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/*----------------------------------------------------------------------------*/
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/* Copyright (c) 2018-2019 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;
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import com.ctre.phoenix.motorcontrol.InvertType;
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import com.ctre.phoenix.motorcontrol.NeutralMode;
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import com.ctre.phoenix.motorcontrol.can.TalonSRX;
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import com.ctre.phoenix.motorcontrol.can.WPI_TalonFX;
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import com.ctre.phoenix.sensors.CANCoder;
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import com.ctre.phoenix.sensors.PigeonIMU;
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import com.ctre.phoenix.sensors.WPI_Pigeon2;
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import edu.wpi.first.wpilibj.motorcontrol.Spark;
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import edu.wpi.first.wpilibj.drive.DifferentialDrive;
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import frc4388.robot.Constants.GyroConstants;
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import frc4388.robot.Constants.LEDConstants;
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import frc4388.robot.Constants.SwerveDriveConstants;
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import frc4388.robot.subsystems.SwerveModule;
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import frc4388.utility.RobotGyro;
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/**
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* Defines and holds all I/O objects on the Roborio. This is useful for unit
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* testing and modularization.
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*/
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public class RobotMap {
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private WPI_Pigeon2 m_pigeon2 = new WPI_Pigeon2(14);
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public RobotGyro gyro = new RobotGyro(m_pigeon2);
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private TalonSRX backleft = new TalonSRX(-1);
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public SwerveModule leftFront;
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public SwerveModule rightFront;
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public SwerveModule leftBack;
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public SwerveModule rightBack;
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public RobotMap() {
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configureLEDMotorControllers();
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configureDriveMotors();
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}
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/* LED Subsystem */
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public final Spark LEDController = new Spark(LEDConstants.LED_SPARK_ID);
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void configureLEDMotorControllers() {
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}
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// swerve drive subsystem
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public final WPI_TalonFX leftFrontWheel = new WPI_TalonFX(SwerveDriveConstants.IDs.LEFT_FRONT_WHEEL_ID);
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public final WPI_TalonFX leftFrontSteer = new WPI_TalonFX(SwerveDriveConstants.IDs.LEFT_FRONT_STEER_ID);
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public final CANCoder leftFrontEncoder = new CANCoder(SwerveDriveConstants.IDs.LEFT_FRONT_ENCODER_ID);
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public final WPI_TalonFX rightFrontWheel = new WPI_TalonFX(SwerveDriveConstants.IDs.RIGHT_FRONT_WHEEL_ID);
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public final WPI_TalonFX rightFrontSteer = new WPI_TalonFX(SwerveDriveConstants.IDs.RIGHT_FRONT_STEER_ID);
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public final CANCoder rightFrontEncoder = new CANCoder(SwerveDriveConstants.IDs.RIGHT_FRONT_ENCODER_ID);
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public final WPI_TalonFX leftBackWheel = new WPI_TalonFX(SwerveDriveConstants.IDs.LEFT_BACK_WHEEL_ID);
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public final WPI_TalonFX leftBackSteer = new WPI_TalonFX(SwerveDriveConstants.IDs.LEFT_BACK_STEER_ID);
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public final CANCoder leftBackEncoder = new CANCoder(SwerveDriveConstants.IDs.LEFT_BACK_ENCODER_ID);
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public final WPI_TalonFX rightBackWheel = new WPI_TalonFX(SwerveDriveConstants.IDs.RIGHT_BACK_WHEEL_ID);
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public final WPI_TalonFX rightBackSteer = new WPI_TalonFX(SwerveDriveConstants.IDs.RIGHT_BACK_STEER_ID);
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public final CANCoder rightBackEncoder = new CANCoder(SwerveDriveConstants.IDs.RIGHT_BACK_ENCODER_ID);
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void configureDriveMotors() {
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// config factory default
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leftFrontWheel.configFactoryDefault();
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leftFrontSteer.configFactoryDefault();
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rightFrontWheel.configFactoryDefault();
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rightFrontSteer.configFactoryDefault();
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leftBackWheel.configFactoryDefault();
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leftBackSteer.configFactoryDefault();
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rightBackWheel.configFactoryDefault();
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rightBackSteer.configFactoryDefault();
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// config open loop ramp
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leftFrontWheel.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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leftFrontSteer.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightFrontWheel.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightFrontSteer.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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leftBackWheel.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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leftBackSteer.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightBackWheel.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightBackSteer.configOpenloopRamp(SwerveDriveConstants.Configurations.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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// config closed loop ramp
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leftFrontWheel.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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leftFrontSteer.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightFrontWheel.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightFrontSteer.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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leftBackWheel.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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leftBackSteer.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightBackWheel.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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rightBackSteer.configClosedloopRamp(SwerveDriveConstants.Configurations.CLOSED_LOOP_RAMP_RATE, SwerveDriveConstants.TIMEOUT_MS);
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// config neutral deadband
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leftFrontSteer.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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leftFrontWheel.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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rightFrontWheel.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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rightFrontSteer.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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leftBackWheel.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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leftBackSteer.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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rightBackWheel.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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rightBackSteer.configNeutralDeadband(SwerveDriveConstants.Configurations.NEUTRAL_DEADBAND, SwerveDriveConstants.TIMEOUT_MS);
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// config magnet offset
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leftFrontEncoder.configMagnetOffset(SwerveDriveConstants.Configurations.LEFT_FRONT_ENCODER_OFFSET);
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rightFrontEncoder.configMagnetOffset(SwerveDriveConstants.Configurations.RIGHT_FRONT_ENCODER_OFFSET);
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leftBackEncoder.configMagnetOffset(SwerveDriveConstants.Configurations.LEFT_BACK_ENCODER_OFFSET);
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rightBackEncoder.configMagnetOffset(SwerveDriveConstants.Configurations.RIGHT_BACK_ENCODER_OFFSET);
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// initialize SwerveModules
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this.leftFront = new SwerveModule(leftFrontWheel, leftFrontSteer, leftFrontEncoder, SwerveDriveConstants.Configurations.LEFT_FRONT_ENCODER_OFFSET);
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this.rightFront = new SwerveModule(rightFrontWheel, rightFrontSteer, rightFrontEncoder, SwerveDriveConstants.Configurations.RIGHT_FRONT_ENCODER_OFFSET);
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this.leftBack = new SwerveModule(leftBackWheel, leftBackSteer, leftBackEncoder, SwerveDriveConstants.Configurations.LEFT_BACK_ENCODER_OFFSET);
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this.rightBack = new SwerveModule(rightBackWheel, rightBackSteer, rightBackEncoder, SwerveDriveConstants.Configurations.RIGHT_BACK_ENCODER_OFFSET);
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}
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}
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