mirror of
https://github.com/Team4388/RiseOfRidgebotics2020.git
synced 2026-06-09 08:48:01 -06:00
Split shooter.java
This commit is contained in:
ryan123rudder
@@ -29,23 +29,12 @@ import frc4388.utility.controller.IHandController;
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public class Shooter extends SubsystemBase {
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public WPI_TalonFX m_shooterFalcon = new WPI_TalonFX(ShooterConstants.SHOOTER_FALCON_ID);
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public CANSparkMax m_angleAdjustMotor = new CANSparkMax(ShooterConstants.SHOOTER_ANGLE_ADJUST_ID, MotorType.kBrushless);
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public CANSparkMax m_shooterRotateMotor = new CANSparkMax(ShooterConstants.SHOOTER_ROTATE_ID, MotorType.kBrushless);
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public static Gains m_shooterTurretGains = ShooterConstants.SHOOTER_TURRET_GAINS;
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public static Gains m_drumShooterGains = ShooterConstants.DRUM_SHOOTER_GAINS;
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public static Shooter m_shooter;
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public static IHandController m_controller;
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// Configure PID Controllers
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CANPIDController m_angleAdjustPIDController = m_angleAdjustMotor.getPIDController();
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CANPIDController m_shooterRotatePIDController = m_shooterRotateMotor.getPIDController();
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CANEncoder m_angleEncoder = m_angleAdjustMotor.getEncoder();
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CANEncoder m_shooterRotateEncoder = m_shooterRotateMotor.getEncoder();
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double velP;
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double input;
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public boolean velReached;
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@@ -57,11 +46,8 @@ public class Shooter extends SubsystemBase {
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*/
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public Shooter() {
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//Testing purposes reseting gyros
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resetGyroAngleAdj();
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resetGyroShooterRotate();
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m_shooterFalcon.configFactoryDefault();
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m_shooterRotateMotor.setIdleMode(IdleMode.kBrake);
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m_shooterFalcon.setNeutralMode(NeutralMode.Coast);
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m_shooterFalcon.setInverted(false);
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@@ -102,11 +88,12 @@ public class Shooter extends SubsystemBase {
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*/
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public void setShooterGains() {
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m_shooterFalcon.selectProfileSlot(ShooterConstants.SHOOTER_SLOT_IDX, ShooterConstants.SHOOTER_PID_LOOP_IDX);
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m_shooterFalcon.config_kF(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterTurretGains.m_kF, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kP(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterTurretGains.m_kP, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kI(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterTurretGains.m_kI, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kD(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterTurretGains.m_kD, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kF(ShooterConstants.SHOOTER_SLOT_IDX, m_drumShooterGains.m_kF, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kP(ShooterConstants.SHOOTER_SLOT_IDX, m_drumShooterGains.m_kP, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kI(ShooterConstants.SHOOTER_SLOT_IDX, m_drumShooterGains.m_kI, ShooterConstants.SHOOTER_TIMEOUT_MS);
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m_shooterFalcon.config_kD(ShooterConstants.SHOOTER_SLOT_IDX, m_drumShooterGains.m_kD, ShooterConstants.SHOOTER_TIMEOUT_MS);
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}
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/**
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* Runs drum shooter velocity PID.
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* @param falcon Motor to use
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@@ -136,55 +123,4 @@ public class Shooter extends SubsystemBase {
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velReached = false;
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}
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}
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public void runShooterWithInput(double input) {
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m_shooterRotateMotor.set(input);
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}
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/* Angle Adjustment PID Control */
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public void runAngleAdjustPID(double targetAngle)
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{
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// Set PID Coefficients
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m_angleAdjustPIDController.setP(m_shooterTurretGains.m_kP);
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m_angleAdjustPIDController.setI(m_shooterTurretGains.m_kI);
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m_angleAdjustPIDController.setD(m_shooterTurretGains.m_kD);
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m_angleAdjustPIDController.setIZone(m_shooterTurretGains.m_kIzone);
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m_angleAdjustPIDController.setFF(m_shooterTurretGains.m_kF);
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m_angleAdjustPIDController.setOutputRange(ShooterConstants.SHOOTER_TURRET_MIN, m_shooterTurretGains.m_kPeakOutput);
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// Convert input angle in degrees to rotations of the motor
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targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;
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m_angleAdjustPIDController.setReference(targetAngle, ControlType.kPosition);
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}
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/* Rotate Shooter PID Control */
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public void runshooterRotatePID(double targetAngle)
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{
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// Set PID Coefficients
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m_shooterRotatePIDController.setP(m_shooterTurretGains.m_kP);
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m_shooterRotatePIDController.setI(m_shooterTurretGains.m_kI);
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m_shooterRotatePIDController.setD(m_shooterTurretGains.m_kD);
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m_shooterRotatePIDController.setFF(m_shooterTurretGains.m_kF);
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m_shooterRotatePIDController.setIZone(m_shooterTurretGains.m_kIzone);
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m_shooterRotatePIDController.setOutputRange(ShooterConstants.SHOOTER_TURRET_MIN, m_shooterTurretGains.m_kPeakOutput);
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// Convert input angle in degrees to rotations of the motor
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targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;
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m_shooterRotatePIDController.setReference(targetAngle, ControlType.kPosition);
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}
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/* For Testing Purposes, reseting gyro for angle adjuster */
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public void resetGyroAngleAdj()
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{
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m_angleEncoder.setPosition(0);
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}
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/* For Testing Purposes, reseting gyro for shooter rotation */
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public void resetGyroShooterRotate()
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{
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m_shooterRotateEncoder.setPosition(0);
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}
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}
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@@ -0,0 +1,98 @@
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/*----------------------------------------------------------------------------*/
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/* Copyright (c) 2019 FIRST. All Rights Reserved. */
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/* Open Source Software - may be modified and shared by FRC teams. The code */
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/* must be accompanied by the FIRST BSD license file in the root directory of */
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/* the project. */
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/*----------------------------------------------------------------------------*/
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package frc4388.robot.subsystems;
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import com.revrobotics.CANEncoder;
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import com.revrobotics.CANPIDController;
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import com.revrobotics.CANSparkMax;
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import com.revrobotics.ControlType;
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import com.revrobotics.CANSparkMax.IdleMode;
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import com.revrobotics.CANSparkMaxLowLevel.MotorType;
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import edu.wpi.first.wpilibj2.command.SubsystemBase;
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import frc4388.robot.Gains;
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import frc4388.robot.Constants.ShooterConstants;
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public class ShooterAim extends SubsystemBase {
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public CANSparkMax m_angleAdjustMotor = new CANSparkMax(ShooterConstants.SHOOTER_ANGLE_ADJUST_ID, MotorType.kBrushless);
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public CANSparkMax m_shooterRotateMotor = new CANSparkMax(ShooterConstants.SHOOTER_ROTATE_ID, MotorType.kBrushless);
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public static Gains m_shooterTurretGains = ShooterConstants.SHOOTER_TURRET_GAINS;
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// Configure PID Controllers
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CANPIDController m_angleAdjustPIDController = m_angleAdjustMotor.getPIDController();
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CANPIDController m_shooterRotatePIDController = m_shooterRotateMotor.getPIDController();
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CANEncoder m_angleEncoder = m_angleAdjustMotor.getEncoder();
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CANEncoder m_shooterRotateEncoder = m_shooterRotateMotor.getEncoder();
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/**
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* Creates a new ShooterAim.
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*/
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public ShooterAim() {
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resetGyroAngleAdj();
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resetGyroShooterRotate();
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m_shooterRotateMotor.setIdleMode(IdleMode.kBrake);
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m_angleAdjustMotor.setIdleMode(IdleMode.kBrake);
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}
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public void runShooterWithInput(double input) {
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m_shooterRotateMotor.set(input);
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}
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/* Angle Adjustment PID Control */
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public void runAngleAdjustPID(double targetAngle)
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{
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// Set PID Coefficients
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m_angleAdjustPIDController.setP(m_shooterTurretGains.m_kP);
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m_angleAdjustPIDController.setI(m_shooterTurretGains.m_kI);
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m_angleAdjustPIDController.setD(m_shooterTurretGains.m_kD);
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m_angleAdjustPIDController.setIZone(m_shooterTurretGains.m_kIzone);
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m_angleAdjustPIDController.setFF(m_shooterTurretGains.m_kF);
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m_angleAdjustPIDController.setOutputRange(ShooterConstants.SHOOTER_TURRET_MIN, m_shooterTurretGains.m_kPeakOutput);
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// Convert input angle in degrees to rotations of the motor
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targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;
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m_angleAdjustPIDController.setReference(targetAngle, ControlType.kPosition);
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}
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/* Rotate Shooter PID Control */
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public void runshooterRotatePID(double targetAngle)
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{
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// Set PID Coefficients
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m_shooterRotatePIDController.setP(m_shooterTurretGains.m_kP);
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m_shooterRotatePIDController.setI(m_shooterTurretGains.m_kI);
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m_shooterRotatePIDController.setD(m_shooterTurretGains.m_kD);
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m_shooterRotatePIDController.setFF(m_shooterTurretGains.m_kF);
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m_shooterRotatePIDController.setIZone(m_shooterTurretGains.m_kIzone);
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m_shooterRotatePIDController.setOutputRange(ShooterConstants.SHOOTER_TURRET_MIN, m_shooterTurretGains.m_kPeakOutput);
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// Convert input angle in degrees to rotations of the motor
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targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;
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m_shooterRotatePIDController.setReference(targetAngle, ControlType.kPosition);
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}
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/* For Testing Purposes, reseting gyro for angle adjuster */
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public void resetGyroAngleAdj()
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{
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m_angleEncoder.setPosition(0);
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}
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/* For Testing Purposes, reseting gyro for shooter rotation */
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public void resetGyroShooterRotate()
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{
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m_shooterRotateEncoder.setPosition(0);
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}
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@Override
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public void periodic() {
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// This method will be called once per scheduler run
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}
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}
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