in);}
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// set and save trim if changed
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void set_and_save_radio_trim(int16_t val) { radio_trim.set_and_save_ifchanged(val);}
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// check if any of the trim/min/max param are configured, this would indicate that the user has done a calibration at somepoint
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bool configured() { return radio_min.configured() || radio_max.configured() || radio_trim.configured(); }
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ControlType get_type(void) const { return type_in; }
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AP_Int16 option; // e.g. activate EPM gripper / enable fence
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// auxiliary switch support
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void init_aux();
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bool read_aux();
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// Aux Switch enumeration
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enum class AUX_FUNC {
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DO_NOTHING = 0, // aux switch disabled
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FLIP = 2, // flip
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SIMPLE_MODE = 3, // change to simple mode
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RTL = 4, // change to RTL flight mode
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SAVE_TRIM = 5, // save current position as level
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SAVE_WP = 7, // save mission waypoint or RTL if in auto mode
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CAMERA_TRIGGER = 9, // trigger camera servo or relay
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RANGEFINDER = 10, // allow enabling or disabling rangefinder in flight which helps avoid surface tracking when you are far above the ground
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FENCE = 11, // allow enabling or disabling fence in flight
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RESETTOARMEDYAW = 12, // UNUSED
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SUPERSIMPLE_MODE = 13, // change to simple mode in middle, super simple at top
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ACRO_TRAINER = 14, // low = disabled, middle = leveled, high = leveled and limited
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SPRAYER = 15, // enable/disable the crop sprayer
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AUTO = 16, // change to auto flight mode
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AUTOTUNE = 17, // auto tune
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LAND = 18, // change to LAND flight mode
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GRIPPER = 19, // Operate cargo grippers low=off, middle=neutral, high=on
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PARACHUTE_ENABLE = 21, // Parachute enable/disable
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PARACHUTE_RELEASE = 22, // Parachute release
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PARACHUTE_3POS = 23, // Parachute disable, enable, release with 3 position switch
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MISSION_RESET = 24, // Reset auto mission to start from first command
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ATTCON_FEEDFWD = 25, // enable/disable the roll and pitch rate feed forward
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ATTCON_ACCEL_LIM = 26, // enable/disable the roll, pitch and yaw accel limiting
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RETRACT_MOUNT1 = 27, // Retract Mount1
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RELAY = 28, // Relay pin on/off (only supports first relay)
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LANDING_GEAR = 29, // Landing gear controller
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LOST_VEHICLE_SOUND = 30, // Play lost vehicle sound
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MOTOR_ESTOP = 31, // Emergency Stop Switch
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MOTOR_INTERLOCK = 32, // Motor On/Off switch
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BRAKE = 33, // Brake flight mode
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RELAY2 = 34, // Relay2 pin on/off
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RELAY3 = 35, // Relay3 pin on/off
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RELAY4 = 36, // Relay4 pin on/off
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THROW = 37, // change to THROW flight mode
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AVOID_ADSB = 38, // enable AP_Avoidance library
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PRECISION_LOITER = 39, // enable precision loiter
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AVOID_PROXIMITY = 40, // enable object avoidance using proximity sensors (ie. horizontal lidar)
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ARMDISARM_UNUSED = 41, // UNUSED
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SMART_RTL = 42, // change to SmartRTL flight mode
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INVERTED = 43, // enable inverted flight
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WINCH_ENABLE = 44, // winch enable/disable
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WINCH_CONTROL = 45, // winch control
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RC_OVERRIDE_ENABLE = 46, // enable RC Override
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USER_FUNC1 = 47, // user function #1
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USER_FUNC2 = 48, // user function #2
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USER_FUNC3 = 49, // user function #3
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LEARN_CRUISE = 50, // learn cruise throttle (Rover)
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MANUAL = 51, // manual mode
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ACRO = 52, // acro mode
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STEERING = 53, // steering mode
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HOLD = 54, // hold mode
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GUIDED = 55, // guided mode
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LOITER = 56, // loiter mode
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FOLLOW = 57, // follow mode
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CLEAR_WP = 58, // clear waypoints
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SIMPLE = 59, // simple mode
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ZIGZAG = 60, // zigzag mode
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ZIGZAG_SaveWP = 61, // zigzag save waypoint
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COMPASS_LEARN = 62, // learn compass offsets
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SAILBOAT_TACK = 63, // rover sailboat tack
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REVERSE_THROTTLE = 64, // reverse throttle input
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GPS_DISABLE = 65, // disable GPS for testing
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RELAY5 = 66, // Relay5 pin on/off
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RELAY6 = 67, // Relay6 pin on/off
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STABILIZE = 68, // stabilize mode
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POSHOLD = 69, // poshold mode
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ALTHOLD = 70, // althold mode
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FLOWHOLD = 71, // flowhold mode
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CIRCLE = 72, // circle mode
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DRIFT = 73, // drift mode
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SAILBOAT_MOTOR_3POS = 74, // Sailboat motoring 3pos
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SURFACE_TRACKING = 75, // Surface tracking upwards or downwards
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STANDBY = 76, // Standby mode
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TAKEOFF = 77, // takeoff
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RUNCAM_CONTROL = 78, // control RunCam device
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RUNCAM_OSD_CONTROL = 79, // control RunCam OSD
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VISODOM_ALIGN = 80, // align visual odometry camera's attitude to AHRS
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DISARM = 81, // disarm vehicle
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Q_ASSIST = 82, // disable, enable and force Q assist
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ZIGZAG_Auto = 83, // zigzag auto switch
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AIRMODE = 84, // enable / disable airmode for copter
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GENERATOR = 85, // generator control
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TER_DISABLE = 86, // disable terrain following in CRUISE/FBWB modes
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CROW_SELECT = 87, // select CROW mode for diff spoilers;high disables,mid forces progressive
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SOARING = 88, // three-position switch to set soaring mode
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LANDING_FLARE = 89, // force flare, throttle forced idle, pitch to LAND_PITCH_DEG, tilts up
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EKF_POS_SOURCE = 90, // change EKF position source between primary, secondary and tertiary sources
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ARSPD_CALIBRATE= 91, // calibrate airspeed ratio
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FBWA = 92, // Fly-By-Wire-A
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RELOCATE_MISSION = 93, // used in separate branch MISSION_RELATIVE
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VTX_POWER = 94, // VTX power level
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FBWA_TAILDRAGGER = 95, // enables FBWA taildragger takeoff mode. Once this feature is enabled it will stay enabled until the aircraft goes above TKOFF_TDRAG_SPD1 airspeed, changes mode, or the pitch goes above the initial pitch when this is engaged or goes below 0 pitch. When enabled the elevator will be forced to TKOFF_TDRAG_ELEV. This option allows for easier takeoffs on taildraggers in FBWA mode, and also makes it easier to test auto-takeoff steering handling in FBWA.
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MODE_SWITCH_RESET = 96, // trigger re-reading of mode switch
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WIND_VANE_DIR_OFSSET= 97, // flag for windvane direction offset input, used with windvane type 2
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TRAINING = 98, // mode training
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AUTO_RTL = 99, // AUTO RTL via DO_LAND_START
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// entries from 100-150 are expected to be developer
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// options used for testing
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KILL_IMU1 = 100, // disable first IMU (for IMU failure testing)
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KILL_IMU2 = 101, // disable second IMU (for IMU failure testing)
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CAM_MODE_TOGGLE = 102, // Momentary switch to cycle camera modes
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EKF_LANE_SWITCH = 103, // trigger lane switch attempt
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EKF_YAW_RESET = 104, // trigger yaw reset attempt
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GPS_DISABLE_YAW = 105, // disable GPS yaw for testing
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DISABLE_AIRSPEED_USE = 106, // equivalent to AIRSPEED_USE 0
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FW_AUTOTUNE = 107, // fixed wing auto tune
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QRTL = 108, // QRTL mode
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CUSTOM_CONTROLLER = 109, // use Custom Controller
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KILL_IMU3 = 110, // disable third IMU (for IMU failure testing)
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LOWEHEISER_STARTER = 111, // allows for manually running starter
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AHRS_TYPE = 112, // change AHRS_EKF_TYPE
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// if you add something here, make sure to update the documentation of the parameter in RC_Channel.cpp!
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// also, if you add an option >255, you will need to fix duplicate_options_exist
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// options 150-199 continue user rc switch options
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CRUISE = 150, // CRUISE mode
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TURTLE = 151, // Turtle mode - flip over after crash
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SIMPLE_HEADING_RESET = 152, // reset simple mode reference heading to current
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ARMDISARM = 153, // arm or disarm vehicle
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ARMDISARM_AIRMODE = 154, // arm or disarm vehicle enabling airmode
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TRIM_TO_CURRENT_SERVO_RC = 155, // trim to current servo and RC
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TORQEEDO_CLEAR_ERR = 156, // clear torqeedo error
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EMERGENCY_LANDING_EN = 157, //Force long FS action to FBWA for landing out of range
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OPTFLOW_CAL = 158, // optical flow calibration
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FORCEFLYING = 159, // enable or disable land detection for GPS based manual modes preventing land detection and maintainting set_throttle_mix_max
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WEATHER_VANE_ENABLE = 160, // enable/disable weathervaning
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TURBINE_START = 161, // initialize turbine start sequence
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FFT_NOTCH_TUNE = 162, // FFT notch tuning function
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MOUNT_LOCK = 163, // Mount yaw lock vs follow
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LOG_PAUSE = 164, // Pauses logging if under logging rate control
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ARM_EMERGENCY_STOP = 165, // ARM on high, MOTOR_ESTOP on low
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CAMERA_REC_VIDEO = 166, // start recording on high, stop recording on low
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CAMERA_ZOOM = 167, // camera zoom high = zoom in, middle = hold, low = zoom out
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CAMERA_MANUAL_FOCUS = 168,// camera manual focus. high = long shot, middle = stop focus, low = close shot
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CAMERA_AUTO_FOCUS = 169, // camera auto focus
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QSTABILIZE = 170, // QuadPlane QStabilize mode
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MAG_CAL = 171, // Calibrate compasses (disarmed only)
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BATTERY_MPPT_ENABLE = 172,// Battery MPPT Power enable. high = ON, mid = auto (controlled by mppt/batt driver), low = OFF. This effects all MPPTs.
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PLANE_AUTO_LANDING_ABORT = 173, // Abort Glide-slope or VTOL landing during payload place or do_land type mission items
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CAMERA_IMAGE_TRACKING = 174, // camera image tracking
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CAMERA_LENS = 175, // camera lens selection
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VFWD_THR_OVERRIDE = 176, // force enabled VTOL forward throttle method
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MOUNT_LRF_ENABLE = 177, // mount LRF enable/disable
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FLIGHTMODE_PAUSE = 178, // e.g. pause movement towards waypoint
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// inputs from 200 will eventually used to replace RCMAP
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ROLL = 201, // roll input
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PITCH = 202, // pitch input
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THROTTLE = 203, // throttle pilot input
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YAW = 204, // yaw pilot input
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MAINSAIL = 207, // mainsail input
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FLAP = 208, // flap input
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FWD_THR = 209, // VTOL manual forward throttle
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AIRBRAKE = 210, // manual airbrake control
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WALKING_HEIGHT = 211, // walking robot height input
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MOUNT1_ROLL = 212, // mount1 roll input
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MOUNT1_PITCH = 213, // mount1 pitch input
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MOUNT1_YAW = 214, // mount1 yaw input
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MOUNT2_ROLL = 215, // mount2 roll input
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MOUNT2_PITCH = 216, // mount3 pitch input
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MOUNT2_YAW = 217, // mount4 yaw input
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LOWEHEISER_THROTTLE= 218, // allows for throttle on slider
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// inputs 248-249 are reserved for the Skybrush fork at
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// https://github.com/skybrush-io/ardupilot
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// inputs for the use of onboard lua scripting
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SCRIPTING_1 = 300,
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SCRIPTING_2 = 301,
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SCRIPTING_3 = 302,
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SCRIPTING_4 = 303,
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SCRIPTING_5 = 304,
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SCRIPTING_6 = 305,
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SCRIPTING_7 = 306,
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SCRIPTING_8 = 307,
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// this must be higher than any aux function above
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AUX_FUNCTION_MAX = 308,
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};
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// auxiliary switch handling (n.b.: we store this as 2-bits!):
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enum class AuxSwitchPos : uint8_t {
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LOW, // indicates auxiliary switch is in the low position (pwm <1200)
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MIDDLE, // indicates auxiliary switch is in the middle position (pwm >1200, <1800)
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HIGH // indicates auxiliary switch is in the high position (pwm >1800)
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};
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enum class AuxFuncTriggerSource : uint8_t {
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INIT,
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RC,
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BUTTON,
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MAVLINK,
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MISSION,
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SCRIPTING,
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};
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AuxSwitchPos get_aux_switch_pos() const;
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// wrapper function around do_aux_function which allows us to log
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bool run_aux_function(AUX_FUNC ch_option, AuxSwitchPos pos, AuxFuncTriggerSource source);
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#if AP_RC_CHANNEL_AUX_FUNCTION_STRINGS_ENABLED
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const char *string_for_aux_function(AUX_FUNC function) const;
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const char *string_for_aux_pos(AuxSwitchPos pos) const;
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#endif
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// pwm value under which we consider that Radio value is invalid
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static const uint16_t RC_MIN_LIMIT_PWM = 800;
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// pwm value above which we consider that Radio value is invalid
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static const uint16_t RC_MAX_LIMIT_PWM = 2200;
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// pwm value above which we condider that Radio min value is invalid
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static const uint16_t RC_CALIB_MIN_LIMIT_PWM = 1300;
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// pwm value under which we condider that Radio max value is invalid
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static const uint16_t RC_CALIB_MAX_LIMIT_PWM = 1700;
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// pwm value above which the switch/button will be invoked:
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static const uint16_t AUX_SWITCH_PWM_TRIGGER_HIGH = 1800;
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// pwm value below which the switch/button will be disabled:
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static const uint16_t AUX_SWITCH_PWM_TRIGGER_LOW = 1200;
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// pwm value above which the option will be invoked:
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static const uint16_t AUX_PWM_TRIGGER_HIGH = 1700;
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// pwm value below which the option will be disabled:
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static const uint16_t AUX_PWM_TRIGGER_LOW = 1300;
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protected:
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virtual void init_aux_function(AUX_FUNC ch_option, AuxSwitchPos);
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// virtual function to be overridden my subclasses
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virtual bool do_aux_function(AUX_FUNC ch_option, AuxSwitchPos);
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void do_aux_function_armdisarm(const AuxSwitchPos ch_flag);
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void do_aux_function_avoid_adsb(const AuxSwitchPos ch_flag);
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void do_aux_function_avoid_proximity(const AuxSwitchPos ch_flag);
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void do_aux_function_camera_trigger(const AuxSwitchPos ch_flag);
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bool do_aux_function_record_video(const AuxSwitchPos ch_flag);
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bool do_aux_function_camera_zoom(const AuxSwitchPos ch_flag);
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bool do_aux_function_camera_manual_focus(const AuxSwitchPos ch_flag);
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bool do_aux_function_camera_auto_focus(const AuxSwitchPos ch_flag);
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bool do_aux_function_camera_image_tracking(const AuxSwitchPos ch_flag);
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bool do_aux_function_camera_lens(const AuxSwitchPos ch_flag);
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void do_aux_function_runcam_control(const AuxSwitchPos ch_flag);
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void do_aux_function_runcam_osd_control(const AuxSwitchPos ch_flag);
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void do_aux_function_fence(const AuxSwitchPos ch_flag);
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void do_aux_function_clear_wp(const AuxSwitchPos ch_flag);
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void do_aux_function_gripper(const AuxSwitchPos ch_flag);
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void do_aux_function_lost_vehicle_sound(const AuxSwitchPos ch_flag);
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void do_aux_function_mission_reset(const AuxSwitchPos ch_flag);
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void do_aux_function_rc_override_enable(const AuxSwitchPos ch_flag);
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void do_aux_function_relay(uint8_t relay, bool val);
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void do_aux_function_sprayer(const AuxSwitchPos ch_flag);
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void do_aux_function_generator(const AuxSwitchPos ch_flag);
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void do_aux_function_fft_notch_tune(const AuxSwitchPos ch_flag);
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typedef int8_t modeswitch_pos_t;
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virtual void mode_switch_changed(modeswitch_pos_t new_pos) {
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// no action by default (e.g. Tracker, Sub, who do their own thing)
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};
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private:
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// pwm is stored here
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int16_t radio_in;
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// value generated from PWM normalised to configured scale
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int16_t control_in;
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AP_Int16 radio_min;
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AP_Int16 radio_trim;
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AP_Int16 radio_max;
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AP_Int8 reversed;
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AP_Int16 dead_zone;
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ControlType type_in;
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int16_t high_in;
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// the input channel this corresponds to
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uint8_t ch_in;
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// overrides
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uint16_t override_value;
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uint32_t last_override_time;
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int16_t pwm_to_angle() const;
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int16_t pwm_to_angle_dz(uint16_t dead_zone) const;
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int16_t pwm_to_range() const;
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int16_t pwm_to_range_dz(uint16_t dead_zone) const;
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bool read_3pos_switch(AuxSwitchPos &ret) const WARN_IF_UNUSED;
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bool read_6pos_switch(int8_t& position) WARN_IF_UNUSED;
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// Structure used to detect and debounce switch changes
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struct {
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int8_t debounce_position = -1;
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int8_t current_position = -1;
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uint32_t last_edge_time_ms;
|
|
bool initialised;
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|
} switch_state;
|
|
|
|
void reset_mode_switch();
|
|
void read_mode_switch();
|
|
bool debounce_completed(int8_t position);
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|
// returns true if the first time we successfully read the
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|
// channel's three-position-switch position we should record that
|
|
// position as the current position *without* executing the
|
|
// associated auxiliary function. e.g. do not attempt to arm a
|
|
// vehicle when the user turns on their transmitter with the arm
|
|
// switch high!
|
|
bool init_position_on_first_radio_read(AUX_FUNC func) const;
|
|
|
|
#if AP_RC_CHANNEL_AUX_FUNCTION_STRINGS_ENABLED
|
|
// Structure to lookup switch change announcements
|
|
struct LookupTable{
|
|
AUX_FUNC option;
|
|
const char *announcement;
|
|
};
|
|
|
|
static const LookupTable lookuptable[];
|
|
#endif
|
|
};
|
|
|
|
|
|
/*
|
|
class RC_Channels. Hold the full set of RC_Channel objects
|
|
*/
|
|
class RC_Channels {
|
|
public:
|
|
friend class SRV_Channels;
|
|
friend class RC_Channel;
|
|
// constructor
|
|
RC_Channels(void);
|
|
|
|
void init(void);
|
|
|
|
// get singleton instance
|
|
static RC_Channels *get_singleton() {
|
|
return _singleton;
|
|
}
|
|
|
|
static const struct AP_Param::GroupInfo var_info[];
|
|
|
|
// compatability functions for Plane:
|
|
static uint16_t get_radio_in(const uint8_t chan) {
|
|
RC_Channel *c = _singleton->channel(chan);
|
|
if (c == nullptr) {
|
|
return 0;
|
|
}
|
|
return c->get_radio_in();
|
|
}
|
|
static RC_Channel *rc_channel(const uint8_t chan) {
|
|
return _singleton->channel(chan);
|
|
}
|
|
//end compatability functions for Plane
|
|
|
|
// this function is implemented in the child class in the vehicle
|
|
// code
|
|
virtual RC_Channel *channel(uint8_t chan) = 0;
|
|
// helper used by scripting to convert the above function from 0 to 1 indexeing
|
|
// range is checked correctly by the underlying channel function
|
|
RC_Channel *lua_rc_channel(const uint8_t chan) {
|
|
return channel(chan -1);
|
|
}
|
|
|
|
uint8_t get_radio_in(uint16_t *chans, const uint8_t num_channels); // reads a block of chanel radio_in values starting from channel 0
|
|
// returns the number of valid channels
|
|
|
|
static uint8_t get_valid_channel_count(void); // returns the number of valid channels in the last read
|
|
static int16_t get_receiver_rssi(void); // returns [0, 255] for receiver RSSI (0 is no link) if present, otherwise -1
|
|
static int16_t get_receiver_link_quality(void); // returns 0-100 % of last 100 packets received at receiver are valid
|
|
bool read_input(void); // returns true if new input has been read in
|
|
static void clear_overrides(void); // clears any active overrides
|
|
static bool receiver_bind(const int dsmMode); // puts the receiver in bind mode if present, returns true if success
|
|
static void set_override(const uint8_t chan, const int16_t value, const uint32_t timestamp_ms = 0); // set a channels override value
|
|
static bool has_active_overrides(void); // returns true if there are overrides applied that are valid
|
|
|
|
// returns a mask indicating which channels have overrides. Bit 0
|
|
// is RC channel 1. Beware this is not a cheap call.
|
|
uint16_t get_override_mask() const;
|
|
|
|
class RC_Channel *find_channel_for_option(const RC_Channel::AUX_FUNC option);
|
|
bool duplicate_options_exist();
|
|
RC_Channel::AuxSwitchPos get_channel_pos(const uint8_t rcmapchan) const;
|
|
void convert_options(const RC_Channel::AUX_FUNC old_option, const RC_Channel::AUX_FUNC new_option);
|
|
|
|
void init_aux_all();
|
|
void read_aux_all();
|
|
|
|
// mode switch handling
|
|
void reset_mode_switch();
|
|
virtual void read_mode_switch();
|
|
|
|
virtual bool in_rc_failsafe() const { return true; };
|
|
virtual bool has_valid_input() const { return false; };
|
|
|
|
virtual RC_Channel *get_arming_channel(void) const { return nullptr; };
|
|
|
|
bool gcs_overrides_enabled() const { return _gcs_overrides_enabled; }
|
|
void set_gcs_overrides_enabled(bool enable) {
|
|
_gcs_overrides_enabled = enable;
|
|
if (!_gcs_overrides_enabled) {
|
|
clear_overrides();
|
|
}
|
|
}
|
|
|
|
enum class Option {
|
|
IGNORE_RECEIVER = (1U << 0), // RC receiver modules
|
|
IGNORE_OVERRIDES = (1U << 1), // MAVLink overrides
|
|
IGNORE_FAILSAFE = (1U << 2), // ignore RC failsafe bits
|
|
FPORT_PAD = (1U << 3), // pad fport telem output
|
|
LOG_RAW_DATA = (1U << 4), // log rc input bytes
|
|
ARMING_CHECK_THROTTLE = (1U << 5), // run an arming check for neutral throttle
|
|
ARMING_SKIP_CHECK_RPY = (1U << 6), // skip the an arming checks for the roll/pitch/yaw channels
|
|
ALLOW_SWITCH_REV = (1U << 7), // honor the reversed flag on switches
|
|
CRSF_CUSTOM_TELEMETRY = (1U << 8), // use passthrough data for crsf telemetry
|
|
SUPPRESS_CRSF_MESSAGE = (1U << 9), // suppress CRSF mode/rate message for ELRS systems
|
|
MULTI_RECEIVER_SUPPORT = (1U << 10), // allow multiple receivers
|
|
USE_CRSF_LQ_AS_RSSI = (1U << 11), // returns CRSF link quality as RSSI value, instead of RSSI
|
|
CRSF_FM_DISARM_STAR = (1U << 12), // when disarmed, add a star at the end of the flight mode in CRSF telemetry
|
|
ELRS_420KBAUD = (1U << 13), // use 420kbaud for ELRS protocol
|
|
};
|
|
|
|
bool option_is_enabled(Option option) const {
|
|
return _options & uint32_t(option);
|
|
}
|
|
|
|
virtual bool arming_check_throttle() const {
|
|
return option_is_enabled(Option::ARMING_CHECK_THROTTLE);
|
|
}
|
|
|
|
// returns true if overrides should time out. If true is returned
|
|
// then returned_timeout_ms will contain the timeout in
|
|
// milliseconds, with 0 meaning overrides are disabled.
|
|
bool get_override_timeout_ms(uint32_t &returned_timeout_ms) const {
|
|
const float value = _override_timeout.get();
|
|
if (is_positive(value)) {
|
|
returned_timeout_ms = uint32_t(value * 1e3f);
|
|
return true;
|
|
}
|
|
if (is_zero(value)) {
|
|
returned_timeout_ms = 0;
|
|
return true;
|
|
}
|
|
// overrides will not time out
|
|
return false;
|
|
}
|
|
|
|
// get mask of enabled protocols
|
|
uint32_t enabled_protocols() const;
|
|
|
|
// returns true if we have had a direct detach RC receiver, does not include overrides
|
|
bool has_had_rc_receiver() const { return _has_had_rc_receiver; }
|
|
|
|
// returns true if we have had an override on any channel
|
|
bool has_had_rc_override() const { return _has_had_override; }
|
|
|
|
/*
|
|
get the RC input PWM value given a channel number. Note that
|
|
channel numbers start at 1, as this API is designed for use in
|
|
LUA
|
|
*/
|
|
bool get_pwm(uint8_t channel, uint16_t &pwm) const;
|
|
|
|
uint32_t last_input_ms() const { return last_update_ms; };
|
|
|
|
// method for other parts of the system (e.g. Button and mavlink)
|
|
// to trigger auxiliary functions
|
|
bool run_aux_function(RC_Channel::AUX_FUNC ch_option, RC_Channel::AuxSwitchPos pos, RC_Channel::AuxFuncTriggerSource source) {
|
|
return rc_channel(0)->run_aux_function(ch_option, pos, source);
|
|
}
|
|
|
|
// check if flight mode channel is assigned RC option
|
|
// return true if assigned
|
|
bool flight_mode_channel_conflicts_with_rc_option() const;
|
|
|
|
// flight_mode_channel_number must be overridden in vehicle specific code
|
|
virtual int8_t flight_mode_channel_number() const = 0;
|
|
|
|
// set and get calibrating flag, stops arming if true
|
|
void calibrating(bool b) { gcs_is_calibrating = b; }
|
|
bool calibrating() { return gcs_is_calibrating; }
|
|
|
|
#if AP_SCRIPTING_ENABLED
|
|
// get last aux cached value for scripting. Returns false if never set, otherwise 0,1,2
|
|
bool get_aux_cached(RC_Channel::AUX_FUNC aux_fn, uint8_t &pos);
|
|
#endif
|
|
|
|
// returns true if we've ever seen RC input, via overrides or via
|
|
// AP_RCProtocol
|
|
bool has_ever_seen_rc_input() const {
|
|
return _has_ever_seen_rc_input;
|
|
}
|
|
|
|
// get failsafe timeout in milliseconds
|
|
uint32_t get_fs_timeout_ms() const { return MAX(_fs_timeout * 1000, 100); }
|
|
|
|
protected:
|
|
|
|
void new_override_received() {
|
|
has_new_overrides = true;
|
|
_has_had_override = true;
|
|
}
|
|
|
|
private:
|
|
static RC_Channels *_singleton;
|
|
// this static arrangement is to avoid static pointers in AP_Param tables
|
|
static RC_Channel *channels;
|
|
|
|
uint32_t last_update_ms;
|
|
bool has_new_overrides;
|
|
bool _has_had_rc_receiver; // true if we have had a direct detach RC receiver, does not include overrides
|
|
bool _has_had_override; // true if we have had an override on any channel
|
|
|
|
AP_Float _override_timeout;
|
|
AP_Int32 _options;
|
|
AP_Int32 _protocols;
|
|
AP_Float _fs_timeout;
|
|
|
|
// set to true if we see overrides or other RC input
|
|
bool _has_ever_seen_rc_input;
|
|
|
|
RC_Channel *flight_mode_channel() const;
|
|
|
|
// Allow override by default at start
|
|
bool _gcs_overrides_enabled = true;
|
|
|
|
// true if GCS is performing a RC calibration
|
|
bool gcs_is_calibrating;
|
|
|
|
#if AP_SCRIPTING_ENABLED
|
|
// bitmask of last aux function value, 2 bits per function
|
|
// value 0 means never set, otherwise level+1
|
|
HAL_Semaphore aux_cache_sem;
|
|
Bitmask<unsigned(RC_Channel::AUX_FUNC::AUX_FUNCTION_MAX)*2> aux_cached;
|
|
|
|
void set_aux_cached(RC_Channel::AUX_FUNC aux_fn, RC_Channel::AuxSwitchPos pos);
|
|
#endif
|
|
};
|
|
|
|
RC_Channels &rc();
|
|
|
|
#endif // AP_RC_CHANNEL_ENABLED
|