mirror of https://github.com/ArduPilot/ardupilot
696 lines
26 KiB
C++
696 lines
26 KiB
C++
/*
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control of servo output ranges, trim and servo reversal. This can
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optionally be used to provide separation of input and output channel
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ranges so that RCn_MIN, RCn_MAX, RCn_TRIM and RCn_REV only apply to
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the input side of RC_Channel
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It works by running servo output calculations as normal, then
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re-mapping the output according to the servo MIN/MAX/TRIM/REV from
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this object
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Only 4 channels of ranges are defined as those match the input
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channels for R/C sticks
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*/
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#pragma once
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#include <AP_HAL/AP_HAL.h>
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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_Common/Bitmask.h>
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#include <AP_Volz_Protocol/AP_Volz_Protocol.h>
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#include <AP_RobotisServo/AP_RobotisServo.h>
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#include <AP_SBusOut/AP_SBusOut.h>
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#include <AP_BLHeli/AP_BLHeli.h>
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#include <AP_FETtecOneWire/AP_FETtecOneWire.h>
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#include "SRV_Channel_config.h"
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static_assert(NUM_SERVO_CHANNELS <= 32, "More than 32 servos not supported");
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class SRV_Channels;
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/*
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class SRV_Channel. The class SRV_Channels contains an array of
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SRV_Channel objects. This is done to fit within the AP_Param limit
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of 64 parameters per object.
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*/
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class SRV_Channel {
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public:
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friend class SRV_Channels;
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// constructor
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SRV_Channel(void);
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static const struct AP_Param::GroupInfo var_info[];
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typedef enum
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{
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k_GPIO = -1, ///< used as GPIO pin (input or output)
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k_none = 0, ///< general use PWM output used by do-set-servo commands and lua scripts
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k_manual = 1, ///< manual, just pass-thru the RC in signal
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k_flap = 2, ///< flap
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k_flap_auto = 3, ///< flap automated
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k_aileron = 4, ///< aileron
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k_unused1 = 5, ///< unused function
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k_mount_pan = 6, ///< mount yaw (pan)
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k_mount_tilt = 7, ///< mount pitch (tilt)
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k_mount_roll = 8, ///< mount roll
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k_mount_open = 9, ///< mount open (deploy) / close (retract)
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k_cam_trigger = 10, ///< camera trigger
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k_egg_drop = 11, ///< egg drop, deprecated
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k_mount2_pan = 12, ///< mount2 yaw (pan)
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k_mount2_tilt = 13, ///< mount2 pitch (tilt)
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k_mount2_roll = 14, ///< mount2 roll
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k_mount2_open = 15, ///< mount2 open (deploy) / close (retract)
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k_dspoilerLeft1 = 16, ///< differential spoiler 1 (left wing)
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k_dspoilerRight1 = 17, ///< differential spoiler 1 (right wing)
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k_aileron_with_input = 18, ///< aileron, with rc input, deprecated
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k_elevator = 19, ///< elevator
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k_elevator_with_input = 20, ///< elevator, with rc input, deprecated
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k_rudder = 21, ///< secondary rudder channel
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k_sprayer_pump = 22, ///< crop sprayer pump channel
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k_sprayer_spinner = 23, ///< crop sprayer spinner channel
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k_flaperon_left = 24, ///< flaperon, left wing
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k_flaperon_right = 25, ///< flaperon, right wing
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k_steering = 26, ///< ground steering, used to separate from rudder
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k_parachute_release = 27, ///< parachute release
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k_gripper = 28, ///< gripper
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k_landing_gear_control = 29, ///< landing gear controller
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k_engine_run_enable = 30, ///< engine kill switch, used for gas airplanes and helicopters
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k_heli_rsc = 31, ///< helicopter RSC output
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k_heli_tail_rsc = 32, ///< helicopter tail RSC output
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k_motor1 = 33, ///< these allow remapping of copter motors
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k_motor2 = 34,
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k_motor3 = 35,
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k_motor4 = 36,
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k_motor5 = 37,
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k_motor6 = 38,
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k_motor7 = 39,
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k_motor8 = 40,
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k_motor_tilt = 41, ///< tiltrotor motor tilt control
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k_generator_control = 42, ///< state control for generator
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k_tiltMotorRear = 45, ///<vectored thrust, rear tilt
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k_tiltMotorRearLeft = 46, ///<vectored thrust, rear left tilt
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k_tiltMotorRearRight = 47, ///<vectored thrust, rear right tilt
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k_rcin1 = 51, ///< these are for pass-thru from arbitrary rc inputs
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k_rcin2 = 52,
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k_rcin3 = 53,
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k_rcin4 = 54,
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k_rcin5 = 55,
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k_rcin6 = 56,
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k_rcin7 = 57,
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k_rcin8 = 58,
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k_rcin9 = 59,
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k_rcin10 = 60,
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k_rcin11 = 61,
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k_rcin12 = 62,
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k_rcin13 = 63,
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k_rcin14 = 64,
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k_rcin15 = 65,
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k_rcin16 = 66,
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k_ignition = 67,
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k_choke = 68, /// not used
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k_starter = 69,
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k_throttle = 70,
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k_tracker_yaw = 71, ///< antennatracker yaw
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k_tracker_pitch = 72, ///< antennatracker pitch
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k_throttleLeft = 73,
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k_throttleRight = 74,
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k_tiltMotorLeft = 75, ///< vectored thrust, left tilt
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k_tiltMotorRight = 76, ///< vectored thrust, right tilt
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k_elevon_left = 77,
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k_elevon_right = 78,
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k_vtail_left = 79,
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k_vtail_right = 80,
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k_boost_throttle = 81, ///< vertical booster throttle
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k_motor9 = 82,
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k_motor10 = 83,
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k_motor11 = 84,
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k_motor12 = 85,
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k_dspoilerLeft2 = 86, ///< differential spoiler 2 (left wing)
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k_dspoilerRight2 = 87, ///< differential spoiler 2 (right wing)
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k_winch = 88,
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k_mainsail_sheet = 89, ///< Main Sail control via sheet
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k_cam_iso = 90,
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k_cam_aperture = 91,
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k_cam_focus = 92,
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k_cam_shutter_speed = 93,
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k_scripting1 = 94, ///< Scripting related outputs
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k_scripting2 = 95,
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k_scripting3 = 96,
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k_scripting4 = 97,
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k_scripting5 = 98,
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k_scripting6 = 99,
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k_scripting7 = 100,
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k_scripting8 = 101,
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k_scripting9 = 102,
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k_scripting10 = 103,
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k_scripting11 = 104,
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k_scripting12 = 105,
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k_scripting13 = 106,
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k_scripting14 = 107,
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k_scripting15 = 108,
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k_scripting16 = 109,
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k_airbrake = 110,
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k_LED_neopixel1 = 120,
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k_LED_neopixel2 = 121,
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k_LED_neopixel3 = 122,
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k_LED_neopixel4 = 123,
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k_roll_out = 124,
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k_pitch_out = 125,
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k_thrust_out = 126,
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k_yaw_out = 127,
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k_wingsail_elevator = 128,
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k_ProfiLED_1 = 129,
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k_ProfiLED_2 = 130,
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k_ProfiLED_3 = 131,
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k_ProfiLED_Clock = 132,
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k_winch_clutch = 133,
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k_min = 134, // always outputs SERVOn_MIN
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k_trim = 135, // always outputs SERVOn_TRIM
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k_max = 136, // always outputs SERVOn_MAX
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k_mast_rotation = 137,
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k_alarm = 138,
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k_alarm_inverted = 139,
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k_rcin1_mapped = 140,
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k_rcin2_mapped = 141,
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k_rcin3_mapped = 142,
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k_rcin4_mapped = 143,
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k_rcin5_mapped = 144,
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k_rcin6_mapped = 145,
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k_rcin7_mapped = 146,
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k_rcin8_mapped = 147,
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k_rcin9_mapped = 148,
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k_rcin10_mapped = 149,
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k_rcin11_mapped = 150,
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k_rcin12_mapped = 151,
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k_rcin13_mapped = 152,
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k_rcin14_mapped = 153,
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k_rcin15_mapped = 154,
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k_rcin16_mapped = 155,
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k_lift_release = 156,
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k_nr_aux_servo_functions ///< This must be the last enum value (only add new values _before_ this one)
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} Aux_servo_function_t;
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// check if a function is valid for indexing into functions
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static bool valid_function(Aux_servo_function_t fn) {
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return fn >= k_none && fn < k_nr_aux_servo_functions;
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}
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bool valid_function(void) const {
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return valid_function(function);
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}
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// used to get min/max/trim limit value based on reverse
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enum class Limit {
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TRIM,
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MIN,
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MAX,
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ZERO_PWM
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};
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// set the output value as a pwm value
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void set_output_pwm(uint16_t pwm, bool force = false);
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// get the output value as a pwm value
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uint16_t get_output_pwm(void) const { return output_pwm; }
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// set normalised output from -1 to 1, assuming 0 at mid point of servo_min/servo_max
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void set_output_norm(float value);
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// set angular range of scaled output
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void set_angle(int16_t angle);
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// set range of scaled output. Low is always zero
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void set_range(uint16_t high);
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// return true if the channel is reversed
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bool get_reversed(void) const {
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return reversed != 0;
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}
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// set MIN/MAX parameters
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void set_output_min(uint16_t pwm) {
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servo_min.set(pwm);
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}
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void set_output_max(uint16_t pwm) {
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servo_max.set(pwm);
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}
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// get MIN/MAX/TRIM parameters
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uint16_t get_output_min(void) const {
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return servo_min;
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}
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uint16_t get_output_max(void) const {
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return servo_max;
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}
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uint16_t get_trim(void) const {
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return servo_trim;
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}
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// return true if function is for a multicopter motor
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static bool is_motor(SRV_Channel::Aux_servo_function_t function);
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// return true if function is for anything that should be stopped in a e-stop situation, ie is dangerous
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static bool should_e_stop(SRV_Channel::Aux_servo_function_t function);
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// return true if function is for a control surface
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static bool is_control_surface(SRV_Channel::Aux_servo_function_t function);
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// return the function of a channel
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SRV_Channel::Aux_servo_function_t get_function(void) const {
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return (SRV_Channel::Aux_servo_function_t)function.get();
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}
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// return the motor number of a channel, or -1 if not a motor
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int8_t get_motor_num(void) const;
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// set and save function for channel. Used in upgrade of parameters in plane
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void function_set_and_save(SRV_Channel::Aux_servo_function_t f) {
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function.set_and_save(int8_t(f));
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}
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// set and save function for reversed. Used in upgrade of parameters in plane
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void reversed_set_and_save_ifchanged(bool r) {
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reversed.set_and_save_ifchanged(r?1:0);
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}
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// return true if the SERVOn_FUNCTION has been configured in
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// either storage or a defaults file. This is used for upgrade of
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// parameters in plane
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bool function_configured(void) const {
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return function.configured();
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}
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// convert a scaled value (either range or angle depending on setup) to a pwm
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uint16_t pwm_from_scaled_value(float scaled_value) const;
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// specify that small rc input changes should be ignored during passthrough
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// used by DO_SET_SERVO commands
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void ignore_small_rcin_changes() { ign_small_rcin_changes = true; }
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private:
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AP_Int16 servo_min;
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AP_Int16 servo_max;
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AP_Int16 servo_trim;
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// reversal, following convention that 1 means reversed, 0 means normal
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AP_Int8 reversed;
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AP_Enum16<Aux_servo_function_t> function;
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// a pending output value as PWM
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uint16_t output_pwm;
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// true for angle output type
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bool type_angle:1;
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// set_range() or set_angle() has been called
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bool type_setup:1;
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// the hal channel number
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uint8_t ch_num;
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// high point of angle or range output
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uint16_t high_out;
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// convert a 0..range_max to a pwm
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uint16_t pwm_from_range(float scaled_value) const;
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// convert a -angle_max..angle_max to a pwm
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uint16_t pwm_from_angle(float scaled_value) const;
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// convert a scaled output to a pwm value
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void calc_pwm(float output_scaled);
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// output value based on function
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void output_ch(void);
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// setup output type and range based on function
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void aux_servo_function_setup(void);
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// return PWM for a given limit value
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uint16_t get_limit_pwm(Limit limit) const;
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// get normalised output from -1 to 1, assuming 0 at mid point of servo_min/servo_max
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float get_output_norm(void);
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// a bitmask type wide enough for NUM_SERVO_CHANNELS
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typedef uint32_t servo_mask_t;
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// mask of channels where we have a output_pwm value. Cleared when a
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// scaled value is written.
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static servo_mask_t have_pwm_mask;
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// previous radio_in during pass-thru
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int16_t previous_radio_in;
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// specify that small rcinput changes should be ignored during passthrough
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// used by DO_SET_SERVO commands
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bool ign_small_rcin_changes;
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// if true we should ignore all imputs on this channel
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bool override_active;
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void set_override(bool b) {override_active = b;};
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};
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/*
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class SRV_Channels
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*/
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class SRV_Channels {
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public:
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friend class SRV_Channel;
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// constructor
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SRV_Channels(void);
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static const struct AP_Param::GroupInfo var_info[];
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// set the default function for a channel
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static void set_default_function(uint8_t chan, SRV_Channel::Aux_servo_function_t function);
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// set output value for a function channel as a pwm value
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static void set_output_pwm(SRV_Channel::Aux_servo_function_t function, uint16_t value);
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// set output value for a specific function channel as a pwm value
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static void set_output_pwm_chan(uint8_t chan, uint16_t value);
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// get output value for a specific channel as a pwm value
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static bool get_output_pwm_chan(uint8_t chan, uint16_t &value);
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// set output value for a specific function channel as a pwm value for specified override time in ms
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static void set_output_pwm_chan_timeout(uint8_t chan, uint16_t value, uint16_t timeout_ms);
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// set output value for a function channel as a scaled value. This
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// this should be followed by a call to calc_pwm() to output the pwm values
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static void set_output_scaled(SRV_Channel::Aux_servo_function_t function, float value);
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// get scaled output for the given function type.
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static float get_output_scaled(SRV_Channel::Aux_servo_function_t function);
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// get slew limited scaled output for the given function type
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static float get_slew_limited_output_scaled(SRV_Channel::Aux_servo_function_t function);
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// get pwm output for the first channel of the given function type.
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static bool get_output_pwm(SRV_Channel::Aux_servo_function_t function, uint16_t &value);
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// get normalised output (-1 to 1 with 0 at mid point of servo_min/servo_max)
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// Value is taken from pwm value. Returns zero on error.
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static float get_output_norm(SRV_Channel::Aux_servo_function_t function);
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// set normalised output (-1 to 1 with 0 at mid point of servo_min/servo_max) for the given function
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static void set_output_norm(SRV_Channel::Aux_servo_function_t function, float value);
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// get output channel mask for a function
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static uint32_t get_output_channel_mask(SRV_Channel::Aux_servo_function_t function);
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// limit slew rate to given limit in percent per second
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static void set_slew_rate(SRV_Channel::Aux_servo_function_t function, float slew_rate, uint16_t range, float dt);
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// call output_ch() on all channels
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static void output_ch_all(void);
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// setup output ESC scaling based on a channels MIN/MAX
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void set_esc_scaling_for(SRV_Channel::Aux_servo_function_t function);
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// return true when auto_trim enabled
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bool auto_trim_enabled(void) const { return auto_trim; }
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// adjust trim of a channel by a small increment
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void adjust_trim(SRV_Channel::Aux_servo_function_t function, float v);
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// set MIN/MAX parameters for a function
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static void set_output_min_max(SRV_Channel::Aux_servo_function_t function, uint16_t min_pwm, uint16_t max_pwm);
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// set MIN/MAX parameter defaults for a function
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static void set_output_min_max_defaults(SRV_Channel::Aux_servo_function_t function, uint16_t min_pwm, uint16_t max_pwm);
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// Save MIN/MAX/REVERSED parameters for a function
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static void save_output_min_max(SRV_Channel::Aux_servo_function_t function, uint16_t min_pwm, uint16_t max_pwm);
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// save trims
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void save_trim(void);
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// setup IO failsafe for all channels to trim
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static void setup_failsafe_trim_all_non_motors(void);
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// set output for all channels matching the given function type, allow radio_trim to center servo
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static void set_output_pwm_trimmed(SRV_Channel::Aux_servo_function_t function, int16_t value);
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// set and save the trim for a function channel to the output value
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static void set_trim_to_servo_out_for(SRV_Channel::Aux_servo_function_t function);
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// set the trim for a function channel to min of the channel honnoring reverse unless ignore_reversed is true
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static void set_trim_to_min_for(SRV_Channel::Aux_servo_function_t function, bool ignore_reversed = false);
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// set the trim for a function channel to given pwm
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static void set_trim_to_pwm_for(SRV_Channel::Aux_servo_function_t function, int16_t pwm);
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// set output to min value
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static void set_output_to_min(SRV_Channel::Aux_servo_function_t function);
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// set output to max value
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static void set_output_to_max(SRV_Channel::Aux_servo_function_t function);
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// set output to trim value
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static void set_output_to_trim(SRV_Channel::Aux_servo_function_t function);
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// copy radio_in to servo out
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static void copy_radio_in_out(SRV_Channel::Aux_servo_function_t function, bool do_input_output=false);
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// copy radio_in to servo_out by channel mask
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static void copy_radio_in_out_mask(uint32_t mask);
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// setup failsafe for an auxiliary channel function, by pwm
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static void set_failsafe_pwm(SRV_Channel::Aux_servo_function_t function, uint16_t pwm);
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// setup failsafe for an auxiliary channel function
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static void set_failsafe_limit(SRV_Channel::Aux_servo_function_t function, SRV_Channel::Limit limit);
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// set servo to a Limit
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static void set_output_limit(SRV_Channel::Aux_servo_function_t function, SRV_Channel::Limit limit);
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// return true if a function is assigned to a channel
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static bool function_assigned(SRV_Channel::Aux_servo_function_t function);
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// set a servo_out value, and angle range, then calc_pwm
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static void move_servo(SRV_Channel::Aux_servo_function_t function,
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int16_t value, int16_t angle_min, int16_t angle_max);
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// assign and enable auxiliary channels
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void enable_aux_servos(void);
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// enable channels by mask
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static void enable_by_mask(uint32_t mask);
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// return the current function for a channel
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static SRV_Channel::Aux_servo_function_t channel_function(uint8_t channel);
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// refresh aux servo to function mapping
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static void update_aux_servo_function(void);
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// set default channel for an auxiliary function
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static bool set_aux_channel_default(SRV_Channel::Aux_servo_function_t function, uint8_t channel);
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// find first channel that a function is assigned to
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static bool find_channel(SRV_Channel::Aux_servo_function_t function, uint8_t &chan);
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// find first channel that a function is assigned to, returning SRV_Channel object
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static SRV_Channel *get_channel_for(SRV_Channel::Aux_servo_function_t function);
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// call set_angle() on matching channels
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static void set_angle(SRV_Channel::Aux_servo_function_t function, uint16_t angle);
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// call set_range() on matching channels
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static void set_range(SRV_Channel::Aux_servo_function_t function, uint16_t range);
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// set output refresh frequency on a servo function
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static void set_rc_frequency(SRV_Channel::Aux_servo_function_t function, uint16_t frequency);
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// control pass-thru of channels
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void disable_passthrough(bool disable) {
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disabled_passthrough = disable;
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}
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// constrain to output min/max for function
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static void constrain_pwm(SRV_Channel::Aux_servo_function_t function);
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// calculate PWM for all channels
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static void calc_pwm(void);
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// return the ESC type for dshot commands
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static AP_HAL::RCOutput::DshotEscType get_dshot_esc_type() { return AP_HAL::RCOutput::DshotEscType(_singleton->dshot_esc_type.get()); }
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static uint8_t get_dshot_rate() { return _singleton->dshot_rate.get(); }
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static uint32_t get_rc_fs_mask() { return _singleton->rc_fs_mask.get(); }
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static SRV_Channel *srv_channel(uint8_t i) {
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#if NUM_SERVO_CHANNELS > 0
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return i<NUM_SERVO_CHANNELS?&channels[i]:nullptr;
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#else
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return nullptr;
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#endif
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}
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// SERVO* parameters
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static void upgrade_parameters(void);
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// given a zero-based motor channel, return the k_motor function for that channel
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static SRV_Channel::Aux_servo_function_t get_motor_function(uint8_t channel) {
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if (channel < 8) {
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return SRV_Channel::Aux_servo_function_t(SRV_Channel::k_motor1+channel);
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}
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return SRV_Channel::Aux_servo_function_t((SRV_Channel::k_motor9+(channel-8)));
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}
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void cork();
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void push();
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// disable PWM output to a set of channels given by a mask. This is used by the AP_BLHeli code
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static void set_disabled_channel_mask(uint32_t mask) { disabled_mask = mask; }
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static uint32_t get_disabled_channel_mask() { return disabled_mask; }
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// add to mask of outputs which use digital (non-PWM) output and optionally can reverse thrust, such as DShot
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static void set_digital_outputs(uint32_t dig_mask, uint32_t rev_mask);
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// return true if all of the outputs in mask are digital
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static bool have_digital_outputs(uint32_t mask) { return mask != 0 && (mask & digital_mask) == mask; }
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// return true if any of the outputs are digital
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static bool have_digital_outputs() { return digital_mask != 0; }
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// Set E - stop
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static void set_emergency_stop(bool state);
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// get E - stop
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static bool get_emergency_stop() { return emergency_stop;}
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// singleton for Lua
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static SRV_Channels *get_singleton(void) {
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return _singleton;
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}
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static void zero_rc_outputs();
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// initialize before any call to push
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void init(uint32_t motor_mask = 0, AP_HAL::RCOutput::output_mode mode = AP_HAL::RCOutput::MODE_PWM_NONE);
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// return true if a channel is set to type GPIO
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static bool is_GPIO(uint8_t channel);
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// return true if a channel is set to type alarm
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static bool is_alarm(uint8_t channel) {
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return channel_function(channel) == SRV_Channel::k_alarm;
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}
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// return true if a channel is set to type alarm inverted
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static bool is_alarm_inverted(uint8_t channel) {
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return channel_function(channel) == SRV_Channel::k_alarm_inverted;
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}
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// return true if 32 channels are enabled
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static bool have_32_channels() {
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#if NUM_SERVO_CHANNELS >= 17
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return _singleton->enable_32_channels.get() > 0;
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#else
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return false;
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#endif
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}
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private:
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static bool disabled_passthrough;
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SRV_Channel::servo_mask_t trimmed_mask;
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static Bitmask<SRV_Channel::k_nr_aux_servo_functions> function_mask;
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static bool initialised;
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// this static arrangement is to avoid having static objects in AP_Param tables
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static SRV_Channel *channels;
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static SRV_Channels *_singleton;
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#if AP_VOLZ_ENABLED
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// support for Volz protocol
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AP_Volz_Protocol volz;
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#endif
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#if AP_SBUSOUTPUT_ENABLED
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// support for SBUS protocol
|
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AP_SBusOut sbus;
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#endif
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#if AP_ROBOTISSERVO_ENABLED
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// support for Robotis servo protocol
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AP_RobotisServo robotis;
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#endif
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#if HAL_SUPPORT_RCOUT_SERIAL
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// support for BLHeli protocol
|
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AP_BLHeli blheli;
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#endif
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#if AP_FETTEC_ONEWIRE_ENABLED
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AP_FETtecOneWire fetteconwire;
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#endif // AP_FETTEC_ONEWIRE_ENABLED
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|
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// mask of disabled channels
|
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static uint32_t disabled_mask;
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// mask of outputs which use a digital output protocol, not
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// PWM (eg. DShot)
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static uint32_t digital_mask;
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// mask of outputs which are digitally reversible (eg. DShot-3D)
|
|
static uint32_t reversible_mask;
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|
|
// mask of channels with invalid funtions, eg GPIO
|
|
static uint32_t invalid_mask;
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|
|
SRV_Channel obj_channels[NUM_SERVO_CHANNELS];
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|
|
// override loop counter
|
|
static uint16_t override_counter[NUM_SERVO_CHANNELS];
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|
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static struct srv_function {
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|
// mask of what channels this applies to
|
|
SRV_Channel::servo_mask_t channel_mask;
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|
|
// scaled output for this function
|
|
float output_scaled;
|
|
} functions[SRV_Channel::k_nr_aux_servo_functions];
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|
|
|
AP_Int8 auto_trim;
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|
AP_Int16 default_rate;
|
|
AP_Int8 dshot_rate;
|
|
AP_Int8 dshot_esc_type;
|
|
AP_Int32 gpio_mask;
|
|
AP_Int32 rc_fs_mask;
|
|
#if NUM_SERVO_CHANNELS >= 17
|
|
AP_Int8 enable_32_channels;
|
|
#endif
|
|
|
|
// return true if passthrough is disabled
|
|
static bool passthrough_disabled(void) {
|
|
return disabled_passthrough;
|
|
}
|
|
|
|
static bool emergency_stop;
|
|
|
|
// linked list for slew rate handling
|
|
struct slew_list {
|
|
slew_list(SRV_Channel::Aux_servo_function_t _func) : func(_func) {};
|
|
const SRV_Channel::Aux_servo_function_t func;
|
|
float last_scaled_output;
|
|
float max_change;
|
|
slew_list * next;
|
|
};
|
|
static slew_list *_slew;
|
|
|
|
// semaphore for multi-thread use of override_counter array
|
|
HAL_Semaphore override_counter_sem;
|
|
};
|
|
|
|
namespace AP {
|
|
SRV_Channels &srv();
|
|
};
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