mirror of https://github.com/ArduPilot/ardupilot
233 lines
7.2 KiB
C++
233 lines
7.2 KiB
C++
#include "Copter.h"
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/*
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* Function to update various parameters in flight using the ch6 tuning knob
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* This should not be confused with the AutoTune feature which can bve found in control_autotune.cpp
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*/
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// tuning - updates parameters based on the ch6 tuning knob's position
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// should be called at 3.3hz
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void Copter::tuning() {
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RC_Channel *rc6 = RC_Channels::rc_channel(CH_6);
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// exit immediately if not using tuning function, or when radio failsafe is invoked, so tuning values are not set to zero
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if ((g.radio_tuning <= 0) || failsafe.radio || failsafe.radio_counter != 0 || rc6->get_radio_in() == 0) {
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return;
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}
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uint16_t radio_in = rc6->get_radio_in();
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float v = constrain_float((radio_in - rc6->get_radio_min()) / float(rc6->get_radio_max() - rc6->get_radio_min()), 0, 1);
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int16_t control_in = g.radio_tuning_low + v * (g.radio_tuning_high - g.radio_tuning_low);
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float tuning_value = control_in / 1000.0f;
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// Tuning Value should never be outside the bounds of the specified low and high value
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tuning_value = constrain_float(tuning_value, g.radio_tuning_low/1000.0f, g.radio_tuning_high/1000.0f);
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Log_Write_Parameter_Tuning(g.radio_tuning, tuning_value, control_in, g.radio_tuning_low, g.radio_tuning_high);
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switch(g.radio_tuning) {
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// Roll, Pitch tuning
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case TUNING_STABILIZE_ROLL_PITCH_KP:
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attitude_control->get_angle_roll_p().kP(tuning_value);
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attitude_control->get_angle_pitch_p().kP(tuning_value);
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break;
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case TUNING_RATE_ROLL_PITCH_KP:
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attitude_control->get_rate_roll_pid().kP(tuning_value);
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attitude_control->get_rate_pitch_pid().kP(tuning_value);
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break;
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case TUNING_RATE_ROLL_PITCH_KI:
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attitude_control->get_rate_roll_pid().kI(tuning_value);
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attitude_control->get_rate_pitch_pid().kI(tuning_value);
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break;
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case TUNING_RATE_ROLL_PITCH_KD:
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attitude_control->get_rate_roll_pid().kD(tuning_value);
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attitude_control->get_rate_pitch_pid().kD(tuning_value);
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break;
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// Yaw tuning
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case TUNING_STABILIZE_YAW_KP:
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attitude_control->get_angle_yaw_p().kP(tuning_value);
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break;
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case TUNING_YAW_RATE_KP:
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attitude_control->get_rate_yaw_pid().kP(tuning_value);
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break;
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case TUNING_YAW_RATE_KD:
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attitude_control->get_rate_yaw_pid().kD(tuning_value);
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break;
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// Altitude and throttle tuning
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case TUNING_ALTITUDE_HOLD_KP:
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pos_control->get_pos_z_p().kP(tuning_value);
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break;
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case TUNING_THROTTLE_RATE_KP:
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pos_control->get_vel_z_p().kP(tuning_value);
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break;
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case TUNING_ACCEL_Z_KP:
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pos_control->get_accel_z_pid().kP(tuning_value);
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break;
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case TUNING_ACCEL_Z_KI:
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pos_control->get_accel_z_pid().kI(tuning_value);
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break;
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case TUNING_ACCEL_Z_KD:
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pos_control->get_accel_z_pid().kD(tuning_value);
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break;
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// Loiter and navigation tuning
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case TUNING_LOITER_POSITION_KP:
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pos_control->get_pos_xy_p().kP(tuning_value);
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break;
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case TUNING_VEL_XY_KP:
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pos_control->get_vel_xy_pid().kP(tuning_value);
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break;
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case TUNING_VEL_XY_KI:
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pos_control->get_vel_xy_pid().kI(tuning_value);
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break;
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case TUNING_WP_SPEED:
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// set waypoint navigation horizontal speed to 0 ~ 1000 cm/s
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wp_nav->set_speed_xy(control_in);
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break;
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// Acro roll pitch gain
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case TUNING_ACRO_RP_KP:
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g.acro_rp_p = tuning_value;
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break;
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// Acro yaw gain
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case TUNING_ACRO_YAW_KP:
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g.acro_yaw_p = tuning_value;
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break;
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#if FRAME_CONFIG == HELI_FRAME
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case TUNING_HELI_EXTERNAL_GYRO:
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motors->ext_gyro_gain((float)control_in / 1000.0f);
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break;
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case TUNING_RATE_PITCH_FF:
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attitude_control->get_rate_pitch_pid().ff(tuning_value);
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break;
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case TUNING_RATE_ROLL_FF:
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attitude_control->get_rate_roll_pid().ff(tuning_value);
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break;
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case TUNING_RATE_YAW_FF:
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attitude_control->get_rate_yaw_pid().ff(tuning_value);
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break;
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#endif
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case TUNING_DECLINATION:
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// set declination to +-20degrees
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compass.set_declination(ToRad((2.0f * control_in - g.radio_tuning_high)/100.0f), false); // 2nd parameter is false because we do not want to save to eeprom because this would have a performance impact
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break;
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#if MODE_CIRCLE_ENABLED == ENABLED
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case TUNING_CIRCLE_RATE:
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// set circle rate up to approximately 45 deg/sec in either direction
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circle_nav->set_rate((float)control_in/25.0f-20.0f);
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break;
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#endif
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case TUNING_RANGEFINDER_GAIN:
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// set rangefinder gain
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g.rangefinder_gain.set(tuning_value);
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break;
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#if 0
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// disabled for now - we need accessor functions
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case TUNING_EKF_VERTICAL_POS:
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// Tune the EKF that is being used
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// EKF's baro vs accel (higher rely on accels more, baro impact is reduced)
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if (!ahrs.get_NavEKF2().enabled()) {
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ahrs.get_NavEKF()._gpsVertPosNoise = tuning_value;
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} else {
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ahrs.get_NavEKF2()._gpsVertPosNoise = tuning_value;
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}
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break;
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case TUNING_EKF_HORIZONTAL_POS:
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// EKF's gps vs accel (higher rely on accels more, gps impact is reduced)
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if (!ahrs.get_NavEKF2().enabled()) {
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ahrs.get_NavEKF()._gpsHorizPosNoise = tuning_value;
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} else {
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ahrs.get_NavEKF2()._gpsHorizPosNoise = tuning_value;
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}
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break;
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case TUNING_EKF_ACCEL_NOISE:
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// EKF's accel noise (lower means trust accels more, gps & baro less)
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if (!ahrs.get_NavEKF2().enabled()) {
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ahrs.get_NavEKF()._accNoise = tuning_value;
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} else {
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ahrs.get_NavEKF2()._accNoise = tuning_value;
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}
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break;
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#endif
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case TUNING_RC_FEEL_RP:
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// roll-pitch input smoothing
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g.rc_feel_rp = control_in / 10;
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break;
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case TUNING_RATE_PITCH_KP:
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attitude_control->get_rate_pitch_pid().kP(tuning_value);
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break;
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case TUNING_RATE_PITCH_KI:
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attitude_control->get_rate_pitch_pid().kI(tuning_value);
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break;
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case TUNING_RATE_PITCH_KD:
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attitude_control->get_rate_pitch_pid().kD(tuning_value);
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break;
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case TUNING_RATE_ROLL_KP:
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attitude_control->get_rate_roll_pid().kP(tuning_value);
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break;
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case TUNING_RATE_ROLL_KI:
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attitude_control->get_rate_roll_pid().kI(tuning_value);
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break;
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case TUNING_RATE_ROLL_KD:
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attitude_control->get_rate_roll_pid().kD(tuning_value);
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break;
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#if FRAME_CONFIG != HELI_FRAME
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case TUNING_RATE_MOT_YAW_HEADROOM:
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motors->set_yaw_headroom(tuning_value*1000);
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break;
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#endif
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case TUNING_RATE_YAW_FILT:
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attitude_control->get_rate_yaw_pid().filt_hz(tuning_value);
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break;
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#if WINCH_ENABLED == ENABLED
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case TUNING_WINCH: {
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float desired_rate = 0.0f;
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if (v > 0.6f) {
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desired_rate = g2.winch.get_rate_max() * (v - 0.6f) / 0.4f;
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}
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if (v < 0.4f) {
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desired_rate = g2.winch.get_rate_max() * (v - 0.4) / 0.4f;
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}
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g2.winch.set_desired_rate(desired_rate);
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break;
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}
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#endif
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}
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}
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